AD7541AJP データシートの表示（PDF） - Analog Devices

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AD7541AJP

CMOS 12-Bit Monolithic Multiplying DAC

Analog Devices 

AD7541A

BIPOLAR OPERATION

(4-QUADRANT MULTIPLICATION)

Figure 5 and Table III illustrate the circuitry and code relation-

ship for bipolar operation. With a dc reference (positive or nega-

tive polarity) the circuit provides offset binary operation. With

an ac reference the circuit provides full 4-quadrant multiplication.

With the DAC loaded to 1000 0000 0000, adjust R1 for

VOUT = 0 V (alternatively, one can omit R1 and R2 and adjust

the ratio of R3 to R4 for VOUT = 0 V). Full-scale trimming can

be accomplished by adjusting the amplitude of VREF or by vary-

ing the value of R5.

As in unipolar operation, A1 must be chosen for low VOS and

low IB. R3, R4 and R5 must be selected for matching and track-

ing. Mismatch of 2R3 to R4 causes both offset and full-scale

error. Mismatch of R5 to R4 or 2R3 causes full-scale error. C1

phase compensation (10 pF to 50 pF) may be required for sta-

bility, depending on amplifier used.

VDD

R2*

16

18

C1

33pF

R4

20kΩ

VDD

RFB

OUT1 1

VIN

R1* 17 VREF AD7541A

OUT2 2

PINS 4–15

GND

3

A1

AD544L

R3

10kΩ

R6

5kΩ

10%

R5

20kΩ

A2

AD544J

VOUT

BIT 1 – BIT 12

DIGITAL

GROUND

ANALOG

COMMON

*FOR VALUES OF R1 AND R2

SEE TABLE 1.

Figure 5. Bipolar Operation (4-Quadrant Multiplication)

Table III. Bipolar Code Table for Offset Binary Circuit of

Figure 5

Binary Number in DAC

MSB

LSB

Analog Output, VOUT

1111 1111 1111

1000 0000

1000 0000

0111 1111

0001

0000

1111

0000 0000 0000

 2047 

+VIN  2048 

 1

+VIN  2048 

0 Volts

 1

–VIN  2048 

 2048 

–VIN  2048 

Figure 6 and Table IV show an alternative method of achieving

bipolar output. The circuit operates with sign plus magnitude

code and has the advantage of giving 12-bit resolution in each

quadrant, compared with 11-bit resolution per quadrant for the

circuit of Figure 5. The AD7592 is a fully protected CMOS

changeover switch with data latches. R4 and R5 should match

each other to 0.01% to maintain the accuracy of the D/A con-

verter. Mismatch between R4 and R5 introduces a gain error.

VDD

R2*

16

18

C1

33pF

VDD

RFB OUT1 1

VIN

R1* 17 VREF AD7541A

OUT2 2

PINS 4–15

GND

3

A1

AD544L

SIGN BIT

DIGITAL

GROUND

ANALOG

COMMON

R4

20kΩ

R5

20kΩ

R3

10kΩ

10%

VOUT

A2

AD544J

1/2 AD7592JN

BIT 1 – BIT 12

*FOR VALUES OF R1 AND R2

SEE TABLE 1.

Figure 6. 12-Bit Plus Sign Magnitude Operation

Table IV. 12-Bit Plus Sign Magnitude Code Table for Circuit

of Figure 6

Sign Binary Number in DAC

Bit MSB

LSB

Analog Output, VOUT

0

1111 1111 1111

0

0000 0000 0000

1

0000 0000 0000

1

1111 1111 1111

Note: Sign bit of “0” connects R3 to GND.

 4095 

+VIN ×  4096 

0 Volts

0 Volts

 4095 

–VIN ×  4096 

REV. B

–5–

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