MAX837EUS-T(1996) View Datasheet(PDF) - Maxim Integrated

Part Name

Description

Manufacturer

MAX837EUS-T
(Rev.:1996)

4-Pin Micropower Voltage Monitors

Maxim Integrated 

4-Pin Micropower Voltage Monitors

both parts. For the MAX836, select the ratio of resistors

R1 and R2 so that IN sees 1.204V when the monitor

voltage falls to or rises above the desired trip point

(VTRIP). R3 adds hysteresis and is typically an order of

magnitude larger than R1 or R2. The current through R1

and R2 should be at least 500nA to ensure that the

12nA maximum input current does not shift the trip

point significantly. Capacitor C1 adds additional noise

rejection.

Monitoring Voltages Other than VCC

The MAX836/MAX837 can monitor voltages other than

VCC (Figure 3). Calculate VTRIP as shown in the section

Programming the Trip Voltage. The monitored voltage

(VMON) is independent of VCC. VIN must be 1V less

than VCC.

Heater Temperature Control

Figure 4 shows a basic heater temperature-control cir-

cuit. Upon power-up, OUT is high and the N-channel

MOSFET turns on. Current flows through the heating

element (R4), warming the surrounding area. R2 is a

negative-temperature-coefficient thermistor and as tem-

perature increases, its resistance decreases. As the

thermistor heats up and its resistance decreases, the

MAX837’s voltage at IN decreases until it reaches the

1.204V threshold voltage. At this point, OUT goes low,

turning off the heating element. The thermistor cools

and the voltage at IN rises until it overcomes the

MAX837’s hysteresis (6mV). OUT returns high when this

point is reached, turning on the heating element again.

This cycle repeats as long as power is applied.

Determine the thermistor’s resistance (R2) at the

desired temperature. Then, using R2’s resistance and

half the resistance of R3, calculate R1’s value with the

following formula:

R1

=

(R2

+

R3)





VCC

1.204



- 1

___________________Chip Information

TRANSISTOR COUNT: 54

VCC

0.1µF

GND

OUT

MAX837

VCC

IN

VMON

R1

R2

Figure 3. Monitoring Voltages Other than VCC

GND

OUT

MAX837

VCC

VCC

IN

OUT

R3

R1

0.1µF

R2

C1

NOTE: C1 ADDS ADDITIONAL NOISE IMMUNITY

VCC

0.1µF

R1

VCC

IN

THERMISTOR

R2

WITH

NEGATIVE

T

MAX837

COEFFICIENT

R3

HEATING

ELEMENT

R4

GND OUT

( ) R1 = (R2 + R3) VCC - 1 Ω

1.204

Figure 2. Adding Hysteresis to the Comparator

Figure 4. Heater Temperature Control

_______________________________________________________________________________________ 5

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