AD7898AR-10 Analog Devices Inc, AD7898AR-10 Datasheet - Page 15
AD7898AR-10
Manufacturer Part Number
AD7898AR-10
Description
A/D Converter (A-D) IC
Manufacturer
Analog Devices Inc
Datasheet
1.AD7898ARZ-10REEL.pdf
(16 pages)
Specifications of AD7898AR-10
No. Of Bits
12 Bit
Mounting Type
Surface Mount
No. Of Channels
1
Interface Type
Serial
Package / Case
8-SOIC
Rohs Status
RoHS non-compliant
Number Of Bits
12
Sampling Rate (per Second)
220k
Data Interface
Serial
Number Of Converters
1
Power Dissipation (max)
22.5mW
Voltage Supply Source
Single Supply
Operating Temperature
-40°C ~ 85°C
Lead Free Status / RoHS Status
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
AD7898AR-10
Manufacturer:
ADI/亚德诺
Quantity:
20 000
TMS320C5x/C54x to AD7898 Interface
The serial interface on the TMS320C5x/C54x uses a continu-
ous serial clock and frame synchronization signal to synchronize
the data transfer operations with peripheral devices like the
AD7898. The CS input allows easy interfacing between the
TMS320C5x/C54x and the AD7898 without any glue logic
required. The serial port of the TMS320C5x/C54x is set up to
operate in burst mode with internal CLKX (TX serial clock)
and FSX (TX frame sync). The serial port control register (SPC)
must have the following setup: FO = 0, FSM = 1, MCM = 1,
and TXM = 1. The format bit, FO, may be set to 1 to set the
word length to 8 bits, in order to implement the power-down
modes on the AD7898.
The connection diagram is shown in Figure 17. It should be
noted that for signal processing applications, it is imperative that
the frame synchronization signal from the TMS320C5x/C54x
will provide equidistant sampling. The V
takes the same supply voltage as that of the TMS320C5x/C54x.
This allows the ADC to operate at a higher voltage than the
serial interface, i.e., TMS320C5x/C54x, if necessary.
AD7898 to ADSP-21xx Interface
The ADSP-21xx family of DSPs are interfaced directly to the
AD7898 without any glue logic required. The V
AD7898 takes the same supply voltage as that of the ADSP-21xx.
This allows the ADC to operate at a higher voltage than the
serial interface, i.e., ADSP-21xx, if necessary.
The SPORT control register should be set up as follows:
TFSW = RFSW = 1, Alternate Framing
INVRFS = INVTFS = 1, Active Low Frame Signal
DTYPE = 00, Right Justify Data
SLEN = 1111, 16-Bit Data Words
ISCLK = 1, Internal Serial Clock
TFSR = RFSR = 1, Frame Every Word
IRFS = 0,
ITFS = 1.
To implement the power-down mode, SLEN should be set to
1001 to issue an 8-bit SCLK burst.
The connection diagram is shown in Figure 18. The ADSP-21xx
has the TFS and RFS of the SPORT tied together, with TFS
set as an output and RFS set as an input. The DSP operates in
Alternate Framing Mode and the SPORT control register is set
up as described. The Frame Synchronization signal generated
on the TFS is tied to CS and as with all signal processing applica-
tions equidistant sampling is necessary. However, in this example,
the timer interrupt is used to control the sampling rate of the
ADC and, under certain conditions, equidistant sampling may
not be achieved.
REV. A
*ADDITIONAL PINS OMITTED FOR CLARITY
AD7898*
SDATA
Figure 17. AD7898 to TMS320C5x Interface
V
SCLK
DRIVE
CS
DRIVE
CLKX
CLKR
DR
FSX
FSR
TMS320C5x/C54x*
pin of the AD7898
DRIVE
V
DD
pin of the
–15–
The Timer registers, among other things, are loaded with a value
that will provide an interrupt at the required sample 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 hence 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, (i.e., AX0 = TX0), the state of the
SCLK is checked. The DSP will wait until the SCLK has gone
high, low and high before transmission will start. If the timer
and SCLK values are chosen such that the instruction to trans-
mit occurs on or near the rising edge of SCLK, then the data
may be transmitted or it may wait until 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, a
SCLK of 2 MHz is obtained, and eight master clock periods will
elapse for every 1 SCLK period. If the timer registers are loaded
with the value 803, 100.5 SCLKs will occur between interrupts
and subsequently between transmit instructions. This situation
will result in nonequidistant sampling as the transmit instruction
is occurring on an SCLK edge. If the number of SCLKs between
interrupts is a whole integer figure of N, equidistant sampling
will be implemented by the DSP.
AD7898 to DSP56xxx Interface
The connection diagram in Figure 19 shows how the AD7898
can be connected to the SSI (Synchronous Serial Interface) of
the DSP56xxx family of DSPs from Motorola. The SSI is oper-
ated in Synchronous Mode (SYN bit in CRB = 1) with internally
generated 1-bit clock period frame sync for both TX and RX
(bits FSL1 = 1 and FSL0 = 0 in CRB). Set the word length to
16 by setting bits WL1 = 1 and WL0 = 0 in CRA. To implement
the power-down mode on the AD7898 then the word length
can be changed to 8 bits by setting bits WL1 = 0 and WL0 = 0
in CRA. It should be noted that for signal processing applica-
tions, it is imperative that the frame synchronization signal
from the DSP56xxx will provide equidistant sampling. The
V
of the DSP56xxx. This allows the ADC to operate at a higher
voltage than the serial interface, i.e., DSP56xxx, if necessary.
*ADDITIONAL PINS OMITTED FOR CLARITY
DRIVE
*ADDITIONAL PINS OMITTED FOR CLARITY
AD7898*
pin of the AD7898 takes the same supply voltage as that
Figure 18. AD7898 to ADSP-21xx Interface
Figure 19. AD7898 to DSP56xxx Interface
AD7898*
SDATA
V
SCLK
DRIVE
CS
SDATA
V
SCLK
DRIVE
CS
SCK
SRD
SC2
SCLK
DR
RFS
TFS
DSP56xxx*
AD7898
ADSP-21xx*
V
DD
V
DD
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