BLUELIGHT GROUP-IBL6 ELEVATOR INTERGRAED CONTROLLER
iBL6 is the new generation intelligent elevator integrated controller. It integrates professional logic control algorithm and high-performance variable frequency drive technology into a compact, highly integrated solution, realizing the organic unification of elevator operation control and drive regulation. Featuring advanced technology, optimal performance, high reliability, and user-friendly operation, this controller adopts innovative design concepts and mature industrial-grade components to deliver stable and efficient operation throughout its lifecycle. In addition, it supports convenient debugging, simple maintenance, flexible parameter configuration and strong compatibility with various elevator systems, effectively improving operational efficiency, ensuring riding comfort and safety, and providing a reliable, high-quality core control solution for modern elevators.
The iBL6 represents a cutting-edge intelligent elevator integrated controller that perfectly combines sophisticated intellectual logic control and high-performance VVVF drive technology, realizing truly integrated control of the elevator system.
It adopts advanced vector control technology to achieve high-precision motor parameter identification, fully exploit the potential of motor capacity, and comprehensively enhance elevator dynamic performance and riding comfort. Equipped with an advanced space vector PWM algorithm, the controller delivers significantly higher operational efficiency compared with traditional sine/cosine PWM solutions, resulting in remarkable energy-saving effects during operation.
Safety is embedded in its core design through the application of STO (Safe Torque Off) technology. In the event of an emergency stop demand, the STO function is activated immediately, cutting off the torque output of the integrated controller to safeguard passengers and equipment. This system meets the functional safety requirement up to SIL3, while also reducing failures commonly caused by long-term contactor operation.
Optimal Performance
The controller generates an optimized speed curve based on the target floor in real time, enabling high-precision and high-efficiency direct leveling of the elevator car, improving both running efficiency and passenger experience.
Supported by high-speed and reliable CAN BUS communication technology, the system simplifies on-site wiring and facilitates flexible system expansion. It is fully compatible with internet-based wireless remote monitoring systems, allowing convenient remote commissioning guidance, real-time elevator status monitoring, and predictive maintenance.
The controller supports smartphone-based tuning with comprehensive data display. It provides a wealth of intelligent functions including remote parameter and fault data transmission, online technical guidance, and balance coefficient detection, making the tuning process simpler and more efficient.It features user-friendly auto-tuning (self-learning) procedures that support both rotating and static methods to accurately identify motor parameters and initial angle, greatly improving commissioning convenience.
Through fuzzy logic control technology, the controller achieves smooth elevator start-up without load weighing compensation, delivering excellent riding comfort even without a weighting device.
When matched with Bluelight synchronous traction machines, the controller can utilize predefined motor model data, eliminating repetitive manual parameter input and simplifying the auto-tuning process. This not only improves commissioning efficiency but also maximizes the overall performance of the traction system.
High Reliability & Safety
The system adopts an advanced hardware architecture featuring dual 32-bit CPUs plus an FPGA working collaboratively to undertake full-featured elevator control tasks, ensuring outstanding operational stability, safety, and reliability.
Redundancy design and comprehensive software-hardware integrated protection mechanisms are implemented throughout the system, further strengthening the safety and reliability of elevator operation.
