X9530 Datasheet, PDF(23/30 Page) Xicor Inc. – Temperature Compensated Laser Diode Controller

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X9530 Datasheet, PDF (23/30 Pages) Xicor Inc. – Temperature Compensated Laser Diode Controller

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X9530

ELECTRICAL CHARACTERISTICS (CONTINUED)

All typical values are for 25Â°C ambient temperature and 5 V at pin Vcc. Maximum and minimum specifications are

over the recommended operating conditions. All voltages are referred to the voltage at pin Vss unless otherwise

specified. All bits in control registers are â0â unless otherwise specified. 510Â¾, 0.1%, resistor connected between

R1 and Vss, and another between R2 and Vss unless otherwise specified. 400kHz TTL input at SCL unless

otherwise specified. SDA pulled to Vcc through an external 2KÂ¾ resistor unless otherwise specified. 2-wire

interface in âstandbyâ (see notes 1 and 2 on page 22), unless otherwise specified. WP, A0, A1, and A2 floating

unless otherwise specified. VRef pin unloaded, unless otherwise specified.

Symbol

VOLSDA

IOHSDA

VILCMOS

VIHCMOS

VRefout

RVref

TCOref

VRef Range

TSenseRange

VPOR

VccRamp

VADCOK

Parameter

SDA output Low voltage

SDA output High current

WP, A0, A1, and A2 input

Low voltage

WP, A0, A1, and A2 input

High voltage

Output Voltage at VRef at

25Â°C

VRef pin input resistance

Temperature coefficient

of VRef output voltage

Voltage range when VRef

is an input

Temperature sensor

range

Current from pin R1 or R2

to Vss

Power on reset threshold

voltage

Vcc Ramp Rate

ADC enable minimum

voltage

Min

0.8 x

Vcc

1.205

-100

-40

1.5

0.2

2.6

Typ

1.21

Max

0.4

100

0.2 x

Vcc

Unit

ÂµA

Test Conditions / Notes

I(SDA) = 2 mA

V(SDA) = Vcc

1.215 V -20 ÂµA â¤ I(VRef) â¤ 20 ÂµA

+100

1.3

kÂ¾

ppm/

Â°C

VRM bit = â1â, 25Â°C

See note 4 and 5.

See note 3.

100 Â°C See note 4.

1600 ÂµA

2.8

50 mV /

Âµs

2.8

V See Figure 8.

Notes: 1.

The device goes into Standby: 200 ns after any STOP, except those that initiate a nonvolatile write cycle. It goes into Standby tWC

after a STOP that initiates a nonvolatile write cycle. It also goes into Standby 9 clock cycles after any START that is not followed by

the correct Slave Address Byte.

tWC is the time from a valid STOP condition at the end of a write sequence to the end of the self-timed internal nonvolatile write

cycle. It is the minimum cycle time to be allowed for any nonvolatile write by the user, unless Acknowledge Polling is used.

For this range of V(VRef) the full scale sink mode current at I1 and I2 follows V(VRef) with a linearity error smaller than 1%.

These parameters are periodically sampled and not 100% tested.

TCOref = [Max V(VREF) â Min V(VREF)] x 106/(1.21V x 140Â°C)

REV 3.7 8/26/04

www.xicor.com

Characteristics subject to change without notice. 23 of 30

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