PBL3853 查看數據表（PDF） - Ericsson

零件编号

产品描述 (功能)

比赛名单

PBL3853

Universal Speech Circuit

Ericsson  

PBL 3853

capacitor to ground if the input tends to

pick up noise. This input can also be

used as a second input to the transmitter

(in-impedance approx. 8 kΩ, gain

depending on the arrangement at pin 3)

used for ex. DTMF tones.

If there is with passive impedance still

extra margin in current (more that 4 mA

+ 1.3 mA = 5.3 mA) then it is possible to

increase the current through R12 versus

current through R13 by making the R12

go towards 0. The whole transmitting

current would go through pin 1 to the line

and the charge current for VDC would

be set by a diode voltage drop across

R13 which would make the current that

can be taken out from VDC constant,

regardless the line current. (assuming

that the line current is high enough) The

lowest current for such a circuit is, if no

more current is taken out of the VDC

than what is needed for the earphone

amplifier: 540 mA into pin 4 plus 600 mA

supply current into pin 1 plus 6.7 mA

transmitting current to give 2 Vp signal

+line

CA

0.1µF

1k

CB

22n

-line

18

4

RC

RE

6

10 M

RD

14

"Softclipping" for PBL 3853, rest as in Fig 4.

Figure 22.

across 300 Ω load (600 Ω line parallel

with 600 Ω output impedance of the

circuitry) plus 0.8 mA to VDC and pin 18

in order to get 0.6 Vp across 350 Ω

earphone (according to the test circuit)

the sum is 8.6 mA line current, or for

0.4 Vp across 150 Ω earphone the sum

being 8.8 mA line current. The rest of

the available line current can be utilized,

by decreasing R13, to charge VDC. In

this manner simplified circuit should be

adapted to the requirement for the VDC,

both in voltage and current, related to

under which line conditions the circuit

has to work. The circuit gets more

complex the closer the operational limits

are utilized. The drawback in using the

active impedance towards the line, is

the difficulty of dimensioning (especially

in case of complex line impedance

requirement) that limits its usage to only

when absolutely necessary.

Softclipping

(see Fig.22)

The risk for signal clipping increases on

long lines especially when using the line

length regulation that doubles the gain

on such a line. This clipping is highly

uncomfortable for the second party but

also for one self because it destroys the

side tone balance and thus allows

shockwise 20 dB higher levels into the

receiver of ones own voice. There is a

cure for this especially if an active

impedance is used towards the line. A

so called ”softclipping” is a methode

where the line voltage is monitored and

the transmitter gain is controlled in case

the line voltage gets to high. This can be

adapted to PBL 3853 as follows. The line

length regulation function is used to

control the gain down when high signals

appear on the line, no matter if line length

regulation is desired or not. In the case

the function is used there is the high gain

situation at a long line (where it is actual

to regulate the gain down) but in case the

function is not used the transmitter is set

to have the high gain by making the RD

enough low ohmic and omitting RC.

The 1k resistor is to prevent an

unlinear load to the line and also to form

the ”on” time constant of the function with

the capacitor CB. A capacitor of

0.1 µF will block the DC from the line but

will also set the lower frequency

characteristic for the function. The two

diodes form a voltage doubler rectifier for

the AC signal which is then filtered by

CB, the resistor of 10M will set the ”off”

time constant. The transistor acts as a

impedance transformer. Resistor RE sets

the level at which the amplitude limiter

cuts in. It is possible to connect diodes in

series with the pin 6 (pointing to the pin)

in order to alter the ”edge” of the limiter.

The value of RE is set by the values of

RC and RD. A component value sugges-

tion for the case of no gain regulation

with line length:

RC = RD = 8.2k RE = 4.7k.

+ Line

R12

IC 5a

R1

PBL 3853 1 IC 1 9

C1 5

-

7

AC-DC char.adjust

+

3

4

R2

6 5 D4

D3

10

Tx mute

4 +V

+8

+

-

-

18

Line in

6

D2

D1

D1-D4

schottky

5

4

3

IC 5b

-Line

12

16

13

6 14

11 3 2

17

15

C3 Rc

RD

C5 R6

R8

R3 R4 R5

R9

R7 C7 C8

R11

C6

R10

R13

T2

T1

D1

C10

C2

Current direction

information

IC2

IL300

1

2

6

3

+5V

+

+12V

IC4

LM358

C15

68nF

8+3

TX

R28

464

1

1/2

4-

2

C13

100pF

5

4

IC3

IL300

3

6

4

5

2

1

R23

330k

R30

33k

R29

150k

C21

100pF

GND

-12V

6-

1/2

7

RX

5+

C14

R24

68nF

33k

Figure 23. Analog line interface to a digital PABX with galvanic insolation by linear optocouplers (IL3000) using PBL 3853.

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