Overview of 43025-0200 by Molex
The 43025-0200 by Molex is a Micro-Fit 3.0 board connector designed with a focus on versatility and performance in various environments. Classified within the electronic parts subcategory of Headers and Edge Type Connectors, this connector showcases a female receptacle with 2 contacts arranged in 2 rows. It facilitates a straight crimp terminal connection with the added security of a locking mechanism. The black insulating body adds a level of durability to the design, complying with RoHS standards, indicating its safety and environmental responsibility. The Micro-Fit 3.0 43025 Series part is specified with a pitch spacing of 3mm and is designed for use with Molex Micro-Fit 3.0 43030, 45773, and Micro-Fit Rmf 46235 Series socket contacts. Noteworthy for its compact footprint dimensions with a breadth of 0.298 inches, a depth of 0.551 inches, and a length of 0.152 inches, this connector supports a wide range of operating temperatures from -40 °C to +105 °C, suitable for various application conditions.
Industry Applications for 43025-0200
The 43025-0200 connector’s potential applications are broad, given its versatile features such as its compact size, lockable design, and compliance with robust safety and operational standards. Engineering and design teams should analytically verify its suitability for these recommended applications:
- Energy and Power Systems: It might serve in connecting devices within power distribution units or for internal wiring in smart meters where reliability and compactness are crucial, potentially supporting the growing demand for efficient energy management solutions.
- Transportation and Logistics: In vehicles and logistic equipments, such as GPS units and fleet management devices, this connector might be utilized due to its robust design ensuring steady connections even in moving or vibrating environments.
- Renewable Energy: In applications like solar inverters or wind turbine controllers, the 43025-0200 could potentially facilitate low-current connections within these systems, supporting the transmission of power or data, given its operating temperature range aligning with the diverse conditions of renewable energy installations.
- Automotive: Given its compact design and high reliability, this connector could be considered for use in automotive applications, including within the infotainment systems, lighting, and sensor connections, where space optimization and secure connections are paramount.
Note, these potential applications require careful analysis and verification to ensure compatibility and performance reliability by engineering and design teams.
About Molex
Molex is a globally recognized manufacturer specializing in a wide range of electronic components, including connectors, cables, and interconnect systems. Known for producing high-quality, reliable parts, Molex excels in the domain of Headers and Edge Type Connectors, offering a broad spectrum of solutions tailored to a variety of industry needs. The 43025-0200 is just one example of its vast product offerings, which span across multiple industry sectors, from consumer electronics to automotive and industrial applications. Molex’s commitment to innovation, stringent quality control, and comprehensive product support has cemented its reputation as a leading supplier in the connectors market.
Where to Find 43025-0200 by Molex
To purchase the 43025-0200 part, or to explore other options within the category of Headers and Edge Type Connectors, findchips.com provides a comprehensive platform for comparing stock levels and pricing across multiple distributors. This part has historically been available through distributors such as Win Source Electronics, TestEquity LLC, Master Electronics, and Component Electronics, Inc., among others. However, for up-to-date availability, pricing, and to explore potential alternate parts offered by Molex or other manufacturers, visiting findchips.com is recommended. This platform allows users to quickly glance at the latest stock information and make informed procurement decisions.