FN3104.4

AD7520, AD7521

10-Bit, 12-Bit, Multiplying D/A Converters

The AD7520 and AD7521 are monolithic, high accuracy, low
cost 10-bit and 12-bit resolution, multiplying digital-to-analog
converters (DAC). Intersil's thin-film on CMOS processing
gives up to 10-bit accuracy with TTL/CMOS compatible
operation. Digital inputs are fully protected against static
discharge by diodes to ground and positive supply.

Typical applications include digital/analog interfacing,
multiplication and division, programmable power supplies,
CRT character generation, digitally controlled gain circuits,
integrators and attenuators, etc.

Features

· AD7520, 10-Bit Resolution; 8-Bit Linearity

· AD7521, 12-Bit Resolution; 10-Bit Linearity

· Low Power Dissipation (Max). . . . . . . . . . . . . . . . . 20mW

· Low Nonlinearity Tempco at 2ppm of FSR/

· Current Settling Time to 0.05% of FSR . . . . . . . . . . 1.0

· Supply Voltage Range . . . . . . . . . . . . . . . . .

5V to +15V

· TTL/CMOS Compatible

· Full Input Static Protection

Ordering Information

PART

NUMBER

LINEARITY

(INL, DNL)

TEMP.

RANGE

(

PACKAGE

PKG.

NO.

AD7520JN

0.2% (8-Bit)

0 to 70

16 Ld PDIP E16.3

AD7521LN

0.05% (10-

Bit)

0 to 70

18 Ld PDIP E18.3

Pinouts

AD7520 (PDIP)

TOP VIEW

AD7521 (PDIP)

TOP VIEW

OUT1

OUT2

GND

BIT 1 (MSB)

BIT 2

BIT 3

BIT 5

BIT 4

FEEDBACK

V+

BIT 10 (LSB)

BIT 9

BIT 8

BIT 7

BIT 6

REF

OUT1

OUT2

GND

BIT 1 (MSB)

BIT 2

BIT 3

BIT 5

BIT 4

FEEDBACK

V+

BIT 11

BIT 9

BIT 8

BIT 7

REF

BIT 12 (LSB)

BIT 10

BIT 6

Data Sheet

August 2002

CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.

1-888-INTERSIL or 321-724-7143

Intersil (and design) is a registered trademark of Intersil Americas Inc.

Absolute Maximum Ratings

Thermal Information

Supply Voltage (V+ to GND) . . . . . . . . . . . . . . . . . . . . . . . . . . .+17V
V

REF

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

25V

Digital Input Voltage Range . . . . . . . . . . . . . . . . . . . . . . . V+ to GND
Output Voltage Compliance . . . . . . . . . . . . . . . . . . . . . -100mV to V+

Operating Conditions

Temperature Ranges

JN, LN Versions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0

C to 70

Thermal Resistance (Typical, Note 1)

(

C/W)

(

C/W)

16 Ld PDIP Package

N/A

18 Ld PDIP Package

N/A

Maximum Junction Temperature (Plastic Packages) . . . . . . .150

Maximum Storage Temperature Range . . . . . . . . . . -65

C to 150

Maximum Lead Temperature (Soldering 10s) . . . . . . . . . . . . .300

CAUTION: Stresses above those listed in "Absolute Maximum Ratings" may cause permanent damage to the device. This is a stress only rating and operation of the
device at these or any other conditions above those indicated in the operational sections of this specification is not implied.

The digital control inputs are zener protected; however, permanent damage may occur on unconnected units under high energy electrostatic fields. Keep unused units in
conductive foam at all times.

Do not apply voltages higher than V

or less than GND potential on any terminal except V

REF

and R

FEEDBACK

is measured with the component mounted on a low effective thermal conductivity test board in free air. See Tech Brief TB379 for details.

Electrical Specifications

V+ = +15V, V

REF

= +10V, T

= 25

C Unless Otherwise Specified

PARAMETER

TEST CONDITIONS

AD7520

AD7521

UNITS

MIN

TYP

MAX

MIN

TYP

MAX

SYSTEM PERFORMANCE (Note 2)
Resolution

Bits

Nonlinearity

(Note 3) (Figure 2)
-10V

REF

+10V

0.2

(8-Bit)

% of
FSR

-10V

REF

+10V

(Figure 2)

0.05

(10-Bit)

0.05

(10-Bit)

% of
FSR

Nonlinearity Tempco

-10V

REF

+10V

(Notes 3, 4)

ppm of

FSR/

Gain Error

0.3

% of
FSR

Gain Error Tempco

ppm of

FSR/

Output Leakage Current
(Either Output)

Over the Specified
Temperature Range

200

DYNAMIC CHARACTERISTICS
Output Current Settling Time

To 0.05% of FSR (All Digital
Inputs Low To High And High
To Low) (Note 4) (Figure 7)

1.0

Feedthrough Error

REF

= 20V

P-P

, 100kHz

All Digital Inputs Low (Note 4)
(Figure 6)

P-P

REFERENCE INPUT
Input Resistance

All Digital Inputs High
I

OUT1

at Ground

ANALOG OUTPUT
Output Capacitance

OUT1

All Digital Inputs High
(Note 4) (Figure 5)

200

OUT2

OUT1

All Digital Inputs Low
(Note 4) (Figure 5)

OUT2

200

Output Noise

Both Outputs
(Note 4) (Figure 4)

Equivalent

to 10k

Equivalent

to 10k

Johnson

Noise

DIGITAL INPUTS
Low State Threshold, V

Over the Specified
Temperature Range
V

= 0V or +15V

0.8

High State Threshold, V

2.4

Input Current, I

, I

Input Coding

See Tables 1 and 2

Binary/Offset Binary

AD7520, AD7521

Functional Diagram

POWER SUPPLY CHARACTERISTICS
Power Supply Rejection

V+ = 14.5V to 15.5V
(Note 3) (Figure 3)

0.005

FSR/%

V+

Power Supply Voltage Range

+5 to +15

I+

All Digital Inputs at 0V or V+
Excluding Ladder Network

All Digital Inputs High or Low
Excluding Ladder Network

Total Power Dissipation

Including the Ladder Network

NOTES:

2. Full Scale Range (FSR) is 10V for Unipolar and

10V for Bipolar modes.

3. Using internal feedback resistor R

FEEDBACK

4. Guaranteed by design, or characterization and not production tested.
5. Accuracy not guaranteed unless outputs at GND potential.
6. Accuracy is tested and guaranteed at V+ = 15V only.

Electrical Specifications

V+ = +15V, V

REF

= +10V, T

= 25

C Unless Otherwise Specified (Continued)

PARAMETER

TEST CONDITIONS

AD7520

AD7521

UNITS

MIN

TYP

MAX

MIN

TYP

MAX

Pin Descriptions

AD7520

AD7521

PIN NAME

DESCRIPTION

OUT1

Current Out summing junction of the R2R ladder network.

OUT2

Current Out virtual ground, return path for the R2R ladder network.

GND

Digital Ground. Ground potential for digital side of D/A.

Bits 1(MSB)

Most Significant Digital Data Bit.

Bit 2

Digital Bit 2.

Bit 3

Digital Bit 3.

Bit 4

Digital Bit 4.

Bit 5

Digital Bit 5.

Bit 6

Digital Bit 6.

Bit 7

Digital Bit 7.

Bit 8

Digital Bit 8.

Bit 9

Digital Bit 9.

Bit 10

Digital Bit 10 (AD7521). Least Significant Digital Data Bit (AD7520).

Bit 11

Digital Bit 11 (AD7521).

Bit 12

Least Significant Digital Data Bit (AD7521).

V+

Power Supply +5V to +15V.

REF

Voltage Reference Input to set the output range. Supplies the R2R resistor ladder.

FEEDBACK

Feedback resistor used for the current to voltage conversion when using an external Op Amp.

20k

GND

OUT2

OUT1

FEEDBACK

BIT 3

BIT 2

MSB

REF

20k

10k

SPDT NMOS

SWITCHES

10k

NOTES:
Switches shown for Digital Inputs "High".
Resistor values are typical.

AD7520, AD7521

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

REF

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.,

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 V

REF

to I

OUT1

with all digital inputs LOW.

Output Capacitance: Capacitance from I

OUT1

and I

OUT2

terminals to ground.

Output Leakage Current: Current which appears on I

OUT1

terminal when all digital inputs are LOW or on I

OUT2

terminal

when all digital inputs are HIGH.

Detailed Description

The AD7520 and AD7521 are monolithic, multiplying D/A
converters. 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 compatible operation. An external voltage or

current reference and an operational amplifier are all that is
required for most voltage output applications.

A simplified equivalent circuit of the DAC is shown in the
Functional Diagram. The NMOS SPDT switches steer the
ladder leg currents between I

OUT1

and I

OUT2

buses which

must be held either at ground potential. This configuration
maintains a constant current in each ladder leg independent
of the input code.

Converter errors are further reduced by using separate
metal interconnections between the major bits and the
outputs. Use of high threshold switches reduce offset
(leakage) errors to a negligible level.

The level shifter circuits are comprised of three inverters with
positive feedback from the output of the second to the first, see
Figure 1. This configuration results in TTL/CMOS compatible
operation over the full military temperature range. With the
ladder SPDT switches driven by the level shifter, each switch is
binarily weighted for an ON resistance proportional to the
respective ladder leg current. This assures a constant voltage
drop across each switch, creating equipotential terminations for
the 2R ladder resistors and highly accurate leg currents.

V+

DTL/TTL/

CMOS INPUT

1 3

TO LADDER

OUT2

OUT1

FIGURE 1. CMOS LEVEL SHIFTER AND SWITCH

Test Circuits

The following test circuits apply for the AD7520. Similar circuits are used for the AD7521.

FIGURE 2. NONLINEARITY

FIGURE 3. POWER SUPPLY REJECTION

10-BIT

BINARY

COUNTER

GND

15 16

13 3 2

AD7520

BIT 1

(MSB)

BIT 10

(LSB)

LINEARITY

ERROR

x 100

FEEDBACK

OUT1

OUT2

HA2600

REF

BIT 1

(MSB)

BIT 10

BIT 11

BIT 12

10k

0.01%

10k

0.01%

CLOCK

+15V

REF

HA2600

12-BIT

REFERENCE

DAC

13 3 2

AD7520

BIT 1

(MSB)

BIT 10

(LSB)

HA2600

500k

UNGROUNDED
SINE WAVE
GENERATOR
40Hz 1V

P-P

0.01%

5K 0.01%

FEEDBACK

+15V

+10V

REF

OUT1

OUT2

GND

ERROR

x 100

AD7520, AD7521

Applications

Unipolar Binary Operation

The circuit configuration for operating the AD7520 in
unipolar mode is shown in Figure 8. Similar circuits can be
used for AD7521. With positive and negative V

REF

values

the circuit is capable of 2-Quadrant multiplication. The Digital
Input Code/Analog Output Value table for unipolar mode is
given in Table 1.

Zero Offset Adjustment

1. Connect all digital inputs to GND.
2. Adjust the offset zero adjust trimpot of the output

operational amplifier for 0V at V

OUT

Gain Adjustment

1. Connect all digital inputs to V+.
2. Monitor V

OUT

for a -V

REF

(1-2

-N

) reading. (N = 8 for

AD7520 and N = 10 for AD7521).

FIGURE 4. NOISE

FIGURE 5. OUTPUT CAPACITANCE

FIGURE 6. FEEDTHROUGH ERROR

FIGURE 7. OUTPUT CURRENT SETTLING TIME

Test Circuits

The following test circuits apply for the AD7520. Similar circuits are used for the AD7521.

(Continued)

13 3 1

AD7520

101ALN

0.1

OUT1

OUT2

10k

OUT

100

+15V

50k

-50V

f = 1kHz

BW = 1Hz

QUAN

TECH

MODEL 134D

WAVE

ANALYZER

+11V (ADJUST FOR V

OUT

= 0V)

13 3

AD7520

BIT 1 (MSB)

BIT 10 (LSB)

+15V

SCOPE

100mV

P-P

1MHz

+15V

13 3

AD7520

BIT 1 (MSB)

BIT 10 (LSB)

+15V

REF

= 20V

P-P

GND

OUT1

OUT2

OUT

100kHz SINE WAVE

HA2600

13 3

AD7520

BIT 1 (MSB)

BIT 10 (LSB)

+15V

SCOPE

+100mV

100

GND

REF

DIGITAL

OUT2

EXTRAPOLATE

5t: 1% SETTLING (1mV)
8t: 0.03% SETTLING
t = RISE TIME

INPUT

+5V

+10V

13 3

AD7520

BIT 1 (MSB)

BIT 10 (LSB)

+15V

REF

GND

OUT1

OUT2

OUT

FEEDBACK

DIGITAL

INPUT

FIGURE 8. UNIPOLAR BINARY OPERATION (2-QUADRANT

MULTIPLICATION)

TABLE 1. CODE TABLE - UNlPOLAR BINARY OPERATION

DIGITAL INPUT

ANALOG OUTPUT

1111111111

-V

REF

(1-2

-N

)

1000000001

-V

REF

(

+ 2

-N

)

1000000000

-V

REF

0111111111

-V

REF

(

-2

-N

)

0000000001

-V

REF

-N

)

0000000000

NOTES:

1. LSB = 2

-N

REF

2. N = 8 for 7520

N = 10 for 7521.

AD7520, AD7521

3. To decrease V

OUT

, connect a series resistor (0 to 250

)

between the reference voltage and the V

REF

terminal.

4. To increase V

OUT

, connect a series resistor (0 to 250

)

in the I

OUT1

amplifier feedback loop.

Bipolar (Offset Binary) Operation

The circuit configuration for operating the AD7520 in the
bipolar mode is given in Figure 9. Similar circuits can be
used for AD7521. Using offset binary digital input codes
and positive and negative reference voltage values,
4-Quadrant multiplication can be realized. The "Digital
Input Code/Analog Output Value" table for bipolar mode is
given in Table 2.

A "Logic 1" input at any digital input forces the corresponding
ladder switch to steer the bit current to IOUT1 bus. A "Logic 0"
input forces the bit current to IOUT2 bus. For any code the
IOUT1 and IOUT2 bus currents are complements of one
another. The current amplifier at IOUT2 changes the polarity
of IOUT2 current and the transconductance amplifier at
IOUT1 output sums the two currents. This configuration
doubles the output range. The difference current resulting
at zero offset binary code, (MSB = "Logic 1", all other
bits = "Logic 0"), is corrected by using an external resistor,
(10MW), from VREF to IOUT2 .

Offset Adjustment

1. Adjust V

REF

to approximately +10V.

2. Connect all digital inputs to "Logic 1".
3. Adjust I

OUT2

amplifier offset adjust trimpot for 0V

1mV at

OUT2

amplifier output.

4. Connect MSB (Bit 1) to "Logic 1" and all other bits to

"Logic 0".

5. Adjust I

OUT1

amplifier offset adjust trimpot for 0V

1mV

at V

OUT

Gain Adjustment

1. Connect all digital inputs to V+.
2. Monitor V

OUT

for a -V

REF

(1-2

-(N-1)

volts reading. (N = 8 for

AD7520, and N = 10 for AD7521.).

3. To increase V

OUT

, connect a series resistor of up to 250

between V

OUT

and R

FEEDBACK

4. To decrease V

OUT

, connect a series resister of up to 250

between the reference voltage and the V

REF

terminal.

TABLE 2. BlPOLAR (OFFSET BINARY) CODE TABLE

DIGITAL INPUT

ANALOG OUTPUT

1111111111

-V

REF

(1-2

-(N-1)

)

1000000001

-V

REF

-(N-1)

)

1000000000

0111111111

REF

-(N-1)

)

0000000001

REF

(1-2

-(N-1)

)

0000000000

REF

NOTES:

1. LSB = 2

-(N-1)

REF

2. N = 8 for 7520

N = 10 for 7521.

13 3

AD7520

BIT 1

BIT 10

+15V

REF

OUT2

FEEDBACK

(MSB)

(LSB)

OUT1

R1 10K

0.01%

R2 10K

0.01%

DIGIT

INP

10M

FIGURE 9. BIPOLAR OPERATION (4-QUADRANT

MULTIPLICATION)

AD7520, AD7521

AD7520, AD7521

Dual-In-Line Plastic Packages (PDIP)

NOTES:

1. Controlling Dimensions: INCH. In case of conflict between English and

Metric dimensions, the inch dimensions control.

2. Dimensioning and tolerancing per ANSI Y14.5M-1982.
3. Symbols are defined in the "MO Series Symbol List" in Section 2.2 of

Publication No. 95.

4. Dimensions A, A1 and L are measured with the package seated in JE-

DEC seating plane gauge GS-3.

5. D, D1, and E1 dimensions do not include mold flash or protrusions.

Mold flash or protrusions shall not exceed 0.010 inch (0.25mm).

6. E and

are measured with the leads constrained to be perpendic-

ular to datum

7. e

and e

are measured at the lead tips with the leads unconstrained.

must be zero or greater.

8. B1 maximum dimensions do not include dambar protrusions. Dambar

protrusions shall not exceed 0.010 inch (0.25mm).

9. N is the maximum number of terminal positions.

10. Corner leads (1, N, N/2 and N/2 + 1) for E8.3, E16.3, E18.3, E28.3,

E42.6 will have a B1 dimension of 0.030 - 0.045 inch (0.76 - 1.14mm).

-C-

-B-

INDEX

1 2 3

N/2

AREA

SEATING

BASE

PLANE

-C-

-A-

0.010 (0.25)

C A

B S

E16.3

(JEDEC MS-001-BB ISSUE D)

16 LEAD DUAL-IN-LINE PLASTIC PACKAGE

SYMBOL

INCHES

MILLIMETERS

NOTES

MIN

MAX

MIN

MAX

0.210

5.33

0.015

0.39

0.115

0.195

2.93

4.95

0.014

0.022

0.356

0.558

0.045

0.070

1.15

1.77

8, 10

0.008

0.014

0.204

0.355

0.735

0.775

18.66

19.68

0.005

0.13

0.300

0.325

7.62

8.25

0.240

0.280

6.10

7.11

0.100 BSC

2.54 BSC

0.300 BSC

7.62 BSC

0.430

10.92

0.115

0.150

2.93

3.81

Rev. 0 12/93

All Intersil products are manufactured, assembled and tested utilizing ISO9000 quality systems.

Intersil Corporation's quality certifications can be viewed at website www.intersil.com/design/quality

Intersil products are sold by description only. Intersil Corporation reserves the right to make changes in circuit design and/or specifications at any time without notice.
Accordingly, the reader is cautioned to verify that data sheets are current before placing orders. Information furnished by Intersil is believed to be accurate and reliable. How-
ever, no responsibility is assumed by Intersil or its subsidiaries for its use; nor for any infringements of patents or other rights of third parties which may result from its use. No
license is granted by implication or otherwise under any patent or patent rights of Intersil or its subsidiaries.

For information regarding Intersil Corporation and its products, see web site www.intersil.com

AD7520, AD7521

Dual-In-Line Plastic Packages (PDIP)

NOTES:

1. Controlling Dimensions: INCH. In case of conflict between English and

Metric dimensions, the inch dimensions control.

2. Dimensioning and tolerancing per ANSI Y14.5M-1982.
3. Symbols are defined in the "MO Series Symbol List" in Section 2.2 of

Publication No. 95.

4. Dimensions A, A1 and L are measured with the package seated in

JEDEC seating plane gauge GS-3.

5. D, D1, and E1 dimensions do not include mold flash or protrusions.

Mold flash or protrusions shall not exceed 0.010 inch (0.25mm).

6. E and

are measured with the leads constrained to be perpendic-

ular to datum

7. e

and e

are measured at the lead tips with the leads unconstrained.

must be zero or greater.

8. B1 maximum dimensions do not include dambar protrusions. Dambar

protrusions shall not exceed 0.010 inch (0.25mm).

9. N is the maximum number of terminal positions.

10. Corner leads (1, N, N/2 and N/2 + 1) for E8.3, E16.3, E18.3, E28.3,

E42.6 will have a B1 dimension of 0.030 - 0.045 inch (0.76 - 1.14mm).

-C-

-B-

INDEX

1 2 3

N/2

AREA

SEATING

BASE

PLANE

-C-

-A-

0.010 (0.25)

C A

B S

E18.3

(JEDEC MS-001-BC ISSUE D)

18 LEAD DUAL-IN-LINE PLASTIC PACKAGE

SYMBOL

INCHES

MILLIMETERS

NOTES

MIN

MAX

MIN

MAX

0.210

5.33

0.015

0.39

0.115

0.195

2.93

4.95

0.014

0.022

0.356

0.558

0.045

0.070

1.15

1.77

8, 10

0.008

0.014

0.204

0.355

0.845

0.880

21.47

22.35

0.005

0.13

0.300

0.325

7.62

8.25

0.240

0.280

6.10

7.11

0.100 BSC

2.54 BSC

0.300 BSC

7.62 BSC

0.430

10.92

0.115

0.150

2.93

3.81

Rev. 0 12/93

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