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AD7890(RevA) データシートの表示(PDF) - Analog Devices

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AD7890 Datasheet PDF : 20 Pages
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AD7890
CONVST (I)
RFS (O)
TRACK/HOLD
GOES INTO HOLD
tCONVERT
SCLK (O)
DATA OUT (O)
THREE-STATE
NOTE
(I) SIGNIFIES AN INPUT; (O) SIGNIFIES AN OUTPUT. PULL-UP RESISTOR ON SCLK.
Figure 4. Self-Clocking {Master) Mode Conversion Sequence
When using the device in the External-Clocking Mode, the out-
put register can be read at any time and the most up-to-date
conversion result will be obtained. However, reading data from
the output register or writing data to the Control Register dur-
ing conversion or during the 500 ns prior to the next CONVST
will result in reduced performance from the part. A read opera-
tion to the output register has most effect on performance with
the signal-to-noise ratio likely to degrade especially when higher
serial clock rates are used while the code flicker from the part
will also increase (see AD7890 Performance section).
Figure 5 shows the timing and control sequence required to
obtain optimum performance from the part in the external
clocking mode. In the sequence shown, conversion is initiated
on the rising edge of CONVST and new data is available in the
output register of the AD7890 5.9 µs later. Once the read oper-
ation has taken place, a further 500 ns should be allowed before
the next rising edge of CONVST to optimize the settling of the
track/hold before the next conversion is initiated. The diagram
shows the read operation and the write operation taking place in
parallel. On the sixth falling edge of SCLK in the write sequence
the internal pulse will be initiated. Assuming MUX OUT is
connected to SHA IN, 2 µs are required between this sixth fall-
ing edge of SCLK and the rising edge of CONVST to allow for
the full acquisition time of the track/hold amplifier. With the
serial clock rate at its maximum of 10 MHz, the achievable
throughput rate for the part is 5.9 µs (conversion time) plus
0.6 µs (six serial clock pulses before internal pulse is initiated)
plus 2 µs (acquisition time). This results in a minimum through-
put time of 8.5 µs (equivalent to a throughput rate of 117 kHz).
If the part is operated with a slower serial clock, it will impact
the achievable throughput rate for optimum performance.
CONVST
SCLK
RFS
TFS
REV. A
tCONVERT
500ns MIN
CONVERSION IS
INITIATED AND
TRACK/HOLD GOES
INTO HOLD
CONVERSION
ENDS 5.9µs
LATER
SERIAL READ
& WRITE
OPERATIONS
READ & WRITE
OPERATIONS SHOULD END
500ns PRIOR TO NEXT
RISING EDGE OF CONVST
Figure 5. External Clocking (Slave) Mode Timing
Sequence for Optimum Performance
NEXT
CONVERSION
START COMMAND
–11–

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