MAX6509 Maxim, MAX6509 Datasheet - Page 6
MAX6509
Manufacturer Part Number
MAX6509
Description
Resistor-Programmable SOT Temperature Switches
Manufacturer
Maxim
Datasheet
1.MAX6509.pdf
(8 pages)
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The MAX6509/MAX6510 supply current is typically
32µA. When used to drive high-impedance loads, the
devices dissipate negligible power; therefore, the die
temperature is essentially the same as the package
temperature. The key to accurate temperature monitor-
ing is good thermal contact between the MAX6509/
MAX6510 package and the device being monitored. In
some applications, the SOT23-5 and SOT23-6 pack-
ages may be small enough to fit underneath a socketed
µP, allowing the device to monitor the µP’s temperature
directly. Use the monitor’s output to reset the µP, assert
an interrupt, or trigger an external alarm. Accurate tem-
perature monitoring depends on the thermal resistance
between the device being monitored and the
MAX6509/MAX6510 die.
The rise in die temperature due to self-heating is given
by the following formula:
where P
MAX6509/MAX6510, and θ
resistance. The typical thermal resistance is 115°C/W
for the SOT23-6 package. To limit the effects of self-
heating, minimize the output currents. For example, if
the MAX6510 sinks 5mA, the output voltage is guaran-
teed to be less than 0.3V; therefore, an additional
1.5mW of power is dissipated within the IC. This corre-
sponds to a 0.173°C shift in the die temperature in the
SOT23-6.
The MAX6509/MAX6510 temperature switch outputs
assert when the die temperature is outside the pro-
grammed range. Combining the outputs of a set-cold
Resistor-Programmable
SOT Temperature Switches
Figure 2. Microprocessor Alarm/Reset
6
+3.3V
_______________________________________________________________________________________
V
µP
CC
SHUTDOWN
DISS
RESET
INT
OR
Temperature-Window Detector
Applications Information
is the power dissipated by the
∆T
J
R
100k
HEAT
= P
PULL-UP
Thermal Considerations
DISS
JA
OUT
is the package’s thermal
HYST
· θ
JA
MAX6509
V
CC
GND
SET
R
SET
and a set-hot device creates an over/undertemperature
detector. The MAX6509/MAX6510 are designed to form
two complementary pairs, each containing one cold trip
point output and one hot trip point output. The assertion
of either output alerts the system to an out-of-range tem-
perature. The MAX6510 push-pull output stages can be
ORed to produce a thermal out-of-range alarm. More
favorably, a MAX6509HAUK-T and MAX6509CAUK-T
can be directly wire-ORed with a single external resis-
tor to accomplish the same task (Figure 5).
The temperature window (alarms or detectors as in
Figure 5) can be used to accurately determine when a
device’s temperature falls out of a programmed range,
for example -3°C to +75°C as shown in Figure 5. The
thermal overrange signal can be used to assert a ther-
Figure 3. Overtemperature Fan Control
Figure 4. Temperature Response
+5V
OUTSET = GND
MAX6509H
MAX6510C
TEMPERATURE
-40°C
OUT
OUT
-38°C
100°C
98°C
V
µP
CC
100°C
HEAT
OUTSET
V
GND
CC
MAX6510
98°C
-40°C
HYST
OUT
SET
R
SET
THYST = 2°C
-38°C
SET HOT
SET COLD
FAN
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