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FEATURES

Four 10-Bit DACs in One Package

Serial and Parallel Loading Facilities Available

AD7804 Quad 10-Bit Serial Loading

AD7805 Quad 10-Bit Parallel Loading

AD7808 Octal 10-Bit Serial Loading

AD7809 Octal 10-Bit Parallel Loading

+3.3 V to +5 V Operation

Power-Down Mode

Power-On Reset

Standby Mode (All DACs/Individual DACs)

Low Power All CMOS Construction

10-Bit Resolution

Double Buffered DAC Registers

Dual External Reference Capability

APPLICATIONS

Optical Disk Drives

Instrumentation and Communication Systems

Process Control and Voltage Setpoint Control

Trim Potentiometer Replacement

Automatic Calibration

GENERAL DESCRIPTION

+3.3 V to +5 V Quad/Octal 10-Bit DACs

AD7804/AD7805/AD7808/AD7809

FUNCTIONAL BLOCK DIAGRAMS

REFOUT

REFIN

DIVIDER

COMP

CHANNEL D

CONTROL REG

DATA

BIAS

DAC C

DAC

MUX

1.23V REF

AGND DGND

OUT

POWER ON

RESET

AD7804/

AD7808

BIAS

DAC D

OUT

MUX

OUT

CHANNEL C

CONTROL REG

DATA

BIAS

MUX

DAC

DAC B

OUT

CHANNEL B

CONTROL REG

DATA

BIAS

DAC

MUX

DAC A

OUT

PD**

CHANNEL A

CONTROL REG

SYSTEM

CONTROL REG

DATA

DAC

OUT

The AD7804/AD7808 are quad/octal 10-bit digital-to-analog

converters, with serial load capabilities, while the AD7805/AD7809

are quad/octal 10-bit digital-to-analog converters with parallel

load capabilities. These parts operate from a +3.3 V to +5 V

(±10%) power supply and incorporates an on-chip reference.

These DACs provide output signals in the form of V

BIAS

SWING

is derived internally from V

BIAS

. On-chip control registers

include a system control register and channel control registers.

The system control register has control over all DACs in the

package. The channel control registers allow individual control

of DACs. The complete transfer function of each individual

DAC can be shifted around the V

BIAS

point using an on-chip

Sub DAC. All DACs contain double buffered data inputs,

which allow all analog outputs to be simultaneously updated

using the asynchronous LDAC input.

Control Features

Hardware Clear

System Control

Power Down

System Standby

System Clear

Input Coding

Channel Control

Channel Standby

Channel Clear

BIAS

Channels Controlled

All

Selective

Main DAC

Sub DAC

FSIN

CLKIN

SDIN

INPUT SHIFT

CONTROL LOGIC

OUT

CLR LDAC

**ONLY

AD7804 SHOWN FOR CLARITY

**SHOWS

ADDITIONAL CHANNELS ON THE AD7808

**PIN ON THE AD7808 ONLY

REFOUT

REFIN

DIVIDER

COMP

CHANNEL D

CONTROL REG

1.23V REF

AGND DGND

OUT

POWER ON

RESET

AD7805/

AD7809

BIAS

DAC D

OUT

MUX

OUT

DATA

BIAS

DAC

MUX

DAC C

OUT

CHANNEL C

CONTROL REG

DATA

BIAS

MUX

DAC

DAC B

OUT

CHANNEL B

CONTROL REG

DATA

BIAS

MUX

DAC

DAC A

OUT

PD**

CHANNEL A

CONTROL REG

SYSTEM

CONTROL REG

DATA

DAC

OUT

INPUT

OUT

CONTROL

LOGIC

NOTES

Power-down function powers down all internal circuitry including the reference.

Standby functions power down all circuitry except for the reference.

MODE A0 A1 A2**

DB9 DB2 DB1 DB0

CLR LDAC

**ONLY

AD7805 SHOWN FOR CLARITY

**SHOWS

ADDITIONAL CHANNELS ON THE AD7809

**PIN ON THE AD7809 ONLY

REV. A

Information furnished by Analog Devices is believed to be accurate and

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.

Index on Page 26.

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

AD7804/AD7805/AD7808/AD7809

AD7804/AD7805–SPECIFICATIONS

(AV

Reference = Internal Reference; C

= 100 pF; R

= 2 k

Parameter

STATIC PERFORMANCE

MAIN DAC

Resolution

Relative Accuracy

Gain Error

Bias Offset Error

Zero-Scale Error

Monotonicity

Minimum Load Resistance

SUB DAC

Resolution

Differential Nonlinearity

OUTPUT CHARACTERISTICS

Output Voltage Range

Voltage Output Settling Time to 10 Bits

Slew Rate

Digital-to-Analog Glitch Impulse

Digital Feedthrough

Digital Crosstalk

Analog Crosstalk

DC Output Impedance

Power Supply Rejection Ratio

DAC REFERENCE INPUTS

REF IN Range

REF IN Input Leakage

DIGITAL INPUTS

Input High Voltage, V

@ V

= 5 V

Input High Voltage, V

@ V

= 3.3 V

Input Low Voltage, V

@ V

= 5 V

Input Low Voltage, V

@ V

= 3.3 V

Input Leakage Current

Input Capacitance

Input Coding

REFERENCE OUTPUT

REF OUT Output Voltage

REF OUT Error

REF OUT Temperature Coefficient

REF OUT Output Impedance

POWER REQUIREMENTS

(AV

and DV

)

(AI

Plus DI

)

Normal Mode

System Standby (SSTBY) Mode

Power-Down (PD) Mode

@ +25°C

MIN

–T

MAX

Power Dissipation

Normal Mode

System Standby (SSTBY) Mode

Power-Down (PD) Mode

@ +25°C

MIN

–T

MAX

B Grade

C Grade

–80/+40

–V

BIAS

+40

0.125

0.5

BIAS

15/16

BIAS

/16 to 31/16

BIAS

2.5

0.5

0.2

0.002

1.0 to V

2.4

2.1

0.8

0.6

Twos Comp/Binary

1.23

–100

3/5.5

250

0.8

1.5

1.38

4.4

8.25

–80/+40

–V

BIAS

+40

0.125

0.5

and DV

= 3.3 V 10% to 5 V 10%; AGND = DGND = 0 V;

to GND. Sub DAC at Midscale. All specifications T

MIN

to T

MAX

unless otherwise noted.)

Units

Comments

Bits

LSB max

% FSR max

mV max

Bits

kΩ min

Bits

LSB typ

LSB max

µs

max

V/µs typ

nV-s typ

LSB typ

Ω

typ

%/% typ

V min to V max

µA

max

V min

V max

pF max

DAC Code = 0.5 Full Scale

DAC Code = 000H for Offset Binary

and 200H for Twos Complement Coding

Refers to an LSB of the Main DAC

BIAS

15/16

BIAS

/16 to 31/16

BIAS

2.5

0.5

0.2

0.002

1.0 to V

2.4

2.1

0.8

0.6

µA

max

Twos Comp/Binary

1.23

–100

3/5.5

250

0.8

1.5

1.38

4.4

8.25

Twos Complement Coding

Offset Binary Coding

Typically 1.5

µs

1 LSB Change Around the Major Carry

∆V

10%

Typically

1 nA

V nom

% max

ppm/°C typ

kΩ nom

V min to V max

mA max

µA

max

µA

max

mW max

µW

max

µW

max

Excluding Load Currents

= V

, V

= DGND

= V

, V

= DGND

= V

, V

= DGND

Excluding Power Dissipated in Load

NOTES

Temperature range is – 40°C to +85°C.

Can be minimized using the Sub DAC.

BIAS

is the center of the output voltage swing and can be V

/2, Internal Reference or REFIN as determined by MX1 and MX0 in the channel control register.

Specifications subject to change without notice.

–2–

REV. A

AD7804/AD7805/AD7808/AD7809

AD7808/AD7809–SPECIFICATIONS

(AV

Reference = Internal Reference; C

= 100 pF; R

= 2 k

Parameter

STATIC PERFORMANCE

MAIN DAC

Resolution

Relative Accuracy

Gain Error

Bias Offset Error

Zero-Scale Error

Monotonicity

Minimum Load Resistance

SUB DAC

Resolution

Differential Nonlinearity

OUTPUT CHARACTERISTICS

Output Voltage Range

Voltage Output Settling Time to 10 Bits

Slew Rate

Digital-to-Analog Glitch Impulse

Digital Feedthrough

Digital Crosstalk

Analog Crosstalk

DC Output Impedance

Power Supply Rejection Ratio

DAC REFERENCE INPUTS

REF IN Range

REF IN Input Leakage

DIGITAL INPUTS

Input High Voltage, V

@ V

= 5 V

Input High Voltage, V

@ V

= 3.3 V

Input Low Voltage, V

@ V

= 5 V

Input Low Voltage, V

@ V

= 3.3 V

Input Leakage Current

Input Capacitance

Input Coding

REFERENCE OUTPUT

REF OUT Output Voltage

REF OUT Error

REF OUT Temperature Coefficient

REF OUT Output Impedance

POWER REQUIREMENTS

(AV

and DV

)

(AI

Plus DI

)

Normal Mode

System Standby (SSTBY) Mode

Power-Down (PD) Mode

@ +25°C

MIN

–T

MAX

Power Dissipation

Normal Mode

System Standby (SSTBY) Mode

Power-Down (PD) Mode

@ +25°C

MIN

–T

MAX

B Grade

0.125

0.5

BIAS

15/16

BIAS

/16 to 31/16

BIAS

2.5

0.5

0.2

0.002

1.0 to V

2.4

2.1

0.8

0.6

Twos Comp/Binary

1.23

–100

3/5.5

250

1.38

5.5

16.5

and DV

= 3.3 V 10% to 5 V 10%; AGND = DGND = 0 V;

to GND. Sub DAC at Midscale. All specifications T

MIN

to T

MAX

unless otherwise noted.)

Units

Comments

Bits

LSB max

% FSR max

mV max

Bits

kΩ min

Bits

LSB typ

LSB max

µs

max

V/µs typ

nV-s typ

LSB typ

Ω

typ

%/% typ

V min to V max

µA

max

V min

V max

µA

max

pF max

DAC Code = 0.5 Full Scale

DAC Code = 000H for Offset Binary

and 200H for Twos Complement

Coding

Refers to an LSB of the Main DAC

Twos Complement Coding

Offset Binary Coding

Typically 1.5

µs

1 LSB Change Around the Major Carry

∆V

10%

Typically

1 nA

V nom

% max

ppm/°C typ

kΩ nom

V min to V max

mA max

µA

max

µA

max

µA

max

mW max

µW

max

µW

max

Excluding Load Currents

= V

, V

= DGND

= V

, V

= DGND

= V

, V

= DGND

Excluding Power Dissipated in Load

NOTES

Temperature range is – 40°C to +85°C.

Can be minimized using the Sub DAC.

BIAS

is the center of the output voltage swing and can be V

/2, Internal Reference or REFIN as determined by MX1 and MX0 in the channel control register.

Specifications subject to change without notice.

REV. A

–3–

AD7804/AD7805/AD7808/AD7809

AD7804/AD7808 TIMING CHARACTERISTICS

Internal Reference. All specifications T

MIN

to T

MAX

unless otherwise noted.)

Parameter

Limit at T

MIN

, T

MAX

All Versions

100

Units

ns min

ns max

ns min

Description

CLKIN Cycle Time

CLKIN High Time

CLKIN Low Time

FSIN

Setup Time

Data Setup Time

Data Hold Time

LDAC

Hold Time

FSIN

Hold Time

LDAC, CLR

Pulsewidth

LDAC

Setup Time

3.3 V

10% to 5 V

10%; AGND = DGND = 0 V; Reference =

NOTES

Sample tested during initial release and after any redesign or process change that may affect this parameter. All input signals are specified with tr = tf = 5 ns and

timed from a voltage of (V

+ V

)/2.

Specifications subject to change without notice.

CLKIN(I)

FSIN(I)

SDIN(I)

DB15

DB0

LDAC

CLR

TIMING REQUIREMENTS FOR SYNCHRONOUS

LDAC

UPDATE OR

LDAC

MAY BE TIED PERMANENTLY LOW IF REQUIRED.

TIMING REQUIREMENTS FOR ASYNCHRONOUS

LDAC

UPDATE.

Figure 1. Timing Diagram for AD7804 and AD7808

–4–

REV. A

AD7804/AD7805/AD7808/AD7809

= 3.3 V

= Internal Reference. All specifications T

MIN

to T

MAX

unless otherwise noted.)

Parameter

Limit at T

MIN

, T

MAX

All Versions

4.5

100

Unit

ns min

AD7805/AD7809 TIMING CHARACTERISTICS

10% to 5 V

10%; AGND = DGND = 0 V; Reference

Description

Mode Valid to Write Setup Time

Mode Valid to Write Hold Time

Address Valid to Write Setup Time

Address Valid to Write Hold Time

Data Setup Time

Data Hold Time

LDAC

Valid to Write Hold Time

Chip Select to Write Setup Time

Chip Select to Write Hold Time

Write Pulsewidth

Time Between Successive Writes

LDAC, CLR

Pulsewidth

Write to

LDAC

Setup Time

NOTE

Sample tested during initial release and after any redesign or process change that may affect this parameter. All input signals are specified with tr = tf = 5 ns and

timed from a voltage of (V

+ V

)/2.

Specifications subject to change without notice.

MODE

A0, A1, A2

DATA

LDAC

CLR

TIMING REQUIREMENTS FOR SYNCHRONOUS

LDAC

UPDATE OR

LDAC

MAY BE TIED PERMANENTLY LOW IF REQUIRED.

TIMING REQUIREMENTS FOR ASYNCHRONOUS

LDAC

UPDATE.

Figure 2. Timing Diagram for AD7805/AD7809 Parallel Write

REV. A

–5–

型号	AD7805BRSZ	AD7808BRZ-REEL	AD7804BRZ-REEL	AD7808BNZ	AD7804BR-REEL	AD7805CRZ-REEL	AD7808BRZ
描述	IC DAC 10BIT QUAD PARALL 28-SSOP	IC DAC 10BIT OCTAL SRL 24-SOIC	IC DAC 10BIT QUAD SRL 16-SOIC	IC DAC 10BIT OCTAL SERIAL 24DIP	IC DAC 10BIT QUAD SRL 16-SOIC	IC DAC 10BIT QUAD PARALL 28-SOIC	IC DAC 10BIT OCTAL SRL 24-SOIC
位数	10	10	10	10	10	10	10
数模转换器数	-	8	4	8	4	4	8
建立时间	-	4µs	4µs	4µs	4µs	4µs	4µs
输出类型	-	Voltage - Buffered	Voltage - Buffered	Voltage - Buffered	Voltage - Buffered	Voltage - Buffered	Voltage - Buffered
差分输出	-	无	无	无	无	无	无
数据接口	-	SPI	SPI	SPI	SPI	并联	SPI
参考类型	-	外部，内部	外部，内部	外部，内部	外部，内部	外部，内部	外部，内部
电压 - 电源，模拟	-	3 V ~ 5.5 V	3 V ~ 5.5 V	3 V ~ 5.5 V	3 V ~ 5.5 V	3 V ~ 5.5 V	3 V ~ 5.5 V
电压 - 电源，数字	-	3 V ~ 5.5 V	3 V ~ 5.5 V	3 V ~ 5.5 V	3 V ~ 5.5 V	3 V ~ 5.5 V	3 V ~ 5.5 V
INL/DNL（LSB）	-	±4（最大），±0.125	±3（最大），±0.125	±4（最大），±0.125	±3（最大），±0.125	±3（最大），±0.125	±4（最大），±0.125
工作温度	-	-40°C ~ 85°C	-40°C ~ 85°C	-40°C ~ 85°C	-40°C ~ 85°C	-40°C ~ 85°C	-40°C ~ 85°C
封装/外壳	-	24-SOIC（0.295"，7.50mm 宽）	16-SOIC（0.295"，7.50mm 宽）	24-DIP（0.300"，7.62mm）	16-SOIC（0.295"，7.50mm 宽）	28-SOIC（0.295"，7.50mm 宽）	24-SOIC（0.295"，7.50mm 宽）
供应商器件封装	-	24-SOIC	16-SOIC	24-PDIP	16-SOIC	28-SOIC	24-SOIC

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