Datasheet
Data Sheet AD7322
Rev. B | Page 31 of 36
MICROPROCESSOR INTERFACING
The serial interface on the AD7322 allows the part to be directly
connected to a range of different microprocessors. This section
explains how to interface the AD7322 with some common micro-
controller and DSP serial interface protocols.
AD7322 TO ADSP-21xx
The ADSP-21xx family of DSPs interface directly to the AD7322
without requiring glue logic. The V
DRIVE
pin of the AD7322 takes
the same supply voltage as that of the ADSP-21xx. This allows
the ADC to operate at a higher supply voltage than its serial
interface. The SPORT0 on the ADSP-21xx should be configured
as shown in Table 14.
Table 14. SPORT0 Control Register Setup
Setting Description
TFSW = RFSW = 1 Alternative framing
INVRFS = INVTFS = 1 Active low frame signal
DTYPE = 00
Right justify data
SLEN = 1111 16-bit data word
ISCLK = 1 Internal serial clock
TFSR = RFSR = 1 Frame every word
IRFS = 0 Internal receive frame sync
ITFS = 1 Internal transmit frame sync
The connection diagram is shown in Figure 51. The ADSP-21xx
has TFS0 and RFS0 tied together. TFS0 is set as an output, and
RFS0 is set as an input. The DSP operates in alternative framing
mode, and the SPORT0 control register is set up as described in
Table 14. The frame synchronization signal generated on the
TFS is tied to
CS
and, as with all signal processing applications,
requires equidistant sampling. However, as in this example, the
timer interrupt is used to control the sampling rate of the ADC
and under certain conditions equidistant sampling cannot be
achieved.
AD7322
1
ADSP-
21xx
1
SC
LK
SC
LK0
CS
TFS0
RFS0
DOUT
DI
N
DT
0
DR
0
V
DD
V
DRIVE
1
ADDITION
AL PINS O
MITTED FOR CLARIT
Y.
04863-037
Figure 51. Interfacing the AD7322 to the ADSP-21xx
The timer registers are loaded with a value that provides an
interrupt at the required sampling interval. When an interrupt
is received, a value is transmitted with TFS/DT (ADC control
word). The TFS is used to control the RFS and, therefore, the
reading of data.
The frequency of the serial clock is set in the SCLKDIV register.
When the instruction to transmit with TFS is given (AX0 = TX0),
the state of the serial clock is checked. The DSP waits until the
SCLK goes high, low, and then high again before starting the
transmission. If the timer and SCLK are chosen so that the
instruction to transmit occurs on or near the rising edge of
SCLK, data can be transmitted either immediately or at the next
clock edge.
For example, the ADSP-2111 has a master clock frequency of
16 MHz. If the SCLKDIV register is loaded with the value 3,
an SCLK of 2 MHz is obtained, and eight master clock periods
elapse for every one SCLK period. If the timer registers are loaded
with the value 803, 100.5 SCLKs occur between interrupts and,
subsequently, between transmit instructions. This situation leads
to nonequidistant sampling because the transmit instruction occurs
on an SCLK edge. If the number of SCLKs between interrupts is
an integer of N, equidistant sampling is implemented by the DSP.
AD7322 TO ADSP-BF53x
The ADSP-BF53x family of DSPs interface directly to the
AD7322 without requiring glue logic, as shown in Figure 52.
The SPORT0 Receive Configuration 1 register should be set up
as outlined in Table 15.
AD7322
1
ADSP-BF53x
1
V
DD
V
DR
IVE
SC
LK
RS
C
LK0
DIN
DT0
DO
UT
DR0
CS
R
FS0
1
ADDI
TIONA
L PI
NS O
MITTED FOR CLARITY.
04863-038
Figure 52. Interfacing the AD7322 to the ADSP-BF53x
Table 15. SPORT0 Receive Configuration 1 Register
Setting Description
RCKFE = 1 Sample data with falling edge of RSCLK
LRFS = 1 Active low frame signal
RFSR = 1 Frame every word
IRFS = 1 Internal RFS used
RLSBIT = 0 Receive MSB first
RDTYPE = 00 Zero fill
IRCLK = 1 Internal receive clock
RSPEN = 1 Receive enable
SLEN = 1111
16-bit data-word
TFSR = RFSR = 1 Transmit and receive frame sync