TMP01FS Analog Devices Inc, TMP01FS Datasheet - Page 15
TMP01FS
Manufacturer Part Number
TMP01FS
Description
Temperature Sensor IC IC Function:Digital Temperature Sensor
Manufacturer
Analog Devices Inc
Datasheet
1.TMP01FPZ.pdf
(20 pages)
Specifications of TMP01FS
Package/case
8-SOIC
Leaded Process Compatible
No
Ic Generic Number
01
Mounting Type
Surface Mount
Operating Temp. Max
125 C
Operating Temp. Min
-55 C
Rohs Status
RoHS non-compliant
Sensing Temperature
-55°C ~ 125°C
Output Type
Open Collector
Voltage - Supply
4.5 V ~ 13.2 V
Accuracy
±1°C
Package / Case
8-SOIC (0.154", 3.90mm Width)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
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ISOLATION AMPLIFIER
In many industrial applications, the sensor is located in an envi-
ronment that needs to be electrically isolated from the central
processing area. Figure 29 shows a simple circuit that uses an
8-pin optoisolator (IL300XC) that can operate across a 5,000 V
barrier. IC1 (an OP290 single-supply amplifier) is used to drive
the LED connected between Pin 1 and Pin 2. The feedback
actually comes from the photodiode connected from Pin 3 to
Pin 4. The OP290 drives the LED such that there is enough
current generated in the photodiode to exactly equal the current
derived from the VPTAT voltage across the 470 kΩ resistor.
On the receiving end, an OP90 converts the current from the
second photodiode to a voltage through its feedback resistor R2.
Note that the other amplifier in the dual OP290 is used to buffer
the 2.5 V reference voltage of the TMP01 for an accurate, low
drift LED bias level without affecting the programmed hyster-
esis current. A REF43 (a precision 2.5 V reference) provides an
accurate bias level at the receiving end.
To understand this circuit, it helps to examine the overall
equation for the output voltage. First, the current (I1) in the
photodiode is set by
Note that the IL300XC has a gain of 0.73 (typical) with a
minimum and maximum of 0.693 and 0.769, respectively.
Because this is less than 1.0, R2 must be larger than R1 to
achieve overall unity gain. To show this, the full equation is
A trim is included for R2 to correct for the initial gain accuracy
of the IL300XC. To perform this trim, simply adjust for an
V
2
I
5 .
1
OUT
=
V
R1
R2
R3
2
−
=
5 .
0
2
7 .
V
5 .
470
1
2
3
4
⎛
⎜
⎜
⎝
−
V
2
VREF
VPTAT
5 .
kΩ
−
HYSTERESIS
GENERATOR
V
470
I
2
−
TEMPERATURE
COMPARATOR
R
VPTAT
SENSOR AND
REFERENCE
kΩ
2
VOLTAGE
WINDOW
=
⎞
⎟
⎟
⎠
OP290
644
TMP01
kΩ
VPTAT
=
VPTAT
8
7
6
5
470kΩ
R1
V+
2
3
OP290
Figure 29. Isolation Amplifier
V+
7
4
Rev. E | Page 15 of 20
680pF
6
100kΩ
output voltage equal to VPTAT at any particular temperature.
For example, at room temperature, VPTAT = 1.49 V, so adjust
R2 until V
operate from a single supply, and contribute no significant error
due to drift.
In order to avoid the accuracy trim, and to reduce board space,
complete isolation amplifiers are available, such as the high
accuracy AD202.
OUT-OF-RANGE WARNING
By connecting the two open-collector outputs of the TMP01
together into a wired-OR configuration, a temperature out-
of-range warning signal is generated. This can be useful in
sensitive equipment calibrated to work over a limited temper-
ature range.
R1, R2, and R3 in Figure 30 are chosen to give a temperature
range of 10°C around room temperature (25°C). Thus, if the
temperature in the equipment falls below 15°C or rises above
35°C, the OVER or UNDER output, respectively, goes low and
turns the LED on. The LED may be replaced with a simple pull-
up resistor to give a logic output for controlling the instrument,
or any of the switching devices discussed above can be used.
IN4148
47.5kΩ
4.99kΩ
71.5kΩ
R1
R2
R3
1
2
3
4
OUT
ISOLATION
IL300XC
1
2
3
4
BARRIER
I
1
VREF
= 1.49 V as well. Both the REF43 and the OP90
I
2
HYSTERESIS
GENERATOR
Figure 30. Out-of-Range Warning
TEMPERATURE
COMPARATOR
SENSOR AND
REFERENCE
VOLTAGE
5
WINDOW
6
2.5V
604kΩ
2
3
6
TMP01
OP90
680pF
REF43
VPTAT
V+
7
4
100kΩ
2
4
6
8
7
6
5
V+
1.16V TO 1.7V
V+
VPTAT
LED
TMP01
200Ω
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