Overview of 207444-8 by TE Connectivity
The 207444-8 is an 18-position Metrimate pin header assembly designed for wire-to-board connector systems. This connector features a pitch spacing of 5 mm and consists of 6 rows with a total of 18 contacts. The contact termination type is straight through-hole, which allows for efficient and reliable connections in various applications. The Metrimate series, which this part belongs to, is known for its versatility and design, making it suitable for a range of electronic devices.
Manufactured by TE Connectivity, the 207444-8 connector is compliant with the RoHS directive, which guarantees that it is made without the use of lead, ensuring environmental safety. The part is currently in an active life cycle and offers a factory lead time of approximately 12 weeks as of the current writing. The connector is designed with a body breadth of 0.737 inches, a depth of 0.464 inches, and a length of 1.293 inches, making it compact while maintaining robustness.
This component’s contact material is made of brass and features a tin finish with a nickel barrier, which enhances its conductivity and durability. The rated current for the connector is 7.5 A, and it can handle a voltage rating of up to 600 V. Additionally, this part has an impressive insulation resistance of 100,000,000 Ω and operates effectively within a temperature range of -55 °C to 130 °C.
Industry Applications for 207444-8
The 207444-8 connector may find potential applications across various industries due to its technical specifications and operational capabilities. Here are some possible industry sectors where this component could be utilized:
- Energy and Power Systems: The Metrimate connector could be integrated into power distribution units or control panels, where efficient wire-to-board connections are essential. Its ability to handle high voltages and currents could potentially support systems for power aggregation and distribution.
- Transportation and Logistics: This part might be utilized in electronic control units for vehicles, where reliable communication between different electronic systems is vital. Its durability and high-temperature resistance could potentially make it suitable for automotive applications, particularly in non-critical systems where AEC-Q compliance is not mandatory.
- Renewable Energy: In solar energy systems, the 207444-8 connector might be employed to connect solar panel arrays to inverters. The robust electrical characteristics and environmental compliance of this part could support its use in green technology solutions.
- Automotive: If applicable standards such as AEC-Q100 or AEC-Q101 were relevant, the 207444-8 connector might be employed in automotive electronic assemblies, facilitating connections within engine control modules or battery management systems, given its ability to withstand varying temperatures and currents.
These potential industry applications are conceptual and illustrative; they require analysis and verification by engineering and design teams for adherence to industry standards and specific application requirements. Other similar multiway rack and panel connectors may also serve similar functional roles in these industries.
About TE Connectivity
TE Connectivity is a global technology leader that designs and manufactures connectivity and sensor solutions essential in today’s increasingly connected world. Within the realm of connectors, TE Connectivity provides a wide range of products, including the 207444-8 and other similar connectors in the Multiway Rack and Panel Connectors category. These connectors are engineered to meet industry-specific demands and standards, addressing various applications from consumer electronics to industrial machinery.
TE Connectivity emphasizes innovation and responsiveness in its product development, ensuring that their connectors, including the Metrimate series, meet the evolving needs of various industries. Their commitment to quality and reliability is reflected in the design and manufacture of connectors that provide secure and versatile interfaces suited for different electronic environments.