PIN ASSIGNMENTS
PIN #
1
2
3
4
5
6
7
8
9
10
11
12
NAME
AGND1
AIN
0
AIN
1
AIN
2
AIN
3
CAP
REF
AGND2
D7
D6
D5
D4
O
O
O
I/O
I/O
DESCRIPTION
Analog Ground. Used internally as ground reference point.
Analog Input Channel 0. Full-scale input range is
±10V.
Analog Input Channel 1. Full-scale input range is
±10V.
Analog Input Channel 2. Full-scale input range is
±10V.
Analog Input Channel 3. Full-scale input range is
±10V.
Internal Reference Output Buffer. 2.2µF Tantalum to ground.
Reference Input/Output. Outputs +2.5V nominal. If used externally, must be buffered to maintain ADS7825 accuracy.
Can also be driven by external system reference. In both cases, bypass to ground with a 2.2µF Tantalum capacitor.
Analog Ground.
Parallel Data Bit 7 if PAR/SER HIGH; Tri-state if PAR/SER LOW. See Table I.
Parallel Data Bit 6 if PAR/SER HIGH; Tri-state if PAR/SER LOW. See Table I.
Parallel Data Bit 5 if PAR/SER HIGH; Tri-state if PAR/SER LOW. See Table I.
Parallel Data Bit 4 if PAR/SER HIGH; if PAR/SER LOW, a LOW level input here will transmit serial data on SDATA from
the previous conversion using the internal serial clock; a HIGH input here will transmit serial data using an external serial
clock input on DATACLK (D2). See Table I.
Parallel Data Bit 3 if PAR/SER HIGH; SYNC output if PAR/SER LOW. See Table I.
Digital Ground.
I/O
O
I/O
I/O
I/O
I
I
Parallel Data Bit 2 if PAR/SER HIGH; if PAR/SER LOW, this will output the internal serial clock if EXT/INT (D4) is LOW;
will be an input for an external serial clock if EXT/INT (D4) is HIGH. See Table I.
Parallel Data Bit 1 if PAR/SER HIGH; SDATA serial data output if PAR/SER LOW. See Table I.
Parallel Data Bit 0 if PAR/SER HIGH; TAG data input if PAR/SER LOW. See Table I.
Channel Address. Input if CONTC LOW, output if CONTC HIGH. See Table I.
Channel Address. Input if CONTC LOW, output if CONTC HIGH. See Table I.
Select Parallel or Serial Output. If HIGH, parallel data will be output on D0 thru D7. If LOW, serial data will be output on
SDATA. See Table I and Figure 1.
Byte Select. Only used with parallel data, when PAR/SER HIGH. Determines which byte is available on D0 thru D7.
Changing BYTE with CS LOW and R/C HIGH will cause the data bus to change accordingly. LOW selects the 8 MSBs;
HIGH selects the 4 LSBs, see Figures 2 and 3.
Read/Convert Input. With CS LOW, a falling edge on R/C puts the internal sample/hold into the hold state and starts a
conversion. With CS LOW, a rising edge on R/C enables the output data bits if PAR/SER HIGH, or starts transmission
of serial data if PAR/SER LOW and EXT/INT HIGH.
Chip Select. Internally OR'd with R/C. With CONTC LOW and R/C LOW, a falling edge on CS will initiate a conversion.
With R/C HIGH, a falling edge on CS will enable the output data bits if PAR/SER HIGH, or starts transmission of serial
data if PAR/SER LOW and EXT/INT HIGH.
Busy Output. Falls when conversion is started; remains LOW until the conversion is completed and the data is latched
into the output register. In parallel output mode, output data will be valid when BUSY rises, so that the rising edge can
be used to latch the data.
Continuous Conversion Input. If LOW, conversions will occur normally when initiated using CS and R/C; if HIGH,
acquisition and conversions will take place continually, cycling through all four input channels, as long as CS, R/C and
PWRD are LOW. See Table I. For serial mode only.
Power Down Input. If HIGH, conversions are inhibited and power consumption is significantly reduced. Results from the
previous conversion are maintained in the output register. In the continuous conversion mode, the multiplexer address
channel is reset to channel 0
Supply Input. Nominally +5V. Connect directly to pin 28. Decouple to ground with 0.1µF ceramic and 10µF Tantalum
capacitors.
Supply Input. Nominally +5V. Connect directly to pin 27.
13
14
15
16
17
18
19
20
21
D3
DGND
D2
D1
D0
A1
A0
PAR/SER
BYTE
O
22
R/C
I
23
CS
I
24
BUSY
O
25
CONTC
I
26
PWRD
I
27
28
V
S2
V
S1
®
ADS7824
4
BURR-BROWN [ BURR-BROWN CORPORATION ]
