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Jul 01,2024
First of all, the operation of inductive equipment must establish a magnetic field (such as a motor). Since the instantaneous start-up of large equipment requires the power grid to provide a large amount of Reactive Current to establish a magnetic field, the voltage of the system will be greatly reduced at the moment of equipment startup, causing other equipment to be protected or unable to operat...
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Sep 11,2024
Selecting the capacity of the transformer is crucial, as it directly affects the stability, efficiency and safety of the power system. The appropriate transformer capacity can ensure that current and future load requirements are met, avoiding equipment damage and energy waste caused by overload or underload. The correct capacity selection helps optimize operating costs, extend equipment life, and ...
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Sep 24,2024
What is the reason of resonance in power networks? Resonance in power networks occurs when the inductive and capacitive elements of the system interact in a way that amplifies specific frequencies, leading to excessive voltage or current oscillations. Here are the primary reasons for resonance in power networks: 1. Impedance Matching Resonant Frequency: Every electrical circuit has a natural reson...
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Apr 24,2025
Analysis of the situation where the system load exceeds the transformer capacity configuration when the transformer and photovoltaic are used at the same time. Phenomenon and cause 1. Power fluctuation superposition: The power generation power of the photovoltaic system is affected by factors such as light intensity and weather conditions, and fluctuates significantly. When there is sufficient sun...
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Aug 19,2025
When multiple modules of an active power filter are operated in parallel, slow response and reduced filtering effectiveness are often related to imbalances in core aspects such as inter-module coordinated control, signal synchronization, and current distribution. The specific causes can be analyzed from the following aspects: Ⅰ. Insufficient inter-module synchronization accuracy Multiple modules i...
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Sep 10,2025
1. Electrical Resonance What is Resonance? In an AC circuit, electrical resonance is a condition where the inductive reactance (X_C) become equal, canceling each other out. This leaves only the circuit resistance (X_L = 2πfL): Opposition from inductors (e.g., motors, transformers). Increases with frequency. Capacitive Reactance (f_r) This is the specific frequency where f_r = 1 / (2π√(LC)) Wh...
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Oct 30,2025
Active Harmonic Filter is a high-power, fast-switching electronic amplifier. Its job is to continuously monitor the electrical system and instantly inject equal but opposite "anti-harmonic" currents to cancel out the distortions. This demanding process generates a significant amount of waste heat, and managing this heat is paramount for several key reasons: 1. To Protect the Power Semiconductors (...
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Dec 09,2025
The correct selection of capacitor banks, SVG (Static Var Generator), and active power filters (APF) and external current transformers (CTs) directly affects the measurement accuracy, response speed, and overall operational performance of the compensation/filtering device. The following details how to correctly select these components, covering both general principles and specific considerations f...
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Dec 10,2025
The Variable Frequency Drive (VFD) is a powerhouse of modern industry, enabling precise motor control and dramatic energy savings. Yet, this efficiency comes with a hidden electrical toll: harmonic distortion. The Active Harmonic Filter (AHF) is the critical solution that neutralizes this threat, ensuring system reliability and clean power. The Harmonic Challenge from VFDs A VFD's operation—conver...
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Feb 07,2026
Below is a partial list of our shipments over the past two weeks at the end of the year: 1. Africa High Voltage Outdoor Water Cooling Statcom FAT and Delivery 2. Eastern European Static Var Generator and Active Harmonic Filter 3. Southeast Asia LV APFC 4. Latin American MV APFC(13.8kV)
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