The INVT GD27 series adopts a breakthrough dual CPU architecture to achieve specialized division of labor for drive control separation. The independent computing cores focus on driving output and logic control, the driving circuit focuses on power output and current closed-loop, and the control circuit focuses on algorithm operation and signal processing. The two work in parallel and do not interfere with each other, completely solving the performance bottleneck of traditional single CPU driving and control, effectively improving control response speed and operational stability, and achieving faster torque response and superior control accuracy.
Relying on a new software platform, the GD27 series achieves a dual upgrade of underlying algorithms and operational performance. Optimized vector control algorithm, accurately adapted to asynchronous, permanent magnet synchronous and other types of motors, with smoother speed regulation and stronger low-speed torque; The platform based architecture brings stronger computing power and compatibility, more flexible parameter adjustment, more sensitive fault protection, and comprehensively enhances control stability and operational reliability, ensuring that the motor drive is always in an ideal state of high efficiency, low noise, and precision.
From compact structure to core technology, the GD27 series solidifies its hardware foundation with dual CPU architecture and drive control separation, and empowers performance upgrades with a new software platform, fully demonstrating the excellent product strength of drive control. Whether it is woodworking machinery, textile equipment, food printing and packaging, logistics transportation and other scenarios, the GD27 series can provide excellent driving and control performance to help equipment operate efficiently and production lines upgrade stably, becoming the preferred agile driver in the field of lightweight industrial control.
