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Product
80G FMCW Radar Level Transmitter - High Temperature and Pressure
- Product details
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Parameter
Specification
Process Connection
Flange
Frequency Range
76~81GHz
Transmission Angle
3°
Measuring Range
120m
Housing Material
Aluminum Cast/Stainless Steel
Power Supply Range
18-28VDC
Output Signal
4~20mA/HART (2-wire/4-wire), RS485/Modbus
Medium Temperature
-30~1000°C
Process Pressure
-0.5~3MPa
Measuring Accuracy
±1mm
Protection Grade
IP68
Explosion-Proof Grade
EX d ia IIC T6 Gb
Bluetooth
Optional
Application Range
Various high temperature and high pressure environments (solids, liquids)
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Product Inquiry
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Q
What is a thermocouple?
A
Thermocouples are the preferred solution for extreme temperature applications. They consist of two dissimilar metal wires joined at the measuring end, generating a voltage proportional to the temperature difference.
Working Principle: When two different metals are connected, the thermoelectric effect produces a voltage at the junction. This voltage increases with rising temperature, allowing measurement via reference tables.
Key Advantages:
• Temperature Range: -270°C to 2300°C (depending on type)
• Fast Response Time (typically 0.1–10 seconds)
• Robust Construction, vibration-resistant
• Relatively Low Cost
• No External Power Required
Q
What is the difference between RTD and thermocouple?
A
• RTD (Resistance Temperature Detector): Based on the principle that a metal conductor's resistance increases with temperature, it converts resistance measurements into temperature readings.
• Thermocouple: Operates on the Seebeck effect, where two dissimilar metals in contact generate a thermoelectric voltage proportional to temperature differences.
Features
• RTD: High accuracy, stable signal, excellent linearity, ideal for low to medium temperatures.
• Thermocouple: Simple structure, fast response, high-temperature resistance, wide measurement range.
Pros & Cons
• RTD Pros: High precision, strong anti-interference, reliable low-temperature performance.
Cons: Limited upper temperature range, bulkier size, slightly slower response.
• Thermocouple Pros: Broad temperature range, high-temperature tolerance, rapid response, suitable for moving/surface measurements.
Cons: Lower accuracy at low temperatures, requires cold junction compensation, weaker signal prone to interference.
