AD5582YRVZ

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P20

REV. A–10–

AD5582/AD5583

R/W

A0/A1

DATA IN

t

WCS

=

20ns

t

WH

=

0ns

CS

RS

LDAC

t

AH

=

0ns

t

LDW

=

20ns

t

LH

=

0ns

t

LS

=

0ns

t

WDS

=

35ns

t

WDH

=

0ns

t

RESET

=

20ns

t

WS

=

35ns

t

AS

=

35ns

Figure 2c. Data Write (Input and Output Registers) Timing

R/W

A0/A1

DATA OUT

CS

HI-Z DATA VALID HI-Z

t

RCS

=

130ns

t

RDS

=

35ns

t

RDH

=

0ns

t

AS

=

35ns

t

AH

=

0ns

t

DZ

=

100ns MAXt

CSD

=

100ns MAX

Figure 2d. Data Output (Read Timing)

REV. A

Typical Performance Characteristics–AD5582/AD5583

–11–

CODE (Decimal)

1.0

0512 1024 2048 3072 4096

INL (LSB)

0.6

0.2

–0.2

–0.6

–1.0

1536 2560 3584

0.8

0.4

0

–0.4

–0.8

TPC 1. AD5582 Integral Nonlinearity Error

CODE (Decimal)

1.0

0 512 1024 2048 3072 4096

DNL ( LSB)

0.6

0.2

–0.2

–0.6

–1.0

1536 2560 3584

0.8

0.4

0

–0.4

–0.8

TPC 2. AD5582 Differential Nonlinearity Error

CODE (Decimal)

1.0

0128 256 512 768 1024

INL (LSB)

0.6

0.2

–0.2

–0.6

–1.0

384 640 896

0.8

0.4

0

–0.4

–0.8

DAC-A

DAC-B

DAC-D

DAC-C

TPC 3. AD5583 Integral Nonlinearity Error

CODE (Decimal)

1.0

01282565127681024

DNL (LSB)

0.6

0.2

–0.2

–0.6

–1.0

384 640 896

0.8

0.4

0

–0.4

–0.8

TPC 4. AD5583 Differential Nonlinearity Error

V

DD

– V

REFH

(mV)

6

0510 20 30

ERROR (LSB)

2

–2

–6

15 25

4

0

–4

ZSE

DNL

V

DD

= 5V

V

SS

= 0V

V

REFL

= 0V

NO LOAD

INL

GE

TPC 5. AD5582 INL, DNL, ZSE, and GE at Positive

Rail-to-Rail Operation

V

REFL

– V

SS

(mV)

4

0510 20 35

ERROR (LSB)

1

–1

–4

15 25

2

0

–2

ZSE

DNL

V

DD

= +5V

V

SS

= –5V

V

REFH

= +4V

NO LOAD

INL

GE

30

3

–3

TPC 6. AD5582 INL, DNL, GE, and ZSE at Negative

Rail-to-Rail Operation

REV. A–12–

AD5582/AD5583

CODE (Decimal)

1.0

0 512 1024 2048 4096

INL (LSB)

0.2

–0.4

–1.0

1536 2560

0.4

0

–0.6

V

DD

= 5V

V

SS

= 5V

V

REFH

= 4V

V

REFL

= 0V

3584

0.8

–0.8

3072

0.6

–0.2

R

L

= NO LOAD

R

L

= 260

R

L

= 390

R

L

= 790

RESISTIVE LOAD R

L

IS BETWEEN

V

OUT

AND GND

TPC 7. AD5582 INL at Various Resistive Loads

CODE (Decimal)

0.5

0 512 1024 2048 4096

DNL (LSB)

0.1

–0.2

–0.5

1536 2560

0.2

0

–0.3

V

DD

= 5V

V

SS

= 5V

V

REFH

= 4V

V

REFL

= 0V

3584

0.4

–0.4

3072

0.3

–0.1

RESISTIVE LOAD R

L

IS BETWEEN

V

OUT

AND GND

R

L

= NO LOAD

R

L

= 260

TPC 8. AD5582 DNL at Various Resistive Loads

R

L

()

0

100 1k 100k

GAIN ERROR (LSB)

–10

–16

–12

10k

–14

–8

RESISTIVE LOAD R

L

IS BETWEEN

V

OUT

AND GND

–4

–6

–2

V

DD

= +5V OR +15V

V

SS

= –5V OR 0V

V

REFH

= +4V

V

REFL

= 0V

V

DD

= +15V

V

SS

= 0V

V

REFH

= +10V

V

REFL

= 0V

TPC 9. AD5582 Gain Error vs. Resistive Load

R

L

_PU ()

40

100 1k 1M

ERROR (LSB)

–10

–40

–20

10k

–30

0

PULL-UP RESISTIVE LOAD R

L

IS BETWEEN V

DD

AND V

OUT

20

10

30

100k

ZERO

SCALE

ERROR

V

REFL

= V

SS

V

REFL

> V

SS

GAIN

ERROR

GAIN

ERROR

ZERO

SCALE

ERROR

TPC 10. AD5582 Gain and Zero-Scale Error vs.

Pull-Up Resistive Loads

V

REFH

– V

REFL

(V)

5.0

02 12

LINEARITY ERROR (LSB)

2.5

0

1.5

6

0.5

3.0

4.0

3.5

4.5

10

INL

84

2.0

1.0

DNL

TPC 11. AD5582 Linearity Errors vs. Differential

Reference Ranges

V

DD

(V)

2.00

02 16

I

DD

(mA)

1.75

1.50

1.65

6

1.55

1.80

1.90

1.85

1.95

1284

1.70

1.60

1410

V

SS

= 0V

V

REFH

= +4V

V

REFL

= 0V

V

DD

= +5V

V

SS

= –5V

V

REFH

= +4V

TPC 12. AD5582 Supply Current vs. Supply Voltage

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P20

AD5582YRVZ

Mfr. #:

Manufacturer:

Analog Devices Inc.

Description:

Digital to Analog Converters - DAC IC Quad 12bit Parallel In

Lifecycle:

New from this manufacturer.

Delivery:

DHL FedEx Ups TNT EMS

Payment:

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