TRS5-70BLRU vs 2455RC 84370028
| Part Number |
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| Category | Temperature Sensors - Thermostats - Mechanical | Temperature Sensors - Thermostats - Mechanical |
| Manufacturer | KEMET | Honeywell Sensing and Productivity Solutions |
| Description | THERMAL REED SWITCH 70C 100V BRE | AUTO RESET THERMOSTAT |
| Package | Module | Cylinder with Mounting Flange |
| Series | TRS5? | 2455RC |
| Mounting Type | Chassis Mount | Chassis Mount |
| Package / Case | Module | Cylinder with Mounting Flange |
| Tolerance | ±4.5°F (±2.5°C) | - |
| Circuit | SPST-NC | SPST-NC |
| Termination Style | Wire Leads - 8" (203.2mm) | Quick Connect |
| Switching Temperature | 158°F (70°C) | - |
| Reset Temperature | 140°F (60°C) | - |
| Switching Cycles | - | 100K |
| Current Rating - AC | - | 10A (240V), 15A (120V) |
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1. What temperature sensor does the thermostat use?
The thermostat mainly uses thermocouples and PT100 temperature sensors. Thermocouple sensors are usually packaged in a stainless steel shell, filled with thermal conductive materials and sealing materials. They are suitable for a variety of temperature measurement scenarios, have a fast response speed, and are suitable for medical, HVAC, refrigeration, environmental experiments and other fields. 1. The PT100 sensor is a high-precision temperature sensor, often used in precision thermostat equipment.
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2. Which temperature sensor is the most accurate?
Platinum resistance temperature sensor is one of the most accurate temperature sensors. Platinum resistance temperature sensor has high accuracy and stability, and is usually used for high-precision temperature measurement. Its measurement range is wide, from -200℃ to +850℃ can be accurately measured.
In addition, integrated temperature sensors also have high accuracy and stability, suitable for occasions requiring high-precision measurement. However, the integrated temperature sensor has a narrow range, is more troublesome to calibrate, has a large error, and is expensive.
When choosing a temperature sensor, in addition to considering accuracy, it is also necessary to choose according to specific application scenarios, measurement range, response time and other factors.
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3. What is the difference between thermostat and temperature sensor?
Thermostats and temperature sensors are significantly different in function and use.
Definition and function of thermostat
A thermostat is a temperature sensing device used to automatically open or close a circuit to keep the controlled component within a certain temperature range. It measures temperature changes through sensitive elements and controls heat and cold sources through converters to maintain the desired temperature. Thermostats usually have fixed or adjustable action temperatures and can directly or indirectly control one or more heat and cold sources.
Definition and function of temperature sensor
A temperature sensor is a device that measures the degree of hotness or coldness of an object and provides temperature measurement through electrical signals. Common types include thermocouples and resistance temperature detectors. Temperature sensors are divided into contact and non-contact types:
Contact temperature sensor: requires physical contact with the object being measured and monitors temperature changes through conduction. Suitable for detecting solids, liquids or gases.
Non-contact temperature sensors: use convection and radiation to monitor temperature changes and are suitable for detecting liquids and gases. These sensors can detect radiant energy transmitted from an object in the form of infrared radiation.
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4. Is a thermostat a mechanical or electrical component?
Thermostats contain both mechanical and electrical components.
A thermostat is an electronic component that controls temperature. Its working principle is to control the start and stop of heating or cooling equipment by detecting temperature signals and comparing them with set values, thereby maintaining a stable temperature. The core components of a thermostat include temperature sensors and control circuits, which are both electrical components 1. In addition, thermostats may also contain mechanical components. For example, mechanical thermostats use bimetallic strips or temperature media (such as kerosene or glycerin) and the principle of thermal expansion and contraction to convert temperature changes into mechanical force to drive the thermostat control mechanism to operate.
There are many types of thermostats, including mechanical, electronic, touch and smart thermostats. Mechanical thermostats control temperature through mechanical means, which are common in home appliances, ovens and other occasions; electronic thermostats achieve temperature control through electronic components, which are common in laboratories, industrial production and other occasions; touch thermostats achieve temperature control through touch screens, which are common in home appliances such as air conditioners and electric water heaters; smart thermostats achieve temperature control through intelligent control algorithms, which can automatically adjust according to user habits and environmental changes, and are common in home decoration projects such as central air conditioning and floor heating.
