AD7781 Analog Devices, AD7781 Datasheet - Page 11

AD7781

Manufacturer Part Number

AD7781

Description

20-Bit, Pin-Programmable, Ultralow Power Sigma-Delta ADC

Manufacturer

Analog Devices

Datasheet

1.AD7781.pdf (16 pages)

Specifications of AD7781

Resolution (bits)

20bit

# Chan

Sample Rate

16.7SPS

Interface

Ser,SPI

Analog Input Type

Diff-Bip

Ain Range

± (Vref/Gain) ,10V p-p,78 mV p-p

Adc Architecture

Sigma-Delta

Pkg Type

SOIC,SOP

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Current page: 11 of 16
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THEORY OF OPERATION

The AD7781 is a low power ADC that incorporates a precision,

20-bit, Σ-Δ modulator; a PGA; and an on-chip digital filter

intended for measuring wide dynamic range, low frequency

signals. The part provides a complete front-end solution for

bridge sensor applications such as weigh scales and pressure

sensors.

The device has an internal clock and one buffered differential

input. It offers a choice of two update rates (10 Hz or 16.7 Hz)

and two gain settings (1 or 128). These functions are controlled

using dedicated pins, which makes the interface easy to configure.

A 2-wire interface simplifies data retrieval from the AD7781.

FILTER, DATA RATE, AND SETTLING TIME

The AD7781 has two filter options. When the FILTER pin is

low, the 16.7 Hz filter is selected; when the FILTER pin is high,

the 10 Hz filter is selected. When the polarity of the FILTER pin

is changed, the AD7781 modulator and filter are reset immedi-

ately. DOUT/ RDY is set high, and the ADC begins conversions

using the selected filter response. The first conversion requires

the total settling time of the filter. Subsequent conversions

occur at the selected update rate. The settling time of the 10 Hz

filter is 300 ms (three conversion cycles), and the settling time

of the 16.7 Hz filter is 120 ms (two conversion cycles).

When a step change occurs on the analog input, the AD7781

requires several conversion cycles to generate a valid conversion.

If the step change occurs synchronous to the conversion period, the

settling time of the AD7781 must be allowed to generate a valid

conversion. If the step change occurs asynchronous to the end

of a conversion, an extra conversion must be allowed to generate

a valid conversion. The data register is updated with all the con-

versions, but, for an accurate result, the user must allow for the

required time.

Figure 20 and Figure 21 show the filter response for each filter.

The 10 Hz filter provides more than −45 dB of rejection in the

stop band. The only external filtering required on the analog

inputs is a simple R-C filter to provide rejection at multiples of

the master clock. A 1 kΩ resistor in series with each analog input,

a 0.01 μF capacitor from each input to GND, and a 0.1 μF

capacitor from AIN(+) to AIN(−) are recommended.

When the filter is changed, DOUT/ RDY goes high and remains

high until the appropriate settling time for that filter elapses

(see

operations before changing the filter. Otherwise, 1s are read

back from the AD7781 because the DOUT/

following the filter change.

Figure 5

). Therefore, the user should complete any read

RDY pin is set high

Rev. 0 | Page 11 of 16

GAIN

The AD7781 has two gain options: gain = 1 and gain = 128.

When the GAIN pin is low, the gain is set to 128; when the

GAIN pin is high, the gain is set to 1. The acceptable analog

input range is ±V

is ±5 V when GAIN is high and ±39 mV when GAIN is low.

When the polarity of the GAIN pin is changed, the AD7781 modu-

lator and filter are reset immediately. DOUT/ RDY is set high, and

the ADC begins conversions. DOUT/ RDY remains high until

the appropriate settling time for the filter elapses (see

Therefore, the user should complete any read operations before

changing the gain. Otherwise, 1s are read back from the AD7781

because the DOUT/

The total settling time of the selected filter is required to generate

the first conversion after the gain change; subsequent conversions

occur at the selected update rate.

–100

–120

–100

–120

Figure 20. Filter Profile with Update Rate = 16.7 Hz (FILTER = 0)

–20

–40

–60

–80

–20

–40

–60

–80

Figure 21. Filter Profile with Update Rate = 10 Hz (FILTER = 1)

REF

RDY pin is set high following the gain change.

/gain. Thus, with V

INPUT SIGNAL FREQUENCY (Hz)

REF

= 5 V, the input range

100

AD7781

Figure 5

120

AD7781 Analog Devices, AD7781 Datasheet - Page 11

AD7781

Specifications of AD7781

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