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Jiangsu Dingxin Electric Co., Ltd.
Jiangsu Dingxin Electric Co., Ltd. is located in the Industrial Park of Haian Development Zone, a development zone in Jiangsu Province. It is a high-tech enterprise in Jiangsu Province specializing in the production of power equipment, with an annual production capacity of 50 million KVA. It mainly produces 110KV, 220KV and 500KV ultra-high voltage transformers, various dry-type transformers, oil-immersed transformers, amorphous alloy transformers, wind and solar energy storage transformers, prefabricated substations and reactors of various specifications with voltage levels of 35KV and below. , electric furnace transformer, rectifier transformer, mining transformer, split transformer, phase shift transformer and other special transformer. As China OEM/ODM Phase-Shifting Rectifier Transformer Manufacturers and Custom Phase-Shifting Rectifier Transformer Factory, companies have successively passed IS09001, ISO14001, ISO45001, ISO19011 system certification. Among the customers we cooperate with are many urban and rural power grids, as well as petrochemical, metallurgical, textile enterprises, mines, ports, residential communities, etc. We have long-term cooperation with many well-known companies, and we are also qualified suppliers for many listed companies in the electrical industry. Product sales cover the national market and are exported to Europe, the United States, Australia, Indonesia, Russia, Africa, Vietnam and other countries.
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  • Business Licence
  • S22-M-250/10-Nx1 And Energy Efficiency Report
  • SCB18-800/10-NX1 And Energy Efficiency Report
  • SCB18-500/10-NX1 And Energy Efficiency Report
  • SCB18-2500/10-NX1 And Energy Efficiency Report
  • S13-M-1000/10KV Type Test Report
  • S13-M-1000/20KV Type Test Report
  • S13-M.RL-630/10KV Type Test Report
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Industry knowledge
How does the Phase-Shifting Rectifier Transformer contribute to the overall performance of the strength machine or rectifier?
The Phase-Shifting Rectifier Transformer plays a critical role inside the average performance of a power gadget or rectifier by way of imparting controlled segment transferring of the incoming electric signals. Its contribution can be understood through several key factors:
Power Flow Control:
The primary function of a Phase-Shifting Rectifier Transformer is to manipulate the power float in an electrical machine. By adjusting the phase perspective of the transformer, it impacts the actual and reactive power go with the flow, allowing for optimized electricity transmission and distribution.
Voltage Regulation:
The transformer enables voltage law by using adjusting the section courting between the number one and secondary voltages. This is particularly crucial in structures in which unique manipulate of voltage stages is required for solid and green operation.
Power Factor Correction:
Power component is a vital parameter in energy structures. The Phase-Shifting Rectifier Transformer can make a contribution to strength thing correction by way of adjusting the segment angle and aligning the modern and voltage waveforms. This allows enhance the general efficiency of the gadget.
Load Balancing:
In systems with unbalanced hundreds, the transformer may be used to stability the burden on distinctive stages, making sure a greater equitable distribution of electricity and reducing the risk of overloading on unique circuits.
Harmonic Control:
The transformer can assist mitigate harmonics generated by way of rectifiers within the device. By adjusting the phase angle, it affects the harmonic content within the output, contributing to a cleanser electricity waveform and minimizing distortion.
System Stability:
Controlled section transferring complements the steadiness of the energy device. It permits for higher control of energy waft at some stage in various load situations, contributing to the general balance and reliability of the electric grid.
Efficiency Optimization:
By adjusting the segment perspective, the Phase-Shifting Rectifier Transformer can optimize the efficiency of the rectifier machine. This is especially essential in programs where electricity efficiency is a essential consideration.
Reduction of Transmission Losses:
Through efficient energy float manage, the transformer helps lessen transmission losses within the electric grid. This is specifically useful in lengthy-distance power transmission in which minimizing losses is crucial.
Improved Control of Power System Parameters:
The Phase-Shifting Rectifier Transformer gives a means to dynamically manipulate key parameters consisting of voltage, modern, and energy issue. This adaptability is valuable for assembly converting operational requirements in diverse electric systems.
Enhanced Flexibility in Power System Operation:
The Phase-Shifting Rectifier Transformer provides flexibility to electricity device operation. It lets in for changes to house changes in load demand, varying power sources, and different dynamic conditions.

How does the load capacity of the phase-shifting rectifier transformer change under different working conditions?
The load capacity of a Phase-Shifting Rectifier Transformer can be stimulated by a variety of factors and can be traded under proprietary operating conditions. Load capacity is usually specified by the manufacturer based solely on specific operating conditions. The following are some factors that may affect the load capacity of a phase-shifting rectifier transformer:
Phase shift angle:
Load capacity can also vary with segment transfer angle. Different segmentation angles create a unique load situation that affects the transformer's ability to effectively handle the load.
temperature:
Transformers are sensitive to temperature changes. As ambient temperature increases, the transformer's load movement capability may also decrease. Increased temperature will affect the insulation life and normal performance of the transformer.
cooling system:
The type of cooling system used within a transformer affects its load capacity. If the cooling unit does not operate optimally, or the transformer does not always cool properly, its load-wearing capabilities may be reduced.
Rated voltage:
Operating a transformer above its specific voltage value may cause overloading. It is critical to ensure that the input and output voltages are within design limits to maintain the load capacity of the transformer.
Harmonics and Distortion:
High harmonics and distortion within the equipment will affect the load capacity of the transformer. Excessive harmonics generated by the rectifier may also increase losses and reduce efficiency.
System imbalance:
Unbalanced loads or unbalanced voltages in the system may cause uneven loading of the transformer stages. This imbalance affects the transformer's load potential and average overall performance.
Power factor:
Changes in energy issues, particularly large shifts to mains or lagging power, may affect the load capacity of the Phase-Shifting Rectifier Transformer. For optimal performance, power factor correction mechanisms may need to be considered.
Operation mode:
The range of load capabilities also depends on whether the transformer is operated in uninterrupted mode or intermittent mode. Some transformers are designed to handle short-term overloads, but prolonged operation at high temperatures hundreds of times may also affect their service life.
Maintenance and aging:
Factors such as the condition of the transformer, as well as insulation aging and overall renovation history, can affect load capacity. Regular maintenance is essential to ensure that the transformer maintains optimal performance during operation.
Control and regulation mechanisms:
The effectiveness of the control and legal mechanisms in a transformer can affect its ability to handle hundreds of situations. Carefully designed handling systems allow higher versions to adapt to changing load conditions.