AD7809 Analog Devices, AD7809 Datasheet - Page 16

AD7809

Manufacturer Part Number

AD7809

Description

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

Manufacturer

Analog Devices

Datasheet

1.AD7808.pdf (28 pages)

Specifications of AD7809

Resolution (bits)

10bit

Dac Update Rate

667kSPS

Dac Settling Time

1.5µs

Max Pos Supply (v)

+5.5V

Single-supply

Yes

Dac Type

Voltage Out

Dac Input Format

Par

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AD7804/AD7805/AD7808/AD7809

POWER-DOWN AND STANDBY FUNCTIONS

There are two distinct low power modes on the device, power-

down mode and standby mode. When in power-down mode all

circuitry including the reference are put into low power mode

and power dissipation from the package is at its minimum.

The standby functions allow either the selected DAC or all DACs

in the package to be put into low power mode. The reference is

not switched off when any of the standby functions are invoked.

The PD bit in the system control register is used to shut down

the complete device. With a 0 in this position the reference and all

DACs are put into low power mode. Writing a 1 to this bit puts the

part in the normal operating mode. When in power-down mode

the contents of all registers are retained and are valid when the

device is taken out of power down. The SSTBY bit which resides

in the system control register can be used to put all DACs and

their associated linear circuitry into standby mode, the SSTBY

function does not power down the reference. The STBY bit in

the channel control register can be used to put a selected DAC

and its associated linear circuitry into standby mode. Figure 18

shows a simplified diagram of how the power-down and standby

functions are implemented for a single DAC in the package.

LDAC FUNCTION

LDAC input is a logic input that allows all DAC registers to be

simultaneously updated with the contents of the DAC data

registers. LDAC input has two operating modes, a synchronous

mode and an asynchronous mode. The LDAC input condition is

sampled on the sixteenth falling edge on the AD7804/AD7808 and

is sampled on the rising edge of write on the AD7805/AD7809. If

LDAC is low on the sixteenth falling clock edge or on the rising

edge of WR, an automatic or synchronous update will take place.

LDAC input can be tied permanently low or have timing similar

to that of the data inputs to operate in the synchronous mode.

If LDAC is high during the sample period, the AD7804/AD7805/

AD7808/AD7809 assumes an asynchronous update. When in

the asynchronous mode, an LDAC setup time has to be allowed

following the sixteenth falling clock edge or the rising edge of

WR before the LDAC can be activated.

Figure 21. Implementation of Power-Down and Standby

Functions

CHANNEL STBY

SYSTEM STBY

SYSTEM PD

DECODER

ADDR

ONLY ONE DAC SHOWN FOR CLARITY

STANDBY

REFERENCE

MAIN & SUB

DAC

INT

–16–

ANALOG OUTPUTS

The AD7804 and AD7805 DACs contain four independent

voltage output Main DACs with 10-bit resolution. The AD7808

and AD7809 contain eight independent voltage output main

DACs with 10-bit resolution. Each Main DAC has an associ-

ated Sub DAC with 8-bit resolution which can be used to offset

the complete transfer function of the Main DAC around the

of V

The digital input code to these DACs can be in twos comple-

ment or offset binary form. All DACs will be configured with

the same input coding scheme which is programmed through

the system control register. The default condition on power-up

is for offset binary coding.

TWOS COMPLEMENT CODING

Table VI shows the twos complement transfer function for the

Main DAC.

Figure 22 shows the Main DAC transfer function for twos

complement coding. Any Main DAC output voltage can be

expressed as:

where NA is the decimal equivalent of the twos complement

input code. NA ranges from –512 to +511.

Figure 22. Main DAC Output Voltage vs. DAC Input Codes

(HEX) for Twos Complement Coding

BIAS

Table VI. Twos Complement Code Table for Main DAC

BIAS

DAC INPUT CODE

point. These DACs produce an output voltage in the form

Digital Input

MSB

0111111111

0111111110

0000000001

0000000000

1111111111

1000000001

1000000000

SWING

OUT

. . .

BIAS

' = V

LSB

where V

200

BIAS

201

+ 1.875

SWING

Analog Output

BIAS

is 15/16 of V

3FF 000 001

(1+1.875

(1–1.875

BIAS

NA/1024

BIAS

1/1024)

511/1024)

512/1024)

511/1024)

510/1024)

1/1024)

1FE

REV. A

1FF

AD7809 Analog Devices, AD7809 Datasheet - Page 16

AD7809

Specifications of AD7809

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