AD7921ARM-REEL7 Analog Devices Inc, AD7921ARM-REEL7 Datasheet - Page 21

AD7921ARM-REEL7

Manufacturer Part Number

AD7921ARM-REEL7

Description

IC ADC 12BIT DUAL LP 8-MSOP

Manufacturer

Analog Devices Inc

Datasheet

1.AD7921ARM-REEL7.pdf (28 pages)

Specifications of AD7921ARM-REEL7

Number Of Bits

Sampling Rate (per Second)

250k

Data Interface

DSP, MICROWIRE™, QSPI™, Serial, SPI™

Number Of Converters

Power Dissipation (max)

20mW

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

8-TSSOP, 8-MSOP (0.118", 3.00mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

AD7921ARM-REEL7TR

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SERIAL INTERFACE

Figure 30 and Figure 31 show the detailed timing diagrams for

serial interfacing to the AD7921 and AD7911, respectively. The

serial clock provides the conversion clock and also controls the

transfer of information from the AD7911/AD7921 during

conversion.

The CS signal initiates the data transfer and conversion process.

The falling edge of CS puts the track-and-hold into hold mode,

takes the bus out of three-state, the analog input is sampled at

this point, and the conversion is initiated.

For the AD7921, the conversion requires 16 SCLK cycles to

complete. Once 13 SCLK falling edges have elapsed, the track-

and-hold goes back into track on the next SCLK rising edge, as

shown in Figure 30 at Point B. On the 16th SCLK falling edge,

the DOUT line goes back into three-state. If the rising edge of

CS occurs before 16 SCLKs have elapsed, then the conversion is

terminated and the DOUT line goes back into three-state.

Otherwise, DOUT returns to three-state on the 16th SCLK

falling edge, as shown in Figure 30. Sixteen serial clock cycles

are required to perform the conversion process and to access

data from the AD7921.

For the AD7911, the conversion requires 14 SCLK cycles to

complete. Once 13 SCLK falling edges have elapsed, the track-

and-hold goes back into track on the next SCLK rising edge, as

shown in Figure 31 at Point B.

DOUT

SCLK

DIN

THREE-STATE

ZERO

CHN

Figure 30. AD7921 Serial Interface Timing Diagram

Figure 31. AD7911 Serial Interface Timing Diagram

CONVERT

DB11

DB9

CONVERT

DB10

DB8

Rev. 0 | Page 21 of 28

If the rising edge of CS occurs before 14 SCLKs have elapsed,

then the conversion is terminated and the DOUT line goes back

into three-state. If 16 SCLKs are considered in the cycle, DOUT

returns to three-state on the 16th SCLK falling edge, as shown

in Figure 31.

CS going low clocks out the first leading zero to be read in by

the microcontroller or DSP. The remaining data is then clocked

out by subsequent SCLK falling edges beginning with the

second leading zero. Therefore, the first falling clock edge on

the serial clock has the first leading zero provided and also

clocks out the second leading zero. The final bit in the data

transfer is valid on the 16th falling edge, having been clocked

out on the previous (15th) falling edge.

In applications with a slower SCLK, it is possible to read in data

on each SCLK rising edge. In that case, the first falling edge of

SCLK clocks out the second leading zero and it can be read in

the first rising edge. However, the first leading zero that is

clocked out when CS goes low is missed, unless it is not read in

the first falling edge. The 15th falling edge of SCLK clocks out

the last bit and it can be read in the 15th rising SCLK edge.

If CS goes low just after the SCLK falling edge has elapsed, CS

clocks out the first leading zero as before and it can be read in

the SCLK rising edge. The next SCLK falling edge clocks out

the second leading zero and it can be read in the following

rising edge.

DB2

DB0

TWO TRAILING ZEROS

ZERO

DB1

ZERO

DB0

THREE-STATE

QUIET

AD7911/AD7921

AD7921ARM-REEL7 Analog Devices Inc, AD7921ARM-REEL7 Datasheet - Page 21

AD7921ARM-REEL7

Specifications of AD7921ARM-REEL7

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