Temperature Sensor for Display Backplane

1.Introduction to Temperature Sensor for Display Backplane

Temperature Sensor for Display Backplane uses a high-precision thermistor as an induction component, and has the characteristics of high measurement accuracy and good stability.The signal transmitter adopts advanced circuit integration modules, which can convert temperature into corresponding voltage or current signals according to different needs of users.The instrument is small in size, convenient to install and portable, and has reliable performance; it adopts proprietary circuits, good linearity, strong load capacity, long transmission distance and strong anti-interference ability.It can be widely used in temperature measurement in meteorology, ocean, environment, airports, ports, laboratories, industry, agriculture and transportation fields.

2.Temperature Sensor for Display Backplane Technical Parameters

Range range: -50~100℃

-20~50℃

Accuracy: ±0.5℃

Power supply method: DC 2.5V

DC 5V

DC 12V

DC 24V

other

Output form: Current: 4~20mA

Voltage: 0~2.5V

Voltage: 0~5V

RS485

other

Instrument line length: Standard configuration: 5 meters

other

Load resistance: Voltage type: RL≥1K

Current type: RL≤250Ω

Working temperature: -50℃～100℃

Relative humidity: 0~100%

Product weight: 125g probe

Product power consumption: 0.24mW

3.Temperature Sensor for Display Backplane calculation formula

Voltage type (0~5V):

T=V/5×70-20

(T is the measured temperature value (℃), V is the output voltage (V), this formula corresponds to the measurement range -20~50℃)

T=V/5×150-50

(T is the measured temperature value (℃), V is the output voltage (V), this formula corresponds to the measurement range -50~100℃)

Current type (4~20mA):

T=(I-4)/16×70-20

(T is the measured temperature value (℃), I is the output current (mA), this formula corresponds to the measurement range -20~50℃)

T=(I-4)/16×150-50

(T is the measured temperature value (℃), I is the output current (mA), this formula corresponds to the measurement range -50~100℃)

Note: The calculation formulas corresponding to different signal outputs and different measurement ranges need to be recalculated!