HDANYWHERE HDMI Extender 2K, 30 Metres, POE, One way IR, HDMI loop out
XTND2K30
HDANYWHERE, HDMI Extenders, HDMI Extenders
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XTND 2K (30m) HDMI extender is our most affordable way for you to increase the distance of a HDMI port on your TV or set top box. It lets you deliver Full HD 1080p video and audio (multichannel or stereo) from your set top box to a TV located up to 30m over a single Cat 6 cable (you can go less than 30m using Cat 5e or slightly more using Cat 7).
The backwards IR kit included with the XTND 2K (30m) HDMI extender means that you're able to control your set top box using its remote control at the TV as per usual, to access all the device's content, recording and menus.... even if it is hidden out of site.
How is the XTND 2K (30m) HDMI extender set up?
One TV is situated beside or close by to your HDMI device / set top box and is connected to the XTND 2K transmitter using a HDMI cable.Your second TV is located up to 30m away from the transmitter and is connected to the XTND receiver, also using a HDMI cable. The XTND transmitter and receiver are connected using a single Cat 5e /6 cable that cannot be longer than 30m. You can either run this Cat cabling yourself, with help from our DIY guide, or choose to have it professionally installed. For more detailed advice, see this product's manual.
(Product Code: XTND2K30P SKU: 2.50.708)
Supports all resolutions up to and inc. Full HD 1080p 60Hz up to 30m |
Supports LPCM 7.1ch, Dolby TrueHD, Dolby Digital Plus and DTS-HD Master audio |
HDMI loop port on TX |
Return IR control channel (RX>TX) |
Uncompressed HDMI TMDS signal transmission |
Fix EDID settings |
Sold as a complete install package, with all IR cabling and mounting kit included |
UK / EU / AU / US multi-territory adapters included |
TX / RX form factor | Lightweight slender aluminium enclosure with integrated mounting wings |
Inputs x outputs | TX HDMI in / RJ45 out / IR 3.5mm jack (out = from RX) RX RJ45 in / HDMI out / IR 3.5mm jack (in = to TX) |
Transmission tech | TMDS |
Video bandwidth | 165MHz / 6.75Gbps |
ESD protection | ± 8kV (air-gap discharge) ± 4kV (contact discharge) |
Device weight | 56g |
Package weight | 500g |
Dimensions (W/D/H) | 78 / 67 / 16 mm (TX and RX) |
Power | 5V/1A DC type connector (US/EU standards, CE/FCC/UL certified) |
Operating temperature | 0°C to 40°C |
Storage temperature | -20°C to 60°C |
Relative humidity | 20~90 % RH (non-condensing) |
Power consumption | 9.5W (max) |
Guarantee | 2 year guarantee |
ControlImprove your multiroom HD smart home experience with the HDanywhere Control app for phone or tablet. Watch TV your way Optimised for all devices |
HDanywhere video distribution systems require a single network cable to be run from each HDTV location, back to a central point.
This article is designed to give you a good overview of the standard of wiring needed for HDMI distribution systems.
Currently you can use Cat5e, Cat6, Cat6e, Cat6a, Cat7 or Cat7a with HDanywhere HDMI Distribution products.
The baseline cable standard for HDanywhere systems is Cat5e. Slightly greater distances can be achieved by using Cat6, or slightly better still with the Cat7, which have thicker copper cores for easier signal transfer.
DO NOT USE COPPER CLAD ALUMINIUM (CCA) Cat 5/6/7 CABLE FOR HDMI Distribution.
Whichever network cable type you choose, ensure that the main wiring architecture is ‘solid core’, not stranded ‘patch’ cabling. Patch cabling can be used for the last few metres of a run (say from a wallplate) but should be avoided over the longer runs as signal transfer over stranded cores is heavily reduced.
The use of pre-made leads is not recommended unless you can be absolutely sure of their construction credentials (i.e. solid core 568B)
Unlike other systems, shielded FTP cable is not a stipulation. If however you preferred this type of cable please ensure compatible shielded accessories are used. Failure to terminate cable screen at all points can induce interference rather than eliminating it.
Best practice advice is to always use a straight piece of cable terminated directly at the matrix and the receiver ends.
The use of wallplates and patch panels always has the potential to cause increased resistance on the cable, introducing ‘pinch points’ for signal transmission and could reduce advertised transmission lengths.
TIP – instead of using RJ45 wallplates, use brush plates instead to maintain the neat finish. A search for “brush plates” will yield many results.
Terminate the cabling using RJ45 connectors to the 568B wiring standard (shown below).
Check that the Cat cable is not bent, knotted, kinked or distorted in any way that would prevent these high frequency signals from traveling throughout the intended length.
Also, ensure that the cables as far away from potential sources of EMI (Electro-Magnetic Interference) such as electrical cables, transformers, light fixtures, etc.) as possible. Cables should maintain a 300mm separation from power cables.
Try re-terminating the RJ45 connectors again, making absolutely sure that every termination is perfect. Ensure that the RJ45 connectors are fully inserted and click locked into place firmly and securely to ensure perfect connector connection
DO maintain the twists of the pairs as close as possible to the point of termination, or no more than 13mm untwisted.
DO make only gradual bends in the cable where necessary to maintain the minimum bend radius of 4 times the cable diameter or approximately 30mm radius.
DO use low-to-moderate force when pulling cable. The standard calls for a maximum of 34 N-m (newton-metres of force).
DO use cable pulling lubricant for cable runs that may otherwise require great force to install. (You will be amazed at what a difference the cable lubricant will make)
DO keep Category cables as far away from potential sources of EMI (Electro-Magnetic Interference) such as electrical cables, transformers, light fixtures, etc.) as possible. Cables should maintain a 300mm separation from power cables.
DON’T allow the cable to be sharply bent, twisted, or kinked at any time. This can cause permanent damage to the geometry of the cable and cause transmission failures.
DON’T over-tighten cable ties or use plastic ties.
DON’T EVER splice or bridge Category cable at any point.
DON’T use excessive force when pulling cable.
DON’T use oil or any other lubricant not specifically designed for Category network cable pulling as they can infiltrate the cable jacket, causing damage to the insulation.
DON’T tie cables to electrical conduits, or lay cables on electrical fixtures
DON’T install cables taut. A good installation should have the cables loose, but never sagging.
DON’T use staples on Category cable that crimp the cable tightly. The common T-18 and T-25 cable staples are not recommended for Category cable. However, the T-59 insulated staple gun is ideal for fastening both Category and fibre optic cabling, as it does not put any excess pressure on the cable.
DON’T use patch cords (cables) or punch down blocks.