AD7610BCPZ1 AD [Analog Devices], AD7610BCPZ1 Datasheet - Page 26

AD7610BCPZ1

Manufacturer Part Number

AD7610BCPZ1

Description

16-Bit, 250 kSPS, Unipolar/Bipolar Programmable Input PulSAR ADC

Manufacturer

AD [Analog Devices]

Datasheet

1.AD7610BCPZ1.pdf (32 pages)

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AD7610

SLAVE SERIAL INTERFACE

The pins multiplexed on D[11:4] used for slave serial interface are:

EXT/ INT , INVSCLK, SDIN, SDOUT, SDCLK and RDERROR.

External Clock (SER/ PAR = High, EXT/ INT = High)

Setting the EXT/ INT = high allows the AD7610 to accept an

externally supplied serial data clock on the SDCLK pin. In this

mode, several methods can be used to read the data. The external

serial clock is gated by CS . When CS and RD are both low, the

data can be read after each conversion or during the following

conversion. A clock can be either normally high or normally low

when inactive. For detailed timing diagrams, see Figure 42 and

Figure 43.

While the AD7610 is performing a bit decision, it is important

that voltage transients be avoided on digital input/output pins,

or degradation of the conversion result may occur. This is par-

ticularly important during the last 475 ns of the conversion phase

because the AD7610 provides error correction circuitry that can

correct for an improper bit decision made during the first part

of the conversion phase. For this reason, it is recommended that

any external clock provided, is a discontinuous clock that transi-

tions only when BUSY is low, or, more importantly, that it does

not transition during the last 475 ns of BUSY high.

External Discontinuous Clock Data Read After

Conversion

Since the AD7610 is limited to 250 kSPS, the time between con-

versions, t

makes the read after conversion mode the most recommended

serial slave mode since the time to read the data is t

shows the detailed timing diagrams for this method. After a

conversion is complete, indicated by BUSY returning low, the

conversion result can be read while both CS and RD are low.

Data is shifted out MSB first with 16 clock pulses and, depending

on the SDCLK frequency, can be valid on the falling and rising

edges of the clock.

One advantage of this method is that conversion performance is

not degraded because there are no voltage transients on the digital

interface during the conversion process. Another advantage is

the ability to read the data at any speed up to 40 MHz, which

accommodates both the slow digital host interface and the fastest

serial reading.

Daisy-Chain Feature

Also in the read after convert mode, the AD7610 provides a daisy-

chain feature for cascading multiple converters together using the

serial data input, SDIN, pin. This feature is useful for reducing

component count and wiring connections when desired, for

instance, in isolated multiconverter applications. See Figure 42

for the timing details.

An example of the concatenation of two devices is shown in

Figure 41. Simultaneous sampling is possible by using a common

= 4 μs, and the conversion time, t

= 1.45 μs. This

− t

. Figure 42

Rev. 0 | Page 26 of 32

CNVST signal. Note that the SDIN input is latched on the opposite

edge of SDCLK used to shift out the data on SDOUT (SDCLK

falling edge when INVSCLK = low). Therefore, the MSB of the

upstream converter follows the LSB of the down-stream converter

on the next SDCLK cycle. In this mode, the 40 MHz SDCLK

rate cannot be used since the SDIN to SDCLK setup time, t

less than the minimum time specified. (SDCLK to SDOUT delay,

For proper operation, the SDCLK edge for latching SDIN (or ½

period of SDCLK) needs to be:

Or the max SDCLK frequency needs to be:

If not using the daisy-chain feature, the SDIN input should be

tied either high or low.

External Clock Data Read During Previous Conversion

Figure 43 shows the detailed timing diagrams for this method.

During a conversion, while both CS and RD are low, the result

of the previous conversion can be read. The data is shifted out,

MSB first, with 16 clock pulses, and is valid on both the rising

and falling edge of the clock. The 16 bits have to be read before

the current conversion is complete; otherwise, RDERROR is

pulsed high and can be used to interrupt the host interface to

prevent incomplete data reading.

To reduce performance degradation due to digital activity, a fast

discontinuous clock of at least 40 MHz is recommended to ensure

that all the bits are read during the first half of the SAR

conversion phase.

The daisy-chain feature should not be used in this mode since

digital activity occurs during the second half of the SAR

conversion phase likely resulting in performance degradation.

, is the same for all converters when simultaneously sampled).

CNVST IN

SCLK IN

CS IN

Figure 41. Two AD7610 Devices in a Daisy-Chain Configuration

SDCLK

2 /

RDC/SDIN

SDCLK

(UPSTREAM)

AD7610

BUSY

( 2

SDOUT

CNVST

SCLK

)

RDC/SDIN

(DOWNSTREAM)

AD7610

BUSY

SDOUT

CNVST

SCLK

BUSY

OUT

DATA

OUT

, is

AD7610BCPZ1 AD [Analog Devices], AD7610BCPZ1 Datasheet - Page 26

AD7610BCPZ1

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