Rectangular connectors are an essential part for any electronic component. They provide a secure and protective interface between two components or boards, enabling them to pass signals, power or data reliably. The type 160-10-428-00-001000 header is no exception and is commonly used when a high current rating is required in a small space. Here, we will discuss the application fields and working principle of these specialized connectors.
Application Fields
The 160-10-428-00-001000 is mainly used in applications where space is limited. Because of its low profile design, it provides a reliable connection with very little extra space. This makes it a great choice when space conservation is necessary. In addition, because it is designed to carry high current, it is used in a wide range of applications, such as lighting, automotive, military, computer, telecom, and sensitive electronic control systems. Therefore, its versatility makes it ideal for a wide range of applications.
Working Principle
These specialty pins are designed to deliver a reliable connection for high current requirements. It is made up of two key components; the contacts, and the housing. The contacts are made from copper alloy and are designed to allow a low contact resistance with the mating contact. This ensures a consistent and reliable connection. The housing is designed to provide EMI/RFI shielding in order to protect the internal components from interference. Furthermore, the housing also acts like a heat sink and draws heat away from the connection.
The connection is established by pushing the mating components together. This causes a compression force which ensures a secure connection. Furthermore, the contacts will slightly deflect which allows them to press against the mating component, thus creating a reliable electrical connection. After the connection is made, the contacts can carry high current levels without any degradation or overheating.
Conclusion
The 160-10-428-00-001000 header is a specialized rectangular connector designed to meet high current requirements and to conserve space. Its reliability makes it suitable for a wide range of applications, from automotive to sensitive electronics. Its working principle is based on the compression force created when it is pushed together, allowing the contacts to press against each other which enables a high current connection with very little resistance.