ADS1274
ADS1278
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SBAS367–JUNE 2007
POWER-DOWN (PWDN)
2. Delay 129/fDATA or 130/fDATA after taking the
PWDN pins high, then read data.
The channels of the ADS1274/78 can be
independently powered down by use of the PWDN
inputs. To enter the power-down mode, hold the
respective PWDN pin low for at least two CLK cycles.
To exit power-down, return the corresponding PWDN
pin high. Note that when all channels are powered
down, the ADS1274/78 enters a microwatt (μW)
power state where all internal biasing is disabled. In
this state, the TEST[1:0] input pins must be driven; all
other input pins can float. The ADS1274/78 outputs
remain driven.
3. Detect for non-zero data in the powered-up
channel.
After powering up one or more channels, the
channels are synchronized to each other. It is not
necessary to use the SYNC pin to synchronize them.
When a channel is powered down in TDM data
format, the data for that channel are either forced to
zero (fixed-position TDM data mode) or replaced by
shifting the data from the next channel into the
vacated data position (dynamic-position TDM data
mode).
As shown in Figure 75 and Table 11, a maximum of
130 conversion cycles must elapse for SPI interface,
and 129 conversion cycles must elapse for
Frame-Sync, before reading data after exiting
power-down. Data from channels already running are
not affected. The user software can perform the
required delay time in any of the following ways:
In Discrete data format, the data are always forced to
zero.
When
powering-up
a
channel
in
dynamic-position TDM data format mode, the channel
data remain packed until the data are ready, at which
time the data frame is expanded to include the
just-powered channel data. See the Data Format
section for details.
1. Count the number of data conversions after
taking the PWDN pin high.
· · ·
· · ·
CLK
tPWDN
tNDR
PWDN
DRDY/FSYNC(1)
DOUT
(Discrete Data Output Mode)
Post Power-Up Data
DOUT1
(TDM Mode, Dynamic Position)
Normal Position
Data Shifts Position
Normal Position
Normal Position
DOUT1
(TDM Mode, Fixed Position)
Normal Position
Data Remains in Position
NOTE: (1) In SPI protocol, the timing occurs on the falling edge of DRDY/FSYNC. Powering down all channels forces DRDY/FSYNC high.
Figure 75. Power-Down Timing
Table 11. Power-Down Timing
SYMBOL
tPWDN
tNDR
DESCRIPTION
MIN
2
TYP
MAX
UNITS
PWDN pulse width to enter Power-Down mode
Time for new data ready (SPI)
Time for new data ready (Frame-Sync)
CLK periods
129
128
130
129
Conversions (1/fDATA
Conversions (1/fDATA
)
)
tNDR
29
Copyright © 2007, Texas Instruments Incorporated
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