EVAL-AD7675CBZ Analog Devices Inc, EVAL-AD7675CBZ Datasheet - Page 14

EVAL-AD7675CBZ

Manufacturer Part Number

EVAL-AD7675CBZ

Description

BOARD EVALUATION FOR AD7675

Manufacturer

Analog Devices Inc

Series

PulSAR®r

Datasheets

1.AD7675ACPZRL.pdf (20 pages)

2.EVAL-AD7674CB.pdf (22 pages)

Specifications of EVAL-AD7675CBZ

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

100k

Data Interface

Serial, Parallel

Inputs Per Adc

1 Differential

Input Range

±VREF

Power (typ) @ Conditions

17mW @ 100kSPS

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

AD7675

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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AD7675

For other applications, conversions can be automatically initi-

ated. If CNVST is held low when BUSY is low, the AD7675

controls the acquisition phase and then automatically initiates a

new conversion. By keeping CNVST low, the AD7675 keeps

the conversion process running by itself. It should be noted that

the analog input has to be settled when BUSY goes low. Also, at

power-up, CNVST should be brought low once to initiate the

conversion process. In this mode, the AD7675 could sometimes

run slightly faster than the guaranteed limit of 100 kSPS.

DIGITAL INTERFACE

The AD7675 has a versatile digital interface; it can be interfaced

with the host system by using either a serial or parallel interface.

The serial interface is multiplexed on the parallel data bus. The

AD7675 digital interface also accommodates both 3 V or 5 V

logic by simply connecting the OVDD supply pin of the AD7675

to the host system interface digital supply. Finally, by using the

OB/2C input pin, either two’s complement or straight binary

coding can be used.

The two signals CS and RD control the interface. When at least

one of these signals is high, the interface outputs are in high

impedance. Usually, CS allows the selection of each AD7675 in

multicircuits applications and is held low in a single AD7675

design. RD is generally used to enable the conversion result on

the data bus.

CS = RD = 0

Figure 13. Master Parallel Data Timing for Reading

(Continuous Read)

RESET

CNVST

BUSY

DATA

CNVST

BUSY

DATA

BUS

Figure 12. RESET Timing

PREVIOUS CONVERSION DATA

NEW DATA

–14–

PARALLEL INTERFACE

The AD7675 is configured to use the parallel interface (Figure 13)

when the SER/PAR is held low. The data can be read either

after each conversion, which is during the next acquisition

phase, or during the following conversion as shown, respectively,

in Figure 14 and Figure 15. When the data is read during the

conversion, however, it is recommended that it be read-only

during the first half of the conversion phase. That avoids any

potential feedthrough between voltage transients on the digital

interface and the most critical analog conversion circuitry.

The BYTESWAP pin allows a glueless interface to an 8-bit bus.

As shown in Figure 16, the LSB byte is output on D[7:0] and

the MSB is output on D[15:8] when BYTESWAP is low. When

BYTESWAP is high, the LSB and MSB bytes are swapped and

the LSB is output on D[15:8] and the MSB is output on D[7:0].

By connecting BYTESWAP to an address line, the 16-bit data

can be read in two bytes on either D[15:8] or D[7:0].

Figure 15. Slave Parallel Data Timing for Reading (Read

During Convert)

PINS D[15:8]

BUSY

DATA

PINS D[7:0]

CNVST,

BUS

CS = 0

BUSY

DATA

BUS

Figure 14. Slave Parallel Data Timing for Reading

(Read after Convert)

BYTE

HI-Z

Figure 16. 8-Bit Parallel Interface

CONVERSION

CURRENT

CONVERSION

HIGH BYTE

LOW BYTE

HIGH BYTE

LOW BYTE

REV. A

HI-Z

EVAL-AD7675CBZ Analog Devices Inc, EVAL-AD7675CBZ Datasheet - Page 14

EVAL-AD7675CBZ

Specifications of EVAL-AD7675CBZ

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