JAE Electronics WP7 Board to Board Connectors
JAE WP7 Series features 0.4mm pitch Board to Board Connectors with a 0.7mm stacking height. This height is ideal for high-density mounting in slim information communication devices such as mobile phones, LCDs, notebook PCs, and PDAs. Design features include a contact structure that ensures high wear-resistance and high contact reliability, secure hold-downs to prevent insulator breakage and peeling from FPC, and a 2-point contact design to resist twisting stress. JAE offers the WP7 Series Board to Board Connectors with a high removal force for lower pin count versions and a lower insertion force for higher pin counts. The low and high pin count versions feature the same mounting pattern to meet different product function requirements.
Features
- 0.4mm pitch, two rows, 0.7mm stacking height
- Contact structure ensures high wear-resistance and high contact reliability
- Secure hold-downs prevent insulator breakage and peeling from FPC
- 2-point contact design to resist twisting stress
- Pb-free with Ni barrier on contact that prevents solder wicking
- High removal force for WP7A (low pin count: 10 - 30 positions)
- Low insertion force for WP7B (high pin count 40 - 70 positions)
- The mounting pattern for WP7A and WP7B is the same
Specifications
- Cu alloy / Au plating (0.1µm min.) contact
- Heat-resistant plastic insulator
- Hold-down
- Plug: Cu alloy / Au plating (0.1µm min.)
- Receptacle: Cu alloy / Sn plating
- No. of contacts
- WP7A: 10, 16, 20, 26, 30
- WP7B: 40, 50, 60, 70
- 0.42mm, two rows pitch
- 40ºC to +85ºC operating temperature
- 70mΩ max. (initial) contact resistance
- Life time (50 mating cycles)
- DC 0.2A each per terminal rated current
- AC, DC 50V rated voltage
- 100MΩ max. (initial) insulation resistance
- AC250Vrms per minute dielectric withstanding voltage
- (WP7A) Total Insertion Force - 1.50N x n max. (n: No of pos.)
- (WP7A) Total Removal Force - 1.50N x n max. (n: No of pos.)
- (WP7B) Total Insertion Force - 1.00N x n max. (n: No of pos.)
- (WP7B) Total Removal Force - 1.10N x n max. (n: No of pos.)