Are you curious about the best phase transformer two windings factories in China? With the growing demand for reliable energy solutions, choosing the right manufacturer can make all the difference. In this article, we’ll explore the top three factories, highlighting their unique strengths and innovations. Understanding these options not only helps you make informed decisions but also ensures you invest in quality and efficiency. Ready to discover which factories stand out in the competitive landscape? Let’s dive in and find the perfect partner for your transformer needs!

Three-Phase Transformer (Two Windings) – MathWorks

Product Details: Three-phase transformer with configurable winding connections, implemented using three single-phase transformers.

Technical Parameters:
– Nominal power rating: [250e6, 60] VA, Hz
– Winding connections: Y, Yn, Yg, Delta (D1), Delta (D11)

Application Scenarios:
– Used in utility grids for large power transformers.
– Simulating transformer behavior under various loading conditions.

Pros:
– Configurable winding connections for flexibility in applications.
– Ability to simulate saturation and hysteresis effects.

Cons:
– Complexity in setup and configuration.
– Potential numerical oscillations in simulations if not properly configured.

Three-Phase OLTC Regulating Transformer (Phasor Type) – MathWorks

Two-Winding Transformer (Three-Phase) – MathWorks

Product Details: Two-Winding Transformer (Three-Phase) is a linear nonideal transformer that transfers electrical energy between circuits through electromagnetic induction, with configurable winding types and core options.

Technical Parameters:
– Rated apparent power: 100e6 (default)
– Rated electrical frequency: 60 (default)

Application Scenarios:
– Used in electrical systems for energy transfer between circuits.
– Applicable in modeling and simulation of three-phase electrical systems.

Pros:
– Configurable winding types (Wye and Delta) for flexibility.
– Lower impedance and greater heat dissipation with five-limb core.

Cons:
– Three-limb core may be less efficient for unbalanced loads.
– Complexity in parameterization may require advanced knowledge.

【变压器】三相双绕组变压器分析（simulink仿真实现）-爱代码爱编程

Product Details: 三相双绕组变压器是一种用于改变交流电压的电气设备，主要用于电力系统。

Technical Parameters:
– 额定容量（VA或kVA）
– 额定电压（一次和二次）

Application Scenarios:
– 电力传输
– 电气设备供电

Pros:
– 能够有效改变电压水平
– 适用于多种电力系统

Cons:
– 存在铜损和铁损
– 需要合理设计绝缘和冷却系统

Three-Phase Three-Limb (Core-Type) Two-Winding Transformer

Product Details: Three-Phase Three-Limb (Core-Type) Two-Winding Transformer

Technical Parameters:
– 300 MVA, 315 kV/25 kV
– Zero-sequence inductance typically between 0.5 pu and 2 pu

Application Scenarios:
– Used in power systems for voltage transformation
– Applicable in scenarios with asymmetrical voltage conditions

Pros:
– Efficient in handling asymmetrical voltage conditions
– Low zero-sequence inductance improves performance

Cons:
– Low zero-sequence inductance may affect voltage and current imbalances
– Requires careful design to manage saturation effects

PDF

Product Details: Three Phase Transformer modeled in MATLAB/Simulink for dynamic analysis.

Technical Parameters:
– Utilizes three single phase transformers
– Converts voltages to αβ reference frame for analysis

Application Scenarios:
– Dynamic modeling of transformers in electrical engineering
– Simulation of multiphase transformer systems

Pros:
– Flexibility for any multiphase transformer design
– Satisfactory results under steady state conditions

Cons:
– Core loss neglected in the model
– Assumes symmetrical nature of transformers

PDF

Product Details: Phase-Shifting Transformer designed for harmonic mitigation in three-phase induction motor systems.

Technical Parameters:
– Phase-shifting configurations: 30°, 20°, 15°, 12°, 10°
– Simulation software: Simulink Matlab

Application Scenarios:
– Industrial applications with variable speed drives (VSDs)
– Systems requiring harmonic reduction in electrical power

Pros:
– Reduces electrical energy consumption
– Mitigates source current harmonics effectively

Cons:
– Complexity in design and implementation
– Potential high costs associated with multiple transformers

Three-Phase Tap-Changing Transformer (Two-Windings) – MathWorks

Product Details: Three-Phase Tap-Changing Transformer (Two Windings) block models a three-phase, tap-changing transformer with two windings. Winding 1 is connected in wye, and Winding 2 can be connected in wye or delta.

Technical Parameters:
– Nominal power rating: [47e6 VA, 60 Hz] – Voltage step per tap: 0.015 pu

Application Scenarios:
– Used in power systems for voltage regulation.
– Applicable in utility grids for large power transformers.

Pros:
– Robust discrete solver for accurate simulation.
– Flexible tap control modes for various applications.

Cons:
– Requires specific settings for optimal performance.
– Complexity in configuration may be challenging for beginners.

Three-Phase Transformer (Three Windings) – MathWorks

Product Details: Three-phase transformer with configurable winding connections, implemented using three single-phase transformers with three windings.

Technical Parameters:
– Nominal power rating: [250e6, 60] VA, Hz
– Winding parameters: [735e3, 0.002, 0.08] for winding 1, [315e3, 0.002, 0.08] for…

Application Scenarios:
– Utility grids for large power transformers
– Simulating electrical systems with varying transformer configurations

Pros:
– Configurable winding connections for flexibility
– Ability to simulate saturation and hysteresis effects

Cons:
– Complexity in setup for specific configurations
– Potential numerical oscillations in certain simulation conditions

Three-Phase Transformer (Two Windings) – MathWorks

Product Details: Three-phase transformer with configurable winding connections using three single-phase transformers.

Technical Parameters:
– Nominal power rating: [250e6, 60] VA, Hz
– Winding connections: Y, Yn, Yg, Delta (D1), Delta (D11)

Application Scenarios:
– Modeling large power transformers in utility grids.
– Simulating transformer behavior under various loading conditions.

Pros:
– Configurable winding connections for flexibility.
– Ability to simulate saturation and hysteresis effects.

Cons:
– Complexity in setup for specific configurations.
– Potential numerical oscillations in certain simulation methods.

Related Video

Comparison Table

Frequently Asked Questions (FAQs)

What is a three-phase transformer with two windings?

A three-phase transformer with two windings is a device that transfers electrical energy between two circuits through electromagnetic induction. It consists of primary and secondary windings, allowing for voltage transformation and efficient power distribution in industrial applications.

How do I choose the right three-phase transformer for my needs?

To choose the right transformer, consider factors like voltage ratings, power capacity, frequency, and application requirements. It’s essential to assess your load demands and consult with manufacturers to ensure you select a transformer that meets your specific needs.

What are the advantages of using a three-phase transformer?

Three-phase transformers offer several advantages, including higher efficiency, reduced losses, and better voltage regulation compared to single-phase transformers. They also provide a more balanced load, which is crucial for industrial applications and large power systems.

Are three-phase transformers easy to maintain?

Yes, three-phase transformers are generally easy to maintain. Regular inspections, cleaning, and monitoring of temperature and oil levels can help ensure optimal performance. Following the manufacturer’s maintenance guidelines will prolong the transformer’s lifespan and reliability.

Where can I find reliable manufacturers of three-phase transformers in China?

You can find reliable manufacturers by researching online directories, industry trade shows, and customer reviews. Networking with industry professionals and seeking recommendations can also lead you to reputable factories that produce high-quality three-phase transformers.