TC temperature measurement
What is a thermocouple sensor and how does a thermocouple work?
Two of the most common sensor technologies in temperature measurement devices are resistance temperature detectors (RTDs) and thermocouples (TCs). The technology behind them is different, and each has its own benefits that drive the choice. In a thermocouple sensor, two different metals are joined together at one end. At this junction, changes in the temperature induce a voltage / electromotive force that is measured. TCs are not measuring an absolute temperature, but the temperature difference between the measuring point (T1) and a reference point (Tref).
Operating principle of a thermocouple sensor
Types of thermocouples with different temperature ranges and relationship between the voltage generated and the temperature
The Endress+Hauser iTHERM ProfileSens TC sensor
优势
Wide temperature range from -270°C (454°F) to +1820°C (3308°F)
Fast response time, suitable for dynamic temperature measurements
High vibration resistance
Lower cost compared to RTDs
Rugged and durable, especially useful in harsh environments
Temperature sensors with TC technology
Our product finder helps you to search for suitable measuring devices, software or system components via product characteristics. Applicator leads you through an individual product selection via application parameters.
Thermocouple types
The Seebeck effect, which is made use of for TCs, states that a voltage is generated when two dissimilar metals are joined together. The voltage generated can then be measured and converted into temperature readings, using a calibration curve or table. There are different types of thermocouples, based on different wire pairs and measuring ranges. Each type of TC has a unique relationship between the voltage generated and the temperature. The type can be identified by an assigned letter, e.g. TC type K, type J or type T.
RTD vs. TC – a comparison
Their main difference is the temperature range, as an RTD can be used in moderate temperatures ranging from -200°C (300°F) to +850°C (1562°F). The Thermocouple sensor can measure from -270°C (454°F) to +1820°C (3308°F). In general, the choice between a TC and an RTD thermometer depends on the specific requirements of the application.
What are RTDs used for? If you need higher accuracy or are measuring lower temperatures, an RTD may be the right choice. They have a slower response time than thermocouples, but are more accurate over a wider temperature range.
When to use a TC sensor? If you need to measure high temperatures, have a limited budget, or need a fast-responding thermometer, a thermocouple may be the perfect choice. Another advantage of TCs is that they can withstand harsher environments (corrosive material, vibration etc.).
Endress+Hauser has developed a unique sensor called iTHERM ProfileSens for high temperatures, pressures and aggressive media, consisting of a robust double metal sheathed MI cable and temperature profiling with up to four TCs in one cable.
产品
| FLEX产品选型 | 仪表技术性能 | 选型便捷程度 |
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Fundamental选型 完美胜任基本测量任务 |
仪表技术性能
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Lean选型 轻松应对关键工艺的测量挑战 |
仪表技术性能
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选型便捷程度
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Extended选型 创新技术助力工艺流程优化 |
仪表技术性能
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选型便捷程度
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Xpert选型 满足严苛工况的特殊测量要求 |
仪表技术性能
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选型便捷程度
特殊选型 |
下载
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过程工业温度测量
温度测量 - 过程工业用温度计和变送器
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Endress+Hauser temperature sensor technologies
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文件名:
Sensortechnologie_Thermometer_EN.pdf
