The BTB connector directly connects two printed circuit boards (PCBs) through pins, establishing both mechanical and electrical linkages. It enables the transmission of current or signals between different circuit boards, thereby completing the circuit connections and functional implementation of the entire electronic device.
Features
Electrical Performance: Features low and stable contact resistance (typically ranging from tens to hundreds of milliohms), ensuring stable current and signal transmission while minimizing energy loss and signal distortion. It also offers high insulation resistance and dielectric strength to prevent leakage and short circuits.
Mechanical Performance: Features appropriate insertion/extraction force and high mating cycle durability, ensuring reliable connection performance even after repeated mating cycles. Additionally, it incorporates foolproof design to prevent irreversible circuit damage caused by reverse insertion.
Environmental Performance: BTB connectors typically offer excellent corrosion resistance, temperature tolerance, and vibration resistance, enabling stable operation under various environmental conditions and adaptability to diverse complex application scenarios.
Argument
| Material of Main Part/Color | LCP/Black |
| Number of Contacts | 100 Pin |
| Rated Current | 0.3A |
| Contact Resistance | 90mΩ Max. |
| Insulation Resistance | 50MΩ Min. |
| Pitch | 0.4mm |
Core Technology
Key Words:
BTB Connector
Core Advantage:
As electronic devices trend toward miniaturization and high performance, the demand for dense inter-board connections grows. BTB connectors enable high-pin-count linkages within limited space, meeting the needs of compact assembly. For example, in smartphones, BTB connectors facilitate tight integration between the mainboard and components like displays, cameras, and fingerprint sensors, optimizing internal layout.
Technical Features:
BTB connectors typically exhibit low resistance, capacitance, and inductance, effectively reducing signal loss, distortion, and delay during transmission. This ensures high-quality signal integrity, critical for high-speed data applications such as internal computer bus connections or high-speed signal processing modules in communication equipment.
Application Scenarios
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