AD7732BRU Analog Devices Inc, AD7732BRU Datasheet - Page 30

AD7732BRU

Manufacturer Part Number

AD7732BRU

Description

Analog/Digital Converter IC Number Of Bits:24

Manufacturer

Analog Devices Inc

Datasheet

1.AD7732BRUZ-REEL.pdf (32 pages)

Specifications of AD7732BRU

Interface Type

Serial

Supply Voltage Max.

Package/case

24-TSSOP

Leaded Process Compatible

A/d, D/a Features

DSP, MicroWire, QSPI, SPI

Adc Resolution

24-Bit

Rohs Status

RoHS non-compliant

Number Of Bits

Sampling Rate (per Second)

15.4k

Data Interface

DSP, MICROWIRE™, QSPI™, Serial, SPI™

Number Of Converters

Power Dissipation (max)

100mW

Voltage Supply Source

Analog and Digital

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

28-TSSOP (0.173", 4.40mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

For Use With

EVAL-AD7732EBZ - BOARD EVAL FOR AD7732

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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AD7732

I/O Port

The AD7732 P0 pin can be used as a general-purpose digital

I/O pin. The P1 pin ( SYNC /P1) can be used as a general-

purpose digital I/O pin or to synchronize the AD7732 with

other devices in the system. When the SYNC bit in the I/O port

process any conversion. If it is put into single conversion mode,

continuous conversion mode, or any calibration mode, the

AD7732 waits until the SYNC pin goes high and then starts

operation. This allows conversion to start from a known point

in time, i.e., the rising edge of the SYNC pin.

The digital P0 and P1 voltage is referenced to the analog

supplies. When configured as inputs, the pins should be tied

high or low.

Calibration

The AD7732 provides zero-scale self-calibration and zero- and

full-scale system calibration capability that can effectively

reduce the offset error and gain error to the order of the noise.

After each conversion, the ADC conversion result is scaled

using the ADC calibration registers and the relevant channel

calibration registers before being written to the data register.

For unipolar ranges:

Data = ((ADC result – ADC ZS Cal. reg.)

For bipolar ranges:

Data = ((ADC result – ADC ZS Cal. reg.)

Where the ADC result is in the range of 0 to FFFFFFh.

Note that the channel zero-scale calibration register has the

format of a sign bit and a 22-bit channel offset value. It is

strongly recommended that the user not change the ADC full-

scale register.

To start any calibration, write the relevant mode bits to the

AD7732 mode register. After the calibration is complete, the

contents of the corresponding calibration registers are updated,

all RDY bits in the ADC status register are set, the RDY pin goes

low, and the AD7732 reverts to idle mode. The calibration

× ADC FS Reg./400000h + 800000h – Ch. ZS Cal. reg.)

× ADC FS Reg./200000h – Ch. ZS Cal. reg.)

× Ch. FS Cal. reg./200000h

Rev. 0 | Page 30 of 32

duration is the same as the conversion time configured on the

selected channel. A longer conversion time gives less noise and

yields a more exact calibration; therefore, use at least the default

conversion time to initiate any calibration.

ADC Zero-Scale Self-Calibration

The ADC zero-scale self-calibration can reduce the offset error

in the chopping disabled mode. If repeated after a temperature

change, it can also reduce the offset drift error in the chopping

disabled mode.

The zero-scale self-calibration is performed on internally

shorted ADC inputs. The negative analog input terminal on the

selected channel is used to set the ADC zero-scale calibration

common mode. Therefore, either the negative terminal of the

selected differential pair or the AINCOM on the single-ended

channel configuration should be driven to a proper common-

mode voltage.

It is strongly recommended that the ADC zero-scale calibration

calibration.

Per Channel System Calibration

If the per channel system calibrations are used, these should be

initiated in the following order: a channel zero-scale system

calibration, followed by a channel full-scale system calibration.

The system calibration is affected by the ADC zero-scale and

full-scale calibration registers. Therefore, if both self-calibration

and system calibration are used in the system, an ADC full-scale

self-calibration should be performed first, followed by a system

calibration cycle.

While executing a system calibration, the fully settled system

zero-scale voltage signal or system full-scale voltage signal must

be connected to the selected channel analog inputs.

The per channel calibration registers can be read, stored, or

modified and written back to the AD7732. Note that when

writing the calibration registers the AD7732 must be in idle

mode. Note that outside the specified calibration range,

calibration is possible but the performance may degrade (see

the System Calibration section in Table 1).

AD7732BRU Analog Devices Inc, AD7732BRU Datasheet - Page 30

AD7732BRU

Specifications of AD7732BRU

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