Magnetic pogo pin charging cable
Magnetic connectors, also known as magnet connectors, magnetic connectors, and magnetic connectors, are some of the connectors widely used in electronic devices, mainly composed of pogo pins and magnets. Through the structure design of the magnet and the magnet contacting and attracting, it provides a magnet-type connector that has a large adsorption force and is suitable for small-sized structures and light and thin products.
Main features:
1. Long lifespan, the number of uses can reach more than 100,000 times
2. No mold opening, convenient for customer customization and cost-saving
3. Elastic force can be accurately measured and adjusted
4. Diversified production modes that are convenient for customers (SMT, plug-ins, etc.)
5. Small spacing, saving space, giving designers a more flexible configuration structure
6. Low inductance, better high-frequency solution
7. Comply with RoHS and HF (connector) requirements
Product Characteristic:
Magnet positioning: Use magnets to automatically attract, align, and even prevent foolishness
Anti-drop: The suction interface is easy to remove, and it is not easy to drive the machine
Long life: more than 10,000 times
Waterproof design: above IP67
Fast charging time: withstand high current transmission 1A-100A design
Customization: diversified shapes and styles to match the shape of the host product, improve product quality and create selling points
Product structure:
A magnet type connector includes a male end component and a female end component coaxial with the male end component. The male end component includes a first outer ring rubber part, a first ring rubber part, a first ring magnet, and two male PINs A first ring magnet is embedded between the first outer ring rubber part and the first inner ring rubber part, and two male PIN needles pass through the first inner ring rubber part; the female end assembly includes a first inner ring rubber part. Two outer ring rubber parts, a second inner ring rubber part, a second ring magnet, and two female PIN pins. A second ring magnet is embedded between the second outer ring rubber part and the second inner ring rubber part. Two female PIN needles are pierced on the two inner ring rubber parts; the first ring magnet corresponds to the second ring magnet, and the opposite end of the second ring magnet is opposite in polarity, and the two male PINs correspond to The two female PIN needles, and one end of the female PIN needle is provided with a blind hole for the male PIN needle to be inserted.
