X9530 Datasheet, PDF(2/30 Page) Xicor Inc. – Temperature Compensated Laser Diode Controller

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X9530 Datasheet, PDF (2/30 Pages) Xicor Inc. – Temperature Compensated Laser Diode Controller

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X9530

BLOCK DIAGRAM

VRef

VSense

Voltage

Reference

Mux

ADC

Mux

Temperature

Sensor

Look-up

Table 2

Mux

DAC 2

Look-up

Table 1

Mux

DAC 1

Control

& Status

SDA

SCL

A2, A1, A0

2-Wire

Interface

General

Purpose

Memory

PIN CONFIGURATION

A0 1

A1 2

A2 3

Vcc 4

WP 5

SCL 6

SDA 7

14 I2

13 VRef

12 VSense

11 Vss

10 R2

9 R1

8 I1

TSSOP 14L

32 1

A0 I2 VRef

B Vcc A1 VSense

SCL A2 Vss

SDA Vss R2

WP I1 R1

Top View - Bumps Down CSP â B15

DEVICE DESCRIPTION

The X9530 combines two Programmable Current

Generators, and integrated EEPROM with Block

Lockâ¢ protection, in one package. The

Programmable Current Generators are ideal for use in

fiber optic Modulation Current require temperature

control. The combination of the X9530 functionality

and Intersilâs Chip-Scale package lowers system cost,

increases reliability, and reduces board space

requirements.

Two on-chip Programmable Current Generators may

be independently programmed to either sink or source

current. The maximum current generated is

determined by using an externally connected

programming resistor, or by selecting one of three

predefined values. Both current generators have a

maximum output of Â±1.6 mA, and may be controlled to

an absolute resolution of 0.39% (256 steps / 8 bit).

Both current generators may be driven using an on-

board temperature sensor, an external sensor, or

Control Registers. The internal temperature sensor

operates over a very broad temperature range (-40Â°C

to +100Â°C). The sensor output (internal or external)

drives a 6-bit A/D converter, whose output selects one

of 64 bytes from each nonvolatile look-up table (LUT).

The contents of the selected LUT row (8-bit wide)

drives the input of an 8-bit D/A converter, which

generates the output current.

All control and setup parameters of the X9530,

including the look-up tables, are programmable via the

2-wire serial port.

The general purpose memory portion of the device is a

CMOS serial EEPROM array with Intersilâs Block

LockTM protection. This memory may be used to store

fiber optic module manufacturing data, serial numbers,

or various other system parameters.

The EEPROM array is internally organized as 272 x 8

bits with 16-Byte pages, and utilizes Intersilâs

proprietary Direct Writeâ¢ cells, providing a minimum

endurance of 100,000 Page Write cycles and a

minimum data retention of 100 years.

FN8211.0

March 10, 2005

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