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ZTP-135: Product Overview and Specifications
Introduction
ZTP-135 is a cutting-edge electronic component that belongs to the category of infrared thermopile sensors. This sensor is widely used for non-contact temperature measurement applications due to its unique characteristics and precise functionality.
Basic Information Overview
- Category: Infrared Thermopile Sensor
- Use: Non-contact temperature measurement
- Characteristics: High precision, reliable performance
- Package: Compact design
- Essence: Accurate temperature sensing
- Packaging/Quantity: Typically available in individual packaging
Specifications
The ZTP-135 sensor boasts the following specifications: - Operating Voltage: 2.5V to 5.5V - Spectral Range: 8μm to 14μm - Field of View: 90° - Output Type: Analog voltage output - Temperature Range: -20°C to 100°C - Accuracy: ±1.5°C
Detailed Pin Configuration
The detailed pin configuration of ZTP-135 is as follows: - Pin 1: VDD (Power supply) - Pin 2: GND (Ground) - Pin 3: VOUT (Analog voltage output)
Functional Features
The ZTP-135 sensor offers several functional features, including: - High sensitivity to infrared radiation - Fast response time - Low power consumption - Wide operating temperature range
Advantages and Disadvantages
Advantages
- Accurate and reliable temperature measurement
- Compact and easy to integrate
- Suitable for various industrial and consumer applications
Disadvantages
- Limited temperature range compared to some other sensors
- Sensitivity to ambient temperature variations
Working Principles
The working principle of ZTP-135 is based on the thermopile effect, where incoming infrared radiation generates a temperature difference across the sensor's thermocouples, resulting in a measurable voltage output proportional to the detected temperature.
Detailed Application Field Plans
ZTP-135 finds extensive application in various fields, including: - Industrial temperature monitoring and control systems - HVAC (Heating, Ventilation, and Air Conditioning) equipment - Consumer electronics for temperature measurement
Detailed and Complete Alternative Models
For users seeking alternative models, the following sensors can be considered: - MLX90614: Offers a wider temperature range and digital output - TMP006: Provides high accuracy and low power consumption for specific applications - AMG8833: Array sensor suitable for thermal imaging applications
In conclusion, the ZTP-135 infrared thermopile sensor stands out as a reliable and precise component for non-contact temperature measurement, catering to diverse industrial and consumer needs.
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Sebutkan 10 pertanyaan dan jawaban umum terkait penerapan ZTP-135 dalam solusi teknis
Sure, here are 10 common questions and answers related to the application of ZTP-135 in technical solutions:
What is ZTP-135?
- ZTP-135 is a high-performance polymer with excellent thermal and chemical resistance, commonly used in technical applications.
What are the key properties of ZTP-135?
- ZTP-135 exhibits high temperature stability, chemical resistance, and mechanical strength, making it suitable for demanding technical solutions.
In what technical applications can ZTP-135 be used?
- ZTP-135 is commonly used in aerospace components, automotive parts, industrial machinery, and electronic enclosures due to its robust properties.
How does ZTP-135 perform under high temperatures?
- ZTP-135 maintains its structural integrity and mechanical properties at elevated temperatures, making it ideal for applications requiring heat resistance.
Is ZTP-135 resistant to chemicals and solvents?
- Yes, ZTP-135 demonstrates excellent resistance to a wide range of chemicals and solvents, making it suitable for harsh environments.
Can ZTP-135 be machined or molded into complex shapes?
- Yes, ZTP-135 can be easily machined or molded into intricate designs, allowing for versatile use in technical solutions.
Does ZTP-135 offer good electrical insulation properties?
- ZTP-135 provides excellent electrical insulation, making it suitable for electronic and electrical applications where insulation is critical.
What are the potential drawbacks of using ZTP-135 in technical solutions?
- While ZTP-135 offers exceptional performance, it may have higher material costs compared to other polymers, which should be considered in the overall solution.
Can ZTP-135 be combined with other materials in technical applications?
- Yes, ZTP-135 can be effectively combined with metals, other polymers, and composites to create hybrid solutions with enhanced properties.
Are there specific design considerations when using ZTP-135 in technical solutions?
- Designers should consider the coefficient of thermal expansion, part geometry, and processing methods to optimize the performance of ZTP-135 in technical applications.
These questions and answers provide a comprehensive overview of the application of ZTP-135 in technical solutions.