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AD7810YRM Datenblatt(PDF) 8 Page - Analog Devices

Teilenummer AD7810YRM
Bauteilbeschribung  2.7 V to 5.5 V, 2 us, 10-Bit ADC in 8-Lead microSOIC/DIP
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Hersteller  AD [Analog Devices]
Direct Link  http://www.analog.com
Logo AD - Analog Devices

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AD7810
–8–
REV. A
POWER-UP TIMES
The AD7810 has a 1
µs power-up time. When V
DD is first con-
nected, the AD7810 is in a low current mode of operation. In
order to carry out a conversion, the AD7810 must first be pow-
ered up. The ADC is powered up by a rising edge on the
CONVST pin. A conversion is initiated on the falling edge of
CONVST. Figure 12 shows how to power up the AD7810 when
VDD is first connected or after the AD7810 is powered down
using the
CONVST pin.
Care must be taken to ensure that the
CONVST pin of the
AD7810 is logic low when VDD is first applied.
MODE 1 (
CONVST IDLES HIGH)
VDD
MODE 2 (
CONVST IDLES LOW)
VDD
< 1 s
t
POWER-UP
1 s
t
POWER-UP
1 s
CONVST
CONVST
Figure 12. Power-Up Times
POWER VS. THROUGHPUT RATE
By operating the AD7810 in Mode 2, the average power con-
sumption of the AD7810 decreases at lower throughput rates.
Figure 13 shows how the automatic power-down is implemented
using the
CONVST signal to achieve the optimum power per-
formance for the AD7810. As the throughput rate is reduced, the
device remains in its power-down state longer and the average
power consumption over time drops accordingly.
tCYCLE
100 s @ 10kSPS
CONVST
tCONVERT
2 s
POWER-DOWN
tPOWER-UP
1 s
Figure 13. Automatic Power-Down
For example, if the AD7810 is operated in a continuous sam-
pling mode with a throughput rate of 10 kSPS, the power con-
sumption is calculated as follows. The power dissipation during
normal operation is 9 mW, VDD = 3 V. If the power-up time is
1
µs and the conversion time is 2 µs, the AD7810 can be said to
dissipate 9 mW for 3
µs (worst case) during each conversion
cycle. If the throughput rate is 10 kSPS, the cycle time is
100
µs and the average power dissipated during each cycle is
(3/100)
× (9 mW) = 270 µW. Figure 2 shows a graph of Power
vs. Throughput.
OPERATING MODES
Mode 1 Operation (High Speed Sampling)
When the AD7810 is used in this mode of operation, the part is
not powered down between conversions. This mode of opera-
tion allows high throughput rates to be achieved. The timing
diagram in Figure 14 shows how this optimum throughput rate
is achieved by bringing the
CONVST signal high before the end
of the conversion. The AD7810 leaves its tracking mode and
goes into hold on the falling edge of
CONVST. A conversion is
also initiated at this time. The conversion takes 2
µs to complete.
At this point, the result of the current conversion is latched into the
serial shift register, and the state of the
CONVST signal checked.
The
CONVST signal should be high at the end of the conversion
to prevent the part from powering down.
A
B
t2
DOUT
CURRENT CONVERSION RESULT
t1
SCLK
CONVST
Figure 14. Mode 1 Operation Timing
The serial port on the AD7810 is enabled on the rising edge of
the
CONVST signal (see Serial Interface section). As explained
earlier, this rising edge should occur before the end of the con-
version process if the part is not to be powered down. A serial
read can take place at any stage after the rising edge of
CONVST. If a serial read is initiated before the end of the cur-
rent conversion process (i.e., at time “A”), the result of the
previous conversion is shifted out on the DOUT pin. It is possible
to allow the serial read to extend beyond the end of a conver-
sion. In this case the new data will not be latched into the out-
put shift register until the read has finished. The dynamic
performance of the AD7810 typically degrades by up to 3 dBs
while reading during a conversion. If the user waits until the
end of the conversion process, i.e., 2
µs after falling edge of
CONVST (Point “B”), before initiating a read, the current
conversion result is shifted out.


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