EVAL-AD7797EBZ Analog Devices Inc, EVAL-AD7797EBZ Datasheet - Page 13

EVAL-AD7797EBZ

Manufacturer Part Number

EVAL-AD7797EBZ

Description

BOARD EVALUATION FOR AD7797

Manufacturer

Analog Devices Inc

Datasheets

1.AD7796BRUZ.pdf (24 pages)

2.EVAL-AD7797EBZ.pdf (12 pages)

Specifications of EVAL-AD7797EBZ

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

123

Data Interface

Serial

Inputs Per Adc

1 Differential

Input Range

±VREF/128

Power (typ) @ Conditions

1.6mW @ 123SPS

Voltage Supply Source

Analog and Digital

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

AD7797

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Table 13. Operating Modes

MD2

Table 14. Update Rates Available

FS3

MD1

FS2

MD0

FS1

Mode

Continuous Conversion Mode (default). In continuous conversion mode, the ADC continuously performs

conversions and places the result in the data register. RDY goes low when a conversion is complete. The user can

read these conversions by placing the device in continuous read mode, whereby the conversions are automatically

placed on the DOUT line when SCLK pulses are applied. Alternatively, the user can instruct the ADC to output the

conversion by writing to the communication register. After a power-on, channel change, or write to the mode or

configuration register, the first conversion is available after a period of 2/f

available at a frequency of f

Single Conversion Mode. When single conversion mode is selected, the ADC powers up and performs a single

conversion. The oscillator requires 1 ms to power up and settle. The ADC then performs the conversion, which takes

a time of 2/f

down mode. The conversion remains in the data register and RDY remains active (low) until the data is read or

another conversion is performed.

Idle Mode. In idle mode, the ADC filter and modulator are held in a reset state although the modulator clocks are

still provided.

Power-Down Mode. In power-down mode, all the AD7796/AD7797 circuitry is powered down, including the

burnout currents and CLKOUT circuitry.

Internal Zero-Scale Calibration. An internal short is automatically connected to the channel. A calibration takes

two conversion cycles to complete. RDY goes high when the calibration is initiated and returns low when the

calibration is complete. The ADC is placed in idle mode following a calibration. The measured offset coefficient is

placed in the offset register.

Reserved.

System Zero-Scale Calibration. Users should connect the system zero-scale input to the channel input pins.

A system offset calibration takes two conversion cycles to complete. RDY goes high when the calibration is

initiated and returns low when the calibration is complete. The ADC is placed in idle mode following a calibration.

The measured offset coefficient is placed in the offset register.

System Full-Scale Calibration. Users should connect the system full-scale input to the channel input pins.

A calibration takes two conversion cycles to complete. RDY goes high when the calibration is initiated and returns

low when the calibration is complete. The ADC is placed in idle mode following a calibration. The measured full-

scale coefficient is placed in the full-scale register.

FS0

ADC

. The conversion result is placed in the data register, RDY goes low, and the ADC returns to power-

123

33.2

16.7

12.5

8.33

6.25

4.17

ADC

(Hz)

ADC

120

160

200

240

320

480

SETTLE

Rev. A | Page 13 of 24

(ms)

Rejection @ 50 Hz/60 Hz (Internal Clock)

80 dB (50 Hz only)

65 dB (50 Hz and 60 Hz)

66 dB (50 Hz and 60 Hz)

69 dB (50 Hz and 60 Hz)

70 dB (50 Hz and 60 Hz)

72 dB (50 Hz and 60 Hz)

74 dB (50 Hz and 60 Hz)

ADC

, while subsequent conversions are

AD7796/AD7797

EVAL-AD7797EBZ Analog Devices Inc, EVAL-AD7797EBZ Datasheet - Page 13

EVAL-AD7797EBZ

Specifications of EVAL-AD7797EBZ

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