LM56 National Semiconductor, LM56 Datasheet - Page 10
LM56
Manufacturer Part Number
LM56
Description
Dual Output Low Power Thermostat
Manufacturer
National Semiconductor
Datasheet
1.LM56.pdf
(13 pages)
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Application Hints
5.0 V
The LM56 V
ing well. Without any special precautions, these outputs can
drive any capacitive load as shown in Figure 4 .
6.0 NOISY ENVIRONMENTS
Over the specified temperature range the LM56 V
put has a maximum output impedance of 1500 . In an ex-
tremely noisy environment it may be necessary to add some
filtering to minimize noise pickup. It is recommended that 0.1
µF be added from V
voltage, as shown in Figure 4 . In a noisy environment it may
be necessary to add a capacitor from the V
ground. A 1 µF output capacitor with the 1500
pedance will form a 106 Hz lowpass filter. Since the thermal
time constant of the V
9.4 ms time constant formed by the RC, the overall response
time of the V
much larger capacitors this additional time lag will increase
the overall response time of the LM56.
7.0 APPLICATIONS CIRCUITS
FIGURE 5. Reducing Errors Caused by Bias Current
REF
AND V
TEMP
REF
and V
output will not be significantly affected. For
TEMP
+
TEMP
TEMP
to GND to bypass the power supply
CAPACTIVE LOADING
output is much slower than the
outputs handle capacitive load-
(Continued)
FIGURE 4. Loading of V
TEMP
output im-
output to
TEMP
DS012893-20
out-
10
The circuit shown in Figure 5 will reduce the effective bias
current error for V
equivalent to the error term of V
of the bias current on the first trip point can be defined by the
following equations:
where I
Similarly, bias current affect on V
where I
The current shown in Figure 6 is a simple overtemperature
detector for power devices. In this example, an audio power
amplifier IC is bolted to a heat sink and an LM56 Celsius
temperature sensor is mounted on a PC board that is bolted
to the heat sink near the power amplifier. To ensure that the
sensing element is at the same temperature as the heat sink,
the sensor’s leads are mounted to pads that have feed
throughs to the back side of the PC board. Since the LM56 is
sensing the temperature of the actual PC board the back
side of the PC board also has large ground plane to help
conduct the heat to the device. The comparator’s output
goes low if the heat sink temperature rises above a threshold
set by R1, R2, and the voltage reference. This fault detection
output from the comparator now can be used to turn on a
cooling fan. The circuit as shown in design to turn the fan on
when heat sink temperature exceeds about 80˚C, and to turn
the fan off when the heat sink temperature falls below ap-
proximately 75˚C.
REF
and V
B
B
= 300 nA (the maximum specified error).
= 300 nA (the maximum specified error).
TEMP
T2
as discussed in Section 3.0 to be
T1
T2
. For this circuit the effect
can be defined by:
DS012893-19
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