LTC1235CN-PBF 查看數據表(PDF) - Linear Technology
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LTC1235CN-PBF Datasheet PDF : 16 Pages
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LTC1235
APPLICATIONS INFORMATION
VOUT IN BATTERY SAVING MODE
BACKUP
LOGIC LOW
VCC
VOUT
RESET VOLTAGE THRESHOLD
VBATT
Hi-Z
BACKUP
VCC
VOUT IN BATTERY BACKUP MODE
LOGIC
HIGH
RESET VOLTAGE THRESHOLD
VBATT
VOUT
VOUT = VBATT
1235 F04
Figure 4. Conditional Battery Backup Operation
The operating voltage at the VBATT pin ranges from 2.0V
to 4.25V. High value capacitors, such as electrolytic or
faradsize double layer capacitors, can be used for short
term memory backup instead of a battery. For capacitor
backup, see Typical Applications. The charging resistor
for recharging rechargeable batteries should be con-
nected to VOUT through a diode since this eliminates the
discharge path that exists when VCC collapses and RAM
is not backed up (Figure 5).
I = VOUT – VBATT – VD
R
1N4148
R
+5V
0.1μF
VCC
VOUT
0.1μF RAM
LTC1235
BACKUP
VBATT
+3V
GND
4
I/O LINE
μP
1235 F05
Figure 5. Charging External Battery Through VOUT
10
Replacing the Backup Battery with Power On
When changing the backup battery with system power on,
spurious resets can occur while battery is removed due to
battery standby current. Although battery standby current
is only a tiny leakage current, it can still charge up the
stray capacitance on the VBATT pin. The oscillation cycle
is as follows: When VBATT reaches within 50mV of VCC,
the LTC1235 switches to battery backup or battery sav-
ing mode. In either case, the battery supply current pulls
VBATT low and the device goes back to normal operation.
The leakage current then charges up the VBATT pin again
and the cycle repeats.
If spurious resets during battery replacement pose no
problems, then no action is required. Otherwise, two
methods can be used to eliminate this problem. First, a
capacitor from VBATT to GND will allow time for battery
replacement by slowing the charge rate. For example,
the battery standby current is 1μA maximum over tem-
perature and the external capacitor required to slow the
charge rate is:
CEXT
TREQ'D
1μA
VCC ± VBATT
where TREQ’D is the maximum time required to replace the
backup battery. With VCC = 4.5V, VBATT = 3V and TREQ’D
= 3 sec, the value for external capacitor is 2μF. Second,
a resistor from VBATT to GND will hold the pin low while
changing the battery. For example, the battery standby
current is 1μA maximum over temperature and the external
resistor required to hold VBATT below VCC is:
R ≤ VCC ± 50mV
1μA
With VCC = 4.5V, a 4.3M resistor will work. With a 3V bat-
tery, this resistor will draw only 0.7μA from the battery,
which is negligible in most cases.
If the battery connections are made with long wires or PC
traces, inductive spikes can be generated during battery
replacement. Even if a resistor is used to prevent spurious
resets as described above, these spikes can take the VBATT
pin below GND violating the LTC1235 absolute maximum
ratings. A 0.1μF capacitor from VBATT to GND is recom-
mended to eliminate these potential spikes when battery
replacement is made through long wires.
1235fa
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