Advanced marine electronic potentiometer
The Advanced Marine Electronic Potentiometer is meticulously designed to convert the relay output from a PI step controller into a precise control voltage, making it ideal for speed governors or automatic voltage regulators (AVRs). Its versatile design ensures compatibility with a wide range of load-sharing unit (LSU) brands, synchronisers (FAS), and other PI step controllers that utilize relay outputs. This compatibility extends across various marine and industrial applications, providing a seamless integration solution that enhances the overall system performance.
Overall, this marine electronic potentiometer stands out as an essential component for enhancing the performance of speed governors, AVRs, and load-sharing units in marine environments. Its compatibility with numerous PI step controllers and relay outputs makes it a versatile and indispensable tool for achieving precise and reliable control in marine applications.
Enhancing the Performance of Speed Governors
Enhancing the Automatic Voltage regulator (AVR)
Enhancing the load-sharing units
Compatibility With Numerous PI Step Controllers
ENWISION EN-EP-03D
The ENWISION EN-EP-03D Advanced Marine Electronic Potentiometer‘s robust construction ensures reliable operation in demanding marine environments, offering exceptional durability and longevity. It effectively translates relay signals into stable control voltages, ensuring smooth and efficient control of speed governors and AVRs. This functionality is critical for maintaining optimal performance and stability in marine propulsion systems and power generation applications.
In addition to its primary function, the marine electronic potentiometer boasts user-friendly features that simplify installation and operation. Its design facilitates easy integration with existing systems, minimizing downtime and ensuring quick setup. The potentiometer is engineered to deliver precise control, contributing to improved efficiency and operational reliability in a variety of marine contexts.