Datasheet
DS3232M
±5ppm, I
2
C Real-Time Clock with SRAM
10Maxim Integrated
High-Accuracy Time Base
The temperature sensor, oscillator, and digital adjust-
ment controller logic form the highly accurate time base.
The controller reads the output of the on-board tempera-
ture sensor and adjusts the final 1Hz output to maintain
the required accuracy. The device is trimmed at the
factory to maintain a tight accuracy over the operating
temperature range. When the device is powered by V
CC
,
the adjustment occurs once a second. When the device
is powered by V
BAT
, the adjustment occurs once every
10s to conserve power. Adjusting the 1Hz time base less
often does not affect the device’s long-term timekeeping
accuracy. The device also contains an Aging Offset reg-
ister that allows a constant offset (positive or negative) to
be added to the factory-trimmed adjustment value.
Power-Supply Configurations
The DS3232M can be configured to operate on a single
power supply (using either V
CC
or V
BAT
) or in a dual-
supply configuration, which provides a backup supply
source to keep the timekeeping circuits alive during
absence of primary system power.
Figure 4 illustrates a single-supply configuration using
V
CC
only, with the V
BAT
input grounded. When V
CC
< V
PF
,
the RST output is asserted (active low). Temperature con-
versions are executed once per second.
Figure 5 illustrates a single-supply configuration using
V
BAT
only, with the V
CC
input grounded. The RST output
is disabled and is held at ground through the connection
of the internal pullup resistor. Temperature conversions
are executed once every 10s.
Figure 6 illustrates a dual-supply configuration, using
the V
CC
supply for normal system operation and the
V
BAT
supply for backup power. In this configuration, the
power-selection function is provided by a temperature-
compensated voltage reference and a comparator circuit
that monitors the V
CC
level. When V
CC
is greater than
V
PF
, the device is powered by V
CC
. When V
CC
is less
than V
PF
but greater than V
BAT
, the device is powered
by V
CC
. If V
CC
is less than V
PF
and is less than V
BAT
, the
device is powered by V
BAT
(see Table 1).
When V
CC
< V
PF
, the RST output is asserted (active
low). When V
CC
is the presently selected power source,
temperature conversions are executed once per second.
When V
BAT
is the presently selected power source, tem-
perature conversions are executed once every 10s.
Figure 4. Single Supply (V
CC
Only)
Figure 5. Single Supply (V
BAT
Only)
Figure 6. Dual Power Supply
V
BAT
V
CC
+3.3V
V
BAT
V
CC
V
BAT
V
CC
+3.3V