ad7650astrl Analog Devices, Inc., ad7650astrl Datasheet - Page 15

ad7650astrl

Manufacturer Part Number

ad7650astrl

Description

16-bit, 570 Ksps Low Cost Cmos Adc

Manufacturer

Analog Devices, Inc.

Datasheet

1.AD7650ASTRL.pdf (20 pages)

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Usually, because the AD7650 is used with a fast throughput, the

mode master, read during conversion is the most recommended

serial mode when it can be used.

In read-during-conversion mode, the serial clock and data toggle

at appropriate instants which minimize potential feedthrough

between digital activity and the critical conversion decisions.

In read-after-conversion mode, it should be noted that, unlike in

other modes, the signal BUSY returns low after the 16 data bits

are pulsed out and not at the end of the conversion phase which

results in a longer BUSY width.

SLAVE SERIAL INTERFACE

External Clock

The AD7650 is configured to accept an externally supplied

serial data clock on the SCLK pin when the EXT/INT pin is

held high. 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. The external clock can be either a

continuous or discontinuous clock. A discontinuous clock can be

either normally high or normally low when inactive. Figure 15

and Figure 16 show the detailed timing diagrams of these methods.

While the AD7650 is performing a bit decision, it is important

that voltage transients not occur on digital input/output pins or

degradation of the conversion result could occur. This is par-

ticularly important during the second half of the conversion

phase because the AD7650 provides error correction circuitry

that can correct for an improper bit decision made during the

first half of the conversion phase. For this reason, it is recom-

mended that when an external clock is being provided, it is a

CNVST

SDOUT

CS, RD

BUSY

SYNC

SCLK

EXT/INT = 0

D15

D14

RDC/SDIN = 1

discontinuous clock that is toggling only when BUSY is low or,

more importantly, that it does not transition during the latter

half of BUSY high.

External Discontinuous Clock Data Read After Conversion

Though the maximum throughput cannot be achieved using this

mode, it is the most recommended of the serial slave modes.

Figure 15 shows the detailed timing diagrams of this method.

After a conversion is complete, indicated by BUSY returning

low, the result of this conversion can be read while both CS and

RD are low. The data is shifted out, MSB first, with 16 clock

pulses and is valid on both rising and falling edge of the clock.

Among the advantages of this method, the conversion perfor-

mance is not degraded because there are no voltage transients

on the digital interface during the conversion process.

Another advantage is to be able to read the data at any speed up

to 40 MHz, which accommodates both slow digital host inter-

face and the fastest serial reading.

Finally, in this mode only, the AD7650 provides a “daisy-chain”

feature using the RDC/SDIN input pin for cascading multiple

converters together. This feature is useful for reducing component

count and wiring connections when desired as, for instance, in

isolated multiconverter applications.

An example of the concatenation of two devices is shown in

Figure 17. Simultaneous sampling is possible by using a common

CNVST signal. It should be noted that the RDC/SDIN input is

latched on the edge of SCLK opposite to the one used to shift

out the data on SDOUT. Hence, the MSB of the “upstream”

converter just follows the LSB of the “downstream” converter

on the next SCLK cycle.

INVSCLK = INVSYNC = 0

AD7650

ad7650astrl Analog Devices, Inc., ad7650astrl Datasheet - Page 15

ad7650astrl

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