CPC5604 Datasheet, PDF(16/33 Page) Clare, Inc. – Optical Data Access Arrangement I.C.

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CPC5604 Datasheet, PDF (16/33 Pages) Clare, Inc. – Optical Data Access Arrangement I.C.

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CPC5604

Receive Signal Path (Refer to Block Diagram)

Signals to and from the telephone line to the LiteLinkTM

appear on Tip and Ring connections. The receive signal

is extracted from the transmit signal via the 2-4 wire

hybrid block. The receive signal is then converted to

infrared light by the receive photodiode amplifier and LED

front end. The intensity of the infrared light is modulated

by the receive signal and this light is transferred across

the electrical isolation barrier via reflective dome to a pho-

todiode where the light is converted to a photocurrent.

This photocurrent is a highly linear representation of the

receive signal and is amplified and converted to a volt-

age. This single ended voltage is converted to a differen-

tial voltage signal where it is presented as RX+ and RX-

and connects to the receive inputs of the host data pump.

Variations in gain due to quantum efficiency of the optics

are virtually eliminated by an on chip AGC circuit which

automatically sets the input to output gain of the pho-

toamplifier to unity. This means that the receive signal on

the telephone line is faithfully reproduced at the RX out-

puts in terms of amplitude to within 2dB of the received

signal. Distortion at the RX outputs is -80dB maximum at

a receive level of -3dB over the band of 30Hz-4kHz.

Single supply operation requires that the RX outputs be

biased at 2.5V DC, therefore, it is necessary to use 0.1uf

blocking capacitors for coupling the receive signal to the

host. Figures 2.4.A and 2.4.B. illustrate connection to the

host differentially and single ended respectively.

Figure 2A Connection To Host Differential

(Receive)

HOST DATA PUMP/CODEC

CPC5604A LITELINKTM

Transmit Signal Path (Refer to Block Diagram)

Signals that are to be sent from the host to the tele-

phone line are placed differentially on TX+ and TX-. The

maximum value of the transmit signal should not

exceed 0dBm or 2.18Vpp. The differential transmit sig-

nal is converted to a single ended signal by the

LiteLinkTM. This signal is coupled to the transmit photo-

diode amplifier in a similar manner to the receive path.

At the output of this amplifier the voltage signal is cou-

pled to a voltage to current converter via a transcon-

ductance stage where the transmit signal modulates the

telephone line loop current. As in the receive stage, the

gain of the transmit photodiode amplifier is set to unity

automatically thereby limiting insertion loss to 0Â±1dB.

Figures 2C and 2D illustrate connection to the host dif-

ferentially and single ended respectively.

Figure 2B Connection To Host Single Ended

(Receive)

HOST DATA PUMP/CODEC

CPC5604A LITELINKTM

0.1uF

RX+

RX+

RX-

RX-

SINGLE ENDED CONNECTION TO CPC5604A

RX+

0.1uF

RX+

0.1uF

RX-

RX-

Figure 2C Connection To Host Differential

(Transmit)

HOST DATA PUMP/CODEC

CPC5604A LITELINKTM

DIFFERENTIAL CONNECTION TO CPC5604A

TXA1

TXA2

0.1uf TX-

-

+

TX+

0.1uf

SINGLE ENDED CONNECTION TO CPC5604A

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