5962-8776301LX Analog Devices Inc, 5962-8776301LX Datasheet - Page 5

5962-8776301LX

Manufacturer Part Number

5962-8776301LX

Description

Manufacturer

Analog Devices Inc

Datasheet

1.5962-8776301LX.pdf (8 pages)

Specifications of 5962-8776301LX

Number Of Channels

Resolution

12b

Conversion Rate

667KSPS

Interface Type

Parallel

Single Supply Voltage (typ)

12/15V

Dual Supply Voltage (typ)

Not RequiredV

Settling Time

1.5us

Architecture

R-2R

Power Supply Requirement

Single

Output Type

Current

Integral Nonlinearity Error

±1LSB

Single Supply Voltage (min)

10.8V

Single Supply Voltage (max)

16.5V

Dual Supply Voltage (min)

Not RequiredV

Dual Supply Voltage (max)

Not RequiredV

Operating Temp Range

-55C to 125C

Operating Temperature Classification

Military

Mounting

Through Hole

Pin Count

Package Type

CDIP

Lead Free Status / Rohs Status

Not Compliant

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REV. 0

UNIPOLAR BINARY OPERATION

(2-QUADRANT MULTIPLICATION)

Figure 4 shows the circuit diagram for unipolar binary opera-

tion. With an ac input, the circuit performs 2-quadrant multipli-

cation. The code table for Figure 4 is given in Table II.

Operational amplifiers A1 and A2 can be in a single package

(AD644, AD712) or separate packages (AD544, AD711,

AD OP27). Capacitors C1 and C2 provide phase compensation

to help prevent overshoot and ringing when high-speed op amps

are used.

For zero offset adjustment, the appropriate DAC register is

loaded with all 0s and amplifier offset adjusted so that V

the DAC register with all 1s and adjusting R1 (R3) so that

eration, resistors and potentiometers should have a low Tem-

perature Coefficient. In many applications, because of the

excellent Gain T.C. and Gain Error specifications of the

AD7537, Gain Error trimming is not necessary. In fixed refer-

ence applications, full scale can also be adjusted by omitting R1,

R2, R3, R4 and trimming the reference voltage magnitude.

OUTB

OUTA

Binary Number in

DAC Register

MSB

1111 1111 1111

1000 0000 0000

0000 0000 0001

0000 0000 0000

is 0 V. Full-scale trimming is accomplished by loading

Figure 4. AD7537 Unipolar Binary Operation

Table II. Unipolar Binary Code Table for

Circuit of Figure 4

OUTB

) = –V

LSB

(4095/4096). For high temperature op-

Analog Output,

0 V

OUTA

or V

4095

4096

2048

4096

OUTB

OUTA

–5–

BIPOLAR OPERATION

(4-QUADRANT MULTIPLICATION)

The recommended circuit diagram for bipolar operation is

shown in Figure 5. Offset binary coding is used.

With the appropriate DAC register loaded to 1000 0000 0000,

adjust R1 (R3) so that V

R2 (R3, R4) may be omitted and the ratios of R6, R7 (R9, 10)

varied for V

complished by adjusting the amplitude of V

value of R5 (R8).

If R1, R2 (R3, R4) are not used, then resistors R5, R6, R7 (R8,

R9, R10) should be ratio matched to 0.01% to ensure gain error

performance to the data sheet specification. When operating

over a wide temperature range, it is important that the resistors

be of the same type so that their temperature coefficients match.

The code table for Figure 5 is given in Table III.

Figure 5. Bipolar Operation (Offset Binary Coding)

Binary Number in

DAC Register

MSB

1111 1111 1111

1000 0000 0001

1000 0000 0000

0111 1111 1111

0000 0000 0000

Table III. Bipolar Code Table for Offset Binary

Circuit of Figure 5

OUTA

LSB

OUTB

OUTA

) = 0 V. Full-scale trimming can be ac-

Applications–

Analog Output,

0 V

OUTB

OUTA

) = 0 V. Alternatively, R1,

or V

2048

2047

2048

OUTB

or by varying the

AD7537

5962-8776301LX Analog Devices Inc, 5962-8776301LX Datasheet - Page 5

5962-8776301LX

Specifications of 5962-8776301LX

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