x9520v20iz-bt1 Intersil Corporation, x9520v20iz-bt1 Datasheet - Page 2

x9520v20iz-bt1

Manufacturer Part Number

x9520v20iz-bt1

Description

Fiber Channel/gigabit Ethernet Laser Diode Control For Fiber Optic Modules Triple Dcp, Por, 2kbit Eeprom Memory, Dual Voltage Monitors

Manufacturer

Intersil Corporation

Datasheet

1.X9520V20IZ-BT1.pdf (29 pages)

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Block Diagram

Detailed Device Description

The X9520 combines three Intersil Digitally Controlled

Potentiometer (DCP) devices, V1/VCC power-on reset

control, V1/VCC low voltage reset control, two

supplementary voltage monitors, and integrated EEPROM

with Block Lock™ protection, in one package. These

functions are suited to the control, support, and monitoring of

various system parameters in Fiber Channel/Gigabit

Ethernet fiber optic modules, such as in Gigabit Interface

Converter (GBIC) applications. The combination of the

X9520 fucntionality lowers system cost, increases reliability,

and reduces board space requirements using Intersil’s

unique XBGA™ packaging.

Two high resolution DCPs allow for the “set-and-forget”

adjustment of Laser Driver IC parameters such as Laser

Diode Bias and Modulation Currents. One lower resolution

DCP may be used for setting sundry system parameters

such as maximum laser output power (for eye safety

requirements).

Applying voltage to V

which allows the V1RO output to go HIGH, until the supply

the supply voltage stabilizes for a period of time (selectable

via software). The V1RO output then goes LOW. The Low

Voltage Reset circuitry allows the V1RO output to go HIGH

when V

remains HIGH until V

Manual Reset (MR) input allows the user to externally trigger

the V1RO output (HIGH).

V1/VCC

falls below the minimum V

SDA

SCL

activates the Power-on Reset circuit

returns to proper operating level. A

RESET LOGIC

THRESHOLD

COMMAND

DECODE &

CONTROL

LOGIC

DATA

trip point. V1RO

VTRIP

PROTECT LOGIC

CONSTAT

X9520

EEPROM

ARRAY

2kbit

Two supplementary Voltage Monitor circuits continuously

compare their inputs to individual trip voltages. If an input

voltage exceeds it’s associated trip level, a hardware output

(V3RO, V2RO) are allowed to go HIGH. If the input voltage

becomes lower than it’s associated trip level, the

corresponding output is driven LOW. A corresponding binary

representation of the two monitor circuit outputs (V2RO and

V3RO) are also stored in latched, volatile (CONSTAT)

read out via the 2-wire serial port.

An application of the V1RO output may be to drive the

“ENABLE” input of a Laser Driver IC, with MR as a

“TX_DISABLE” input. V2RO and V3RO may be used to

monitor “TX_FAULT” and “RX_LOS” conditions respectively.

Intersil’s unique circuits allow for all internal trip voltages to

be individually programmed with high accuracy. This gives

the designer great flexibility in changing system parameters,

either at the time of manufacture, or in the field.

The memory portion of the device is a CMOS serial

EEPROM array with Intersil’s Block Lock™ 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 x

8, and utilizes Intersil’s proprietary Direct Write™ cells,

providing a minimum endurance of 1,000,000 cycles and a

minimum data retention of 100 years.

The device features a 2-Wire interface and software protocol

allowing operation on an I

LOW VOLTAGE

POWER-ON /

GENERATION

RESET

NONVOLATILE

MEMORY

NONVOLATILE

COUNTER

MEMORY

COUNTER

7 - BIT

MEMORY

WIPER

8 - BIT

WIPER

6 - BIT

C™ compatible serial bus.

V3RO

V2RO

V1RO

August 20, 2007

FN8206.2

x9520v20iz-bt1 Intersil Corporation, x9520v20iz-bt1 Datasheet - Page 2

x9520v20iz-bt1

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