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17am klixon motor thermal overload protector
Key Features:
Dual Protection: Safeguards your motors against both overcurrent and overheating.
Precise Tripping: Ensures timely and accurate protection with a special combination of bimetallic strip and resistance heating fuse.
Customizable Characteristics: Tailored to your specific application needs with adjustable tripping current and time.
Superior Performance: Overcomes the limitations of traditional protectors, preventing motor damage from prolonged blocking.
Easy Installation: Conveniently mounts outside the motor coil.
Versatile Application: Ideal for various motor types and sizes, including PCB circuit protection.
Parameter
Model: 17AM
Rated Current: 16A
Reset Type: Manual
Blocking Current: 4-60A
Tripping Temperature Range: 50°C ~ 180°C
Temperature Tolerance: ±5°C or ±8°C (configurable)
Tripping Time: 2s ~ 12s (customizable)
As China 17am klixon motor thermal overload protector Suppliers and Custom 17am klixon motor thermal overload protector Company,The company has a strong ability to develop, produce, and test. We have invested a lot in researching and developing new products by introducing abroad new and advanced technology, such as the automatic production line from Japan. The management system is strictly carried out according to the ISO9001. Our vision is to pursue excellence, develop the Yitong brand, obey integrity, and meet the requests of the customers. Intensify the quality monitoring and management, and proceed with normalized and standardization management. Construct the company culture and strengthen the core competitiveness.
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In modern electrical systems, safety and reliability are the core goals of design and operation. In order to prevent equipment damage or even fire accidents caused by excessive current or long-term overload, thermal overload protector (Ther...
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As the most common power drive equipment in modern industry, the stable operation of motors is crucial to ensuring the efficiency of the production process. However, motors are prone to overheating during long-term operation due to overload...
