Bently Nevada 21747-045-01 is a 4.5-meter (177-inch) extension cable for proximity probe systems, featuring high-quality shielding and durable construction to ensure reliable signal transmission in industrial vibration monitoring applications.
Bently Nevada 21747-075-01 is a high-precision vibration monitoring module designed for industrial machinery protection, featuring dynamic signal processing, real-time diagnostics, and seamless integration with Bently Nevada's 3500 monitoring system for critical equipment safety.
Bently Nevada 330500-01-00 is a high-sensitivity piezo-velocity sensor designed for industrial vibration monitoring, featuring rugged stainless steel construction, wide temperature range operation, and IP65-rated protection for reliable performance in harsh environments.
Bently Nevada 330525-02 is a high-performance vibration monitoring module designed for industrial machinery protection, featuring dynamic signal processing, real-time diagnostics, and seamless integration with Bently Nevada's 3500 monitoring system for critical equipment safety.
Bently Nevada 139554-01 is a vibration monitoring module from GE's Bently Nevada series, designed for industrial machinery protection with high-accuracy measurements, dynamic signal processing, and robust reliability for critical rotating equipment.
Honeywell FC-CPCHAS-0002 is a high-performance chassis module designed for industrial control systems, featuring robust construction, modular design, and seamless integration with Honeywell's C300 controllers for reliable process automation.
The ABB YPP110A 3ASD573001A1 is a high-performance motor protection relay featuring advanced overload, short-circuit, and phase imbalance protection for industrial applications. With Modbus communication and easy integration, it ensures reliable motor operation.
The Woodward 8440-2051 is a high-performance digital speed control module designed for industrial turbines and engines, featuring precise PID control, robust communication interfaces, and reliable operation in demanding environments.
