Power Wedge Cable for Reliable External Power Supply
The Power Wedge Cable is engineered for seamless performance, delivering steady external power to radios without battery charging functionality. Designed for mission-critical applications, this rugged cable ensures uninterrupted communication, withstanding harsh environments from aircraft hangars to field operations. Its reliable design makes it a preferred choice among professionals who demand durability and stability.
Hard-Wired Cable for Aircraft Radios with Rugged Design
- Stable External Power: Provides direct power to radios from external supply sources.
- Automatic Switching: Switches to battery mode when input voltage drops below 10.1V in just 3 milliseconds.
- Secure Locking System: Connectors securely lock onto both battery and radio to prevent accidental disconnection.
- Durable Construction: Built with corrosion-resistant, non-conductive connectors to endure tough conditions.
- Aircraft-Ready: Frequently used on aircraft for dependable communication support.
Hard-Wired Power Cable with Rugged Reliability
Crafted with precision, the Power Wedge Cable combines advanced safety and performance features. Its broad input voltage range and secure locking mechanism make it ideal for aviation, industrial, and outdoor applications. This robust cable sets a benchmark for professional-grade power connectivity.
Power Wedge SN-832-P163 Specifications
- Part Number: SN-832-P163
- Input Voltage: 11.6V to 36V
- Switching Time: 3 milliseconds
- Weight: 10 ounces
- Cable Length: 3 feet
- Cable Gauge: AWG 20
- Cable OD: 5mm
- Dimensions: 2.6" x 1.5" x 1.46" (Height)
- Temperature Rating: -40°C to +85°C
- Optional Input Jack: P/N SN-832-PCJ163
Aircraft Power Connector Trusted for Performance
With its rugged design and dependable switching system, the Power Wedge SN-832-P163 is a trusted standard in aviation and communication industries. Known for its ability to perform in extreme environments, it has become a go-to solution for professionals who cannot compromise on power stability and reliability.
