CPC5601 Datasheet, PDF(8/14 Page) Clare, Inc. – Auxiliary Programmable Driver IC

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CPC5601 Datasheet, PDF (8/14 Pages) Clare, Inc. – Auxiliary Programmable Driver IC

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CPC5601

2.1 Application Circuit Configurations

Figure 4 shows LITELINK II in circuit designed to use

the optical snoop circuit in the CPC5601 for ring

detection. Figure 5 shows LITELINK III in a circuit that

uses the LITELINK snoop circuit ring detection and

display feature (caller ID) signal processing. Note that

either generation of LITELINK can be used with either

signal monitoring scheme. Using the optical path on

the CPC5601 for ring detect precludes on-hook dis-

play feature signal processing.

2.2 AC Termination

2.2.1 LITELINK II

The networks connected to outputs b1, b2, b3 and b4

provide selectable telephone line AC termination

depending on which network is switched in place of

RZNT (see the appropriate LITELINK data sheet and

the application note Understanding LITELINK for more

information).

In North American applications, turn outputs b1 and

b2 on, and turn outputs b3 and b4 off to switch in the

required 600 â¦ AC termination. For European applica-

tions, turn outputs b1 and b2 off, and outputs b3 and

b4 on to switch in the complex AC termination net-

work.

2.2.2 LITELINK III

The networks connected to outputs b1 and b3 provide

selectable telephone line AC termination depending

on which network is switched in place of RZNT (see the

appropriate LITELINK data sheet and the application

note Understanding LITELINK for more information).

The resistor connected to output b2 provides the

required bias current for North American applications.

In North American applications, turn outputs b1 and

b2 on, and turn output b3 off to switch in the required

600 â¦ AC termination. For European applications, turn

outputs b1 and b2 off, and output b3 on to switch in the

complex AC termination network.

2.3 LITELINK III Gain

Turning output 5 on adds attenuation to the receive

path, which is required for the complex termination.

Asserting the MODE pin on LITELINK III corrects for

the added attenuation.

2.4 Current Limiting

Clare recommends using the default value for RZDC

to set the loop-current limit to 133 mA. You can, if

required, adjust the current limit level by adding R73

and using output b6 to switch this value in parallel with

RZDC. See the appropriate LITELINK datasheet for

more information on setting loop-current limits.

2.5 Figure 4 Part List

Qty.

Reference

DB1

Z1, Z2

SP1

FB1

Value

CPC561x LITELINK II

CPC5601 Auxiliary Programmable Driver

CPC5602C N-Channel Depletion-Mode FET

MMBT4126 PNP bipolar transistor

S1ZB60 or DB104 Bridge Rectifier

1N914

10V Zener Diode

P3100SB Sidactor

600 â¦, 200 mA ferrite bead

Suppliers

Clare, Inc.

Fairchild

Sindengen Co., Diodes, Inc.

Teccor, TI, ST Microelectronics

Murata BLM11A601S or similar

www.clare.com

R3.0

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