AD592BNZ Analog Devices Inc, AD592BNZ Datasheet
AD592BNZ
Manufacturer Part Number
AD592BNZ
Description
IC TEMP TRANSDUCER 2-TERM TO92-3
Manufacturer
Analog Devices Inc
Specifications of AD592BNZ
Sensing Temperature
-25°C ~ 105°C
Output Type
Current
Voltage - Supply
4 V ~ 30 V
Accuracy
±0.7°C
Package / Case
TO-226-3, TO-92-3 (TO-226AA)
Ic Output Type
Current
Sensing Accuracy Range
± 0.7°C
Supply Voltage Range
4V To 30V
Sensor Case Style
TO-92
No. Of Pins
3
Termination Type
Through Hole
Mounting Type
Through Hole
Body Style
TO-92
Current, Switching
298.2 μA
Function
Temperature
Output
Current
Primary Type
Temperature
Range, Measurement
105 °C
Termination
3-Wire Connector
Voltage, Supply
30 V
Filter Terminals
Through Hole
Rohs Compliant
Yes
Accuracy %
0.7°C
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:
AD592BNZ
Manufacturer:
RENESAS
Quantity:
12 000
AD592:
Product Description
The AD592 is a two terminal monolithic integrated circuit temperature transducer that provides an output current proportional to absolute temperature. For a wide range of
supply voltages the transducer acts as a high impedance temperature dependent current source of 1 µA/K. Improved design and laser wafer trimming of the IC's thin film
resistors allows the AD592 to achieve absolute accuracy levels and nonlinearity errors previously unattainable at a comparable price.
The AD592 can be employed in applications between -25°C and +105°C where conventional temperature sensors (i.e., thermistor, RTD, thermocouple, diode) are currently
being used. The inherent low cost of a monolithic integrated circuit in a plastic package, combined with a low total parts count in any given application, make the AD592 the
most cost effective temperature transducer currently available. Expensive linearization circuitry, precision voltage references, bridge components, resistance measuring
circuitry and cold junction compensation are not required with the AD592.
Typical application areas include: appliance temperature sensing, automotive temperature measurement and control, HVAC (heating/ventilating/air conditioning) system
monitoring, industrial temperature control, thermocouple cold junction compensation, board-level electronics temperature diagnostics, temperature readout options in
instrumentation, and temperature correction circuitry for precision electronics. Particularly useful in remote sensing applications, the AD592 is immune to voltage drops and
voltage noise over long lines due to its high impedance current output. AD592s can easily be multiplexed; the signal current can be switched by a CMOS multiplexer or the
supply voltage can be enabled with a tri-state logic gate.
The AD592 is available in three performance grades: the AD592AN, AD592BN and AD592CN. All devices are packaged in a plastic TO-92 case rated from -45°C to +125°C.
Performance is specified from -25°C to +105°C. AD592 chips are also available, contact the factory for details.
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
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
High Precalibrated Accuracy:
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
0.5°C max @ +25°C
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Excellent Linearity: 0.15°C max (0°C to +70°C)
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
Wide Operating Temperature Range:
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
-25°C to +105°C
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Single Supply Operation: +4 V to +30 V
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
Excellent Repeatability and Stability
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
High Level Output: 1 µA/K
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Two Terminal Monolithic IC:
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Temperature In/Current Out
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Minimal Self-Heating Errors
Current Output – Precision IC Temperature Transducer
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AD592BNZ Summary of contents
Page 1
... The AD592 is a two terminal monolithic integrated circuit temperature transducer that provides an output current proportional to absolute temperature. For a wide range of supply voltages the transducer acts as a high impedance temperature dependent current source of 1 µA/K. Improved design and laser wafer trimming of the IC's thin film resistors allows the AD592 to achieve absolute accuracy levels and nonlinearity errors previously unattainable at a comparable price. The AD592 can be employed in applications between -25° ...
Page 2
... Sensor Output +1 µA/°K Temp Res(°C/LSB) n/a Supply Voltage Range +4V to +30V Temp Range(s) -25 to +105 Model Package AD592ANZ T092 AD592BNZ T092 AD592CNZ T092 Typical Application Circuit for AD592 Typical Application Circuit for AD592 Pins ROHS Compilant 3 Y Material Declaration ...
Page 3
... BOTTOM VIEW PRODUCT HIGHLIGHTS 1. With a single supply ( the AD592 offers 0.5 C temperature measurement accuracy wide operating temperature range (– +105 C) and highly linear output make the AD592 an ideal sub- stitute for older, more limited sensor technologies (i.e., thermistors, RTDs, diodes, thermocouples). ...
Page 4
... Operation @ +125 C, error over time is noncumulative. 6 Although performance is not specified beyond the operating temperature range, temperature excursions within the package temperature range will not damage the device. Specifications subject to change without notice. Specifications shown in boldface are tested on all production units at final electrical test. Results from those tests are used to calculate outgoing quality levels. All min and max specifications are guaranteed, although only those shown in boldface are tested on all production units ...
Page 5
... Figure 16. Matrix Multiplexer To convert the AD592 output single inexpensive reference and op amp can be used as shown in Figure 17. Al- though this circuit is similar to the two temperature trim circuit shown in Figure 6, two important differences exist. First, the gain resistor is fixed alleviating the need for an elevated tem- perature trim ...