MAX690 Просмотр технического описания (PDF) - Maxim Integrated
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MAX690 Datasheet PDF : 18 Pages
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MAX690–MAX695
Microprocessor Supervisory Circuits
Detailed Description
Battery-Switchover and VOUT
The battery switchover circuit compares VCC to the VBATT
input, and connects VOUT to whichever is higher. Switchover
occurs when VCC is 50mV greater than VBATT as VCC falls,
and VCC is 70mV more than VBATT as VCC rises (see
Figure 4). The switchover comparator has 20mV of hyster-
esis to prevent repeated, rapid switching if VCC falls very
slowly or remains nearly equal to the battery voltage.
When VCC is higher than VBATT, VCC is internally
switched to VOUT via a low saturation PNP transis-
tor. VOUT has 50mA output current capability. Use an
external PNP pass transistor in parallel with internal tran-
sistor if the output current requirement at VOUT exceeds
50mA or if a lower VCC-VOUT voltage differential is
desired. The BATT ON output (MAX691/MAX693/MAX695
only) can directly drive the base of the external transistor.
It should be noted that the MAX690–MAX695 need only
supply the average current drawn by the CMOS RAM if
there is adequate filtering. Many RAM data sheets specify
a 75mA maximum supply current, but this peak current
spike lasts only 100ns. A 0.1µF bypass capacitor at VOUT
supplies the high instantaneous current, while VOUT need
only supply the average load current, which is much less.
A capacitance of 0.1µF or greater must be connected to
the VOUT terminal to ensure stability.
A 200Ω MOSFET connects VBATT input to VOUT during
battery backup. This MOSFET has very low input-to-
output differential (dropout voltage) at the low current
levels required for battery backup of CMOS RAM or other
low power CMOS circuitry. When VCC equals VBATT the
supply current is typically 12µA. When VCC is between
0V and (VBATT - 700mV) the typical supply current is only
600nA typical, 1µA maximum.
The MAX690/MAX691/MAX694/MAX695 operate with
battery voltages from 2.0V to 4.25V while MAX692/
MAX693 operate with battery voltages from 2.0V to
4.0V. High value capacitors can also be used for short-
term memory backup. External circuitry is required to
ensure that the capacitor voltage does not rise above
the reset threshold, and that the charging resistor does
not discharge the capacitor when in backup mode. The
MAX691A and the MAX791 provide solutions requiring
fewer external components.
A small charging current of typically 10nA (0.1µA max)
flows out of the VBATT terminal. This current varies with the
amount of current that is drawn from VOUT but its polarity
is such that the backup battery is always slightly charged,
and is never discharged while VCC is in its operating volt-
age range. This extends the shelf life of the backup battery
by compensating for its self-discharge current. Also note
that this current poses no problem when lithium batteries
are used for backup since the maximum charging current
(0.1µA) is safe for even the smallest lithium cells.
If the battery-switchover section is not used, connect
VBATT to GND and connect VOUT to VCC. Table 2 shows
the state of the inputs and output in the low power battery
backup mode.
VBATT
1
5 BATT ON
+
3
VCC
-
CHIP-ENABLE INPUT
13
+
*4.4V (MAX693)
*
4.65V
-
RESET GENERATOR
OSC IN
OSC SEL
WATCHDOG INPUT
POWER FAIL
INPUT
7
8
11
9
1.3V
TIMEBASE FOR RESET
AND
WATCHDOG
WATCHDOG TRANSITION
DETECTOR
+
-
WATCHDOG
TIMER
2
VOUT
12
CHIP ENABLE OUTPUT
6
LOW LINE
15
RESET
16
RESET
14
WATCHDOG OUTPUT
10
POWER FAIL OUTPUT
Figure 3. MAX691/MAX693/MAX695 Block Diagram
4 GROUND
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