Wireless Video TX/RX Kit Product

Overview

A wireless video transmitter solves a fundamental problem in broadcast: getting a video signal from a camera to the production truck when running cable is impractical or impossible. A roaming camera operator on a convention floor, a reporter covering a fire, a camera shooting from a boat—they all need to send video back to the studio in real time without 300 meters of SDI cable trailing behind them. A wireless video link takes the [[wireless-tx-encoder-unit|transmitter]], mounted on the camera or carried in a backpack, encodes the SDI video into H.264 (a compressed format), modulates it onto an RF carrier wave at a licensed or unlicensed frequency (like 2.4 GHz or a microwave band), and radiates it to a [[wireless-rx-decoder-unit|receiver]] on the studio roof or production truck. The receiver demodulates the signal, decodes the H.264 back to SDI, and feeds it into the production switcher as if the camera were wired.

The tradeoff is compression: H.264 codec introduces some latency (delay) and visual artifacts if the bitrate is too low. Modern wireless video links keep latency under 200 milliseconds so the studio director can see the action nearly live, and the bitrate is tunable from 20 to 100 Mbit/s depending on whether quality or range is more important.

How it works

The camera outputs SDI video at (typically) 1080i or 1080p, 59.94 fps. The H.264 Encoder PCB receives the SDI signal via a [[wireless-tx-sdi-input|dedicated input receiver]], which decodes the serial digital interface format and presents the pixel data to the [[wireless-tx-h264-chip|H.264 codec]]. The codec compresses each frame using temporal prediction (looking at the previous frame to encode only the differences) and spatial transform coding (DCT, similar to JPEG), achieving 20–100:1 compression at broadcast quality.

The compressed bitstream is then packetized and fed to the RF Transmitter Module. The [[wireless-tx-modulator|modulator]] converts the digital bitstream into an analog waveform using QAM or PSK (quadrature amplitude modulation or phase-shift keying), modulating it onto an RF carrier at the selected frequency (say, 5.8 GHz, a common unlicensed ISM band). The [[wireless-tx-power-amp|power amplifier]] boosts the signal to the legal transmission power—often 1 watt or less in unlicensed bands—and the [[wireless-tx-output-filter|output filter]] removes harmonics, preventing interference with adjacent channels.

The [[wireless-tx-antenna|transmit antenna]], typically a Yagi or omnidirectional element mounted above the camera operator, radiates the RF signal. The studio receiver has a [[wireless-rx-antenna|receive antenna]], often a directional dish pointed at the camera location. The [[wireless-rx-lna|low-noise amplifier]] in the RF Receiver Module preamplifies the tiny received signal (often in the microvolt range), and the [[wireless-rx-downconverter|downconverter]] shifts the high frequency down to an intermediate frequency (IF) where it is easier to demodulate and filter.

The [[wireless-rx-demodulator|demodulator]] recovers the digital bitstream from the RF signal and passes it to the [[wireless-rx-h264-chip|H.264 decoder]], which unpacks the compressed video back into full-resolution frames. The [[wireless-rx-sdi-output|SDI output driver]] sends the decoded video as SDI to the production switcher, appearing to the director and operator exactly like a wired SDI camera.

Latency and synchronization

The total latency from camera to receiver is the sum of encoding delay (typically 40–80 ms), RF propagation time (negligible for short range), and decoding delay (typically 40–100 ms). This 80–180 ms delay is usually acceptable for live TV: the director sees the action only slightly delayed, and the lip-sync between the [[wireless-tx-encoder-card|compressed video]] and audio piped separately from the camera or from a wireless microphone is tolerable. For fast-cut content or interactive shows where the director needs to react instantly, operators prefer lower latency, and some professional systems advertise 50 ms "class C" latency.

The [[wireless-sync-module|synchronization module]] is critical: it recovers the timing reference from the incoming SDI video (SAV/EAV markers in the SDI stream) and locks the receiver's video output to the studio's genlock reference. Without sync, the receiver's output will slowly drift relative to the studio's other cameras, and the production switcher cannot cut between them smoothly.

Diversity and antenna placement

In urban environments or through buildings, radio signals bounce off metal and concrete, creating multipath fading: the signal received at the antenna is a sum of the direct path and many reflected paths with different delays and phases, causing dropouts. The [[wireless-rx-diversity-combiner|diversity combiner]] uses two [[wireless-rx-antenna-element|receive antennas]] spaced several wavelengths apart; if one antenna is in a null (destructive interference point), the other usually is not, so the combiner switches between them or weighs them to maintain signal. This is why professional wireless video receivers have two antenna connectors.

Frequency coordination and licensing

In many countries, wireless video transmission requires a license. In the United States, video production companies must coordinate with the FCC and other users on a shared frequency to avoid interference. Unlicensed bands like 2.4 GHz and 5 GHz are available but congested (WiFi, Bluetooth, cordless phones all use them). SHF (super-high-frequency) licensed bands at 2300–2500 MHz or 5600–5800 MHz offer better reliability for professional broadcast because the regulatory agency guarantees exclusivity in a geographic area, and the higher frequency allows smaller antennas and more directional transmission.

Practical deployment

In a news assignment, a wireless video transmitter is typically mounted on the camera via the [[wireless-tx-mounting-block|hot-shoe bracket]], with the Transmit Antenna on a 3-meter pole held by the camera operator or boom operator. The operator points the antenna at the known location of the receiver (usually on the news truck 500 m away), and the [[wireless-tx-frequency-knob|frequency and power]] are preset by the chief engineer before the day starts. The [[wireless-tx-battery-pack|battery]] in the transmitter powers the system for a typical 4–6 hour newscast. If the signal is weak (shown by the signal strength meter on the Receiver Control Panel), the operator can adjust antenna angle, move closer, or switch to a different frequency if more than one is available.