EVAL-AD976CB Analog Devices Inc, EVAL-AD976CB Datasheet - Page 9

EVAL-AD976CB

Manufacturer Part Number

EVAL-AD976CB

Description

BOARD EVAL FOR AD976

Manufacturer

Analog Devices Inc

Datasheet

1.AD976ANZ.pdf (16 pages)

Specifications of EVAL-AD976CB

Rohs Status

RoHS non-compliant

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

100k

Data Interface

Parallel

Inputs Per Adc

1 Single Ended

Input Range

±10 V

Power (typ) @ Conditions

100mW @ 100kSPS

Voltage Supply Source

Analog and Digital

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

AD976

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Regardless of the method for controlling conversions, output

data from conversion “n–1” will be valid during the BUSY Low

time for roughly 3.7 s (AD976A only), and output data from

conversion “n” will be valid at the end of a conversion, 50 ns

that data is read only after BUSY goes high since this timing is

much more clearly defined and provides optimal performance.

Figure 4 demonstrates the functionality of the BYTE pin and

shows how the data will be valid in Binary Twos Complement

format only when R/C is asserted High and CS is Low. The

BYTE pin enables the output data on the bus to be read as a

full parallel output or as two 8-bit bytes on Pins 6–13 and Pins

15–22.

ANALOG INPUTS

Figure 5 shows the analog input section for the AD976 when

operating with an internal reference. The analog input range is

nominally a bipolar –10 V to +10 V. Since the AD976/AD976A

can be operated with an internal or external reference, the full-

scale analog input range can be best represented as 4 V

The nominal input impedance is 23 k /13 k with a 22 pF

input capacitance. The analog input section also has a 25 V

overvoltage protection. Since the AD976/AD976A has two

analog grounds it is important to ensure that the analog input is

referenced to the AGND1 pin, the low current ground. This

will minimize any problems associated with a resistive ground

drop. It is also important to ensure that the analog input of the

AD976/AD976A is driven by a low impedance source. With its

primarily resistive analog input circuitry, the ADC can be driven

by a wide selection of general purpose amplifiers.

To best match the low distortion requirements of the AD976/

AD976A, care should be taken in the selection of the drive

circuitry op amp. Figure 6 shows the analog input section for

the AD976A when operating with an internal reference only.

Figure 9 shows the analog input section for both the AD976 and

the AD976A when operating with an external reference.

REV. C

) before BUSY returns High. It is recommended, however,

PINS 15–22

PINS 6–13

BYTE

R/C

Figure 4. Using CS and BYTE to Control Data Bus Read Timing

HI-Z

REF

HIGH BYTE

LOW BYTE

–9–

Figure 5.

Reference)

Figure 6.

Reference) Only

HIGH BYTE

LOW BYTE

10V INPUT

10 V Input Connection for the AD976 (Internal

10 V Input Connection for the AD976A (Internal

+5V

33.2k

200

66.4k

200

HI-Z

2.2 F

AD976/AD976A

AGND1

REF

CAP

AGND2

AGND1

AGND2

REF

CAP

ANA

AD976A

AD976

EVAL-AD976CB Analog Devices Inc, EVAL-AD976CB Datasheet - Page 9

EVAL-AD976CB

Specifications of EVAL-AD976CB

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