MF72-016D13
Product Overview
Category
MF72-016D13 belongs to the category of NTC thermistors.
Use
It is commonly used for temperature sensing, control, and compensation in various electronic circuits and devices.
Characteristics
- Temperature Sensing: It exhibits a negative temperature coefficient, meaning its resistance decreases with increasing temperature.
- Stability: Offers stable and reliable performance over a wide temperature range.
- Compact Package: Typically comes in a small, cylindrical package for easy integration into electronic designs.
- High Precision: Provides accurate temperature measurements for precise control applications.
Package
The MF72-016D13 is typically packaged in a small, epoxy-coated bead or disc shape, providing protection and insulation for the sensitive thermistor element.
Essence
The essence of MF72-016D13 lies in its ability to provide accurate and reliable temperature measurements in a compact and versatile package.
Packaging/Quantity
It is commonly available in reels or bulk packaging, with quantities varying based on manufacturer specifications and customer requirements.
Specifications
- Resistance at 25°C: 16Ω
- Tolerance: ±20%
- Maximum Power Rating: 400mW
- Operating Temperature Range: -55°C to 125°C
- Thermal Time Constant: 7s (in still air)
Detailed Pin Configuration
The MF72-016D13 typically features two leads for connection, with the specific pin configuration being: 1. Pin 1: Connection point for one end of the thermistor element 2. Pin 2: Connection point for the other end of the thermistor element
Functional Features
- Temperature Sensing: Provides an accurate representation of the surrounding temperature.
- Control and Compensation: Can be integrated into circuits to control heating or cooling systems based on temperature changes.
- Reliable Performance: Offers stable and consistent performance across a wide temperature range.
Advantages and Disadvantages
Advantages
- High precision temperature sensing
- Compact and versatile package
- Wide operating temperature range
Disadvantages
- Limited tolerance range
- Sensitivity to mechanical stress
Working Principles
The MF72-016D13 operates based on the principle of the negative temperature coefficient (NTC) thermistor, where its resistance decreases as the temperature increases. This change in resistance can be accurately measured and utilized for temperature control and monitoring applications.
Detailed Application Field Plans
Heating Systems
Integrate MF72-016D13 into heating systems to monitor and control the temperature, ensuring efficient and safe operation.
Automotive Electronics
Utilize the thermistor for temperature compensation in automotive electronics, such as engine management systems and climate control units.
Medical Devices
Incorporate the thermistor into medical devices for temperature monitoring and regulation, ensuring patient safety and comfort.
Detailed and Complete Alternative Models
- MF72-010D15: Similar NTC thermistor with a lower resistance value
- MF72-020D10: NTC thermistor with a higher resistance value for different temperature sensing applications
- MF58-016B13: Alternative thermistor with similar characteristics for comparison and selection purposes
In conclusion, the MF72-016D13 NTC thermistor offers precise temperature sensing and control capabilities in a compact and reliable package, making it suitable for a wide range of electronic applications.
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What is MF72-016D13?
- MF72-016D13 is a type of thermistor, specifically a NTC (Negative Temperature Coefficient) thermistor, which means its resistance decreases as temperature increases.
What are the typical applications of MF72-016D13?
- MF72-016D13 is commonly used in overcurrent protection, inrush current limiting, temperature compensation, and temperature measurement in various electronic devices and circuits.
What is the resistance value of MF72-016D13 at room temperature?
- The resistance value of MF72-016D13 at room temperature is 16 ohms.
How does MF72-016D13 provide overcurrent protection?
- When the current passing through MF72-016D13 exceeds a certain threshold, its resistance increases significantly, limiting the current flow and providing overcurrent protection.
Can MF72-016D13 be used for inrush current limiting?
- Yes, MF72-016D13 can be used to limit inrush current by temporarily increasing its resistance when power is first applied, thus preventing excessive current flow during startup.
What is the operating temperature range of MF72-016D13?
- The operating temperature range of MF72-016D13 is typically from -55°C to 125°C.
How can MF72-016D13 be used for temperature compensation?
- MF72-016D13 can be incorporated into circuits to compensate for changes in temperature, ensuring stable performance of electronic components across varying temperatures.
Is MF72-016D13 suitable for temperature measurement applications?
- Yes, MF72-016D13 can be used for temperature measurement by utilizing its characteristic of resistance change with temperature to infer the temperature of the surrounding environment.
What are the key considerations when integrating MF72-016D13 into a technical solution?
- Key considerations include the operating temperature range, current ratings, voltage ratings, and the specific application requirements such as inrush current limitation or overcurrent protection.
Are there any alternative components that can be used in place of MF72-016D13?
- Yes, there are other NTC thermistors with similar characteristics that can be used as alternatives to MF72-016D13, but it's important to carefully match the specifications and performance requirements of the application.