AD7709 Analog Devices, AD7709 Datasheet - Page 22

AD7709

Manufacturer Part Number

AD7709

Description

16-Bit Sigma Delta ADC with Current Sources, Switchable Reference Inputs and I/O Port

Manufacturer

Analog Devices

Datasheet

1.AD7709.pdf (32 pages)

Specifications of AD7709

Resolution (bits)

16bit

# Chan

Sample Rate

n/a

Interface

Ser,SPI

Analog Input Type

Diff-Uni,SE-Uni

Ain Range

(2Vref/PGA Gain) p-p

Adc Architecture

Sigma-Delta

Pkg Type

SOP

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AD7709

RDY output is connected to the IRQ2 input of the ADSP-2103/

ADSP-2105. The serial interface of the ADSP-2103/ADSP-2105

is set up for alternate framing mode. The RFS and TFS pins of

the ADSP-2103/ADSP-2105 are configured as active low

outputs and the ADSP-2103/ADSP-2105 serial clock line, SCLK,

is also configured as an output. The CS for the AD7709 is

active when either the RFS or TFS outputs from the ADSP-2103/

ADSP-2105 are active. The serial clock rate on the ADSP-2103/

ADSP-2105 should be limited to 3 MHz to ensure correct opera-

tion with the AD7709.

CIRCUIT DESCRIPTION

The AD7709 is a - A/D converter with on-chip digital filtering,

intended for the measurement of wide dynamic range, low

frequency signals such as those in weigh scale, pressure, tempera-

ture, industrial control, or process control applications. It employs

a - conversion technique to realize up to 16 bits of no-missing-

codes performance. The - modulator converts the sampled

input signal into a digital pulse train whose duty cycle contains

the digital information. A Sinc

then employed to decimate the modulator output data stream to

give a valid data conversion result at programmable output rates

from 5.35 Hz (186.77 ms) to 105.03 Hz (9.52 ms). A chopping

scheme is also employed to minimize ADC offset and offset and

gain drift errors. The channel is buffered and can be programmed

for one of eight input ranges from ± 20 mV to ± 2.56 V. The input

channels can be configured for either fully differential inputs or

pseudo-differential input channels via the CH2, CH1, and CH0

bits in the Configuration Register. Buffering the input channel

allows the part to handle significant source impedances on the

analog input, allowing R/C filtering (for noise rejection or RFI

reduction) to be placed on the analog inputs if required. These

input channels are intended for converting signals directly from

sensors without the need for external signal conditioning. Other

functions contained on-chip that augment the operation of the

ADC include software configurable current sources, switchable

reference inputs, and low-side power switches.

The basic connection diagram for the AD7709 is shown in

Figure 14. An AD780/REF195, precision 2.5 V reference, provides

the reference source for the part. A quartz crystal or ceramic

resonator provides the 32.768 kHz master clock source for the

part. In some cases, it will be necessary to connect capacitors on

the crystal or resonator to ensure that it does not oscillate at over-

tones of its fundamental operating frequency. The values of

capacitors will vary depending on manufacturer specifications.

Analog Input Channels

The main ADC has five associated analog input pins (labeled

AIN1 to AIN4 and AINCOM) that can be configured as two

fully differential input channels (AIN1–AIN2 and AIN3–AIN4)

or four pseudo-differential input channels (AIN1–AINCOM,

AIN2–AINCOM, AIN3–AINCOM, and AIN4–AINCOM).

Channel selection bits CH2, CHI, and CH0 in the Configuration

channel is switched, the settling time of the part must elapse

before a new valid word is available from the ADC.

programmable low-pass filter is

–22–

The output of the ADC multiplexer feeds into a high impedance

input stage of the buffer amplifier. As a result, the ADC inputs can

handle significant source impedances and are tailored for direct

connection to external resistive-type sensors like strain gauges or

Resistance Temperature Detectors (RTDs).

The absolute input voltage range on the ADC inputs when buff-

ered (AIN1 to AIN4) is restricted to a range between GND +

100 mV and V

the common-mode voltage and input voltage range so that these

limits are not exceeded; otherwise, there will be a degradation in

linearity and noise performance.

The absolute input voltage range on the ADC inputs when

unbuffered (AINCOM) includes the range between GND – 30 mV to

lute input voltage limit does allow the possibility of monitoring

small true bipolar signals with respect to GND.

ANALOG 5V

SUPPLY

+ 30 mV as a result of being unbuffered. The negative abso-

REF195

AD780/

ANALOG 5V

GND

SUPPLY

OUT

Figure 14. Basic Connection Diagram

10 F

0.1 F

10 F

– 100 mV. Care must be taken in setting up

IOUT1

IOUT2

AIN1

AIN2

AIN3/P3

AIN4/P4

AINCOM

REFIN1(–)

REFIN1(+)

REFIN2(+)

REFIN2(–)

PWRGND GND

0.1 F

AD7709

P1/SW1

P2/SW2

RESET

XTAL1

XTAL2

DOUT

SCLK

DIN

32.768kHz

CRYSTAL

CHIP

SELECT

RECEIVE

(READ)

SERIAL DATA

(WRITE)

SERIAL

CLOCK

REV. A

AD7709 Analog Devices, AD7709 Datasheet - Page 22

AD7709

Specifications of AD7709

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