AD590JH Analog Devices Inc, AD590JH Datasheet - Page 10
AD590JH
Manufacturer Part Number
AD590JH
Description
IC TEMP TRANSDUCER 2-TERM TO52-3
Manufacturer
Analog Devices Inc
Specifications of AD590JH
Sensing Temperature
-55°C ~ 150°C
Output Type
Current
Voltage - Supply
4 V ~ 30 V
Accuracy
±5°C
Package / Case
TO-52-3, Metal Can
Ic Output Type
Current
Sensing Accuracy Range
± 5°C
Supply Voltage Range
4V To 30V
Sensor Case Style
TO-52
No. Of Pins
3
Termination Type
Through Hole
Mounting Type
Through Hole
Body Style
TO-52
Current, Supply
298.2 μA (Typ.) @ 25 °C
Current, Switching
298.2 μA
Function
Temperature
Linearity
± 0.3 °C
Output
Current
Primary Type
Temperature
Range, Measurement
150 °C
Temperature Coefficient
1 μA⁄K (Typ.)
Temperature, Operating, Maximum
150 °C
Temperature, Operating, Minimum
-55 °C
Temperature, Soldering
300 °C
Termination
3-Wire Connector
Voltage, Forward
44 V
Voltage, Output
4 V (Min.)
Voltage, Reverse
-20 V
Voltage, Supply
30 V
2-terminal Device
voltage in⁄current out
Filter Terminals
Through Hole
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
Part Number:
AD590JH
Manufacturer:
ADI/亚德诺
Quantity:
20 000
AD590
GENERAL APPLICATIONS
Figure 16 demonstrates the use of a low cost digital panel meter
for the display of temperature on either the Kelvin, Celsius, or
Fahrenheit scales. For Kelvin temperature, Pin 9, Pin 4, and
Pin 2 are grounded; for Fahrenheit temperature, Pin 4 and Pin 2
are left open.
The above configuration yields a 3-digit display with 1°C or 1°F
resolution, in addition to an absolute accuracy of ±2.0°C over
the −55°C to +125°C temperature range, if a one-temperature
calibration is performed on an AD590K, AD590L, or AD590M.
Connecting several AD590 units in series, as shown in Figure 17,
allows the minimum of all the sensed temperatures to be
indicated. In contrast, using the sensors in parallel yields the
average of the sensed temperatures.
The circuit in Figure 18 demonstrates one method by which
differential temperature measurements can be made. R1 and R2
can be used to trim the output of the op amp to indicate a
desired temperature difference. For example, the inherent offset
between the two devices can be trimmed in. If V+ and V− are
radically different, then the difference in internal dissipation
causes a differential internal temperature rise. This effect can be
used to measure the ambient thermal resistance seen by the
sensors in applications such as fluid-level detectors or anemometry.
AD590
(0.1%)
10kΩ
Figure 17. Series and Parallel Connection
15V
+
–
+
–
+
–
+
–
AD590
AD590
AD590
Figure 16. Variable Scale Display
6
5
V
T
+
–
MIN
AD2040
GND
5V
3
8
333.3Ω
+
–
(0.1%)
5V
9
4
2
+
–
V
T
OFFSET
CALIBRATION
GAIN
SCALING
OFFSET
SCALING
+
–
AVG
+
–
AD590
Rev. E | Page 10 of 16
Figure 19 is an example of a cold junction compensation circuit
for a Type J thermocouple using the AD590 to monitor the
reference junction temperature. This circuit replaces an ice-bath
as the thermocouple reference for ambient temperatures
between 15°C and 35°C. The circuit is calibrated by adjusting R
for a proper meter reading with the measuring junction at a
known reference temperature and the circuit near 25°C. Using
components with the TCs as specified in Figure 19, compensation
accuracy is within ±0.5°C for circuit temperatures between
15°C and 35°C. Other thermocouple types can be accommodated
with different resistor values. Note that the TCs of the voltage
reference and the resistors are the primary contributors to error.
+
–
Figure 19. Cold Junction Compensation Circuit for Type J Thermocouple
AD580
V
OUT
+
–
+
–
AD590L
AD590L
#2
#1
7.5V
50kΩ
Figure 18. Differential Measurements
R2
AD590
52.3Ω
8.66kΩ
1kΩ
V+
V–
R
+
T
–
R1
5MΩ
10kΩ
REFERENCE
JUNCTION
R3
10kΩ
R4
RESISTORS ARE 1%, 50ppm/°C
C
METER
U
+
–
+
AD707A
–
+
–
(T1 – T2)
IRON
MEASURING
JUNCTION
×
CONSTANTAN
(10mV/°C)
T
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