AD7853 Analog Devices, AD7853 Datasheet - Page 26

AD7853

Manufacturer Part Number

AD7853

Description

3 V to 5 V Single Supply, 200 kSPS, 12-Bit, Serial Sampling ADC

Manufacturer

Analog Devices

Datasheet

1.AD7853.pdf (34 pages)

Specifications of AD7853

Resolution (bits)

12bit

# Chan

Sample Rate

200kSPS

Interface

Ser,SPI

Analog Input Type

Diff-Uni,SE-Uni

Ain Range

(Vref) p-p,Uni (Vref)

Adc Architecture

SAR

Pkg Type

DIP,SOIC

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Current page: 26 of 34
Download datasheet (351Kb)

AD7853/AD7853L

The most important point about these two modes of operation

mode is that the result of the current conversion is clocked

out during the same conversion and a write to the part dur-

ing this conversion is for the next conversion. The arrangement

is shown in Figure 37. Figure 38 and Figure 39 show more

detailed timing for the arrangement of Figure 37.

Figure 38. Mode 4, 5 Timing Diagram (SM1 = 1, SM2 = 1

and 0)

In Figure 38 the first point to note is that the BUSY, SYNC,

and SCLK are all outputs from the AD7853/AD7853L with the

CONVST being the only input signal. Conversion is initiated

with the CONVST signal going low. This CONVST falling

edge also triggers the BUSY to go high. The CONVST signal

rising edge triggers the SYNC to go low after a short delay

(0.5 t

clock out the data on the DOUT pin during conversion. The

CONVST

CONVERSION IS INITIATED

BUSY

SYNC

AND TRACK/HOLD GOES

SCLK

(O/P)

Figure 39. Timing Diagram for Read/Write with SYNC Output and SCLK Output (Continuous and Noncontinuous)

(i.e., Operating Mode Numbers 4 and 5, SM1 = 1, SM2 = 1 and 0)

(I/P)

CLKIN

CONVERSION N

INTO HOLD

= 100ns MIN

5 s

to 1.5 t

THE CONVERSION RESULT DUE TO

WRITE N+1

READ N

WRITE N+1 IS READ HERE

SYNC (O/P)

DOUT (O/P)

SCLK (O/P)

CLKIN

DIN (I/P)

CONVERT

typically) after which the SCLK will

CONVERSION N+1

Figure 37.

SERIAL READ

OPERATIONS

AND WRITE

= 4.6 s

CONVERSION ENDS

POLARITY PIN

LOGIC HIGH

THREE-

5 s

STATE

WRITE N+2

READ N+1

4.6 s LATER

OUTPUT SERIAL SHIFT

DB15

400ns MIN

PRIOR TO NEXT RISING

CONVERSION N+2

SHOULD END 500ns

READ OPERATION

DB14

= 0.6t

= 40/60ns MIN (5V/3V), t

EDGE OF CONVST

5 s

DB14

WRITE N+3

SCLK

READ N+2

DB13

(NONCONTINUOUS SCLK), t

DB13

DB12

–26–

DB12

= 20/30 MIN (5V/3V), t

data on the DIN pin is also clocked in to the AD7853/AD7853L

by the same SCLK for the next conversion. The read/write

operations must be complete after sixteen clock cycles (which

takes 4.6 s approximately from the rising edge of CONVST assum-

ing a 4 MHz CLKIN). At this time the conversion will be com-

plete, the SYNC will go high, and the BUSY will go low. The

next falling edge of the CONVST must occur at least 400 ns

after the falling edge of BUSY to allow the track/hold amplifier

adequate acquisition time as shown in Figure 38. This gives a

throughput time of 5 s. The maximum throughput rate in this

case is 200 kHz (AD7853) and 100 kHz (AD7853L).

In these interface modes the part is now the master and the DSP

is the slave. Figure 39 is an expansion of Figure 38. The

AD7853/AD7853L will ensure SYNC goes low after the rising

edge C of the continuous SCLK (Interface Mode 5) in Figure

39. Only in the case of a noncontinuous SCLK (Interface Mode

4) will the time t

the falling edge of SYNC. The SCLK rising edge clocks out all

subsequent bits on the DOUT pin. The input data present on

the DIN pin is clocked in on the rising edge of the SCLK. The

POLARITY pin may be used to change the SCLK edge which

the data is sampled on and clocked out on. The SYNC will go

high after the 16th SCLK rising edge and before the falling edge

D of the continuous SCLK in Figure 39. This ensures the part

will not clock in an extra bit from the DIN pin or clock out an

extra bit on the DOUT pin.

If the user has control of the CONVST pin but does not want to

exercise it for every conversion, the control register may be used

to start a conversion. Setting the CONVST bit in the control

trol of the CONVST pin, a conversion should not be initiated

by writing to the control register. The reason for this is that the

user may get “locked out” and not be able to perform any fur-

ther write/read operations. When a conversion is started by

writing to the control register, the SYNC goes low and read/

write operations take place while the conversion is in progress.

However, once the conversion is complete, there is no way of

writing to the part unless the CONVST pin is exercised. The

CONVST signal triggers the SYNC signal low which allows

read/write operations to take place. SYNC must be low to per-

form read/write operations. The SYNC is triggered low by the

CONVST signal rising edge or setting the CONVST bit in the

control register to 1. Therefore if there is not full control of the

CONVST pin the user may end up getting “locked out.”

DB11

DB10

= 75/115 MAX (5V/3V),

DB10

11A

apply. The first data bit is clocked out from

= 50ns MAX

DB0

11A

THREE-

STATE

REV. B

AD7853 Analog Devices, AD7853 Datasheet - Page 26

AD7853

Specifications of AD7853

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