pbl385411so-t ETC-unknow, pbl385411so-t Datasheet - Page 7

pbl385411so-t

Manufacturer Part Number

pbl385411so-t

Description

Universal Speech Circuit

Manufacturer

ETC-unknow

Datasheet

1.PBL385411SO-T.pdf (14 pages)

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Figure 9. Microphone amplifier output clipping.

Transmitter amplifier

order to prevent the transmitted signal to exceed a certain set level and cause distortion. The second stage amplifies further the signal

from the first and adds it to a DC level from an internal DC-regulation loop in order to give the required DC characteristic to the telephone

set. The output of this stage is TO. The third stage is a current generator that presents a high impedance towards the line and has its

gain from TO to +L. The gain of this amplifier is ZL/R6 where ZL is the impedance across the telephone line. Hence, the absolute

maximum signal amplitude that can be transmitted to the line undistorted is dependent of R6. (amplitude limiting)

for cutting the high end of frequency band is best to be placed directly at the microphone where it also will act as a RFI suppressor.

The input signal source impedance to the transmitter amplifier input TI should be reasonably low in order to keep the gain spread down,

saying that R4//R5 (see fig. 4) must be at least a factor 5 lower than the ZTin. Observe that the capacitor C1 should have a reasonably

good temperature behaviour in order to keep the impedance rather constant. The V+C´s influence on the transmitter DC-characteristic

is shown in the fig.8 (DC-characteristic), therefore the transmitter gain would change if the transmitted signal gives reason to an ac-

voltage leak signal across C1 since this is a feedback point. If the transmitter has an unacceptable low sving to the line at low line

currents < 10mA the first step should be to examine if the circuits DC characteristic can be adjusted upwards.

385 41

PBL

The transmitter amplifier in PBL38541 consists of three stages. The first stage is an amplitude limiter for the input signal at TI, in

The transmitter gain and frequency response are set by the RC-network between the pins 11 and 3. See fig.11. The capacitor

How to calculate the gains in the transmitter channel.

See fig. 2 and 4.

Microphone amplifiers first stage 19 dB.

Microphone amplifiers regulated second stage 10.5 dB - 15.5 dB

Regulation interval 10.5 - 15.5 dB

RM = Microphone amplifier input resistance

ex. calculate the gain of the transmitter stage GTX at 0 - line length:

43 20 log(

load

= R

11.52 dB

2.51 29.5 9.17 G

line

mic

constant

current

generator

// R

350

telephone

(1.7 / /2.7)k

DC-

load

DC-load = R4+R5

AC-load = R4+R5//Z

AC-

load

) 29.5 20 log(

13.66

a diode

ref. minus

( ref.

load

1.2V )

0.5V

high gain 19.0 + 15.5 dB = 34.5 dB

low gain 19.0 + 10.5 dB = 29.5 dB

18k

Figure 10. Microphone solutions.

(17 / /22)k

(a)

(c)

Balanced electret microphone.

An additional RC filterlink is

recommended if pin 4 is used

as a supply.

microphone

Dynamic

PBL 385 41

) G

20 log(

(b)

600 / /910

Pin 8 or9.

(d)

PBL 385 41

Unbalanced electret

mic. with balanced

signal, DC-supply from

pin 4.

Balanced electret

microphone

PBL 385 41

)

pbl385411so-t ETC-unknow, pbl385411so-t Datasheet - Page 7

pbl385411so-t

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