Blade Type Power Connectors
Blade Type Power Connectors are specifically designed to handle larger power requirements compared to other types of connectors. These connectors feature contacts with a blade-style design, which allows for efficient power transmission.
Blade Type Power Connectors have various characteristics that define their specifications and usage. These characteristics include the connector style, connector type, number of positions, pitch, and mounting type.
The connector style refers to the overall design and appearance of the connector. It may vary depending on the manufacturer and specific application requirements.
The connector type indicates the specific type of connector used in the blade-style design, ensuring compatibility with other mating connectors.
The number of positions refers to the total number of electrical contacts or terminals within the connector. This determines the maximum number of conductors that can be connected.
The pitch measurement specifies the distance between adjacent contacts or terminals within the connector. It ranges from 0.079 inches (2.00mm) to 0.440 inches (11.18mm). The pitch measurement is important for ensuring proper alignment and connection between the mating connectors.
The mounting type describes how the connector is mounted or attached within a system. Blade Type Power Connectors can be mounted using various methods, including board edge mounting, free-hanging (cable-to-cable connection), panel mounting, surface mounting, and through-hole mounting.
By offering a range of pitch options and mounting types, Blade Type Power Connectors provide flexibility in terms of installation and integration into different systems and applications.
In summary, Blade Type Power Connectors are designed to handle larger power requirements and feature contacts with a blade-style design. With characteristics such as connector style, connector type, number of positions, pitch, and mounting type, these connectors offer versatility and compatibility for a wide range of power applications.