
Building automation and management systems can be used to control different electromechanical systems such as building heating systems, cooling systems, building ventilation systems, generators, hydrofoils, vrv, vrf systems, fan chillers, lighting systems, car park gas monitoring and exhaust control systems, Control, monitoring and reporting of software, hardware and software. Since it can provide an integration platform with other weak current systems, the cost and efficiency to be provided by the enterprise increase exponentially, managing and monitoring different systems from one center, and ensuring the control of the entire building with minimum personnel and maximum efficiency.
By increasing energy efficiency and preventing existing energy losses, it ensures that the amount of energy consumed is minimized without lowering the quality and performance.


It enables the planning, monitoring and management from the server to the cabinet, the queue, the room and the building in the data center. Achieving visibility into the data center infrastructure for faster and easier data management. Reducing operating costs and downtime risk through planning and better capacity utilization, managing energy usage with better visibility and control over the building’s infrastructure, more holistic monitoring and To be compatible with IT service management for event management is the main purpose of the DCIM system.
It provides easy to use and secure remote monitoring and management via local or internet with multiple network communication protocols. It enables monitoring, reporting and management of UPS through computers


The main objective is to save operating costs and provide complete control by minimizing the human factor in the field of activity of the enterprises, controlling needs, using the resources in the most effective way depending on electromechanical systems, reporting, heating-cooling-ventilation systems and water supply.
The main purpose of the lighting automation systems is to control the internal and external architectural lighting systems of the enterprises according to time, ambient light intensity, usage intensity automatically and to save the operating costs and to provide full control.


By the integration of our intelligent building management systems, the ventilation system reduces the amount of oxygen present at this point by disabling the fire area. Climate and ventilation dampers are closed to keep the fire under control. Smoke exit systems can also be controlled. Notification systems come into play and emergency exits are automatically turned on and illuminated to facilitate safe evacuation of employees and guests.
The objective of the Card Transition and Security System is to integrate BMS with the objective of protecting the priority rooms, primarily the technical rooms and all important transit points, ensuring that only authorized personnel can enter the relevant room, observing all possible forcings beyond this and ensuring that relevant security units reach the problematic point as soon as possible .


Using all kinds of industrial communication protocols, devices can be accessed in real time by integrating PLC and SCADA systems by providing fast data exchange between decentralized devices.
It enables easy monitoring of the system in a centralized and single screen in a multi-screen environment. It is especially possible to shorten the time to intercept and detect a potential event beforehand.


Turnkey Data Center Projects by suppliying all devices, cabling and system integration.