X9530 Datasheet, PDF(11/30 Page) Xicor Inc. – Temperature Compensated Laser Diode Controller

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X9530 Datasheet, PDF (11/30 Pages) Xicor Inc. – Temperature Compensated Laser Diode Controller

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X9530

By examining the block diagram in Figure 5, we see

that the maximum current through pin I1 is set by fixing

values for V(VRef) and R1. The output current can

then be varied by changing the data byte at the D/A

converter input.

In general, the magnitude of the current at the D/A

converter output pins (I1, I2) may be calculated by:

Ix = (V(VRef) / (384 â¢ Rx)) â¢ N

where x = 1,2 and N is the decimal representation of

the input byte to the corresponding D/A converter.

The value for the resistor Rx (x = 1,2) determines the

full scale output current that the D/A converter may

sink or source. The full scale output current has a

maximum value of Â±1.6 mA, which is obtained using a

resistance of 510â¦ for Rx. This resistance may be

connected externally to pin Rx of the X9530, or may

be selected from one of three internal values. Bits

I1FSO1 and I1FSO0 select the full scale output

current setting for I1 as described in âI1FSO1 -

I1FSO0: Current Generator 1 Full Scale Output Set

Bits (Non-volatile)â on page 6. Bits I2FSO1 and

I2FSO0 select the maximum current setting for I2 as

described in âI2FSO1âI2FSO0: Current Generator 2

Full Scale Output Current Set Bits (Non-volatile)â on

page 7. When an internal resistor is selected for R1 or

R2, then no resistor should be connected externally at

the corresponding pin.

Bits I1DS and I2DS in Control Register 0 select the

direction of the currents through pins I1 and I2

independently (See âI1DS: Current Generator 1

Direction Select Bit (Non-volatile)â on page 4 and

âControl and Status Register Formatâ on page 5).

D/A Converter Output Current Response

When the D/A converter input data byte changes by

an arbitrary number of bits, the output current changes

from an intial current level (Ix) to some final level

(Ix + âIx). The transition is monotonic and glitchless.

D/A Converter Control

The data byte inputs of the D/A converters can be

controlled in three ways:

â 1) With the A/D converter and through the look-up

tables (default),

â 2) Bypassing the A/D converter and directly access-

ing the look-up tables,

â 3) Bypassing both the A/D converter and look-up

tables, and directly setting the D/A converter input

byte.

Figure 7. Look-Up Table Addressing

Voltage

Reference

Voltage Input

ADC

AD[5:0]

Status

The options are summarized in the following tables:

L2DA[5:0]:

Control

Out

Select

LUT2 Row

Selection bits

L2DAS: bit 6 in

Control register 5

L1DA[5:0]: 6

Control

Out

Select

LUT1 Row

Selection bits

L1DAS: bit 4 in

Control register 5

FN8211.0

March 10, 2005

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