Recommend design solutions for customers according to their needs. Meet the needs of a variety of products.
On-time delivery. Online customer service consultation. Promptly solve after-sales problems.
10 years of strength manufacturers, more than 6 production lines, capacity 2000-3000K / day, 15 days shipping.
10 years of dedicated R&D. 12-person R&D team. Solved the high current charging needs of many enterprises.
SUNMON was established on August 25, 2009, and has successively established companies in mainland China and Hong Kong, China.
The products produced by SUNMON are widely used in consumer electronics: laptops, tablets, smartphones, electronic cigarettes, LED lights, etc. Smart wearable products: smart bracelets, watches, TWS Bluetooth headsets, smart clothing and other smart homes, industrial handheld terminals, aerospace, aviation, medical equipment electronics, automotive electronics, industrial electronics, etc.
The exact manufacturing process for pogo pin connectors can vary depending on the specific design and specifications of the connector. However, in general, the following steps may be involved:
Design: The first step in the manufacturing process is to design the pogo pin connector. This involves creating a detailed blueprint or CAD model of the connector, which specifies the dimensions and placement of the pins, the materials to be used, and any other design considerations.
Cutting and shaping: Once the design is finalized, the next step is to cut and shape the pins and other components of the connector. This typically involves using a CNC machine or other precision cutting tools to cut the materials to the desired shape and size.
Surface treatment: After the pins and other components have been cut and shaped, the next step is to apply a surface treatment to protect them from corrosion and ensure a long lifespan. This may involve applying a protective coating, such as a plating or coating of gold or other conductive material, to the pins and other components.
Assembly: The next step is to assemble the pogo pin connector. This typically involves attaching the pins to a housing or other support structure, and then aligning the pins with the corresponding contact points on the other device.
Testing: Once the pogo pin connector has been assembled, the final step is to test it to ensure that it meets all of the design specifications and requirements. This may involve conducting electrical tests to ensure that the pins and contact points make a stable and consistent connection, as well as mechanical tests to ensure that the connector is durable and reliable.
Overall, the manufacturing process for pogo pin connectors typically involves design, cutting and shaping, surface treatment, assembly, and testing.
The product customization service experience is great, the sales and engineers are very professional, thank you for everything you do.
Great product, very durable, a great purchase experience.
Very professional supplier! Always the first to answer questions and give me the best advice. Problems I have encountered in the process. They all helped me solve the problem smoothly.
The product has high precision, good quality, good after-sales service and easy to use.
The purpose of a pogo pin connector is to establish a temporary electrical connection between two conductive surfaces. These connectors are often used in electronic devices where a temporary connection needs to be made, such as in charging cables for portable devices or in test fixtures for circuit boards.
Pogo pin connectors are not necessarily disposable. They are designed to be used repeatedly and can last for a long time with proper care and handling. Some pogo pin connectors may be disposable if they are part of a single-use device or if they are designed for use in a specific application that requires them to be replaced after a certain amount of use. In general, however, pogo pin connectors are not considered disposable and can be used multiple times.
Yes, pogo pin connectors can be used to transmit data. In fact, they are commonly used for this purpose in many electronic devices. Pogo pin connectors use a spring-loaded pin to make contact with a mating connector, and this contact can be used to transmit data.
The pogopin magnetic connector is commonly used in the charging interface of bone conduction earphones to charge the battery in the earphones to ensure their normal operation.
The current-carrying capacity of a pogo pin connector is a very important parameter. If the structural design of the pogo pin is not correct when charging, and the current exceeds the current-carrying capacity of the spring meter pogo pin, problems such as burning springs, instantaneous short circuit, etc. will easily occur. You provide design solutions.
Pogo pins are not only widely used in the electronic communication industry, but also play an important role in automobile, medical, aerospace and other manufacturing industries, promoting the continuous development of technology and the times.