into the A0 and A1 registers (pins 19 and 18, respectively)
prior to CONTC being raised HIGH, becomes the first
address in the sequential continuous conversion mode (e.g.,
if Channel 1 was the last address selected then Channel 2
will follow, then Channel 3, and so on). The A0 and A1
address inputs become outputs when the device is in this
mode. When BUSY rises at the end of a conversion, A0 and
A1 will output the address of the channel that will be
converted when BUSY goes LOW at the beginning of the
next conversion. Data will be valid for the previous channel
when BUSY rises. See Table IVa and Figure 7 for channel
selection timing in continuous conversion mode.
conversions will proceed through each higher channel, cy-
cling back to zero after Channel 3.
If PWRD is held HIGH for a significant period of time, the
REF (pin 7) bypass capacitor may discharge (if the internal
reference is being utilized) and the CAP (pin 6) bypass
capacitor will discharge (for both internal and external
references). The continuous conversion mode should not be
enabled until the bypass capacitor(s) have recharged and
stabilized (1ms for 2.2µF capacitors recommended). In
addition, the continuous conversion mode should not be
enabled even with a short pulse on PWRD until the mini-
mum acquisition time has been met.
PWRD (pin 26) can be used to reset the multiplexer address
to zero. With the ADS7825 configured for no conversion,
PWRD can be taken HIGH for a minimum of 200ns. When
PWRD returns LOW, the multiplexer address will be reset
to zero. When the continuous conversion mode is enabled,
the first conversion will be done on channel 0. Subsequent
MANUAL CHANNEL SELECTION (CONTC= 0V)
The channels of the ADS7825 can be selected manually by
using the A0 and A1 address pins (pins 19 and 18, respec-
tively). See Table IVb for the multiplexer truth table and
Figure 8 for channel selection timing.
ADS7825 TIMING AND CONTROL
DATA AVAILABLE
FROM CHANNEL
CHANNEL TO BE OR
BEING CONVERTED
A1
A0
DESCRIPTION OF OPERATION
0
0
1
1
0
1
0
1
AIN3
AIN0
AIN1
AIN2
AIN0
AIN1
AIN2
AIN3
Channel being acquired or converted is output on these
address lines. Data is valid for the previous channel. These
lines are updated when BUSY rises.
TABLE IVa. A0 and A1 Outputs (CONTC HIGH).
CHANNEL SELECTED
A1
A0
WHEN BUSY GOES HIGH
DESCRIPTION OF OPERATION
0
0
1
1
0
1
0
1
AIN0
AIN1
AIN2
AIN3
Channel to be converted during conversion 'n + 1' is latched
when conversion 'n' is initiated (BUSY goes LOW). The selected
input starts being acquired as soon as conversion 'n' is done
(BUSY goes HIGH).
TABLE IVb. A0 and A1 Inputs (CONTC LOW).
Conversion Currently in Progress:
n – 2
n – 1
n
n + 1
n + 1
n + 2
n + 3
n + 3
n + 4
n + 4
BUSY
Channel Address for Conversion:
n – 2 n – 1
A0, A1
(Output)
n
n + 2
t29
n + 5
n + 4
Results from Conversion:
n – 3 n – 2
D7-D0
n – 1
n
n + 1
n + 2
n + 3
FIGURE 7. Channel Addressing in Continuous Conversion Mode (CONTC HIGH, CS and R/C LOW).
R/C
Conversion Currently in Progress:
n – 2
n – 1
n
n + 1
n + 2
n + 3
n + 3
n + 4
n + 4
n + 5
BUSY
Channel Address for Conversion:
n – 1 n + 1
A0, A1
(Input)
n
n + 2
t30
Results from Conversion:
n – 3 n – 2
D7-D0
n – 1
n
n + 1
n + 2
n + 3
n + 4
FIGURE 8. Channel Addressing in Normal Conversion Mode (CONTC and CS LOW).
®
ADS7825
14