614-638 MHz, G: 566-608 MHz
Includes Complete System
Lavalier Wireless Mic System
The Sony Integrated Digital Wireless Bodypack Lavalier Microphone System (UHF Channels 30/36 and 38/41: 566 to 608 & 614 to 638 MHz) features all-metal construction, easy to read LCD displays, a wide switching RF bandwidth, USB power and charging, automatic channel scanning, infrared synchronization between transmitter and receiver, Mic/Line switchable input on the bodypack transmitter, a true diversity receiver, PLL-synthesized tuning, a headphone output on the receiver, output gain controls on the receiver for optimizing the input level into a camera and digital companding circuitry. The package is suitable for a wide range of wireless applications such as ENG, documentary work, talk shows, conferences and more.
The system is referred to as integrated digital because the transmitter and receiver utilize DSP for digital companding and expanding of the transmission signal. Performing the companding and expanding processes in the digital domain improves the accuracy and transient response of the received audio.
The camera-mountable receiver features true-diversity technology which stabilizes reception and minimizes RF interference by using dual antenna input/reception circuits and selecting the strongest incoming signal. The angle of the antennas is also adjustable to improve reception when the receiver is mounted on top of a camera or camcorder. The system utilizes UHF Phase Locked Loop (PLL) synthesis to lock the phase of the transmission frequency between transmitter and receiver. The receiver can automatically search for an available transmission frequency and link the desired frequency to the transmitter via infrared connection.
A stereo mini-jack output with monitor volume control is included and both stereo mini and stereo XLR cables are provided. The unit also includes a headphone monitor output for use with cameras and camcorders that don't have a monitor output. An LCD display provides channel and frequency information, battery life, RF-input level, audio-output status and accumulated operating time.
For power, the receiver operates on two AA batteries for up to 6 hours, or on 5 VDC of USB power over a USB micro B cable. The USB connection can also be used to recharge Ni-MH rechargeable batteries within the battery cartridge. The receiver's compact design and included shoe-mount adapter allows easy mounting to most camcorders and interchangeable lens system cameras.
The improved bodypack transmitter features a mic- and line-level switch for standard wired microphone or line-level sources. Selectable transmission output power provides a choice between 5mW output, which is suitable for simultaneous multi-channel operation, or 30mW output for long distance transmission.
The transmitter can operate for up to 8 hours on two AA-size alkaline batteries, be powered or recharged via USB micro B connection and features a comprehensive LCD display.
The system comes with an omnidirectional lavalier microphone, a windscreen for the microphone, a microphone holder clip, two belt clips, a shoe-mount adapter, a 3-pin mini to mini stereo cable and a 3-pin mini to XLR cable. Optional accessories such as a battery case and soft case for the receiver are sold separately.
PLL Synthesized System
This system is used in both the transmitters and tuners, so that a stable carrier is generated at the transmitter and accurately tuned in at the tuner. This PLL-controlled system provides highly stable, user-selectable frequencies in increments of 125 kH.
Space Diversity Reception System
By utilizing a space-diversity reception system, it achieves stable reception by using dual-antenna inputs/reception circuits. These receive signals over two different paths and automatically select the stronger RF signal for output
Tone Squelch Circuitry To avoid picking up carrier signals transmitted from other systems, the transmitter transmits a pilot-tone signal along with the audio signal. The tuner's squelch circuit recognizes this tone signal and outputs the audio signal only when this tone signal is received
Simultaneous Multi-Channel Operation
Optimum combinations of practically tested, interference-free frequencies are stored in the tuner. By using the pre-programmed frequency groups, users can easily choose interference-free frequencies for the transmitters and tuners, simplifying the task of system setup.