Junger Audio d07 - Digital Transmission Processor User Manual

B 7 FM-Transmission d07

Pre-Emphasis

Increase of high frequencies to enhance the signal to noise ratio for FM
transmission equals to a time constant of a high pass filter of 50

µ

s in Europe and

75

µ

s in America. It will be laterally reversed at the receiver end. This value does

not comply with todays spectrum of audio signals. But it is not possible to change it
because of the innumerable receivers. Therefore modern audio signals may easily
over drive an FM transmitter, causing nasty interferences.

Adaptive Pre-Emphasis

Function of the d07 that makes it possible to dynamically accommodate the level of
an audio signal to the high frequency boost of an FM transmitter. The effect is that
over driving by high frequency signal components in critical programs will be
avoided (s.a. pre-emphasis).

MPX-Spektrum

38

23

19

15

53

Differential signal

(L - R) = S

Auxiliary carrier

- pilot ton -

Illustration of base band spectrum of a MPX signals

Frequenz
in kHz

Compatible monaural signal

(L + R) = M

Spectrum of
MPX signals

Double sideband

suppressed carrier

power of the M - signal

proportional to the square of the

amplitude of the M-signal

P

M

~ M

2

power of the (-S) - signal

proportional to the square of the

amplitude of the (-S) - signal

P

-S

~ (-S)

2

57

76

RDS
(Radio Data System)
auxillary carrier

DARC
(DAta Radio Channel)
auxcillary carrier

power of the (+S) - signal

proportional to the square of the

amplitude of the (+S) - signal

P

-S

~ (+S)

2

MPX-power

Overall power of the Multiplex signal from the sum of components of the MPX
spectrum :

Monaural signal (M=L+R)/2

30Hz

to

15kHz base band

Auxiliary carrier

19kHz

approx 9%

of overall power

Double side band suppressed 23kHz to

38kHz lower side band

carrier modulation

(S=L-R)/2

38kHz to

53kHz upper side band

RDS signal

DARC signal