Datasheet
REV. B
AD7676
–15–
t
3
BUSY
CS, RD
CNVST
SYNC
SCLK
SDOUT
123 141516
D15 D14 D2 D1 D0X
EXT/INT = 0
RDC/SDIN = 0 INVSCLK = INVSYNC = 0
t
14
t
20
t
15
t
16
t
22
t
23
t
29
t
28
t
18
t
19
t
21
t
30
t
25
t
24
t
26
t
27
Figure 17. Master Serial Data Timing for Reading (Read after Conversion)
EXT/INT = 0
RDC/SDIN = 1 INVSCLK = INVSYNC = 0
D15 D14 D2 D1 D0X
123 141516
BUSY
SYNC
SCLK
SDOUT
CS, RD
CNVST
t
3
t
1
t
17
t
14
t
15
t
19
t
20
t
21
t
16
t
22
t
23
t
24
t
27
t
26
t
25
t
18
Figure 18. Master Serial Data Timing for Reading (Read Previous Conversion during Conversion)
SERIAL INTERFACE
The AD7676 is configured to use the serial interface when the
SER/PAR is held HIGH. The AD7676 outputs 16 bits of data
MSB first, on the SDOUT pin. This data is synchronized with
the 16 clock pulses provided on the SCLK pin.
MASTER SERIAL INTERFACE
Internal Clock
The AD7676 is configured to generate and provide the serial data
clock SCLK when the EXT/INT pin is held LOW. The AD7676 also
generates a SYNC signal to indicate to the host when the serial
data is valid. The serial clock SCLK and the SYNC signal can be
inverted if desired. The output data is valid on both the rising
and falling edges of the data clock. Depending on RDC/SDIN
input, the data can be read after each conversion or during the
following conversion. Figures 17 and 18 show the detailed timing
diagrams of these two modes.
Usually, because the AD7676 has a longer acquisition phase
than the conversion phase, the data is read immediately after
conversion. That makes the mode master, read after conversion,
the most recommended serial mode when it can be used.