AD7781
Rev. 0 | Page 7 of 16
PIN CONFIGURATIONS AND FUNCTION DESCRIPTIONS
AD7781
TOP VIEW
(Not to Scale)
NC = NO CONNECT
1
2
3
4
5
6
7
8
SCLK
DOUT/RDY
NC
AIN(–)
AIN(+)
GAIN
NC
REFIN(+)
16
15
14
13
12
11
10
9
FILTER
PDRST
DV
DD
BPDSW
REFIN(–)
GND
AV
DD
NC
SCLK
1
DOUT/RDY 2
NC 3
GAIN
4
FILTER
14
PDRST13
DV
DD
12
AV
DD
11
AIN(+) 5 GND10
AIN(–) 6 BPDSW9
AD7781
TOP VIEW
(Not to Scale)
REFIN(+)
7
REFIN(–)
8
NC = NO CONNECT
8162-006
08162-007
Figure 6. SOIC Pin Configuration Figure 7. TSSOP Pin Configuration
Table 6. Pin Function Descriptions
Pin No.
SOIC TSSOP Mnemonic Description
1 2 SCLK
Serial Clock Input. This serial clock input is for data transfers from the ADC. The SCLK pin has a Schmitt-
triggered input. The serial clock can be active only when transferring data from the AD7781. The data
from the AD7781 can be read as a continuous 32-bit word. Alternatively, SCLK can be noncontinuous
during the data transfer, with the information being transmitted from the ADC in smaller data batches.
2 3
DOUT/RDY
Serial Data Output/Data Ready Output. DOUT/RDY serves a dual purpose: as a data ready pin, going low
to indicate the completion of a conversion, and as a serial data output pin to access the data register of
the ADC. Eight status bits accompany each data read (see ). The DOUT/Figure 22 RDY falling edge can be
used as an interrupt to a processor, indicating that new data is available. If the data is not read after the
conversion, the pin goes high before the next update occurs. The serial interface is reset each time that a
conversion is available. Therefore, the user must ensure that any conversions being transmitted are
completed before the next conversion is available.
3 1, 4, 16 NC No Connect. This pin can be left floating.
4 5 GAIN Gain Select Pin. When GAIN is low, the gain is set to 128. When GAIN is high, the gain is set to 1.
5 6 AIN(+) Analog Input. AIN(+) is the positive terminal of the differential analog input pair, AIN(+)/AIN(−).
6 7 AIN(−) Analog Input. AIN(−) is the negative terminal of the differential analog input pair, AIN(+)/AIN(−).
7 8 REFIN(+)
Positive Reference Input. An external reference can be applied between REFIN(+) and REFIN(−). The nomi-
nal reference voltage (REFIN(+) − REFIN(−)) is 5 V, but the part can function with a reference of 0.5 V to AV
DD
.
8 9 REFIN(−) Negative Reference Input.
9 10 BPDSW
Bridge Power-Down Switch to GND. When PDRST
is high, the bridge power-down switch is closed.
When PDRST
is low, the switch is opened.
10 11 GND Ground Reference Point.
11 12 AV
DD
Supply Voltage, 2.7 V to 5.25 V.
12 13 DV
DD
Digital Interface Supply Voltage. The logic levels for the serial interface pins and the digital control pins
are related to this supply, which is between 2.7 V and 5.25 V. The DV
DD
voltage is independent of the
voltage on AV
DD
; therefore, AV
DD
can equal 5 V with DV
DD
at 3 V or vice versa.
13 14
PDRST
Power-Down/Reset. When this pin is low, the ADC is placed in power-down mode, and the low-side power
switch is opened. All the logic on the chip is reset, and the DOUT/RDY
pin is tristated. When PDRST is high,
the ADC is taken out of power-down mode. The on-chip clock powers up and settles, and the ADC contin-
uously converts. In addition, the low-side power switch is closed. The internal clock requires approximately
1 ms to power up.
14 15 FILTER
Filter Select Pin. When FILTER is low, the fast settling filter is selected. The update rate is set to 16.7 Hz,
which gives a filter settling time of 120 ms. When FILTER is high, the high rejection filter is selected. The
update rate is set to 10 Hz, which gives a filter settling time of 300 ms. With this filter, the stop-band
(higher than f
ADC
) attenuation is better than −45 dB.