MAX8215MPD(1993) 데이터 시트보기 (PDF) - Maxim Integrated
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MAX8215MPD Datasheet PDF : 12 Pages
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±5V, ±12V (±15V) Dedicated
Microprocessor Voltage Monitors
2 GND
+5V
0.1µF
8
PGND
14
VDD
680k
680k
+VS
3 +5V
MAX8215
MAX8216
13
OUT1
7 DIN
1µF
9
DOUT
RESET
VTRIP2
INPUT VOLTAGE
(VS) VTRIP1
GND
OUTPUT
VOLTAGE
(OUT1) VDD
GND
tDLY
VDD
OUTPUT
VOLTAGE
(DOUT) GND
VTRIP1 IS FOR VS DECREASING;
VTRIP2 IS FOR VS INCREASING.
( ) tDLY = -RC In
1
-
VREF
VCC
NOTE: VTH IS THE VOLTAGE AT THE INVERTING PIN OF THE TWO COMPARATORS.
IN THIS CASE, IT IS EQUAL TO THE INTERNAL REFERENCE VOLTAGE.
Figure 5. Microprocessor Reset Circuit with 200ms Time Delay
Figure 6. Microprocessor Reset with Time Delay Waveforms
Monitoring the Supply Voltage
The supply voltage to these devices can also be moni-
tored by the 5V dedicated comparator and the auxiliary
comparator. Figure 4 shows a circuit that monitors the
voltage connected at VDD for both overvoltage and
undervoltage conditions. The +5V comparator checks
for undervoltage conditions while the auxiliary compara-
tor monitors overvoltage conditions. In general, no extra
supply bypassing circuitry (other than the normally rec-
ommended 0.1µF capacitor) is required when perform-
ing this function. However, using resistor values higher
than 100kΩ at the auxiliary comparator’s input requires
attention to eliminate potential oscillations. Also, partic-
ularly low pull-up resistor values on DOUT contribute to
the likelihood of the auxiliary comparator’s oscillation.
See the section Eliminating Output Oscillation.
Microprocessor Reset
____________Circuit with Time Delay
It is often necessary to reset a microprocessor (µP) when
its supply voltage drops below a certain level. Figure 5’s
circuit generates a low output when the monitored volt-
age drops below the 5V monitor’s threshold. Additionally,
this output remains low for 200ms after the supply voltage
goes above the threshold. µP reset circuits typically
include this feature because it gives the µP time to be
fully reset after power has been restored, and allows any
capacitors in associated circuitry time to charge. Figure
6 shows this circuit’s waveforms and formulas.
Figure 7 shows Figure 5’s µP reset circuit, but with the
monitored supply also powering the MAX8215. Figure
6’s waveforms and equations also apply to this circuit.
The MAX8215/MAX8216 comparator outputs correctly
display a low level down to a 0.8V typical supply voltage.
Unused Inputs
When the uncommitted comparator within the
MAX8215/MAX8216 is not used, tie the unused input to
either the positive supply or ground. This prevents noise
generation due to the comparator output switching from
one logic state to another (due to noise at the input).
Output Pull-Up Resistors
Pull-up resistors are required at the outputs of each
comparator. Resistor values should not be less than
2.7kΩ if the outputs are pulled up to VDD. In general,
save power by using higher values, e.g., ≥100kΩ. Use
of higher-value resistors also minimizes the possibility
of oscillations due to a spurious feedback (see the sec-
tion Eliminating Output Oscillation).
Input Voltage Limitation
If the voltages at the various inputs are kept within the
absolute maximum ratings, the device is not damaged.
However, high input voltages within this range can
cause the reference voltage to move. To prevent the
reference voltage from changing, limit the +5V input to
+17V; the -5V and -15V inputs to +1V; and the +15V
input to +60V. Negative input voltages within the
8 _______________________________________________________________________________________
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