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Glenwing

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  1. Like
    Glenwing got a reaction from 420WeedJesus in Display port cabling issues.   
    A DisplayPort to HDMI adapter needs to be connected directly to the PC. It relies on 3.3 V power from the DisplayPort port. Normal DP to DP cables do not carry this power through the cable, it is only available from the port. So adapters will not work through an extension like that.
  2. Agree
    Glenwing got a reaction from HenrySalayne in White Shadow on white things   
    This is VGA ghosting, it comes from a poor quality analog signal. A better cable may help.
  3. Agree
    Glenwing got a reaction from filpo in White Shadow on white things   
    This is VGA ghosting, it comes from a poor quality analog signal. A better cable may help.
  4. Informative
    Glenwing got a reaction from rcmaehl in Active Displayport ***MST*** to HDMI cable   
    Adapters don't have specific support for "MST"; that doesn't exist. But adapter support on MST outputs will depend on the device. Some work with both passive and active adapters, some only work with active adapters, and some don't work with any adapters. If you've tried passive adapters already then you should try an active adapter.
  5. Informative
    Glenwing got a reaction from Alex Atkin UK in How to seperate screen into quadrants   
    Max is 4 on NVIDIA, not 3.
  6. Like
    Glenwing got a reaction from Joe Bauers in Graphics card for 6 monitors.   
    5700 XT dropped to 4 displays max, that's why they carefully changed the wording to say "6 display outputs" instead of "supports 6 displays".
     
    https://www.amd.com/system/files/documents/radeon-rx-5700-series-quick-start-guide-en.pdf
  7. Informative
    Glenwing got a reaction from Eigenvektor in Graphics card for 6 monitors.   
    5700 XT dropped to 4 displays max, that's why they carefully changed the wording to say "6 display outputs" instead of "supports 6 displays".
     
    https://www.amd.com/system/files/documents/radeon-rx-5700-series-quick-start-guide-en.pdf
  8. Agree
    Glenwing reacted to mariushm in Is it okay to leave PSU Switch On?   
    Computer power supplies are actually made out of two power supplies, a very small one that provides stand-by power (behaves more or like your phone charger, it consumes practically nothing in idle) and the big power supply that's turned on only when you press the actual button on the case (or the BIOS can turn it on if it receives events  like mouse click or keyboard press, a special network packet coming to the network card - helpful for a network adminstrator to remotely turn on a computer to install updates to it for example - IF these are configured in bios)
     
    This stand-by power supply is always on, even when you shut down the computer, and besides powering the chipset on the motherboard (so that it can monitor for power-on events as I explained above)
     
    This stand-by power supply  also has the secondary purpose of taking over the role of keeping the bios settings and everything fresh by disconnecting the CR2032 battery installed on the motherboard, to extend that battery's life. If the power supply can't provide this stand-by power (because you unplug or flip that on/off switch), the battery has to be used.
    The CR2032 battery is not rechargeable and will typically last for maybe less than a year, if it has to keep those settings without help from the power supply.
     
    You don't have to replace that battery so often - it typically lasts for 5+ years, even 10 years - because while computer is running, the stand-by power supply takes over and while shut down and power supply is not turned on, it also keeps powering that circuit saving the battery.
     
    So if you keep turning off the power supply, you may have to replace the CR2032 battery on the motherboard more often, could be even once every 6 months or so, depends on battery and motherboard.
     
    Also keep in mind that those on/off buttons have a finite life, but usually it's quite big, like in the 5,000 - 10,000 cycles ...
     
    TLDR ... you should only flip that on/off switch to protect your computer from bad weather, so if there's heavy storm outside or if you go away for some extended period of time but even then it would be safer to just unplug the power strip from the mains socket to have complete separation from the house electricity  - a lightning strike that manages to get into the house wiring can jump through the air over the button contacts even when the button is on the OFF position.
  9. Like
    Glenwing got a reaction from TatamiMatt in In my Aspire E 15 (E5-571-5706) laptop having I2C problem   
    Threads merged. Please do not post the same thread in multiple locations.
  10. Like
    Glenwing got a reaction from tuhin1711 in In my Aspire E 15 (E5-571-5706) laptop having I2C problem   
    Threads merged. Please do not post the same thread in multiple locations.
  11. Like
    Glenwing got a reaction from Hakiroto in Guide to Display Cables / Adapters (v2)   
    Display Cables and Adapters Guide Glenwing’s Guide to Display Cables / Adapters
    This is a guide intended to assist with the selection of cables and adapters. It covers the different types of DisplayPort, HDMI, DVI, VGA, and USB-C cables, as well as every possible combination of adapters between these interfaces. This guide features an interactive JavaScript interface which allows you to select the exact combination of interfaces you are interested in, to make it easy to find the information you are looking for. This guide also contains a video data rate calculator for calculation how much data a given video format requires, as well as the maximum refresh frequency each video interface is capable of at the given resolution. DisplayPort
    Transmission Mode RBR HBR HBR2 HBR3 UHBR 10 UHBR 13.5 UHBR 20 DP Version
    Introduced In 1.0 1.2 1.3 2.0 Transmission Bit Rate (Maximum Data Rate) 6.48 Gbit/s (5.184 Gbit/s) 10.80 Gbit/s (8.64 Gbit/s) 21.60 Gbit/s (17.28 Gbit/s) 32.40 Gbit/s (25.92 Gbit/s) 40.00 Gbit/s (38.69 Gbit/s) 54.00 Gbit/s (52.22 Gbit/s) 80.00 Gbit/s (77.37 Gbit/s) Resolution Maximum Refresh Frequency* 2K 1920 × 1080 (16∶9) 1920 × 1200 (16∶10)
    85 Hz 85 Hz
    144 Hz 120 Hz
    240 Hz 240 Hz
    360 Hz 360 Hz
    600+ Hz 600+ Hz
    600+ Hz 600+ Hz
    600+ Hz 600+ Hz 2.5K 2560 × 1080 (≈21∶9) 2560 × 1440 (16∶9) 2560 × 1600 (16∶10)
    60 Hz 50 Hz 50 Hz
    100 Hz 85 Hz 75 Hz
    200 Hz 165 Hz 144 Hz
    300 Hz 240 Hz 200 Hz
    420 Hz 360 Hz 360 Hz
    600+ Hz 540 Hz 480 Hz
    600+ Hz 600+ Hz 600+ Hz 3.5K 3440 × 1440 (≈21∶9)
    30 Hz
    60 Hz
    120 Hz
    180 Hz
    300 Hz
    360 Hz
    600 Hz 4K 3840 × 1600 (≈21∶9) 3840 × 2160 (16∶9) 4096 × 2160 (≈19∶10)
    30 Hz 24 Hz -
    50 Hz 30 Hz 30 Hz
    100 Hz 75 Hz 75 Hz
    144 Hz 120 Hz 100 Hz
    200 Hz 165 Hz 165 Hz
    300 Hz 240 Hz 200 Hz
    480 Hz 300 Hz 300 Hz 5K 5120 × 2160 (≈21∶9) 5120 × 2880 (16∶9)
    - -
    30 Hz -
    60 Hz 30 Hz
    85 Hz 60 Hz
    120 Hz 100 Hz
    180 Hz 120 Hz
    240 Hz 200 Hz 8K 7680 × 4320 (16∶9)
    -
    -
    -
    30 Hz
    30 Hz
    60 Hz
    85 Hz * Only the highest common / standard frequencies are listed (24 / 30 / 50 / 60 / 75 / 85 / 100 / 120 / 144 / 165 / 180  / 200 / 240 Hz, or higher multiples of 60). This table is not meant to list the absolute limits down to the very last Hz. For more exact limits, or for other resolutions, refer to the data rate calculator here.

    Uncompressed 8 bpc RGB color and CVT-R2 timing are assumed on this table. Maximum frequency may be different when different settings are used. For frequency limits at different settings or resolutions, refer to the data rate calculator here. HDMI Version 1.0–1.2 1.3–1.4 2.0 2.1 Maximum Bit Rate (Maximum Data Rate) 4.95 Gbit/s (3.96 Gbit/s) 10.20 Gbit/s (8.16 Gbit/s) 18.00 Gbit/s (14.40 Gbit/s) 48.00 Gbit/s (41.92 Gbit/s) Resolution Maximum Refresh Frequency* 2K 1920 × 1080 (16∶9) 1920 × 1200 (16∶10)
    60 Hz 60 Hz
    144 Hz 120 Hz
    240 Hz 200 Hz
    480+ Hz 480+ Hz 2.5K 2560 × 1080 (≈21∶9) 2560 × 1440 (16∶9) 2560 × 1600 (16∶10)
    50 Hz 30 Hz 30 Hz
    100 Hz 85 Hz 75 Hz
    180 Hz 144 Hz 120 Hz
    480+ Hz 360 Hz 300 Hz 3.5K 3440 × 1440 (≈21∶9)
    30 Hz
    60 Hz
    100 Hz
    300 Hz 4K 3840 × 1600 (≈21∶9) 3840 × 2160 (16∶9) 4096 × 2160 (≈19∶10)
    24 Hz - -
    50 Hz 30 Hz 30 Hz
    85 Hz 60 Hz 60 Hz
    240 Hz 180 Hz 180 Hz 5K 5120 × 2160 (≈21∶9) 5120 × 2880 (16∶9)
    - -
    24 Hz -
    50 Hz 30 Hz
    144 Hz 100 Hz 8K 7680 × 4320 (16∶9)
    -
    -
    -
    50 Hz * Only the highest common / standard frequencies are listed (24 / 30 / 50 / 60 / 75 / 85 / 100 / 120 / 144 / 180 / 200 / 240 Hz, or higher multiples of 60). This table is not meant to list the absolute limits down to the very last Hz. For more exact limits, or for other resolutions, refer to the data rate calculator here.

    Uncompressed 8 bpc RGB color and CVT-R2 timing are assumed on this table. Maximum frequency may be different when different settings are used. For frequency limits at different settings or resolutions, refer to the data rate calculator here. DVI Type Single-Link
    DVI-D / DVI-I Typical
    Dual-Link
    DVI-D / DVI-I Maximum Bit Rate (Maximum Data Rate) 4.95 Gbit/s (3.96 Gbit/s) ≈9.90 Gbit/s* (≈7.92 Gbit/s*) Resolution Maximum Refresh Frequency** 2K 1920 × 1080 (16∶9) 1920 × 1200 (16∶10)
    60 Hz 60 Hz
    144 Hz 120 Hz 2.5K 2560 × 1080 (≈21∶9) 2560 × 1440 (16∶9) 2560 × 1600 (16∶10)
    50 Hz 30 Hz 30 Hz
    100 Hz 75 Hz 60 Hz 3.5K 3440 × 1440 (≈21∶9)
    30 Hz
    60 Hz 4K 3840 × 1600 (≈21∶9) 3840 × 2160 (16∶9) 4096 × 2160 (≈19∶10)
    24 Hz - -
    50 Hz 30 Hz 30 Hz 5K 5120 × 2160 (≈21∶9) 5120 × 2880 (16∶9)
    - -
    24 Hz - 8K 7680 × 4320 (16∶9)
    -
    - * The DVI Specification does not establish any maximum limit for dual-link operation. Maximum limits are up to the individual device. 330 Mpx/s (9.90 Gbit/s), as shown in this table, is a typical upper limit for real-world devices, but some devices may support higher speeds.

    ** Only the highest common / standard frequencies are listed (24 / 30 / 50 / 60 / 75 / 85 / 100 / 120 / 144 / 180 / 200 / 240 Hz, or higher multiples of 60). This table is not meant to list the absolute limits down to the very last Hz. For more exact limits, or for other resolutions, refer to the data rate calculator here.

    Uncompressed 8 bpc RGB color and CVT-R2 timing are assumed on this table. Maximum frequency may be different when different settings are used. For frequency limits at different settings or resolutions, refer to the data rate calculator here. Version Thunderbolt Thunderbolt 2 Video Protocol Used DisplayPort 1.1 (4 HBR Lanes) DisplayPort 1.2 (4 HBR2 Lanes) Maximum Data Rate 8.64 Gbit/s 17.28 Gbit/s Resolution Maximum Refresh Frequency* 2K 1920 × 1080 (16∶9) 1920 × 1200 (16∶10)
    144 Hz 120 Hz
    240 Hz 240 Hz 2.5K 2560 × 1080 (≈21∶9) 2560 × 1440 (16∶9) 2560 × 1600 (16∶10)
    100 Hz 85 Hz 75 Hz
    200 Hz 144 Hz 144 Hz 3.5K 3440 × 1440 (≈21∶9)
    60 Hz
    120 Hz 4K 3840 × 1600 (≈21∶9) 3840 × 2160 (16∶9) 4096 × 2160 (≈19∶10)
    50 Hz 30 Hz 30 Hz
    100 Hz 75 Hz 75 Hz 5K 5120 × 2160 (≈21∶9) 5120 × 2880 (16∶9)
    30 Hz -
    60 Hz 30 Hz 8K 7680 × 4320 (16∶9)
    -
    - * Only the highest common / standard frequencies are listed (24 / 30 / 50 / 60 / 75 / 85 / 100 / 120 / 144 / 180 / 200 / 240 Hz, or higher multiples of 60). This table is not meant to list the absolute limits down to the very last Hz. For more exact limits, or for other resolutions, refer to the data rate calculator here.

    Uncompressed 8 bpc RGB color and CVT-R2 timing are assumed on this table. Maximum frequency may be different when different settings are used. For frequency limits at different settings or resolutions, refer to the data rate calculator here. Thunderbolt 3
    Video Mode HBR2 ×4 HBR3 ×4 HBR2 ×8 Maximum Data Rate 17.28 Gbit/s 25.92 Gbit/s 34.56 Gbit/s Resolution Maximum Refresh Frequency* 2K 1920 × 1080 (16∶9) 1920 × 1200 (16∶10)
    240 Hz 240 Hz
    360 Hz 360 Hz
    480+ Hz 420 Hz 2.5K 2560 × 1080 (≈21∶9) 2560 × 1440 (16∶9) 2560 × 1600 (16∶10)
    200 Hz 144 Hz 144 Hz
    300 Hz 240 Hz 200 Hz
    360 Hz 300 Hz 240 Hz 3.5K 3440 × 1440 (≈21∶9)
    120 Hz
    180 Hz
    240 Hz 4K 3840 × 1600 (≈21∶9) 3840 × 2160 (16∶9) 4096 × 2160 (≈19∶10)
    100 Hz 75 Hz 75 Hz
    144 Hz 120 Hz 100 Hz
    200 Hz 144 Hz 144 Hz 5K 5120 × 2160 (≈21∶9) 5120 × 2880 (16∶9)
    60 Hz 30 Hz
    85 Hz 60 Hz
    120 Hz 85 Hz 8K 7680 × 4320 (16∶9)
    -
    30 Hz
    30 Hz * Only the highest common / standard frequencies are listed (24 / 30 / 50 / 60 / 75 / 85 / 100 / 120 / 144 / 180 / 200 / 240 Hz, or higher multiples of 60). This table is not meant to list the absolute limits down to the very last Hz. For more exact limits, or for other resolutions, refer to the data rate calculator here.

    Uncompressed 8 bpc RGB color and CVT-R2 timing are assumed on this table. Maximum frequency may be different when different settings are used. For frequency limits at different settings or resolutions, refer to the data rate calculator here. DisplayPort to HDMI
    Passive Adapters Type 1
    (165 MHz) Type 2
    (300 MHz) DisplayPort Version Required DP 1.1 or higher DP 1.2 or higher Maximum Bit Rate (Maximum Data Rate) 4.95 Gbit/s (3.96 Gbit/s) 9.00 Gbit/s (7.20 Gbit/s) Resolution Maximum Refresh Frequency* 2K 1920 × 1080 (16∶9) 1920 × 1200 (16∶10)
    60 Hz 60 Hz
    120 Hz 100 Hz 2.5K 2560 × 1080 (≈21∶9) 2560 × 1440 (16∶9) 2560 × 1600 (16∶10)
    50 Hz 30 Hz 30 Hz
    85 Hz 75 Hz 60 Hz 3.5K 3440 × 1440 (≈21∶9)
    30 Hz
    50 Hz 4K 3840 × 1600 (≈21∶9) 3840 × 2160 (16∶9) 4096 × 2160 (≈19∶10)
    24 Hz - -
    30 Hz 30 Hz 30 Hz 5K 5120 × 2160 (≈21∶9) 5120 × 2880 (16∶9)
    - -
    24 Hz - 8K 7680 × 4320 (16∶9)
    -
    - * Only the highest common / standard frequencies are listed (24 / 30 / 50 / 60 / 75 / 85 / 100 / 120 / 144 / 180 / 200 / 240 Hz, or higher multiples of 60). This table is not meant to list the absolute limits down to the very last Hz. For more exact limits, or for other resolutions, refer to the data rate calculator here.

    Uncompressed 8 bpc RGB color and CVT-R2 timing are assumed on this table. Maximum frequency may be different when different settings are used. For frequency limits at different settings or resolutions, refer to the data rate calculator here. DVI-D DVI-I Single-Link DVI Single-Link or
    Dual-Link DVI Constants: VMIN = 0.00055 seconds DMIN = 0.2 (Minimum value of D. If the D formula is less than 0.2, use 0.2 for D instead) Input Variables: H = 4,096 pixels V = 2,560 pixels F = 240 Hz Formulas: D = 0.3 −  3,000 • [ ( 1⁄F ) − VMIN ] = 0.3 −  3,000 • [ ( 1⁄240 ) − 0.00055 ] = 0.296 V + 3 2,563   HBLANK = H • D = 4,096 • 0.296 = ( 1,720.3 )↓16 = 1,712 pixels 1 − D 1 − 0.296   VBLANK = (V + 3) • VMIN  + 4 = 2,563 • 0.00055  + 4 = ( 393.765 )↓ = 393 pixels ( 1⁄F ) − VMIN ( 1⁄240 ) − 0.00055   HEFFECTIVE = H + HBLANK = 4,096 + 1,712 = 5,808 pixels VEFFECTIVE = V + VBLANK = 2,560 + 393 = 2,953 pixels   Results can be checked against the official VESA CVT 1.2 spreadsheet, here:
    VESA CVT 1.2 Timing Generator.xlsx   Constants: VMIN = 0.00046 seconds HBLANK = 80 pixels Input Variables: H = 4,096 pixels V = 2,560 pixels F = 240 Hz Formulas: VBLANK = V • VMIN = 2,560 • 0.00046 = ( 317.7 )↑ = 318 pixels ( 1⁄F ) − VMIN ( 1⁄240 ) − 0.00046   HEFFECTIVE = H + HBLANK = 4,096 + 80 = 4,176 pixels VEFFECTIVE = V + VBLANK = 2,560 + 318 = 2,878 pixels   Results can be checked against the official VESA CVT 1.2 spreadsheet, here:
    VESA CVT 1.2 Timing Generator.xlsx   YCBCR Options for Connecting to a Display's DisplayPort Input Port [Link]
    The only port that can be easily adapted to DisplayPort is a USB Type-C port with DisplayPort Alternate Mode support (this includes Thunderbolt 3 ports), which can be done using a: USB Type-C to DisplayPort adapter Other than that, it is generally very difficult to connect to a monitor's DisplayPort input if you don't have a native DisplayPort output available from your computer/source device. There is no way to do this without an active adapter, and these adapters tend to be finicky and unreliable. If you don't have a native DisplayPort output on your device, consider trying to connect to a different type of port on the display. Active adapters to a DisplayPort input should only be considered as a last resort, if the display has no other available ports to connect to.

    If you absolutely need to connect to a monitor's DisplayPort input from a non-DP output, then the following options are available: HDMI to DisplayPort active adapter DVI to DisplayPort active adapter Neither of these options are really preferable over the other (both are finicky and unreliable), but HDMI to DisplayPort active adapters are slightly more common.

    DisplayPort-to-DVI or DisplayPort-to-HDMI passive adapters will NOT work for this configuration. These adapters only work from DisplayPort output to DVI/HDMI input, not in the reverse configuration. Options for Connecting to a Display's HDMI Input Port [Link]
    If you need to connect to a display's HDMI input, then the following options are available (in order of preference): DVI to HDMI passive adapter DisplayPort to HDMI passive adapter USB Type-C to HDMI active adapter VGA to HDMI active adapter DVI to HDMI passive adapters and DisplayPort to HDMI passive adapters are both equally preferable. Both are inexpensive, support inline audio (yes, DVI to HDMI passive adapters will support inline audio), and provide image quality identical to native HDMI without any added latency. If you do not have a DVI or DisplayPort output available, you can use a VGA to HDMI active adapter, but the image quality will only be equivalent to VGA, and inline audio will not be supported (though some adapters support audio over a separate cable). Options for Connecting to a Display's DVI Input Port [Link]
    Single-Link DVI provides enough bandwidth for 1920 × 1200 at 60 Hz or 2560 × 1600 at 30 Hz. Video formats which require more bandwidth than those (such as 1920 × 1080 at 144 Hz or 2560 × 1600 at 60 Hz) will require Dual-Link DVI.

    If you need to connect to a display's DVI input, and the bandwidth of single-link DVI is enough for your display, then the following options are available (in order of preference): HDMI to DVI passive adapter DisplayPort to DVI passive adapter DisplayPort to (Single-Link) DVI active adapter (required for 3+ monitors on some older graphics cards; see here) USB Type-C to DVI active adapter VGA to DVI-I passive adapter (ONLY if the display has a DVI-I port; this is very unusual) VGA to DVI-D active adapter If the extra bandwidth of dual-link DVI is required, there are two options available: DisplayPort to Dual-Link DVI active adapter USB Type-C to Dual-Link DVI active adapter HDMI to DVI passive adapters and DisplayPort to DVI passive adapters are both equally preferable. Both are inexpensive and provide image quality identical to native DVI without any added latency. These adapters only provide a Single-Link DVI connection, and will not work for video formats requiring more bandwidth than 1920 × 1200 at 60 Hz or equivalent. Inline audio is generally not supported through these adapters, but it depends on the display.

    VGA to DVI adapters (passive or active) will only provide image quality equivalent to native VGA.

    For DisplayPort/USB-C to dual-link DVI conversion, keep in mind that even most DisplayPort to DVI active adapters are still single-link only. These are common because older graphics cards required active adapters for multi-monitor configurations beyond two screens. So not just any DP or USB-C to DVI adapter will work, even if it's an active adapter. It must be clearly identified as a dual-link DVI adapter, with support for up to 1920 × 1080 at 120/144 Hz or 2560 × 1440 at 60 Hz. Options for Connecting to a Display's VGA Input Port [Link]
    If you need to connect to a display's VGA input, then the following options are available (in order of preference):
    DVI-I to VGA passive adapter (ONLY if the source device has a DVI-I port (shown below); this will not work in a DVI-D port) DisplayPort to VGA active adapter USB Type-C to VGA active adapter HDMI to VGA active adapter DVI-D to VGA active adapter

    DVI-I is a type of DVI + VGA combo port. A passive DVI-I to VGA adapter provides access to the VGA section of the port, and therefore is equivalent to a native VGA connection. Graphics cards and motherboards which do not have native VGA capability will not have DVI-I ports, and so these adapters will not work with those devices.

    If your graphics card/motherboard does not have a DVI-I port, then the next best option is a DisplayPort to VGA active adapter. These are inexpensive, reliable, and compact, and they are often mistaken as passive adapters. Passive DisplayPort to VGA adapters do not exist, but active DP to VGA adapters are very good.

    HDMI to VGA active adapters are usually larger, less reliable, and may require a power cable or USB for power. They are usually slightly more expensive than DisplayPort to VGA active adapters.

    DVI-D to VGA active adapters are no better or worse than HDMI to VGA active adapters, but they are much more difficult to find since historically most graphics cards have been equipped with DVI-I ports and shipped with a DVI-I to VGA passive adapter included, which has resulted in very low demand for DVI-D to VGA conversion devices. Options for Connecting to a Display's USB Type-C DisplayPort Alternate Mode Input Port [Link]
    USB Type-C DisplayPort Alternate Mode input ports found on displays can accept video from:
    USB Type-C DisplayPort Alternate Mode output ports USB Type-C Thunderbolt 3 Alternate Mode output ports as well as from other interfaces using the proper adapter. Currently there are adapters available for connecting to a USB Type-C display from DisplayPort or HDMI source: DisplayPort to USB Type-C active adapter HDMI to USB Type-C active adapter When connecting from a USB Type-C or TB3 output, a standard USB 3.1 Type-C cable can be used. No special adapter cables or active Thunderbolt cables are required, however it should be noted that not all USB Type-C cables are rated for USB 3.1 speeds.

    Not all USB Type-C ports have video capability. The ports on both the source and display must support USB DisplayPort Alternate Mode to be used for video. This is an optional feature and is not supported by all USB-C ports; laptops or motherboards with USB-C ports may or may not support video output through those ports, and displays with USB-C ports may or may not accept video input through those ports. Check your product's specifications carefully.

    Thunderbolt 3 ports also include DisplayPort 1.2 Alt Mode capability, so Thunderbolt 3 output ports on laptop or motherboards can be connected to displays that have non-Thunderbolt USB Type-C inputs.

    Options for Connecting to a Display's Thunderbolt 3 Input Port [Link]
    Thunderbolt 3 input ports will only accept video from Thunderbolt sources. Non-Thunderbolt USB Type-C ports using DisplayPort Alternate Mode are not compatible. No other connection types can be adapted to Thunderbolt 3.

    UPDATE JAN. 2018: Intel has released a new generation of Thunderbolt 3 controllers (the "Titan Ridge" family). Displays using these Titan Ridge TB3 controllers can accept video input from a non-Thunderbolt USB Type-C port with DisplayPort Alt Mode. This is the same as a USB-C to USB-C connection.

    For Thunderbolt 3 to Thunderbolt 3 connections: Thunderbolt 3 sources connected with a passive USB 3.1 Type-C cable (20 Gbit/s) will be limited to 4-lane mode (4K 60 Hz) Thunderbolt 3 sources connected with an active Thunderbolt 3 cable (40 Gbit/s) will be able to use the full 8-lane mode (5K 60 Hz) Thunderbolt and Thunderbolt 2 sources can be connected via an adapter, and will be limited to 4-lane mode In addition, displays may have further limitations of their own. There is currently only one Thunderbolt 3 monitor in existence (the LG 27MD5KA), and it only accepts input from Thunderbolt 3 and Thunderbolt 2 sources. Original Thunderbolt sources are not compatible.

    DisplayPort [Link]
     
    DisplayPort Capabilities Inline Audio Yes HDR Yes (DP 1.4+)
    No (DP 1.3 & Below) Multiple Video Streams
    From a Single Port Splitters/Hubs: Yes
    Daisy-Chaining: Yes Power Delivery
    (for charging) None
    Cables and Connectors

    What DisplayPort cable do I need?

    DisplayPort cables are not classified by a "version number". There are no "DP 1.2 cables" or "DP 1.4 cables". DisplayPort cables are rated by maximum transmission speed, such as "HBR2 cable" or "HBR3 cable".

    To determine what DisplayPort cable rating you need, it is as simple as checking what transmission speed you need, and getting a cable with that rating. The transmission speed you need is based on your monitor's video format. The table above can be used for quick reference for standard formats. For example, if you want to run 2560 × 1440 @ 144 Hz, you can see in the table above that HBR speed is limited to 85 Hz at 2560 × 1440, but the next highest speed (HBR2) is enough for up to 165 Hz. Therefore, HBR2 is sufficient for that monitor, and you will need a DisplayPort cable rated for HBR2 speed or higher. That's all there is to it. For non-standard formats, or for different options such as 10 bpc color depth (HDR), you can use the calculator at the bottom of this guide.

    Be warned that some cable manufacturers falsely claim that their DP cables can handle higher speeds than they really can, especially common for long cables (5+ metres). It is recommended to only buy DisplayPort cables that have been certified by VESA, the creators of the DisplayPort standard. Not all DisplayPort cables are certified. Non-certified cables are known to have fake speed/"version" ratings and even incorrect wiring. Some certified DP cable recommendations are listed further down.
    How is Mini DisplayPort different from full-size DisplayPort?

    It isn't. Mini DisplayPort (mDP) is just a different shape connector for the DisplayPort standard. It isn't some kind of completely different video standard. It is just an alternative connector that is sometimes used in place of the full-size DisplayPort connector. The electrical signals it carries are exactly the same as the full-size connector. The capabilities of DisplayPort are the same regardless of whether a full-size DP connector or a Mini DP connector is used. The only difference is the physical shape of the connector. If you have a laptop with a Mini DisplayPort output, you can just get a mDP to DP adapter or use an mDP to DP cable to attach to your monitor. There is no difference between the Mini DP connector and full-size connector other than the physical shape.
    DisplayPort Cable Recommendations

    If you just bought a new monitor with a DisplayPort input, it will almost always have a DisplayPort cable included in the box. You should generally just use the included cable if you can, there's no need to buy a new cable. The included cable is usually rated for whatever the monitor requires. You should only need to buy a DisplayPort cable if you need a longer cable than what is provided, or in the rare case that no DP cable is provided with the monitor. Since many people seem to be having trouble finding quality DisplayPort cables, here are some recommendations:

    DP to DP cable (HBR3 certified): Club3D CAC-2068 (2 metres / 6.6 feet) Club3D CAC-1060 (3 metres / 9.8 feet) Club3D CAC-1069B (4 metres / 13.1 feet) Club3D CAC-1061 (5 metres / 16.4 feet) Accell B088C-007B-23 (2 metres / 6.6 feet) DP to DP cable (HBR2 certified): Accell B142C-007B-2 (2 metres / 6.6 feet) Accell B142C-010B-2 (3 metres / 9.8 feet) Accell B142C-013B-2 (4 metres / 13.1 feet) Mini DP to DP cable (HBR3 certified): Club3D CAC-1115 (2 metres / 6.6 feet) Accell B119C-007B-23 (2 metres / 6.6 feet) Mini DP to DP cable (HBR2 certified): Accell B143B-007B (2 metres / 6.6 feet)
    What is the maximum length of a DisplayPort cable?

    The DisplayPort Standard does not define any specific maximum length for a DisplayPort cable. Some people may claim that the standard specifies a maximum limit of 2 metres, or 3 metres, or 5 metres, etc.; These claims are incorrect.

    DisplayPort compliance is based on whether the cable can pass a signal correctly or not, it isn't based on how the cable is physically constructed. The longer the cable is, the harder it is to pass the signal correctly, so there are practical limits on how long a cable can be made, but this is determined by manufacturing tolerances and may be different from vendor to vendor.

    There is no specific cutoff point where the DisplayPort standard says "cables cannot be longer than X metres". If you as a manufacturer can manage to make a really long cable that can still pass the signal test criteria, then it's a valid DisplayPort cable. No one at the testing center is going to say "your cable manages to pass the signal perfectly fine, but aha, it's longer than 5 metres so it's automatically disqualified!" A DisplayPort cable is a cable that passes DisplayPort signals. There are no restrictions on how long it can be or what it's made out of or anything else, as long as the output signal is correct and within specification.

    As practical matter, you can generally find DisplayPort cables up to 5 metres in length certified for HBR3 speed. Longer cables are available, but will generally be limited to HBR or sometimes HBR2 speed. For high-performance cables beyond 5 metres, you will likely need to look for an Active DisplayPort cable, which contains signal amplifiers or fiber optic transcievers.
    Which DisplayPort cables support FreeSync, inline audio, HDR, DSC, etc.?

    All DisplayPort features will work on any DisplayPort cable. There are no "special" DisplayPort cables required for inline audio, FreeSync, HDR, or anything else. Some people believe that you need a certain "version" of DP cable to use certain features. For example, people say that HDR was introduced in version 1.4, so you need a "DP 1.4 cable" to use it, or Adaptive-Sync (FreeSync/G-Sync) was added in version 1.2a, so you need a "DP 1.2a cable" or higher to use it. This is incorrect. The operation of these features has nothing to do with the cable, and support for these features is not affected by the cable. This is why cables are not classified by "version number", because cables don't determine what "version" of features are available. Cables only affect transmission speed, which is why they are classified by transmission speed ratings (HBR, HBR2, HBR3), not version numbers, feature support, or anything else.
    Compatibility

    Can I use a DP 1.4 cable with a DP 1.2 monitor, or vice versa?

    All DisplayPort cables are compatible with all DisplayPort devices. DisplayPort does not have different "versions" of cables. All DP cables have exactly the same configuration and wiring. The only difference between DisplayPort cables is the maximum speed they are capable of handling. This is why DP cables are rated by their maximum speed (HBR, HBR2, HBR3, etc.), not a version number like 1.2 or 1.4.

    If you use a lower-rated cable with a higher-rated monitor, the connection will be limited to the lower speed rating. For example, if you have a 2560 × 1440 144 Hz monitor, which requires HBR2 speed, but you use a cable that can only handle HBR, the connection will be limited to HBR speed, which limits you to 85 Hz at 2560 × 1440.
    What if my graphics card has DP 1.4 and my monitor only has DP 1.2, or vice versa?

    All DisplayPort devices are compatible with each other. DP 1.4 graphics cards can be connected to DP 1.2 monitors or vice versa. However, the connection will be limited to the capabilities of the lowest DP version. For example, if you attach a 4K 120 Hz monitor (which requires HBR3 speed) to an older graphics card that only supports DP 1.2 (which can only transmit at HBR2 speed), the monitor will still work, but you will be limited to 60 Hz at 4K, the maximum limit of HBR2.
    DisplayPort Standard

    The latest version of the DisplayPort standard available to the public is version 1.1a:
    DisplayPort Standard v1.1a DisplayPort Standard v1.1 DisplayPort Standard v1.0 Also available is the specification for the Mini DisplayPort connector:
    Mini DisplayPort Connector Standard v1.0 DisplayPort Source to HDMI Display [Link]
    Overview

    Note: DisplayPort output ports have the same capabilities regardless of whether it has a Mini DisplayPort connector or a full-size connector. Everything in this article is fully applicable to both types of ports.

    The following types of adapters are available for connecting a DP source to an HDMI display: Type 1 DP to HDMI passive adapters — These provide up to 60 Hz at 1920 × 1080 Type 2 DP to HDMI passive adapters — These provide up to 120 Hz at 1920 × 1080, 60 Hz at 2560 × 1440, or 30 Hz at 3840 × 2160 DP to HDMI 2.0 active adapters — These provide up to 240 Hz at 1920 × 1080, 144 Hz at 2560 × 1440, or 60 Hz at 3840 × 2160 DP to HDMI 2.1 active adapters — These provide up to 240 Hz at 2560 × 1440 or 120 Hz at 3840 × 2160, or higher if DSC is supported
    Passive Adapters

    Passive Adapters: DisplayPort Source to HDMI Display Bi-directional (Reversible): No Supports Inline Audio: Yes Supports FreeSync: Yes Image Quality: Same as HDMI Maximum Resolution / Frequency: Depends on equipment

    Show Maximum Limits Table   What is the maximum resolution / refresh frequency supported by a DP to HDMI passive adapter?

    There are two types of DisplayPort to HDMI passive adapters which support different speeds: Type 1 passive adapters support up to 4.95 Gbit/s (up to 60 Hz at 1920 × 1080 and 30 Hz at 2560 × 1440) Type 2 passive adapters support up to 9.0 Gbit/s (up to 120 Hz at 1920 × 1080, 60 Hz at 2560 × 1440, and 30 Hz at 3840 × 2160)
    (For a more detailed list of resolutions and refresh rates supported by each type, refer to the table above) DisplayPort 1.1 only supports Type 1 adapters*. DisplayPort 1.2 (and higher) supports both Type 1 and Type 2 adapters.
    *(Type 2 adapters will still work in a DP 1.1 port, but will be capped to the same speed as a Type 1 adapter) HDMI 2.0 speeds are only possible with active adapters, regardless of DisplayPort version.
    How to identify Type 1 and Type 2 adapters

    Retailers do not usually label their passive adapters as "Type 1" or "Type 2", so they must be identified by the maximum resolution claimed by the manufacturer. Type 1 passive adapters will usually list a maximum of 1920 × 1080 or 1920 × 1200 at 60 Hz, while Type 2 adapters often advertise "4K support" and will work up to 1920 × 1080 120 Hz or 3840 × 2160 30 Hz.
    Is there any advantage to using a DP-to-HDMI adapter instead of a straight HDMI connection?

    Using a DisplayPort to HDMI passive adapter does not provide any special advantage compared to a straight HDMI-to-HDMI connection. Any additional bandwidth, features, or other advantages of DisplayPort are NOT inherited by using a DP to HDMI adapter instead of a native HDMI output. The connection is limited to only the capabilities supported by HDMI.
    DisplayPort port compatibility

    DP to HDMI passive adapters are only compatible with DisplayPort outputs that support Dual-Mode DisplayPort ("DP++").

    Although DP++ is technically an optional feature, in practice nearly any DP output device will support it. Most manufacturers don't even bother labeling or advertising DP++ support. In general there is no need to check for this, you can safely assume all DP output devices support DP++. The "version" of a DP port or adapter does not affect compatibility.
    HDMI port compatibility

    DP to HDMI passive adapters are compatible with all HDMI ports.

    The "version" of the HDMI port or adapter does not affect compatibility.
    Reversability

    DP to HDMI passive adapters are NOT bi-directional/reversible. They only work from DisplayPort source to HDMI display. If you need the opposite direction, then you are looking for a HDMI to DisplayPort adapter, not DisplayPort to HDMI.
    DP to HDMI Passive Adapter Recommendations

    DisplayPort to HDMI Type 2 passive adapter dongle (use with HDMI cable):   Amazon US (1)   US (2)   UK   DE
    DisplayPort to HDMI Type 2 passive adapter cable (1.8 metres):   Amazon US (1)   US (2)
    Mini DisplayPort to HDMI Type 2 passive adapter dongle (use with HDMI cable):   Amazon US   UK   DE
    Mini DisplayPort to HDMI Type 2 passive adapter cable (1.8 metres):   Amazon US
    Comments About Componentry Inside DisplayPort to HDMI Passive Adapters

    › Click to expand I have seen some controversy over whether DisplayPort to HDMI passive adapters count as "passive" or not, because they have an integrated circuit inside, so I want to comment on this point.

    Although DisplayPort sources support the direct output of TMDS-encoded HDMI signals, a DisplayPort transmitter has AC-coupled lines, meaning the lines have capacitors in series on each end which block DC voltages. This helps reject low-frequency noise. HDMI does not have AC coupling capacitors; it uses a different architecture which pulls current through the transmission lines to create a voltage drop across termination resistors inside the sink. There are no blocking capacitors in this setup. To convert between these different transmission methods, a circuit is required.

    Generally this is still described as a "passive" adapter (despite having active circuits inside it). It is quite a step away from a true "active adapter", because it is not decoding DisplayPort packets and converting the information contained into an equivalent data stream in the 3-channel TMDS format that HDMI uses. The initial signal received by the adapter is already in the 3-channel TMDS format used by HDMI, and the adapter has no effect on the digital values of the signals passing through it, and so does not "convert" or modify any information in the data stream. The circuit simply provides electrical compatibility between the two architectures and is powered by the integrated 3.3 V power line from the DisplayPort source.

    The only real impact this has (from an engineering standpoint) is that it places a hard limit on what speeds a particular adapter can support, which is why there are different "types" of DP to HDMI adapters which support different speeds. This is because the output of the level shifter circuit needs to be able to keep up with frequency of the input signal. As new versions of HDMI keep doubling the frequency of the previous version, the DisplayPort to HDMI adapters made for the previous version are not suitable for supporting the newer speeds, so a new adapter using upgraded circuits is required each time. Close

    Active Adapters

    When do I need an active adapter?

    DP to HDMI active adapters are required for: Any formats above 1920 × 1080 @ 120 Hz, 2560 × 1440 @ 75 Hz, or 3840 × 2160 @ 30 Hz A third monitor (or higher) on certain older AMD graphics cards (see here) DisplayPort devices which do not support Dual-Mode/DP++ (this is extremely rare)
    What is the maximum resolution / refresh frequency supported by a DP to HDMI active adapter?

    This depends on the adapter. There are some older adapters which will support only up to HDMI 1.4 speeds (1080p 144 Hz) or HDMI 1.2 speeds (1080p 60 Hz), but most DP-to-HDMI active adapters today support full HDMI 2.0 bandwidth, which is 18.0 Gbit/s. This bandwidth is enough for up to: 240 Hz at 1920 × 1080 144 Hz at 2560 × 1440 60 Hz at 3840 × 2160 Passive adapters are more reliable and should be preferred wherever possible. An active adapter should only be used in situations where passive adapters will not work.

    There are also a few DP 1.4 to HDMI 2.1 adapters available. These will support up to the limits of DisplayPort HBR3 speed, which is 4K at 120 Hz with 8 bpc RGB color, or higher if the adapter, source, and monitor all support Display Stream Compression (DSC).
    DisplayPort port compatibility

    DP to HDMI active adapters are compatible with all DisplayPort ports. DP++ support is not required. The "version" of the DP port does not affect compatibility.
    HDMI port compatibility

    DP to HDMI active adapters are compatible with all HDMI ports.

    The "version" of the HDMI port does not affect compatibility.
    Reversability

    DP to HDMI active adapters are generally not bi-directional/reversible. They only work from DisplayPort source to HDMI display. If you need the opposite direction, then you are looking for a HDMI to DisplayPort adapter, not DisplayPort to HDMI.
    DP to HDMI active adapter recommendations

    The following adapter converts DisplayPort 1.4 to HDMI 2.1 at up to 3840 × 2160 at 120 Hz. It is designed for GPUs with support for VESA Display Stream Compression (DSC). Please note this adapter is not considered very reliable.

    DisplayPort 1.4 to HDMI 2.1 active adapter dongle (use with HDMI cable):   Amazon US (1)

    The following adapters support both DP 1.2+ to HDMI 2.0 conversion, with inline audio and full resolution/refresh rate/color support. They are not bi-directional, so they cannot be used to connect an HDMI computer/laptop/console to a DisplayPort display.

    DisplayPort 1.2+ to HDMI 2.0 active adapter dongle (use with HDMI cable):   Amazon US (1)   US (2)   UK (1)   UK (2)   DE (1)   DE (2)
    Mini DisplayPort 1.2+ to HDMI 2.0 active adapter dongle (use with HDMI cable):   Amazon US (1)   US (2)   UK   DE

    DisplayPort Source to DVI Display [Link]
    Overview

    Note: DisplayPort output ports have the same capabilities regardless of whether it has a Mini DisplayPort connector or a full-size connector. Everything in this article is fully applicable to both types of ports.

    The following types of adapters are available for connecting a DisplayPort source to a DVI display: DP to Single-Link DVI passive adapters — These provide up to 60 Hz at 1920 × 1080 Fake DP to Dual-Link DVI passive adapters — These provide up to 60 Hz at 1920 × 1080, because they are actually just Single-Link DVI passive adapters again, falsely advertised as "Dual-Link". DP to Single-Link DVI active adapters — These provide up to 60 Hz at 1920 × 1080, and are intended for certain older AMD graphics cards that required active adapters for more than 2 displays. DP to Dual-Link DVI active adapters — These provide up to 144 Hz at 1920 × 1080 or 60 Hz at 2560 × 1440. If you are trying to connect to a 120+ Hz display, you need a Dual-Link DVI active adapter. Be warned that there are many fake "Dual-Link" DVI adapters which are really only Single-Link adapters in disguise, and will be limited to 60 Hz at 1080p. Shop carefully.
    Passive Adapters

    DisplayPort to DVI Passive Adapters Bi-directional (Reversible): No Supports Inline Audio: No Supports FreeSync: No Image Quality: Same as DVI Maximum Resolution / Frequency: Depends on equipment

    Show Maximum Limits Table   Single-Link and Dual-Link support

    All passive DP to DVI adapters are Single-Link only, no exceptions. All "Dual-Link" passive adapters are fake. If you require a Dual-Link connection (for a 1080p 120+ Hz monitor for example), you need an active Dual-Link DVI adapter.

    WARNING: There are an enormous number of fake "Dual-Link" DVI passive adapters on the market, which are really only Single-Link adapters falsely advertised as "Dual-Link". There is no such thing as a passive DP to Dual-Link DVI adapter. All passive adapters are Single-Link-only, no exceptions. If you need a Dual-Link connection (for a 120+ Hz display for example) you need a Dual-Link active adapter, not a passive adapter.
    What is the maximum resolution/refresh frequency supported by a DP to DVI passive adapter?

    DP to DVI passive adapters have the same limitations as a Single-Link DVI connection. This means they support up to: 60 Hz at 1920 × 1080 or 1920 × 1200 30 Hz at 2560 × 1440 or 2560 × 1600
    DVI port compatiblity

    DP to DVI passive adapters are compatible with all types of DVI ports. It does not matter whether your monitor has a DVI-D or a DVI-I port, etc.
    DisplayPort port compatiblity

    DP to DVI passive adapters are only compatible with DisplayPort outputs that support Dual-Mode DisplayPort ("DP++").

    Although DP++ is technically an optional feature, in practice nearly any DP output device will support it. Most manufacturers don't even bother labeling or advertising DP++ support. In general there is no need to check for this, you can safely assume all DP output devices support DP++.
    Reversability

    DP to DVI passive adapters are not bi-directional/reversible. They only work from DisplayPort source to DVI display. If you need the opposite direction, then you are looking for a DVI to DisplayPort adapter, not DisplayPort to DVI.
    DP to DVI passive adapter recommendations

    DisplayPort to Single-Link DVI-D passive adapter dongle (use with DVI cable):   Amazon US (1)   Amazon US (2)
    DisplayPort to Single-Link DVI-D passive adapter cable (1.8 metres, latching):   Amazon US
    DisplayPort to Single-Link DVI-D passive adapter cable (1.8 metres, non-latching):   Amazon US
    Mini DisplayPort to Single-Link DVI-D passive adapter dongle (use with DVI cable):   Amazon US (1)   Amazon US (2)
    Comments about componentry inside DisplayPort to DVI passive adapters

    › Click to expand I have seen some controversy over whether DisplayPort to DVI passive adapters count as "passive" or not, because they have an integrated circuit inside, so I want to comment on this point.

    Although DisplayPort sources support the direct output of TMDS-encoded DVI signals, a DisplayPort transmitter has AC-coupled lines, meaning the lines have capacitors in series on each end which block DC voltages. This helps reject low-frequency noise. DVI does not have AC coupling capacitors; it uses a different architecture which pulls current through the transmission lines to create a voltage drop across termination resistors inside the sink. There are no blocking capacitors in this setup. To convert between these different transmission methods, a circuit is required.

    Generally this is still described as a "passive" adapter (despite having active circuits inside it). It is quite a step away from a true "active adapter", because it is not decoding DisplayPort packets and converting the information contained into an equivalent data stream in the 3-channel TMDS format that DVI uses. The initial signal received by the adapter is already in the 3-channel TMDS format used by DVI, and the adapter has no effect on the digital values of the signals passing through it, and so does not "convert" or modify any information in the data stream. The circuit simply provides electrical compatibility between the two architectures and is powered by the integrated 3.3 V power line from the DisplayPort source.

    Close
    Active Adapters

    When do I need an active adapter?

    DP to DVI active adapters are required for: Formats higher than 1920 × 1080/1200 @ 60 Hz or 2560 × 1440/1600 @ 30 Hz (only Dual-Link active adapters will work!) A third (or higher) monitor on certain older AMD graphics cards (see here) DisplayPort devices which do not support Dual-Mode/DP++ (this is extremely rare)
    Single-Link and Dual-Link support

    Some DP to DVI active adapters are Single-Link, and some are Dual-Link.

    If you need a Dual-Link connection (for a 1080p 120+ Hz display, for example), then you need a Dual-Link active adapter, not just any active adapter. Not all active adapters are Dual-Link.
    What is the maximum resolution / refresh frequency supported by a DP to DVI active adapter?

    This depends on the adapter. Single-Link active adapters will support up to 1920 × 1080 @ 60 Hz. Dual-Link active adapters may support up to 1920 × 1080 @ 144 Hz, but this is subject to every individual product's limitations. Some adapters may be limited to 1920 × 1080 @ 120 Hz or less. Research each individual product carefully.
    DVI port compatibility

    DP to DVI active adapters are compatible with all types of DVI ports. It does not matter whether your monitor has a DVI-D or DVI-I port, etc.
    DisplayPort port compatibility

    DP to DVI active adapters are compatible with all DisplayPort outputs. Dual-Mode DisplayPort (DP++) support is not required.
    Reversability

    DisplayPort to DVI active adapters are NOT bi-directional/reversible. They only work from DisplayPort source to DVI display. If you need the opposite direction, then you are looking for a DVI-to-DisplayPort adapter, not DisplayPort-to-DVI.
    DP to DVI active adapter recommendations

    DisplayPort to Single-Link DVI active adapter dongle (use with DVI cable):   Amazon US (1)   Amazon US (2)
    DisplayPort to Dual-Link DVI active adapter dongle (use with DVI cable):   Amazon US (1)   Amazon US (2)   Amazon US (3) [Note: this one is not compatible with Acer GN246HL or BenQ XL2411(Z)
    Mini DisplayPort to Dual-Link DVI active adapter dongle (use with DVI cable):   Amazon US (2)
    DisplayPort Source to VGA Display [Link]
    Overview

    Note: DisplayPort output ports have the same capabilities regardless of whether it has a Mini DisplayPort connector or a full-size connector. Everything in this article is fully applicable to both types of ports.

    The following types of adapters are available for connecting a DisplayPort source to a VGA display: DisplayPort to VGA active adapters — These generally support up to 1920 × 1080 @ 60 Hz.
    Passive Adapters

    Are there any DisplayPort to VGA passive adapters?

    There is no such thing as a DisplayPort to VGA passive adapter. If you find any such adapter, it has likely been mislabeled. Since most DP to VGA active adapters are compact, inexpensive, and do not require an extra power connector, people often mistake them as being "passive".
    Active Adapters

    Compatibility

    DisplayPort to VGA adapters are compatible with all DisplayPort and all VGA devices.
    Reversibility

    DisplayPort to VGA adapters are not bi-directional/reversible. They only work from DisplayPort source to VGA display. If you need the opposite direction, then you are looking for a VGA to DisplayPort adapter, not DisplayPort to VGA.
    DisplayPort to VGA adapter recommendations

    DisplayPort to VGA active adapter dongle (use with VGA cable):   Amazon US
    DisplayPort to VGA active adapter cable (1.8 metres):   Amazon US DisplayPort Source to USB Type-C DisplayPort Alternate Mode Display [Link]
    There are adapters available for connecting a DisplayPort source to a USB Type-C display. Typically these are in the form of bi-directional DisplayPort to USB Type-C cables.

    Normal USB Type-C to DisplayPort cables only work in one direction and cannot be used to connect a DisplayPort source to a USB Type-C display.

    This adapter supports HBR3 speed, which is enough for 120 Hz at 3840 × 2160 or 240 Hz at 2560 × 1440.

    DisplayPort to USB Type-C bi-directional adapter cable (1.8 metres):   Amazon US (1)   Amazon US (2) DisplayPort Source to Thunderbolt 3 Display [Link]
    A DisplayPort output cannot be connected to a Thunderbolt 3 input. No passive or active adapters exist for this combination.

    USB Type-C to DisplayPort adapters work from a Thunderbolt 3 source to a DisplayPort display, but not the reverse configuration.

    DisplayPort Source to Thunderbolt or Thunderbolt 2 Display [Link]
    Passive Adapters

    DisplayPort Source to TB or TB2 Display Possible with a passive adapter? No
    A plain DisplayPort source cannot connect to a display's Thunderbolt or Thunderbolt 2 input port. Only a Thunderbolt source can connect to a Thunderbolt input port on a display. Furthermore, a Thunderbolt cable must be used, not a Mini DisplayPort cable. Despite having an identical connector, Thunderbolt cables have additional electronics inside which Mini DisplayPort cables do not have.

    However, the Apple Thunderbolt Display was the only monitor ever produced with no other inputs besides Thunderbolt. All other monitors ever produced with Thunderbolt or Thunderbolt 2 inputs also have native DisplayPort inputs which can be used if you need to connect a plain DisplayPort source.

    Active Adapters Adapters

    There are no active adapters for converting a DisplayPort source to a Thunderbolt or Thunderbolt 2 display. HDMI Source to DisplayPort Display [Link]
    Passive Adapters

    HDMI Source to DisplayPort Display Possible with a passive adapter? No
    An HDMI output CANNOT be connected to a DisplayPort input with a passive adapter. Passive DisplayPort to HDMI cables/adapters will only function from DisplayPort output to HDMI input, not the other way around.

    Active Adapters

    Conversion from HDMI to DisplayPort requires an active adapter. Please note that these adapters are not very reliable and should only be considered as a last resort.

    The following adapter has a maximum TMDS clock of 600 MHz, the maximum allowed by HDMI 2.0. It supports up to 60 Hz at 3840 × 2160 with 8 bpc RGB color, or 144 Hz at 2560 × 1440 or 240 Hz at 1920 × 1080. I have also tested it to work for 1080p 120 Hz on the PS5. It supports inline audio, but FreeSync/G-Sync will not work through these adapters.

    HDMI to DisplayPort active adapter dongle (600 MHz):   Amazon US (1)

    There are also some older adapters that are limited to lower speeds. The following adapters have a maximum HDMI TMDS clock of 300 MHz, slightly below the maximum allowed by HDMI 1.3–1.4. This gives them support for up to 120 Hz at 1920 × 1080, 60 Hz at 2560 × 1440, and 30 Hz at 3840 × 2160. They support inline audio, but FreeSync/G-Sync and HDR will not work through these adapters.

    HDMI to DisplayPort active adapter dongle (300 MHz):   Amazon US (1)   Amazon US (2)   Amazon US (3)   Amazon US (4)

    Note 1: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.

    Note 2: Mini DisplayPort is functionally identical to DisplayPort, the only difference is the physical shape. Additional adapters to change between DisplayPort and Mini DisplayPort can be used freely without affecting the operation or compatibility of other devices in any way.
    HDMI [Link]
     
    HDMI Capabilities Inline Audio Yes HDR Yes (version 2.0a+)
    No (version 1.0–2.0) Multiple Video Streams
    From a Single Port Splitters/Hubs: No
    Daisy-Chaining: No Power Delivery
    (for charging) None
    Cabling

    Main article here.

    HDMI versions describe HDMI ports on devices. HDMI cables themselves are not classified by "version". There is no such thing as an "HDMI 1.4 cable" or an "HDMI 2.0 cable". All HDMI features such as inline audio, ARC, HDR, and others will work over any cable. There are however several different tiers of HDMI cable rated by bandwidth. High resolutions and refresh rates require better rated cables, but nothing else depends on the cable. See the main article for more details.

    Compatibility

    All HDMI devices are compatible with all other HDMI devices and cables, regardless of the version of each device or cable certification tier. When connecting two HDMI devices that have different versions, the capabilities and features available are determined by the lower of the two versions. For example if a GPU with HDMI 2.0 support is plugged into a monitor with an HDMI 1.4 port, the connection will be limited to only the bandwidth and features provided by HDMI 1.4. HDMI cables themselves do not have versions. They affect bandwidth, but not version or feature support.

    Do I need to get a special HDMI cable to handle 4K 60 Hz?

    Main article here.

    Not usually. Although not guaranteed, most normal High Speed HDMI cables are capable of handling 4K 60 Hz just fine, and "4K compatible" HDMI cables are generally not necessary. See the main article for more details.

    Do HDMI cables affect image quality?

    No, HDMI cables do not affect image quality. HDMI transmits data in a digital format, which means that the distortion from electromagnetic interference can be corrected by the receiving device, and the final image is always identical to what was originally sent by the source device. The image quality cannot be degraded by the cable, so the "cable quality" or "signal strength" are irrelevant to the appearance of the image. Features such as "gold-plated connectors" or "high-quality shielding" are superfluous and do not affect the image quality.

    How does the image quality of HDMI compare with DisplayPort and DVI?

    The image quality of HDMI is identical to DisplayPort and DVI when set to the same image settings.

    HDMI and DisplayPort do support a wider range of possible settings compared to DVI, but this does not affect anything on displays which don't take advantage of those extra capabilities. DVI supports up to 24 bit/px color depth (16.7 million colors), which is what most computer monitors and TVs run at. DisplayPort and HDMI are capable of higher color depth than 24 bit/px (like 30 bit/px or 1.07 billion colors) while DVI isn't, but this does not make them any better at displaying 24 bit/px color than DVI, so it is irrelevant on most standard displays.

    Unless your display has capabilities that are beyond what DVI supports, there will be no advantage to using DP or HDMI instead of DVI.

    Is HDMI limited to 60 Hz?

    Main article here.

    No, HDMI is not limited to 60 Hz. Many 1080p 120+ Hz displays are limited to 60 Hz on their HDMI ports, but that is a limitation of those particular products, not a limitation of the HDMI standard. See the main article for more details.

    HDMI Standard

    The latest version of the HDMI Specification available to the public is version 1.3a:
    HDMI Specification v1.3a
    HDMI Specification v1.3
    HDMI Specification v1.2a
    HDMI Specification v1.2
    HDMI Specification v1.1
    HDMI Specification v1.0

    Also available is the 3D portion of the HDMI 1.4a specification:
    HDMI Specification v1.4a 3D Signaling Extract

    HDMI Source to DVI Display [Link]
    Passive Adapters

    HDMI Source to DVI Display Possible with a passive adapter? Yes Inline audio supported? Not usually (depends on the display) Image Quality: Same as DVI Maximum Resolution / Frequency: Same as Single-Link DVI

    Show DVI Limits   A passive adapter can be used to connect an HDMI output to a DVI input. This is equivalent to a native single-link DVI-D connection. Inline audio is not supported. These adapters can still be used to connect to monitors that have dual-link DVI ports, but the connection will be limited to the capabilities of single-link DVI as outlined in the table below.

    All HDMI to DVI passive adapters are Single-Link only. HDMI to dual-link DVI passive adapters do not exist. Although most HDMI to DVI passive adapters are advertised as "dual-link" and may appear to have "dual-link" connectors on them, please be warned that these are fake. The extra pins on these DVI connectors are dummy pins which are not connected to anything, and the adapter will still only function as a single-link DVI adapter. It is physically impossible to create a passive HDMI to dual-link DVI adapter due to an insufficient number of pins on the HDMI connector.

    Since HDMI is only capable of passively adapting to single-link DVI-D (and not DVI-I), this means it is not possible to make a chain of adapters from HDMI → DVI → VGA. Passive DVI to VGA adapters are not supported on all DVI ports, they only work in special DVI + VGA combo ports called DVI-I. An HDMI to DVI passive adapter only provides a standard DVI-D port, not DVI-I.

    HDMI to DVI passive adapters are bi-directional, so the same adapter can be used both from an HDMI source to a DVI display, and from a DVI source to an HDMI display.

    HDMI to Single-Link DVI passive adapter dongle (use with HDMI cable):   Amazon US
    HDMI to Single-Link DVI passive adapter dongle (use with DVI cable):   Amazon US
    HDMI to Single-Link DVI passive adapter cable (2.0 metres):   Amazon US

    Active Adapters

    An active adapter would be required to convert HDMI output to a full Dual-Link DVI signal, but at the time of writing I am not aware of any such adapters existing.

    Note 1: Any DVI-D device or cable will also work in a DVI-I port. If your display has a DVI-I port, you do not need to search specifically for an "HDMI to DVI-I" adapter.
    HDMI Source to VGA Display [Link]
    Passive Adapters

    HDMI Source to VGA Display Possible with a passive adapter? No
    It is not possible to connect HDMI output to VGA input with a passive adapter.

    It is also not possible to create a chain of adapters from HDMI → DVI → VGA. Passive DVI to VGA adapters do not work in all DVI ports. They only work in special DVI + VGA combo ports called DVI-I. HDMI only supports passive adapters to DVI-D, not to DVI-I.

    Active Adapters

    Conversion from HDMI to VGA requires an active adapter. HDMI to VGA active adapters are fairly inexpensive and generally reliable.

    HDMI to VGA active adapter dongle (use with VGA cable):   Amazon US
    HDMI to VGA active adapter dongle (use with HDMI cable):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    HDMI Source to USB Type-C DisplayPort Alternate Mode Display [Link]
    The Wacom Link Plus can be used to connect an HDMI output to a USB Type-C input on a monitor at up to 60 Hz at 2560 × 1440.

    Please note that the USB Type-C to HDMI adapters that can be commonly found will only work from a USB Type-C source to an HDMI display. They will not work for connecting to a USB Type-C input on a display.

    HDMI Source to Thunderbolt 3 Display [Link]
    An HDMI output cannot be connected to a Thunderbolt 3 input. No passive or active adapters exist for this combination.

    USB Type-C to HDMI adapters work from a Thunderbolt 3 source to an HDMI display, but not the reverse configuration.

    DVI Source to DisplayPort Display [Link]
    Passive Adapters

    DVI Source to DisplayPort Display Possible with a passive adapter? No
    A DVI output CANNOT be connected to a DisplayPort input with a passive adapter. Passive DisplayPort to DVI cables/adapters will only function from DisplayPort output to DVI input, not the other way around.

    Active Adapters

    Conversion from DVI to DisplayPort requires an active adapter.

    Dual-Link DVI to Mini DisplayPort active adapter:   B&H
    Single-Link DVI to DisplayPort active adapter dongle:   Amazon US (1)   Amazon US (2)

    Note 1: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.

    Note 2: Any DVI-D device or cable will also work in a DVI-I port. If your graphics card has a DVI-I port, you do not need to search specifically for a "DVI-I to DisplayPort" active adapter.

    Note 3: Mini DisplayPort is functionally identical to DisplayPort, the only difference is the physical shape. Additional adapters to change between DisplayPort and Mini DisplayPort can be used freely without affecting the operation or compatibility of other devices in any way.
    DVI Source to HDMI Display [Link]
    Passive Adapters

    DVI Source to HDMI Display Possible with a passive adapter? Yes Inline audio supported? Yes Image Quality: Same as HDMI Maximum Resolution / Frequency: Same as HDMI (version depends on equipment)

    Show HDMI Limits   A passive adapter can be used to connect a DVI output to an HDMI input. It does not matter what type of DVI port is used (DVI-D, DVI-I, single/dual-link), all of them function identically when connected to an HDMI port.

    A DVI output to HDMI input connection with a passive adapter has the same capabilities as a native HDMI connection. All HDMI-specific features such as inline audio will work when a DVI to HDMI adapter is used from a DVI source to an HDMI display, and the full HDMI link speed supported by the graphics card will be available through the DVI port. The normal limitations of single-link DVI are not applicable.

    DVI to HDMI adapters are not strictly limited to the speed of single-link DVI-D, despite common belief. Some DVI-HDMI cables may be limited in their maximum speed due to manufacturing tolerances (just as some standard HDMI cables are), but most DVI-HDMI cables are capable of handling HDMI 1.4, and some even handle HDMI 2.0 speeds. DVI ports on graphics cards do support the output of these high-frequency single-link signals, even though they are only used by HDMI, not by DVI. Modern DVI output ports are designed to be able to send HDMI signals.

    This means that if the graphics card supports HDMI 2.0, then any DVI ports on the graphics card will function as an additional HDMI 2.0 output when a passive DVI-to-HDMI cable/adapter is attached. Formats like 3840 × 2160 at 60 Hz, 2560 × 1440 at 144 Hz, or 1920 × 1080 at 240 Hz with 8 bpc RGB color are achievable using a DVI to HDMI connection if the graphics card and monitor both support full HDMI 2.0 speeds. Note that for AMD cards you will need to install the AMD Pixel Clock Patcher and restart the computer in order to remove an artificial driver restriction first, otherwise a 1080p 60 Hz limit will apply.

    Please note that this information only applies from DVI source to HDMI display. It does not apply to the reverse configuration (HDMI source to DVI display). Adapter compatibility and rules are not symmetric. Please click here to see information for a HDMI source to an DVI display instead.

    DVI to HDMI passive adapters are bi-directional, so the same adapters are used for both DVI source to HDMI display and HDMI source to DVI display.

    Single-Link DVI to HDMI passive adapter dongle (use with HDMI cable):   Amazon US
    Single-Link DVI to HDMI passive adapter dongle (use with DVI cable):   Amazon US
    Single-Link DVI to HDMI passive adapter cable (1.8 metres):   Amazon US

    Active Adapters

    To my knowledge, there are no active adapters available for converting DVI to HDMI, but there is really no reason for them to exist anyway. Modern graphics cards allow native HDMI signals to be sent directly from their DVI ports, so there is no conversion to perform in the first place.

    Note 1: Any DVI-D device or cable will also work in a DVI-I port. If your graphics card has a DVI-I port, you do not need to search specifically for a "DVI-I to HDMI" adapter.
    DVI [Link]
     
    DVI Capabilities Inline Audio No HDR No Multiple Video Streams
    From a Single Port Splitters/Hubs: No
    Daisy-Chaining: No Power Delivery
    (for charging) None

    Overview

    The DVI interface is commonly found on older monitors and graphics cards. Some newer products still have DVI ports, but they are becoming less common.

    DVI can support any resolution/refresh rate as long as it falls within the device's maximum bandwidth. The maximum bandwidth depends on the device. The DVI Specification does not define any specific requirements or limits for how much bandwidth a DVI device supports. The capabilities of DVI will therefore vary by device.

    In general, you can expect DVI devices to support at least 1920 × 1200 at 60 Hz at minimum. As a maximum limit, you can commonly find DVI devices capable of up to 1920 × 1080 at 144 Hz or 2560 × 1600 at 60 Hz. DVI implementations higher than this are rare (but possible).


    Single-Link vs. Dual-Link DVI

    What do "single-link" and "dual-link" mean?

    DVI can transmit digital video in two modes: single-link or dual-link. Dual-link mode uses an extra set of pins on the DVI connector to transmit additional video data.

    The DVI specification requires that any video formats above 165 Mpx/s (i.e. higher than 1920 × 1200 at 60 Hz) must be transmitted in dual-link mode.

    Dual-link mode is an optional feature, and is not supported by all devices. Devices which do not support dual-link mode will be limited to 1920 × 1200 at 60 Hz (assuming both devices are fully compliant with the DVI Specification).

    Are dual-link and single-link devices compatible with each other?

    Yes, dual-link and single-link devices are fully compatible with each other. You do not need any kind of special "single-link to dual-link" cable or adapter; any DVI cable can be used to connect them together. If a dual-link device and single-link device are connected together, they will transmit in single-link mode only.

    How can I determine if a device supports dual-link?

    You must determine this from the product description/specifications or manual. Dual-link support cannot be reliably identified by appearance or any type of visual inspection or photos.

    Warning: Many people will tell you that you can identify dual-link devices by examining the configuration of pins on the connector, saying you should check if the connector has a full complement of pins (24+1). That advice is incorrect. While some single-link devices have missing pins in the center, this is not true of all single-link devices. Therefore, even if a device has a 24+1 pin DVI connector, you cannot tell whether it is single-link or dual-link.

    Which devices typically support dual-link?

    DVI ports on graphics cards will generally always support dual-link mode, although there are occasional exceptions (such as the XFX Radeon HD 7850/7870 or the GeForce GT 1030).

    DVI ports on monitors will generally always support dual-link if the monitor's specs require it (i.e. any monitor higher than 1920 × 1080 at 60 Hz).

    DVI ports on adapters (such as DisplayPort or HDMI to DVI adapters) are usually single-link only. There are DisplayPort to dual-link DVI adapters, but they are rare and expensive. There are no HDMI to dual-link DVI adapters.

    Motherboard DVI ports for integrated graphics usually do not support the dual-link feature, they are single-link only.


    DVI-D vs. DVI-I

    What are "DVI-D" and "DVI-I"?

    DVI has another optional feature, which is the ability to support DVI-to-VGA adapters. DVI ports which support this feature are called "DVI-I". Ports which do not have this feature are called "DVI-D".

    Support for this feature is unrelated to dual-link support. DVI ports may support dual-link but not VGA adapters, or vice versa, or both, or neither.

    DVI-I ports have extra pins which carry analog video, and can effectively be considered a "DVI-D + VGA combo port". If a VGA adapter is attached, the port will output native VGA signals. If it is connected to another DVI device, it will output digital signals (in either single-link or dual-link mode) just like a DVI-D port.

    Are DVI-D and DVI-I ports compatible with each other?

    Yes. DVI-I ports on graphics cards can be connected to DVI-D ports on monitors, and vice versa. A standard DVI-D cable should be used, no special "DVI-I to DVI-D" cables are required.

    Can DVI-D to HDMI/DP adapters be used in a graphics card's DVI-I port?

    Yes, DVI-I ports can be considered "DVI-D + VGA combo ports". A DVI-I port is compatible with anything that works in a DVI-D port, plus VGA adapters.

    My graphics card has one DVI-I port and one DVI-D port. Which one should I use?

    If you are connecting it to a DVI display, then there is no difference. If you are connecting to a VGA display, then you must use the DVI-I port.

    A DVI-I port is just a "DVI-D + VGA combo port". When connected to a DVI device, it functions as a DVI-D port. When connected to a VGA device, it functions as a VGA port.

    How can I determine if a device supports VGA adapters?

    You must determine this from the product description/specifications or manual. VGA adapter support (DVI-I) cannot be reliably identified by appearance or any type of visual inspection or photos.

    Warning: Many people will tell you that you can identify VGA adapter support by examining the port, to check if the device is using the DVI-I connector (as shown in the next section). This is not reliable. Be aware that some devices use the DVI-I connector even though the device does not support VGA adapters. This is especially common with adapters. Therefore, even if a device has the DVI-I connector, that does not necessarily mean it supports VGA adapters.


    Ports and Cables

    Overview

    The DVI port and cable situation seems confusing, but it is not that complicated.

    In the real world, there are only two types of physical DVI port: one that can send both DVI or VGA signals, and one that can only send DVI signals.

    If you are making a DVI-to-DVI connection (or adapters to HDMI or DisplayPort), then any DVI port will work. If you are using a DVI-to-VGA adapter, it will only work in a DVI-I port (as described below).

    When it comes to cables, there are only two types: single-link and dual-link. Both types of cables are compatible with any DVI device. If you want to run formats higher than 1920 × 1200 at 60 Hz, you need a dual-link DVI cable.

    Done!

    DVI Receptacle Types

    The DVI Specification defines two different DVI receptacles:

    DVI Receptacles DVI Digital-Only Connector
    ("DVI-D", 25 pins) DVI Combined Connector
    ("DVI-I", 29 pins)
    The unofficial names "DVI-D" and "DVI-I" are commonly used, but are not established by the DVI Specification.

    The combined connector (DVI-I) is used for devices which support analog (VGA) signals. DVI-to-VGA passive adapters can be attached to these ports.

    The digital-only connector (DVI-D) is used for devices which do not support VGA adapters. DVI-to-VGA passive adapters cannot be attached to these ports.

    No other connectors are defined by the DVI Specification. All devices use one of these two connectors. There are no separate connectors based on whether a device supports dual-link mode or not, and there are no other DVI connector designs in use (i.e. with missing pinholes in the center).

    DVI Plug Types

    The DVI Specification defines two different DVI plugs for cables or adapters:

    DVI Plugs DVI Digital Plug
    ("DVI-D") DVI Analog Plug
    ("DVI-I")
    The analog plug is used on DVI-to-VGA adapters or cables.

    The digital plug should be used in all other circumstances, such as any DVI-to-DVI cables, or HDMI-to-DVI or DisplayPort to DVI adapters.

    Some DVI-to-DVI cables or DVI-to-HDMI adapters use the analog plug. There is no logical reason to use the analog plug on these devices, since the analog signals aren't used in those situations. Companies just make them because people believe they need them, because their graphics card has a "DVI-I" port and they think they need a matching cable/adapter. However, using the DVI-I connector on these devices serves no purpose, the analog pins just block the cable/adapter from fitting into a DVI-D port, creating an incompatibility for no reason.

    Do not purchase cables or adapters with a DVI analog plug ("DVI-I" plug) unless it is a DVI-to-VGA adapter.

    Non-Standard DVI Plugs

    In addition to the two connectors described above, you may encounter various other DVI connector configurations:

    Non-Standard DVI Plugs "Single-Link DVI-D" "Single-Link DVI-I" "DVI-A"
    There are no connectors with these pin configurations defined in the DVI Specification, but they can be found in some products. The usage of these connectors is not universal.

    The "Single-Link DVI-D" connector is used on some DVI cables and adapters that only have wires for a single DVI link. Not all such products use this connector (most use the full 24+1 pin Digital-Only connector shown previously and simply leave the extra pins unconnected internally). As a result, checking for the presence of this connector is not a reliable method of determining if a device supports dual-link operation or not.

    The "Single-Link DVI-I" and "DVI-A" connectors are used on DVI-to-VGA adapters. There is no functional difference between these connectors and the "full" DVI analog plug defined in the DVI Specification.

    DVI Cables

    TL;DR: A Dual-Link DVI-D cable should be used in all situations. No other type of DVI cable is necessary for any situation.

    The DVI Specification does not define multiple types of DVI cables. All standard DVI cables should have the digital-only DVI plug on both ends and should be wired in accordance with the specification, capable of both single-link and dual-link operation.

    However, some cables are not manufactured in compliance with the specification. Some DVI cables are made without wires for the second link, and are therefore limited to single-link operation only. Sometimes they use the standard 25-pin DVI-D connector, and sometimes they use the non-standard "single-link DVI-D" connector. Some DVI cables have the DVI analog connector on one or both ends. There is no logical reason to have the analog pins on a DVI-to-DVI cable, since those pins will not be used anyway. The DVI analog connector should only be used for DVI-to-VGA adapters. However, since some people believe if their GPU has a DVI-I port then they need a cable with a matching pin configuration, so cable manufacturers are happy to sell them one. When shopping for a DVI cable, you should: Make sure it has the DVI digital plug on both ends (pictured previously) Make sure it is capable of dual-link operation. Do not judge this by the pin count. Having 25 pins does not mean it is capable of dual-link operation. Read the product description, make sure it is not limited to 1920 × 1200 (this indicates single-link-only).
    DVI Specification

    The DVI Specification v1.0 (the only version) is available to the public and may be downloaded here:
    DVI Specification v1.0 DVI Source to VGA Display [Link]
    Passive Adapters

    DVI Source to VGA Display Possible with a passive adapter? No (DVI-D) / Yes (DVI-I) Inline audio supported? No Image Quality: Same as VGA Maximum Resolution / Frequency: Same as VGA

    A passive adapter can be used to connect a DVI output to a VGA input. These adapters will only work in special DVI + VGA combo ports called DVI-I. They will NOT work in a standard DVI-D port.

    Using a passive DVI to VGA adapter is equivalent to a native VGA connection from the source device.

    DVI to VGA passive adapters are bi-directional, so the same adapter can be used both from a DVI source to a VGA display, and from a VGA source to a DVI display, if the display's DVI port is DVI-I. However, this is very rare; most displays have DVI-D ports, which will not accept VGA passive adapters.

    DVI-I to VGA passive adapter dongle (use with VGA cable):   Amazon US (1)   Amazon US (2)   Amazon US (3)
    DVI-I to VGA passive adapter cable (1.8 metres):   Amazon US
    DVI-I to VGA passive adapter cable (1.5 metres):   Amazon US

    Active Adapters

    If your computer only has a DVI-D port available (not DVI-I), then a DVI-D to VGA active adapter is required.

    DVI-D to VGA active adapter dongle (use with VGA cable):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    DVI Source to USB Type-C DisplayPort Alternate Mode Display [Link]
    A DVI output cannot be connected to a USB Type-C input. No passive or active adapters exist for this combination.

    USB Type-C to DVI adapters work from a USB-C source to a DVI display, but not the reverse configuration.

    DVI Source to Thunderbolt 3 Display [Link]
    A DVI output cannot be connected to a Thunderbolt 3 input. No passive or active adapters exist for this combination.

    USB Type-C to DVI adapters work from a Thunderbolt 3 source to a DVI display, but not the reverse configuration.

    VGA Source to DisplayPort Display [Link]
    Passive Adapters

    VGA Source to DisplayPort Display Possible with a passive adapter? No
    It is not possible to connect VGA output to DisplayPort input with a passive adapter.

    Active Adapters

    An active adapter would be required to convert VGA to DisplayPort, but at the time of writing I am not aware of any such adapters existing. VGA Source to HDMI Display [Link]
    Passive Adapters

    VGA Source to HDMI Display Possible with a passive adapter? No
    It is not possible to connect VGA output to HDMI input with a passive adapter. It is also not possible to create a chain of passive adapters from VGA → DVI → HDMI. VGA to DVI passive adapters do not convert your VGA signals into DVI signals, they do not actually do anything, they just pass the same VGA signal through. They will only work when connected to special DVI + VGA combo ports called DVI-I, which can accept VGA signals in addition to DVI signals. These adapters will not work for connecting to standard DVI-D ports (which only accept DVI signals) or for sending signals through a DVI to HDMI adapter (which also require DVI signals).

    The only purpose of a VGA to DVI passive adapter is to physically change the shape of the port from VGA-shape to DVI-shape, so that it can be connected to a DVI-I port. It does not convert the electrical signals, they are still VGA signals the whole way through.

    Active Adapters

    Conversion from VGA to HDMI requires an active adapter.

    VGA to HDMI active adapter dongle (video + audio; use with HDMI cable):   Amazon US
    VGA to HDMI active adapter dongle (video only; use with HDMI cable):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    VGA Source to DVI Display [Link]
    Passive Adapters

    VGA Source to DVI Display Possible with a passive adapter? No (DVI-D) / Yes (DVI-I) Inline audio supported? No Image Quality: Same as VGA Maximum Resolution / Frequency: Same as VGA

    A passive adapter can be used to connect VGA output to DVI input only if the DVI input is a DVI-I port (this is very uncommon). Most displays have DVI-D input ports, not DVI-I. Passive DVI to VGA adapters will not work in DVI-D ports.

    Using a passive DVI to VGA adapter is equivalent to a native VGA connection from the source device.

    DVI to VGA passive adapters are bi-directional, so the same adapter can be used both from a DVI source to a VGA display, and from a VGA source to a DVI display, if the display's DVI port is DVI-I. However, this is very rare; most displays have DVI-D ports, which will not accept VGA passive adapters.

    DVI to VGA passive adapter:   Amazon US (1)   Amazon US (2)

    Active Adapters

    Conversion from VGA to DVI-D would require an active adapter, but I'm not aware of any such adapters existing at the time of writing.

    VGA [Link]
    VGA Capabilities Inline Audio No HDR No Multiple Video Streams
    From a Single Port Splitters/Hubs: No
    Daisy-Chaining: No Power Delivery
    (for charging) None
    What is the maximum resolution / refresh frequency of VGA?

    VGA does not have any defined limits. Its capabilities are dependent on the individual limits of the graphics device and the display, which vary by product. The last generations of VGA devices could rival the capabilities of dual-link DVI, with some VGA displays handling signals as high as 2304 × 1440 at 80 Hz (like the Sony GDM-FW900). While many graphics cards list a maximum analog resolution of 2048 × 1536, this is often incorrect, and they do work with higher resolutions as long as the monitor supports it.

    Can VGA be used for 1080p 60 Hz?

    Yes, any reasonably modern VGA device will handle 1080p 60 Hz over VGA.

    Is VGA limited to 60 Hz?

    No, VGA is not limited to 60 Hz. Many CRT monitors (which only took VGA input) operated at 75 Hz or 85 Hz standard. VGA has no defined limit on refresh frequency, and can (and has) been used for video formats exceeding 120 Hz or even 240 Hz on high-end CRTs, if the resolution is lowered enough.

    At medium-to-high resolutions like 1920 × 1080 or above, 120+ Hz should not be expected since this does push the limits of what most VGA devices are capable of handling, but VGA is in no way limited to 60 Hz as a whole.

    How does the image quality of VGA compare to more modern interfaces like DVI, HDMI, and DisplayPort?

    In general, the image quality of VGA is acceptable and usually difficult to distinguish from DVI, HDMI, and DisplayPort, but it depends on the specific situation and equipment. VGA signals can be degraded by electromagnetic interference, so the image quality may suffer depending on the quality of shielding in the VGA cable. Damage to the cable may also lead to a color-tinted screen if one of the color channels drops out. Image artifacts such as VGA ghosting (the echo/smearing effect; not to be confused with motion trails left behind fast-moving objects, which is also called ghosting) may also appear as a result of poor quality VGA cables.

    VGA also lacks some of the image handshake protocols that digital interfaces have, which can lead to the image being "off-center". Most displays have adjustment options built into their on-screen menu to align the image manually.

    VGA is generally considered a fallback option for situations in which DVI, HDMI, or DisplayPort are not available.

    VGA Source to USB Type-C DisplayPort Alternate Mode Display [Link]
    A VGA output cannot be connected to a USB Type-C input. No passive or active adapters exist for this combination.

    USB Type-C to VGA adapters work from a USB-C source to a VGA display, but not the reverse configuration.

    VGA Source to USB Type-C DisplayPort Alternate Mode Display [Link]
    A VGA output cannot be connected to a Thunderbolt 3 input. No passive or active adapters exist for this combination.

    USB Type-C to VGA adapters work from a Thunderbolt 3 source to a VGA display, but not the reverse configuration.

    USB Type-C DisplayPort Alternate Mode Source to DisplayPort Display [Link]
    USB-C (DP Alt Mode) Source to DisplayPort Display Inline audio supported? Yes Image Quality: Same as DisplayPort Maximum Resolution / Frequency: Same as DisplayPort (dependent on source and adapter; see article below)

    Show DisplayPort Limits   USB Type-C video output ports can be connected to a DisplayPort input using a passive USB Type-C to DisplayPort adapter. Not all USB Type-C ports support video output. These adapters will only function from USB Type-C ports that support video output via DisplayPort Alternate Mode (any video-capable USB Type-C port will support this).

    USB Type-C to DisplayPort adapters operate passively via the USB Type-C DisplayPort Alternate Mode protocol, which allows native DisplayPort signals to be sent through the USB Type-C interface. These adapters do have a chip inside to negotiate the initial USB connection and switch the host port to DisplayPort output mode, so it is more expensive than a typical passive adapter, but there is no active format conversion involved with the actual video transmission.

    USB Type-C adapters provide a complete DisplayPort signal, with all the capabilities that a standard DisplayPort connection has, including audio. Current adapters support the full bandwidth of DisplayPort 1.2 (21.6 Gbit/s; see here). The image produced is identical to that of a native DisplayPort connection. Using an adapter does not compromise any aspect of the connection.

    A USB Type-C to DisplayPort adapter can only provide a DisplayPort signal, it cannot switch modes to output DVI or HDMI signals like a normal DisplayPort port can. For this reason, DisplayPort to DVI and DisplayPort to HDMI passive adapters will not function when chained from a USB Type-C to DisplayPort adapter, since they rely on that capability to operate.

    USB Type-C to DisplayPort adapters are not bi-directional, so they cannot be used to connect a DisplayPort source to a USB-C display.

    USB Type-C to DisplayPort adapter dongle (use with DisplayPort cable):   Amazon US (1)   Amazon US (2)
    USB Type-C to DisplayPort adapter cable (1.8 metres):   Amazon US (1)   Amazon US (2)
    USB Type-C to Mini DisplayPort adapter dongle (use with Mini DisplayPort cable):   Amazon US

    Note: Mini DisplayPort is functionally identical to DisplayPort, the only difference is the physical shape. Additional adapters to change between DisplayPort and Mini DisplayPort can be used freely without affecting the operation or compatibility of other devices in any way.
    USB Type-C DisplayPort Alternate Mode Source to HDMI Display [Link]
    USB-C (DP Alt Mode) Source to HDMI Display Inline audio supported? Yes Image Quality: Same as HDMI Maximum Resolution / Frequency: Same as HDMI (version depends on adapter)

    Show HDMI Limits   USB Type-C video output ports can be connected to an HDMI input port using a USB Type-C to HDMI active adapter. Not all USB Type-C ports support video output. These adapters will only function from USB Type-C ports that support video output via DisplayPort Alternate Mode (any video-capable USB Type-C port will support this).

    USB Type-C to HDMI adapters are configured internally as a USB Type-C to DisplayPort passive adapter with a DisplayPort to HDMI active adapter attached to it. These adapters work on any USB Type-C port that supports video output via DisplayPort Alternate Mode, which is the video protocol used by all video-capable USB Type-C devices to date. Although a "USB Type-C HDMI Alternate Mode" specification exists, it is not used in most devices because it was not published until a long time after DisplayPort Alternate Mode had already been universally adopted, and furthermore HDMI Alternate Mode is limited to HDMI version 1.4 and therefore has seen little interest.

    Passive USB Type-C to HDMI adapters are possible in theory via the HDMI Alternate Mode protocol, but to my knowledge have never been produced due to lack of HDMI Alternate Mode support. Since these passive adapters would still require a chip to negotiate the USB connection, they likely would not be much cheaper than the active adapters currently in use.

    USB Type-C to HDMI adapters are not bi-directional, so they cannot be used to connect an HDMI source to a USB-C display.

    USB Type-C to HDMI 2.0 active adapter dongle (use with HDMI cable):   Amazon US (1)   Amazon US (2)   Amazon US (3)
    USB Type-C to HDMI 2.0 active adapter cable (1.8 metres):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    USB Type-C DisplayPort Alternate Mode Source to DVI Display [Link]
    USB-C (DP Alt Mode) Source to DVI Display Inline audio supported? No Image Quality: Same as DVI Maximum Resolution / Frequency: Same as Single-Link DVI

    Show DVI Limits   USB Type-C video output ports can be connected to a display's DVI input port using a USB Type-C to DVI active adapter. Not all USB Type-C ports support video output. These adapters will only function from USB Type-C ports that support video output via DisplayPort Alternate Mode (any video-capable USB Type-C port will support this).

    USB Type-C to DVI adapters are configured internally as a USB Type-C to DisplayPort passive adapter with a DisplayPort to DVI active adapter attached to it. These adapters work on any USB Type-C port that supports video output via DisplayPort Alternate Mode, which is the video protocol used by all video-capable USB Type-C devices to date.

    USB-C to DVI adapters may be either single-link or dual-link. Single-link adapters will be limited to 60 Hz at 1920 × 1080. To get higher refresh rates like 144 Hz, a dual-link adapter is required. As with other DVI adapters, there are many fake "dual-link" adapters, which are really single-link adapters in disguise. They may appear to have dual-link connectors on them, so you will not be able to tell whether it is a single-link or dual-link DVI adapter by looking at it. Some may even claim to support formats like 2560 × 1440 at 60 Hz or 3840 × 2160 at 30 Hz, normally achieved with a dual-link signal, are actually still only single-link DVI adapters.

    They can support higher modes by operating in single-link mode at double frequency, but this is not compliant with the DVI Specification and will only work on a handful of specific displays such as the Dell U2711. On other displays, these adapters will be limited to 1080p 60 Hz like any other single-link DVI adapter, so they cannot be used with 1080p 144 Hz or 1440p 60 Hz monitors as a substitute for a dual-link DVI connection. Recommendations for genuine dual-link adapters are listed below.

    In addition, most USB-C to DVI adapters provide a DVI-D connection only, even though many of them appear to have a DVI-I connector in the product photos. In reality the extra DVI-I pins are simply dummies and are not really wired to anything, so despite appearances these adapters are actually DVI-D adapters, meaning a chain of adapters from USB-C → DVI → VGA is not possible.

    USB Type-C to DVI adapters are not bi-directional, so they cannot be used to connect a DVI source to a USB-C display.

    USB Type-C to Dual-Link DVI-D active adapter dongle (use with DVI cable):   Amazon US
    USB Type-C to Single-Link DVI-D active adapter dongle (use with DVI cable):   Amazon US (1)   Amazon US (2)
    USB Type-C to Single-Link DVI-D active adapter cable (1.8 metres):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    USB Type-C DisplayPort Alternate Mode Source to VGA Display [Link]
    USB-C (DP Alt Mode) Source to VGA Display Inline audio supported? No Image Quality: Same as VGA Maximum Resolution / Frequency: Same as VGA
    A USB Type-C video output port can be connected to a display's VGA input port using a USB Type-C to VGA active adapter. Not all USB Type-C ports support video output. These adapters will only function from USB Type-C ports that support video output via DisplayPort Alternate Mode (any video-capable USB Type-C port will support this).

    USB Type-C to VGA adapters are configured internally as a USB Type-C to DisplayPort passive adapter with a DisplayPort to VGA active adapter attached to it. These adapters work on any USB Type-C port that supports video output via DisplayPort Alternate Mode, which is the video protocol used by all video-capable USB Type-C devices to date.

    Using a USB Type-C to VGA adapter is equivalent to using a native VGA connection. There are no special advantage gained by using an adapter from USB Type-C.

    USB Type-C to VGA adapters are not bi-directional, so they cannot be used to connect a VGA source to a USB-C display.

    USB Type-C to VGA active adapter dongle (use with VGA cable):   Amazon US (1)   Amazon US (2)
    USB Type-C to VGA active adapter cable (1.8 metres):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    USB Type-C DisplayPort Alternate Mode [Link]
     
    USB-C (DP Alt Mode) Capabilities Inline Audio Yes HDR Yes (DP 1.4+)
    No (DP 1.3 & Below) Multiple Video Streams
    From a Single Port Splitters/Hubs: Yes
    Daisy-Chaining: Yes Power Delivery
    (for charging) Up to 100 W (Optional; varies by device)
    What is DisplayPort Alternate Mode?

    DisplayPort Alternate Mode is an optional feature for USB Type-C ports which allows DisplayPort signals to be routed through the USB port. This is how USB Type-C ports output video. USB Type-C ports that do not have this feature cannot output video.

    Technically there are other video-over-USB-C standards such as HDMI Alternate Mode or MHL Alternate Mode, but these are not supported by any devices in the real world. DisplayPort Alternate Mode is the ubiquitous standard for video over USB and is used by all current devices. Even USB-C to HDMI adapters operate using DisplayPort Alternate Mode.

    The DisplayPort signal sent over a USB Type-C port is exactly the same as the one sent over a normal DisplayPort connection. There is no compromise in image quality, features, or bandwidth when using USB-C. The video signal is not limited by the 5 Gbit/s or 10 Gbit/s bandwidth of the USB transport protocol, because the video is not sent using USB. The port simply acts as a passthrough for a native DisplayPort connection from the GPU, and the full DisplayPort data rate is available through the USB-C port (17.28 Gbit/s for HBR2 or 25.92 Gbit/s for HBR3, depending on what the graphics card supports).

    What kind of cable do I need?

    Video over USB uses standard USB Type-C cables. It does not require any "special" USB cables designed specifically for video or anything like that, but it does require USB Type-C cables that can handle high bandwidth. Not all USB Type-C cables are suitable for video transmission.

    Some of the names and bandwidth ratings for USB-C cables that you may commonly see are: USB 2.0 Cable (480 Mbit/s) USB 3.0 or USB 3.1 or "USB 3.1 Gen 1" Cable (5 Gbit/s) USB 3.1 or "USB 3.1 Gen 2" Cable (10 Gbit/s) Thunderbolt 3 Passive Cable (20 Gbit/s) Thunderbolt 3 Active Cable (40 Gbit/s)
    A cable with a 10 Gbit/s or 20 Gbit/s rating should be used. A 10 Gbit/s cable is sufficient for formats up to around 1920 × 1080 @ 144 Hz, 2560 × 1600 @ 60 Hz, or 3840 × 2160 @ 30 Hz, or lower. Higher formats like 4K 60 Hz will require cables rated for 20 Gbit/s.

    Thunderbolt 3 active cables (40 Gbit/s) can only be used for Thunderbolt 3 devices, they cannot be used for plain USB Type-C devices despite using the same connector. Thunderbolt 3 passive cables on the other hand are just normal (though high-grade) USB Type-C cables and are fully compatible with all USB Type-C devices.

    USB Type-C DisplayPort Alternate Mode Source to Thunderbolt 3 Display [Link]
    Thunderbolt 3 Source to USB-C (DP Alt Mode) Display Inline audio supported? Yes Image Quality: Same as DisplayPort Maximum Resolution / Frequency: Same as DisplayPort 1.2

    Show DisplayPort Limits   USB Type-C DisplayPort Alt Mode output ports cannot be connected to a Thunderbolt 3 display. Thunderbolt 3 input ports on displays only accept video input from a Thunderbolt source. No adapters exist that can make this connection possible.

    UPDATE JAN. 2018:

    Intel has released a new generation of Thunderbolt 3 controllers (the "Titan Ridge" family). Displays equipped with these new TB3 controllers can accept USB-C Alt Mode video input using a standard USB 3.1 Type-C cable rated for at least 20 Gbit/s. These may be sold as "Thunderbolt 3 passive cables". Please note that active Thunderbolt 3 cables will only work with Thunderbolt 3 devices, they cannot be used for connecting a Thunderbolt 3 device to a non-Thunderbolt USB-C device.

    USB 3.1 Type-C 20 Gbit/s passive cable (2.0 metres):   Amazon US

    Thunderbolt 3 Source to DisplayPort Display [Link]
    Thunderbolt 3 Source to DisplayPort Display Inline audio supported? Yes Image Quality: Same as DisplayPort Maximum Resolution / Frequency: Same as DisplayPort 1.2

    Show DisplayPort Limits   Thunderbolt 3 output ports can be connected to a display's DisplayPort input port using a standard USB Type-C to DisplayPort adapter. There are no special "Thunderbolt 3 to DisplayPort" adapters needed.

    USB Type-C to DisplayPort adapters operate passively via the USB Type-C DisplayPort Alternate Mode protocol, which allows native DisplayPort signals to be sent through the USB Type-C interface. These adapters do have a chip inside to negotiate the initial USB connection and switch the host port to DisplayPort output mode, so it is more expensive than a typical passive adapter, but there is no active format conversion involved with the actual video transmission.

    DisplayPort-to-DVI and DisplayPort-to-HDMI passive adapters will not function when chained off of a USB Type-C to DisplayPort adapter.

    USB Type-C to DisplayPort adapter dongle (use with DisplayPort cable):   Amazon US (1)   Amazon US (2)
    USB Type-C to DisplayPort adapter cable (1.8 metres):   Amazon US (1)   Amazon US (2)
    USB Type-C to Mini DisplayPort adapter dongle (use with Mini DisplayPort cable):   Amazon US

    Note: Mini DisplayPort is functionally identical to DisplayPort, the only difference is the physical shape. Additional adapters to change between DisplayPort and Mini DisplayPort can be used freely without affecting the operation or compatibility of other devices in any way.
    Thunderbolt 3 Source to HDMI Display [Link] Thunderbolt 3 Source to HDMI Display Inline audio supported? Yes Image Quality: Same as HDMI Maximum Resolution / Frequency: Same as HDMI (version depends on adapter)

    Show HDMI Limits   Thunderbolt 3 output ports can be connected to a display's HDMI input port using a standard USB Type-C to HDMI adapter. There are no special "Thunderbolt 3 to HDMI" adapters needed.

    USB Type-C to HDMI adapters are configured internally as a USB Type-C to DisplayPort passive adapter with a DisplayPort to HDMI active adapter attached to it. These adapters work on any USB Type-C port that supports video output via DisplayPort Alternate Mode, which is the video protocol used by all video-capable USB Type-C devices to date. Although a "USB Type-C HDMI Alternate Mode" specification exists, it is not used in most devices because it was not published until a long time after DisplayPort Alternate Mode had already been universally adopted, and furthermore HDMI Alternate Mode is limited to HDMI version 1.4 and therefore has seen little interest.

    USB Type-C to HDMI 2.0 active adapter dongle (use with HDMI cable):   Amazon US (1)   Amazon US (2)   Amazon US (3)
    USB Type-C to HDMI 2.0 active adapter cable (1.8 metres):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    Thunderbolt 3 Source to DVI Display [Link]
    Thunderbolt 3 Source to DVI Display Inline audio supported? No Image Quality: Same as DVI Maximum Resolution / Frequency: Same as Single-Link DVI

    Show DVI Limits   Thunderbolt 3 output ports can be connected to a display's DVI input port using a standard USB Type-C to DVI adapter. There are no special "Thunderbolt 3 to DVI" adapters needed.

    USB Type-C to DVI adapters are configured internally as a USB Type-C to DisplayPort passive adapter with a DisplayPort to DVI active adapter attached to it. These adapters work on any USB Type-C port that supports video output via DisplayPort Alternate Mode, which is the video protocol used by all video-capable USB Type-C devices to date.

    Currently only Single-Link DVI adapters are available. As with other DVI adapters, these may appear to have Dual-Link connectors on them, so you will not be able to tell whether it is a Single-Link or Dual-Link DVI adapter by looking at it.

    All USB Type-C to DVI adapters currently available are Single-Link only. Even adapters that claim to support formats like 2560 × 1440 at 60 Hz or 3840 × 2160 at 30 Hz, normally achieved with Dual-Link DVI, are actually still only Single-Link DVI adapters. They can support higher modes by operating in Single-Link mode at double frequency, but this is outside DVI spec and will only work on very specific displays such as the Dell U2711. On all other displays, these adapters will be limited to 1080p 60 Hz like any other Single-Link DVI adapter, so they cannot be used with 1080p 144 Hz or 1440p 60 Hz monitors as a substitute for a Dual-Link DVI connection.

    In addition, most USB-C to DVI adapters provide a DVI-D connection even though they appear to have a DVI-I connector. In reality the extra DVI-I pins are simply dummies and are not really wired to anything, so despite appearances these adapters are actually DVI-D adapters, meaning a chain of adapters from USB-C → DVI → VGA is not possible.

    USB Type-C to DVI adapters are not bi-directional, so they cannot be used to connect a DVI source to a USB-C display.

    USB Type-C to Single-Link DVI-D active adapter dongle (use with DVI cable):   Amazon US (1)   Amazon US (2)
    USB Type-C to Single-Link DVI-D active adapter cable (1.8 metres):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    Thunderbolt 3 Source to VGA Display [Link]
    Thunderbolt 3 Source to VGA Display Inline audio supported? No Image Quality: Same as VGA Maximum Resolution / Frequency: Same as VGA
    Thunderbolt 3 output ports can be connected to a display's VGA input port using a standard USB Type-C to VGA adapter. There are no special "Thunderbolt 3 to VGA" adapters needed.

    USB Type-C to VGA adapters are configured internally as a USB Type-C to DisplayPort passive adapter with a DisplayPort to VGA active adapter attached to it. These adapters work on any USB Type-C port that supports video output via DisplayPort Alternate Mode, which is the video protocol used by all video-capable USB Type-C devices to date.

    Using a USB Type-C to VGA adapter is equivalent to using a native VGA connection. There are no special advantage gained by using an adapter from USB Type-C.

    USB Type-C to VGA adapters are not bi-directional, so they cannot be used to connect a VGA source to a USB-C display.

    USB Type-C to VGA active adapter dongle (use with VGA cable):   Amazon US (1)   Amazon US (2)
    USB Type-C to VGA active adapter cable (1.8 metres):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    Thunderbolt 3 Source to USB Type-C DisplayPort Alternate Mode Display [Link]
    Thunderbolt 3 Source to USB-C (DP Alt Mode) Display Inline audio supported? Yes Image Quality: Same as DisplayPort Maximum Resolution / Frequency: Same as DisplayPort 1.2

    Show DisplayPort Limits   All Thunderbolt 3 output ports also have support for DisplayPort 1.2 Alternate Mode, which gives them full compatibility with non-Thunderbolt USB Type-C displays.

    A USB-C Thunderbolt 3 output can be connected to a non-Thunderbolt USB-C input using a standard USB 3.1 Type-C cable rated for at least 20 Gbit/s. These may be sold as "Thunderbolt 3 passive cables". Please note that active Thunderbolt 3 cables will only work with Thunderbolt 3 devices, they cannot be used for connecting a Thunderbolt 3 device to a non-Thunderbolt USB-C device.

    USB 3.1 Type-C 20 Gbit/s passive cable (2.0 metres):   Amazon US

    USB Type-C Thunderbolt 3 Alternate Mode [Link]
     
    Thunderbolt 3 Capabilities Inline Audio Yes HDR Yes (Titan Ridge)
    No (Alpine Ridge) Multiple Video Streams
    From a Single Port Splitters/Hubs: Yes
    Daisy-Chaining: Yes Power Delivery
    (for charging) Up to 100 W (Optional; varies by device)
    Cabling

    Standard USB Type-C cables can be used with Thunderbolt 3 devices, but are usually limited to 20 Gbit/s at most. Special "active" USB Type-C cables are available to ensure full 40 Gbit/s operation. Although official documentation states that active cables are required for 40 Gbit/s, it is possible using standard (passive) cables at very short cable lengths (typically no longer than 0.5 metres). Beyond this, active cables are necessary for the full 40 Gbit/s.

    Video over Thunderbolt 3 uses either 4 or 8 lanes of DisplayPort 1.2 (HBR2), depending on the video bandwidth required. For 4-lane operation (up to ≈4K 75 Hz), passive USB Type-C cables rated for 20 Gbit/s are sufficient. 8-lane operation, which is necessary for higher modes like 5K 60 Hz, will require cables rated for 40 Gbit/s.

    Display Capabilities

    Thunderbolt 3 uses the DisplayPort 1.2 video protocol (HBR2) for its display capabilities. Not all Thunderbolt 3 devices have the same capabilities. Depending on implementation, a Thunderbolt 3 port may have a maximum of either: 4 lanes of HBR2 (17.28 Gbit/s total); sufficient for a single 4K 75 Hz or 5K 30 Hz display 4 lanes of HBR3 (25.92 Gbit/s total); sufficient for dual 4K 60 Hz displays, or a single 4K 120 Hz or 5K 60 Hz display. 8 lanes of HBR2 (34.56 Gbit/s total); sufficient for dual 4K 75 Hz displays, or a single 4K 144 Hz or 5K 75 Hz display. Not all Thunderbolt 3 ports are capable of the full 8-lane configuration or HBR3 transmission. Thunderbolt 3 ports advertised with a maximum of 20 Gbit/s bandwidth (or 2 PCIe lanes) are limited to 4 lanes of DisplayPort (which may be either HBR2 or HBR3 depending on the system GPU). Thunderbolt 3 ports which support the full 40 Gbit/s bandwidth (or 4 PCIe lanes) are capable of the full 8-lane HBR2 configuration.

    Usually when a Thunderbolt 3 port supports the full 8-lane configuration, it is part of a dual-port set controlled by the same chip, and only 8 lanes total are available which are shared by both ports. In these systems, if one Thunderbolt 3 port consumes all 8 lanes (for example by connecting a 5K 60 Hz monitor) then video output will be disabled entirely on the second port.

    Standard ("passive") USB Type-C cables rated for 20 Gbit/s can be used for 4-lane operation, but display modes higher than ≈4K 75 Hz require the full 8-lane configuration. The 8-lane configuration requires USB-C/Thunderbolt 3 cables rated for 40 Gbit/s

    Compatibility

    All Thunderbolt 3 output ports also support USB Type-C DisplayPort Alternate Mode output up to 4 lanes of HBR2, so can be connected to any monitor equipped with a USB Type-C video input even if it isn't a Thunderbolt 3 monitor. This also makes Thunderbolt 3 ports compatible with all USB Type-C adapters to DisplayPort, HDMI, DVI, and VGA.

    Thunderbolt 3 outputs can also be connected to monitors that have Thunderbolt or Thunderbolt 2 inputs via an adapter.

    Thunderbolt 3 inputs will only accept video from a Thunderbolt 3 source, or a Thunderbolt or Thunderbolt 2 source via an adapter.

    UPDATE JAN. 2018:

    Thunderbolt 3 input ports on monitors using the new Titan Ridge TB3 controllers can accept video input from standard USB Type-C DP Alt Mode outputs, they do not require a Thunderbolt 3 source anymore.

    Technical Overview

    Thunderbolt 3 is an additional data transfer protocol that can be included with USB Type-C ports to give them additional functionality, known as a USB Type-C Alternate Mode extension. USB ports which support Thunderbolt 3 Alt Mode can still be used as normal USB 3.1 Type-C ports, but also have special capabilities unique to these Thunderbolt-enabled USB ports.

    The extent of the capabilities of a Thunderbolt-enabled USB-C port depends on the control chip chosen by the device manufacturer. Not all Thunderbolt 3 ports have equal capabilities. Thunderbolt 3 controllers (USB controllers with support for the Thunderbolt 3 protocol) are only available from Intel, and are integrated into systems in a similar way to other third party I/O controllers.

    They are connected to the system via PCI Express lanes—either primary lanes from the CPU or auxiliary lanes from the chipset. A GPU is also connected to the controller with several lanes of DisplayPort to provide video output capability. On laptops this is configured internally by the motherboard designer, but on PC motherboards an external DisplayPort cable is necessary to route video output from a graphics card through a Thunderbolt 3 port on the motherboard. The motherboard designer may also choose to simply route lanes from the CPU's integrated graphics instead, in which case a dedicated graphics card cannot be used to drive monitors through the Thunderbolt 3 port; if the motherboard does not have a DisplayPort input port, it is likely configured in this way.

    The PCI Express connection to the system consists of either 2 or 4 lanes of PCI Express 3.0, providing either 16 Gbit/s or 32 Gbit/s of data transfer capability. The connection to the GPU consists of either 4 or 8 lanes of DisplayPort 1.2 (HBR2), providing either 17.28 Gbit/s or 34.56 Gbit/s of video bandwidth (a standard DisplayPort connection is 4 lanes). Only a combined maximum of 40 Gbit/s may be sent out across the USB-C/Thunderbolt 3 interface, so the data transfer capability and video transfer capability cannot both be used at maximum capacity at the same time. Some Thunderbolt controllers may also support dual Thunderbolt 3 ports, which must share the PCIe and DisplayPort connections to the system.

    (UPDATE JAN. 2018: Updated "Titan Ridge" Thunderbolt 3 controllers can support 4 lanes of DisplayPort 1.4 (HBR3), providing 25.92 Gbit/s of video bandwidth. 8 lanes of HBR3 is not supported. In the past, this guide erronously stated that Titan Ridge controllers could support 8 lanes of HBR3 in order to use the full 40 Gbit/s TB3 connection for video. This was incorrect. The maximum video throughput is still 34.56 Gbit/s, using HBR2 ×8.)

    Most laptops or motherboard with a single Thunderbolt 3 port use a lower tier controller connected with PCIe 3.0 ×2 and DisplayPort 1.2 ×4. These can only output up to 20 Gbit/s and are not capable of higher video modes such as 5K 60 Hz.

    Most products with two or more Thunderbolt 3 ports use one or several dual-port controllers, which have the full PCIe 3.0 ×4 / DisplayPort 1.2 ×8 connection, but these resources are shared by both ports. High-bandwidth video modes such as 5K 60 Hz or high data transfer rates up to 32 Gbit/s are possible on one port, but fully saturating one port will severely reduce similar capabilities on the second port.

    When connected to a Thunderbolt 3 display, video will be transmitted using the Thunderbolt protocol (in either 20 Gbit/s or 40 Gbit/s mode, depending on device support). Either 4 lanes (17.28 Gbit/s) or 8 lanes (34.56 Gbit/s) of DisplayPort video are multiplexed into the 20 Gbit/s or 40 Gbit/s Thunderbolt link (respectively), and the remainder of the link can be saturated with additional traffic such as simultaneous USB 3.1 data.

    When connected to a normal DisplayPort input on a display, the Thunderbolt 3 output port will use USB-C DisplayPort Alt Mode to establish a full 4-lane DisplayPort 1.2 (17.28 Gbit/s) link. This includes the DisplayPort auxiliary channel, so low-bandwidth I/O such as USB 2.0 can potentially be carried simultaneously, but this depends on monitor design.

    When connected to a USB-C DisplayPort Alt Mode input port on a display, the Thunderbolt 3 output port will again use USB-C DisplayPort Alt Mode to transmit video. This can be configured (by the monitor manufacturer) either as 4 lanes of DisplayPort 1.2 (17.28 Gbit/s) with perhaps USB 2.0 over the auxiliary channel, or as 2 lanes of DisplayPort 1.2 (8.64 Gbit/s) and 2 lanes of USB 3.1 (5–10 Gbit/s?), for high-speed USB data transfer over the same cable. Monitor manufacturers may choose to implement it this way if the monitor's resolution / refresh rate do not require the bandwidth of a 4-lane configuration (i.e. 1080p @ 144 Hz or 1440p @ 60 Hz) and it has a built-in USB 3.0/3.1 hub.

    Thunderbolt or Thunderbolt 2 Source to DisplayPort Display [Link]
    Thunderbolt or Thunderbolt 2 Source to DisplayPort Display Possible with passive cables? Yes (standard mDPto-mDP/DP cable) Inline audio supported? Yes Image Quality: Identical to DisplayPort Maximum Resolution / Frequency: Identical to DisplayPort
    Thunderbolt and Thunderbolt 2 output ports on a computer also double as a Mini DisplayPort output. They can be connected to any DisplayPort monitor using a standard Mini DisplayPort to Mini/Full-Size DisplayPort cable. No special "Thunderbolt-compatible" cables or adapters are required.
    Thunderbolt ports act as a DisplayPort 1.1 output Thunderbolt 2 ports act as a DisplayPort 1.2 output Daisy-Chaining

    Although Thunderbolt supports daisy-chaining devices, you cannot daisy-chain standard DisplayPort monitors through a Thunderbolt monitor or device.

    There are two protocols that can be used for daisy-chaining displays: Thunderbolt and DisplayPort MST.

    Original Thunderbolt ports ("Thunderbolt 1") only support daisy-chaining via the Thunderbolt protocol, with a maximum of 2 displays. Non-Thunderbolt monitors cannot be used while daisy-chaining displays, even if they support daisy-chaining via DisplayPort MST. Both monitors must support Thunderbolt.

    Thunderbolt 2 supports both Thunderbolt daisy-chaining and DisplayPort MST. These daisy-chaining technologies are not cross-compatible, so the display chain must be either all Thunderbolt displays or all DisplayPort MST (non-Thunderbolt) displays. A Thunderbolt monitor cannot be driven from a DisplayPort daisy-chain output port or vice versa. DisplayPort MST (daisy-chaining) was introduced in DisplayPort 1.2. This is a separate capability from the Thunderbolt protocol's daisy-chaining capability. Both methods can be used to daisy-chain displays, but they are not cross-compatible. Displays that support daisy-chaining via MST cannot be chained to displays that support daisy-chaining via the Thunderbolt protocol.

    Original Thunderbolt ports ("Thunderbolt 1") do not support DisplayPort MST since they only use DisplayPort version 1.1, which predates the existence of MST. Thunderbolt 1 ports can only daisy-chain displays via the Thunderbolt protocol, so all displays in the chain must support Thunderbolt. You cannot Since original Thunderbolt (henceforth called Thunderbolt 1) only uses DisplayPort 1.1, it does not support standard DisplayPort daisy-chaining (MST), which was not introduced until DisplayPort 1.2. While Apple Thunderbolt Displays can be daisy-chained from Apple MacBook Pro computers with Thunderbolt 1 ports, this is not accomplished via DisplayPort MST, but rather a Thunderbolt controller with two display channels.

    Daisy-chaining these Thunderbolt displays can only be done from computers with these controllers; products using the smaller Thunderbolt 1 controllers are not able to daisy-chain those same displays (such as the MacBook Airs of the same generation). In addition, all other daisy-chainable displays produced since then work via DisplayPort 1.2 MST which is not supported by Thunderbolt 1, so computers with Thunderbolt 1 ports are not capable of daisy-chaining any displays other than the Apple Thunderbolt displays.

    Thunderbolt 2 on the other hand supports the DisplayPort 1.2 protocol, so should work with any displays that use the standard DisplayPort MST implementation of daisy-chaining. Thunderbolt or Thunderbolt 2 Source to HDMI Display [Link]
    Thunderbolt and Thunderbolt 2 output ports function as a Mini DisplayPort output when connected to a non-Thunderbolt display input. Any Mini DisplayPort to HDMI adapter will function the same way in a Thunderbolt output port as it does in a Mini DisplayPort output. No special "Thunderbolt to HDMI" adapters or cables are required. Thunderbolt provides a DisplayPort 1.1 interface, while Thunderbolt 2 provides a DisplayPort 1.2 interface. Adapter compatibility of Thunderbolt is derived from DisplayPort; go to the DisplayPort to HDMI section for details about adapters between DisplayPort / Thunderbolt and HDMI.

    Thunderbolt and Thunderbolt 2 [Link]
     
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    How to use:
    Use the output (left) dropdown only, for general information about an interface (DVI, HDMI, etc.) Use the input (right) dropdown only, to see all options for connecting to a specific port on a display Use both dropdowns for information about a specific adapter combination — make sure they are in the right order!   Output
    (Computer / Source)   Input
    (Monitor / TV / Display)       DisplayPort HDMI DVI VGA (D-Sub) USB Type-C Thunderbolt 3  ← Switch →    DisplayPort HDMI DVI VGA (D-Sub) USB Type-C Thunderbolt 3   (Note: Order matters! Make sure that the Output / Input are in the correct order and not reversed.)  
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    Thunderbolt 3
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    › Which Cable Type Should I Use? (DisplayPort vs. HDMI vs. DVI vs. VGA) [Link] Which Cable Type Should I Use?

    It's generally recommended to avoid using VGA for computer monitors when possible. While it does work fine for most situations, the image quality can be degraded depending on the quality of the cable, and it's relatively easy to damage the cable which often results in color channels dropping out and requiring you to wiggle the cable around, and eventually replace it. On the other hand, VGA can be useful in some situations for consoles, and for using computers/laptops on TVs, since it usually avoids the overscan problems seen with HDMI (where the desktop is cut off on the edges), as well as HDCP compatibility issues that consoles sometimes have.

    Between DVI, HDMI, and DisplayPort: DVI can do up to 1920 × 1080 at 144 Hz or 2560 × 1600 at 60 Hz (using Dual-Link DVI) DVI has a maximum color depth of 24 bit/px (16.7 million colors) DVI does not support any extra features like audio, HDR, or FreeSync But if your monitor's specs don't go beyond these limitations, then there is no difference between using DVI, HDMI, and DisplayPort. For a standard monitor which is limited to (for example) 1080p 60 Hz 24 bit/px, all three will produce identical images.

    So HDMI and DisplayPort don't have better image quality than DVI?

    That's correct. Between DVI, HDMI, and DisplayPort, there is no difference in image quality when the same image settings are used. The difference is that HDMI and DisplayPort support a wider range of possible settings, so they can be used for situations that DVI can't be used for, like 4K 60 Hz or 30 bit/px color depth. But these extra capabilities don't make them any better at doing the other things.

    Basically it works like this; DVI can do some stuff. HDMI and DisplayPort can do all the stuff that DVI can do, plus some more. But the stuff that they have in common with DVI, they don't do any better than DVI does, it's just that they have extra capabilities beyond that. If you don't have a monitor that actually uses those extra capabilities, then there is no advantage to using DisplayPort or HDMI compared to DVI.

    At the moment, the vast majority of displays still fall within the capabilities of DVI, so HDMI and DisplayPort are only necessary if you want the extra features like inline audio, or for higher-end display formats like 2560 × 1440 at 144 Hz, or 4K.

    What about between HDMI and DisplayPort?

    It's pretty much the same as between DVI and HDMI / DP, just between the different versions of HDMI and DisplayPort instead. There is no difference in image quality between HDMI and DisplayPort. They both produce identical images when the same image settings are used. The choice between HDMI and DisplayPort only matters if one of them (usually HDMI) doesn't support the full specs of your monitor. For example, some 4K displays only have HDMI 1.4 and DisplayPort 1.2. Since HDMI 1.4 can't do 4K 60 Hz, but DisplayPort 1.2 can, you should use DisplayPort. However, if the monitor has an HDMI version which does support 4K 60 Hz (like HDMI 2.0), then it doesn't matter whether you use HDMI or DisplayPort.

    You can check the maximum resolution and refresh frequency of each interface and version here.

    Close

    › Connecting to a 120+ Hz Display [Link] Index: Which connections can support 120+ Hz? Which one should I use? Isn't HDMI limited to 60 Hz? Can I use a DisplayPort to HDMI passive adapter / cable? Can I use a DisplayPort to Dual-Link DVI passive adapter / cable? Can I use an HDMI to Dual-Link DVI passive adapter / cable? Can I connect a DVI or HDMI computer / source to a DisplayPort display? I have a BenQ XL2411Z / Acer GN246HL or another 120+ Hz monitor with no DisplayPort input. What should I do?

    Which connections can support 120+ Hz?

    In order of preference:

    (Note that the source device and the display must BOTH support the required HDMI / DisplayPort version. Connections will be limited to the lower version between the two. HDMI and DisplayPort cables themselves do not have "versions", though may have bandwidth limitations. See here for more details on HDMI and DisplayPort cable selection: HDMI DisplayPort)

    At 1920 × 1080 (2K):
    DisplayPort (any version) Dual-Link DVI HDMI 1.3 or above (some monitors do not accept >60 Hz over HDMI even if they have an HDMI 1.3+ port. Research your specific display model, most do not support 120+ Hz over HDMI.) At 2560 × 1440 (2.5K):
    DisplayPort 1.2 or above HDMI 2.0 or above Unofficially, Dual-Link DVI can sometimes work via overclocking (i.e. setting custom resolutions), but don't count on this At 3840 × 2160 (4K):
    DisplayPort 1.3 or above
    Which one should I use?

    A straight DisplayPort connection is the preferred option in all cases.

    At 1920 × 1080 if DisplayPort is not available, then use Dual-Link DVI. If Dual-Link DVI is not available, you can try HDMI as a last resort, but it is not guaranteed to work for 120+ Hz (it depends on the monitor; some work, some don't). HDMI 1.3 and above are capable of 1080p 120+ Hz, but not all monitors implement this capability, some are limited to 60 Hz over HDMI.

    At 2560 × 1440 if DisplayPort is not available, then HDMI can be used if the monitor and source both support HDMI 2.0 or above. If the monitor and source do not both support HDMI 2.0 or above, then it will not be possible to use HDMI for 120+ Hz at 2560 × 1440. In this case, it may be possible to use Dual-Link DVI by setting a custom resolution, but it depends on monitor support and is not guaranteed to work.

    At 3840 × 2160 without compression, DisplayPort 1.3 or 1.4 can be used up to 120 Hz. Frequencies higher than these limits (such as 4K 144 Hz) will require Display Stream Compression (DSC), only supported by DisplayPort 1.4 or higher.
    Isn’t HDMI limited to 60 Hz?

    No, HDMI is not limited to 60 Hz. This is a common myth. Many 1080p 120+ Hz displays are capped at 60 Hz over HDMI, but this is a limitation of those particular displays, not a limitation of the HDMI standard. HDMI itself allows unlimited refresh frequencies, and this has been the case since 2005 with HDMI version 1.2. Please refer to the main article here.

    Conspicuous examples of such displays include the ASUS VG248QE, the BenQ XL2411Z, and the Acer GN246HL. All of these are 1080p 144 Hz monitors with HDMI 1.4a ports, but do not support more than 60 Hz over HDMI. However, other monitors like the ViewSonic XG2401, Nixeus NX-VUE24A, and Samsung C24FG70 do accept 1080p 120+ Hz through HDMI 1.4a.

    Determining what version of HDMI a monitor supports will not tell you anything about whether the monitor supports 120+ Hz over HDMI or not. Some displays support it, some don't, regardless of version. You will have to research the specific model to find out if it supports 120+ Hz over HDMI.

    Can I use a DisplayPort to HDMI passive adapter / cable?

    Yes, up to 1080p 120 Hz. Higher modes such as 1080p 144 Hz are not possible through a DisplayPort to HDMI passive adapter.

    The following requirements also apply: The source must have DisplayPort version 1.2 or higher The display must have HDMI version 1.3 or higher The display must support 120+ Hz over HDMI; many displays are limited to 60 Hz over HDMI even if they have an HDMI 1.3+ port, so research your specific display model carefully and make sure it supports >60 Hz over HDMI A Type 2 DisplayPort to HDMI passive adapter must be used. Not just any DisplayPort to HDMI adapter will work. Type 1 adapters will be limited to 60 Hz at 1080p. See here for more details.
    Can I use a DisplayPort to Dual-Link DVI passive adapter / cable?

    No. DisplayPort to Dual-Link DVI passive adapters / cables do not actually exist. Even though most DisplayPort to DVI adapters you see for sale are labeled as "Dual-Link", all of these are fake, they are only Single-Link DVI adapters in disguise.

    The DisplayPort connector has 20 pins, which means it can be used as a Single-Link DVI-D port via a passive adapter. However, Dual-Link DVI requires 25 pins, so a DisplayPort connector does not have enough pins to emulate a Dual-Link DVI connection. The additional DVI pins on "DisplayPort to Dual-Link DVI" adapters are not connected to anything at all, they are just for show, for marketing purposes. It is nothing but a Single-Link DVI-D adapter dressed up to appear like a Dual-Link DVI-D adapter.

    Can I use an HDMI to Dual-Link DVI passive adapter / cable?

    No, for the same reason as in the above section. HDMI to Dual-Link DVI passive adapters/cables do not exist. HDMI only has 19 pins, like Single-Link DVI-D. Even though most HDMI to DVI adapters you see for sale are "Dual-Link", all of these are fake, they are only Single-Link DVI adapters in disguise.

    These HDMI to Single-Link DVI passive adapters may work for 120+ Hz if used from a DVI output (computer/source) to an HDMI input (display) because it acts as an HDMI connection when used in this configuration, and HDMI 1.3+ can support 1080p 120 Hz as mentioned previously, but this does require the monitor to accept 120+ Hz over HDMI, so it will not work on monitors like the BenQ XL2411Z or ASUS VG248QE, which are limited to 60 Hz on their HDMI inputs.

    Can I connect a DVI or HDMI computer / source to a DisplayPort display?

    Yes. An HDMI to DisplayPort active adapter is required. Please note this is NOT the same as a DisplayPort to HDMI adapter. Standard DisplayPort to HDMI adapters are for connecting DisplayPort sources to HDMI displays, not for connecting to DisplayPort displays.

    I have tested this adapter to work up to a maximum of 2560 × 1440 @ 144 Hz:
    https://www.amazon.com/gp/product/B08FCHQXSQ/

    I tested this adapter with an LG 27GL850, using a GeForce GTX 1080. Please note that active adapters tend to be unreliable, and I cannot guarantee the adapter will work on any system.

    For DVI outputs, there are no DVI to DisplayPort adapters capable of 120+ Hz.

    I have a BenQ XL2411Z / Acer GN246HL or another 120+ Hz monitor with no DisplayPort input. What should I do?

    Some 1080p 144 Hz displays, such as the BenQ/Zowie XL2411Z and Acer GN246HL, only have DVI and HDMI inputs, they do not have DisplayPort. Furthermore, the HDMI ports on these monitors are limited to 60 Hz, which means that the Dual-Link DVI port must be used in order to reach 144 Hz on these monitors.

    This can be problematic for people that want to use these monitors with laptops, or with newer graphics cards that don't have native DVI outputs, or want to set up multiple monitors but don't have enough DVI ports. HDMI-to-DVI and DisplayPort-to-DVI passive adapters will not work, because HDMI and DisplayPort only support passive adapters to Single-Link DVI, which has a maximum of 60 Hz at 1080p. A Dual-Link DVI connection is required for 1080p 120+ Hz.

    Please also note that many HDMI-to-DVI and DisplayPort-to-DVI passive adapters will be disguised and falsely advertised as "Dual-Link DVI" adapters, so if you think you've found one, you haven't. HDMI and DisplayPort do not support passive adapters to Dual-Link DVI, they are all Single-Link DVI adapters no matter what they say or what they look like.

    If your computer does not have a native Dual-Link DVI output, then the only other way of getting a Dual-Link DVI connection is with a DisplayPort to Dual-Link DVI active adapter. Please note that not just any DP-to-DVI active adapter will work; it must be a Dual-Link DVI active adapter. There are active adapters which only support Single-Link DVI, intended for multi-monitor configurations on some older AMD graphics cards (detailed here), and these adapters will not work for 1080p 120+ Hz.

    DisplayPort to Dual-Link DVI active adapters tend to be unreliable, and should only be used as a last resort if you have no other method of connecting. If you have not purchased your monitor yet I suggest you do not buy the XL2411Z or GN246HL, but instead get a monitor that has a DisplayPort input.

    I have tested this adapter to work up to 1920 × 1080 @ 144 Hz:
    https://www.amazon.com/dp/B003XYBA72/

    As always, active adapters tend to be finicky and I cannot guarantee that the adapter will behave the same on your system. My testing was done with an AOC G2460PF and a Radeon RX 480 and GeForce GTX 1080.

    Close

    › Active vs. Passive Adapters [Link] Index: What's the Difference? (Preface) Passive Adapters Passive adapter compatibility has nothing to do with analog and digital Passive adapter compatibility has nothing to do with bandwidth Passive adapters are not necessarily limited to the lowest common denominator Do passive adapters add any latency? Do passive adapters reduce image quality? Active Adapters Do active adapters add any latency? Do active adapters reduce image quality? How can I tell if an adapter is passive or active? Which type should I use?

    What's the difference between a passive adapter and an active adapter? (Preface)

    There are a lot of myths and confusion surrounding passive and active adapters, and there seems to be very little understanding of exactly what they are, how they both work, and how to identify them. Hopefully this article will help clear things up.

    First, to make some general points clear since there is a lot of misinformation spread around:

    Passive Adapters: Compatibility is completely arbitrary and is based on how each interface (DVI, HDMI, etc.) is designed. It has absolutely nothing to do with whether signals are digital or analog. Passive adapters are not necessarily limited to the lowest common denominator in terms of bandwidth / feature support, etc.; this depends on the specific interfaces involved. Passive adapters may or may not work in both directions; this depends on the specific interfaces involved (DVI, HDMI, etc.), it does not depend on the adapter itself. Active Adapters: Active adapters may or may not require additional power connectors; some do and some don't. Active adapters may or may not be expensive or bulky; some are and some aren't, usually it depends on the specific interfaces being converted, as some conversions are more complex than others. Any two interfaces can (in theory) be connected with an active adapter, although in practice not every conceivable combination of interfaces has an adapter manufactured for it. Capabilities (maximum bandwidth, feature support such as audio, etc.) are limited to the lowest common denominator; if one of the interfaces doesn't support something, it won't carry through an active adapter. Active adapters may or may not work in both directions; it depends on the specific adapter. The vast majority of active adapters only work in one direction, but it is not impossible for an active adapter to be bi-directional.
    From a technical standpoint, the difference between an active adapter and a passive adapter is in the basic principle of operation. Being able to tell the difference between a passive and active adapter isn't as simple as looking for external features like power cables, bulkiness, or cost. Some active adapters require power cables, but less complex ones can get enough power directly from the port. Some active adapters, like DisplayPort to VGA, can be very inexpensive, compact, reliable, and require no power cables, and for this reason they are often mistaken or mislabeled as "passive adapters". However, these external features are not the criteria which actually define whether an adapter is passive or active.

    So what is the difference exactly? Well...

    There are many different signaling formats, or methods of representing and transmitting the information that makes up a video signal. Each different interface (VGA, HDMI, DisplayPort, etc.) uses a different format; they represent the information in different ways. If you (as a system designer) want your device to be able to communicate information to another device which uses a different format, there are two ways for this to happen. You can design your device to be able to communicate using the other device's format (make it "multi-lingual" in a sense), or you can insert a third-party device between them to convert the information from one format to the other en route (a "translator" if you will). A passive adapter works via the first approach, and an active adapters works via the second approach.

    Passive Adapters

    A passive adapter works via the first approach described in the preface. As it turns out, the ports on your graphics card or laptop or other source device can output signals in multiple different formats. For example, DisplayPort ports are not just limited to sending DisplayPort signals; they can send signals in the HDMI or DVI formats if required. Of course, the only problem is that the DisplayPort port cannot physically morph itself into an HDMI port to allow you to plug in HDMI cables, so this is why the "passive adapter" is needed; the adapter does not do anything at all to the format of the electrical signal, it is just there to change the shape of the port to allow you to plug the correct cable in. When you use a DisplayPort to HDMI passive adapter, the adapter is not "converting" DisplayPort signals into HDMI signals. The electrical signals coming from the DP port are already in the HDMI format, the adapter is just changing the physical shape of the port.

    Since passive adapters don't actually do anything themselves, they will only work for some very specific combinations of ports which have been pre-designed with the ability to communicate in other formats. The table below shows which connections are possible using passive adapters:

    Every Possible Passive Adapter Combination Output Port
    (Computer / Source) Possible
    Output Signals Comments
    DisplayPort → DisplayPort
    HDMI HDMI version/bandwidth dependent on source device and adapter Single-Link DVI Can be connected to Dual-Link DVI ports, but will still be limited to Single-Link speed HDMI → HDMI Single-Link DVI Can be connected to Dual-Link DVI ports, but will still be limited to Single-Link speed Dual-Link DVI-D → HDMI HDMI version/bandwidth dependent on source device and adapter Single-Link DVI Dual-Link DVI Dual-Link DVI-I → HDMI HDMI version/bandwidth dependent on source device and adapter Single-Link DVI Dual-Link DVI VGA VGA → VGA Can be received by either a VGA input port or a DVI-I input port (DVI-I inputs are very rare, most displays have DVI-D inputs, not DVI-I)
    This table is an exhaustive list of all possible connections that can be made using passive adapters between DP, HDMI, DVI, and VGA. If it is not listed above, it is not possible with a passive adapter.

    While output ports can send multiple types of signals, most input ports will only accept signals in their native format. For example, if your display has a DVI-D input, it will only accept DVI signals. This means that you can connect to it from a DisplayPort, HDMI, or DVI output port, because all three of those ports know how to send the DVI signals that the input port requires.

    On the other hand, if your monitor has a DisplayPort input, you can only connect to it from a DisplayPort source. Neither DVI nor HDMI output ports know how to send DisplayPort signals, so they cannot communicate with just a passive adapter. In this case, an active adapter would be required to convert one of the other signals into the DisplayPort format, since DVI and HDMI ports cannot output DisplayPort signals themselves.

    The only type of input port that will accept more than one format is DVI-I, which can accept both DVI and VGA signals. However, it is very rare for a display to have a DVI-I input. Almost all DVI ports found on displays are DVI-D.

    Passive adapter compatibility has nothing to do with analog and digital

    Something important to notice about the table above is that the compatibility between formats has no relation to whether each format is analog or digital.

    DisplayPort outputs are capable of sending DVI and HDMI signals, so a passive adapter can be used to connect a DisplayPort output to a DVI or HDMI input. However, DVI and HDMI outputs are not capable of sending DisplayPort signals, so a passive adapter cannot be used to connect a DVI or HDMI output to a DisplayPort input. Just because "they're both digital" doesn't mean passive adapters can be used.

    DVI-I outputs are capable of sending VGA signals, so a passive adapter can be used to connect a DVI-I output to a VGA input. Just because "one's a digital standard and one's an analog standard" doesn't mean passive adapters can't be used. If your digital standard includes the ability to send analog signals when requested, then it's possible to use passive adapters to an analog standard, and that's all there is to it.

    People imagine that when one signal is digital and the other is analog, this makes it impossible change one to the other without some processing involved, making passive conversion impossible. Meanwhile if they are both digital, they are more closely related and this makes conversion very simple (insert hand-waving here).

    This talk about how easy or difficult it is to convert one signal to another is irrelevant here. Converting one signal to another is what an active adapter does. Passive adapters do not convert any signals. Yes, it is true that it's impossible to convert an analog format into a digital format without any processing. That's because it's impossible to convert ANY format to ANY OTHER format without processing. There is no such thing as "passively converting" a signal. It doesn't matter whether it is analog to digital or digital to digital; ANY kind of signal conversion is impossible without an active adapter, period.

    Passive adapters work because source ports can output video in multiple different formats, so no conversion is necessary. These formats do not have to be related in any way. If you want to know whether or not you can use a passive adapter for a certain format, the answer has nothing to do with the port's other formats.

    For example, if you want to know whether or not DVI ports can support passive adapters to VGA, DVI being a digital format doesn't have anything to do with VGA adapter support, because the DVI format isn't being used when you're using a passive adapter. The correct question is, "are DVI ports capable of sending VGA signals instead of DVI signals?", and the answer is "yes" (well, it's actually "sometimes", since it's an optional feature). Thus, passive DVI to VGA adapters are possible, despite the DVI format itself being digital.

    Likewise, if you want to know whether DisplayPort to VGA passive adapters exist or not, asking "is the DisplayPort format digital or analog" is completely irrelevant, because there aren't any DisplayPort signals involved when a passive adapter is used. The question is "are DisplayPort ports capable of sending VGA signals instead of DisplayPort signals?", and the answer is "no", so DisplayPort to VGA passive adapters are therefore not possible. It has nothing to do with the DisplayPort format being digital—that didn't stop DVI—it's simply that unlike DVI, DisplayPort wasn't designed with the ability to send VGA signals as an alternative.

    There are no rules of thumb, like "digital to digital is possible passively, analog to digital isn't". The compatibility of passive adapters is completely arbitrary and just comes down to what capabilities each video standard was designed with.

    Passive adapter compatibility has nothing to do with bandwidth

    Another surprise to most people is that DisplayPort 1.2 doesn't support passive adapters to HDMI 2.0, or that DisplayPort and HDMI don't support passive adapters to Dual-Link DVI, only to Single-Link DVI. Upon being informed of this, the response is usually something along the lines of "well that doesn't make any sense; they're both digital, and the bandwidth of DisplayPort is greater than Dual-Link DVI / HDMI 2.0, etc. so a passive adapter should work!" But again, this is based on a misunderstanding of how passive adapters work.

    People imagine that a passive DP to DVI adapter is "converting" DisplayPort signals into DVI signals, as if the image is originally sent as a DisplayPort signal and an adapter transforms it into an equivalent Dual-Link DVI signal, which should work because any Dual-Link DVI data stream will "fit" inside a DisplayPort signal since the bandwidth of DisplayPort is greater than that of DL-DVI. This is all very sensible sounding, and is a wonderful description of how an active adapter works, not a passive adapter.

    A passive adapter does not "convert" a signal from format to another. The original signal is sent in the desired format to begin with, and the adapter is just changing the physical shape of the port so that the correct cables can be plugged in. In a DisplayPort to DVI (or HDMI to DVI) passive adapter, the DisplayPort output port is essentially used as a DVI port; all of the pins are used to send the same electrical signals that a DVI port's pins would (more or less). Of course, the DisplayPort port is still shaped like a DisplayPort port and so DVI cables will not fit—that's what the passive adapter is needed for—but electrically it is acting as a DVI port. But a DisplayPort port also only has 20 pins (compared to 19 pins on SL-DVI-D and 25 pins on DL-DVI-D), so it can only send signals that a Single-Link DVI port would send; it is physically impossible for it to send Dual-Link DVI signals in this manner, because it simply doesn't have enough pins to send the same signals that a DL-DVI port would. HDMI ports (which have 19 pins) are also subject to the same restriction; they can only send Single-Link DVI signals, not Dual-Link.

    And again a similar concept applies to DisplayPort to HDMI adapters; many people are perplexed when they discover that DisplayPort 1.2 only supports passive adapters up to HDMI 1.4. "But DP 1.2 has more bandwidth than HDMI 2.0!" Yes it does—but since adapters don't work by "converting" DisplayPort signals into equivalent HDMI signals, it doesn't matter if HDMI 2.0 signals "fit" inside a DisplayPort 1.2 signal. The bandwidth of a DisplayPort signal is irrelevant, because there are no DisplayPort signals involved at all when using passive adapters. The correct question is "do DisplayPort 1.2 ports know how to send HDMI 2.0 signals?", and the answer is no (mainly because DisplayPort 1.2 was published in 2010 and HDMI 2.0 wasn't published until 2013).

    Passive adapters are not necessarily limited to the lowest common denominator

    Another bit of seemingly sensible wisdom which turns out to be not always true is that when using a passive adapter you'll be limited to lowest capabilities of the two interfaces involved. For example, if using a DVI to HDMI adapter, many people will tell you that audio won't work. After all, DVI signals contain no audio, and converting an audio-free signal to the HDMI format won't make audio magically appear. But again, this is based on the idea that an adapter "converts" DVI signals into HDMI signals, so this is information that applies to active adapters, not passive adapters. When using a passive adapter from a DVI source to an HDMI display, the output device detects an HDMI display and sends HDMI signals to it, including audio. Whether DVI signals contain audio or not is irrelevant, because there are no DVI signals involved. The adapter isn't "converting" DVI signals into HDMI signals, the signals are sent in the HDMI format to begin with.

    While it is sometimes true that you'll be limited to the lowest capabilities between the two interfaces, it isn't always true. Check the specific adapter combination you are wondering about using the dropdown interface at the top of this guide.

    Do passive adapters add any latency?

    No.

    Do passive adapters reduce image quality?

    No.

    Active Adapters

    Active adapters use the second approach described in the preface; both the source device and the display send/receive signals in their native formats, but there is a device in the middle (the adapter) which converts the information from one format to the other. Active adapters are required for any combination of ports that isn't possible with passive adapters (as listed above). Active adapters have also been used in some situations historically to circumenvent limitations of passive adapters; for example, some older AMD graphics cards could support up to 6 monitors, but only maximum of two could be using DVI/HDMI signals (including sending DVI/HDMI signals through a DisplayPort port via a passive adapter); the rest had to use native DisplayPort output. DisplayPort to DVI/HDMI active adapters were useful in this case to allow additional DVI/HDMI connections, since the graphics card would send native DisplayPort signals, which were then intercepted by the adapter and converted to the DVI/HDMI format en route.

    Active adapters have a processor which converts between the two formats, so they are more expensive than passive adapters and may require a power cable, depending on the complexity of the conversion. Since active adapters convert information from one format into its equivalent in a different format, they are limited only to the features and capabilities supported by both formats. This means active adapters won't support anything that isn't supported by both sides of the connection, including limitations on maximum bandwidth, audio support, and any other features such as G-Sync or daisy-chaining. In addition, certain active adapters may have their own limitations depending on what the signal processor can handle. For example, many (but not all) HDMI to DisplayPort active adapters are limited to 1920 × 1200 at 60 Hz. Even though both connections can go beyond that, the processor used inside those adapters can’t process data quickly enough to do more than that. For 1440p or 4K resolutions, even more expensive adapters with more powerful processors must be used.

    Active adapters usually only work in one direction. An active adapter that receives a VGA signal and converts it to the HDMI format usually isn’t equipped to receive HDMI signals and turn them into VGA instead. When purchasing an active adapter, read the product description carefully.

    In theory, any signal can be converted to any other signal with an active adapter, so there are no limitations on what can be done if active adapters are involved.

    Do active adapters add any latency?

    Depends on the adapter, but usually they do not add any meaningful amount of latency.

    Do active adapters reduce image quality?

    No. But when converting between two different formats the image quality will only be as good as the worse format.

    How can I tell if an adapter is passive or active?

    Some people think that "active adapter" means it has an additional plug for power, but this is not the case. If an adapter needs a power cable, it is definitely an active adapter, but if it doesn't need a power cable, it could still be either an active or a passive adapter. It is not possible to tell the difference between them by looking at them, because "active" and "passive" aren't defined by any external feature, as explained above. Some active adapters may have conversion circuitry so small that it can be powered from the port and embedded in the cable termination, so that it appears just like any normal passive adapter cable.

    Sometimes it isn't possible to tell whether an adapter is active or passive, but there are some steps you can take to rule out one or the other. Only specific combinations of ports are possible with passive adapters, listed in the table a few paragraphs above. If the adapter you are looking at isn't a type listed on that table, it must be an active adapter (or fake). If it is a combination listed on that table, then it could be either passive or active. Usually the product description will tell you, but if it doesn't, you should generally assume it is passive, because companies don't normally make active adapters for port combinations that can already be done using passive adapters.

    However, there are some exceptions to this. Even though DisplayPort supports passive adapters to HDMI and Single-Link DVI, there are many active adapters also available for these combinations due to restrictions on multi-monitor configurations on some older AMD graphics cards (see here). So DisplayPort to DVI adapters or DisplayPort to HDMI adapters may either be passive or active; reading the product description will usually tell you.

    In addition sometimes active adapters may be required between DisplayPort and HDMI depending on which versions you want; for example, DisplayPort 1.2 does support passive adapters to HDMI, but only up to HDMI 1.4; to get a full HDMI 2.0 connection from DisplayPort 1.2, you need an active adapter.

    More specific information on what combinations are supported with passive adapters can be found by entering a specific combination of ports in the dropdown menus at the top of this guide.

    Which type should I use?

    If a passive adapter is possible for the configuration you want (check using the utility at the top of this guide), then usually you should use the passive adapter. Active adapters tend to be more expensive and less reliable, and only exist for situations where passive adapters won't work.

    Close

    › Active Adapter Requirements for Multi-Monitor Configurations [Link] Certain older AMD graphics cards require a native DisplayPort connection or DisplayPort active adapters to connect more than 2 monitors. This limitation ONLY applies to certain older AMD graphics cards. NVIDIA graphics cards have never had this limitation, and newer AMD graphics cards also no longer have it. DisplayPort / DP active adapters are not required for multi-monitor configurations unless you have one of the AMD graphics cards listed further down.

    Graphics cards with this limitation can still support 3+ monitors, but only a maximum of two may be connected through any combination of the following:
    VGA DVI HDMI Any active or passive adapters from VGA / DVI / HDMI to anything else DisplayPort to DVI / HDMI passive adapters (Please note that the convention for talking about adapters is "<source> to <display>", so for example the term "DisplayPort to DVI adapter" means an adapter that connects a DisplayPort output (PC/laptop/etc.) to a DVI display, not the other way around. Most adapters are not reversible, so a DisplayPort to DVI adapter is not the same thing as a DVI to DisplayPort adapter.)

    If your graphics card has this limitation, then any additional monitors beyond 2 must be connected with one of the following:
    DisplayPort / Mini DisplayPort connection DisplayPort to VGA / DVI / HDMI active adapter
    The following graphics cards are subject to the limitation described above:
    AMD Radeon R7 370 AMD Radeon R7 240, R7 250, R7 250X, R7 265, R9 270, R9 270X, R9 280, and R9 280X AMD/ATI Radeon HD 5000, 6000, 7000, and 8000 series
    Some of these graphics cards, particularly low-end models such as the R7 240, often do not have a DisplayPort output. In that case, it is not possible to set up 3 independent displays.

    The following graphics cards do not support more than 2 monitors at all (regardless of whether DisplayPort or active DP adapters are used):
    NVIDIA GeForce GT 610, GT 620, GT 630 (Fermi version), and GT 705 NVIDIA GeForce GTX 500 series and below ATI Radeon HD 4000 series and below
    Close

    › Do HDMI Cables Have Versions? [Link] Do HDMI cables have versions?

    There are differences between various HDMI cables, but they are not classified by "HDMI version" because that would not be an accurate way of distinguishing the different cable types.

    HDMI cables, for the most part, all have the same internal design, the same wiring layout, etc. There is one exception to that which is the "HDMI with Ethernet" cable; these are wired slightly differently (pin 14, a reserved pin in normal cables, is connected and formed into a twisted pair with pin 19). However, the inline ethernet feature has pretty much never been used in any product, so this distinction can be ignored. "HDMI with Ethernet" cables are still fully compatible with all other HDMI devices and don't affect any other aspect of the connection, so it doesn't matter if your cable is a "with Ethernet" version or not.

    Although HDMI cables all have the same design and wiring, that doesn't mean they will all function identically. Higher resolutions and higher refresh rates both increase the amount of data that needs to be transmitted across the cable, and cables have limits to how much data per second they can handle (bandwidth). As the signaling frequency increases, the signal starts to drop off and becomes more and more difficult to read on the other end, and eventually it will be too degraded to recover the data. Different cables have different limits to how high of a frequency they can transmit reliably, depending on the manufacturing tolerances and length of the cable.

    So in this sense, the quality of a cable does matter, since cables with more tightly controlled manufacturing will be capable of facilitating bandwidth levels beyond what lesser quality cables can handle. However, there is no need to shop for expensive "high-quality" cables hoping to get one that can handle as much as possible. It's worth pointing out the HDMI ports on your devices have limits too, based on the version; For example, HDMI 1.4 ports have a maximum of 10.2 Gbit/s, and HDMI 2.0 ports have a maximum of 18.0 Gbit/s. You won't get more bandwidth than that out of those ports no matter what cable you use, so getting cables that advertise super high bandwidth ("27.0 Gbit/s!") won't give you any benefit compared to an 18.0 Gbit/s cable. As long as the cable is good enough to handle the maximum bandwidth of your ports, there's nothing further to be gained from a better cable.

    To avoid any guessing games as to how much bandwidth a cable can handle, the creators of the HDMI standard have established certifications for cables that have been tested to handle a certain amount of bandwidth. These certification levels are conveniently matched with the maximum limits of various HDMI versions (with the exception of the Standard Speed certification, which is only about half the maximum bandwidth of HDMI 1.0–1.2, but nobody makes Standard Speed HDMI cables anyway).

    HDMI Cable Certification Levels Cable Type HDMI Versions
    Matched With1 Bandwidth
    Tested At Equivalent to (approx.)... Standard Speed HDMI Cable -
    2.2275 Gbit/s 720p @ 60 Hz
    1080p @ 30 Hz
    High Speed HDMI Cable 1.3 10.2 Gbit/s 1080p @ 144 Hz
    1440p @ 75 Hz
    2160p @ 30 Hz 1.3a 1.4 1.4a 1.4b Premium High Speed HDMI Cable 2.0 18.0 Gbit/s 1080p @ 240 Hz
    1440p @ 144 Hz
    2160p (4K) @ 60 Hz 2.0a 2.0b Ultra High Speed HDMI Cable 2.1 48.0 Gbit/s 2160p (4K) @ 144 Hz
    4320p (8K) @ 50 Hz 1 The maximum speed guaranteed by this certification tier is exactly the maximum speed of these HDMI versions
    There are no other classifications for HDMI cables besides those. HDMI cables are only rated by bandwidth because they only affect bandwidth. Feature support, such as 3D, HDR, FreeSync, or audio is not affected by the cable and will work on anything (with the aforementioned exception of Ethernet, which requires an HDMI with Ethernet cable). Since multiple versions of HDMI have the same maximum bandwidth, there is not a separate type of cable for every version. There are no "HDMI 1.3 cables" and "HDMI 1.4 cables" for example. Both of those versions have the same maximum bandwidth, 10.2 Gbit/s, so are therefore both covered by the same type of cable, a High Speed HDMI cable.

    If you have a device or display with an HDMI port of any version between 1.3 and 1.4b, then any HDMI cable with a High Speed certification will handle any signals your devices might send. If you have devices with HDMI 2.0–2.0b ports, then a High Speed HDMI cable may or may not work, since they have only been tested up to 10.2 Gbit/s. That doesn't mean they won't work at 18.0 Gbit/s, it just means it's not guaranteed to. Premium High Speed cables on the other hand have been tested at 18.0 Gbit/s, and therefore are certain to handle anything that comes out of an HDMI 2.0–2.0b port.

    You said some cables can handle more bandwidth than others because the signals don't degrade as much in higher quality cables. But isn't cable quality irrelevant because digital signals are immune to interference?

    All electrical signals are subject to interference, regardless of whether that signal is representing information analagously or digitally. However, if the information is being represented digitally then the signal distortion caused by interference can be corrected, and the final result is no different than if there were no interference in the first place. While this does effectively eliminate the effects of interference, it does not prevent the interference from being there, and if the signal is distorted so much that it is beyond recognition and can't be corrected, then it will suddenly stop working.

    This matters for cables because higher bandwidth formats like 4K 60 Hz will experience worse signal loss than lower formats like 1080p 60 Hz. Therefore, a cable that can reliably transmit 1080p 60 Hz video won't necessarily be able to do 4K as well. The increased signal loss with the higher format may be enough to cross the threshold into being too distorted to recover.

    Aren't the names "High Speed HDMI Cable", "Premium High Speed HDMI Cable", and so forth just meaningless made-up marketing names?

    No, these are official names for the various cable tiers, established directly by the HDMI specification. Refer to HDMI 1.4 page 11, section 4.1.1. The Premium High Speed certification was added in 2015 as a standalone release (here), not part of any of the HDMI specification documents.

    Didn't the HDMI creators say that any High Speed HDMI cable will handle the full 18.0 Gbit/s of the HDMI 2.0 spec? Isn't the whole "Premium High Speed" cable just a made-up marketing thing?

    On the initial release of HDMI 2.0, it is true the HDMI creators did say that existing High Speed HDMI cables would be able to handle the full 18.0 Gbit/s of HDMI 2.0:

    Can existing HDMI cables support the higher bandwidths of HDMI 2.0 Specification?

    Yes, existing High Speed HDMI Cables (wire only) will support the new higher bandwidths (up to 18Gbps).

    Does HDMI 2.0 require new cables?

    No, HDMI 2.0 features will work with existing HDMI cables. Higher bandwidth features, such as 4K@50/60 (2160p) video formats, will require existing High Speed HDMI cables (Category 2 cables).

    However, this has since been shown to not always be true. While many High Speed cables do work fine at the full 18 Gbit/s speed, it is not guaranteed. Some do and some don't.

    The reason most High Speed certified cables still work at 18 Gbit/s is because cables are usually offered in several lengths which are all cut from the same cable stock. Signal loss increases with distance (and conversely, decrease with lower distance), so when cable manufacturers chose cable that can handle High Speed certification requirements at 10 metres, the 2- and 3-metre cuts of that cable will often handle even higher speeds.

    Certifications obtained for one cable are valid for all shorter versions of that cable, so a manufacturer will submit their longest version and obtain a High Speed certification for that entire product line, and may not bother to submit the shorter versions individually to get Premium High Speed certifications for those. Also they usually want you to buy one of their more expensive cables for higher formats like 4K, and so they don't want their lower-end cables to have Premium certifications even though the short versions may be perfectly capable of 18 Gbit/s operation.

    I would recommend reading these articles for more detail:
    https://www.bluejeanscable.com/articles/bad-reasons-to-upgrade-hdmi-cable.htm http://www.bluejeanscable.com/articles/note-about-hdmi-2.htm
    http://www.bluejeanscable.com/articles/premium-hdmi-cable.htm

    Close

    › Is HDMI Limited to 60 Hz? [Link] Is HDMI Limited to 60 Hz?

    No, HDMI is not limited to 60 Hz. Only HDMI 1.0 and 1.1 were restricted to specific formats (which were all 60 Hz and under), but this restriction was removed in HDMI 1.2 (§6.1) all the way back in 2005, and HDMI has not had any hard limit on refresh frequency since then. 720p 120 Hz is in fact explicitly listed in HDMI 1.2 as a supported format (§6.3.2), although at 1080p it was still limited to ≈60 Hz by bandwidth constraints. HDMI 1.3 in 2006 alleviated these bandwidth constraints, increasing it to surpass Dual-Link DVI, and display makers have been free to implement 1080p 144 Hz over HDMI ever since then.

    But I have an ASUS VG248QE / BenQ XL2411Z / Acer GN246HL and it's capped at 60 Hz over HDMI!

    Yes; these and many other 1080p 144 Hz monitors are equipped with HDMI 1.4a inputs, yet are still limited to 60 Hz over HDMI. This is just an unfortunate limitation of those particular monitors, it is not a limitation of the HDMI standard. Other monitors, such as the ViewSonic XG2401, the Nixeus NX-VUE24A, and the AOC G2590PX are also 1080p 144 Hz monitors with HDMI 1.4a ports, and they do accept 1080p 120/144 Hz over HDMI. It's purely a matter of manufacturer's discretion whether they want to implement that capability or not. Sadly, many instead choose to implement HDMI 1.4a with reduced bandwidth, presumably for cost-saving reasons.

    The long and short of it is, some displays support 1080p 120+ Hz over HDMI 1.4, and some don't. It just depends on the display, so you'll need to do some research on whatever product you're considering.

    But if a product doesn't support the full bandwidth of HDMI 1.4a, surely it can't be HDMI 1.4a-compliant!

    Unfortunately it still can. Support for the full bandwidth is not a requirement for a device or control chip to be HDMI 1.4a-compliant. Very few displays (certainly during the peak years of HDMI 1.3/1.4) have specs that can even use the full bandwidth, so it wouldn't make sense to require that all devices wishing to implement any HDMI 1.4 features must use a more expensive control chip capable of the full bandwidth, when virtually none of them have any use for it.

    Isn't the extra bandwidth in 1.4 only used for 3D at 60 Hz per eye, not for normal 120 Hz video?

    No. This is something that people often repeat for some reason, that although 1080p 60 Hz uses less than half the bandwidth provided by HDMI 1.4, that extra bandwidth is apparently only allowed to be used for 3D frame packing. While it is true that 3D is one of the uses for the extra bandwidth, there is no restriction on using it for other purposes, such as standard video transmission at higher resolutions and refresh frequencies. This claim that the extra bandwidth is only allowed to be used for 3D is a bit of a head scratcher when you consider that the bandwidth increase has been there since HDMI 1.3, but the 3D format definitions (such as frame packing) weren't added until HDMI 1.4.

    But if you do meet anyone who insists that the extra bandwidth really is only allowed to be used for 3D, please feel free to ask them which page or section of the HDMI Specification establishes this supposed restriction, I'd be interested to find out. I've never had an answer.

    Wasn't support for 1080p 120 Hz only added in HDMI 1.4b (and therefore not supported in 1.4a and earlier)?

    No. This claim comes from people reading it on Wikipedia but not checking the citation, which was just a youtube video of some random guy saying so. Speaking as someone who has the actual HDMI 1.4/a/b Specification documents on hand, this claim of 1080p 120 Hz support being introduced in HDMI 1.4b is completely false. Nothing was introduced in HDMI 1.4b (see page 3 here), simply minor edits and clarifications to the document itself, which is why you don't generally see "HDMI 1.4b" devices, because technologically it is identical to HDMI 1.4a, just some changes to the wording in the HDMI Specification document.

    1080p 120 Hz has been explicitly listed in the HDMI Specification as a supported format since HDMI 1.4 (§6.3.2), not 1.4b, but even prior to that in HDMI 1.3 or 1.3a it can be implemented as a vendor-specific format which is a perfectly valid approach. Video formats do not require "support" from the HDMI Specification to work, because the word "support" does not mean what most people think it means in this case.

    When the HDMI Specification "adds support" for a certain format, it doesn't mean it in the conventional sense of "adding the capability" as if it wasn't previously possible. They mean it in a more literal sense of adding supporting material to help strengthen it, by defining standardized timings for the format to help with compatibility and ease of implementation instead of leaving it purely to the vendor's discretion.

    This "support" isn't actually necessary to display a format though. Even if a format isn't supported by the HDMI Specification, it can still be displayed through HDMI. 2560 × 1440 for example is not listed in the HDMI Specification either, so it is just as "unsupported" by HDMI as 1080p 144 Hz is, and yet it's implemented over HDMI on hundreds of different monitors. The same can be done with 1080p 144 Hz if manufacturers choose to do so, and they have done so on several monitors as mentioned above.

    Another example of this usage of the term "support" is ultrawide formats; HDMI 2.0 "added support" for the 21:9 ratio, even though ultrawide resolutions were available before HDMI 2.0 even existed and were working just fine over HDMI 1.4a. "Adding support" for 21:9 just meant the HDMI 2.0 spec added material to help establish standardized formats and timings, not that 21:9 formats weren't possible in previous versions, and indeed the majority of ultrawide monitors still use HDMI 1.4a even though it "doesn't support" 21:9 ratio formats, because it doesn't need to.

    Just because "HDMI doesn't support X", this does not mean "HDMI doesn't allow X" or "X won't work over HDMI".

    Citation Needed!!!

    Here's the first sentence of the video section of the HDMI 1.4a Specification:

    HDMI Specification Version 1.4a (2010), §6.1

    6.1  Overview

    HDMI allows any video format timing to be transmitted and displayed. To maximize interoperability between products, common DTV formats have been defined. These video format timings define the pixel and line counts and timing, synchronization pulse positions and duration, and whether the format is interlaced or progressive. HDMI also allows vendor-specific formats to be used.
    "Any video format timing". Am I just taking it out of context and applying it beyond its intended meaning? No. Here's the same section from HDMI 1.1:

    HDMI Specification Version 1.1 (2004), §6.1

    6.1  Overview

    HDMI allows a wide variety of explicity defined video format timings to be transmitted and displayed. These video format timings define the pixel and line counts and timing, synchronization pulse positions and duration, and whether the format is interlaced or progressive.
    In HDMI 1.0 and 1.1, only certain pre-defined formats were allowed (listed in §6.1–6.3; all of them are 60 Hz and under, so HDMI was indirectly limited to 60 Hz by that). In 2005 with the release of HDMI 1.2, that clause was specifically changed to say what it still says today, that any format is allowed. It's quite deliberate.

    HDMI 1.2 was designed to make HDMI more viable for the PC space, by allowing any arbitrary resolution and refresh rate (within the bandwidth limit), as opposed to the strict adherence to only standardized home theater formats required by HDMI 1.0 and 1.1. Although it does still have a list of pre-defined formats (to maximize interoperability between products, as it says), any format which is not explicitly defined in the HDMI Specification may still be implemented as a vendor-specific format.

    HDMI 1.2 also expanded the list of explicitly defined formats itself to include some >60 Hz formats like 720p 120 Hz, so the claim that it or later versions of HDMI impose a flat 60 Hz limit is pure nonsense.

    HDMI Specification Version 1.2 (2005), §6.3.2

    6.3.2  Secondary Video Format Timings
    720(1440)x240p @ 59.94/60Hz 2880x480i @ 59.94/60Hz [...] 1920x1080i @ 119.88/120Hz 1280x720p @ 119.88/120Hz 720(1440)x480i @ 239.76/240Hz 720x480p @ 239.76/240Hz
    However, the maximum bandwidth of HDMI 1.2 was the same as 1.0 and 1.1, so at 1080p it was still limited to 60 Hz due to bandwidth constraints.

    In 2006, HDMI 1.3 increased the maximum bandwidth by over double, enough for up to 144 Hz at 1080p. From this point onwards display manufacturers have been free to implement 1080p 120/144 Hz as a vendor-specific format.

    HDMI 1.4 added 1080p 120 Hz to the list of explicitly defined formats, so it is no longer even necessary for the manufacturer to have to define their own timings for the format:

    HDMI Specification Version 1.4 (2009), §6.3.2

    6.3.2  Secondary Video Format Timings
    720(1440)x240p @ 59.94/60Hz 2880x480i @ 59.94/60Hz [...] 1920x1080p @ 119.88/120Hz 1920x1080p @ 100Hz
    As for 1080p 144 Hz, as before, manufacturers are still free to implement it as a vendor-specific format, and some have done so already.

    If a 1080p 120+ Hz display doesn't support 120+ Hz over HDMI, it's the fault of that display model, not a limitation of the HDMI standard.

    Close


    › Data Rate / Maximum Refresh Frequency Calculator [Link]  Data Rate: Calculate the data rate required at a certain resolution and refresh frequency
     Max. Refresh Frequency: Calculate the maximum refresh frequency of every interface at a certain resolution
    Resolution: ✕ Frequency: Hz Color Depth: 8 bpc (24 bit/px) 10 bpc (30 bit/px) 12 bpc (36 bit/px) 16 bpc (48 bit/px) Color Format: RGB YCbCr 4∶4∶4 YCbCr 4∶2∶2 YCbCr 4∶2∶0 Compression: None DSC (2.0× ratio) DSC (2.5× ratio) DSC (3.0× ratio) Timing Format: None CTA-861 CVT CVT-RB CVT-R2    Show calculations
     Show timing formula   Set to defaults
    Link with these settings   Close
  12. Like
    Glenwing got a reaction from DeParty93 in 3x 4k Monitors with more then 120Hz each... possible?   
    Right, so each of the 4K 120 Hz is 1 display, because it doesn't need DSC, and the 4K 240 Hz counts as 2, so 1+1+2 = 4, which doesn't exceed the max limit, so it's allowed.
     
    It's 120 and 240 times 1000/1001 which is a standard value for historical reasons related to the transition from monochrome to color television in the US.
  13. Like
    Glenwing got a reaction from F.E.A.R. in My monitor has 165hz but it limits me to 144hz!   
    That's per HDMI 2.0 spec.
     
    https://linustechtips.com/topic/729232-guide-to-display-cables-adapters-v2/?section=calc&mode=maxfreq&H=2560&V=1440
  14. Informative
    Glenwing got a reaction from Kilrah in 3x 4k Monitors with more then 120Hz each... possible?   
    NVIDIA has a limit of 4 displays per card. If the resolution/refresh rate is high enough to require DSC, then it counts as 2 displays. 4K 240 Hz requires DSC, so you will be limited to 2 displays (each counts as 2, so you will reach the max limit of 4).
     
    4K 120 Hz is the max limit of DP 1.4 without DSC being required, so that is the most you can do if you want 3 or 4 of these displays.
     
    https://nvidia.custhelp.com/app/answers/detail/a_id/5338/~/using-high-resolution%2Frefresh-rate-displays-with-vesa-display-stream
     
  15. Like
    Glenwing got a reaction from Deadpool2onBlu-Ray in ALIENWARE AW2725DF not getting 360 hz with display port   
    10 series does not support DSC.
  16. Agree
    Glenwing got a reaction from Stahlmann in ALIENWARE AW2725DF not getting 360 hz with display port   
    10 series does not support DSC.
  17. Like
    Glenwing got a reaction from GuiltySpark_ in ALIENWARE AW2725DF not getting 360 hz with display port   
    10 series does not support DSC.
  18. Agree
    Glenwing reacted to testcy in Guide to Display Cables / Adapters (v2)   
    Thanks, it works after installing the pixel clock patcher.
  19. Informative
    Glenwing got a reaction from AdultSwimmer in 4 displays vs RTX 4090   
    Yes, it's incorrect. First of all, "Max resolution" doesn't actually exist as a restriction. GPUs have no restrictictions on the maximum resolution they will support except for those inherent to the protocol, such as a hard limit of 4095 in each dimension for old cards/drivers that only support legacy EDID or things like that.
     
    This used to be easier to prove when "max resolution" specs were lower, for example Fermi cards like the GTX 580 listed "max resolution 2560×1600" but you can run 3840×2160 on it just fine (at 30 Hz due to bandwidth limitations of the connections it supports, but hey). On Kepler the "maximum resolution" was 4096×2160 but people ran 5K monitors on it just fine, and indeed, multiple 4K monitors (you see, the "max resolution" is not reached by adding up all your displays).
     
    The "maximum resolution" spec was invented to give consumers confidence that their display would be supported. Back when 2560×1600 was the highest available resolution in a monitor, they liked to put "Maximum resolution: 2560×1600". But it's not meant as a "it can't go beyond 2560×1600", but more like "Yes it supports even those 2560×1600 monitors". These days, they generally just pick the highest standard 16:9 resolution that can be supported at 60 Hz, and list that as the "maximum resolution", but you can go higher if you lower the refresh rate, enable chroma subsampling or DSC etc., and it certainly doesn't mean that multiple displays are "added up" and checked against this number.
     
    With modern cards having "maximum resolution" of 7680×4320 it's a bit more difficult to demonstrate from home than it used to be, but you can take it from NVIDIA instead. This was for RTX 30 series:
    https://www.nvidia.com/content/dam/en-zz/Solutions/geforce/ampere/pdf/NVIDIA-ampere-GA102-GPU-Architecture-Whitepaper-V1.pdf
     
    As you can see, there is no "all your displays must add up to less than 7680×4320" limitation. You can run two 7680×4320 displays, one per port. The limit of two comes from the fact that DSC is required for 8K 60 Hz.
     
    https://nvidia.custhelp.com/app/answers/detail/a_id/5338/~/using-high-resolution%2Frefresh-rate-displays-with-vesa-display-stream
     
  20. Informative
    Glenwing got a reaction from Eigenvektor in How can I run 24x 1080p displays? (11,520x4320px)   
    This is not really correct; "Maximum resolution" on graphics cards is a kind of fake spec. See here:
     
  21. Agree
    Glenwing got a reaction from Stahlmann in My MSI Monitor has these black borders which weren't there before   
    That's the physical edge of the screen.
  22. Agree
    Glenwing reacted to manikyath in Should I flip my reverse fan on the PSU shroud?   
    because some people decide that disagreeing must be some sort of personal vendetta.. some proof;
     
    you'll have to excuse the quite mismatched fans, they were just the top of my bin, but here we see both fans working just fine sitting side by side:

     
    and here we see the same fans sitting opposed to each other, where despite both fans spinning, the left one essentially does not move any air at all, and the fan on the right is severely reduced as well.

     
    it's got nothing to do with some sort of personal vendetta or hitting on specific categories of forum users.. if you say something that i know to be provably false, i will reply and claim so.
     
    and for the sake of the topic.. here's the wimpy fan being blown into by the stronger fan, and we can indeed observe that more air is being moved than just the weak fan's result, but the height of the paper is roughly in line with the strong fan's result, so two mismatched fans is most likely not better than the best fan's results for an open air scenario.

     
    case in point.. fans interact will fight for air, quite heavily so in some circumstances.
    now.. another thing i want to add - subjective at that.. is that with the fans opposing each other, there was signficiantly more wind noise, indicating turbulence. this change wasnt noticed having them both pointed the same way. the strong fan is a whiny mess so it's difficult to measure this, so it's just a subjective footnote in this test.
  23. Informative
    Glenwing reacted to Niels_at_home in Anyone succesfully adapted HDMI to DP while keeping GSYNC 1440p 144hz?   
    Just to update this. Tested on a 3080, once adapted from HDMI to DP, the monitor did sadly not show up as a GSYNC compatible anymore.
  24. Agree
    Glenwing got a reaction from GuiltySpark_ in ASUS TUF RTX 4090 W/DP 1.4-USB C Cable Not Working W/ Corsair Monitor   
    It says DisplayPort/USB-C Alt Mode (4-lane).
     
    Slash means "or". So you can use DisplayPort, or a 4-lane USB-C Alt Mode connection.
  25. Like
    Glenwing got a reaction from GuiltySpark_ in Guide to Display Cables / Adapters (v2)   
    Display Cables and Adapters Guide Glenwing’s Guide to Display Cables / Adapters
    This is a guide intended to assist with the selection of cables and adapters. It covers the different types of DisplayPort, HDMI, DVI, VGA, and USB-C cables, as well as every possible combination of adapters between these interfaces. This guide features an interactive JavaScript interface which allows you to select the exact combination of interfaces you are interested in, to make it easy to find the information you are looking for. This guide also contains a video data rate calculator for calculation how much data a given video format requires, as well as the maximum refresh frequency each video interface is capable of at the given resolution. DisplayPort
    Transmission Mode RBR HBR HBR2 HBR3 UHBR 10 UHBR 13.5 UHBR 20 DP Version
    Introduced In 1.0 1.2 1.3 2.0 Transmission Bit Rate (Maximum Data Rate) 6.48 Gbit/s (5.184 Gbit/s) 10.80 Gbit/s (8.64 Gbit/s) 21.60 Gbit/s (17.28 Gbit/s) 32.40 Gbit/s (25.92 Gbit/s) 40.00 Gbit/s (38.69 Gbit/s) 54.00 Gbit/s (52.22 Gbit/s) 80.00 Gbit/s (77.37 Gbit/s) Resolution Maximum Refresh Frequency* 2K 1920 × 1080 (16∶9) 1920 × 1200 (16∶10)
    85 Hz 85 Hz
    144 Hz 120 Hz
    240 Hz 240 Hz
    360 Hz 360 Hz
    600+ Hz 600+ Hz
    600+ Hz 600+ Hz
    600+ Hz 600+ Hz 2.5K 2560 × 1080 (≈21∶9) 2560 × 1440 (16∶9) 2560 × 1600 (16∶10)
    60 Hz 50 Hz 50 Hz
    100 Hz 85 Hz 75 Hz
    200 Hz 165 Hz 144 Hz
    300 Hz 240 Hz 200 Hz
    420 Hz 360 Hz 360 Hz
    600+ Hz 540 Hz 480 Hz
    600+ Hz 600+ Hz 600+ Hz 3.5K 3440 × 1440 (≈21∶9)
    30 Hz
    60 Hz
    120 Hz
    180 Hz
    300 Hz
    360 Hz
    600 Hz 4K 3840 × 1600 (≈21∶9) 3840 × 2160 (16∶9) 4096 × 2160 (≈19∶10)
    30 Hz 24 Hz -
    50 Hz 30 Hz 30 Hz
    100 Hz 75 Hz 75 Hz
    144 Hz 120 Hz 100 Hz
    200 Hz 165 Hz 165 Hz
    300 Hz 240 Hz 200 Hz
    480 Hz 300 Hz 300 Hz 5K 5120 × 2160 (≈21∶9) 5120 × 2880 (16∶9)
    - -
    30 Hz -
    60 Hz 30 Hz
    85 Hz 60 Hz
    120 Hz 100 Hz
    180 Hz 120 Hz
    240 Hz 200 Hz 8K 7680 × 4320 (16∶9)
    -
    -
    -
    30 Hz
    30 Hz
    60 Hz
    85 Hz * Only the highest common / standard frequencies are listed (24 / 30 / 50 / 60 / 75 / 85 / 100 / 120 / 144 / 165 / 180  / 200 / 240 Hz, or higher multiples of 60). This table is not meant to list the absolute limits down to the very last Hz. For more exact limits, or for other resolutions, refer to the data rate calculator here.

    Uncompressed 8 bpc RGB color and CVT-R2 timing are assumed on this table. Maximum frequency may be different when different settings are used. For frequency limits at different settings or resolutions, refer to the data rate calculator here. HDMI Version 1.0–1.2 1.3–1.4 2.0 2.1 Maximum Bit Rate (Maximum Data Rate) 4.95 Gbit/s (3.96 Gbit/s) 10.20 Gbit/s (8.16 Gbit/s) 18.00 Gbit/s (14.40 Gbit/s) 48.00 Gbit/s (41.92 Gbit/s) Resolution Maximum Refresh Frequency* 2K 1920 × 1080 (16∶9) 1920 × 1200 (16∶10)
    60 Hz 60 Hz
    144 Hz 120 Hz
    240 Hz 200 Hz
    480+ Hz 480+ Hz 2.5K 2560 × 1080 (≈21∶9) 2560 × 1440 (16∶9) 2560 × 1600 (16∶10)
    50 Hz 30 Hz 30 Hz
    100 Hz 85 Hz 75 Hz
    180 Hz 144 Hz 120 Hz
    480+ Hz 360 Hz 300 Hz 3.5K 3440 × 1440 (≈21∶9)
    30 Hz
    60 Hz
    100 Hz
    300 Hz 4K 3840 × 1600 (≈21∶9) 3840 × 2160 (16∶9) 4096 × 2160 (≈19∶10)
    24 Hz - -
    50 Hz 30 Hz 30 Hz
    85 Hz 60 Hz 60 Hz
    240 Hz 180 Hz 180 Hz 5K 5120 × 2160 (≈21∶9) 5120 × 2880 (16∶9)
    - -
    24 Hz -
    50 Hz 30 Hz
    144 Hz 100 Hz 8K 7680 × 4320 (16∶9)
    -
    -
    -
    50 Hz * Only the highest common / standard frequencies are listed (24 / 30 / 50 / 60 / 75 / 85 / 100 / 120 / 144 / 180 / 200 / 240 Hz, or higher multiples of 60). This table is not meant to list the absolute limits down to the very last Hz. For more exact limits, or for other resolutions, refer to the data rate calculator here.

    Uncompressed 8 bpc RGB color and CVT-R2 timing are assumed on this table. Maximum frequency may be different when different settings are used. For frequency limits at different settings or resolutions, refer to the data rate calculator here. DVI Type Single-Link
    DVI-D / DVI-I Typical
    Dual-Link
    DVI-D / DVI-I Maximum Bit Rate (Maximum Data Rate) 4.95 Gbit/s (3.96 Gbit/s) ≈9.90 Gbit/s* (≈7.92 Gbit/s*) Resolution Maximum Refresh Frequency** 2K 1920 × 1080 (16∶9) 1920 × 1200 (16∶10)
    60 Hz 60 Hz
    144 Hz 120 Hz 2.5K 2560 × 1080 (≈21∶9) 2560 × 1440 (16∶9) 2560 × 1600 (16∶10)
    50 Hz 30 Hz 30 Hz
    100 Hz 75 Hz 60 Hz 3.5K 3440 × 1440 (≈21∶9)
    30 Hz
    60 Hz 4K 3840 × 1600 (≈21∶9) 3840 × 2160 (16∶9) 4096 × 2160 (≈19∶10)
    24 Hz - -
    50 Hz 30 Hz 30 Hz 5K 5120 × 2160 (≈21∶9) 5120 × 2880 (16∶9)
    - -
    24 Hz - 8K 7680 × 4320 (16∶9)
    -
    - * The DVI Specification does not establish any maximum limit for dual-link operation. Maximum limits are up to the individual device. 330 Mpx/s (9.90 Gbit/s), as shown in this table, is a typical upper limit for real-world devices, but some devices may support higher speeds.

    ** Only the highest common / standard frequencies are listed (24 / 30 / 50 / 60 / 75 / 85 / 100 / 120 / 144 / 180 / 200 / 240 Hz, or higher multiples of 60). This table is not meant to list the absolute limits down to the very last Hz. For more exact limits, or for other resolutions, refer to the data rate calculator here.

    Uncompressed 8 bpc RGB color and CVT-R2 timing are assumed on this table. Maximum frequency may be different when different settings are used. For frequency limits at different settings or resolutions, refer to the data rate calculator here. Version Thunderbolt Thunderbolt 2 Video Protocol Used DisplayPort 1.1 (4 HBR Lanes) DisplayPort 1.2 (4 HBR2 Lanes) Maximum Data Rate 8.64 Gbit/s 17.28 Gbit/s Resolution Maximum Refresh Frequency* 2K 1920 × 1080 (16∶9) 1920 × 1200 (16∶10)
    144 Hz 120 Hz
    240 Hz 240 Hz 2.5K 2560 × 1080 (≈21∶9) 2560 × 1440 (16∶9) 2560 × 1600 (16∶10)
    100 Hz 85 Hz 75 Hz
    200 Hz 144 Hz 144 Hz 3.5K 3440 × 1440 (≈21∶9)
    60 Hz
    120 Hz 4K 3840 × 1600 (≈21∶9) 3840 × 2160 (16∶9) 4096 × 2160 (≈19∶10)
    50 Hz 30 Hz 30 Hz
    100 Hz 75 Hz 75 Hz 5K 5120 × 2160 (≈21∶9) 5120 × 2880 (16∶9)
    30 Hz -
    60 Hz 30 Hz 8K 7680 × 4320 (16∶9)
    -
    - * Only the highest common / standard frequencies are listed (24 / 30 / 50 / 60 / 75 / 85 / 100 / 120 / 144 / 180 / 200 / 240 Hz, or higher multiples of 60). This table is not meant to list the absolute limits down to the very last Hz. For more exact limits, or for other resolutions, refer to the data rate calculator here.

    Uncompressed 8 bpc RGB color and CVT-R2 timing are assumed on this table. Maximum frequency may be different when different settings are used. For frequency limits at different settings or resolutions, refer to the data rate calculator here. Thunderbolt 3
    Video Mode HBR2 ×4 HBR3 ×4 HBR2 ×8 Maximum Data Rate 17.28 Gbit/s 25.92 Gbit/s 34.56 Gbit/s Resolution Maximum Refresh Frequency* 2K 1920 × 1080 (16∶9) 1920 × 1200 (16∶10)
    240 Hz 240 Hz
    360 Hz 360 Hz
    480+ Hz 420 Hz 2.5K 2560 × 1080 (≈21∶9) 2560 × 1440 (16∶9) 2560 × 1600 (16∶10)
    200 Hz 144 Hz 144 Hz
    300 Hz 240 Hz 200 Hz
    360 Hz 300 Hz 240 Hz 3.5K 3440 × 1440 (≈21∶9)
    120 Hz
    180 Hz
    240 Hz 4K 3840 × 1600 (≈21∶9) 3840 × 2160 (16∶9) 4096 × 2160 (≈19∶10)
    100 Hz 75 Hz 75 Hz
    144 Hz 120 Hz 100 Hz
    200 Hz 144 Hz 144 Hz 5K 5120 × 2160 (≈21∶9) 5120 × 2880 (16∶9)
    60 Hz 30 Hz
    85 Hz 60 Hz
    120 Hz 85 Hz 8K 7680 × 4320 (16∶9)
    -
    30 Hz
    30 Hz * Only the highest common / standard frequencies are listed (24 / 30 / 50 / 60 / 75 / 85 / 100 / 120 / 144 / 180 / 200 / 240 Hz, or higher multiples of 60). This table is not meant to list the absolute limits down to the very last Hz. For more exact limits, or for other resolutions, refer to the data rate calculator here.

    Uncompressed 8 bpc RGB color and CVT-R2 timing are assumed on this table. Maximum frequency may be different when different settings are used. For frequency limits at different settings or resolutions, refer to the data rate calculator here. DisplayPort to HDMI
    Passive Adapters Type 1
    (165 MHz) Type 2
    (300 MHz) DisplayPort Version Required DP 1.1 or higher DP 1.2 or higher Maximum Bit Rate (Maximum Data Rate) 4.95 Gbit/s (3.96 Gbit/s) 9.00 Gbit/s (7.20 Gbit/s) Resolution Maximum Refresh Frequency* 2K 1920 × 1080 (16∶9) 1920 × 1200 (16∶10)
    60 Hz 60 Hz
    120 Hz 100 Hz 2.5K 2560 × 1080 (≈21∶9) 2560 × 1440 (16∶9) 2560 × 1600 (16∶10)
    50 Hz 30 Hz 30 Hz
    85 Hz 75 Hz 60 Hz 3.5K 3440 × 1440 (≈21∶9)
    30 Hz
    50 Hz 4K 3840 × 1600 (≈21∶9) 3840 × 2160 (16∶9) 4096 × 2160 (≈19∶10)
    24 Hz - -
    30 Hz 30 Hz 30 Hz 5K 5120 × 2160 (≈21∶9) 5120 × 2880 (16∶9)
    - -
    24 Hz - 8K 7680 × 4320 (16∶9)
    -
    - * Only the highest common / standard frequencies are listed (24 / 30 / 50 / 60 / 75 / 85 / 100 / 120 / 144 / 180 / 200 / 240 Hz, or higher multiples of 60). This table is not meant to list the absolute limits down to the very last Hz. For more exact limits, or for other resolutions, refer to the data rate calculator here.

    Uncompressed 8 bpc RGB color and CVT-R2 timing are assumed on this table. Maximum frequency may be different when different settings are used. For frequency limits at different settings or resolutions, refer to the data rate calculator here. DVI-D DVI-I Single-Link DVI Single-Link or
    Dual-Link DVI Constants: VMIN = 0.00055 seconds DMIN = 0.2 (Minimum value of D. If the D formula is less than 0.2, use 0.2 for D instead) Input Variables: H = 4,096 pixels V = 2,560 pixels F = 240 Hz Formulas: D = 0.3 −  3,000 • [ ( 1⁄F ) − VMIN ] = 0.3 −  3,000 • [ ( 1⁄240 ) − 0.00055 ] = 0.296 V + 3 2,563   HBLANK = H • D = 4,096 • 0.296 = ( 1,720.3 )↓16 = 1,712 pixels 1 − D 1 − 0.296   VBLANK = (V + 3) • VMIN  + 4 = 2,563 • 0.00055  + 4 = ( 393.765 )↓ = 393 pixels ( 1⁄F ) − VMIN ( 1⁄240 ) − 0.00055   HEFFECTIVE = H + HBLANK = 4,096 + 1,712 = 5,808 pixels VEFFECTIVE = V + VBLANK = 2,560 + 393 = 2,953 pixels   Results can be checked against the official VESA CVT 1.2 spreadsheet, here:
    VESA CVT 1.2 Timing Generator.xlsx   Constants: VMIN = 0.00046 seconds HBLANK = 80 pixels Input Variables: H = 4,096 pixels V = 2,560 pixels F = 240 Hz Formulas: VBLANK = V • VMIN = 2,560 • 0.00046 = ( 317.7 )↑ = 318 pixels ( 1⁄F ) − VMIN ( 1⁄240 ) − 0.00046   HEFFECTIVE = H + HBLANK = 4,096 + 80 = 4,176 pixels VEFFECTIVE = V + VBLANK = 2,560 + 318 = 2,878 pixels   Results can be checked against the official VESA CVT 1.2 spreadsheet, here:
    VESA CVT 1.2 Timing Generator.xlsx   YCBCR Options for Connecting to a Display's DisplayPort Input Port [Link]
    The only port that can be easily adapted to DisplayPort is a USB Type-C port with DisplayPort Alternate Mode support (this includes Thunderbolt 3 ports), which can be done using a: USB Type-C to DisplayPort adapter Other than that, it is generally very difficult to connect to a monitor's DisplayPort input if you don't have a native DisplayPort output available from your computer/source device. There is no way to do this without an active adapter, and these adapters tend to be finicky and unreliable. If you don't have a native DisplayPort output on your device, consider trying to connect to a different type of port on the display. Active adapters to a DisplayPort input should only be considered as a last resort, if the display has no other available ports to connect to.

    If you absolutely need to connect to a monitor's DisplayPort input from a non-DP output, then the following options are available: HDMI to DisplayPort active adapter DVI to DisplayPort active adapter Neither of these options are really preferable over the other (both are finicky and unreliable), but HDMI to DisplayPort active adapters are slightly more common.

    DisplayPort-to-DVI or DisplayPort-to-HDMI passive adapters will NOT work for this configuration. These adapters only work from DisplayPort output to DVI/HDMI input, not in the reverse configuration. Options for Connecting to a Display's HDMI Input Port [Link]
    If you need to connect to a display's HDMI input, then the following options are available (in order of preference): DVI to HDMI passive adapter DisplayPort to HDMI passive adapter USB Type-C to HDMI active adapter VGA to HDMI active adapter DVI to HDMI passive adapters and DisplayPort to HDMI passive adapters are both equally preferable. Both are inexpensive, support inline audio (yes, DVI to HDMI passive adapters will support inline audio), and provide image quality identical to native HDMI without any added latency. If you do not have a DVI or DisplayPort output available, you can use a VGA to HDMI active adapter, but the image quality will only be equivalent to VGA, and inline audio will not be supported (though some adapters support audio over a separate cable). Options for Connecting to a Display's DVI Input Port [Link]
    Single-Link DVI provides enough bandwidth for 1920 × 1200 at 60 Hz or 2560 × 1600 at 30 Hz. Video formats which require more bandwidth than those (such as 1920 × 1080 at 144 Hz or 2560 × 1600 at 60 Hz) will require Dual-Link DVI.

    If you need to connect to a display's DVI input, and the bandwidth of single-link DVI is enough for your display, then the following options are available (in order of preference): HDMI to DVI passive adapter DisplayPort to DVI passive adapter DisplayPort to (Single-Link) DVI active adapter (required for 3+ monitors on some older graphics cards; see here) USB Type-C to DVI active adapter VGA to DVI-I passive adapter (ONLY if the display has a DVI-I port; this is very unusual) VGA to DVI-D active adapter If the extra bandwidth of dual-link DVI is required, there are two options available: DisplayPort to Dual-Link DVI active adapter USB Type-C to Dual-Link DVI active adapter HDMI to DVI passive adapters and DisplayPort to DVI passive adapters are both equally preferable. Both are inexpensive and provide image quality identical to native DVI without any added latency. These adapters only provide a Single-Link DVI connection, and will not work for video formats requiring more bandwidth than 1920 × 1200 at 60 Hz or equivalent. Inline audio is generally not supported through these adapters, but it depends on the display.

    VGA to DVI adapters (passive or active) will only provide image quality equivalent to native VGA.

    For DisplayPort/USB-C to dual-link DVI conversion, keep in mind that even most DisplayPort to DVI active adapters are still single-link only. These are common because older graphics cards required active adapters for multi-monitor configurations beyond two screens. So not just any DP or USB-C to DVI adapter will work, even if it's an active adapter. It must be clearly identified as a dual-link DVI adapter, with support for up to 1920 × 1080 at 120/144 Hz or 2560 × 1440 at 60 Hz. Options for Connecting to a Display's VGA Input Port [Link]
    If you need to connect to a display's VGA input, then the following options are available (in order of preference):
    DVI-I to VGA passive adapter (ONLY if the source device has a DVI-I port (shown below); this will not work in a DVI-D port) DisplayPort to VGA active adapter USB Type-C to VGA active adapter HDMI to VGA active adapter DVI-D to VGA active adapter

    DVI-I is a type of DVI + VGA combo port. A passive DVI-I to VGA adapter provides access to the VGA section of the port, and therefore is equivalent to a native VGA connection. Graphics cards and motherboards which do not have native VGA capability will not have DVI-I ports, and so these adapters will not work with those devices.

    If your graphics card/motherboard does not have a DVI-I port, then the next best option is a DisplayPort to VGA active adapter. These are inexpensive, reliable, and compact, and they are often mistaken as passive adapters. Passive DisplayPort to VGA adapters do not exist, but active DP to VGA adapters are very good.

    HDMI to VGA active adapters are usually larger, less reliable, and may require a power cable or USB for power. They are usually slightly more expensive than DisplayPort to VGA active adapters.

    DVI-D to VGA active adapters are no better or worse than HDMI to VGA active adapters, but they are much more difficult to find since historically most graphics cards have been equipped with DVI-I ports and shipped with a DVI-I to VGA passive adapter included, which has resulted in very low demand for DVI-D to VGA conversion devices. Options for Connecting to a Display's USB Type-C DisplayPort Alternate Mode Input Port [Link]
    USB Type-C DisplayPort Alternate Mode input ports found on displays can accept video from:
    USB Type-C DisplayPort Alternate Mode output ports USB Type-C Thunderbolt 3 Alternate Mode output ports as well as from other interfaces using the proper adapter. Currently there are adapters available for connecting to a USB Type-C display from DisplayPort or HDMI source: DisplayPort to USB Type-C active adapter HDMI to USB Type-C active adapter When connecting from a USB Type-C or TB3 output, a standard USB 3.1 Type-C cable can be used. No special adapter cables or active Thunderbolt cables are required, however it should be noted that not all USB Type-C cables are rated for USB 3.1 speeds.

    Not all USB Type-C ports have video capability. The ports on both the source and display must support USB DisplayPort Alternate Mode to be used for video. This is an optional feature and is not supported by all USB-C ports; laptops or motherboards with USB-C ports may or may not support video output through those ports, and displays with USB-C ports may or may not accept video input through those ports. Check your product's specifications carefully.

    Thunderbolt 3 ports also include DisplayPort 1.2 Alt Mode capability, so Thunderbolt 3 output ports on laptop or motherboards can be connected to displays that have non-Thunderbolt USB Type-C inputs.

    Options for Connecting to a Display's Thunderbolt 3 Input Port [Link]
    Thunderbolt 3 input ports will only accept video from Thunderbolt sources. Non-Thunderbolt USB Type-C ports using DisplayPort Alternate Mode are not compatible. No other connection types can be adapted to Thunderbolt 3.

    UPDATE JAN. 2018: Intel has released a new generation of Thunderbolt 3 controllers (the "Titan Ridge" family). Displays using these Titan Ridge TB3 controllers can accept video input from a non-Thunderbolt USB Type-C port with DisplayPort Alt Mode. This is the same as a USB-C to USB-C connection.

    For Thunderbolt 3 to Thunderbolt 3 connections: Thunderbolt 3 sources connected with a passive USB 3.1 Type-C cable (20 Gbit/s) will be limited to 4-lane mode (4K 60 Hz) Thunderbolt 3 sources connected with an active Thunderbolt 3 cable (40 Gbit/s) will be able to use the full 8-lane mode (5K 60 Hz) Thunderbolt and Thunderbolt 2 sources can be connected via an adapter, and will be limited to 4-lane mode In addition, displays may have further limitations of their own. There is currently only one Thunderbolt 3 monitor in existence (the LG 27MD5KA), and it only accepts input from Thunderbolt 3 and Thunderbolt 2 sources. Original Thunderbolt sources are not compatible.

    DisplayPort [Link]
     
    DisplayPort Capabilities Inline Audio Yes HDR Yes (DP 1.4+)
    No (DP 1.3 & Below) Multiple Video Streams
    From a Single Port Splitters/Hubs: Yes
    Daisy-Chaining: Yes Power Delivery
    (for charging) None
    Cables and Connectors

    What DisplayPort cable do I need?

    DisplayPort cables are not classified by a "version number". There are no "DP 1.2 cables" or "DP 1.4 cables". DisplayPort cables are rated by maximum transmission speed, such as "HBR2 cable" or "HBR3 cable".

    To determine what DisplayPort cable rating you need, it is as simple as checking what transmission speed you need, and getting a cable with that rating. The transmission speed you need is based on your monitor's video format. The table above can be used for quick reference for standard formats. For example, if you want to run 2560 × 1440 @ 144 Hz, you can see in the table above that HBR speed is limited to 85 Hz at 2560 × 1440, but the next highest speed (HBR2) is enough for up to 165 Hz. Therefore, HBR2 is sufficient for that monitor, and you will need a DisplayPort cable rated for HBR2 speed or higher. That's all there is to it. For non-standard formats, or for different options such as 10 bpc color depth (HDR), you can use the calculator at the bottom of this guide.

    Be warned that some cable manufacturers falsely claim that their DP cables can handle higher speeds than they really can, especially common for long cables (5+ metres). It is recommended to only buy DisplayPort cables that have been certified by VESA, the creators of the DisplayPort standard. Not all DisplayPort cables are certified. Non-certified cables are known to have fake speed/"version" ratings and even incorrect wiring. Some certified DP cable recommendations are listed further down.
    How is Mini DisplayPort different from full-size DisplayPort?

    It isn't. Mini DisplayPort (mDP) is just a different shape connector for the DisplayPort standard. It isn't some kind of completely different video standard. It is just an alternative connector that is sometimes used in place of the full-size DisplayPort connector. The electrical signals it carries are exactly the same as the full-size connector. The capabilities of DisplayPort are the same regardless of whether a full-size DP connector or a Mini DP connector is used. The only difference is the physical shape of the connector. If you have a laptop with a Mini DisplayPort output, you can just get a mDP to DP adapter or use an mDP to DP cable to attach to your monitor. There is no difference between the Mini DP connector and full-size connector other than the physical shape.
    DisplayPort Cable Recommendations

    If you just bought a new monitor with a DisplayPort input, it will almost always have a DisplayPort cable included in the box. You should generally just use the included cable if you can, there's no need to buy a new cable. The included cable is usually rated for whatever the monitor requires. You should only need to buy a DisplayPort cable if you need a longer cable than what is provided, or in the rare case that no DP cable is provided with the monitor. Since many people seem to be having trouble finding quality DisplayPort cables, here are some recommendations:

    DP to DP cable (HBR3 certified): Club3D CAC-2068 (2 metres / 6.6 feet) Club3D CAC-1060 (3 metres / 9.8 feet) Club3D CAC-1069B (4 metres / 13.1 feet) Club3D CAC-1061 (5 metres / 16.4 feet) Accell B088C-007B-23 (2 metres / 6.6 feet) DP to DP cable (HBR2 certified): Accell B142C-007B-2 (2 metres / 6.6 feet) Accell B142C-010B-2 (3 metres / 9.8 feet) Accell B142C-013B-2 (4 metres / 13.1 feet) Mini DP to DP cable (HBR3 certified): Club3D CAC-1115 (2 metres / 6.6 feet) Accell B119C-007B-23 (2 metres / 6.6 feet) Mini DP to DP cable (HBR2 certified): Accell B143B-007B (2 metres / 6.6 feet)
    What is the maximum length of a DisplayPort cable?

    The DisplayPort Standard does not define any specific maximum length for a DisplayPort cable. Some people may claim that the standard specifies a maximum limit of 2 metres, or 3 metres, or 5 metres, etc.; These claims are incorrect.

    DisplayPort compliance is based on whether the cable can pass a signal correctly or not, it isn't based on how the cable is physically constructed. The longer the cable is, the harder it is to pass the signal correctly, so there are practical limits on how long a cable can be made, but this is determined by manufacturing tolerances and may be different from vendor to vendor.

    There is no specific cutoff point where the DisplayPort standard says "cables cannot be longer than X metres". If you as a manufacturer can manage to make a really long cable that can still pass the signal test criteria, then it's a valid DisplayPort cable. No one at the testing center is going to say "your cable manages to pass the signal perfectly fine, but aha, it's longer than 5 metres so it's automatically disqualified!" A DisplayPort cable is a cable that passes DisplayPort signals. There are no restrictions on how long it can be or what it's made out of or anything else, as long as the output signal is correct and within specification.

    As practical matter, you can generally find DisplayPort cables up to 5 metres in length certified for HBR3 speed. Longer cables are available, but will generally be limited to HBR or sometimes HBR2 speed. For high-performance cables beyond 5 metres, you will likely need to look for an Active DisplayPort cable, which contains signal amplifiers or fiber optic transcievers.
    Which DisplayPort cables support FreeSync, inline audio, HDR, DSC, etc.?

    All DisplayPort features will work on any DisplayPort cable. There are no "special" DisplayPort cables required for inline audio, FreeSync, HDR, or anything else. Some people believe that you need a certain "version" of DP cable to use certain features. For example, people say that HDR was introduced in version 1.4, so you need a "DP 1.4 cable" to use it, or Adaptive-Sync (FreeSync/G-Sync) was added in version 1.2a, so you need a "DP 1.2a cable" or higher to use it. This is incorrect. The operation of these features has nothing to do with the cable, and support for these features is not affected by the cable. This is why cables are not classified by "version number", because cables don't determine what "version" of features are available. Cables only affect transmission speed, which is why they are classified by transmission speed ratings (HBR, HBR2, HBR3), not version numbers, feature support, or anything else.
    Compatibility

    Can I use a DP 1.4 cable with a DP 1.2 monitor, or vice versa?

    All DisplayPort cables are compatible with all DisplayPort devices. DisplayPort does not have different "versions" of cables. All DP cables have exactly the same configuration and wiring. The only difference between DisplayPort cables is the maximum speed they are capable of handling. This is why DP cables are rated by their maximum speed (HBR, HBR2, HBR3, etc.), not a version number like 1.2 or 1.4.

    If you use a lower-rated cable with a higher-rated monitor, the connection will be limited to the lower speed rating. For example, if you have a 2560 × 1440 144 Hz monitor, which requires HBR2 speed, but you use a cable that can only handle HBR, the connection will be limited to HBR speed, which limits you to 85 Hz at 2560 × 1440.
    What if my graphics card has DP 1.4 and my monitor only has DP 1.2, or vice versa?

    All DisplayPort devices are compatible with each other. DP 1.4 graphics cards can be connected to DP 1.2 monitors or vice versa. However, the connection will be limited to the capabilities of the lowest DP version. For example, if you attach a 4K 120 Hz monitor (which requires HBR3 speed) to an older graphics card that only supports DP 1.2 (which can only transmit at HBR2 speed), the monitor will still work, but you will be limited to 60 Hz at 4K, the maximum limit of HBR2.
    DisplayPort Standard

    The latest version of the DisplayPort standard available to the public is version 1.1a:
    DisplayPort Standard v1.1a DisplayPort Standard v1.1 DisplayPort Standard v1.0 Also available is the specification for the Mini DisplayPort connector:
    Mini DisplayPort Connector Standard v1.0 DisplayPort Source to HDMI Display [Link]
    Overview

    Note: DisplayPort output ports have the same capabilities regardless of whether it has a Mini DisplayPort connector or a full-size connector. Everything in this article is fully applicable to both types of ports.

    The following types of adapters are available for connecting a DP source to an HDMI display: Type 1 DP to HDMI passive adapters — These provide up to 60 Hz at 1920 × 1080 Type 2 DP to HDMI passive adapters — These provide up to 120 Hz at 1920 × 1080, 60 Hz at 2560 × 1440, or 30 Hz at 3840 × 2160 DP to HDMI 2.0 active adapters — These provide up to 240 Hz at 1920 × 1080, 144 Hz at 2560 × 1440, or 60 Hz at 3840 × 2160 DP to HDMI 2.1 active adapters — These provide up to 240 Hz at 2560 × 1440 or 120 Hz at 3840 × 2160, or higher if DSC is supported
    Passive Adapters

    Passive Adapters: DisplayPort Source to HDMI Display Bi-directional (Reversible): No Supports Inline Audio: Yes Supports FreeSync: Yes Image Quality: Same as HDMI Maximum Resolution / Frequency: Depends on equipment

    Show Maximum Limits Table   What is the maximum resolution / refresh frequency supported by a DP to HDMI passive adapter?

    There are two types of DisplayPort to HDMI passive adapters which support different speeds: Type 1 passive adapters support up to 4.95 Gbit/s (up to 60 Hz at 1920 × 1080 and 30 Hz at 2560 × 1440) Type 2 passive adapters support up to 9.0 Gbit/s (up to 120 Hz at 1920 × 1080, 60 Hz at 2560 × 1440, and 30 Hz at 3840 × 2160)
    (For a more detailed list of resolutions and refresh rates supported by each type, refer to the table above) DisplayPort 1.1 only supports Type 1 adapters*. DisplayPort 1.2 (and higher) supports both Type 1 and Type 2 adapters.
    *(Type 2 adapters will still work in a DP 1.1 port, but will be capped to the same speed as a Type 1 adapter) HDMI 2.0 speeds are only possible with active adapters, regardless of DisplayPort version.
    How to identify Type 1 and Type 2 adapters

    Retailers do not usually label their passive adapters as "Type 1" or "Type 2", so they must be identified by the maximum resolution claimed by the manufacturer. Type 1 passive adapters will usually list a maximum of 1920 × 1080 or 1920 × 1200 at 60 Hz, while Type 2 adapters often advertise "4K support" and will work up to 1920 × 1080 120 Hz or 3840 × 2160 30 Hz.
    Is there any advantage to using a DP-to-HDMI adapter instead of a straight HDMI connection?

    Using a DisplayPort to HDMI passive adapter does not provide any special advantage compared to a straight HDMI-to-HDMI connection. Any additional bandwidth, features, or other advantages of DisplayPort are NOT inherited by using a DP to HDMI adapter instead of a native HDMI output. The connection is limited to only the capabilities supported by HDMI.
    DisplayPort port compatibility

    DP to HDMI passive adapters are only compatible with DisplayPort outputs that support Dual-Mode DisplayPort ("DP++").

    Although DP++ is technically an optional feature, in practice nearly any DP output device will support it. Most manufacturers don't even bother labeling or advertising DP++ support. In general there is no need to check for this, you can safely assume all DP output devices support DP++. The "version" of a DP port or adapter does not affect compatibility.
    HDMI port compatibility

    DP to HDMI passive adapters are compatible with all HDMI ports.

    The "version" of the HDMI port or adapter does not affect compatibility.
    Reversability

    DP to HDMI passive adapters are NOT bi-directional/reversible. They only work from DisplayPort source to HDMI display. If you need the opposite direction, then you are looking for a HDMI to DisplayPort adapter, not DisplayPort to HDMI.
    DP to HDMI Passive Adapter Recommendations

    DisplayPort to HDMI Type 2 passive adapter dongle (use with HDMI cable):   Amazon US (1)   US (2)   UK   DE
    DisplayPort to HDMI Type 2 passive adapter cable (1.8 metres):   Amazon US (1)   US (2)
    Mini DisplayPort to HDMI Type 2 passive adapter dongle (use with HDMI cable):   Amazon US   UK   DE
    Mini DisplayPort to HDMI Type 2 passive adapter cable (1.8 metres):   Amazon US
    Comments About Componentry Inside DisplayPort to HDMI Passive Adapters

    › Click to expand I have seen some controversy over whether DisplayPort to HDMI passive adapters count as "passive" or not, because they have an integrated circuit inside, so I want to comment on this point.

    Although DisplayPort sources support the direct output of TMDS-encoded HDMI signals, a DisplayPort transmitter has AC-coupled lines, meaning the lines have capacitors in series on each end which block DC voltages. This helps reject low-frequency noise. HDMI does not have AC coupling capacitors; it uses a different architecture which pulls current through the transmission lines to create a voltage drop across termination resistors inside the sink. There are no blocking capacitors in this setup. To convert between these different transmission methods, a circuit is required.

    Generally this is still described as a "passive" adapter (despite having active circuits inside it). It is quite a step away from a true "active adapter", because it is not decoding DisplayPort packets and converting the information contained into an equivalent data stream in the 3-channel TMDS format that HDMI uses. The initial signal received by the adapter is already in the 3-channel TMDS format used by HDMI, and the adapter has no effect on the digital values of the signals passing through it, and so does not "convert" or modify any information in the data stream. The circuit simply provides electrical compatibility between the two architectures and is powered by the integrated 3.3 V power line from the DisplayPort source.

    The only real impact this has (from an engineering standpoint) is that it places a hard limit on what speeds a particular adapter can support, which is why there are different "types" of DP to HDMI adapters which support different speeds. This is because the output of the level shifter circuit needs to be able to keep up with frequency of the input signal. As new versions of HDMI keep doubling the frequency of the previous version, the DisplayPort to HDMI adapters made for the previous version are not suitable for supporting the newer speeds, so a new adapter using upgraded circuits is required each time. Close

    Active Adapters

    When do I need an active adapter?

    DP to HDMI active adapters are required for: Any formats above 1920 × 1080 @ 120 Hz, 2560 × 1440 @ 75 Hz, or 3840 × 2160 @ 30 Hz A third monitor (or higher) on certain older AMD graphics cards (see here) DisplayPort devices which do not support Dual-Mode/DP++ (this is extremely rare)
    What is the maximum resolution / refresh frequency supported by a DP to HDMI active adapter?

    This depends on the adapter. There are some older adapters which will support only up to HDMI 1.4 speeds (1080p 144 Hz) or HDMI 1.2 speeds (1080p 60 Hz), but most DP-to-HDMI active adapters today support full HDMI 2.0 bandwidth, which is 18.0 Gbit/s. This bandwidth is enough for up to: 240 Hz at 1920 × 1080 144 Hz at 2560 × 1440 60 Hz at 3840 × 2160 Passive adapters are more reliable and should be preferred wherever possible. An active adapter should only be used in situations where passive adapters will not work.

    There are also a few DP 1.4 to HDMI 2.1 adapters available. These will support up to the limits of DisplayPort HBR3 speed, which is 4K at 120 Hz with 8 bpc RGB color, or higher if the adapter, source, and monitor all support Display Stream Compression (DSC).
    DisplayPort port compatibility

    DP to HDMI active adapters are compatible with all DisplayPort ports. DP++ support is not required. The "version" of the DP port does not affect compatibility.
    HDMI port compatibility

    DP to HDMI active adapters are compatible with all HDMI ports.

    The "version" of the HDMI port does not affect compatibility.
    Reversability

    DP to HDMI active adapters are generally not bi-directional/reversible. They only work from DisplayPort source to HDMI display. If you need the opposite direction, then you are looking for a HDMI to DisplayPort adapter, not DisplayPort to HDMI.
    DP to HDMI active adapter recommendations

    The following adapter converts DisplayPort 1.4 to HDMI 2.1 at up to 3840 × 2160 at 120 Hz. It is designed for GPUs with support for VESA Display Stream Compression (DSC). Please note this adapter is not considered very reliable.

    DisplayPort 1.4 to HDMI 2.1 active adapter dongle (use with HDMI cable):   Amazon US (1)

    The following adapters support both DP 1.2+ to HDMI 2.0 conversion, with inline audio and full resolution/refresh rate/color support. They are not bi-directional, so they cannot be used to connect an HDMI computer/laptop/console to a DisplayPort display.

    DisplayPort 1.2+ to HDMI 2.0 active adapter dongle (use with HDMI cable):   Amazon US (1)   US (2)   UK (1)   UK (2)   DE (1)   DE (2)
    Mini DisplayPort 1.2+ to HDMI 2.0 active adapter dongle (use with HDMI cable):   Amazon US (1)   US (2)   UK   DE

    DisplayPort Source to DVI Display [Link]
    Overview

    Note: DisplayPort output ports have the same capabilities regardless of whether it has a Mini DisplayPort connector or a full-size connector. Everything in this article is fully applicable to both types of ports.

    The following types of adapters are available for connecting a DisplayPort source to a DVI display: DP to Single-Link DVI passive adapters — These provide up to 60 Hz at 1920 × 1080 Fake DP to Dual-Link DVI passive adapters — These provide up to 60 Hz at 1920 × 1080, because they are actually just Single-Link DVI passive adapters again, falsely advertised as "Dual-Link". DP to Single-Link DVI active adapters — These provide up to 60 Hz at 1920 × 1080, and are intended for certain older AMD graphics cards that required active adapters for more than 2 displays. DP to Dual-Link DVI active adapters — These provide up to 144 Hz at 1920 × 1080 or 60 Hz at 2560 × 1440. If you are trying to connect to a 120+ Hz display, you need a Dual-Link DVI active adapter. Be warned that there are many fake "Dual-Link" DVI adapters which are really only Single-Link adapters in disguise, and will be limited to 60 Hz at 1080p. Shop carefully.
    Passive Adapters

    DisplayPort to DVI Passive Adapters Bi-directional (Reversible): No Supports Inline Audio: No Supports FreeSync: No Image Quality: Same as DVI Maximum Resolution / Frequency: Depends on equipment

    Show Maximum Limits Table   Single-Link and Dual-Link support

    All passive DP to DVI adapters are Single-Link only, no exceptions. All "Dual-Link" passive adapters are fake. If you require a Dual-Link connection (for a 1080p 120+ Hz monitor for example), you need an active Dual-Link DVI adapter.

    WARNING: There are an enormous number of fake "Dual-Link" DVI passive adapters on the market, which are really only Single-Link adapters falsely advertised as "Dual-Link". There is no such thing as a passive DP to Dual-Link DVI adapter. All passive adapters are Single-Link-only, no exceptions. If you need a Dual-Link connection (for a 120+ Hz display for example) you need a Dual-Link active adapter, not a passive adapter.
    What is the maximum resolution/refresh frequency supported by a DP to DVI passive adapter?

    DP to DVI passive adapters have the same limitations as a Single-Link DVI connection. This means they support up to: 60 Hz at 1920 × 1080 or 1920 × 1200 30 Hz at 2560 × 1440 or 2560 × 1600
    DVI port compatiblity

    DP to DVI passive adapters are compatible with all types of DVI ports. It does not matter whether your monitor has a DVI-D or a DVI-I port, etc.
    DisplayPort port compatiblity

    DP to DVI passive adapters are only compatible with DisplayPort outputs that support Dual-Mode DisplayPort ("DP++").

    Although DP++ is technically an optional feature, in practice nearly any DP output device will support it. Most manufacturers don't even bother labeling or advertising DP++ support. In general there is no need to check for this, you can safely assume all DP output devices support DP++.
    Reversability

    DP to DVI passive adapters are not bi-directional/reversible. They only work from DisplayPort source to DVI display. If you need the opposite direction, then you are looking for a DVI to DisplayPort adapter, not DisplayPort to DVI.
    DP to DVI passive adapter recommendations

    DisplayPort to Single-Link DVI-D passive adapter dongle (use with DVI cable):   Amazon US (1)   Amazon US (2)
    DisplayPort to Single-Link DVI-D passive adapter cable (1.8 metres, latching):   Amazon US
    DisplayPort to Single-Link DVI-D passive adapter cable (1.8 metres, non-latching):   Amazon US
    Mini DisplayPort to Single-Link DVI-D passive adapter dongle (use with DVI cable):   Amazon US (1)   Amazon US (2)
    Comments about componentry inside DisplayPort to DVI passive adapters

    › Click to expand I have seen some controversy over whether DisplayPort to DVI passive adapters count as "passive" or not, because they have an integrated circuit inside, so I want to comment on this point.

    Although DisplayPort sources support the direct output of TMDS-encoded DVI signals, a DisplayPort transmitter has AC-coupled lines, meaning the lines have capacitors in series on each end which block DC voltages. This helps reject low-frequency noise. DVI does not have AC coupling capacitors; it uses a different architecture which pulls current through the transmission lines to create a voltage drop across termination resistors inside the sink. There are no blocking capacitors in this setup. To convert between these different transmission methods, a circuit is required.

    Generally this is still described as a "passive" adapter (despite having active circuits inside it). It is quite a step away from a true "active adapter", because it is not decoding DisplayPort packets and converting the information contained into an equivalent data stream in the 3-channel TMDS format that DVI uses. The initial signal received by the adapter is already in the 3-channel TMDS format used by DVI, and the adapter has no effect on the digital values of the signals passing through it, and so does not "convert" or modify any information in the data stream. The circuit simply provides electrical compatibility between the two architectures and is powered by the integrated 3.3 V power line from the DisplayPort source.

    Close
    Active Adapters

    When do I need an active adapter?

    DP to DVI active adapters are required for: Formats higher than 1920 × 1080/1200 @ 60 Hz or 2560 × 1440/1600 @ 30 Hz (only Dual-Link active adapters will work!) A third (or higher) monitor on certain older AMD graphics cards (see here) DisplayPort devices which do not support Dual-Mode/DP++ (this is extremely rare)
    Single-Link and Dual-Link support

    Some DP to DVI active adapters are Single-Link, and some are Dual-Link.

    If you need a Dual-Link connection (for a 1080p 120+ Hz display, for example), then you need a Dual-Link active adapter, not just any active adapter. Not all active adapters are Dual-Link.
    What is the maximum resolution / refresh frequency supported by a DP to DVI active adapter?

    This depends on the adapter. Single-Link active adapters will support up to 1920 × 1080 @ 60 Hz. Dual-Link active adapters may support up to 1920 × 1080 @ 144 Hz, but this is subject to every individual product's limitations. Some adapters may be limited to 1920 × 1080 @ 120 Hz or less. Research each individual product carefully.
    DVI port compatibility

    DP to DVI active adapters are compatible with all types of DVI ports. It does not matter whether your monitor has a DVI-D or DVI-I port, etc.
    DisplayPort port compatibility

    DP to DVI active adapters are compatible with all DisplayPort outputs. Dual-Mode DisplayPort (DP++) support is not required.
    Reversability

    DisplayPort to DVI active adapters are NOT bi-directional/reversible. They only work from DisplayPort source to DVI display. If you need the opposite direction, then you are looking for a DVI-to-DisplayPort adapter, not DisplayPort-to-DVI.
    DP to DVI active adapter recommendations

    DisplayPort to Single-Link DVI active adapter dongle (use with DVI cable):   Amazon US (1)   Amazon US (2)
    DisplayPort to Dual-Link DVI active adapter dongle (use with DVI cable):   Amazon US (1)   Amazon US (2)   Amazon US (3) [Note: this one is not compatible with Acer GN246HL or BenQ XL2411(Z)
    Mini DisplayPort to Dual-Link DVI active adapter dongle (use with DVI cable):   Amazon US (2)
    DisplayPort Source to VGA Display [Link]
    Overview

    Note: DisplayPort output ports have the same capabilities regardless of whether it has a Mini DisplayPort connector or a full-size connector. Everything in this article is fully applicable to both types of ports.

    The following types of adapters are available for connecting a DisplayPort source to a VGA display: DisplayPort to VGA active adapters — These generally support up to 1920 × 1080 @ 60 Hz.
    Passive Adapters

    Are there any DisplayPort to VGA passive adapters?

    There is no such thing as a DisplayPort to VGA passive adapter. If you find any such adapter, it has likely been mislabeled. Since most DP to VGA active adapters are compact, inexpensive, and do not require an extra power connector, people often mistake them as being "passive".
    Active Adapters

    Compatibility

    DisplayPort to VGA adapters are compatible with all DisplayPort and all VGA devices.
    Reversibility

    DisplayPort to VGA adapters are not bi-directional/reversible. They only work from DisplayPort source to VGA display. If you need the opposite direction, then you are looking for a VGA to DisplayPort adapter, not DisplayPort to VGA.
    DisplayPort to VGA adapter recommendations

    DisplayPort to VGA active adapter dongle (use with VGA cable):   Amazon US
    DisplayPort to VGA active adapter cable (1.8 metres):   Amazon US DisplayPort Source to USB Type-C DisplayPort Alternate Mode Display [Link]
    There are adapters available for connecting a DisplayPort source to a USB Type-C display. Typically these are in the form of bi-directional DisplayPort to USB Type-C cables.

    Normal USB Type-C to DisplayPort cables only work in one direction and cannot be used to connect a DisplayPort source to a USB Type-C display.

    This adapter supports HBR3 speed, which is enough for 120 Hz at 3840 × 2160 or 240 Hz at 2560 × 1440.

    DisplayPort to USB Type-C bi-directional adapter cable (1.8 metres):   Amazon US (1)   Amazon US (2) DisplayPort Source to Thunderbolt 3 Display [Link]
    A DisplayPort output cannot be connected to a Thunderbolt 3 input. No passive or active adapters exist for this combination.

    USB Type-C to DisplayPort adapters work from a Thunderbolt 3 source to a DisplayPort display, but not the reverse configuration.

    DisplayPort Source to Thunderbolt or Thunderbolt 2 Display [Link]
    Passive Adapters

    DisplayPort Source to TB or TB2 Display Possible with a passive adapter? No
    A plain DisplayPort source cannot connect to a display's Thunderbolt or Thunderbolt 2 input port. Only a Thunderbolt source can connect to a Thunderbolt input port on a display. Furthermore, a Thunderbolt cable must be used, not a Mini DisplayPort cable. Despite having an identical connector, Thunderbolt cables have additional electronics inside which Mini DisplayPort cables do not have.

    However, the Apple Thunderbolt Display was the only monitor ever produced with no other inputs besides Thunderbolt. All other monitors ever produced with Thunderbolt or Thunderbolt 2 inputs also have native DisplayPort inputs which can be used if you need to connect a plain DisplayPort source.

    Active Adapters Adapters

    There are no active adapters for converting a DisplayPort source to a Thunderbolt or Thunderbolt 2 display. HDMI Source to DisplayPort Display [Link]
    Passive Adapters

    HDMI Source to DisplayPort Display Possible with a passive adapter? No
    An HDMI output CANNOT be connected to a DisplayPort input with a passive adapter. Passive DisplayPort to HDMI cables/adapters will only function from DisplayPort output to HDMI input, not the other way around.

    Active Adapters

    Conversion from HDMI to DisplayPort requires an active adapter. Please note that these adapters are not very reliable and should only be considered as a last resort.

    The following adapter has a maximum TMDS clock of 600 MHz, the maximum allowed by HDMI 2.0. It supports up to 60 Hz at 3840 × 2160 with 8 bpc RGB color, or 144 Hz at 2560 × 1440 or 240 Hz at 1920 × 1080. I have also tested it to work for 1080p 120 Hz on the PS5. It supports inline audio, but FreeSync/G-Sync will not work through these adapters.

    HDMI to DisplayPort active adapter dongle (600 MHz):   Amazon US (1)

    There are also some older adapters that are limited to lower speeds. The following adapters have a maximum HDMI TMDS clock of 300 MHz, slightly below the maximum allowed by HDMI 1.3–1.4. This gives them support for up to 120 Hz at 1920 × 1080, 60 Hz at 2560 × 1440, and 30 Hz at 3840 × 2160. They support inline audio, but FreeSync/G-Sync and HDR will not work through these adapters.

    HDMI to DisplayPort active adapter dongle (300 MHz):   Amazon US (1)   Amazon US (2)   Amazon US (3)   Amazon US (4)

    Note 1: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.

    Note 2: Mini DisplayPort is functionally identical to DisplayPort, the only difference is the physical shape. Additional adapters to change between DisplayPort and Mini DisplayPort can be used freely without affecting the operation or compatibility of other devices in any way.
    HDMI [Link]
     
    HDMI Capabilities Inline Audio Yes HDR Yes (version 2.0a+)
    No (version 1.0–2.0) Multiple Video Streams
    From a Single Port Splitters/Hubs: No
    Daisy-Chaining: No Power Delivery
    (for charging) None
    Cabling

    Main article here.

    HDMI versions describe HDMI ports on devices. HDMI cables themselves are not classified by "version". There is no such thing as an "HDMI 1.4 cable" or an "HDMI 2.0 cable". All HDMI features such as inline audio, ARC, HDR, and others will work over any cable. There are however several different tiers of HDMI cable rated by bandwidth. High resolutions and refresh rates require better rated cables, but nothing else depends on the cable. See the main article for more details.

    Compatibility

    All HDMI devices are compatible with all other HDMI devices and cables, regardless of the version of each device or cable certification tier. When connecting two HDMI devices that have different versions, the capabilities and features available are determined by the lower of the two versions. For example if a GPU with HDMI 2.0 support is plugged into a monitor with an HDMI 1.4 port, the connection will be limited to only the bandwidth and features provided by HDMI 1.4. HDMI cables themselves do not have versions. They affect bandwidth, but not version or feature support.

    Do I need to get a special HDMI cable to handle 4K 60 Hz?

    Main article here.

    Not usually. Although not guaranteed, most normal High Speed HDMI cables are capable of handling 4K 60 Hz just fine, and "4K compatible" HDMI cables are generally not necessary. See the main article for more details.

    Do HDMI cables affect image quality?

    No, HDMI cables do not affect image quality. HDMI transmits data in a digital format, which means that the distortion from electromagnetic interference can be corrected by the receiving device, and the final image is always identical to what was originally sent by the source device. The image quality cannot be degraded by the cable, so the "cable quality" or "signal strength" are irrelevant to the appearance of the image. Features such as "gold-plated connectors" or "high-quality shielding" are superfluous and do not affect the image quality.

    How does the image quality of HDMI compare with DisplayPort and DVI?

    The image quality of HDMI is identical to DisplayPort and DVI when set to the same image settings.

    HDMI and DisplayPort do support a wider range of possible settings compared to DVI, but this does not affect anything on displays which don't take advantage of those extra capabilities. DVI supports up to 24 bit/px color depth (16.7 million colors), which is what most computer monitors and TVs run at. DisplayPort and HDMI are capable of higher color depth than 24 bit/px (like 30 bit/px or 1.07 billion colors) while DVI isn't, but this does not make them any better at displaying 24 bit/px color than DVI, so it is irrelevant on most standard displays.

    Unless your display has capabilities that are beyond what DVI supports, there will be no advantage to using DP or HDMI instead of DVI.

    Is HDMI limited to 60 Hz?

    Main article here.

    No, HDMI is not limited to 60 Hz. Many 1080p 120+ Hz displays are limited to 60 Hz on their HDMI ports, but that is a limitation of those particular products, not a limitation of the HDMI standard. See the main article for more details.

    HDMI Standard

    The latest version of the HDMI Specification available to the public is version 1.3a:
    HDMI Specification v1.3a
    HDMI Specification v1.3
    HDMI Specification v1.2a
    HDMI Specification v1.2
    HDMI Specification v1.1
    HDMI Specification v1.0

    Also available is the 3D portion of the HDMI 1.4a specification:
    HDMI Specification v1.4a 3D Signaling Extract

    HDMI Source to DVI Display [Link]
    Passive Adapters

    HDMI Source to DVI Display Possible with a passive adapter? Yes Inline audio supported? Not usually (depends on the display) Image Quality: Same as DVI Maximum Resolution / Frequency: Same as Single-Link DVI

    Show DVI Limits   A passive adapter can be used to connect an HDMI output to a DVI input. This is equivalent to a native single-link DVI-D connection. Inline audio is not supported. These adapters can still be used to connect to monitors that have dual-link DVI ports, but the connection will be limited to the capabilities of single-link DVI as outlined in the table below.

    All HDMI to DVI passive adapters are Single-Link only. HDMI to dual-link DVI passive adapters do not exist. Although most HDMI to DVI passive adapters are advertised as "dual-link" and may appear to have "dual-link" connectors on them, please be warned that these are fake. The extra pins on these DVI connectors are dummy pins which are not connected to anything, and the adapter will still only function as a single-link DVI adapter. It is physically impossible to create a passive HDMI to dual-link DVI adapter due to an insufficient number of pins on the HDMI connector.

    Since HDMI is only capable of passively adapting to single-link DVI-D (and not DVI-I), this means it is not possible to make a chain of adapters from HDMI → DVI → VGA. Passive DVI to VGA adapters are not supported on all DVI ports, they only work in special DVI + VGA combo ports called DVI-I. An HDMI to DVI passive adapter only provides a standard DVI-D port, not DVI-I.

    HDMI to DVI passive adapters are bi-directional, so the same adapter can be used both from an HDMI source to a DVI display, and from a DVI source to an HDMI display.

    HDMI to Single-Link DVI passive adapter dongle (use with HDMI cable):   Amazon US
    HDMI to Single-Link DVI passive adapter dongle (use with DVI cable):   Amazon US
    HDMI to Single-Link DVI passive adapter cable (2.0 metres):   Amazon US

    Active Adapters

    An active adapter would be required to convert HDMI output to a full Dual-Link DVI signal, but at the time of writing I am not aware of any such adapters existing.

    Note 1: Any DVI-D device or cable will also work in a DVI-I port. If your display has a DVI-I port, you do not need to search specifically for an "HDMI to DVI-I" adapter.
    HDMI Source to VGA Display [Link]
    Passive Adapters

    HDMI Source to VGA Display Possible with a passive adapter? No
    It is not possible to connect HDMI output to VGA input with a passive adapter.

    It is also not possible to create a chain of adapters from HDMI → DVI → VGA. Passive DVI to VGA adapters do not work in all DVI ports. They only work in special DVI + VGA combo ports called DVI-I. HDMI only supports passive adapters to DVI-D, not to DVI-I.

    Active Adapters

    Conversion from HDMI to VGA requires an active adapter. HDMI to VGA active adapters are fairly inexpensive and generally reliable.

    HDMI to VGA active adapter dongle (use with VGA cable):   Amazon US
    HDMI to VGA active adapter dongle (use with HDMI cable):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    HDMI Source to USB Type-C DisplayPort Alternate Mode Display [Link]
    The Wacom Link Plus can be used to connect an HDMI output to a USB Type-C input on a monitor at up to 60 Hz at 2560 × 1440.

    Please note that the USB Type-C to HDMI adapters that can be commonly found will only work from a USB Type-C source to an HDMI display. They will not work for connecting to a USB Type-C input on a display.

    HDMI Source to Thunderbolt 3 Display [Link]
    An HDMI output cannot be connected to a Thunderbolt 3 input. No passive or active adapters exist for this combination.

    USB Type-C to HDMI adapters work from a Thunderbolt 3 source to an HDMI display, but not the reverse configuration.

    DVI Source to DisplayPort Display [Link]
    Passive Adapters

    DVI Source to DisplayPort Display Possible with a passive adapter? No
    A DVI output CANNOT be connected to a DisplayPort input with a passive adapter. Passive DisplayPort to DVI cables/adapters will only function from DisplayPort output to DVI input, not the other way around.

    Active Adapters

    Conversion from DVI to DisplayPort requires an active adapter.

    Dual-Link DVI to Mini DisplayPort active adapter:   B&H
    Single-Link DVI to DisplayPort active adapter dongle:   Amazon US (1)   Amazon US (2)

    Note 1: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.

    Note 2: Any DVI-D device or cable will also work in a DVI-I port. If your graphics card has a DVI-I port, you do not need to search specifically for a "DVI-I to DisplayPort" active adapter.

    Note 3: Mini DisplayPort is functionally identical to DisplayPort, the only difference is the physical shape. Additional adapters to change between DisplayPort and Mini DisplayPort can be used freely without affecting the operation or compatibility of other devices in any way.
    DVI Source to HDMI Display [Link]
    Passive Adapters

    DVI Source to HDMI Display Possible with a passive adapter? Yes Inline audio supported? Yes Image Quality: Same as HDMI Maximum Resolution / Frequency: Same as HDMI (version depends on equipment)

    Show HDMI Limits   A passive adapter can be used to connect a DVI output to an HDMI input. It does not matter what type of DVI port is used (DVI-D, DVI-I, single/dual-link), all of them function identically when connected to an HDMI port.

    A DVI output to HDMI input connection with a passive adapter has the same capabilities as a native HDMI connection. All HDMI-specific features such as inline audio will work when a DVI to HDMI adapter is used from a DVI source to an HDMI display, and the full HDMI link speed supported by the graphics card will be available through the DVI port. The normal limitations of single-link DVI are not applicable.

    DVI to HDMI adapters are not strictly limited to the speed of single-link DVI-D, despite common belief. Some DVI-HDMI cables may be limited in their maximum speed due to manufacturing tolerances (just as some standard HDMI cables are), but most DVI-HDMI cables are capable of handling HDMI 1.4, and some even handle HDMI 2.0 speeds. DVI ports on graphics cards do support the output of these high-frequency single-link signals, even though they are only used by HDMI, not by DVI. Modern DVI output ports are designed to be able to send HDMI signals.

    This means that if the graphics card supports HDMI 2.0, then any DVI ports on the graphics card will function as an additional HDMI 2.0 output when a passive DVI-to-HDMI cable/adapter is attached. Formats like 3840 × 2160 at 60 Hz, 2560 × 1440 at 144 Hz, or 1920 × 1080 at 240 Hz with 8 bpc RGB color are achievable using a DVI to HDMI connection if the graphics card and monitor both support full HDMI 2.0 speeds. Note that for AMD cards you will need to install the AMD Pixel Clock Patcher and restart the computer in order to remove an artificial driver restriction first, otherwise a 1080p 60 Hz limit will apply.

    Please note that this information only applies from DVI source to HDMI display. It does not apply to the reverse configuration (HDMI source to DVI display). Adapter compatibility and rules are not symmetric. Please click here to see information for a HDMI source to an DVI display instead.

    DVI to HDMI passive adapters are bi-directional, so the same adapters are used for both DVI source to HDMI display and HDMI source to DVI display.

    Single-Link DVI to HDMI passive adapter dongle (use with HDMI cable):   Amazon US
    Single-Link DVI to HDMI passive adapter dongle (use with DVI cable):   Amazon US
    Single-Link DVI to HDMI passive adapter cable (1.8 metres):   Amazon US

    Active Adapters

    To my knowledge, there are no active adapters available for converting DVI to HDMI, but there is really no reason for them to exist anyway. Modern graphics cards allow native HDMI signals to be sent directly from their DVI ports, so there is no conversion to perform in the first place.

    Note 1: Any DVI-D device or cable will also work in a DVI-I port. If your graphics card has a DVI-I port, you do not need to search specifically for a "DVI-I to HDMI" adapter.
    DVI [Link]
     
    DVI Capabilities Inline Audio No HDR No Multiple Video Streams
    From a Single Port Splitters/Hubs: No
    Daisy-Chaining: No Power Delivery
    (for charging) None

    Overview

    The DVI interface is commonly found on older monitors and graphics cards. Some newer products still have DVI ports, but they are becoming less common.

    DVI can support any resolution/refresh rate as long as it falls within the device's maximum bandwidth. The maximum bandwidth depends on the device. The DVI Specification does not define any specific requirements or limits for how much bandwidth a DVI device supports. The capabilities of DVI will therefore vary by device.

    In general, you can expect DVI devices to support at least 1920 × 1200 at 60 Hz at minimum. As a maximum limit, you can commonly find DVI devices capable of up to 1920 × 1080 at 144 Hz or 2560 × 1600 at 60 Hz. DVI implementations higher than this are rare (but possible).


    Single-Link vs. Dual-Link DVI

    What do "single-link" and "dual-link" mean?

    DVI can transmit digital video in two modes: single-link or dual-link. Dual-link mode uses an extra set of pins on the DVI connector to transmit additional video data.

    The DVI specification requires that any video formats above 165 Mpx/s (i.e. higher than 1920 × 1200 at 60 Hz) must be transmitted in dual-link mode.

    Dual-link mode is an optional feature, and is not supported by all devices. Devices which do not support dual-link mode will be limited to 1920 × 1200 at 60 Hz (assuming both devices are fully compliant with the DVI Specification).

    Are dual-link and single-link devices compatible with each other?

    Yes, dual-link and single-link devices are fully compatible with each other. You do not need any kind of special "single-link to dual-link" cable or adapter; any DVI cable can be used to connect them together. If a dual-link device and single-link device are connected together, they will transmit in single-link mode only.

    How can I determine if a device supports dual-link?

    You must determine this from the product description/specifications or manual. Dual-link support cannot be reliably identified by appearance or any type of visual inspection or photos.

    Warning: Many people will tell you that you can identify dual-link devices by examining the configuration of pins on the connector, saying you should check if the connector has a full complement of pins (24+1). That advice is incorrect. While some single-link devices have missing pins in the center, this is not true of all single-link devices. Therefore, even if a device has a 24+1 pin DVI connector, you cannot tell whether it is single-link or dual-link.

    Which devices typically support dual-link?

    DVI ports on graphics cards will generally always support dual-link mode, although there are occasional exceptions (such as the XFX Radeon HD 7850/7870 or the GeForce GT 1030).

    DVI ports on monitors will generally always support dual-link if the monitor's specs require it (i.e. any monitor higher than 1920 × 1080 at 60 Hz).

    DVI ports on adapters (such as DisplayPort or HDMI to DVI adapters) are usually single-link only. There are DisplayPort to dual-link DVI adapters, but they are rare and expensive. There are no HDMI to dual-link DVI adapters.

    Motherboard DVI ports for integrated graphics usually do not support the dual-link feature, they are single-link only.


    DVI-D vs. DVI-I

    What are "DVI-D" and "DVI-I"?

    DVI has another optional feature, which is the ability to support DVI-to-VGA adapters. DVI ports which support this feature are called "DVI-I". Ports which do not have this feature are called "DVI-D".

    Support for this feature is unrelated to dual-link support. DVI ports may support dual-link but not VGA adapters, or vice versa, or both, or neither.

    DVI-I ports have extra pins which carry analog video, and can effectively be considered a "DVI-D + VGA combo port". If a VGA adapter is attached, the port will output native VGA signals. If it is connected to another DVI device, it will output digital signals (in either single-link or dual-link mode) just like a DVI-D port.

    Are DVI-D and DVI-I ports compatible with each other?

    Yes. DVI-I ports on graphics cards can be connected to DVI-D ports on monitors, and vice versa. A standard DVI-D cable should be used, no special "DVI-I to DVI-D" cables are required.

    Can DVI-D to HDMI/DP adapters be used in a graphics card's DVI-I port?

    Yes, DVI-I ports can be considered "DVI-D + VGA combo ports". A DVI-I port is compatible with anything that works in a DVI-D port, plus VGA adapters.

    My graphics card has one DVI-I port and one DVI-D port. Which one should I use?

    If you are connecting it to a DVI display, then there is no difference. If you are connecting to a VGA display, then you must use the DVI-I port.

    A DVI-I port is just a "DVI-D + VGA combo port". When connected to a DVI device, it functions as a DVI-D port. When connected to a VGA device, it functions as a VGA port.

    How can I determine if a device supports VGA adapters?

    You must determine this from the product description/specifications or manual. VGA adapter support (DVI-I) cannot be reliably identified by appearance or any type of visual inspection or photos.

    Warning: Many people will tell you that you can identify VGA adapter support by examining the port, to check if the device is using the DVI-I connector (as shown in the next section). This is not reliable. Be aware that some devices use the DVI-I connector even though the device does not support VGA adapters. This is especially common with adapters. Therefore, even if a device has the DVI-I connector, that does not necessarily mean it supports VGA adapters.


    Ports and Cables

    Overview

    The DVI port and cable situation seems confusing, but it is not that complicated.

    In the real world, there are only two types of physical DVI port: one that can send both DVI or VGA signals, and one that can only send DVI signals.

    If you are making a DVI-to-DVI connection (or adapters to HDMI or DisplayPort), then any DVI port will work. If you are using a DVI-to-VGA adapter, it will only work in a DVI-I port (as described below).

    When it comes to cables, there are only two types: single-link and dual-link. Both types of cables are compatible with any DVI device. If you want to run formats higher than 1920 × 1200 at 60 Hz, you need a dual-link DVI cable.

    Done!

    DVI Receptacle Types

    The DVI Specification defines two different DVI receptacles:

    DVI Receptacles DVI Digital-Only Connector
    ("DVI-D", 25 pins) DVI Combined Connector
    ("DVI-I", 29 pins)
    The unofficial names "DVI-D" and "DVI-I" are commonly used, but are not established by the DVI Specification.

    The combined connector (DVI-I) is used for devices which support analog (VGA) signals. DVI-to-VGA passive adapters can be attached to these ports.

    The digital-only connector (DVI-D) is used for devices which do not support VGA adapters. DVI-to-VGA passive adapters cannot be attached to these ports.

    No other connectors are defined by the DVI Specification. All devices use one of these two connectors. There are no separate connectors based on whether a device supports dual-link mode or not, and there are no other DVI connector designs in use (i.e. with missing pinholes in the center).

    DVI Plug Types

    The DVI Specification defines two different DVI plugs for cables or adapters:

    DVI Plugs DVI Digital Plug
    ("DVI-D") DVI Analog Plug
    ("DVI-I")
    The analog plug is used on DVI-to-VGA adapters or cables.

    The digital plug should be used in all other circumstances, such as any DVI-to-DVI cables, or HDMI-to-DVI or DisplayPort to DVI adapters.

    Some DVI-to-DVI cables or DVI-to-HDMI adapters use the analog plug. There is no logical reason to use the analog plug on these devices, since the analog signals aren't used in those situations. Companies just make them because people believe they need them, because their graphics card has a "DVI-I" port and they think they need a matching cable/adapter. However, using the DVI-I connector on these devices serves no purpose, the analog pins just block the cable/adapter from fitting into a DVI-D port, creating an incompatibility for no reason.

    Do not purchase cables or adapters with a DVI analog plug ("DVI-I" plug) unless it is a DVI-to-VGA adapter.

    Non-Standard DVI Plugs

    In addition to the two connectors described above, you may encounter various other DVI connector configurations:

    Non-Standard DVI Plugs "Single-Link DVI-D" "Single-Link DVI-I" "DVI-A"
    There are no connectors with these pin configurations defined in the DVI Specification, but they can be found in some products. The usage of these connectors is not universal.

    The "Single-Link DVI-D" connector is used on some DVI cables and adapters that only have wires for a single DVI link. Not all such products use this connector (most use the full 24+1 pin Digital-Only connector shown previously and simply leave the extra pins unconnected internally). As a result, checking for the presence of this connector is not a reliable method of determining if a device supports dual-link operation or not.

    The "Single-Link DVI-I" and "DVI-A" connectors are used on DVI-to-VGA adapters. There is no functional difference between these connectors and the "full" DVI analog plug defined in the DVI Specification.

    DVI Cables

    TL;DR: A Dual-Link DVI-D cable should be used in all situations. No other type of DVI cable is necessary for any situation.

    The DVI Specification does not define multiple types of DVI cables. All standard DVI cables should have the digital-only DVI plug on both ends and should be wired in accordance with the specification, capable of both single-link and dual-link operation.

    However, some cables are not manufactured in compliance with the specification. Some DVI cables are made without wires for the second link, and are therefore limited to single-link operation only. Sometimes they use the standard 25-pin DVI-D connector, and sometimes they use the non-standard "single-link DVI-D" connector. Some DVI cables have the DVI analog connector on one or both ends. There is no logical reason to have the analog pins on a DVI-to-DVI cable, since those pins will not be used anyway. The DVI analog connector should only be used for DVI-to-VGA adapters. However, since some people believe if their GPU has a DVI-I port then they need a cable with a matching pin configuration, so cable manufacturers are happy to sell them one. When shopping for a DVI cable, you should: Make sure it has the DVI digital plug on both ends (pictured previously) Make sure it is capable of dual-link operation. Do not judge this by the pin count. Having 25 pins does not mean it is capable of dual-link operation. Read the product description, make sure it is not limited to 1920 × 1200 (this indicates single-link-only).
    DVI Specification

    The DVI Specification v1.0 (the only version) is available to the public and may be downloaded here:
    DVI Specification v1.0 DVI Source to VGA Display [Link]
    Passive Adapters

    DVI Source to VGA Display Possible with a passive adapter? No (DVI-D) / Yes (DVI-I) Inline audio supported? No Image Quality: Same as VGA Maximum Resolution / Frequency: Same as VGA

    A passive adapter can be used to connect a DVI output to a VGA input. These adapters will only work in special DVI + VGA combo ports called DVI-I. They will NOT work in a standard DVI-D port.

    Using a passive DVI to VGA adapter is equivalent to a native VGA connection from the source device.

    DVI to VGA passive adapters are bi-directional, so the same adapter can be used both from a DVI source to a VGA display, and from a VGA source to a DVI display, if the display's DVI port is DVI-I. However, this is very rare; most displays have DVI-D ports, which will not accept VGA passive adapters.

    DVI-I to VGA passive adapter dongle (use with VGA cable):   Amazon US (1)   Amazon US (2)   Amazon US (3)
    DVI-I to VGA passive adapter cable (1.8 metres):   Amazon US
    DVI-I to VGA passive adapter cable (1.5 metres):   Amazon US

    Active Adapters

    If your computer only has a DVI-D port available (not DVI-I), then a DVI-D to VGA active adapter is required.

    DVI-D to VGA active adapter dongle (use with VGA cable):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    DVI Source to USB Type-C DisplayPort Alternate Mode Display [Link]
    A DVI output cannot be connected to a USB Type-C input. No passive or active adapters exist for this combination.

    USB Type-C to DVI adapters work from a USB-C source to a DVI display, but not the reverse configuration.

    DVI Source to Thunderbolt 3 Display [Link]
    A DVI output cannot be connected to a Thunderbolt 3 input. No passive or active adapters exist for this combination.

    USB Type-C to DVI adapters work from a Thunderbolt 3 source to a DVI display, but not the reverse configuration.

    VGA Source to DisplayPort Display [Link]
    Passive Adapters

    VGA Source to DisplayPort Display Possible with a passive adapter? No
    It is not possible to connect VGA output to DisplayPort input with a passive adapter.

    Active Adapters

    An active adapter would be required to convert VGA to DisplayPort, but at the time of writing I am not aware of any such adapters existing. VGA Source to HDMI Display [Link]
    Passive Adapters

    VGA Source to HDMI Display Possible with a passive adapter? No
    It is not possible to connect VGA output to HDMI input with a passive adapter. It is also not possible to create a chain of passive adapters from VGA → DVI → HDMI. VGA to DVI passive adapters do not convert your VGA signals into DVI signals, they do not actually do anything, they just pass the same VGA signal through. They will only work when connected to special DVI + VGA combo ports called DVI-I, which can accept VGA signals in addition to DVI signals. These adapters will not work for connecting to standard DVI-D ports (which only accept DVI signals) or for sending signals through a DVI to HDMI adapter (which also require DVI signals).

    The only purpose of a VGA to DVI passive adapter is to physically change the shape of the port from VGA-shape to DVI-shape, so that it can be connected to a DVI-I port. It does not convert the electrical signals, they are still VGA signals the whole way through.

    Active Adapters

    Conversion from VGA to HDMI requires an active adapter.

    VGA to HDMI active adapter dongle (video + audio; use with HDMI cable):   Amazon US
    VGA to HDMI active adapter dongle (video only; use with HDMI cable):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    VGA Source to DVI Display [Link]
    Passive Adapters

    VGA Source to DVI Display Possible with a passive adapter? No (DVI-D) / Yes (DVI-I) Inline audio supported? No Image Quality: Same as VGA Maximum Resolution / Frequency: Same as VGA

    A passive adapter can be used to connect VGA output to DVI input only if the DVI input is a DVI-I port (this is very uncommon). Most displays have DVI-D input ports, not DVI-I. Passive DVI to VGA adapters will not work in DVI-D ports.

    Using a passive DVI to VGA adapter is equivalent to a native VGA connection from the source device.

    DVI to VGA passive adapters are bi-directional, so the same adapter can be used both from a DVI source to a VGA display, and from a VGA source to a DVI display, if the display's DVI port is DVI-I. However, this is very rare; most displays have DVI-D ports, which will not accept VGA passive adapters.

    DVI to VGA passive adapter:   Amazon US (1)   Amazon US (2)

    Active Adapters

    Conversion from VGA to DVI-D would require an active adapter, but I'm not aware of any such adapters existing at the time of writing.

    VGA [Link]
    VGA Capabilities Inline Audio No HDR No Multiple Video Streams
    From a Single Port Splitters/Hubs: No
    Daisy-Chaining: No Power Delivery
    (for charging) None
    What is the maximum resolution / refresh frequency of VGA?

    VGA does not have any defined limits. Its capabilities are dependent on the individual limits of the graphics device and the display, which vary by product. The last generations of VGA devices could rival the capabilities of dual-link DVI, with some VGA displays handling signals as high as 2304 × 1440 at 80 Hz (like the Sony GDM-FW900). While many graphics cards list a maximum analog resolution of 2048 × 1536, this is often incorrect, and they do work with higher resolutions as long as the monitor supports it.

    Can VGA be used for 1080p 60 Hz?

    Yes, any reasonably modern VGA device will handle 1080p 60 Hz over VGA.

    Is VGA limited to 60 Hz?

    No, VGA is not limited to 60 Hz. Many CRT monitors (which only took VGA input) operated at 75 Hz or 85 Hz standard. VGA has no defined limit on refresh frequency, and can (and has) been used for video formats exceeding 120 Hz or even 240 Hz on high-end CRTs, if the resolution is lowered enough.

    At medium-to-high resolutions like 1920 × 1080 or above, 120+ Hz should not be expected since this does push the limits of what most VGA devices are capable of handling, but VGA is in no way limited to 60 Hz as a whole.

    How does the image quality of VGA compare to more modern interfaces like DVI, HDMI, and DisplayPort?

    In general, the image quality of VGA is acceptable and usually difficult to distinguish from DVI, HDMI, and DisplayPort, but it depends on the specific situation and equipment. VGA signals can be degraded by electromagnetic interference, so the image quality may suffer depending on the quality of shielding in the VGA cable. Damage to the cable may also lead to a color-tinted screen if one of the color channels drops out. Image artifacts such as VGA ghosting (the echo/smearing effect; not to be confused with motion trails left behind fast-moving objects, which is also called ghosting) may also appear as a result of poor quality VGA cables.

    VGA also lacks some of the image handshake protocols that digital interfaces have, which can lead to the image being "off-center". Most displays have adjustment options built into their on-screen menu to align the image manually.

    VGA is generally considered a fallback option for situations in which DVI, HDMI, or DisplayPort are not available.

    VGA Source to USB Type-C DisplayPort Alternate Mode Display [Link]
    A VGA output cannot be connected to a USB Type-C input. No passive or active adapters exist for this combination.

    USB Type-C to VGA adapters work from a USB-C source to a VGA display, but not the reverse configuration.

    VGA Source to USB Type-C DisplayPort Alternate Mode Display [Link]
    A VGA output cannot be connected to a Thunderbolt 3 input. No passive or active adapters exist for this combination.

    USB Type-C to VGA adapters work from a Thunderbolt 3 source to a VGA display, but not the reverse configuration.

    USB Type-C DisplayPort Alternate Mode Source to DisplayPort Display [Link]
    USB-C (DP Alt Mode) Source to DisplayPort Display Inline audio supported? Yes Image Quality: Same as DisplayPort Maximum Resolution / Frequency: Same as DisplayPort (dependent on source and adapter; see article below)

    Show DisplayPort Limits   USB Type-C video output ports can be connected to a DisplayPort input using a passive USB Type-C to DisplayPort adapter. Not all USB Type-C ports support video output. These adapters will only function from USB Type-C ports that support video output via DisplayPort Alternate Mode (any video-capable USB Type-C port will support this).

    USB Type-C to DisplayPort adapters operate passively via the USB Type-C DisplayPort Alternate Mode protocol, which allows native DisplayPort signals to be sent through the USB Type-C interface. These adapters do have a chip inside to negotiate the initial USB connection and switch the host port to DisplayPort output mode, so it is more expensive than a typical passive adapter, but there is no active format conversion involved with the actual video transmission.

    USB Type-C adapters provide a complete DisplayPort signal, with all the capabilities that a standard DisplayPort connection has, including audio. Current adapters support the full bandwidth of DisplayPort 1.2 (21.6 Gbit/s; see here). The image produced is identical to that of a native DisplayPort connection. Using an adapter does not compromise any aspect of the connection.

    A USB Type-C to DisplayPort adapter can only provide a DisplayPort signal, it cannot switch modes to output DVI or HDMI signals like a normal DisplayPort port can. For this reason, DisplayPort to DVI and DisplayPort to HDMI passive adapters will not function when chained from a USB Type-C to DisplayPort adapter, since they rely on that capability to operate.

    USB Type-C to DisplayPort adapters are not bi-directional, so they cannot be used to connect a DisplayPort source to a USB-C display.

    USB Type-C to DisplayPort adapter dongle (use with DisplayPort cable):   Amazon US (1)   Amazon US (2)
    USB Type-C to DisplayPort adapter cable (1.8 metres):   Amazon US (1)   Amazon US (2)
    USB Type-C to Mini DisplayPort adapter dongle (use with Mini DisplayPort cable):   Amazon US

    Note: Mini DisplayPort is functionally identical to DisplayPort, the only difference is the physical shape. Additional adapters to change between DisplayPort and Mini DisplayPort can be used freely without affecting the operation or compatibility of other devices in any way.
    USB Type-C DisplayPort Alternate Mode Source to HDMI Display [Link]
    USB-C (DP Alt Mode) Source to HDMI Display Inline audio supported? Yes Image Quality: Same as HDMI Maximum Resolution / Frequency: Same as HDMI (version depends on adapter)

    Show HDMI Limits   USB Type-C video output ports can be connected to an HDMI input port using a USB Type-C to HDMI active adapter. Not all USB Type-C ports support video output. These adapters will only function from USB Type-C ports that support video output via DisplayPort Alternate Mode (any video-capable USB Type-C port will support this).

    USB Type-C to HDMI adapters are configured internally as a USB Type-C to DisplayPort passive adapter with a DisplayPort to HDMI active adapter attached to it. These adapters work on any USB Type-C port that supports video output via DisplayPort Alternate Mode, which is the video protocol used by all video-capable USB Type-C devices to date. Although a "USB Type-C HDMI Alternate Mode" specification exists, it is not used in most devices because it was not published until a long time after DisplayPort Alternate Mode had already been universally adopted, and furthermore HDMI Alternate Mode is limited to HDMI version 1.4 and therefore has seen little interest.

    Passive USB Type-C to HDMI adapters are possible in theory via the HDMI Alternate Mode protocol, but to my knowledge have never been produced due to lack of HDMI Alternate Mode support. Since these passive adapters would still require a chip to negotiate the USB connection, they likely would not be much cheaper than the active adapters currently in use.

    USB Type-C to HDMI adapters are not bi-directional, so they cannot be used to connect an HDMI source to a USB-C display.

    USB Type-C to HDMI 2.0 active adapter dongle (use with HDMI cable):   Amazon US (1)   Amazon US (2)   Amazon US (3)
    USB Type-C to HDMI 2.0 active adapter cable (1.8 metres):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    USB Type-C DisplayPort Alternate Mode Source to DVI Display [Link]
    USB-C (DP Alt Mode) Source to DVI Display Inline audio supported? No Image Quality: Same as DVI Maximum Resolution / Frequency: Same as Single-Link DVI

    Show DVI Limits   USB Type-C video output ports can be connected to a display's DVI input port using a USB Type-C to DVI active adapter. Not all USB Type-C ports support video output. These adapters will only function from USB Type-C ports that support video output via DisplayPort Alternate Mode (any video-capable USB Type-C port will support this).

    USB Type-C to DVI adapters are configured internally as a USB Type-C to DisplayPort passive adapter with a DisplayPort to DVI active adapter attached to it. These adapters work on any USB Type-C port that supports video output via DisplayPort Alternate Mode, which is the video protocol used by all video-capable USB Type-C devices to date.

    USB-C to DVI adapters may be either single-link or dual-link. Single-link adapters will be limited to 60 Hz at 1920 × 1080. To get higher refresh rates like 144 Hz, a dual-link adapter is required. As with other DVI adapters, there are many fake "dual-link" adapters, which are really single-link adapters in disguise. They may appear to have dual-link connectors on them, so you will not be able to tell whether it is a single-link or dual-link DVI adapter by looking at it. Some may even claim to support formats like 2560 × 1440 at 60 Hz or 3840 × 2160 at 30 Hz, normally achieved with a dual-link signal, are actually still only single-link DVI adapters.

    They can support higher modes by operating in single-link mode at double frequency, but this is not compliant with the DVI Specification and will only work on a handful of specific displays such as the Dell U2711. On other displays, these adapters will be limited to 1080p 60 Hz like any other single-link DVI adapter, so they cannot be used with 1080p 144 Hz or 1440p 60 Hz monitors as a substitute for a dual-link DVI connection. Recommendations for genuine dual-link adapters are listed below.

    In addition, most USB-C to DVI adapters provide a DVI-D connection only, even though many of them appear to have a DVI-I connector in the product photos. In reality the extra DVI-I pins are simply dummies and are not really wired to anything, so despite appearances these adapters are actually DVI-D adapters, meaning a chain of adapters from USB-C → DVI → VGA is not possible.

    USB Type-C to DVI adapters are not bi-directional, so they cannot be used to connect a DVI source to a USB-C display.

    USB Type-C to Dual-Link DVI-D active adapter dongle (use with DVI cable):   Amazon US
    USB Type-C to Single-Link DVI-D active adapter dongle (use with DVI cable):   Amazon US (1)   Amazon US (2)
    USB Type-C to Single-Link DVI-D active adapter cable (1.8 metres):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    USB Type-C DisplayPort Alternate Mode Source to VGA Display [Link]
    USB-C (DP Alt Mode) Source to VGA Display Inline audio supported? No Image Quality: Same as VGA Maximum Resolution / Frequency: Same as VGA
    A USB Type-C video output port can be connected to a display's VGA input port using a USB Type-C to VGA active adapter. Not all USB Type-C ports support video output. These adapters will only function from USB Type-C ports that support video output via DisplayPort Alternate Mode (any video-capable USB Type-C port will support this).

    USB Type-C to VGA adapters are configured internally as a USB Type-C to DisplayPort passive adapter with a DisplayPort to VGA active adapter attached to it. These adapters work on any USB Type-C port that supports video output via DisplayPort Alternate Mode, which is the video protocol used by all video-capable USB Type-C devices to date.

    Using a USB Type-C to VGA adapter is equivalent to using a native VGA connection. There are no special advantage gained by using an adapter from USB Type-C.

    USB Type-C to VGA adapters are not bi-directional, so they cannot be used to connect a VGA source to a USB-C display.

    USB Type-C to VGA active adapter dongle (use with VGA cable):   Amazon US (1)   Amazon US (2)
    USB Type-C to VGA active adapter cable (1.8 metres):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    USB Type-C DisplayPort Alternate Mode [Link]
     
    USB-C (DP Alt Mode) Capabilities Inline Audio Yes HDR Yes (DP 1.4+)
    No (DP 1.3 & Below) Multiple Video Streams
    From a Single Port Splitters/Hubs: Yes
    Daisy-Chaining: Yes Power Delivery
    (for charging) Up to 100 W (Optional; varies by device)
    What is DisplayPort Alternate Mode?

    DisplayPort Alternate Mode is an optional feature for USB Type-C ports which allows DisplayPort signals to be routed through the USB port. This is how USB Type-C ports output video. USB Type-C ports that do not have this feature cannot output video.

    Technically there are other video-over-USB-C standards such as HDMI Alternate Mode or MHL Alternate Mode, but these are not supported by any devices in the real world. DisplayPort Alternate Mode is the ubiquitous standard for video over USB and is used by all current devices. Even USB-C to HDMI adapters operate using DisplayPort Alternate Mode.

    The DisplayPort signal sent over a USB Type-C port is exactly the same as the one sent over a normal DisplayPort connection. There is no compromise in image quality, features, or bandwidth when using USB-C. The video signal is not limited by the 5 Gbit/s or 10 Gbit/s bandwidth of the USB transport protocol, because the video is not sent using USB. The port simply acts as a passthrough for a native DisplayPort connection from the GPU, and the full DisplayPort data rate is available through the USB-C port (17.28 Gbit/s for HBR2 or 25.92 Gbit/s for HBR3, depending on what the graphics card supports).

    What kind of cable do I need?

    Video over USB uses standard USB Type-C cables. It does not require any "special" USB cables designed specifically for video or anything like that, but it does require USB Type-C cables that can handle high bandwidth. Not all USB Type-C cables are suitable for video transmission.

    Some of the names and bandwidth ratings for USB-C cables that you may commonly see are: USB 2.0 Cable (480 Mbit/s) USB 3.0 or USB 3.1 or "USB 3.1 Gen 1" Cable (5 Gbit/s) USB 3.1 or "USB 3.1 Gen 2" Cable (10 Gbit/s) Thunderbolt 3 Passive Cable (20 Gbit/s) Thunderbolt 3 Active Cable (40 Gbit/s)
    A cable with a 10 Gbit/s or 20 Gbit/s rating should be used. A 10 Gbit/s cable is sufficient for formats up to around 1920 × 1080 @ 144 Hz, 2560 × 1600 @ 60 Hz, or 3840 × 2160 @ 30 Hz, or lower. Higher formats like 4K 60 Hz will require cables rated for 20 Gbit/s.

    Thunderbolt 3 active cables (40 Gbit/s) can only be used for Thunderbolt 3 devices, they cannot be used for plain USB Type-C devices despite using the same connector. Thunderbolt 3 passive cables on the other hand are just normal (though high-grade) USB Type-C cables and are fully compatible with all USB Type-C devices.

    USB Type-C DisplayPort Alternate Mode Source to Thunderbolt 3 Display [Link]
    Thunderbolt 3 Source to USB-C (DP Alt Mode) Display Inline audio supported? Yes Image Quality: Same as DisplayPort Maximum Resolution / Frequency: Same as DisplayPort 1.2

    Show DisplayPort Limits   USB Type-C DisplayPort Alt Mode output ports cannot be connected to a Thunderbolt 3 display. Thunderbolt 3 input ports on displays only accept video input from a Thunderbolt source. No adapters exist that can make this connection possible.

    UPDATE JAN. 2018:

    Intel has released a new generation of Thunderbolt 3 controllers (the "Titan Ridge" family). Displays equipped with these new TB3 controllers can accept USB-C Alt Mode video input using a standard USB 3.1 Type-C cable rated for at least 20 Gbit/s. These may be sold as "Thunderbolt 3 passive cables". Please note that active Thunderbolt 3 cables will only work with Thunderbolt 3 devices, they cannot be used for connecting a Thunderbolt 3 device to a non-Thunderbolt USB-C device.

    USB 3.1 Type-C 20 Gbit/s passive cable (2.0 metres):   Amazon US

    Thunderbolt 3 Source to DisplayPort Display [Link]
    Thunderbolt 3 Source to DisplayPort Display Inline audio supported? Yes Image Quality: Same as DisplayPort Maximum Resolution / Frequency: Same as DisplayPort 1.2

    Show DisplayPort Limits   Thunderbolt 3 output ports can be connected to a display's DisplayPort input port using a standard USB Type-C to DisplayPort adapter. There are no special "Thunderbolt 3 to DisplayPort" adapters needed.

    USB Type-C to DisplayPort adapters operate passively via the USB Type-C DisplayPort Alternate Mode protocol, which allows native DisplayPort signals to be sent through the USB Type-C interface. These adapters do have a chip inside to negotiate the initial USB connection and switch the host port to DisplayPort output mode, so it is more expensive than a typical passive adapter, but there is no active format conversion involved with the actual video transmission.

    DisplayPort-to-DVI and DisplayPort-to-HDMI passive adapters will not function when chained off of a USB Type-C to DisplayPort adapter.

    USB Type-C to DisplayPort adapter dongle (use with DisplayPort cable):   Amazon US (1)   Amazon US (2)
    USB Type-C to DisplayPort adapter cable (1.8 metres):   Amazon US (1)   Amazon US (2)
    USB Type-C to Mini DisplayPort adapter dongle (use with Mini DisplayPort cable):   Amazon US

    Note: Mini DisplayPort is functionally identical to DisplayPort, the only difference is the physical shape. Additional adapters to change between DisplayPort and Mini DisplayPort can be used freely without affecting the operation or compatibility of other devices in any way.
    Thunderbolt 3 Source to HDMI Display [Link] Thunderbolt 3 Source to HDMI Display Inline audio supported? Yes Image Quality: Same as HDMI Maximum Resolution / Frequency: Same as HDMI (version depends on adapter)

    Show HDMI Limits   Thunderbolt 3 output ports can be connected to a display's HDMI input port using a standard USB Type-C to HDMI adapter. There are no special "Thunderbolt 3 to HDMI" adapters needed.

    USB Type-C to HDMI adapters are configured internally as a USB Type-C to DisplayPort passive adapter with a DisplayPort to HDMI active adapter attached to it. These adapters work on any USB Type-C port that supports video output via DisplayPort Alternate Mode, which is the video protocol used by all video-capable USB Type-C devices to date. Although a "USB Type-C HDMI Alternate Mode" specification exists, it is not used in most devices because it was not published until a long time after DisplayPort Alternate Mode had already been universally adopted, and furthermore HDMI Alternate Mode is limited to HDMI version 1.4 and therefore has seen little interest.

    USB Type-C to HDMI 2.0 active adapter dongle (use with HDMI cable):   Amazon US (1)   Amazon US (2)   Amazon US (3)
    USB Type-C to HDMI 2.0 active adapter cable (1.8 metres):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    Thunderbolt 3 Source to DVI Display [Link]
    Thunderbolt 3 Source to DVI Display Inline audio supported? No Image Quality: Same as DVI Maximum Resolution / Frequency: Same as Single-Link DVI

    Show DVI Limits   Thunderbolt 3 output ports can be connected to a display's DVI input port using a standard USB Type-C to DVI adapter. There are no special "Thunderbolt 3 to DVI" adapters needed.

    USB Type-C to DVI adapters are configured internally as a USB Type-C to DisplayPort passive adapter with a DisplayPort to DVI active adapter attached to it. These adapters work on any USB Type-C port that supports video output via DisplayPort Alternate Mode, which is the video protocol used by all video-capable USB Type-C devices to date.

    Currently only Single-Link DVI adapters are available. As with other DVI adapters, these may appear to have Dual-Link connectors on them, so you will not be able to tell whether it is a Single-Link or Dual-Link DVI adapter by looking at it.

    All USB Type-C to DVI adapters currently available are Single-Link only. Even adapters that claim to support formats like 2560 × 1440 at 60 Hz or 3840 × 2160 at 30 Hz, normally achieved with Dual-Link DVI, are actually still only Single-Link DVI adapters. They can support higher modes by operating in Single-Link mode at double frequency, but this is outside DVI spec and will only work on very specific displays such as the Dell U2711. On all other displays, these adapters will be limited to 1080p 60 Hz like any other Single-Link DVI adapter, so they cannot be used with 1080p 144 Hz or 1440p 60 Hz monitors as a substitute for a Dual-Link DVI connection.

    In addition, most USB-C to DVI adapters provide a DVI-D connection even though they appear to have a DVI-I connector. In reality the extra DVI-I pins are simply dummies and are not really wired to anything, so despite appearances these adapters are actually DVI-D adapters, meaning a chain of adapters from USB-C → DVI → VGA is not possible.

    USB Type-C to DVI adapters are not bi-directional, so they cannot be used to connect a DVI source to a USB-C display.

    USB Type-C to Single-Link DVI-D active adapter dongle (use with DVI cable):   Amazon US (1)   Amazon US (2)
    USB Type-C to Single-Link DVI-D active adapter cable (1.8 metres):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    Thunderbolt 3 Source to VGA Display [Link]
    Thunderbolt 3 Source to VGA Display Inline audio supported? No Image Quality: Same as VGA Maximum Resolution / Frequency: Same as VGA
    Thunderbolt 3 output ports can be connected to a display's VGA input port using a standard USB Type-C to VGA adapter. There are no special "Thunderbolt 3 to VGA" adapters needed.

    USB Type-C to VGA adapters are configured internally as a USB Type-C to DisplayPort passive adapter with a DisplayPort to VGA active adapter attached to it. These adapters work on any USB Type-C port that supports video output via DisplayPort Alternate Mode, which is the video protocol used by all video-capable USB Type-C devices to date.

    Using a USB Type-C to VGA adapter is equivalent to using a native VGA connection. There are no special advantage gained by using an adapter from USB Type-C.

    USB Type-C to VGA adapters are not bi-directional, so they cannot be used to connect a VGA source to a USB-C display.

    USB Type-C to VGA active adapter dongle (use with VGA cable):   Amazon US (1)   Amazon US (2)
    USB Type-C to VGA active adapter cable (1.8 metres):   Amazon US

    Note: Resolution and refresh frequency limitations on active adapters are subject to each individual product's limitations. Read the product description.
    Thunderbolt 3 Source to USB Type-C DisplayPort Alternate Mode Display [Link]
    Thunderbolt 3 Source to USB-C (DP Alt Mode) Display Inline audio supported? Yes Image Quality: Same as DisplayPort Maximum Resolution / Frequency: Same as DisplayPort 1.2

    Show DisplayPort Limits   All Thunderbolt 3 output ports also have support for DisplayPort 1.2 Alternate Mode, which gives them full compatibility with non-Thunderbolt USB Type-C displays.

    A USB-C Thunderbolt 3 output can be connected to a non-Thunderbolt USB-C input using a standard USB 3.1 Type-C cable rated for at least 20 Gbit/s. These may be sold as "Thunderbolt 3 passive cables". Please note that active Thunderbolt 3 cables will only work with Thunderbolt 3 devices, they cannot be used for connecting a Thunderbolt 3 device to a non-Thunderbolt USB-C device.

    USB 3.1 Type-C 20 Gbit/s passive cable (2.0 metres):   Amazon US

    USB Type-C Thunderbolt 3 Alternate Mode [Link]
     
    Thunderbolt 3 Capabilities Inline Audio Yes HDR Yes (Titan Ridge)
    No (Alpine Ridge) Multiple Video Streams
    From a Single Port Splitters/Hubs: Yes
    Daisy-Chaining: Yes Power Delivery
    (for charging) Up to 100 W (Optional; varies by device)
    Cabling

    Standard USB Type-C cables can be used with Thunderbolt 3 devices, but are usually limited to 20 Gbit/s at most. Special "active" USB Type-C cables are available to ensure full 40 Gbit/s operation. Although official documentation states that active cables are required for 40 Gbit/s, it is possible using standard (passive) cables at very short cable lengths (typically no longer than 0.5 metres). Beyond this, active cables are necessary for the full 40 Gbit/s.

    Video over Thunderbolt 3 uses either 4 or 8 lanes of DisplayPort 1.2 (HBR2), depending on the video bandwidth required. For 4-lane operation (up to ≈4K 75 Hz), passive USB Type-C cables rated for 20 Gbit/s are sufficient. 8-lane operation, which is necessary for higher modes like 5K 60 Hz, will require cables rated for 40 Gbit/s.

    Display Capabilities

    Thunderbolt 3 uses the DisplayPort 1.2 video protocol (HBR2) for its display capabilities. Not all Thunderbolt 3 devices have the same capabilities. Depending on implementation, a Thunderbolt 3 port may have a maximum of either: 4 lanes of HBR2 (17.28 Gbit/s total); sufficient for a single 4K 75 Hz or 5K 30 Hz display 4 lanes of HBR3 (25.92 Gbit/s total); sufficient for dual 4K 60 Hz displays, or a single 4K 120 Hz or 5K 60 Hz display. 8 lanes of HBR2 (34.56 Gbit/s total); sufficient for dual 4K 75 Hz displays, or a single 4K 144 Hz or 5K 75 Hz display. Not all Thunderbolt 3 ports are capable of the full 8-lane configuration or HBR3 transmission. Thunderbolt 3 ports advertised with a maximum of 20 Gbit/s bandwidth (or 2 PCIe lanes) are limited to 4 lanes of DisplayPort (which may be either HBR2 or HBR3 depending on the system GPU). Thunderbolt 3 ports which support the full 40 Gbit/s bandwidth (or 4 PCIe lanes) are capable of the full 8-lane HBR2 configuration.

    Usually when a Thunderbolt 3 port supports the full 8-lane configuration, it is part of a dual-port set controlled by the same chip, and only 8 lanes total are available which are shared by both ports. In these systems, if one Thunderbolt 3 port consumes all 8 lanes (for example by connecting a 5K 60 Hz monitor) then video output will be disabled entirely on the second port.

    Standard ("passive") USB Type-C cables rated for 20 Gbit/s can be used for 4-lane operation, but display modes higher than ≈4K 75 Hz require the full 8-lane configuration. The 8-lane configuration requires USB-C/Thunderbolt 3 cables rated for 40 Gbit/s

    Compatibility

    All Thunderbolt 3 output ports also support USB Type-C DisplayPort Alternate Mode output up to 4 lanes of HBR2, so can be connected to any monitor equipped with a USB Type-C video input even if it isn't a Thunderbolt 3 monitor. This also makes Thunderbolt 3 ports compatible with all USB Type-C adapters to DisplayPort, HDMI, DVI, and VGA.

    Thunderbolt 3 outputs can also be connected to monitors that have Thunderbolt or Thunderbolt 2 inputs via an adapter.

    Thunderbolt 3 inputs will only accept video from a Thunderbolt 3 source, or a Thunderbolt or Thunderbolt 2 source via an adapter.

    UPDATE JAN. 2018:

    Thunderbolt 3 input ports on monitors using the new Titan Ridge TB3 controllers can accept video input from standard USB Type-C DP Alt Mode outputs, they do not require a Thunderbolt 3 source anymore.

    Technical Overview

    Thunderbolt 3 is an additional data transfer protocol that can be included with USB Type-C ports to give them additional functionality, known as a USB Type-C Alternate Mode extension. USB ports which support Thunderbolt 3 Alt Mode can still be used as normal USB 3.1 Type-C ports, but also have special capabilities unique to these Thunderbolt-enabled USB ports.

    The extent of the capabilities of a Thunderbolt-enabled USB-C port depends on the control chip chosen by the device manufacturer. Not all Thunderbolt 3 ports have equal capabilities. Thunderbolt 3 controllers (USB controllers with support for the Thunderbolt 3 protocol) are only available from Intel, and are integrated into systems in a similar way to other third party I/O controllers.

    They are connected to the system via PCI Express lanes—either primary lanes from the CPU or auxiliary lanes from the chipset. A GPU is also connected to the controller with several lanes of DisplayPort to provide video output capability. On laptops this is configured internally by the motherboard designer, but on PC motherboards an external DisplayPort cable is necessary to route video output from a graphics card through a Thunderbolt 3 port on the motherboard. The motherboard designer may also choose to simply route lanes from the CPU's integrated graphics instead, in which case a dedicated graphics card cannot be used to drive monitors through the Thunderbolt 3 port; if the motherboard does not have a DisplayPort input port, it is likely configured in this way.

    The PCI Express connection to the system consists of either 2 or 4 lanes of PCI Express 3.0, providing either 16 Gbit/s or 32 Gbit/s of data transfer capability. The connection to the GPU consists of either 4 or 8 lanes of DisplayPort 1.2 (HBR2), providing either 17.28 Gbit/s or 34.56 Gbit/s of video bandwidth (a standard DisplayPort connection is 4 lanes). Only a combined maximum of 40 Gbit/s may be sent out across the USB-C/Thunderbolt 3 interface, so the data transfer capability and video transfer capability cannot both be used at maximum capacity at the same time. Some Thunderbolt controllers may also support dual Thunderbolt 3 ports, which must share the PCIe and DisplayPort connections to the system.

    (UPDATE JAN. 2018: Updated "Titan Ridge" Thunderbolt 3 controllers can support 4 lanes of DisplayPort 1.4 (HBR3), providing 25.92 Gbit/s of video bandwidth. 8 lanes of HBR3 is not supported. In the past, this guide erronously stated that Titan Ridge controllers could support 8 lanes of HBR3 in order to use the full 40 Gbit/s TB3 connection for video. This was incorrect. The maximum video throughput is still 34.56 Gbit/s, using HBR2 ×8.)

    Most laptops or motherboard with a single Thunderbolt 3 port use a lower tier controller connected with PCIe 3.0 ×2 and DisplayPort 1.2 ×4. These can only output up to 20 Gbit/s and are not capable of higher video modes such as 5K 60 Hz.

    Most products with two or more Thunderbolt 3 ports use one or several dual-port controllers, which have the full PCIe 3.0 ×4 / DisplayPort 1.2 ×8 connection, but these resources are shared by both ports. High-bandwidth video modes such as 5K 60 Hz or high data transfer rates up to 32 Gbit/s are possible on one port, but fully saturating one port will severely reduce similar capabilities on the second port.

    When connected to a Thunderbolt 3 display, video will be transmitted using the Thunderbolt protocol (in either 20 Gbit/s or 40 Gbit/s mode, depending on device support). Either 4 lanes (17.28 Gbit/s) or 8 lanes (34.56 Gbit/s) of DisplayPort video are multiplexed into the 20 Gbit/s or 40 Gbit/s Thunderbolt link (respectively), and the remainder of the link can be saturated with additional traffic such as simultaneous USB 3.1 data.

    When connected to a normal DisplayPort input on a display, the Thunderbolt 3 output port will use USB-C DisplayPort Alt Mode to establish a full 4-lane DisplayPort 1.2 (17.28 Gbit/s) link. This includes the DisplayPort auxiliary channel, so low-bandwidth I/O such as USB 2.0 can potentially be carried simultaneously, but this depends on monitor design.

    When connected to a USB-C DisplayPort Alt Mode input port on a display, the Thunderbolt 3 output port will again use USB-C DisplayPort Alt Mode to transmit video. This can be configured (by the monitor manufacturer) either as 4 lanes of DisplayPort 1.2 (17.28 Gbit/s) with perhaps USB 2.0 over the auxiliary channel, or as 2 lanes of DisplayPort 1.2 (8.64 Gbit/s) and 2 lanes of USB 3.1 (5–10 Gbit/s?), for high-speed USB data transfer over the same cable. Monitor manufacturers may choose to implement it this way if the monitor's resolution / refresh rate do not require the bandwidth of a 4-lane configuration (i.e. 1080p @ 144 Hz or 1440p @ 60 Hz) and it has a built-in USB 3.0/3.1 hub.

    Thunderbolt or Thunderbolt 2 Source to DisplayPort Display [Link]
    Thunderbolt or Thunderbolt 2 Source to DisplayPort Display Possible with passive cables? Yes (standard mDPto-mDP/DP cable) Inline audio supported? Yes Image Quality: Identical to DisplayPort Maximum Resolution / Frequency: Identical to DisplayPort
    Thunderbolt and Thunderbolt 2 output ports on a computer also double as a Mini DisplayPort output. They can be connected to any DisplayPort monitor using a standard Mini DisplayPort to Mini/Full-Size DisplayPort cable. No special "Thunderbolt-compatible" cables or adapters are required.
    Thunderbolt ports act as a DisplayPort 1.1 output Thunderbolt 2 ports act as a DisplayPort 1.2 output Daisy-Chaining

    Although Thunderbolt supports daisy-chaining devices, you cannot daisy-chain standard DisplayPort monitors through a Thunderbolt monitor or device.

    There are two protocols that can be used for daisy-chaining displays: Thunderbolt and DisplayPort MST.

    Original Thunderbolt ports ("Thunderbolt 1") only support daisy-chaining via the Thunderbolt protocol, with a maximum of 2 displays. Non-Thunderbolt monitors cannot be used while daisy-chaining displays, even if they support daisy-chaining via DisplayPort MST. Both monitors must support Thunderbolt.

    Thunderbolt 2 supports both Thunderbolt daisy-chaining and DisplayPort MST. These daisy-chaining technologies are not cross-compatible, so the display chain must be either all Thunderbolt displays or all DisplayPort MST (non-Thunderbolt) displays. A Thunderbolt monitor cannot be driven from a DisplayPort daisy-chain output port or vice versa. DisplayPort MST (daisy-chaining) was introduced in DisplayPort 1.2. This is a separate capability from the Thunderbolt protocol's daisy-chaining capability. Both methods can be used to daisy-chain displays, but they are not cross-compatible. Displays that support daisy-chaining via MST cannot be chained to displays that support daisy-chaining via the Thunderbolt protocol.

    Original Thunderbolt ports ("Thunderbolt 1") do not support DisplayPort MST since they only use DisplayPort version 1.1, which predates the existence of MST. Thunderbolt 1 ports can only daisy-chain displays via the Thunderbolt protocol, so all displays in the chain must support Thunderbolt. You cannot Since original Thunderbolt (henceforth called Thunderbolt 1) only uses DisplayPort 1.1, it does not support standard DisplayPort daisy-chaining (MST), which was not introduced until DisplayPort 1.2. While Apple Thunderbolt Displays can be daisy-chained from Apple MacBook Pro computers with Thunderbolt 1 ports, this is not accomplished via DisplayPort MST, but rather a Thunderbolt controller with two display channels.

    Daisy-chaining these Thunderbolt displays can only be done from computers with these controllers; products using the smaller Thunderbolt 1 controllers are not able to daisy-chain those same displays (such as the MacBook Airs of the same generation). In addition, all other daisy-chainable displays produced since then work via DisplayPort 1.2 MST which is not supported by Thunderbolt 1, so computers with Thunderbolt 1 ports are not capable of daisy-chaining any displays other than the Apple Thunderbolt displays.

    Thunderbolt 2 on the other hand supports the DisplayPort 1.2 protocol, so should work with any displays that use the standard DisplayPort MST implementation of daisy-chaining. Thunderbolt or Thunderbolt 2 Source to HDMI Display [Link]
    Thunderbolt and Thunderbolt 2 output ports function as a Mini DisplayPort output when connected to a non-Thunderbolt display input. Any Mini DisplayPort to HDMI adapter will function the same way in a Thunderbolt output port as it does in a Mini DisplayPort output. No special "Thunderbolt to HDMI" adapters or cables are required. Thunderbolt provides a DisplayPort 1.1 interface, while Thunderbolt 2 provides a DisplayPort 1.2 interface. Adapter compatibility of Thunderbolt is derived from DisplayPort; go to the DisplayPort to HDMI section for details about adapters between DisplayPort / Thunderbolt and HDMI.

    Thunderbolt and Thunderbolt 2 [Link]
     
    Loading...
    How to use:
    Use the output (left) dropdown only, for general information about an interface (DVI, HDMI, etc.) Use the input (right) dropdown only, to see all options for connecting to a specific port on a display Use both dropdowns for information about a specific adapter combination — make sure they are in the right order!   Output
    (Computer / Source)   Input
    (Monitor / TV / Display)       DisplayPort HDMI DVI VGA (D-Sub) USB Type-C Thunderbolt 3  ← Switch →    DisplayPort HDMI DVI VGA (D-Sub) USB Type-C Thunderbolt 3   (Note: Order matters! Make sure that the Output / Input are in the correct order and not reversed.)  
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    Click to Expand:

    › Maximum Refresh Frequency and Resolution of Everything [Link] DisplayPort
    HDMI
    DVI
    Thunderbolt 3
    Close

    › Which Cable Type Should I Use? (DisplayPort vs. HDMI vs. DVI vs. VGA) [Link] Which Cable Type Should I Use?

    It's generally recommended to avoid using VGA for computer monitors when possible. While it does work fine for most situations, the image quality can be degraded depending on the quality of the cable, and it's relatively easy to damage the cable which often results in color channels dropping out and requiring you to wiggle the cable around, and eventually replace it. On the other hand, VGA can be useful in some situations for consoles, and for using computers/laptops on TVs, since it usually avoids the overscan problems seen with HDMI (where the desktop is cut off on the edges), as well as HDCP compatibility issues that consoles sometimes have.

    Between DVI, HDMI, and DisplayPort: DVI can do up to 1920 × 1080 at 144 Hz or 2560 × 1600 at 60 Hz (using Dual-Link DVI) DVI has a maximum color depth of 24 bit/px (16.7 million colors) DVI does not support any extra features like audio, HDR, or FreeSync But if your monitor's specs don't go beyond these limitations, then there is no difference between using DVI, HDMI, and DisplayPort. For a standard monitor which is limited to (for example) 1080p 60 Hz 24 bit/px, all three will produce identical images.

    So HDMI and DisplayPort don't have better image quality than DVI?

    That's correct. Between DVI, HDMI, and DisplayPort, there is no difference in image quality when the same image settings are used. The difference is that HDMI and DisplayPort support a wider range of possible settings, so they can be used for situations that DVI can't be used for, like 4K 60 Hz or 30 bit/px color depth. But these extra capabilities don't make them any better at doing the other things.

    Basically it works like this; DVI can do some stuff. HDMI and DisplayPort can do all the stuff that DVI can do, plus some more. But the stuff that they have in common with DVI, they don't do any better than DVI does, it's just that they have extra capabilities beyond that. If you don't have a monitor that actually uses those extra capabilities, then there is no advantage to using DisplayPort or HDMI compared to DVI.

    At the moment, the vast majority of displays still fall within the capabilities of DVI, so HDMI and DisplayPort are only necessary if you want the extra features like inline audio, or for higher-end display formats like 2560 × 1440 at 144 Hz, or 4K.

    What about between HDMI and DisplayPort?

    It's pretty much the same as between DVI and HDMI / DP, just between the different versions of HDMI and DisplayPort instead. There is no difference in image quality between HDMI and DisplayPort. They both produce identical images when the same image settings are used. The choice between HDMI and DisplayPort only matters if one of them (usually HDMI) doesn't support the full specs of your monitor. For example, some 4K displays only have HDMI 1.4 and DisplayPort 1.2. Since HDMI 1.4 can't do 4K 60 Hz, but DisplayPort 1.2 can, you should use DisplayPort. However, if the monitor has an HDMI version which does support 4K 60 Hz (like HDMI 2.0), then it doesn't matter whether you use HDMI or DisplayPort.

    You can check the maximum resolution and refresh frequency of each interface and version here.

    Close

    › Connecting to a 120+ Hz Display [Link] Index: Which connections can support 120+ Hz? Which one should I use? Isn't HDMI limited to 60 Hz? Can I use a DisplayPort to HDMI passive adapter / cable? Can I use a DisplayPort to Dual-Link DVI passive adapter / cable? Can I use an HDMI to Dual-Link DVI passive adapter / cable? Can I connect a DVI or HDMI computer / source to a DisplayPort display? I have a BenQ XL2411Z / Acer GN246HL or another 120+ Hz monitor with no DisplayPort input. What should I do?

    Which connections can support 120+ Hz?

    In order of preference:

    (Note that the source device and the display must BOTH support the required HDMI / DisplayPort version. Connections will be limited to the lower version between the two. HDMI and DisplayPort cables themselves do not have "versions", though may have bandwidth limitations. See here for more details on HDMI and DisplayPort cable selection: HDMI DisplayPort)

    At 1920 × 1080 (2K):
    DisplayPort (any version) Dual-Link DVI HDMI 1.3 or above (some monitors do not accept >60 Hz over HDMI even if they have an HDMI 1.3+ port. Research your specific display model, most do not support 120+ Hz over HDMI.) At 2560 × 1440 (2.5K):
    DisplayPort 1.2 or above HDMI 2.0 or above Unofficially, Dual-Link DVI can sometimes work via overclocking (i.e. setting custom resolutions), but don't count on this At 3840 × 2160 (4K):
    DisplayPort 1.3 or above
    Which one should I use?

    A straight DisplayPort connection is the preferred option in all cases.

    At 1920 × 1080 if DisplayPort is not available, then use Dual-Link DVI. If Dual-Link DVI is not available, you can try HDMI as a last resort, but it is not guaranteed to work for 120+ Hz (it depends on the monitor; some work, some don't). HDMI 1.3 and above are capable of 1080p 120+ Hz, but not all monitors implement this capability, some are limited to 60 Hz over HDMI.

    At 2560 × 1440 if DisplayPort is not available, then HDMI can be used if the monitor and source both support HDMI 2.0 or above. If the monitor and source do not both support HDMI 2.0 or above, then it will not be possible to use HDMI for 120+ Hz at 2560 × 1440. In this case, it may be possible to use Dual-Link DVI by setting a custom resolution, but it depends on monitor support and is not guaranteed to work.

    At 3840 × 2160 without compression, DisplayPort 1.3 or 1.4 can be used up to 120 Hz. Frequencies higher than these limits (such as 4K 144 Hz) will require Display Stream Compression (DSC), only supported by DisplayPort 1.4 or higher.
    Isn’t HDMI limited to 60 Hz?

    No, HDMI is not limited to 60 Hz. This is a common myth. Many 1080p 120+ Hz displays are capped at 60 Hz over HDMI, but this is a limitation of those particular displays, not a limitation of the HDMI standard. HDMI itself allows unlimited refresh frequencies, and this has been the case since 2005 with HDMI version 1.2. Please refer to the main article here.

    Conspicuous examples of such displays include the ASUS VG248QE, the BenQ XL2411Z, and the Acer GN246HL. All of these are 1080p 144 Hz monitors with HDMI 1.4a ports, but do not support more than 60 Hz over HDMI. However, other monitors like the ViewSonic XG2401, Nixeus NX-VUE24A, and Samsung C24FG70 do accept 1080p 120+ Hz through HDMI 1.4a.

    Determining what version of HDMI a monitor supports will not tell you anything about whether the monitor supports 120+ Hz over HDMI or not. Some displays support it, some don't, regardless of version. You will have to research the specific model to find out if it supports 120+ Hz over HDMI.

    Can I use a DisplayPort to HDMI passive adapter / cable?

    Yes, up to 1080p 120 Hz. Higher modes such as 1080p 144 Hz are not possible through a DisplayPort to HDMI passive adapter.

    The following requirements also apply: The source must have DisplayPort version 1.2 or higher The display must have HDMI version 1.3 or higher The display must support 120+ Hz over HDMI; many displays are limited to 60 Hz over HDMI even if they have an HDMI 1.3+ port, so research your specific display model carefully and make sure it supports >60 Hz over HDMI A Type 2 DisplayPort to HDMI passive adapter must be used. Not just any DisplayPort to HDMI adapter will work. Type 1 adapters will be limited to 60 Hz at 1080p. See here for more details.
    Can I use a DisplayPort to Dual-Link DVI passive adapter / cable?

    No. DisplayPort to Dual-Link DVI passive adapters / cables do not actually exist. Even though most DisplayPort to DVI adapters you see for sale are labeled as "Dual-Link", all of these are fake, they are only Single-Link DVI adapters in disguise.

    The DisplayPort connector has 20 pins, which means it can be used as a Single-Link DVI-D port via a passive adapter. However, Dual-Link DVI requires 25 pins, so a DisplayPort connector does not have enough pins to emulate a Dual-Link DVI connection. The additional DVI pins on "DisplayPort to Dual-Link DVI" adapters are not connected to anything at all, they are just for show, for marketing purposes. It is nothing but a Single-Link DVI-D adapter dressed up to appear like a Dual-Link DVI-D adapter.

    Can I use an HDMI to Dual-Link DVI passive adapter / cable?

    No, for the same reason as in the above section. HDMI to Dual-Link DVI passive adapters/cables do not exist. HDMI only has 19 pins, like Single-Link DVI-D. Even though most HDMI to DVI adapters you see for sale are "Dual-Link", all of these are fake, they are only Single-Link DVI adapters in disguise.

    These HDMI to Single-Link DVI passive adapters may work for 120+ Hz if used from a DVI output (computer/source) to an HDMI input (display) because it acts as an HDMI connection when used in this configuration, and HDMI 1.3+ can support 1080p 120 Hz as mentioned previously, but this does require the monitor to accept 120+ Hz over HDMI, so it will not work on monitors like the BenQ XL2411Z or ASUS VG248QE, which are limited to 60 Hz on their HDMI inputs.

    Can I connect a DVI or HDMI computer / source to a DisplayPort display?

    Yes. An HDMI to DisplayPort active adapter is required. Please note this is NOT the same as a DisplayPort to HDMI adapter. Standard DisplayPort to HDMI adapters are for connecting DisplayPort sources to HDMI displays, not for connecting to DisplayPort displays.

    I have tested this adapter to work up to a maximum of 2560 × 1440 @ 144 Hz:
    https://www.amazon.com/gp/product/B08FCHQXSQ/

    I tested this adapter with an LG 27GL850, using a GeForce GTX 1080. Please note that active adapters tend to be unreliable, and I cannot guarantee the adapter will work on any system.

    For DVI outputs, there are no DVI to DisplayPort adapters capable of 120+ Hz.

    I have a BenQ XL2411Z / Acer GN246HL or another 120+ Hz monitor with no DisplayPort input. What should I do?

    Some 1080p 144 Hz displays, such as the BenQ/Zowie XL2411Z and Acer GN246HL, only have DVI and HDMI inputs, they do not have DisplayPort. Furthermore, the HDMI ports on these monitors are limited to 60 Hz, which means that the Dual-Link DVI port must be used in order to reach 144 Hz on these monitors.

    This can be problematic for people that want to use these monitors with laptops, or with newer graphics cards that don't have native DVI outputs, or want to set up multiple monitors but don't have enough DVI ports. HDMI-to-DVI and DisplayPort-to-DVI passive adapters will not work, because HDMI and DisplayPort only support passive adapters to Single-Link DVI, which has a maximum of 60 Hz at 1080p. A Dual-Link DVI connection is required for 1080p 120+ Hz.

    Please also note that many HDMI-to-DVI and DisplayPort-to-DVI passive adapters will be disguised and falsely advertised as "Dual-Link DVI" adapters, so if you think you've found one, you haven't. HDMI and DisplayPort do not support passive adapters to Dual-Link DVI, they are all Single-Link DVI adapters no matter what they say or what they look like.

    If your computer does not have a native Dual-Link DVI output, then the only other way of getting a Dual-Link DVI connection is with a DisplayPort to Dual-Link DVI active adapter. Please note that not just any DP-to-DVI active adapter will work; it must be a Dual-Link DVI active adapter. There are active adapters which only support Single-Link DVI, intended for multi-monitor configurations on some older AMD graphics cards (detailed here), and these adapters will not work for 1080p 120+ Hz.

    DisplayPort to Dual-Link DVI active adapters tend to be unreliable, and should only be used as a last resort if you have no other method of connecting. If you have not purchased your monitor yet I suggest you do not buy the XL2411Z or GN246HL, but instead get a monitor that has a DisplayPort input.

    I have tested this adapter to work up to 1920 × 1080 @ 144 Hz:
    https://www.amazon.com/dp/B003XYBA72/

    As always, active adapters tend to be finicky and I cannot guarantee that the adapter will behave the same on your system. My testing was done with an AOC G2460PF and a Radeon RX 480 and GeForce GTX 1080.

    Close

    › Active vs. Passive Adapters [Link] Index: What's the Difference? (Preface) Passive Adapters Passive adapter compatibility has nothing to do with analog and digital Passive adapter compatibility has nothing to do with bandwidth Passive adapters are not necessarily limited to the lowest common denominator Do passive adapters add any latency? Do passive adapters reduce image quality? Active Adapters Do active adapters add any latency? Do active adapters reduce image quality? How can I tell if an adapter is passive or active? Which type should I use?

    What's the difference between a passive adapter and an active adapter? (Preface)

    There are a lot of myths and confusion surrounding passive and active adapters, and there seems to be very little understanding of exactly what they are, how they both work, and how to identify them. Hopefully this article will help clear things up.

    First, to make some general points clear since there is a lot of misinformation spread around:

    Passive Adapters: Compatibility is completely arbitrary and is based on how each interface (DVI, HDMI, etc.) is designed. It has absolutely nothing to do with whether signals are digital or analog. Passive adapters are not necessarily limited to the lowest common denominator in terms of bandwidth / feature support, etc.; this depends on the specific interfaces involved. Passive adapters may or may not work in both directions; this depends on the specific interfaces involved (DVI, HDMI, etc.), it does not depend on the adapter itself. Active Adapters: Active adapters may or may not require additional power connectors; some do and some don't. Active adapters may or may not be expensive or bulky; some are and some aren't, usually it depends on the specific interfaces being converted, as some conversions are more complex than others. Any two interfaces can (in theory) be connected with an active adapter, although in practice not every conceivable combination of interfaces has an adapter manufactured for it. Capabilities (maximum bandwidth, feature support such as audio, etc.) are limited to the lowest common denominator; if one of the interfaces doesn't support something, it won't carry through an active adapter. Active adapters may or may not work in both directions; it depends on the specific adapter. The vast majority of active adapters only work in one direction, but it is not impossible for an active adapter to be bi-directional.
    From a technical standpoint, the difference between an active adapter and a passive adapter is in the basic principle of operation. Being able to tell the difference between a passive and active adapter isn't as simple as looking for external features like power cables, bulkiness, or cost. Some active adapters require power cables, but less complex ones can get enough power directly from the port. Some active adapters, like DisplayPort to VGA, can be very inexpensive, compact, reliable, and require no power cables, and for this reason they are often mistaken or mislabeled as "passive adapters". However, these external features are not the criteria which actually define whether an adapter is passive or active.

    So what is the difference exactly? Well...

    There are many different signaling formats, or methods of representing and transmitting the information that makes up a video signal. Each different interface (VGA, HDMI, DisplayPort, etc.) uses a different format; they represent the information in different ways. If you (as a system designer) want your device to be able to communicate information to another device which uses a different format, there are two ways for this to happen. You can design your device to be able to communicate using the other device's format (make it "multi-lingual" in a sense), or you can insert a third-party device between them to convert the information from one format to the other en route (a "translator" if you will). A passive adapter works via the first approach, and an active adapters works via the second approach.

    Passive Adapters

    A passive adapter works via the first approach described in the preface. As it turns out, the ports on your graphics card or laptop or other source device can output signals in multiple different formats. For example, DisplayPort ports are not just limited to sending DisplayPort signals; they can send signals in the HDMI or DVI formats if required. Of course, the only problem is that the DisplayPort port cannot physically morph itself into an HDMI port to allow you to plug in HDMI cables, so this is why the "passive adapter" is needed; the adapter does not do anything at all to the format of the electrical signal, it is just there to change the shape of the port to allow you to plug the correct cable in. When you use a DisplayPort to HDMI passive adapter, the adapter is not "converting" DisplayPort signals into HDMI signals. The electrical signals coming from the DP port are already in the HDMI format, the adapter is just changing the physical shape of the port.

    Since passive adapters don't actually do anything themselves, they will only work for some very specific combinations of ports which have been pre-designed with the ability to communicate in other formats. The table below shows which connections are possible using passive adapters:

    Every Possible Passive Adapter Combination Output Port
    (Computer / Source) Possible
    Output Signals Comments
    DisplayPort → DisplayPort
    HDMI HDMI version/bandwidth dependent on source device and adapter Single-Link DVI Can be connected to Dual-Link DVI ports, but will still be limited to Single-Link speed HDMI → HDMI Single-Link DVI Can be connected to Dual-Link DVI ports, but will still be limited to Single-Link speed Dual-Link DVI-D → HDMI HDMI version/bandwidth dependent on source device and adapter Single-Link DVI Dual-Link DVI Dual-Link DVI-I → HDMI HDMI version/bandwidth dependent on source device and adapter Single-Link DVI Dual-Link DVI VGA VGA → VGA Can be received by either a VGA input port or a DVI-I input port (DVI-I inputs are very rare, most displays have DVI-D inputs, not DVI-I)
    This table is an exhaustive list of all possible connections that can be made using passive adapters between DP, HDMI, DVI, and VGA. If it is not listed above, it is not possible with a passive adapter.

    While output ports can send multiple types of signals, most input ports will only accept signals in their native format. For example, if your display has a DVI-D input, it will only accept DVI signals. This means that you can connect to it from a DisplayPort, HDMI, or DVI output port, because all three of those ports know how to send the DVI signals that the input port requires.

    On the other hand, if your monitor has a DisplayPort input, you can only connect to it from a DisplayPort source. Neither DVI nor HDMI output ports know how to send DisplayPort signals, so they cannot communicate with just a passive adapter. In this case, an active adapter would be required to convert one of the other signals into the DisplayPort format, since DVI and HDMI ports cannot output DisplayPort signals themselves.

    The only type of input port that will accept more than one format is DVI-I, which can accept both DVI and VGA signals. However, it is very rare for a display to have a DVI-I input. Almost all DVI ports found on displays are DVI-D.

    Passive adapter compatibility has nothing to do with analog and digital

    Something important to notice about the table above is that the compatibility between formats has no relation to whether each format is analog or digital.

    DisplayPort outputs are capable of sending DVI and HDMI signals, so a passive adapter can be used to connect a DisplayPort output to a DVI or HDMI input. However, DVI and HDMI outputs are not capable of sending DisplayPort signals, so a passive adapter cannot be used to connect a DVI or HDMI output to a DisplayPort input. Just because "they're both digital" doesn't mean passive adapters can be used.

    DVI-I outputs are capable of sending VGA signals, so a passive adapter can be used to connect a DVI-I output to a VGA input. Just because "one's a digital standard and one's an analog standard" doesn't mean passive adapters can't be used. If your digital standard includes the ability to send analog signals when requested, then it's possible to use passive adapters to an analog standard, and that's all there is to it.

    People imagine that when one signal is digital and the other is analog, this makes it impossible change one to the other without some processing involved, making passive conversion impossible. Meanwhile if they are both digital, they are more closely related and this makes conversion very simple (insert hand-waving here).

    This talk about how easy or difficult it is to convert one signal to another is irrelevant here. Converting one signal to another is what an active adapter does. Passive adapters do not convert any signals. Yes, it is true that it's impossible to convert an analog format into a digital format without any processing. That's because it's impossible to convert ANY format to ANY OTHER format without processing. There is no such thing as "passively converting" a signal. It doesn't matter whether it is analog to digital or digital to digital; ANY kind of signal conversion is impossible without an active adapter, period.

    Passive adapters work because source ports can output video in multiple different formats, so no conversion is necessary. These formats do not have to be related in any way. If you want to know whether or not you can use a passive adapter for a certain format, the answer has nothing to do with the port's other formats.

    For example, if you want to know whether or not DVI ports can support passive adapters to VGA, DVI being a digital format doesn't have anything to do with VGA adapter support, because the DVI format isn't being used when you're using a passive adapter. The correct question is, "are DVI ports capable of sending VGA signals instead of DVI signals?", and the answer is "yes" (well, it's actually "sometimes", since it's an optional feature). Thus, passive DVI to VGA adapters are possible, despite the DVI format itself being digital.

    Likewise, if you want to know whether DisplayPort to VGA passive adapters exist or not, asking "is the DisplayPort format digital or analog" is completely irrelevant, because there aren't any DisplayPort signals involved when a passive adapter is used. The question is "are DisplayPort ports capable of sending VGA signals instead of DisplayPort signals?", and the answer is "no", so DisplayPort to VGA passive adapters are therefore not possible. It has nothing to do with the DisplayPort format being digital—that didn't stop DVI—it's simply that unlike DVI, DisplayPort wasn't designed with the ability to send VGA signals as an alternative.

    There are no rules of thumb, like "digital to digital is possible passively, analog to digital isn't". The compatibility of passive adapters is completely arbitrary and just comes down to what capabilities each video standard was designed with.

    Passive adapter compatibility has nothing to do with bandwidth

    Another surprise to most people is that DisplayPort 1.2 doesn't support passive adapters to HDMI 2.0, or that DisplayPort and HDMI don't support passive adapters to Dual-Link DVI, only to Single-Link DVI. Upon being informed of this, the response is usually something along the lines of "well that doesn't make any sense; they're both digital, and the bandwidth of DisplayPort is greater than Dual-Link DVI / HDMI 2.0, etc. so a passive adapter should work!" But again, this is based on a misunderstanding of how passive adapters work.

    People imagine that a passive DP to DVI adapter is "converting" DisplayPort signals into DVI signals, as if the image is originally sent as a DisplayPort signal and an adapter transforms it into an equivalent Dual-Link DVI signal, which should work because any Dual-Link DVI data stream will "fit" inside a DisplayPort signal since the bandwidth of DisplayPort is greater than that of DL-DVI. This is all very sensible sounding, and is a wonderful description of how an active adapter works, not a passive adapter.

    A passive adapter does not "convert" a signal from format to another. The original signal is sent in the desired format to begin with, and the adapter is just changing the physical shape of the port so that the correct cables can be plugged in. In a DisplayPort to DVI (or HDMI to DVI) passive adapter, the DisplayPort output port is essentially used as a DVI port; all of the pins are used to send the same electrical signals that a DVI port's pins would (more or less). Of course, the DisplayPort port is still shaped like a DisplayPort port and so DVI cables will not fit—that's what the passive adapter is needed for—but electrically it is acting as a DVI port. But a DisplayPort port also only has 20 pins (compared to 19 pins on SL-DVI-D and 25 pins on DL-DVI-D), so it can only send signals that a Single-Link DVI port would send; it is physically impossible for it to send Dual-Link DVI signals in this manner, because it simply doesn't have enough pins to send the same signals that a DL-DVI port would. HDMI ports (which have 19 pins) are also subject to the same restriction; they can only send Single-Link DVI signals, not Dual-Link.

    And again a similar concept applies to DisplayPort to HDMI adapters; many people are perplexed when they discover that DisplayPort 1.2 only supports passive adapters up to HDMI 1.4. "But DP 1.2 has more bandwidth than HDMI 2.0!" Yes it does—but since adapters don't work by "converting" DisplayPort signals into equivalent HDMI signals, it doesn't matter if HDMI 2.0 signals "fit" inside a DisplayPort 1.2 signal. The bandwidth of a DisplayPort signal is irrelevant, because there are no DisplayPort signals involved at all when using passive adapters. The correct question is "do DisplayPort 1.2 ports know how to send HDMI 2.0 signals?", and the answer is no (mainly because DisplayPort 1.2 was published in 2010 and HDMI 2.0 wasn't published until 2013).

    Passive adapters are not necessarily limited to the lowest common denominator

    Another bit of seemingly sensible wisdom which turns out to be not always true is that when using a passive adapter you'll be limited to lowest capabilities of the two interfaces involved. For example, if using a DVI to HDMI adapter, many people will tell you that audio won't work. After all, DVI signals contain no audio, and converting an audio-free signal to the HDMI format won't make audio magically appear. But again, this is based on the idea that an adapter "converts" DVI signals into HDMI signals, so this is information that applies to active adapters, not passive adapters. When using a passive adapter from a DVI source to an HDMI display, the output device detects an HDMI display and sends HDMI signals to it, including audio. Whether DVI signals contain audio or not is irrelevant, because there are no DVI signals involved. The adapter isn't "converting" DVI signals into HDMI signals, the signals are sent in the HDMI format to begin with.

    While it is sometimes true that you'll be limited to the lowest capabilities between the two interfaces, it isn't always true. Check the specific adapter combination you are wondering about using the dropdown interface at the top of this guide.

    Do passive adapters add any latency?

    No.

    Do passive adapters reduce image quality?

    No.

    Active Adapters

    Active adapters use the second approach described in the preface; both the source device and the display send/receive signals in their native formats, but there is a device in the middle (the adapter) which converts the information from one format to the other. Active adapters are required for any combination of ports that isn't possible with passive adapters (as listed above). Active adapters have also been used in some situations historically to circumenvent limitations of passive adapters; for example, some older AMD graphics cards could support up to 6 monitors, but only maximum of two could be using DVI/HDMI signals (including sending DVI/HDMI signals through a DisplayPort port via a passive adapter); the rest had to use native DisplayPort output. DisplayPort to DVI/HDMI active adapters were useful in this case to allow additional DVI/HDMI connections, since the graphics card would send native DisplayPort signals, which were then intercepted by the adapter and converted to the DVI/HDMI format en route.

    Active adapters have a processor which converts between the two formats, so they are more expensive than passive adapters and may require a power cable, depending on the complexity of the conversion. Since active adapters convert information from one format into its equivalent in a different format, they are limited only to the features and capabilities supported by both formats. This means active adapters won't support anything that isn't supported by both sides of the connection, including limitations on maximum bandwidth, audio support, and any other features such as G-Sync or daisy-chaining. In addition, certain active adapters may have their own limitations depending on what the signal processor can handle. For example, many (but not all) HDMI to DisplayPort active adapters are limited to 1920 × 1200 at 60 Hz. Even though both connections can go beyond that, the processor used inside those adapters can’t process data quickly enough to do more than that. For 1440p or 4K resolutions, even more expensive adapters with more powerful processors must be used.

    Active adapters usually only work in one direction. An active adapter that receives a VGA signal and converts it to the HDMI format usually isn’t equipped to receive HDMI signals and turn them into VGA instead. When purchasing an active adapter, read the product description carefully.

    In theory, any signal can be converted to any other signal with an active adapter, so there are no limitations on what can be done if active adapters are involved.

    Do active adapters add any latency?

    Depends on the adapter, but usually they do not add any meaningful amount of latency.

    Do active adapters reduce image quality?

    No. But when converting between two different formats the image quality will only be as good as the worse format.

    How can I tell if an adapter is passive or active?

    Some people think that "active adapter" means it has an additional plug for power, but this is not the case. If an adapter needs a power cable, it is definitely an active adapter, but if it doesn't need a power cable, it could still be either an active or a passive adapter. It is not possible to tell the difference between them by looking at them, because "active" and "passive" aren't defined by any external feature, as explained above. Some active adapters may have conversion circuitry so small that it can be powered from the port and embedded in the cable termination, so that it appears just like any normal passive adapter cable.

    Sometimes it isn't possible to tell whether an adapter is active or passive, but there are some steps you can take to rule out one or the other. Only specific combinations of ports are possible with passive adapters, listed in the table a few paragraphs above. If the adapter you are looking at isn't a type listed on that table, it must be an active adapter (or fake). If it is a combination listed on that table, then it could be either passive or active. Usually the product description will tell you, but if it doesn't, you should generally assume it is passive, because companies don't normally make active adapters for port combinations that can already be done using passive adapters.

    However, there are some exceptions to this. Even though DisplayPort supports passive adapters to HDMI and Single-Link DVI, there are many active adapters also available for these combinations due to restrictions on multi-monitor configurations on some older AMD graphics cards (see here). So DisplayPort to DVI adapters or DisplayPort to HDMI adapters may either be passive or active; reading the product description will usually tell you.

    In addition sometimes active adapters may be required between DisplayPort and HDMI depending on which versions you want; for example, DisplayPort 1.2 does support passive adapters to HDMI, but only up to HDMI 1.4; to get a full HDMI 2.0 connection from DisplayPort 1.2, you need an active adapter.

    More specific information on what combinations are supported with passive adapters can be found by entering a specific combination of ports in the dropdown menus at the top of this guide.

    Which type should I use?

    If a passive adapter is possible for the configuration you want (check using the utility at the top of this guide), then usually you should use the passive adapter. Active adapters tend to be more expensive and less reliable, and only exist for situations where passive adapters won't work.

    Close

    › Active Adapter Requirements for Multi-Monitor Configurations [Link] Certain older AMD graphics cards require a native DisplayPort connection or DisplayPort active adapters to connect more than 2 monitors. This limitation ONLY applies to certain older AMD graphics cards. NVIDIA graphics cards have never had this limitation, and newer AMD graphics cards also no longer have it. DisplayPort / DP active adapters are not required for multi-monitor configurations unless you have one of the AMD graphics cards listed further down.

    Graphics cards with this limitation can still support 3+ monitors, but only a maximum of two may be connected through any combination of the following:
    VGA DVI HDMI Any active or passive adapters from VGA / DVI / HDMI to anything else DisplayPort to DVI / HDMI passive adapters (Please note that the convention for talking about adapters is "<source> to <display>", so for example the term "DisplayPort to DVI adapter" means an adapter that connects a DisplayPort output (PC/laptop/etc.) to a DVI display, not the other way around. Most adapters are not reversible, so a DisplayPort to DVI adapter is not the same thing as a DVI to DisplayPort adapter.)

    If your graphics card has this limitation, then any additional monitors beyond 2 must be connected with one of the following:
    DisplayPort / Mini DisplayPort connection DisplayPort to VGA / DVI / HDMI active adapter
    The following graphics cards are subject to the limitation described above:
    AMD Radeon R7 370 AMD Radeon R7 240, R7 250, R7 250X, R7 265, R9 270, R9 270X, R9 280, and R9 280X AMD/ATI Radeon HD 5000, 6000, 7000, and 8000 series
    Some of these graphics cards, particularly low-end models such as the R7 240, often do not have a DisplayPort output. In that case, it is not possible to set up 3 independent displays.

    The following graphics cards do not support more than 2 monitors at all (regardless of whether DisplayPort or active DP adapters are used):
    NVIDIA GeForce GT 610, GT 620, GT 630 (Fermi version), and GT 705 NVIDIA GeForce GTX 500 series and below ATI Radeon HD 4000 series and below
    Close

    › Do HDMI Cables Have Versions? [Link] Do HDMI cables have versions?

    There are differences between various HDMI cables, but they are not classified by "HDMI version" because that would not be an accurate way of distinguishing the different cable types.

    HDMI cables, for the most part, all have the same internal design, the same wiring layout, etc. There is one exception to that which is the "HDMI with Ethernet" cable; these are wired slightly differently (pin 14, a reserved pin in normal cables, is connected and formed into a twisted pair with pin 19). However, the inline ethernet feature has pretty much never been used in any product, so this distinction can be ignored. "HDMI with Ethernet" cables are still fully compatible with all other HDMI devices and don't affect any other aspect of the connection, so it doesn't matter if your cable is a "with Ethernet" version or not.

    Although HDMI cables all have the same design and wiring, that doesn't mean they will all function identically. Higher resolutions and higher refresh rates both increase the amount of data that needs to be transmitted across the cable, and cables have limits to how much data per second they can handle (bandwidth). As the signaling frequency increases, the signal starts to drop off and becomes more and more difficult to read on the other end, and eventually it will be too degraded to recover the data. Different cables have different limits to how high of a frequency they can transmit reliably, depending on the manufacturing tolerances and length of the cable.

    So in this sense, the quality of a cable does matter, since cables with more tightly controlled manufacturing will be capable of facilitating bandwidth levels beyond what lesser quality cables can handle. However, there is no need to shop for expensive "high-quality" cables hoping to get one that can handle as much as possible. It's worth pointing out the HDMI ports on your devices have limits too, based on the version; For example, HDMI 1.4 ports have a maximum of 10.2 Gbit/s, and HDMI 2.0 ports have a maximum of 18.0 Gbit/s. You won't get more bandwidth than that out of those ports no matter what cable you use, so getting cables that advertise super high bandwidth ("27.0 Gbit/s!") won't give you any benefit compared to an 18.0 Gbit/s cable. As long as the cable is good enough to handle the maximum bandwidth of your ports, there's nothing further to be gained from a better cable.

    To avoid any guessing games as to how much bandwidth a cable can handle, the creators of the HDMI standard have established certifications for cables that have been tested to handle a certain amount of bandwidth. These certification levels are conveniently matched with the maximum limits of various HDMI versions (with the exception of the Standard Speed certification, which is only about half the maximum bandwidth of HDMI 1.0–1.2, but nobody makes Standard Speed HDMI cables anyway).

    HDMI Cable Certification Levels Cable Type HDMI Versions
    Matched With1 Bandwidth
    Tested At Equivalent to (approx.)... Standard Speed HDMI Cable -
    2.2275 Gbit/s 720p @ 60 Hz
    1080p @ 30 Hz
    High Speed HDMI Cable 1.3 10.2 Gbit/s 1080p @ 144 Hz
    1440p @ 75 Hz
    2160p @ 30 Hz 1.3a 1.4 1.4a 1.4b Premium High Speed HDMI Cable 2.0 18.0 Gbit/s 1080p @ 240 Hz
    1440p @ 144 Hz
    2160p (4K) @ 60 Hz 2.0a 2.0b Ultra High Speed HDMI Cable 2.1 48.0 Gbit/s 2160p (4K) @ 144 Hz
    4320p (8K) @ 50 Hz 1 The maximum speed guaranteed by this certification tier is exactly the maximum speed of these HDMI versions
    There are no other classifications for HDMI cables besides those. HDMI cables are only rated by bandwidth because they only affect bandwidth. Feature support, such as 3D, HDR, FreeSync, or audio is not affected by the cable and will work on anything (with the aforementioned exception of Ethernet, which requires an HDMI with Ethernet cable). Since multiple versions of HDMI have the same maximum bandwidth, there is not a separate type of cable for every version. There are no "HDMI 1.3 cables" and "HDMI 1.4 cables" for example. Both of those versions have the same maximum bandwidth, 10.2 Gbit/s, so are therefore both covered by the same type of cable, a High Speed HDMI cable.

    If you have a device or display with an HDMI port of any version between 1.3 and 1.4b, then any HDMI cable with a High Speed certification will handle any signals your devices might send. If you have devices with HDMI 2.0–2.0b ports, then a High Speed HDMI cable may or may not work, since they have only been tested up to 10.2 Gbit/s. That doesn't mean they won't work at 18.0 Gbit/s, it just means it's not guaranteed to. Premium High Speed cables on the other hand have been tested at 18.0 Gbit/s, and therefore are certain to handle anything that comes out of an HDMI 2.0–2.0b port.

    You said some cables can handle more bandwidth than others because the signals don't degrade as much in higher quality cables. But isn't cable quality irrelevant because digital signals are immune to interference?

    All electrical signals are subject to interference, regardless of whether that signal is representing information analagously or digitally. However, if the information is being represented digitally then the signal distortion caused by interference can be corrected, and the final result is no different than if there were no interference in the first place. While this does effectively eliminate the effects of interference, it does not prevent the interference from being there, and if the signal is distorted so much that it is beyond recognition and can't be corrected, then it will suddenly stop working.

    This matters for cables because higher bandwidth formats like 4K 60 Hz will experience worse signal loss than lower formats like 1080p 60 Hz. Therefore, a cable that can reliably transmit 1080p 60 Hz video won't necessarily be able to do 4K as well. The increased signal loss with the higher format may be enough to cross the threshold into being too distorted to recover.

    Aren't the names "High Speed HDMI Cable", "Premium High Speed HDMI Cable", and so forth just meaningless made-up marketing names?

    No, these are official names for the various cable tiers, established directly by the HDMI specification. Refer to HDMI 1.4 page 11, section 4.1.1. The Premium High Speed certification was added in 2015 as a standalone release (here), not part of any of the HDMI specification documents.

    Didn't the HDMI creators say that any High Speed HDMI cable will handle the full 18.0 Gbit/s of the HDMI 2.0 spec? Isn't the whole "Premium High Speed" cable just a made-up marketing thing?

    On the initial release of HDMI 2.0, it is true the HDMI creators did say that existing High Speed HDMI cables would be able to handle the full 18.0 Gbit/s of HDMI 2.0:

    Can existing HDMI cables support the higher bandwidths of HDMI 2.0 Specification?

    Yes, existing High Speed HDMI Cables (wire only) will support the new higher bandwidths (up to 18Gbps).

    Does HDMI 2.0 require new cables?

    No, HDMI 2.0 features will work with existing HDMI cables. Higher bandwidth features, such as 4K@50/60 (2160p) video formats, will require existing High Speed HDMI cables (Category 2 cables).

    However, this has since been shown to not always be true. While many High Speed cables do work fine at the full 18 Gbit/s speed, it is not guaranteed. Some do and some don't.

    The reason most High Speed certified cables still work at 18 Gbit/s is because cables are usually offered in several lengths which are all cut from the same cable stock. Signal loss increases with distance (and conversely, decrease with lower distance), so when cable manufacturers chose cable that can handle High Speed certification requirements at 10 metres, the 2- and 3-metre cuts of that cable will often handle even higher speeds.

    Certifications obtained for one cable are valid for all shorter versions of that cable, so a manufacturer will submit their longest version and obtain a High Speed certification for that entire product line, and may not bother to submit the shorter versions individually to get Premium High Speed certifications for those. Also they usually want you to buy one of their more expensive cables for higher formats like 4K, and so they don't want their lower-end cables to have Premium certifications even though the short versions may be perfectly capable of 18 Gbit/s operation.

    I would recommend reading these articles for more detail:
    https://www.bluejeanscable.com/articles/bad-reasons-to-upgrade-hdmi-cable.htm http://www.bluejeanscable.com/articles/note-about-hdmi-2.htm
    http://www.bluejeanscable.com/articles/premium-hdmi-cable.htm

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    › Is HDMI Limited to 60 Hz? [Link] Is HDMI Limited to 60 Hz?

    No, HDMI is not limited to 60 Hz. Only HDMI 1.0 and 1.1 were restricted to specific formats (which were all 60 Hz and under), but this restriction was removed in HDMI 1.2 (§6.1) all the way back in 2005, and HDMI has not had any hard limit on refresh frequency since then. 720p 120 Hz is in fact explicitly listed in HDMI 1.2 as a supported format (§6.3.2), although at 1080p it was still limited to ≈60 Hz by bandwidth constraints. HDMI 1.3 in 2006 alleviated these bandwidth constraints, increasing it to surpass Dual-Link DVI, and display makers have been free to implement 1080p 144 Hz over HDMI ever since then.

    But I have an ASUS VG248QE / BenQ XL2411Z / Acer GN246HL and it's capped at 60 Hz over HDMI!

    Yes; these and many other 1080p 144 Hz monitors are equipped with HDMI 1.4a inputs, yet are still limited to 60 Hz over HDMI. This is just an unfortunate limitation of those particular monitors, it is not a limitation of the HDMI standard. Other monitors, such as the ViewSonic XG2401, the Nixeus NX-VUE24A, and the AOC G2590PX are also 1080p 144 Hz monitors with HDMI 1.4a ports, and they do accept 1080p 120/144 Hz over HDMI. It's purely a matter of manufacturer's discretion whether they want to implement that capability or not. Sadly, many instead choose to implement HDMI 1.4a with reduced bandwidth, presumably for cost-saving reasons.

    The long and short of it is, some displays support 1080p 120+ Hz over HDMI 1.4, and some don't. It just depends on the display, so you'll need to do some research on whatever product you're considering.

    But if a product doesn't support the full bandwidth of HDMI 1.4a, surely it can't be HDMI 1.4a-compliant!

    Unfortunately it still can. Support for the full bandwidth is not a requirement for a device or control chip to be HDMI 1.4a-compliant. Very few displays (certainly during the peak years of HDMI 1.3/1.4) have specs that can even use the full bandwidth, so it wouldn't make sense to require that all devices wishing to implement any HDMI 1.4 features must use a more expensive control chip capable of the full bandwidth, when virtually none of them have any use for it.

    Isn't the extra bandwidth in 1.4 only used for 3D at 60 Hz per eye, not for normal 120 Hz video?

    No. This is something that people often repeat for some reason, that although 1080p 60 Hz uses less than half the bandwidth provided by HDMI 1.4, that extra bandwidth is apparently only allowed to be used for 3D frame packing. While it is true that 3D is one of the uses for the extra bandwidth, there is no restriction on using it for other purposes, such as standard video transmission at higher resolutions and refresh frequencies. This claim that the extra bandwidth is only allowed to be used for 3D is a bit of a head scratcher when you consider that the bandwidth increase has been there since HDMI 1.3, but the 3D format definitions (such as frame packing) weren't added until HDMI 1.4.

    But if you do meet anyone who insists that the extra bandwidth really is only allowed to be used for 3D, please feel free to ask them which page or section of the HDMI Specification establishes this supposed restriction, I'd be interested to find out. I've never had an answer.

    Wasn't support for 1080p 120 Hz only added in HDMI 1.4b (and therefore not supported in 1.4a and earlier)?

    No. This claim comes from people reading it on Wikipedia but not checking the citation, which was just a youtube video of some random guy saying so. Speaking as someone who has the actual HDMI 1.4/a/b Specification documents on hand, this claim of 1080p 120 Hz support being introduced in HDMI 1.4b is completely false. Nothing was introduced in HDMI 1.4b (see page 3 here), simply minor edits and clarifications to the document itself, which is why you don't generally see "HDMI 1.4b" devices, because technologically it is identical to HDMI 1.4a, just some changes to the wording in the HDMI Specification document.

    1080p 120 Hz has been explicitly listed in the HDMI Specification as a supported format since HDMI 1.4 (§6.3.2), not 1.4b, but even prior to that in HDMI 1.3 or 1.3a it can be implemented as a vendor-specific format which is a perfectly valid approach. Video formats do not require "support" from the HDMI Specification to work, because the word "support" does not mean what most people think it means in this case.

    When the HDMI Specification "adds support" for a certain format, it doesn't mean it in the conventional sense of "adding the capability" as if it wasn't previously possible. They mean it in a more literal sense of adding supporting material to help strengthen it, by defining standardized timings for the format to help with compatibility and ease of implementation instead of leaving it purely to the vendor's discretion.

    This "support" isn't actually necessary to display a format though. Even if a format isn't supported by the HDMI Specification, it can still be displayed through HDMI. 2560 × 1440 for example is not listed in the HDMI Specification either, so it is just as "unsupported" by HDMI as 1080p 144 Hz is, and yet it's implemented over HDMI on hundreds of different monitors. The same can be done with 1080p 144 Hz if manufacturers choose to do so, and they have done so on several monitors as mentioned above.

    Another example of this usage of the term "support" is ultrawide formats; HDMI 2.0 "added support" for the 21:9 ratio, even though ultrawide resolutions were available before HDMI 2.0 even existed and were working just fine over HDMI 1.4a. "Adding support" for 21:9 just meant the HDMI 2.0 spec added material to help establish standardized formats and timings, not that 21:9 formats weren't possible in previous versions, and indeed the majority of ultrawide monitors still use HDMI 1.4a even though it "doesn't support" 21:9 ratio formats, because it doesn't need to.

    Just because "HDMI doesn't support X", this does not mean "HDMI doesn't allow X" or "X won't work over HDMI".

    Citation Needed!!!

    Here's the first sentence of the video section of the HDMI 1.4a Specification:

    HDMI Specification Version 1.4a (2010), §6.1

    6.1  Overview

    HDMI allows any video format timing to be transmitted and displayed. To maximize interoperability between products, common DTV formats have been defined. These video format timings define the pixel and line counts and timing, synchronization pulse positions and duration, and whether the format is interlaced or progressive. HDMI also allows vendor-specific formats to be used.
    "Any video format timing". Am I just taking it out of context and applying it beyond its intended meaning? No. Here's the same section from HDMI 1.1:

    HDMI Specification Version 1.1 (2004), §6.1

    6.1  Overview

    HDMI allows a wide variety of explicity defined video format timings to be transmitted and displayed. These video format timings define the pixel and line counts and timing, synchronization pulse positions and duration, and whether the format is interlaced or progressive.
    In HDMI 1.0 and 1.1, only certain pre-defined formats were allowed (listed in §6.1–6.3; all of them are 60 Hz and under, so HDMI was indirectly limited to 60 Hz by that). In 2005 with the release of HDMI 1.2, that clause was specifically changed to say what it still says today, that any format is allowed. It's quite deliberate.

    HDMI 1.2 was designed to make HDMI more viable for the PC space, by allowing any arbitrary resolution and refresh rate (within the bandwidth limit), as opposed to the strict adherence to only standardized home theater formats required by HDMI 1.0 and 1.1. Although it does still have a list of pre-defined formats (to maximize interoperability between products, as it says), any format which is not explicitly defined in the HDMI Specification may still be implemented as a vendor-specific format.

    HDMI 1.2 also expanded the list of explicitly defined formats itself to include some >60 Hz formats like 720p 120 Hz, so the claim that it or later versions of HDMI impose a flat 60 Hz limit is pure nonsense.

    HDMI Specification Version 1.2 (2005), §6.3.2

    6.3.2  Secondary Video Format Timings
    720(1440)x240p @ 59.94/60Hz 2880x480i @ 59.94/60Hz [...] 1920x1080i @ 119.88/120Hz 1280x720p @ 119.88/120Hz 720(1440)x480i @ 239.76/240Hz 720x480p @ 239.76/240Hz
    However, the maximum bandwidth of HDMI 1.2 was the same as 1.0 and 1.1, so at 1080p it was still limited to 60 Hz due to bandwidth constraints.

    In 2006, HDMI 1.3 increased the maximum bandwidth by over double, enough for up to 144 Hz at 1080p. From this point onwards display manufacturers have been free to implement 1080p 120/144 Hz as a vendor-specific format.

    HDMI 1.4 added 1080p 120 Hz to the list of explicitly defined formats, so it is no longer even necessary for the manufacturer to have to define their own timings for the format:

    HDMI Specification Version 1.4 (2009), §6.3.2

    6.3.2  Secondary Video Format Timings
    720(1440)x240p @ 59.94/60Hz 2880x480i @ 59.94/60Hz [...] 1920x1080p @ 119.88/120Hz 1920x1080p @ 100Hz
    As for 1080p 144 Hz, as before, manufacturers are still free to implement it as a vendor-specific format, and some have done so already.

    If a 1080p 120+ Hz display doesn't support 120+ Hz over HDMI, it's the fault of that display model, not a limitation of the HDMI standard.

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    › Data Rate / Maximum Refresh Frequency Calculator [Link]  Data Rate: Calculate the data rate required at a certain resolution and refresh frequency
     Max. Refresh Frequency: Calculate the maximum refresh frequency of every interface at a certain resolution
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