An LSH connector is a type of high-power electrical connector series designed by Smiths Interconnect. Specifically known as the LSH rack and panel high power connector series, it is built on the foundation of leading-edge Hypertac® hyperboloid contact technology.
Key Characteristics and Technology
The LSH connector is part of Smiths Interconnect's range and is engineered for high-power applications. Its core strength lies in the Hypertac® hyperboloid contact technology. This technology is renowned for its high current carrying capacity, low contact resistance, high reliability, and long lifespan, making it suitable for demanding environments.
Market Applications
According to Smiths Interconnect, the LSH connector is a versatile component utilized across many different market segments. Its robustness and high-power capabilities make it ideal for applications where reliable power distribution is critical.
Common markets include:
- Aerospace: For power systems in aircraft.
- Automotive: In electric or hybrid vehicle power trains and charging systems.
- Industrial: For heavy machinery, automation equipment, and power distribution panels.
- Test and Measurement: In high-current test fixtures and power supplies.
- Mass Transit: Used in railway systems, buses, and other public transportation vehicles.
Benefits of LSH Connectors (Based on Hypertac Technology)
While the reference doesn't explicitly list all benefits, the use of Hypertac® technology implies several advantages:
- High Current Density: Can handle significant power in a compact size.
- Low Insertion/Extraction Force: Easier mating and unmating.
- Vibration and Shock Resistance: Maintains stable contact in harsh conditions.
- High Durability: Allows for many mating cycles.
- Low Contact Resistance: Minimizes power loss and heat generation.
In summary, the LSH connector is a robust, high-power rack and panel connector from Smiths Interconnect, leveraging Hypertac® technology to serve critical power needs in diverse sectors like aerospace, automotive, industrial, and mass transit.
