TMP01FPZ Analog Devices Inc, TMP01FPZ Datasheet - Page 16
TMP01FPZ
Manufacturer Part Number
TMP01FPZ
Description
IC SENSOR TEMP/CONTROLLER 8DIP
Manufacturer
Analog Devices Inc
Datasheet
1.TMP01FPZ.pdf
(20 pages)
Specifications of TMP01FPZ
Sensing Temperature
-55°C ~ 125°C
Output Type
Open Collector
Voltage - Supply
4.5 V ~ 13.2 V
Accuracy
±1°C
Package / Case
8-DIP (0.300", 7.62mm)
Ic Output Type
Voltage
Sensing Accuracy Range
± 3°C
Supply Current
400µA
Supply Voltage Range
4.5V To 13.2V
Sensor Case Style
DIP
No. Of Pins
8
Mounting Type
Through Hole
Temperature Sensor Function
Temp Sensor
Package Type
PDIP
Operating Temperature (min)
-55
Operating Temperature (max)
150C
Operating Temperature Classification
Military
Temperature Sensing Range
-55°C To +125°C
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
TMP01FPZ
Manufacturer:
MAIXM
Quantity:
8 145
TMP01
TRANSLATING 5 mV/K TO 10 mV/°C
A useful circuit shown in Figure 31 translates the VPTAT
output voltage, which is calibrated in Kelvins, into an output
that can be read directly in degrees Celsius on a voltmeter
display.
To accomplish this, an external amplifier is configured as a
differential amplifier. The resistors are scaled so the VREF
voltage exactly cancels the VPTAT voltage at 0.0°C.
TMP01
VPTAT
VREF
5
1
4.12kΩ
Figure 31. Translating 5 mV/K to 10 mV/°C
100kΩ
100kΩ
487Ω
TMP01
VPTAT
VREF
105kΩ
2
3
OP177
10pF
+15V
–15V
1
5
7
4
4.22kΩ
6.49kΩ
6
100kΩ
100kΩ
121Ω
V
(V
OUT
OUT
= (10mV/°C)
= 0.0V @ T = 0.0°C)
90.9kΩ
2
3
Figure 32. Translating 5 mV/K to 10 mV/°F
10pF
+15V
–15V
7
4
1.0kΩ
OP297
1/2
6
Rev. E | Page 16 of 20
100kΩ
However, the gain from VPTAT to the output is two, so that
5 mV/K becomes 10 mV/°C. Thus, for a temperature of 80°C,
the output voltage is 800 mV. Circuit errors will be due prima-
rily to the inaccuracies of the resistor values. Using 1% resistors,
the observed error was less than 10 mV, or 1°C. The 10 pF
feedback capacitor helps to ensure against oscillations. For
better accuracy, an adjustment potentiometer can be added in
series with either 100 kΩ resistor.
TRANSLATING VPTAT TO THE FAHRENHEIT SCALE
A similar circuit to the one shown in Figure 31 can be used
to translate VPTAT into an output that can be read directly in
degrees Fahrenheit, with a scaling of 10 mV/°F. Only unity gain
or less is available from the first stage differentiating circuit, so
the second amplifier provides a gain of two to complete the
conversion to the Fahrenheit scale. Using the circuit in Figure 32,
a temperature of 0.0°F gives an output of 0.00 V. At room temp-
erature (70°F), the output voltage is 700 mV. A −40°C to +85°C
operating range translates into −40°F to +185°F. The errors are
essentially the same as for the circuit in Figure 31.
6
5
100kΩ
OP297
1/2
7
V
(10mV/°F)
OUT
= 0.0V @ T = 0.0°F
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