AD669BNZ Analog Devices Inc, AD669BNZ Datasheet - Page 2

AD669BNZ

Manufacturer Part Number

AD669BNZ

Description

IC DAC 16BIT MONO W/VREF 28-DIP

Manufacturer

Analog Devices Inc

Series

DACPORT®r

Datasheet

1.AD669ANZ.pdf (12 pages)

Specifications of AD669BNZ

Data Interface

Parallel

Settling Time

10µs

Number Of Bits

Number Of Converters

Voltage Supply Source

Dual ±

Power Dissipation (max)

625mW

Operating Temperature

-40°C ~ 85°C

Mounting Type

Through Hole

Package / Case

28-DIP (0.600", 15.24mm)

Resolution (bits)

16bit

Sampling Rate

167kSPS

Input Channel Type

Parallel

Supply Voltage Range - Digital

4.5V To 5.5V

Supply Current

12mA

Digital Ic Case Style

DIP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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AD669–SPECIFICATIONS

Model

RESOLUTION

DIGITAL INPUTS (T

TRANSFER FUNCTION CHARACTERISTICS

REFERENCE INPUT

REFERENCE OUTPUT

OUTPUT CHARACTERISTICS

POWER SUPPLIES

TEMPERATURE RANGE

NOTES

*Same as AD669AN/AR specification.

Specifications subject to change without notice.

Specifications in boldface are tested on all production units at final electrical test. Results from those tests are used to calculate outgoing quality levels. All min and max specifica-

tions are guaranteed. Those shown in boldface are tested on all production units.

For 16-bit resolution, 1 LSB = 0.0015% of FSR = 15 ppm of FSR. For 15-bit resolution, 1 LSB = 0.003% of FSR = 30 ppm of FSR. For 14-bit resolution

Gain error and gain drift measured using the internal reference. Gain drift is primarily reference related. See the Using the AD669 with the AD688 Reference section

External current is defined as the current available in addition to that supplied to REF IN and SPAN/BIPOLAR OFFSET on the AD669.

Operation on 12 V supplies is possible using an external reference like the AD586 and reducing the output range. Refer to the Internal/External Reference Use section.

Measured with fixed 50

1 LSB = 0.006% of FSR = 60 ppm of FSR. FSR stands for Full-Scale Range and is 10 V for a 0 V to + 10 V span and 20 V for a –10 V to +10 V span.

for further information.

the Analog Circuit Connections section.

Integral Nonlinearity

Differential Nonlinearity

Monotonicity Over Temperature

Gain Error

Gain Drift

Unipolar Offset

Unipolar Offset Drift (T

Bipolar Zero Error

Bipolar Zero Error Drift (T

Input Resistance

Bipolar Offset Input Resistance

Voltage

Drift

External Current

Capacitive Load

Short Circuit Current

Output Voltage Range

Output Current

Capacitive Load

Short Circuit Current

Voltage

Current (No Load)

Power Supply Sensitivity

Power Dissipation (Static, No Load)

Specified Performance (A, B)

Specified Performance (S)

Unipolar Configuration

Bipolar Configuration

(Logic “0” )

(Logic “1” )

MIN

@ V

= 0 V)

= 5.5 V)

to T

2, 5

, V

MAX

MIN

= 5, 0 V

= 2.4, 0.4 V

to T

MIN

resistors. Eliminating these resistors increases the gain error by 0.25% of FSR (Unipolar mode) or 0.50% of FSR (Bipolar mode). Refer to

MAX

MIN

to T

)

MIN

to T

MAX

to T

MAX

)

MAX

)

(@ T

Min

2.0

9.98

–10

+13.5

–13.5

+4.5

–40

= +25 C, V

AD669AN/AR

Typ

10.00

+12

–12

0.3

365

–2–

= +15 V, V

Max

5.5

0.8

10.02

1000

+10

1000

+16.5

–16.5

+5.5

+18

–18

7.5

625

+85

0.15

Min

–40

–55

AD669AQ/SQ

= –15 V, V

Typ

+85

+125

Max

= +5 V, unless otherwise noted)

0.10

Min

–40

AD669BN/BQ/BR

Typ

Max

+85

0.10

2.5

Bits

Volts

LSB

Bits

% of FSR

ppm/ C

Volts

ppm/ C

Volts

ppm/%

Units

Volts

REV. A

AD669BNZ Analog Devices Inc, AD669BNZ Datasheet - Page 2

AD669BNZ

Specifications of AD669BNZ

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