The TS250-130-RA-2 is a temperature sensor manufactured by TE Connectivity. This thermistor is designed for accurate and reliable temperature sensing in a variety of applications.

Applications

• HVAC systems: Used to monitor and control temperature in heating, ventilation, and air conditioning systems.
• Medical equipment: Employed in medical devices for precise temperature monitoring.
• Automotive applications: Utilized in automotive systems for engine temperature monitoring and control.
• Industrial control systems: Used in industrial processes to maintain accurate temperature control.
• Appliances: Found in household appliances such as refrigerators and ovens for temperature regulation.

Features

• High accuracy: Provides precise temperature measurements.
• Fast response time: Responds quickly to changes in temperature.
• Wide operating temperature range: Operates reliably over a broad temperature range.
• Small size: Compact design for easy integration into various applications.
• RoHS compliant: Complies with Restriction of Hazardous Substances directives.

Benefits

• Improved temperature control: Ensures accurate and consistent temperature regulation.
• Enhanced system performance: Optimizes performance by providing reliable temperature data.
• Increased safety: Helps prevent overheating and other temperature-related issues.
• Reduced energy consumption: Enables efficient energy usage through precise temperature control.
• Long service life: Designed for durability and long-term reliability.

Additional Details

The TS250-130-RA-2 likely refers to a specific NTC (Negative Temperature Coefficient) thermistor with a resistance value (likely around 10 kOhms at 25 degrees Celsius, although this needs verification from the datasheet) and a beta value, characterizing the temperature-resistance relationship. The "RA" designation likely indicates the lead configuration (e.g., radial leads). The number "2" may refer to packaging information. It is essential to consult the official TE Connectivity datasheet for the exact specifications, including resistance tolerance, beta value, operating temperature range, and thermal time constant.

The thermistor's accuracy and stability are influenced by factors such as self-heating and long-term drift. Proper circuit design and calibration are important for achieving optimal performance. The datasheet provides detailed information on resistance vs. temperature characteristics, allowing for precise temperature determination using appropriate measurement circuitry (e.g., voltage divider or Wheatstone bridge). The sensor should be protected from direct exposure to moisture and corrosive environments for prolonged reliability.