AD7922ARMZ Analog Devices Inc, AD7922ARMZ Datasheet - Page 18
AD7922ARMZ
Manufacturer Part Number
AD7922ARMZ
Description
IC ADC 12BIT 1MSPS DUAL 8-MSOP
Manufacturer
Analog Devices Inc
Datasheet
1.AD7922ARM-REEL7.pdf
(32 pages)
Specifications of AD7922ARMZ
Data Interface
DSP, MICROWIRE™, QSPI™, Serial, SPI™
Operating Temperature
-40°C ~ 85°C
Number Of Bits
12
Sampling Rate (per Second)
1M
Number Of Converters
1
Power Dissipation (max)
20mW
Voltage Supply Source
Single Supply
Mounting Type
Surface Mount
Package / Case
8-TSSOP, 8-MSOP (0.118", 3.00mm Width)
Resolution (bits)
12bit
Input Channel Type
Single Ended
Supply Voltage Range - Analogue
2.35V To 5.25V
Supply Current
4mA
No. Of Pins
8
Sampling Rate
1MSPS
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
EVAL-AD7922CBZ - BOARD EVAL FOR AD7922
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
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AD7912/AD7922
MODES OF OPERATION
The three modes of operation of the AD7912/AD7922 are
normal mode, power-down mode, and daisy-chain mode. The
mode of operation is selected by controlling the logic state of
the CS signal. The point at which CS is pulled high after the
conversion has been initiated determines whether the
AD7912/AD7922 enter power-down mode or change to daisy-
chain mode. Similarly, if already in daisy-chain mode, CS can
control whether the device returns to normal operation or
enters power-down mode. The user can also change from daisy-
chain mode to normal mode by writing to the DIN pin, as
outlined in the DIN Input section.
Power-down mode is designed to provide flexible power
management options and to optimize the ratio of power
dissipation to throughput rate for different application
requirements.
Daisy-chain mode is intended for applications where fast
throughput rate is not required and more than one
AD7912/AD7922 have been connected in a daisy chain, as
shown in Figure 33.
NORMAL MODE
Normal mode is intended for the fastest throughput rate
performance. The user does not have to worry about any
power-up time, because the AD7912/AD7922 remain fully
powered all the time. Figure 26 shows the operation of the
AD7912/AD7922 in this mode.
The conversion is initiated on the falling edge of CS as
described in the Serial Interface section. To ensure that the part
remains fully powered up at all times, CS must remain low until
at least 10 SCLK falling edges have elapsed after the falling edge
of CS . If CS is brought high after the 10th SCLK falling edge
and before the 12th SCLK falling edge, then the device enters
daisy-chain mode, as shown in Figure 27. The conversion is
terminated and DOUT goes back into three-state. If CS is
brought high after the 13th SCLK falling edge, but before the
end of t
back into three-state, but the part remains in normal mode.
For the AD7922, 16 serial clock cycles are required to complete
the conversion and access the complete conversion result. For
the AD7912, a minimum of 14 serial clock cycles are required
to complete the conversion and access the complete
conversion result.
CONVERT
, the conversion is terminated and DOUT goes
Rev. 0 | Page 18 of 32
CS can idle high until the next conversion or can idle low until
CS returns high sometime prior to the next conversion
(effectively idling CS low). Once a data transfer is complete
(DOUT has returned to three-state), another conversion can be
initiated after the quiet time, t
low again.
POWER-DOWN MODE
Power-down mode is intended for use in applications where
slower throughput rates are required. Either the ADC is
powered down between each conversion, or a series of
conversions can be performed at a high throughput rate and
then the ADC is powered down for a relatively long duration
between these bursts of several conversions. When the AD7912/
AD7922 are in power-down mode, all analog circuitry is
powered down.
To enter power-down mode, the conversion process must be
interrupted by bringing CS high any time after the second
falling edge of SCLK and before the 10th falling edge of SCLK,
as shown in Figure 28. Once CS has been brought high in this
window of SCLKs, then the part enters power-down mode, the
conversion that was initiated by the falling edge of CS is termi-
nated, and DOUT goes back into three-state. If CS is brought
high before the second SCLK falling edge, then the part remains
in normal mode and does not power down. This helps to avoid
accidental power-down due to glitches on the CS line.
To exit this mode of operation and power the AD7912/AD7922
up again, a dummy conversion is performed. On the falling edge
of CS , the device begins to power up and continues to power up
as long as CS is held low until after the falling edge of the
10th SCLK. The device is fully powered up once 16 SCLKs have
elapsed and valid data results from the next conversion, as
shown in Figure 29. If CS is brought high before the 10th falling
edge of SCLK, then the AD7912/AD7922 go back into power-
down mode. This helps to avoid accidental power-up due to
glitches on the CS line or an inadvertent burst of 8 SCLK cycles
while CS is low. Therefore, although the device might begin to
power up on the falling edge of CS , it powers down again on the
rising edge of CS , as long as this occurs before the 10th SCLK
falling edge.
QUIET
, has elapsed by bringing CS
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