Solutions

Intelligent Load Management System

Our Intelligent Load Management System delivers sophisticated solutions for generator synchronization and grid integration. It is designed to handle complex networks with multiple sources, bus couplers, bus ties, and diverse bus bar configurations using advanced CB controllers, ensuring efficient and seamless power management.

Our system's core feature is the precise control and interlocking of circuit breakers in even the most complex networks. This is made possible through highly deterministic CAN bus communication between controllers, ensuring reliable and efficient coordination across the entire network.

Intelligent Load Management and Load Shedding systems are designed to optimize energy distribution by prioritizing and managing loads in real-time, ensuring efficient use of available power resources. These systems automatically balance power demand across multiple sources, including generators and renewable energy systems.

Our advanced controllers enable efficient load sharing among multiple power sources, as well as import and export power control. With integrated Ethernet and CAN bus communications, they ensure optimal performance and system efficiency in real-time operations.

By efficiently managing load shedding during peak demand, our system helps maintain grid stability and supports grid frequency restoration, ensuring a reliable power supply for critical loads even under challenging conditions. During peak demand periods or in case of power shortages, deterministic load shedding is strategically implemented to reduce non-essential loads, maintaining critical operations and stabilizing the grid, avoid Blackout.

By using advanced communication protocols and algorithms, Intelligent Load Management improves system reliability, enhances energy efficiency, and helps reduce operational costs.

Micro Grid Controls

Micro-Grid Control is an advanced solution designed to optimize the operation and integration of Distributed Energy Resources(DER) within a localized network. It enables the seamless coordination of renewable energy sources, such as solar and wind, with conventional generators, battery storage, and load management systems. By balancing supply and demand in real time, Micro-Grid Control ensures grid stability, enhances energy efficiency, and provides uninterrupted power during grid outages. This system also enables grid synchronization, load shedding, and energy export, making it ideal for commericial Industry, and remote locations that require reliable, sustainable, and independent power solutions.

DG Set-Synch Controls

DG Set Synchronization, load sharing, and load-dependent start/stop management are critical aspects of modern power systems, ensuring seamless integration of multiple diesel generators. DG set synchronization involves matching the voltage, frequency, and phase angle of generators before they are connected to the grid or each other, ensuring stable and efficient power generation. Load sharing controllers distribute the load equally among generators to avoid overloading any single unit, optimizing fuel efficiency and extending the life of the equipment. The load-dependent start/stop functionality further enhances efficiency by automatically starting or stopping generator sets based on real-time power demand, ensuring that only the necessary number of generators are running. These advanced controllers enable effective power management, reducing operational costs and improving system reliability in critical infrastructure.

Power Plant Controller

Power Plant Controller (PPC) is a sophisticated system designed to optimize the operation and management of power plants by seamlessly integrating and controlling various components. It ensures reliable energy generation, efficient resource utilization, and compliance with grid requirements by managing power output, voltage regulation, and frequency stabilization. The PPC plays a critical role in renewable energy plants by synchronizing solar, wind, or hybrid systems with the grid while maximizing energy efficiency and reducing losses. Equipped with advanced algorithms and real-time monitoring capabilities, it empowers plant operators to achieve high performance, enhance grid stability, and meet dynamic energy demands.