USB type-c, abbreviated as type-c, is a hardware interface specification for Universal Serial Bus (USB). Simply put, type-c has a slimmer design, faster transmission speed (up to 10Gbps) and stronger power transmission (up to 100W) than the old interface. How to choose a high-quality TYPE-C connector? You need to pay attention to these aspects. TXGA's 5g module type c product has the advantages of smooth plugging and plugging, fast transmission, and thin and light body. The stock is sufficient, waiting to be selected, enter [Product Center] to learn more.
Step 1: It is recommended to choose a connector authorized by TID
Cables and connectors will affect their performance due to factors such as high-frequency signals, mechanical characteristics, electrical performance, and environmental changes. Therefore, manufacturers need a complete testing and certification program and the assistance and consultation of professional laboratories to ensure that products meet quality requirements , Perfect display of functional requirements.
TID is TSETING ID, the test number of the USB Association. Test content includes electrical test (Electrical Test), mechanical test (Mechanical Test), and environmental test (Environmental Test). Tests can be used to ensure that the manufacturer's products can meet the standards of the association. Manufacturers will also harvest production parameters during the verification process given by the association and the testing center to facilitate subsequent manufacturing. In order to ensure the reliability and continuity of the product, it is recommended to choose products with TID authorized connectors.
Step 2: The structure of the signal integrity test
As the transmission rate of connectors continues to increase, signal integrity problems such as crosstalk, reflection, and insertion loss have become more serious. Since Type-C is connected to two different devices during signal transmission, the signal integrity and operational stability requirements of the device will be higher, so TYPE-C products with better signal integrity are preferred.
The third step: the physical structure requirements of the connector
Stable mechanical properties and appropriate environmental factors are essential for the normal operation of Type C. In the process of high-speed signal transmission, changes in mechanical properties and environmental factors will cause the characteristic impedance of the connector to change, and then adverse factors such as reflection, which affect the signal transmission performance of the connector.
