Flexible connectors are also called flexible printed circuit connectors, abbreviated as FPC connectors. The basic structure of the flexible connector determines that it has the characteristics of high cable density, lightness, and flexibility. It is suitable for OA equipment such as navigator and other in-vehicle equipment, industrial and medical equipment, and multifunctional all-in-one under severe vibration and temperature and humidity conditions. TXGA has a large stock of flexible connectors in stock, complete specifications, and shipped on the same day. Enter TXGA [Product Center], online ordering is more convenient.
The technical parameters of flexible connector products include:
Number of conductors N: the number of copper conductors in the cable;
Pitch P: The distance between the center lines of two adjacent conductors;
Margin M: The distance between the center line of the outermost conductor and the edge of the cable:
Full pitch TP: the distance between the center lines of the outermost two conductors, TP=P*(N-1);
Total width W: the distance between the two edges of the cable, W=P*(N+1);
Total length TL: the distance between the two ends of the cable;
Insertion thickness TT: the thickness of the two connecting ends of the cable;
EMI: Electromagnetic shielding film to protect the circuit inside the circuit board from outside interference (strong electromagnetic area or susceptible to interference area).
Under normal circumstances, the parameters of the finished product line are relatively fixed, and there are multiple different models to choose from. However, when customizing products, the parameters must be adjusted according to different needs. At this time, the manufacturer is required to provide new technical parameters.
TXGA supports one-stop customization services. You only need to provide the final application conditions, and you can customize research and development according to your needs to meet various complex application conditions. Professional engineering techniques and simulation software effectively avoid design errors, ensure product functions meet specifications, shorten development time, and reduce development costs.
