AD590JH Analog Devices Inc, AD590JH Datasheet
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
In addition to temperature measurement, applications include temperature compensation or correction of discrete components, biasing proportional to absolute
In addition to temperature measurement, applications include temperature compensation or correction of discrete components, biasing proportional to absolute
In addition to temperature measurement, applications include temperature compensation or correction of discrete components, biasing proportional to absolute
In addition to temperature measurement, applications include temperature compensation or correction of discrete components, biasing proportional to absolute
In addition to temperature measurement, applications include temperature compensation or correction of discrete components, biasing proportional to absolute
In addition to temperature measurement, applications include temperature compensation or correction of discrete components, biasing proportional to absolute
In addition to temperature measurement, applications include temperature compensation or correction of discrete components, biasing proportional to absolute
In addition to temperature measurement, applications include temperature compensation or correction of discrete components, biasing proportional to absolute
In addition to temperature measurement, applications include temperature compensation or correction of discrete components, biasing proportional to absolute
In addition to temperature measurement, applications include temperature compensation or correction of discrete components, biasing proportional to absolute
temperature, flow rate measurement, level detection of fluids and anemometry. The AD590 is available in chip form making, it suitable for hybrid circuits and fast
temperature, flow rate measurement, level detection of fluids and anemometry. The AD590 is available in chip form making, it suitable for hybrid circuits and fast
temperature, flow rate measurement, level detection of fluids and anemometry. The AD590 is available in chip form making, it suitable for hybrid circuits and fast
temperature, flow rate measurement, level detection of fluids and anemometry. The AD590 is available in chip form making, it suitable for hybrid circuits and fast
temperature, flow rate measurement, level detection of fluids and anemometry. The AD590 is available in chip form making, it suitable for hybrid circuits and fast
temperature, flow rate measurement, level detection of fluids and anemometry. The AD590 is available in chip form making, it suitable for hybrid circuits and fast
temperature, flow rate measurement, level detection of fluids and anemometry. The AD590 is available in chip form making, it suitable for hybrid circuits and fast
temperature, flow rate measurement, level detection of fluids and anemometry. The AD590 is available in chip form making, it suitable for hybrid circuits and fast
temperature, flow rate measurement, level detection of fluids and anemometry. The AD590 is available in chip form making, it suitable for hybrid circuits and fast
temperature, flow rate measurement, level detection of fluids and anemometry. The AD590 is available in chip form making, it suitable for hybrid circuits and fast
temperature measurements in protected environments.
temperature measurements in protected environments.
temperature measurements in protected environments.
temperature measurements in protected environments.
temperature measurements in protected environments.
temperature measurements in protected environments.
temperature measurements in protected environments.
temperature measurements in protected environments.
temperature measurements in protected environments.
temperature measurements in protected environments.
The AD590 is particularly useful in remote sensing applications. The device is insensitive to voltage drops over long lines due to its high impedance current output.
The AD590 is particularly useful in remote sensing applications. The device is insensitive to voltage drops over long lines due to its high impedance current output.
The AD590 is particularly useful in remote sensing applications. The device is insensitive to voltage drops over long lines due to its high impedance current output.
The AD590 is particularly useful in remote sensing applications. The device is insensitive to voltage drops over long lines due to its high impedance current output.
The AD590 is particularly useful in remote sensing applications. The device is insensitive to voltage drops over long lines due to its high impedance current output.
The AD590 is particularly useful in remote sensing applications. The device is insensitive to voltage drops over long lines due to its high impedance current output.
The AD590 is particularly useful in remote sensing applications. The device is insensitive to voltage drops over long lines due to its high impedance current output.
The AD590 is particularly useful in remote sensing applications. The device is insensitive to voltage drops over long lines due to its high impedance current output.
The AD590 is particularly useful in remote sensing applications. The device is insensitive to voltage drops over long lines due to its high impedance current output.
The AD590 is particularly useful in remote sensing applications. The device is insensitive to voltage drops over long lines due to its high impedance current output.
Any well insulated twisted pair is sufficient for operation hundreds of feet from the receiving circuitry. The output characteristics also make the AD590 easy to
Any well insulated twisted pair is sufficient for operation hundreds of feet from the receiving circuitry. The output characteristics also make the AD590 easy to
Any well insulated twisted pair is sufficient for operation hundreds of feet from the receiving circuitry. The output characteristics also make the AD590 easy to
Any well insulated twisted pair is sufficient for operation hundreds of feet from the receiving circuitry. The output characteristics also make the AD590 easy to
Any well insulated twisted pair is sufficient for operation hundreds of feet from the receiving circuitry. The output characteristics also make the AD590 easy to
Any well insulated twisted pair is sufficient for operation hundreds of feet from the receiving circuitry. The output characteristics also make the AD590 easy to
Any well insulated twisted pair is sufficient for operation hundreds of feet from the receiving circuitry. The output characteristics also make the AD590 easy to
Any well insulated twisted pair is sufficient for operation hundreds of feet from the receiving circuitry. The output characteristics also make the AD590 easy to
Any well insulated twisted pair is sufficient for operation hundreds of feet from the receiving circuitry. The output characteristics also make the AD590 easy to
Any well insulated twisted pair is sufficient for operation hundreds of feet from the receiving circuitry. The output characteristics also make the AD590 easy to
multiplex: the current can be switched by a CMOS multiplexer or the supply voltage can be switched by a logic gate output.
multiplex: the current can be switched by a CMOS multiplexer or the supply voltage can be switched by a logic gate output.
multiplex: the current can be switched by a CMOS multiplexer or the supply voltage can be switched by a logic gate output.
multiplex: the current can be switched by a CMOS multiplexer or the supply voltage can be switched by a logic gate output.
multiplex: the current can be switched by a CMOS multiplexer or the supply voltage can be switched by a logic gate output.
multiplex: the current can be switched by a CMOS multiplexer or the supply voltage can be switched by a logic gate output.
multiplex: the current can be switched by a CMOS multiplexer or the supply voltage can be switched by a logic gate output.
multiplex: the current can be switched by a CMOS multiplexer or the supply voltage can be switched by a logic gate output.
multiplex: the current can be switched by a CMOS multiplexer or the supply voltage can be switched by a logic gate output.
multiplex: the current can be switched by a CMOS multiplexer or the supply voltage can be switched by a logic gate output.
AD590:
Product Description
The AD590 is a two-terminal integrated circuit temperature transducer that produces an output current proportional to absolute temperature. For supply voltages
between 4 V and 30 V the device acts as a high impedance, constant current regulator passing 1 µA/K. Laser trimming of the chip's thin-film resistors is used to
calibrate the device to 298.2 µA output at 298.2K (25°C).
The AD590 should be used in any temperature sensing application below 150°C in which conventional electrical temperature sensors are currently employed. The
inherent low cost of a monolithic integrated circuit combined with the elimination of support circuitry makes the AD590 an attractive alternative for many
temperature measurement situations. Linearization circuitry, precision voltage amplifiers, resistance measuring circuitry and cold junction compensation are not
needed in applying the AD590.
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Features
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Linear current output: 1 µA/K
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Wide temperature range: -55°C to +150°C
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
Probe compatible ceramic sensor package
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
2-terminal device: voltage in/current out
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Laser trimmed to ±0.5°C calibration accuracy (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Excellent linearity: ±0.3°C over full range (AD590M)
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Wide power supply range: 4 V to 30 V
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Sensor isolation from case
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Low cost
Two Terminal IC Temperature Transducer
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AD590JH Summary of contents
Page 1
... The AD590 is available in chip form making, it suitable for hybrid circuits and fast temperature, flow rate measurement, level detection of fluids and anemometry. The AD590 is available in chip form making, it suitable for hybrid circuits and fast temperature, flow rate measurement, level detection of fluids and anemometry ...
Page 2
... Status Package AD590JF AD590JF Prodm Prodn 2 ld Flat Pack 2 ld Flat Pack 2 ld Flat Pack 2 ld Flat Pack 2 ld Flat Pack 2 ld Flat Pack 2 ld Flat Pack AD590JH AD590JH Prodn Prodn 3 ld TO- TO- TO- TO- TO- TO- TO-52 AD590KF AD590KF Prodn Prodn 2 ld Flat Pack ...
Page 3
... GENERAL DESCRIPTION The AD590 is a 2-terminal integrated circuit temperature transducer that produces an output current proportional to absolute temperature. For supply voltages between 4 V and 30 V, the device acts as a high impedance, constant current regulator passing 1 μA/K. Laser trimming of the chip’s thin-film resistors is used to calibrate the device to 298.2 μ ...
Page 4
... Maximum deviation between +25°C readings after temperature cycling between −55°C and +150°C; guaranteed, not tested. 3 Conditions: constant 5 V, constant 125°C; guaranteed, not tested. ...
Page 5
... The AD590 was used at −100°C and +200°C for short periods of measurement with no physical damage to the device. However, the absolute errors specified apply to only the rated performance temperature range. Stresses above those listed under Absolute Maximum Ratings Rating may cause permanent damage to the device. This is a stress ...
Page 6
OUTLINE DIMENSIONS 0.030 (0.76) TYP POSITIVE LEAD 0.019 (0.48) INDICATOR 0.017 (0.43) 0.015 (0.38) 0.055 (1.40) 0.050 (1.27) 0.045 (1.14) 0.500 (12.69) MIN 0.240 (6.10) 0.230 (5.84) 0.220 (5.59) 0.0065 (0.17) 0.0050 (0.13) 0.0045 (0.12) Figure 26. 2-Lead Ceramic Flat ...
Page 7
... AD590 ORDERING GUIDE Model Temperature Range AD590JF 1 −55°C to +150°C 1 AD590JH −55°C to +150°C AD590JR −55°C to +150°C AD590JR-REEL −55°C to +150°C 2 AD590JRZ −55°C to +150°C 2 AD590JRZ-RL −55°C to +150°C 1 AD590KF −55°C to +150°C ...