Product Details
Parameter | Value |
---|
Material Composition | FeCuNbSiB |
Thickness (um) | 28~35 |
Saturation induction Bs (T) | 1.25 |
Curie temperature (oC) | 570oC |
Hardness Hv | 880 |
Crystalline temperature Tc (oC) | 500oC |
Saturation magnetostriction | 2×10-6 |
Initial permeability μi | ≥80000 |
Maximum permeability um | ≥500000 |
Density (g/cm³) | 7.2 |
Electrical resistivity (μΩ.cm) | 130 |
Lamination factor | ≥0.8 |
Operating Temperature Range | -50~120℃ |
Common Product Specifications
Specification | Details |
---|
Usage | Protective relaying, precise energy measurement |
Applications | High voltage substations, industrial panels |
Features | Versatility, cost efficiency, space saving |
Product Manufacturing Process
According to authoritative studies on the manufacturing of Multi Core Current Transformers, the process begins with precision alloy mixing followed by high-temperature annealing to achieve optimal magnetic properties. Each core is wound meticulously to ensure uniformity and performance consistency. Advanced quality checks are employed to verify each core's functionality. The final assembly incorporates state-of-the-art insulation techniques for enhanced durability, ensuring resistance to thermal and mechanical stresses. The conclusion drawn from the scholarly articles emphasizes that such a detailed and rigorous process is crucial to maintaining the high efficiency and reliability expected from these transformers in complex power system environments.
Product Application Scenarios
Multi Core Current Transformers are critical in modern power systems, serving diverse functions from metering to protection. According to research, their application spans across high voltage substations, industrial control panels, renewable energy setups, and advanced grid systems. The flexibility of these transformers allows them to seamlessly integrate into smart grids, providing real-time data for energy management and fault detection. In industrial scenarios, they enhance operational safety and efficiency by enabling precise energy monitoring and safeguarding against overloads. Thus, these transformers are pivotal in ensuring operational continuity and efficiency in today's dynamic power landscape.
Product After-Sales Service
Our factory offers comprehensive after-sales service for Multi Core Current Transformers, including technical support, troubleshooting, and maintenance guidelines. A dedicated customer service team is available to assist with any inquiries or issues.
Product Transportation
We ensure secure packaging and reliable shipping for our Multi Core Current Transformers to maintain quality during transit. Logistics partners are chosen based on their track record for timely and safe delivery.
Product Advantages
- High reliability with distinct calibration for multiple functions
- Cost-efficient by reducing the need for multiple devices
- Space-saving design suitable for dense installations
- Versatile application across various power sectors
- Enhances system complexity management by minimizing components
- Precision engineering ensures accurate measurements
- Durable and resistant to high-temperature environments
- Efficient power output and low energy loss
- Quick response to fault conditions enhances protection
- Environmental stability broadens application range
Product FAQ
- What is a Multi Core Current Transformer?Our factory's Multi Core Current Transformer is a device designed to measure alternating current by stepping down high voltage to a lower manageable value, enabling safe and efficient current monitoring.
- What makes it suitable for industrial applications?The design incorporates multiple cores, each calibrated for specific tasks such as metering and protection, enhancing operational reliability and efficiency in industrial settings.
- How does it contribute to cost savings?By consolidating various functions into a single unit, it reduces the need for multiple transformers, thereby lowering installation and maintenance costs.
- Can it withstand extreme temperature variations?Yes, our factory ensures these transformers operate effectively within a wide temperature range, achieving stability from -50℃ to 120℃.
- What is its primary advantage in power systems?Its versatile functionality, offering simultaneous metering and protection, makes it an invaluable asset in modern power systems.
- How does it improve accuracy?With distinct cores for different functions, it ensures precise and reliable readings, crucial for accurate energy management and billing.
- Is it easy to install?Yes, the compact and integrated design simplifies installation, requiring less space and fewer connections.
- How do value-added services enhance product use?Our comprehensive user support and technical guidance optimize installation, integration, and long-term use.
- What are the primary applications?They are used extensively in high voltage substations, industrial power control systems, and emerging smart grids.
- What testing ensures its performance?Each transformer undergoes rigorous quality testing, including electrical and mechanical stress tests, to certify its high performance and reliability.
Product Hot Topics
- The Evolution of Current Transformers in Modern Power SystemsWith the growing demands of smart grid technology, the factory-grade Multi Core Current Transformer has emerged as a crucial component. Its ability to efficiently handle both protective and metering functions within a single unit marks a significant evolution in power systems management. This efficiency is driving its adoption across various sectors, helping utilities and industrial setups optimize performance and reliability.
- Factory Insights: Designing for Efficiency and AccuracyThe design process of Multi Core Current Transformers at our factory is deeply rooted in achieving unmatched efficiency and accuracy. It involves integrating advanced materials and meticulous engineering to ensure that each core within the transformer functions optimally. This precision in design not only boosts reliability but also supports the cost-effectiveness of power system operations.
- Role of Multi Core Current Transformers in Renewable EnergyAs renewable energy solutions expand, Multi Core Current Transformers play an instrumental role in integrating these sources into existing power grids. Their multifunctional capability provides the necessary flexibility and precision required to handle the variable nature of renewable energy output, ensuring stable and efficient electricity distribution.
- Safety and Reliability in Power DistributionThe factory-grade Multi Core Current Transformer enhances safety in power distribution networks by swiftly responding to fault conditions. This quick action prevents equipment damage and promotes the stability of power systems, showcasing the transformer’s vital role in maintaining operational safety and reliability.
- Innovations in Multi Core Current Transformer TechnologyRecent innovations in Multi Core Current Transformer technology highlight increased adaptability and robustness. These developments are evident in our factory's products, which offer improved performance metrics such as higher permeability and lower core loss, ensuring they meet the latest industry standards and demands.
- Factory Approach to Sustainable ManufacturingOur factory prioritizes sustainability in the production of Multi Core Current Transformers, employing environmentally friendly methods and materials. This commitment not only reduces environmental impact but also ensures that our products contribute to more sustainable energy systems.
- Customer-Centric Solutions in Electrical IndustriesOur factory is dedicated to providing customer-centric solutions, tailored to meet specific needs in the electrical industry. This approach ensures that our Multi Core Current Transformers not only meet but exceed performance expectations, fostering long-lasting partnerships with our clients.
- Understanding the Limits of Transformer PerformanceUnderstanding the performance boundaries of Multi Core Current Transformers is crucial for optimal use. Our factory provides detailed specifications and guidance, enabling users to exploit the full potential of these devices in various applications.
- The Future of Power Systems with Multi Core Current TransformersThe future of power systems is set to heavily depend on Multi Core Current Transformers. With advancements in smart grid technology and an increasing emphasis on clean energy, these transformers’ role will become even more crucial in facilitating efficient and reliable power distribution.
- Adapting to Evolving Power DemandsOur factory's Multi Core Current Transformers are at the forefront of adapting to evolving power demands. As electricity consumption patterns change, these transformers ensure that the power systems remain resilient, efficient, and capable of meeting new challenges.
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