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AD7533_04

10-Bit Multiplying D/A Converter

Intersil 

AD7533

Electrical Specifications V+ = +15V, VREF = +10V, VOUT1 = VOUT2 = 0V, Unless Otherwise Specified (Continued)

TA 25oC

TA MIN-MAX

PARAMETER

TEST CONDITIONS

MIN MAX MIN MAX

UNITS

ANALOG OUTPUT

Output Capacitance

DIGITAL INPUTS

COUT1 All Digital Inputs High (Note 4)

COUT2

COUT1 All Digital Inputs Low (Note 4)

COUT2

-

100

-

100

pF

-

35

-

35

pF

-

35

-

35

pF

-

100

-

100

pF

Low State Threshold, VIL

High State Threshold, VIH

Input Current (Low or High), IIL, IIH

Input Coding

VIN = 0V or + 15V

See Tables 1 through 3

-

0.8

-

0.8

V

2.4

-

2.4

-

V

-

±1

-

±1

µA

Binary/Offset Binary

Input Capacitance

(Note 4)

-

4

-

4

pF

POWER SUPPLY CHARACTERISTICS

Power Supply Voltage Range

(Note 6)

+5 to +16

V

I+

All Digital Inputs High or Low (Excluding Ladder Network)

-

2

-

2.5

mA

NOTES:

2. Full Scale Range (FSR) is 10V for unipolar and ±10V for bipolar modes.

3. Using internal feedback resistor, RFEEDBACK.

4. Guaranteed by design or characterization and not production tested.

5. Accuracy not guaranteed unless outputs at ground potential.

6. Accuracy is tested and guaranteed at V+ = +15V, only.

Definition of Terms

Nonlinearity: Error contributed by deviation of the DAC

transfer function from a “best straight line” through the actual

plot of transfer function. Normally expressed as a

percentage of full scale range or in (sub)multiples of 1 LSB.

Resolution: It is addressing the smallest distinct analog

output change that a D/A converter can produce. It is

commonly expressed as the number of converter bits. A

converter with resolution of n bits can resolve output changes

of 2-N of the full-scale range, e.g., 2-N VREF for a unipolar

conversion. Resolution by no means implies linearity.

Settling Time: Time required for the output of a DAC to

settle to within specified error band around its final value

(e.g., 1/2 LSB) for a given digital input change, i.e., all digital

inputs LOW to HIGH and HIGH to LOW.

Gain Error: The difference between actual and ideal analog

output values at full-scale range, i.e., all digital inputs at

HIGH state. It is expressed as a percentage of full scale

range or in (sub)multiples of 1 LSB.

Feedthrough Error: Error caused by capacitive coupling

from VREF to IOUT1 with all digital inputs LOW.

Output Capacitance: Capacitance from IOUT1, and IOUT2

terminals to ground.

Output Leakage Current: Current which appears on

IOUT1, terminal when all digital inputs are LOW or on IOUT2

terminal when all digital inputs are HIGH.

For further information on the use of this device, see the

following Application Notes:

Application Notes

NOTE #

DESCRIPTION

AN002 “Principles of Data Acquisition and Conversion”

AN018 “Do’s and Don’ts of Applying A/D Converters”

AN042

“Interpretation of Data Conversion Accuracy

Specifications”

Detailed Description

The AD7533 is a monolithic multiplying D/A converter. A

highly stable thin film R-2R resistor ladder network and

NMOS SPDT switches form the basis of the converter

circuit, CMOS level shifters permit low power TTL/CMOS

3

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