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There are countless factors that damage the waterproof USB connector, such as the damage of the supporting structure, electroplating contact points and shell of the waterproof USB connector, which will definitely lead to the failure of the waterproof USB connector. Therefore, it is also very important to understand the degradation mechanism of waterproof USB connector. This paper mainly shares the benefits of understanding the degradation mechanism of waterproof USB connector!
1. The knowledge of the degradation mechanism of waterproof USB connector is helpful to deeply understand the important decision of waterproof USB connector design and material selection. For example, as a user of waterproof USB connector, if you know that the application environment will change greatly and frequently, the understanding of fretting corrosion as a degradation mechanism will affect your choice of waterproof USB connector as an application.
The surface treatment of precious metal contact can avoid fretting corrosion, but if you want to take advantage of the cost-effectiveness of tin-plated contact, the understanding of fretting corrosion must focus on the waterproof USB connector with high contact normal force to resist the driving force of fretting movement. Therefore, manufacturers of waterproof USB connectors must understand the mechanism of fretting corrosion, especially in the design of tinned waterproof USB connectors, in order to improve the mechanical stability of the contact interface to the driving force of fretting movement.
2. Another important reason for understanding the knowledge of the degradation mechanism of waterproof USB connector is to verify the design and performance of waterproof USB connector through testing, so that users and manufacturers of waterproof USB connector can benefit from this knowledge. Designers of waterproof USB connectors must consider the high contact force in tin-plated waterproof USB connectors to resist micro-motion. For example, how much contact force is needed? Understanding the degradation mechanism of waterproof USB connector (in this case, micro-corrosion and contact wear) is helpful to answer this question.
The success of waterproof USB connector design is verified by testing, thermal cycling or mechanical interference to ensure the integrity of the completion. The verification of this test is usually recorded in the product specification, and users of waterproof USB connectors can use the knowledge of connector degradation mechanism to evaluate the correlation between the product specification of waterproof USB connector manufacturer and the expected application.
There are countless factors that damage the waterproof USB connector, such as the damage of the supporting structure, electroplating contact points and shell of the waterproof USB connector, which will definitely lead to the failure of the waterproof USB connector. Therefore, it is also very important to understand the degradation mechanism of waterproof USB connector. This paper mainly shares the benefits of understanding the degradation mechanism of waterproof USB connector!
1. The knowledge of the degradation mechanism of waterproof USB connector is helpful to deeply understand the important decision of waterproof USB connector design and material selection. For example, as a user of waterproof USB connector, if you know that the application environment will change greatly and frequently, the understanding of fretting corrosion as a degradation mechanism will affect your choice of waterproof USB connector as an application.
The surface treatment of precious metal contact can avoid fretting corrosion, but if you want to take advantage of the cost-effectiveness of tin-plated contact, the understanding of fretting corrosion must focus on the waterproof USB connector with high contact normal force to resist the driving force of fretting movement. Therefore, manufacturers of waterproof USB connectors must understand the mechanism of fretting corrosion, especially in the design of tinned waterproof USB connectors, in order to improve the mechanical stability of the contact interface to the driving force of fretting movement.
2. Another important reason for understanding the knowledge of the degradation mechanism of waterproof USB connector is to verify the design and performance of waterproof USB connector through testing, so that users and manufacturers of waterproof USB connector can benefit from this knowledge. Designers of waterproof USB connectors must consider the high contact force in tin-plated waterproof USB connectors to resist micro-motion. For example, how much contact force is needed? Understanding the degradation mechanism of waterproof USB connector (in this case, micro-corrosion and contact wear) is helpful to answer this question.
The success of waterproof USB connector design is verified by testing, thermal cycling or mechanical interference to ensure the integrity of the completion. The verification of this test is usually recorded in the product specification, and users of waterproof USB connectors can use the knowledge of connector degradation mechanism to evaluate the correlation between the product specification of waterproof USB connector manufacturer and the expected application.