Texas Instruments Temperature Sensor, Voltage Output, Through Hole Mount, Analogue, ±4°C, 3 Pins
Технически документи
Спецификации
Brand
Texas InstrumentsSensor Function
Temperature
Output Type
Voltage
Interface Type
Analogue
Accuracy
±4°C
Mounting Type
Through Hole
Pin Count
3
Operating Temperature Range
-40 to +125 °C
Minimum Operating Temperature
-40 °C
Maximum Operating Temperature
+125 °C
Minimum Operating Supply Voltage
2.7 V
Maximum Operating Supply Voltage
10 V
Package Type
TO-92
Length
5.2mm
Height
5.2mm
Width
4.19mm
Sensor Gain
6.25mV/°C
Dimensions
5.2 x 4.19 x 5.2mm
Детайли за продукта
Analogue Temperature Sensors
Texas Instrument's range of analogue temperature sensors give an output a voltage that is linearly proportional to the temperature of a device. They are suitable for various applications including home appliances, mobile phones, gaming, disk drives, battery management, portable medical instruments, printers and fax machines.
Features;
Low self-heating
Low cost due to wafer level trimming
May be suitable for remote applications
Информацията за складовите наличности временно не е налична.
Моля, проверете отново по-късно.
P.O.A.
1800
P.O.A.
1800
Технически документи
Спецификации
Brand
Texas InstrumentsSensor Function
Temperature
Output Type
Voltage
Interface Type
Analogue
Accuracy
±4°C
Mounting Type
Through Hole
Pin Count
3
Operating Temperature Range
-40 to +125 °C
Minimum Operating Temperature
-40 °C
Maximum Operating Temperature
+125 °C
Minimum Operating Supply Voltage
2.7 V
Maximum Operating Supply Voltage
10 V
Package Type
TO-92
Length
5.2mm
Height
5.2mm
Width
4.19mm
Sensor Gain
6.25mV/°C
Dimensions
5.2 x 4.19 x 5.2mm
Детайли за продукта
Analogue Temperature Sensors
Texas Instrument's range of analogue temperature sensors give an output a voltage that is linearly proportional to the temperature of a device. They are suitable for various applications including home appliances, mobile phones, gaming, disk drives, battery management, portable medical instruments, printers and fax machines.
Features;
Low self-heating
Low cost due to wafer level trimming
May be suitable for remote applications