Applications
· Audio
· Cordless Phone
· Car audio
· Security equipment
· Fax
· Monitor
· TV
Specifications
· Current Rating: 0.5A Max
· Insulation Resistance: 100MΩ Min
· Dielectric Withstanding: 250V AC
· Contact Resistance: 30mΩ Max
· Operating Temperature: -25°C - +85°C
Materials
· Plating: Tin--Standard
Gold flash option
· Contact Material: Cooper Alloy
· Housing Material: High-temperature Thermoplastic
· Environmental: UL94 V0
Others
· 2D drawing
· Contact CNT to get 3D file
· RoHS & REACH compliant
· UL compliant
Features
- Offer electrical and mechanical protection for the connected components.
- Easy to install and remove, allowing for quick changes or upgrades.
- Allow for quick and easy troubleshooting in the event of a problem.
- Enable efficient use of space and minimize clutter.
Advantages
- Increased service life
- Supports the use of different types of cables and wires
- Reduces the risk of electrical fires
- Increases the overall efficiency of the system
Kunshan Connector Electronics Ltd.(CNT) has been devoted to the production and sale of electronic connectors for 16 years, adhering to the belief of quality first and customer first. CNT is a reliable manufacturer in fpc electronics connectors with high quality and best price. We focus on providing high value products to our customers including male header, female header, box header, wafer, FPC, RJ and wiring harness. Any demand in fpc electronics connectors, welcome you to contact us. Just call or send email to us to get professional support, believe that CNT will be your best business partner!
Packaging and Shipping
Inspection Equipment
Our Certificate
Q&A
How does the number of contacts affect the performance of board-to-board connectors?
1)Signal Integrity: As the number of contacts increases, the distance between adjacent contacts decreases, which can increase the potential for crosstalk and signal interference. However, a higher number of contacts can also provide better signal routing options, allowing for more complex signal paths and more efficient signal transmission.
2)Current-Carrying Capacity:More contacts can provide higher current-carrying capacity, allowing for more power to be transmitted between the two PCBs.
3)Mechanical Stability: A higher number of contacts can increase the overall stability of the connector, as it provides more points of contact between the two PCBs. This can be especially important in applications where the two PCBs may experience vibrations or other mechanical stresses.
What is the impact of the connector height on the overall system design?
1)Space requirements: The height of the connector can impact the overall space requirements of the system. Connectors with a larger height will require more space, which may be a constraint in applications where space is limited.
2)Signal routing: The height of the connector can also impact the signal routing within the system. A taller connector may require longer signal traces to connect the two PCBs, which can increase the potential for signal degradation and reduce the signal integrity. In contrast, a lower profile connector may allow for more direct and shorter signal paths, improving the signal integrity.
3)Mechanical stability: The height of the connector can also impact the mechanical stability of the system. A taller connector may provide better mechanical stability, as it provides more points of contact between the two PCBs, while a lower profile connector may be less stable.
4)Cooling requirements: The height of the connector can also impact the cooling requirements of the system. A taller connector may block airflow and reduce the effectiveness of the cooling system, which can be a concern in applications that generate significant heat.
In general, the connector height should be carefully considered during the system design phase to ensure that it meets the specific requirements of the application. The overall system design should balance the height of the connector with the space requirements, signal integrity, mechanical stability, and cooling requirements of the system.
