AD5669R Analog Devices, AD5669R Datasheet - Page 24

AD5669R

Manufacturer Part Number

AD5669R

Description

Manufacturer

Analog Devices

Datasheet

1.AD5629R.pdf (28 pages)

Specifications of AD5669R

Resolution (bits)

16bit

Dac Update Rate

166kSPS

Dac Settling Time

6µs

Max Pos Supply (v)

+5.5V

Single-supply

Yes

Dac Type

Voltage Out

Dac Input Format

I2C/Ser 2-wire,Ser

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD5669RARUZ-1

Manufacturer:

Analog Devices Inc

Quantity:

135

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD5669RBRUZ-2

Manufacturer:

Analog Devices Inc

Quantity:

135

Company:

Meier Automation Equipment Co., Limited

Part Number:

AD5669RBRUZ-2

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Current page: 24 of 28
Download datasheet (2Mb)

AD5629R/AD5669R

POWER-DOWN MODES

The AD5629R/AD5669R contain four separate modes of

operation. Command 0100 is reserved for the power-down

function (see Table 8). These modes are software-programmable

by setting two bits, Bit DB9 and Bit DB8, in the control register.

Table 12 shows how the state of the bits corresponds to the

mode of operation of the device. Any or all DACs (DAC H to

DAC A) can be powered down to the selected mode by setting

the corresponding eight bits (DB7 to DB0) to 1. See Table 13 for

the contents of the input shift register during power-down/power-

up operation.

When both bits are set to 0, the part works normally with its

normal power consumption of 1.3 mA at 5 V. However, for the

three power-down modes, the supply current falls to 0.4 μA at

5 V (0.2 μA at 3 V). Not only does the supply current fall, but

the output stage is also internally switched from the output of

the amplifier to a resistor network of known values. This has the

advantage that the output impedance of the part is known while

the part is in power-down mode. There are three different

options. The output is connected internally to GND through

either a 1 kΩ or a 100 kΩ resistor, or it is left open-circuited

(three-state). The output stage is illustrated in Figure 54.

Table 10. Internal Reference Register

Internal REF Register (DB0)

Table 11. 32-Bit Input Shift Register Contents for Reference Set-Up Command

MSB

DB23

STRING DAC

Command bits (C3 to C0)

RESISTOR

DB22

Figure 54. Output Stage During Power-Down

DB21

POWER-DOWN

AMPLIFIER

CIRCUITRY

DB20

RESISTOR

NETWORK

DB19

Address bits (A3 to A0)—don’t cares

OUT

DB18

Rev. A | Page 24 of 28

DB17

Action

Reference off (default)

Reference on

The bias generator of the selected DAC(s), output amplifier,

resistor string, and other associated linear circuitry is shut down

when the power-down mode is activated. The internal reference

is powered down only when all channels are powered down.

However, the contents of the DAC register are unaffected when

in power-down. The time to exit power-down is typically 4 μs

for V

Any combination of DACs can be powered up by setting PD1

and PD0 to 0 (normal operation). The output powers up to the

value in the input register ( LDAC low) or to the value in the

DAC register before powering down ( LDAC high).

CLEAR CODE REGISTER

The AD5629R/AD5669R have a hardware CLR pin that

is an asynchronous clear input. The CLR input is falling edge

sensitive. Bringing the CLR line low clears the contents of the

input register and the DAC registers to the data contained in

the user-configurable CLR register and sets the analog outputs

accordingly. This function can be used in system calibration to load

zero scale, midscale, or full scale to all channels together. These

clear code values are user-programmable by setting two bits, Bit

DB1 and Bit DB0, in the CLR control register (see

The default setting clears the outputs to 0 V. Command 0101

is reserved for loading the clear code register (see

The part exits clear code mode at the end of the next valid write

to the part. If CLR is activated during a write sequence, the write

is aborted.

The CLR pulse activation time (the falling edge of CLR to when

the output starts to change) is typically 280 ns. However, if

outside the DAC linear region, it typically takes 520 ns after

executing CLR for the output to start changing (see

See Table 14 for the contents of the input shift register during

the loading clear code register operation.

DB16

= 5 V and for V

DB15 to DB1

Don’t cares

= 3 V.

LSB

DB0

1/0

Internal REF on/off

Table 8

Table 15

Figure 43

AD5669R Analog Devices, AD5669R Datasheet - Page 24

AD5669R

Specifications of AD5669R

Available stocks

Related parts for AD5669R