No pre-emphasis/de-emphasis, Pilot tone squelch, Input limiter – Lectrosonics UM400 User Manual

Frequency-Agile UHF Belt-Pack Transmitter

No Pre-Emphasis/De-Emphasis

The signal to noise ratio of the 400 system is high

enough to preclude the need for conventional pre-em­

phasis (HF boost) in the transmitter and de-emphasis

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

phasis in an FM radio system usually provides about

a 10 dB 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 can be produced, most noticeably at

full modulation. De-emphasis 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 400

system

Pilot Tone Squelch

The 400 system uses one of 256 different ultrasonic

tones between 25 and 32 kHz, that modulate the car­

rier to operate the receiver squelch. The pilot tone fre­

quency is chosen according to which of the 256 chan­

nels has been selected by the frequency switch setting.

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 sys­

tem. The UM400 extends this concept even further by

insuring that all transmitters in a system have different

pilot tone frequencies so that even spurious RF from

the wrong transmitters can’t open the receiver squelch.

Input Limiter

The 400 series transmitters employ a digitally-controlled

analog audio limiter just before the analog-to-digital

converter. The limiter has a range of more than 30 dB

for excellent overload protection. A dual release enve­

lope makes the limiter acoustically transparent while

maintaining low distortion. It can be thought of as two

limiters in series, connected as a fast attack and release

limiter followed by a slow attack and release limiter. The

limiter recovers quickly from brief transients, so that its

action is hidden from the listener, but recovers slowly

from sustained high levels, to both keep audio distortion

low and preserve short term dynamic changes.
The audio level LEDs indicate limiter activity. The first

red LED indicates that the limiter is active and that the

transmitter is fully modulated (audio level is between +0

and +10 dB). The second red LED indicates that the

level is 10 dB or more into limiting. Occasional forays

into the red are desirable for most applications, since

the distortion introduced by the limiter is so minimal,

and full modulation is thus assured. We strongly recom­

mend setting the gain of the transmitter high enough so

that the first red LED occasionally lights.
Generally speaking, some limiting is desirable in normal

operation to improve the signal to noise ratio of the

system. The limiting action is not audible and does not

create distortion. A highly trained ear would hear only

the compression of the peaks in the audio signal, which

is desirable with most recorders and many sound rein­

forcement systems.

Wide-Band Deviation

± 75 kHz deviation improves the capture ratio, signal to

noise ratio and AM rejection of a wireless system dra­

matically, compared to the more commonly used ±15

kHz deviation.

Long Battery life

Switching power supplies throughout the design al­

low over five hours of operation using a single 9 VDC

alkaline battery. (A 9 V lithium battery will provide over

10 hours of continuous operation.) The battery con­

tacts are spring loaded to prevent “rattle” as the unit is

handled.

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 100 kHz steps over a

25.5 MHz range. This alleviates carrier interference

problems in mobile or traveling applications.

Antenna

The antenna on the UM400 consists of a flexible 1/4

wavelength galvanized steel cable, detachable via an

SMA connector. The impedance of this connector is 50

Ohms.

Rio Rancho, NM