AD526_16 Datasheet, PDF(9/15 Page) Analog Devices – Software Programmable Gain Amplifier

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AD526_16 Datasheet, PDF (9/15 Pages) Analog Devices – Software Programmable Gain Amplifier

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AD526

THEORY OF OPERATION

The AD526 is a complete software programmable gain amplifier

(SPGA) implemented monolithically with a drift-trimmed

BiFET amplifier, a laser wafer trimmed resistor network, JFET

analog switches and TTL compatible gain code latches.

A particular gain is selected by applying the appropriate gain

code (see Table I) to the control logic. The control logic turns

on the JFET switch that connects the correct tap on the gain

network to the inverting input of the amplifier; all unselected

JFET gain switches are off (open). The âonâ resistance of the

gain switches causes negligible gain error since only the

amplifierâs input bias current, which is less than 150 pA, actu-

ally flows through these switches.

The AD526 is capable of storing the gain code, (latched mode),

B, A0, A1, A2, under the direction of control inputs CLK and

CS. Alternatively, the AD526 can respond directly to gain code

changes if the control inputs are tied low (transparent mode).

For gains of 8 and 16, a fraction of the frequency compensation

capacitance (C1 in Figure 32) is automatically switched out of

the circuit. This increases the amplifierâs bandwidth and im-

proves its signal settling time and slew rate.

AMPLIFIER

+VS

VIN

OUT

FORCE

âVS OUT

SENSE

CLK

14kâ

G=8

1kâ

G = 16

3.4kâ

RESISTOR

NETWORK

G=2

1.7kâ

DIGITAL

GND

ANALOG

GND2

1kâ

G=4

1.7kâ

ANALOG

GND1

Figure 32. Simplified Schematic of the AD526

TRANSPARENT MODE OF OPERATION

In the transparent mode of operation, the AD526 will respond

directly to level changes at the gain code inputs (A0, A1, A2) if

B is tied high and both CS and CLK are allowed to float low.

After the gain codes are changed, the AD526âs output voltage

typically requires 5.5 Âµs to settle to within 0.01% of the final

value. Figures 26 to 29 show the performance of the AD526 for

positive gain code changes.

+VS

+5V

0.1â®F

16 15 14 13 12 11 10

A1 A0 CS CLK A2 B

LOGIC AND LATCHES

16 8 4 2 1

OUT

9 FORCE

GAIN NETWORK

AD526

1 2 3 4 5 6 7 8 OUT

SENSE

VIN

0.1â®F

âVS

Figure 33. Transparent Mode

VOUT

LATCHED MODE OF OPERATION

The latched mode of operation is shown in Figure 34. When

either CS or CLK go to a Logic â1,â the gain code (A0, A1, A2,

B) signals are latched into the registers and held until both CS

and CLK return to â0.â Unused CS or CLK inputs should be tied

to ground . The CS and CLK inputs are functionally and electri-

cally equivalent.

TIMING SIGNAL

+VS

+5V

0.1â®F

16 15 14 13 12 11 10

A1 A0 CS CLK A2 B

LOGIC AND LATCHES

16 8 4 2 1

OUT

9 FORCE

GAIN NETWORK

AD526

1 2 3 4 5 6 7 8 OUT

SENSE

VIN

0.1â®F

âVS

Figure 34. Latched Mode

VOUT

â8â

REV. D

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