EVAL-AD7655EDZ Analog Devices, EVAL-AD7655EDZ Datasheet - Page 18

EVAL-AD7655EDZ

Manufacturer Part Number

EVAL-AD7655EDZ

Description

Data Conversion IC Development Tools AD7655Eval Board 16bit 500ksps ADC

Manufacturer

Analog Devices

Type

ADCr

Series

AD7655r

Datasheet

1.EVAL-AD7655EDZ.pdf (28 pages)

Specifications of EVAL-AD7655EDZ

Rohs

yes

Product

Evaluation Boards

Tool Is For Evaluation Of

AD7655

Interface Type

SPI

Operating Supply Voltage

4.75 V to 5.25 V

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Factory Pack Quantity

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AD7655

CONVERSION CONTROL

Figure 21 shows a detailed timing diagram of the conversion

process. The AD7655 is controlled by the signal CNVST ,

which initiates conversion. Once initiated, it cannot be

restarted or aborted, even by the power-down input, PD,

until the conversion is complete. The CNVST signal operates

independently of the CS and RD signals.

Although CNVST is a digital signal, it should be designed with

special care with fast, clean edges and levels, and with minimum

overshoot and undershoot or ringing.

For applications where the SNR is critical, the CNVST signal

should have very low jitter. One solution is to use a dedicated

oscillator for CNVST generation or, at least, to clock it with a

high frequency low jitter clock, as shown in Figure 17.

In impulse mode, conversions can be automatically initiated. If

CNVST is held low when BUSY is low, the AD7655 controls the

acquisition phase and automatically initiates a new conversion.

By keeping CNVST low, the AD7655 keeps the conversion

process running by itself. Note 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 AD7655 can sometimes run slightly faster than the

guaranteed limits of 888 kSPS in impulse mode. This feature

does not exist in normal mode.

DIGITAL INTERFACE

The AD7655 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

AD7655 digital interface accommodates either 3 V or 5 V logic

when the OVDD supply pin of the AD7655 is connected to the

host system interface digital supply.

MODE

CNVST

BUSY

EOC

ACQUIRE

CONVERT A

Figure 21. Basic Conversion Timing

CONVERT B

ACQUIRE

CONVERT

Rev. B | Page 18 of 28

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

AD7655 in multicircuit applications and is held low in a single

AD7655 design. RD is generally used to enable the conversion

result on the data bus. In parallel mode, signal A/ B allows the

choice of reading either the output of Channel A or Channel B,

whereas in serial mode, signal A/ B controls which channel is

output first.

Figure 22 details the timing when using the RESET input. Note

the current conversion, if any, is aborted and the data bus is

high impedance while RESET is high.

PARALLEL INTERFACE

The AD7655 is configured to use the parallel interface when

SER/ PAR is held low.

Master Parallel Interface

Data can be read continuously by tying CS and RD low, thus

requiring minimal microprocessor connections. However, in

this mode the data bus is always driven and cannot be used in

shared bus applications (unless the device is held in RESET).

Figure 23 details the timing for this mode.

CNVST

RESET

CS = RD = 0

BUSY

DATA

BUSY

DATA

EOC

BUS

Figure 23. Master Parallel Data Timing for Reading (Continuous Read)

PREVIOUS CHANNEL A

OR B

Figure 22. Reset Timing

PREVIOUS CHANNEL B

OR NEW A

NEW A

OR B

EVAL-AD7655EDZ Analog Devices, EVAL-AD7655EDZ Datasheet - Page 18

EVAL-AD7655EDZ

Specifications of EVAL-AD7655EDZ

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