The Primary Performance of the Magnetic Data Line And the Magnetic Connector's Applications
Magnetic pogo pin charging lines are primarily used to complete charging and signal transmission in electronic products such as smart wear, 3C digital, smart home, vehicle navigation detection, and medical equipment. POGO PIN, plastic, magnet (iron-nickel alloy), and wire are among the components.
The magnetic suction data line is primarily depicted in the diagram below
Anti-fall: It is simple to remove the suction interface, but driving the machine is difficult.
Long service life: up to 100,000-200,000 charging cycles per functional connection;
Waterproof design: the host's female end can be dustproof and waterproof (IPX8).
Charges quickly: 5A-10A design for high power transmission;
Save space using a POGO type or SMTDIP jumper connection between the female end connector and the PCB.
Customization: Diversified shapes and styles, satisfying the match with the shape of the host product and improving the product level's selling point;
Magnet-type positioning: the use of magnets and a double junction mechanism, as well as whole-circuit protection and anti-fooling;
Environmental protection requirements: high corrosion resistance to withstand harsh environments.
Magnetic connector application characteristics
1. Identifying impedance
The characteristic impedances of BNC RF connectors that are most commonly used are 50 and 75. Many connection series feature both 50 and 75 requirements. In addition, 50 connectors are generally utilized in high-frequency, high-performance devices; 75 are mostly used in lower-frequency products. The frequency is usually less than 4GHZ, notably in consumer electronics videos. In addition, users should select connectors that match the impedance of their products. For example, when using a 75 RG 59 CABLE, the user should use a 75 connection.
2. Periodicity
Each type of RF connector has a frequency range, and users must understand their product's working frequency before selecting a connector. For example, using a connector with a frequency lower than the needed operating frequency may degrade the electrical performance of the entire machine, while using an expensive, high-precision, and high-frequency connector will result in waste. It should be noted that the frequency of connectors designed by different businesses varies greatly, and the frequency of use of inferior goods needs to catch up to industry standards. Therefore, when choosing a connector, the user should double-check the product's electrical performance specifications.