pbl386102qnt ETC-unknow, pbl386102qnt Datasheet - Page 11

pbl386102qnt

Manufacturer Part Number

pbl386102qnt

Description

Subscriber Line Interface Circuit

Manufacturer

ETC-unknow

Datasheet

1.PBL386102QNT.pdf (18 pages)

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Hybrid Function

mented utilizing the uncommitted amplifier

in conventional CODEC/filter combinations.

Please, refer to figure 10. Via impedance

into the summing node of the combination

CODEC/filter amplifier. As can be seen

from the expression for the four-wire to

four-wire gain a voltage proportional to V

is returned to V

by R

summing node. These currents can be

made to cancel by letting:

cludes the required phase shift and thus

the balance network Z

from:

output load of the VTX terminal is (R

in figure 12) > 20 k .

yields a balance network containing an

inductor, an alternate method is recom-

mended. Contact Ericsson Microelectron-

ics for assistance.

Figure 10. Hybrid function.

The hybrid function can easily be imple-

The four-wire to four-wire gain, G

- R

When choosing R

If calculation of the Z

a current proportional to V

= - R

•

to a current flowing into the same

= 0 (E

•

. This voltage is converted

RSN

= 0)

- G

2-4S

, make sure the

386 10/2

2-4S

can be calculated

•

( Z

formula above

PBL

•

( Z

+ 2R

is injected

+ 2R

VTX

RSN

)

4-4

, in-

)

//R

used together with programmable CODEC/

filters. The programmable CODEC/filter

allows for system controller adjustment of

hybrid balance to accommodate different

line impedances without change of hard-

ware. In addition, the transmit and receive

gain may be adjusted. Please, refer to the

programmable CODEC/filter data sheets

for design information.

Longitudinal Impedance

voltages at the two-wire port by injecting

longitudinal currents in opposing phase.

pear as longitudinal currents and the TIPX

and RINGX terminals will experience very

small longitudinal voltage excursions, leav-

ing metallic voltages well within the SLIC

common mode range.

longitudinal disturbances. It should be not-

ed that longitudinal currents may exceed

the dc loop current without disturbing the vf

transmission.

Capacitors C

designated C

nected between TIPX and ground as well

as between RINGX and ground, may be

mounted.

junction with suitable series impedances

(i.e. resistances, inductances). Resistors

LoT

The PBL 386 10/2 SLIC may also be

A feed back loop counteracts longitudinal

Thus longitudinal disturbances will ap-

The SLIC longitudinal impedance per wire,

If RFI filtering is needed, the capacitors

and Z

and C

LoR

, appears as typically 20

work as RFI filters in con-

and C

in figure 12, con-

Combination

CODEC/Filter

inductances can be added to form a sec-

ond order filter. Current-compensated in-

ductors are suitable since they suppress

common-mode signals with minimum influ-

ence on return loss. Recommended values

for C

values impose smaller degradation on re-

turn loss and longitudinal balance, but also

attenuate radio frequencies to a smaller

extent. The influence on the impedance

loop must also be taken into consideration

when programming the CODEC. C

1/(

impedance of 1/(2

ground impedance of 1/(2

AC - 3DC Separation Capacitor, C

between terminals HP and RINGX p r o -

vides the separation of the ac and dc

signals. C

cy response break point of the ac loop in the

SLIC. Refer to table 1 for recommended

value of C

position the low end frequency response

3dB break point of the ac loop at 13 Hz (f

according to f

The high pass filter capacitor connected

Example: A C

•

and R

contribute to a metallic impedance of

= 180 k .

•

and C

) = 1/(

positions the low end frequen-

may be sufficient, but series

3dB

•

= 1/(2

•

• •

are below 1 nF. Lower

value of 68 nF will

PBL 386 10/2

•

), a TIPX to ground

• •

) and a RINGX to

• •

•

) where

and

3dB

)

pbl386102qnt ETC-unknow, pbl386102qnt Datasheet - Page 11

pbl386102qnt

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