PBL38640-2 Ericsson, PBL38640-2 Datasheet - Page 15

PBL38640-2

Manufacturer Part Number

PBL38640-2

Description

Subscriber Line Interface Circuit

Manufacturer

Ericsson

Datasheet

1.PBL38640-2.pdf (16 pages)

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trip detection network. This network is

applicable, when the ring voltage super-

imposed on V

lead of the two-wire port. The dc voltage

across sense resistor R

the ring trip comparator input DT and DR

via the network R

With the line on-hook (no dc current) DT

is more positive than DR and the DET

output will report logic level high, i.e. the

detector is not tripped. When the line

goes off-hook, while ringing, a dc current

will flow through the loop including sense

resistor R

become more negative than input DR.

This changes output DET to logic level

low, i.e. tripped detector condition. The

system controller (or line card processor)

responds by de-energizing the ring relay,

i.e. ring trip.

component at terminal DT and DR is not

necessary. A toggling DET output can be

examined by a software routine to deter-

mine the duty cycle. When the DET

output is at logic level low for more than

half the time, off-hook condition is

indicated.

Relay driver

The PBL 386 40/2 SLIC incorporates a

ring relay driver designed as open

collector (npn) with a current sinking

capability of 50 mA. The drive transistor

emitter is connected to BGND. The relay

driver has an internal zener diode clamp

for inductive kick-back voltages.

Care must be taken when using the relay

driver together with relays that have high

impedance.

Control Inputs

The PBL 386 40/2 SLIC have three

digital control inputs, C1, C2 and C3.

control input condition and sets up the

commanded operating state.

C1 to C3 are internal pull-up inputs.

Open Circuit State

In the Open Circuit State the TIPX and

RINGX line drive amplifiers as well as

other circuit blocks are powered down.

This causes the SLIC to present a high

impedance to the line. Power dissipation

is at a minimum and no detectors are

active.

Complete filtering of the 20 Hz ac

A decoder in the SLIC interprets the

and will cause input DT to

and is injected on the ring

, R

is monitored by

, C

and C

Figure 14. CODEC receive interface.

Ringing State

The ring relay driver and the ring trip

detector are activated and the ring trip

detector is indicating off hook with a logic

low level at the detector output.

The SLIC is in the active normal state.

Active States

TIPX is the terminal closest to ground

and sources loop current while RINGX is

the more negative terminal and sinks

loop current. Vf signal transmission is

normal. The loop current or the ground

key detector is activated. The loop

current detector is indicating off hook

with a logic low level and the ground key

detector is indicating active ground key

with a logic high level present at the

detector output.

urement feature is available in the active

state, which may be used for line length

estimations or for line test purposes. The

line voltage is presented on the detector

output as a pulse at logic high level with

a pulsewidth of 5.5 s/V. To start the line

voltage measurement this mode has to

be entered from the Active State with the

loop or ground key detector active. The

pulse presented at the DET output

proportional to the line voltage starts

when entering the line voltage measuring

mode.

Tip Open State

Tip Open State is used for ground start

signalling.

impedance to the line on the TIPX pin

and the programmed dc characteristic,

with the longitudinal current compensa-

tion (see section Longitudinal Imped-

ance) not active, to the line on the

RINGX pin.

The loop current detector is active.

In PBL 386 40/2 a line voltage meas-

In this state the SLICs present a high

PBL386 40/2

+1.25 V

DC-GND

RSN

VTX

RSN

RRX

Active Polarity Reversal State

TIPX and RINGX polarity is reversed

from the Active State: RINGX is the

terminal closest to ground and sources

loop current while TIPX is the more

negative terminal and sinks current. Vf

signal transmission is normal. The loop

current or the ground key detector is

activated. The loop current detector is

indicating off hook with a logic low level

and the ground key detector is indicating

active ground key with a logic high level

present at the detector output.

Overvoltage Protection

The PBL 386 40/2 SLIC must be pro-

tected against overvoltages on the

telephone line caused by lightning, ac

power contact and induction. Refer to

Maximum Ratings, TIPX and RINGX

terminals, for maximum allowable

continuous and transient ratings that

may be applied to the SLIC.

Secondary Protection

The circuit shown in figure 12 utilizes

series resistors together with a program-

mable overvoltage protector

(e.g. PowerInnovations TISPPBL2),

serving as a secondary protection.

conducting buffered p-gate overvoltage

protector. The protector gate references

the protection (clamping) voltage to

negative supply voltage (i e the battery

voltage, V

will track the negative supply voltage the

overvoltage stress on the SLIC is

minimized.

ground by a diode. Negative overvolt-

ages are initially clamped close to the

SLIC negative supply rail voltage and the

Positive overvoltages are clamped to

The TISP PBL2 is a dual forward-

). As the protection voltage

CODEC

PBL 386 40/2

REFcodec

PBL38640-2 Ericsson, PBL38640-2 Datasheet - Page 15

PBL38640-2

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