CPC5622 Datasheet, PDF(13/18 Page) Clare, Inc. – LITELINK® III Phone Line Interface IC (DAA)

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CPC5622 Datasheet, PDF (13/18 Pages) Clare, Inc. – LITELINK® III Phone Line Interface IC (DAA)

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INTEGRATED CIRCUITS DIVISION

CPC5622

Figure 5. Differential and Single-ended Transmit

Path Connections to LITELINK

Low-Voltage Side CODEC or

Transmit Circuit

LITELINK

TXA1

TXA2

0.1Î¼f TX-

0.1Î¼f TX+

Low-Voltage Side CODEC or

Transmit Circuit

LITELINK

TXA1

0.1Î¼f TX-

N/C

TX+

3.4 Initialization Requirement

Following Power-up

OH must be de-asserted (set logic high) once after

power-up for at least 50ms to transfer internal gain

trim values within LITELINK. This would be normal

operation in most applications. Failure to comply with

this requirement will result in transmission gain errors

and possibly distortion.

Whether using the recommended value above or

when setting RZDC higher for a lower loop current limit

refer to the guidelines for FET thermal management

provided in AN-146, Guidelines for Effective

LITELINK Designs.

3.6 AC Characteristics

3.6.1 Resistive Termination Applications

North American and Japanese telephone line AC

termination requirements are met with a resistive

600ï ac 2-wire termination. For these applications

LITELINKâs 2-wire network termination impedance is

set by the resistor RZNT (R10) located at the ZNT pin,

pin 29, with a value of 301ï.

3.6.2 Reactive Termination Applications

Many countries use a single-pole complex impedance

to model the telephone network transmission line

characteristic impedance as shown in the table below.

Line Impedance Model

Australia

RS 220 ï

RP 820 ï

CP 120 nF

China

200 ï

680 ï

100 nF

TBR 21

270 ï

750 ï

150 nF

3.5 DC Characteristics

The CPC5622 is designed for worldwide applications.

Modification of the values of the components at the

ZDC, DCS1, and DCS2 pins allow for control of the VI

slope characteristics of LITELINK. Selecting

appropriate resistor values for RZDC (R16) and

RDCS2 (R15) in the provided application circuits

enable compliance with various DC requirements.

3.5.1 Setting a Current Limit

LITELINK includes a telephone line current limit

feature that is selectable by choosing the desired

value for RZDC (R16) using the following formula:

ICLAmps = R----1Z---VD----C-- + 0.008A

IXYS Integrated Circuits Division recommends using

8.2 ï for RZDC for most applications, limiting

telephone line current to 130 mA.

Proper gain and termination impedance circuits for a

complex impedance requires the use of complex

network on ZNT as shown in the âReactive Termination

Application Circuitâ on page 8.

3.6.3 Mode Pin Usage

Asserting the MODE pin low (MODE = 0) introduces a

7 dB pad into the transmit path and adds 7 dB of gain

to the receive path. These changes compensate for

the gain changes made to the transmit and receive

paths necessary for reactive termination

implementations. Overall insertion loss with the

reactive termination application circuit and MODE

asserted is 0 dB.

Overall insertion loss with MODE de-asserted

(MODE = 1) for the resistive termination application

circuit is 0 dB.

R03

www.ixysic.com

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