Welcome to Xixing
Call us:+86-021-34780552
Create value.development.
The EasyPQ-TS series of smart thyristor switching devices use an FPGA chip for real-time waveform calculation, enabling precise and zero-delay switching in harsh voltage environments. This ensures fast response and accurate reactive power compensation.
In industrial settings, even with ultra-high-speed loads, the EasyPQ-TS series maintains accurate and continuous switching, providing timely reactive power compensation in fast-switching applications.
The EasyPQ-TS series of smart thyristor (silicon controlled rectifier) switching devices can accurately identify the zero-crossing points in various complex voltage waveform environments, achieving zero-current switching of capacitors. Moreover, there is no inrush current at the moment of engagement, which can significantly extend the lifespan of the capacitors.
The EasyPQ-TS series features comprehensive protection functions, covering common issues such as over-temperature, over-voltage, short circuit, open circuit, phase loss, timeout for engagement wait, timeout for disengagement wait, and power loss. By monitoring the current of the thyristor and capacitor, it can quickly and promptly trigger protection.
In harsh conditions such as incorrect reactor configuration, capacitor damage due to prolonged operation, severe voltage harmonics in the electrical environment, high temperature, and conductive dust, the EasyPQ-TS series can provide timely protection. In addition to preventing damage to the entire device, it can also significantly extend the overall equipment lifespan.
With an innovative internal structural design, the EasyPQ-TS series remains compact and lightweight even at a capacity of 60 kVar. Measuring 130 mm in length, 215 mm in height, and 163 mm in width, it is more space-efficient than similar products. This not only saves cabinet space but also facilitates quick installation and maintenance, enhancing work efficiency.
The EasyPQ-TS series of smart thyristor (silicon controlled rectifier) switching devices are widely applicable to more complex and harsh industrial environments, such as metallurgy, mining, and petrochemical industries.
