The MLX90614ESF-AAA-000-TU is a versatile infrared thermometer designed for non-contact temperature measurement. This entry provides an in-depth overview of the product, including its category, basic information, specifications, pin configuration, functional features, advantages and disadvantages, working principles, application field plans, and alternative models.
Category: Infrared Thermometer
Use: Non-contact temperature measurement
Characteristics: High accuracy, wide temperature range, small form factor
Package: TO-39
Essence: Infrared temperature sensor
Packaging/Quantity: Single unit packaging
Advantages: - Accurate temperature measurement - Small form factor - Wide temperature range
Disadvantages: - Limited object temperature accuracy - Requires careful calibration for specific applications
The MLX90614ESF-AAA-000-TU operates based on the principle of infrared radiation detection. It uses a thermopile to absorb the infrared radiation emitted by the object and converts it into a temperature value through integrated signal conditioning.
In conclusion, the MLX90614ESF-AAA-000-TU is a reliable infrared thermometer with a wide range of applications and potential alternative models for specific use cases.
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What is the MLX90614ESF-AAA-000-TU?
How does the MLX90614ESF-AAA-000-TU work?
What are the typical applications of the MLX90614ESF-AAA-000-TU?
What is the accuracy of the MLX90614ESF-AAA-000-TU?
How is the MLX90614ESF-AAA-000-TU interfaced with microcontrollers or other devices?
Can the MLX90614ESF-AAA-000-TU be used for non-contact temperature monitoring in industrial settings?
Does the MLX90614ESF-AAA-000-TU require calibration?
What is the operating temperature range of the MLX90614ESF-AAA-000-TU?
Is the MLX90614ESF-AAA-000-TU suitable for battery-powered devices?
Are there any limitations or considerations when using the MLX90614ESF-AAA-000-TU in technical solutions?