TMP01FPZ Analog Devices Inc, TMP01FPZ Datasheet - Page 14
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
The current is proportional to the voltage on the VPTAT
output, and is calibrated to 4 mA at a temperature of −40°C, to
20 mA for +85°C. The main equation governing the operation
of this circuit gives the current as a function of VPTAT
The resulting temperature coefficient of the output current is
128 μA/°C.
To determine the resistor values in this circuit, first note that
VREF remains constant over temperature. Thus, the ratio of
R5 over R2 must give a variation of I
as VPTAT varies from 1.165 V at −40°C to 1.79 V at +85°C.
The absolute value of the resistors is not important, only the
ratio. For convenience, 100 kΩ is chosen for R5. Once R2 is
calculated, the value of R3 and R1 is determined by substituting
4 mA for I
243kΩ
100kΩ
I
R1
R3
OUT
OUT
=
R
1
and 1.165 V for VPTAT and solving. The final
6
39.2kΩ
⎛
⎜
⎝
Figure 27. 4mA to 20 mA Current Loop
VPTAT
R2
1
4
R
2
VREF
GND
2
3
×
TMP01
OP90
R
100kΩ
5
R5
7
4
VPTAT
−
R1
R2
R3
VREF
V+
R
6
3
OUT
8
5
1
2
3
4
+
×
R
VREF
100Ω
from 4 mA to 20 mA
R
1
R6
HYSTERESIS
GENERATOR
3
2N1711
⎛ +
⎜
⎝
1
TEMPERATURE
COMPARATOR
SENSOR AND
REFERENCE
VOLTAGE
WINDOW
R
R
Figure 28. Temperature-to-Frequency Converter
5V TO 13.2V
5
2
R
⎞
⎟
⎠
L
4–20mA
⎞
⎟
⎠
TMP01
VPTAT
Rev. E | Page 14 of 20
8
7
6
5
VPTAT
1.8kΩ
500Ω
R1
R2
V+
values are shown in the circuit. The OP90 is chosen for this
circuit because of its ability to operate on a single supply and its
high accuracy. For initial accuracy, a 10 kΩ trim potentiometer
can be included in series with R3, and the value of R3 lowered
to 95 kΩ. The potentiometer should be adjusted to produce an
output current of 12.3 mA at 25°C.
TEMPERATURE-TO-FREQUENCY CONVERTER
Another common method of transmitting analog information
is to convert a voltage to the frequency domain. This is easily
done with any of the low cost monolithic voltage-to-frequency
converters (VFCs) available, which feature a robust, open-
collector digital output. A digital signal is immune to noise
and voltage drops because the only important information is
the frequency. As long as the conversions between temperature
and frequency are done accurately, the temperature data can be
successfully transmitted.
A simple circuit to do this combines the TMP01 with an AD654
VFC, as shown in Figure 28. The AD654 outputs a square wave
that is proportional to the dc input voltage according to the
following equation:
By simply connecting the VPTAT output to the input of the
AD654, the 5 mV/°C temperature coefficient gives a sensitivity
of 25 Hz/°C, centered around 7.5 kHz at 25°C. The trimming
resistor R2 is needed to calibrate the absolute accuracy of the
AD654. For more information on that part, consult the AD654
data sheet. Finally, the AD650 can be used to accurately convert
the frequency back to a dc voltage on the receiving end.
4
3
V+
F
AD654
OUT
8
=
10
6
0.1µF
OSC
5
(
C
R
T
1
V
7
+
IN
2
R
) 2
1
C
V+
T
F
5kΩ
OUT
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