2025-05-28
Panasonic AXT524124A is a high-density board-to-board connector belonging to the F4S series, with 24 contact pin positions, using a 0.4mm double row spacing design, suitable for electronic devices tha...
2025-05-28
Panasonic AXG230144A is a high-density, ultra-thin board-to-board connector, which belongs to the S35 series and is suitable for electronic devices with extremely strict space requirements.
2025-05-27
205061020053856 Connector Product Product has 20 pin positions, dual row structure, pin pitch of 1.27mm, supports various mating stacking heights, providing flexibility for system design.
2025-05-27
The 245655050600829+T connector product adopts a 50-pin double-row layout with a pitch of 0.50mm, supporting a 6mm mating stack height and is suitable for electronic applications with medium stack hei...
2025-05-27
145656060001829+T connector is a plug type, using a 60-pin double row layout, pin pitch of 0.50mm, supporting a mating stack height of 17mm, suitable for large spacing board-to-board connection requir...
2025-05-27
The 245655030600829 +T connector products adopt a 30-pin double-row design with a pin pitch of 0.50mm, supporting a 6mm mating stack height, suitable for medium-height PCB interconnection requirements...
2025-05-27
The 245846070000829 connector product adopts a double-row 70-pin design, with pin spacing as small as 0.40mm, and a combined stacking height of 3mm, with only a board height of 2.85mm.
2025-05-26
The product is designed with a 16-pin dual-row layout, with a pitch and row spacing of 3.00mm, supports free-hanging installation, and uses a press fit connection method, which is convenient for quick...
2025-05-26
This product has 20 needle positions, arranged in a double-row layout, with a needle spacing and row spacing of 3.00mm, suitable for applications with high requirements for structural compactness.
2025-05-26
This product has 6 pin positions, adopts a double-row structure with a pitch and row spacing of 5.70mm, providing greater current carrying capacity and good heat dissipation performance.
