LE79231FQC Zarlink, LE79231FQC Datasheet - Page 17

LE79231FQC

Manufacturer Part Number

LE79231FQC

Description

SLIC 3-CH 63dB 70mA 5V 32-Pin QFN EP

Manufacturer

Zarlink

Datasheet

1.LE79231FQC.pdf (24 pages)

Specifications of LE79231FQC

Package

32QFN EP

Number Of Channels Per Chip

Polarity Reversal

Yes

Longitudinal Balanced

63 dB

Loop Current

70(Min) mA

Minimum Operating Supply Voltage

4.75 V

Typical Operating Supply Voltage

5 V

Typical Supply Current

26.9 mA

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Driver Descriptions

Control bits RD1, RD2, and RD3 do not affect the operating mode of the Le79231 ISLIC device. These signals usually perform

the following functions.

Thermal-Management Equations

Applies to all modes except Standby, which has no thermal management..

TIMING SPECIFICATIONS

Note:

The P1

After a power-on reset or hardware reset, the relay outputs from the Le79231 ISLIC device turn all relays off. An unassuming state is to

place the relay control pins, which are level triggered, to a reset state for all relays. Any noise encountered only raises the levels toward the

When writing to the Le79231 ISLIC device registers, the sequence is:

a) Set LD pin to mid-state

b) Place appropriate data on the P1

c) Assert the LD pin to High or Low to write the proper data

d) Return LD pin to mid-state

RMGPi = RMGLi = R

trSLD

tfSLD

tSLDPW

tSDXSU

tSDXHD

tSDXD

–

SLIC

TMG

< 5 mA

> 5 mA

3 pins are updated continuously during operation by the LD signal.

RTMG

Symbol

= (S

= I

Driver

: total power dissipation of RMGPi and RMGLi

= 0

= (I

BAT

– 5 mA)

– I

P1,P2,P3

TMG

+ 2R

A logic 1 on RD1 turns the R1 driver on and operates a relay connected between the R1 pin and VCCD. R1

drives the ring relay when external ringing is selected.

A logic 1 on the RD2 signal turns the R2 driver on and routes current from the R2 pin to the RYE pin. In the

option where the RYE pin is connected to ground, the R2 pin can sink current from a relay connected to

VCCD.

Another option is to connect the RYE pin to the BD (Ring) lead and connect a test load between R2 and the

AD (Tip) lead. This technique avoids the use of a relay to connect a test load. However, it does not isolate the

subscriber line from the line card. The test load must be connected to the Le79231 ISLIC device side of the

protection resistor to avoid damage to the R2 driver.

A logic 1 on the RD3 signal turns the R3 driver on and routes current from the R3 pin to the RYE pin. In the

option where the RYE pin is connected to ground, the R3 pin can sink current from a relay connected to

VCCD.

Another option is to connect the RYE pin to the B (Ring) lead and connect a test load between R3 and the A

(Tip) lead. This technique avoids the use of a relay to connect a test load. However, it does not isolate the

subscriber line from the line card. The test load must be connected to the Le79231 ISLIC device side of the

protection resistor to avoid damage to the R3 driver.

+ 2R

(2R

+ 2R

Signal

TMG

FUSE

Equation

)

–

)) • I

)) / (2(I

3 pins

)) + 0.3 W – PT

+ 0.3 W

Rise time Le79231 ISLIC device LD

Fall time Le79231 ISLIC device LD pin

LD minimum pulse width

P1–3 data Setup time

P1–3 data hold time

Max P1–3 data delay

– 5 mA))

Zarlink Semiconductor Inc.

RTMG

Parameter

Description

TMG resistor-current is limited to be 5 mA < I

no current flows in the TMG resistor and it all flows in the

Le79231 ISLIC device.

These equations are valid when

because the longitudinal voltage is one-half the battery

voltage and the TMG switches require approximately 2 V.

To choose a power rating for R

RATING

TMG

• (I

> PT

– 5 mA) < (S

Min

4.5

RTMG

/ 2

Description

BAT

Typ

– (R

TMG

+ R

Max

) / 2 – 2

. If I

< 5 mA,

Unit

µs

LE79231FQC Zarlink, LE79231FQC Datasheet - Page 17

LE79231FQC

Specifications of LE79231FQC

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