AD7924 Analog Devices, AD7924 Datasheet - Page 20

AD7924

Manufacturer Part Number

AD7924

Description

4-Channel, 1 MSPS, 12-Bit A/D Converter with Sequencer in 16-Lead TSSOP

Manufacturer

Analog Devices

Datasheet

1.AD7904.pdf (32 pages)

Specifications of AD7924

Resolution (bits)

12bit

# Chan

Sample Rate

1MSPS

Interface

Ser,SPI

Analog Input Type

SE-Uni

Ain Range

Uni (Vref),Uni (Vref) x 2

Adc Architecture

SAR

Pkg Type

SOP

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AD7904/AD7914/AD7924

TYPICAL CONNECTION DIAGRAM

Figure 19 shows a typical connection diagram for the AD7904/

AD7914/AD7924. In this setup, the AGND pin is connected to

the analog ground plane of the system. In Figure 19, the REF

pin is connected to a decoupled 2.5 V supply from a reference

source, the AD780, to provide an analog input range of 0 V to

2.5 V (if the RANGE bit is set to 1) or 0 V to 5 V (if the RANGE

bit is set to 0).

Although the AD7904/AD7914/AD7924 are connected to a V

of 5 V, the serial interface is connected to a 3 V microprocessor.

The V

the same 3 V supply as the microprocessor to allow a 3 V logic

interface (see the Digital Inputs section). The conversion result

is output in a 16-bit word. This 16-bit data stream consists of

two leading zeros, two address bits indicating which channel the

conversion result corresponds to, followed by the 12 bits of

conversion data for the AD7924 (10 bits of data for the AD7914

and 8 bits of data for the AD7904, each followed by two and

four trailing zeros, respectively). For applications where power

consumption is of concern, the power-down modes should be

used between conversions or bursts of several conversions to

improve power performance (see the Modes of Operation

section).

0V TO REF

NOTES

ALL UNUSED INPUT CHANNELS SHOULD BE CONNECTED TO AGND.

DRIVE

0.1µF

pin of the AD7904/AD7914/AD7924 is connected to

AGND

Figure 19. Typical Connection Diagram

AD780

REF

2.5V

AD7904/

AD7914/

AD7924

0.1µF

DRIVE

10µF

DOUT

SCLK

0.1µF

DIN

INTERFACE

SERIAL

SUPPLY

10µF

CONTROLLER/

PROCESSOR

3V SUPPLY

MICRO-

Rev. B | Page 20 of 32

Analog Input Selection

Any one of four analog input channels can be selected for

conversion by programming the multiplexer with the address

bits ADD1 and ADD0 in the control register. The channel

configurations are shown in Table 7.

The AD7904/AD7914/AD7924 can also be configured to auto-

matically cycle through a number of selected channels. The

sequencer feature is accessed via the SEQ1 and SEQ0 bits in the

control register (see Table 10). The AD7904/AD7914/AD7924

can be programmed to continuously convert on a number of

consecutive channels in ascending order from Channel 0 to a

selected final channel as determined by the channel address

bits, ADD1 and ADD0. This is possible if the SEQ1 and SEQ0

bits are set to 11. The next serial transfer will then act on the

sequence programmed by executing a conversion on Channel 0.

The next serial transfer will result in a conversion on Channel 1,

and so on, until the channel selected via the address bits, ADD1

and ADD0, is reached.

It is not necessary to write to the control register again after a

sequence operation has been initiated. To ensure that the control

interrupted, the WRITE bit must be set to 0 or the DIN line

must be tied low. If the control register is written to at any time

during the sequence, the SEQ1 and SEQ0 bits must be set to 10

to avoid interrupting the automatic conversion sequence. This

pattern continues until the AD7904/AD7914/AD7924 are

written to and the SEQ1 and SEQ0 bits are configured with a bit

combination other than 10, resulting in the termination of the

sequence. If the sequence is uninterrupted (WRITE bit = 0, or

WRITE bit = 1 and SEQ1 and SEQ0 bits are set to 10), then upon

completion of the sequence, the AD7904/AD7914/AD7924

sequencer returns to Channel 0 and restarts the sequence.

Regardless of the channel selection method used, the 16-bit

word output from the AD7924 during each conversion always

contains two leading zeros, two channel address bits that the

conversion result corresponds to, followed by the 12-bit con-

version result; the AD7914 outputs two leading zeros, two

channel address bits that the conversion result corresponds to,

followed by the 10-bit conversion result and two trailing zeros;

the AD7904 outputs two leading zeros, two channel address bits

that the conversion result corresponds to, followed by the 8-bit

conversion result and four trailing zeros (see the Serial Interface

section).

AD7924 Analog Devices, AD7924 Datasheet - Page 20

AD7924

Specifications of AD7924

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