General technical description, Frequency agile plug-on uhf transmitter, General – Lectrosonics UH200d User Manual

Frequency Agile Plug-on UHF Transmitter

GENERAL TECHNICAL DESCRIPTION

The UH200D transmitters are comprised of a number of func­
tional subsystems as shown in the block diagram below.

GENERAL

The 200 system uses 75kHz wide deviation for an extremely high
signal to noise ratio. The transmitter circuits are all regulated to
allow full output power from the beginning (9 Volts) to the end
(6.5 Volts) of battery life. The input amplifier uses an ultra low
noise op amp. It is gain controlled with a wide range input
compressor which cleanly limits input signal peaks over 30dB
above full modulation.

DUAL BAND COMPANDOR

Traditionally, compandors have been a source of distortion in
wireless microphone systems. The basic problem with conven­
tional 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 200 system introduces an entirely new approach
to solving this basic problem, called “dual-band companding.”

There are actually two separate compandors in the 200 system,
one for high frequencies and one for low frequencies. A cross­
over 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
compandor are fast enough to keep high frequency transient
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.

NO PRE-EMPHASIS/DE-EMPHASIS

The signal to noise ratio of the 200 system is high enough to
preclude the need for conventional pre-emphasis (HF boost) in
the transmitter and de-emphasis (HF roll off) in the receiver. Pre-
emphasis 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 complementary manner or else the
frequency response of the original audio signal will be altered.

Pre-emphasis can also cause distortion in the receiver. As this
signal is passed through the IF filters in the receiver, distortion

POWER

+9VDC

TRANSMITTER

Vref

BASS

TREBLE

LP FILTER

HP FILTER

SET
LED

LIMIT

LED

COMPANDOR

Vreg

Vreg

+5VDC

+3.6VDC

SHUNT

LIMITER

INPUT

AMP

AUDIO
LEVEL

LP

FILTER

PEAK AUDIO

INDICATOR &

LIMITER

DRIVER

COMPANDED AUDIO

TO XMTR

PWR

LED

COMPANDED

AUDIO

PHASE LOCKED LOOP

VOLTAGE

CONTROLLED

OSCILLATOR

FREQ

SWITCHES

DIVIDER

LOW PASS

FILTER

PRESCALER

INPUT

JACK

+5V / +15V / +48V
BIAS SUPPLY

BUFFER

50

ISOLATOR

48V

5V

15V

BIAS

TO INPUT JACK

PILOT

TONE

OSC

can be produced, most noticeable at full modulation. De-empha­
sis cannot be applied until the signal is converted into audio, so
there is no way around this problem short of eliminating pre-
emphasis altogether. Neither of these problems occur in the 200
system. The dual-band compandor in the 200 Series system
essentially provides a dynamic pre-emphasis/de-emphasis func­
tion with extremely low distortion.

PILOT TONE SQUELCH

The 200 system utilizes an ultrasonic tone modulation of the
carrier to operate the receiver squelch. This “pilot tone” consists
of a 32kHz signal mixed with the audio signal after the compandor,
to control the audio output muting of the receiver. The pilot tone
is filtered out of the audio signal immediately after the detector in
the receiver so that it does not influence the compandor or
various gain stages. The basic benefit of the pilot tone squelch
system is that the receiver will remain muted until it receives the
pilot tone from the matching transmitter, even if a strong RF
signal is present on the carrier frequency of the system. This is
extremely important in applications that include an automatic
microphone mixer.

WIDE-BAND DEVIATION

±75kHz deviation improves the capture ratio, signal to noise ratio
and AM rejection of a wireless system dramatically, compared to
the more commonly used ±15kHz deviation.

LONG BATTERY LIFE

High efficiency circuits throughout the design allow over 4.5
hours of operation using a single 9 Volt alkaline battery. (A 9V
lithium battery will provide over 12 hours of operation.) The
battery compartment is a unique mechanical design which auto­
matically adjusts to fit any brand of battery. The battery contacts
are spring loaded to prevent “rattle” as the unit is handled. The
battery life will be affected by the amount of phantom power
supplied to any microphones that require it. A high drain 48 Volt
microphone can shorten battery life by 40% or more. A light drain
15 Volt microphone will make little or no difference in battery life.
The only way to be sure is to test the transmitter and microphone
combination with a brand new battery; then and only then will you
be sure of the combination's battery life.

FREQUENCY AGILITY

The transmitter section uses a synthesized, frequency selectable
main oscillator. The frequency is extremely stable over a wide
temperature range and over time.

Two rotary switches, located
on the side panel of the unit,
provide 256 frequencies in
100kHz steps over a 25.5MHz
range. This alleviates carrier
interference problems in mo­
bile or travelling applications.

UH200D Block Diagram

Rio Rancho, NM – USA

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