Power Management system

Comprehensive solution designed to monitor, control, and optimize the generation, distribution, and consumption of electrical power within a facility or across an industrial network. It encompasses a range of technologies and strategies to ensure efficient use of power, maintain system reliability, and respond to dynamic energy demands. Key functionalities include load sharing, load shedding, and real-time monitoring to enhance energy efficiency and reduce operational costs. The system helps effectively manage power resources, minimize wastage, and ensure a stable and reliable power supply.

Process control (Discrete & Continuous)

Monitor, regulate, and optimize variables in a manufacturing or industrial process.
Involves the use of sensors, controllers, and actuators to continuously measure and adjust parameters such as temperature, pressure, flow, and other critical factors.

Condition Monitoring

Process of continuously monitoring the health and performance of machinery and equipment in real-time.
Involves the use of sensors and advanced technologies to collect data on various parameters such as vibration and temperature.
Powered by embedded Machine Learning, it provides users with Predictive Analytic capability.

Power Monitoring system

Designed to track, analyze, and manage electrical power consumption within a facility or industrial environment. This system monitors various aspects of the electrical network in real-time, providing insights into energy usage, power quality, and equipment performance.

Digitalization

Integration and utilization of digital technologies to transform various aspects of business processes, operations, and services.
It involves leveraging digital tools, data analytics, automation, and connectivity to enhance improve decision-making and drive innovation.

Advanced Process Control

Set of sophisticated techniques and strategies applied in industrial automation to optimize and enhance the control of complex processes. APC utilizes advanced mathematical models, algorithms, and real-time data analytics to improve the performance, efficiency, and stability of industrial processes.
It goes beyond traditional control methods by continuously analyzing process variables, predicting future behavior, and adjusting control parameters to achieve optimal outcomes.

Balance of Plant (BoP)

Auxiliary systems and components necessary for the operation of a plant, it includes a wide range of infrastructure, systems, and facilities that support main production process.

Energy efficiency

Adopting technologies, practices, and processes that enhance energy performance, reduce consumption, and promote sustainability.

LV Drive system

Regulate the speed and performance of electric motors in various industrial processes.
This technology is commonly used in applications such as conveyor systems, pumps, fans, compressors, and other machinery where precise control and energy savings are essential.