FM31276 Ver la hoja de datos (PDF) - Ramtron International Corporation
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FM31276 Datasheet PDF : 25 Pages
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to be loaded into the timekeeper core. W is used for
writing new time values. Users should be certain not
to load invalid values, such as FFh, to the
timekeeping registers. Updates to the timekeeping
core occur continuously except when locked.
Backup Power
The real-time clock/calendar is intended to be
permanently powered. When the primary system
power fails, the voltage on the VDD pin will drop.
When VDD is less 2.5V the RTC (and event counters)
will switch to the backup power supply on VBAK. The
clock operates at extremely low current in order to
maximize battery or capacitor life. However, one of
the advantages of combining a clock function with
the F-RAM memory is that data is not lost regardless
of the backup power source.
A battery may be inserted into a system board
without any concern for excessive current draw on
the FM3127x’s VBAK pin.
FM31278/276/274/272 - 5V I2C Companion
Trickle Charger
To facilitate capacitor backup, the VBAK pin can
optionally provide a trickle charge current. When the
VBC bit, register 0Bh bit 2, is set to ‘1’, the VBAK pin
will source approximately 80 µA until VBAK reaches
3.75V. In 5V systems, this charges the capacitor to
VDD without an external diode and resistor charger
and also prevents the user from exceeding the VBAK
maximum voltage specification. There is a Fast
Charge mode which is enabled by the FC bit (register
0Bh, bit 5). In this mode the trickle charger current is
set to approximately 1 mA, allowing a large backup
capacitor to charge more quickly.
In the case where no backup source is used, the VBAK
pin should be tied to VSS. VBAK should not be tied to
5V since the VBAK (max) specification will be
exceeded. Be sure to turn off the trickle charger
(VBC=0), otherwise charger current will be shunted
to ground from VDD.
! Note: systems using lithium batteries should clear
the VBC bit to 0 to prevent battery charging. The
VBAK circuitry includes an internal 1 KΩ series
resistor as a safety element.
/OSCEN
512 Hz
W
32.768 kHz
crystal
Oscillator
Clock
Divider
1 Hz
Update
Logic
CF
Years
8 bits
Months
5 bits
Date
6 bits
Days
3 bits
Hours
6 bits
Minutes
7 bits
Seconds
7 bits
User Interface Registers
R
Figure 7. Real-Time Clock Core Block Diagram
Calibration
When the CAL bit in a register 00h is set to 1, the
clock enters calibration mode. In calibration mode,
the CAL/PFO output pin is dedicated to the
calibration function and the power fail output is
temporarily unavailable. Calibration operates by
applying a digital correction to the counter based on
the frequency error. In this mode, the CAL/PFO pin
is driven with a 512 Hz (nominal) square wave. Any
measured deviation from 512 Hz translates into a
timekeeping error. The user converts the measured
error in ppm and writes the appropriate correction
value to the calibration register. The correction
factors are listed in the table below. Positive ppm
errors require a negative adjustment that removes
pulses. Negative ppm errors require a positive
correction that adds pulses. Positive ppm adjustments
have the CALS (sign) bit set to 1, where as negative
ppm adjustments have CALS = 0. After calibration,
the clock will have a maximum error of ± 2.17 ppm
or ± 0.09 minutes per month at the calibrated
temperature.
Rev. 2.0
Dec. 2007
Page 7 of 25
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