PBL38620-2 Ericsson, PBL38620-2 Datasheet - Page 11

PBL38620-2

Manufacturer Part Number

PBL38620-2

Description

Subscriber Line Interface Circuit

Manufacturer

Ericsson

Datasheet

1.PBL38620-2.pdf (16 pages)

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hybrid balance to accommodate different

line impedances without change of

hardware. In addition, the transmit and

receive gain may be adjusted. Please, refer

to the programmable CODEC/filter data

sheets for design information.

Longitudinal Impedance

A feed back loop counteracts longitudinal

voltages at the two-wire port by injecting

longitudinal currents in opposing phase.

appear as longitudinal currents and the

TIPX and RINGX terminals will experience

very small longitudinal voltage excursions,

leaving metallic voltages well within the

SLIC common mode range.

wire, Z

20 to longitudinal disturbances. It should

be noted that longitudinal currents may

exceed the dc loop current without distur-

bing the vf transmission.

Capacitors C

The capacitors designated C

in figure 12, connected between TIPX

and ground as well as between RINGX

and ground, can be used for RFI filtering.

The recommended value for C

values may be used, but care must be

taken to prevent degradation of either

longitudinal balance or return loss. C

and C

ance of 1/( ·f·C

ground impedance of1/(2· ·f·C

RINGX to ground impedance of

1/(2· ·f·C

AC - DC Separation Capacitor, C

The high pass filter capacitor connected

between terminals HP and TIPX provides

the separation of the ac signal from the

dc part. C

frequency response break point of the ac

loop in the SLIC. Refer to table 1 for a

recommended value of C

Example: A C

position the low end frequency response

3dB break point of the ac loop at 5.6 Hz

where R

High-Pass Transmit Filter

The capacitor C

between the VTX output and the

CODEC/filter forms, together with R

or the input impedance of a programmable

CODEC/filter, a high-pass RC filter. It is

3dB

Thus longitudinal disturbances will

The SLIC longitudinal impedance per

) according to f

is 2200 pF. Higher capacitance

LoT

contribute to a metallic imped-

and Z

= 600k .

positions the low end

value of 47 nF will

and C

LoR

) = 1/( ·f·C

3dB

in figure 12 connected

, appears as typically

= 1/(2

), a TIPX to

and C

and

) and a

and/

)

Figure 10. Hybrid function.

recommended to position the 3 dB break

point of this filter between 30 and 80 Hz to

get a faster response for the dc steps that

may occur at DTMF signalling.

Capacitor C

The capacitor C

the terminals CLP and VBAT, positions the

high end frequency break point of the low

pass filter in the dc loop in the SLIC. C

together with C

Wire Impedance) forms the total two wire

output impedance of the SLIC. The choise

of these programmable components have

an influence on the power supply rejection

ratio (PSRR) from VBAT to the two wire

side at sub-audio frequencies. At these

frequencies capacitor C

the transversal to longitudinal balance in

the SLIC. Table 1 suggests a suitable value

on C

to longitudinal balance (T-L bal.) at 200Hz

is given in table 1 for the chosen value on

Table 1. R

tant current feeding characteristics.

For values outside table 1, please contact

Ericsson Microelectronics for assistance.

[ ]

2·25

Feed

386 20/2

. The typical value of the transversal

PBL

[k ]

, C

, which connects between

and Z

VTX

RSN

and C

[nF]

150

(see section Two-

values for cons-

also influences

T-L bal.

@ 200Hz

[dB]

-46

[nF]

Battery Feed

The PBL 386 20/2 SLIC emulate a battery

characteristic with current limitation

adjustable.The open loop voltage measured

between the TIPX and RINGX terminals is

tracking the battery voltage V

signalling headroom, or overhead voltage

connected between terminal POV on the

SLIC and ground. Please refer to section

“Programmable overhead voltage(POV)”.

The battery voltage overhead,V

on the programmed signal overhead voltage

at open loop conditions according to

Refer to table 2 for the typical value on

Table 2. Battery overhead.

The current limit (reference A - C in figure

13) is adjusted by connecting a resistor,

according to the equation:

where R

A second, lower battery voltage may be

connected to the device at terminal VBAT2

to reduce short loop power dissipation.

the two battery supply voltages without need

for external control. The silent battery

The SLIC automatically switches between

TRO

SLIC

PBL 386 20/2

, between terminal PLC and ground

(at I

, is programmable with a resistor R

. V

LProg

1000

defines the TIP to RING voltage

is in k for I

= 0 mA) =

+ 4

Combination

CODEC/Filter

PBL 386 20/2

2.5 +V

LProg

(typ) [V]

in mA.

TRO

Bat

,depends

Bat

- V

. The

PBL38620-2 Ericsson, PBL38620-2 Datasheet - Page 11

PBL38620-2

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