Analog Devices AD7945BR, AD7945BN, AD7945ARS-B, AD7945AN-B, AD7943BRS Datasheet

FUNCTIONAL BLOCK DIAGRAMS

V

DD

R

FB

DGND

AD7948

DB7–DB0

DF/DOR
CTRL

LDAC

WR

CSLSB

CSMSB

I

OUT1

AGND

V

REF

12-BIT DAC

12

12

DATA OVERRIDE LOGIC

12

DAC REGISTER

12

INPUT REGISTERS

CONTROL

LOGIC

DATA STEERING LOGIC

8

CS

WR

V

DD

R

FB

I

OUT1

AGND

V

REF

DGNDDB11–DB0

AD7945

12-BIT DAC

12

INPUT LATCH

12

AD7943

V

DD

R

FB

I

OUT1

AGND

I

OUT2

SRO

STB1 DGNDSTB2

STB3

STB4

CLR

LD1
LD2

SRI

V

REF

12-BIT DAC

DAC REGISTER

INPUT SHIFT REGISTER

REV. B

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reliable. However, no responsibility is assumed by Analog Devices 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 Analog Devices.

a

+3.3 V/+5 V Multiplying

12-Bit DACs

AD7943/AD7945/AD7948

FEATURES
12-Bit Multiplying DACs
Guaranteed Specifications with +3.3 V/+5 V Supply

0.5 LSBs INL and DNL
Low Power: 5 mW typ
Fast Interface

40 ns Strobe Pulsewidth (AD7943)

40 ns Write Pulsewidth (AD7945, AD7948)
Low Glitch: 60 nV-s with Amplifier Connected
Fast Settling: 600 ns to 0.01% with AD843

APPLICATIONS
Battery-Powered Instrumentation
Laptop Computers
Upgrades for All 754x Series DACs (5 V Designs)

GENERAL DESCRIPTION

The AD7943, AD7945 and AD7948 are fast 12-bit multiplying
DACs that operate from a single +5 V supply (Normal Mode)
and a single +3.3 V to +5 V supply (Biased Mode). The
AD7943 has a serial interface, the AD7945 has a 12-bit parallel
interface, and the AD7948 has an 8-bit byte interface. They will
replace the industry-standard AD7543, AD7545 and AD7548
in many applications, and they offer superior speed and power
consumption performance.

The AD7943 is available in 16-lead DIP, 16-lead SOP (Small
Outline Package) and 20-lead SSOP (Shrink Small Outline
Package).

The AD7945 is available in 20-lead DIP, 20-lead SOP and 20­lead SSOP.

The AD7948 is available in 20-lead DIP, 20-lead SOP and 20­lead SSOP.

One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781/329-4700 World Wide Web Site: http://www.analog.com
Fax: 781/326-8703 © Analog Devices, Inc., 1998

REV. B

–2–

AD7943/AD7945/AD7948–SPECIFICATIONS

1

Parameter B Grades2T Grade

2, 3

Units Test Conditions/Comments

ACCURACY

Resolution 12 12 Bits 1 LSB = V

REF

/212= 2.44 mV when V

REF

=10V

Relative Accuracy ± 0.5 ± 0.5 LSB max
Differential Nonlinearity ± 0.5 ± 0.5 LSB max All Grades Guaranteed Monotonic over

Temperature

Gain Error

T

MIN

to T

MAX

±2 ±2 LSB max

Gain Temperature Coefficient

4

2 2 ppm FSR/°C typ
5 5 ppm FSR/°C max

Output Leakage Current

I

OUT1

@ +25°C 10 10 nA max See Terminology Section

T

MIN

to T

MAX

100 100 nA max Typically 20 nA over Temperature

REFERENCE INPUT

Input Resistance 6 6 kΩ min Typical Input Resistance = 9 kΩ

12 12 kΩ max

DIGITAL INPUTS

V

INH

, Input High Voltage 2.4 2.4 V min

V

INL

, Input Low Voltage 0.8 0.8 V max

I

INH

, Input Current ±1 ±1 µA max

CIN, Input Capacitance

4

10 10 pF max

DIGITAL OUTPUT (AD7943 SRO) For 1 CMOS Load

Output Low Voltage (V

OL

) 0.2 0.2 V max

Output High Voltage (VOH)V

DD

– 0.2 V

DD

– 0.2 V min

POWER REQUIREMENTS

V

DD

Range 4.5/5.5 4.5/5.5 V min/V max

Power Supply Sensitivity

4

∆Gain/∆V

DD

–75 –75 dB typ

I

DD

(AD7943) 5 5 µA max V

INH

= VDD – 0.1 V min, V

INL

= 0.1 V max.

SRO Open Circuit. No STB Signal. Typically

1 µA. Typically 100 µA with a 1 MHz STB

Frequency. At Input Levels of 0.8 V and 2.4 V,
I

DD

Is Typically 2.5 mA.

I

DD

(AD7945, AD7948) 5 5 µA max V

INH

= VDD – 0.1 V min, V

INL

= 0.1 V max.

Typically 1 µA. At Input Levels of 0.8 V and

2.4 V, IDD Is Typically 2.5 mA.

NOTES

1

The AD7943, AD7945 and AD7948 are specified in the normal current mode configuration and in the biased current mode for single-supply applications.
Figures 14 and 15 are examples of normal mode operation.

2

Temperature ranges as follows: B Grades: –40°C to +85°C; T Grade: –55°C to +125°C.

3

The T Grade applies to the AD7945 only.

4

Guaranteed by design.

Specifications subject to change without notice.

NORMAL MODE

(AD7943: V

DD

= +4.5 V to +5.5 V; V

IOUT1

= V

IOUT2

= AGND = 0 V; V

REF

= +10 V; TA = T

MIN

to T

MAX

, unless otherwise noted.

AD7945, AD7948: VDD = +4.5 V to +5.5 V; V

IOUT1

= AGND = 0 V; V

REF

= +10 V; TA = T

MIN

to T

MAX

, unless otherwise noted.)

AD7943/AD7945/AD7948

REV. B

–3–

Parameter A Grades2Units Test Conditions/Comments

ACCURACY

Resolution 12 Bits 1 LSB = (V

IOUT1

– V

REF)

/2

12

= 300 µV When

V

IOUT1

= 1.23 V and V

REF

= 0 V

Relative Accuracy ±1 LSB max
Differential Nonlinearity ± 0.9 LSB max All Grades Guaranteed Monotonic

over Temperature

Gain Error @ +25°C ±3 LSB max

T

MIN

to T

MAX

±4 LSB max

Gain Temperature Coefficient

3

2 ppm FSR/°C typ
5 ppm FSR/°C max

Output Leakage Current See Terminology Section

I

OUT1

@ +25°C 10 nA max

T

MIN

to T

MAX

100 nA max Typically 20 nA over Temperature

Input Resistance This Varies with DAC Input Code

@ I

OUT2

Pin (AD7943) 6 kΩ min

@ AGND Pin (AD7945, AD7948) 6 kΩ min

DIGITAL INPUTS

V

INH

, Input High Voltage @ VDD = +5 V 2.4 V min

V

INH

, Input High Voltage @ VDD = +3.3 V 2.1 V min

V

INL

, Input Low Voltage @ VDD = +5 V 0.8 V max

V

INL

, Input Low Voltage @ VDD = +3.3 V 0.6 V max

I

INH

, Input Current ±1 µA max

CIN, Input Capacitance

3

10 pF max

DIGITAL OUTPUT (SRO) For 1 CMOS Load

Output Low Voltage (V

OL

) 0.2 V max

Output High Voltage (VOH)V

DD

– 0.2 V min

POWER REQUIREMENTS

V

DD

Range 3.0/5.5 V min/V max

Power Supply Sensitivity

3

∆Gain/∆V

DD

–75 dB typ

I

DD

(AD7943) 5 µA max V

INH

= VDD – 0.1 V min, V

INL

= 0.1 V max.

SRO Open Circuit; No STB Signal; Typically

1 µA. Typically 100 µA with 1 MHz STB

Frequency.

I

DD

(AD7945, AD7948) 5 µA max V

INH

= VDD – 0.1 V min, V

INL

= 0.1 V max.

Typically 1 µA.

NOTES

1

These specifications apply with the devices biased up at 1.23 V for single supply applications. The model numbering reflects this by means of a “–B” suffix
(for example: AD7943AN-B). Figure 16 is an example of Biased Mode Operation.

2

Temperature ranges as follows: A Versions: –40° C to +85° C.

3

Guaranteed by design.

Specifications subject to change without notice.

BIASED MODE

SPECIFICATIONS

1

(AD7943: VDD = +3 V to +5.5 V; V

IOUT1

=V

IOUT2

= AGND = 1.23 V; V

REF

= +0 V to 2.45 V; TA = T

MIN

to T

MAX

, unless other-

wise noted. AD7945, AD7948: VDD = +3 V to +5.5 V; V

IOUT1

= AGND = 1.23 V; V

REF

= +0 V to 2.45 V; TA = T

MIN

to T

MAX

, unless otherwise noted.)

AD7943/AD7945/AD7948

REV. B–4–

AC PERFORMANCE CHARACTERISTICS

NORMAL MODE

Parameter B Grades T Grade Units Test Conditions/Comments

DYNAMIC PERFORMANCE

Output Voltage Settling Time 600 700 ns typ To 0.01% of Full-Scale Range. V

REF

=
+10 V; DAC Latch Alternately Loaded with
All 0s and All 1s

Digital to Analog Glitch Impulse 60 60 nV-s typ Measured with V

REF

= 0 V. DAC Latch

Alternately Loaded with All 0s and All 1s

Multiplying Feedthrough Error –75 –75 dB max DAC Latch Loaded with All 0s
Output Capacitance 60 60 pF max All 1s Loaded to DAC

30 30 pF max All 0s Loaded to DAC

Digital Feedthrough (AD7943) 5 5 nV-s typ Feedthrough to the DAC Output with LD1,

LD2 High and Alternate Loading of All 0s
and All 1s into the Input Shift Register

Digital Feedthrough (AD7945, AD7948) 5 5 nV-s typ Feedthrough to the DAC Output with CS

High and Alternate Loading of All 0s and
All 1s to the DAC Bus

Total Harmonic Distortion –83 –83 dB typ
Output Noise Spectral Density

@ 1 kHz 35 35 nV/√ Hz typ All 1s Loaded to DAC. V

REF

= 0 V. Output

Op Amp Is OP07

Specifications subject to change without notice.

(AD7943: VDD = +4.5 V to +5.5 V; V

IOUT1

= V

IOUT2

= AGND = 0 V. AD7945, AD7948: VDD = +4.5 V to +5.5 V; V

IOUT1

=AGND =

0 V. V

REF

= 6 V rms, 1 kHz sine wave; TA = T

MIN

to T

MAX

; DAC output op amp is AD843; unless otherwise noted.) These characteristics are in-

cluded for Design Guidance and are not subject to test.

AC PERFORMANCE CHARACTERISTICS

BIASED MODE

(AD7943: V

DD

= +3 V to +5.5 V; V

IOUT1

= V

IOUT2

= AGND = 1.23 V. AD7945, AD7948: VDD = +3 V to +5.5 V; V

IOUT1

= AGND =

1.23 V. V

REF

= 1 kHz, 2.45 V p-p, sine wave biased at 1.23 V; DAC output op amp is AD820; TA = T

MIN

to T

MAX

; unless otherwise noted.) These

characteristics are included for Design Guidance and are not subject to test.

Parameter A Grades Units Test Conditions/Comments

DYNAMIC PERFORMANCE

Output Voltage Settling Time 5 µs typ To 0.01% of Full-Scale Range. V

REF

= 0 V

DAC Latch Alternately Loaded with All 0s and All 1s

Digital to Analog Glitch Impulse 60 nV-s typ V

REF

= 1.23 V. DAC Register Alternately Loaded

with All 0s and All 1s
Multiplying Feedthrough Error –75 dB max DAC Latch Loaded with All 0s
Output Capacitance 60 pF max All 1s Loaded to DAC

30 pF max All 0s Loaded to DAC

Digital Feedthrough 5 nV-s typ Feedthrough to the DAC Output with LD1, LD2

High and Alternate Loading of All 0s and All 1s

into the Input Shift Register
Digital Feedthrough (AD7945, AD7948) 5 nV-s typ Feedthrough to the DAC Output with CS High

and Alternate Loading of All 0s and All 1s to the

DAC Bus
Total Harmonic Distortion –83 dB typ
Output Noise Spectral Density

@ 1 kHz 25 nV/√Hz typ All 1s Loaded to DAC. V

REF

= 1.23 V

Specifications subject to change without notice.

AD7943/AD7945/AD7948

REV. B –5–

(TA = T

MIN

to T

MAX

, unless otherwise noted)

Limit @ Limit @

Parameter VDD = +3 V to +3.6 V VDD = +4.5 V to +5.5 V Units Description

t

STB

2

60 40 ns min STB Pulsewidth

t

DS

15 10 ns min Data Setup Time

t

DH

35 25 ns min Data Hold Time

t

SRI

55 35 ns min SRI Data Pulsewidth

t

LD

55 35 ns min Load Pulsewidth

t

CLR

55 35 ns min CLR Pulsewidth

t

ASB

0 0 ns min Min Time Between Strobing Input Shift

Register and Loading DAC Register

t

SV

3

60 35 ns max STB Clocking Edge to SRO Data Valid Delay

NOTES

1

All input signals are specified with tr = tf = 5 ns (10% to 90% of 5 V) and timed from a voltage level of 1.6 V. tr and tf should not exceed 1 µs on any digital input.

2

STB mark/space ratio range is 60/40 to 40/60.

3

t

SV

is measured with the load circuit of Figure 2 and defined as the time required for the output to cross 0.8 V or 2.4 V.

Specifications subject to change without notice.

t

STB

STB1,
STB2,
STB4

STB3

t

DS

t

DH

t

SRI

SRI

DB11(N)

(MSB)

DB10(N)

DB0(N)

DB0(N–1)

DB10(N–1)

LD1,
LD2,
CLR

SRO

t

SV

t

LD

, t

CLR

t

ASB

Figure 1. AD7943 Timing Diagram

TO OUTPUT

PIN

C

L

50pF

1.6mA

I

OL

+2.1V

I

OH

200mA

Figure 2. Load Circuit for Digital Output Timing Specifications

AD7943 TIMING SPECIFICATIONS

1