LUCL8567AAU-D AGERE [Agere Systems], LUCL8567AAU-D Datasheet - Page 33

LUCL8567AAU-D

Manufacturer Part Number

LUCL8567AAU-D

Description

SLIC for Peoples Republic of China Applications

Manufacturer

AGERE [Agere Systems]

Datasheet

1.LUCL8567AAU-D.pdf (42 pages)

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Data Sheet

August 1999

dc Characteristics

The L8567 SLIC operates in a dc unbalanced mode. In

the forward active state, under open-circuit (on-hook)

conditions, the tip to ring voltage will be a nominal

7.1 V less than the battery. This is the overhead volt-

age. The tip and ring overhead is achieved by biasing

ring a nominal 4.6 V above battery and by biasing tip a

nominal 2.5 V below ground.

During off-hook conditions, some dc resistance will be

applied to the subscriber loop as a function of the phys-

ical loop length, protection, and telephone handset. As

the dc resistance decreases from infinity (on-hook) to

some finite value (off-hook), the tip to ring voltage will

decrease as shown below.

As illustrated above, as loop length decreases, the tip

to ground voltage will decrease with a slope corre-

sponding to one-half the internal dc feed resistance of

the SLIC. (The L8567 dc feed resistance is a nominal

110

with a slope corresponding to one-half the internal dc

feed resistance of the SLIC, until the SLIC reaches the

current-limit region of operation. At that point, the slope

of the ring to ground voltage will increase to the sum of

one-half the internal dc feed resistance of the SLIC

plus approximately 10 k , which is the slope of the I/V

characteristic in the current-limit region.

Lucent Technologies Inc.

VTIP TO GND

ON HOOK

.) The ring to ground voltage will also decrease

Figure 26. Tip/Ring Voltage Decrease

BAT

(1/2)R

BEGIN CURRENT LIMITING

DECREASING LOOP LENGTH

(1/2)R

12-3431 (F)

+ R

LIM

The dc feed characteristic can be described by:

Where:

The design begins by drawing the desired dc template.

Refer to Figures 23, 24, and 26.

Starting from the on-hook condition and going through

to a short circuit, the curve passes through two regions:

Region 1; On-hook and low loop currents: The slope

corresponds to the dc resistance of the SLIC, R

any series resistance). The open-circuit voltage is the

battery voltage less the overhead voltage of the device,

Region 2; Current limit: The dc current is limited to a val-

ue determined by external resistor R

the dc template has a high resistance (10 k ).

Calculate the external resistor as follows:

Notice that the I/V curve is uninterrupted when the

power is shifted from the high-voltage battery to the

low-voltage battery (if auxiliary battery option is used),

if the transition occurs in the current-limit region of

operation. This is shown in Figure 24.

T/R

BAT

= dc loop current.

= loop resistance, not including protection resistors.

People’s Republic of China Applications

= protection resistor value.

= SLIC internal dc feed resistance.

= overhead voltage. This is the difference between

(7.0 V typical).

= dc loop voltage.

| = battery voltage magnitude.

the battery voltage and the open loop tip/ring

voltage.

------------------------------------------- -

BA T

–

PROG

O H

(k ) = 1.59 I

---------------------------------

B A T

–

LIM

O H

PROG

L8567 SLIC for

(mA)

. This region of

dc1

(plus

LUCL8567AAU-D AGERE [Agere Systems], LUCL8567AAU-D Datasheet - Page 33

LUCL8567AAU-D

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