General technical description, Features, Dual band compandor – Lectrosonics UCR100 User Manual

UCR100

LECTROSONICS, INC.

4

General Technical Description

Features

The multi-frequency UCR100 FM Receiver is designed

to operate with the Lectrosonics UM100 Transmitter and

features microprocessor control of 256 frequencies of

operation within each frequency block. Each block cov-

ers 25.5 MHz with 0.1 MHz frequency spacing. Any one

of ten different frequency blocks are factory available

from 537.6 MHz to 805.5 MHz (except 608 to 614 MHz).
The receiver’s unique microcontroller design provides

simple operation for audio level/limit LED monitor-

ing, RF level LED monitoring, squelch, easy on-the-fly

frequency programming and low battery warning. The

UCR100 Receiver uses 20 kHz FM deviation for ef-

ficient use of the bandwidth and dual band companding

for clean quiet audio. The receiver operates on one 9

Volt alkaline battery for up to 8 hours and features a

blinking LED low battery indicator. The voltages are

internally regulated for stability. The receiver is housed

in a compact, rugged, lightweight aluminum enclosure.

The unit features a durable integral swing-aside battery

compartment door.

Dual Band Compandor

Traditionally, compandors have been a source of distor-

tion in wireless microphone systems. The basic problem

with conventional systems is that the attack and decay

times are always a compromise. If the time constants

are fast, high frequency transients will not be distorted,

but this will cause low frequency distortion. If the time

constants are slower, low frequency audio distortion

will be low, but high frequency transients will then be

distorted.

The 100 system introduces the proven Lectrosonics ap-

proach to solving this basic problem, called “dual-band

companding.”
There are actually two separate compandors in the 100

system, one for high frequencies and one for low fre-

quencies. A crossover network separates the frequency

bands at 1kHz with a 6dB per octave slope, followed

by separate high and low frequency compandors. The

attack and release times in the high frequency com-

pandor are fast enough to keep high frequency tran-

sient distortion at a low level, and the low frequency

compandor uses slower time constants, reducing low

frequency distortion to well below that of a conventional

compandor.

Pre-Emphasis/De-Emphasis

The signal to noise ratio of the 100 system is extended

by utilizing pre-emphasis (HF boost) in the transmitter

and de-emphasis (HF roll off) in the receiver. Pre-em-

phasis and de-emphasis in an FM radio system usually

provides about a 10dB improvement in the signal to

noise ratio of the system, but the high frequency boost

in the transmitter must be removed in a purely comple-

mentary manner or else the frequency response of the

original audio signal will be altered.
The dual-band compandor in the 100 Series system

essentially provides a dynamic pre-emphasis/de-em-

phasis function with low distortion.

UCR100 Block Diagram