Rf front-end and mixer, Microcontroller, pll and vco circuits, If amplifiers and saw filters – Lectrosonics SRa Series User Manual

SRa5P and SRa Dual Receivers

LECTROSONICS, INC.

6

RF Front-End and Mixer

Each antenna signal is first passed through a high qual-

ity SAW filter to reject high power RF signals above and

below the operating frequency. A high current amplifier

follows the SAW filters and passes the signal to an in-

ternal splitter so that both antenna signals are available

to both receivers for SmartDiversity™ reception.
The mixer in each receiver takes the signal from the

PLL to generate the first IF signal, with both PLL circuits

fed from a common reference oscillator to maintain

signal phase through the IF sections.

Microcontroller, PLL and VCO Circuits

The 8-bit microprocessor is the “heart” of the SRa5P

and SRa receivers. It monitors user command inputs

from the front panel control buttons and numerous other

internal signals such as RF level, audio levels, pilot tone

levels and transmitter battery status. Outputs from the

microcontroller drive the LCD display and backlight,

control the squelch and audio output attenuator, the

PLL/VCO circuits and the antenna phase switch.

IF Amplifiers and SAW Filters

The first IF stage at 244 MHz employs two state-of-the-

art SAW (surface acoustic wave) filters. The use of two

filters significantly increases the depth of filtering while

preserving sharp skirts, constant group delay, and wide

bandwidth. Though expensive, this special type of filter

allows primary filtering as early as possible, at as high

a frequency as possible, before high gain is applied, to

deliver maximum image rejection. Since these filters are

made of quartz, they are very temperature stable.
After the SAW filter, the 244 MHz IF signal is converted

to 250 kHz in receiver 1 and 350 kHz in receiver 2. Only

then is the majority of the gain applied, just before the

signal is converted to audio with a pulse counting detec-

tor. Although these IF frequencies are unconventional

in a wide deviation (±75 kHz) system, it offers outstand-

ing AM rejection figure over a very wide range of signal

strengths and produces an excellent noise improvement

at low signal strengths.

Digital Pulse Counting Detector

The receiver uses an elegantly simple, yet highly effec-

tive digital pulse detector to demodulate the FM signal,

rather than a conventional quadrature detector. This

unusual design eliminates thermal drift, improves AM

rejection, and provides very low audio distortion.

DSP-Based Pilot Tone

The Digital Hybrid system design uses a DSP gener-

ated ultrasonic pilot tone to control the receiver audio

muting (squelch). Brief delays are applied to eliminate

thumps, pops or other transients that can occur when

the power is turned on or off. The pilot tone frequency

is different for each of the 256 frequencies in the tuning

range of a system (frequency block). This eliminates

squelch problems in multichannel systems where a

pilot tone signal can appear in the wrong receiver via

intermodulation products. The DSP generated pilot tone

also eliminates fragile crystals, allowing the receiver to

survive shocks and mishandling much better than older

analog-based pilot tone systems.

Note: This description applies only in 400 Series

mode. In 200 Series mode, only one pilot tone

frequency is used on all channels, emulating

the original crystal-based system. In other

compatibility modes, no pilot tone is used.

SmartSquelch

™

Any squelching system faces inevitable trade-offs:

squelch too aggressively and valuable audio information

may be lost. Squelch too little and excessive noise may

be heard. Respond too rapidly and the audio will sound

“choppy.” Respond too sluggishly and syllables or entire

words can be cut off.
SmartSquelch

TM

combines several techniques to achieve

an optimal balance, removing distracting noise, without

the squelching action itself becoming a distraction. One

of these techniques involves waiting for a word or syl-

lable to complete before squelching. Another technique

incorporates recent squelching history and recent signal

strength, adjusting squelching behavior dynamically for

the most serviceable result under variable conditions. Us-

ing these and other techniques, the SRa5P and SRa can

deliver acceptable audio quality from otherwise unusable

signals.

Smart Noise Reduction (SmartNR

™

)

Note: The SmartNR setting is user Selectable

only in 400 Series mode. In other modes, noise

reduction is applied in such a way as to emulate

the original analog system as accurately as

possible and is not user adjustable.

The wide dynamic range of digital hybrid technology,

combined with flat response to 20 kHz, makes it pos-

sible to hear the -120 dBV noise floor in the mic pre-

amp, or the (usually) greater noise from the microphone

itself. To put this in perspective, the noise generated

by the recommended 4k bias resistor of many electret

lavaliere mics is –119 dBV and the noise level of the

microphone’s electronics is even higher. In order to

reduce this noise the receiver is equipped with a Smart

Noise Reduction algorithm, which removes hiss without

sacrificing audio high frequency response.
The Smart Noise Reduction algorithm works by at-

tenuating only those portions of the audio signal that fit

a statistical profile for randomness or “electronic hiss.”

Because it much more than a sophisticated variable

low pass filter, the transparency of the audio signal is

preserved. Desired high frequency signals having some

coherence are not affected, such as speech sibilance

and tones.