Vision TC-HDMI-IP User Manual

The TC-HDMIIP converts HDMI signal into TCP/IP packets for transmission over a standard LAN network. With no
visible loss of video quality it is perfect for corporate and digital signage applications. Each receiver on a
network uses a compact 18Mbps bandwidth thanks to the H.264 compression.

Digital Signage HDMI­over-IP

TC-HDMIIPTX EU SAP: 4234190 US SAP: 12939504 TC­HDMIIPRX EU SAP: 4235162 US SAP: 12939505

visionaudiovisual.com/tc-hdmiip

Distributes HDMI via a network, H.264 compression
One-to-One directly or One-to-Many over LAN
IR Pass-through

Scalable

Transmitters and receivers sold separately so you can scale your system as you wish.

One to Many

Need to display one source on many screens? This product is perfect! It multi-casts, so
you can have one transmitter for the source, and up to 253 x receivers can set on the
network – one for each display. Only one transmitter per network.

Point to Point without LAN

Connect one transmitter directly to a receiver and completely bypass a network. This will
work with a standard CAT6 cable up to 120m (394 ft) long, or 150m (492 ft) on a high
quality cable.

Maximum Length

If using a LAN the signal will be repeated by each node on the network, resulting in
unlimited length.

Resolution

Fully HDCP 1.2 compliant, it supports resolutions up to 1920 x 1080 (also known as
1080P).

Audio

Digital audio encoded on the HDMI signal is transmitted.

IR Pass-Through

Control the source device from the display with the IR pass-through. An IR blaster and
receiver cable is included, and it supports standard 20-60kHz IR signals.

Plug and Play

EDID (extended display identification data) is automatically passed through. Just connect
everything together and it will work immediately.

EQ-Free

The signal passes through a network without the normal skew and balancing distortion.

H.264 Compression

Video is compressed using the H.264 protocol – the same type of compression used on
Blu-Ray. Images are full colour with smooth motion.

LAN Protocols

Despite using the standard IP protocols you don’t need to be a network engineer. All end
points must be on the same subnet… that’s all you need to know. For best results use a
stand-alone network for this system.

Dual-Power

This product requires a power supply for each transmitter and receiver. It does not use
PoE.

Unmanaged Switch

Many video-over-IP solutions require a managed switch so that IGMP snooping can be
enabled, but in this case no advanced switch setup is required, so a low cost unmanaged
switch can be used.

Multiple Sources

If you need more than one source to be distributed over one physical LAN you can use
Virtual LANs to separate the topologies. The systems are kept separate and cannot be
used as a matrix. A DHCP switch assigns IP addresses to each end point and is used to
create the vLANs.