Parameter | Specification |
---|---|
Material Composition | FeCuNbSiB |
Thickness (um) | 28~35 |
Saturation induction Bs (T) | 1.25 |
Curie temperature (oC) | 570 |
Hardness Hv | 880 |
Model | Dimensions (cm) | Weight (g) |
---|---|---|
JJ-1005-W01W | 9.8*6.5*4.5 | 56 |
JJ-1205-W01W | 12*8*4.5 | 212 |
The production of Core Type and Shell Type Transformers involves several key steps, including the precise layering of silicon steel sheets, meticulous winding of coils, and advanced lamination techniques. According to industry standards, these processes are optimized to minimize eddy current losses and enhance magnetic flux linkage, ensuring high efficiency and durability. This precision-driven manufacturing is documented in recent academic papers, highlighting improvements in thermal performance and electromagnetic compatibility in transformer cores.
The Core Type and Shell Type Transformers are crucial in high-frequency applications such as communication power supplies, medical equipment, and renewable energy systems like solar inverters. According to the latest research, these transformers offer enhanced performance and reduced energy losses, making them indispensable in modern power distribution networks. Their robust design and advanced materials ensure reliability and efficiency in challenging environments.
We offer comprehensive after-sales support for all our transformer products. This includes technical assistance, warranty services, and replacement options to ensure long-term customer satisfaction and product reliability.
Our transformers are securely packaged for shipment, ensuring safe and efficient transportation worldwide. We collaborate with leading logistics providers to guarantee timely delivery and handling of large-scale orders effectively.
Core Type Transformers are generally more efficient in high-voltage applications due to their simpler construction and superior cooling capabilities. Conversely, Shell Type Transformers offer better short-circuit strength and are typically used in low-voltage applications because of their compactness and ruggedness. Both types provide distinct advantages depending on the application requirements.
Our factory employs rigorous quality control processes at every manufacturing stage. This includes material testing, precise measurements, and performance evaluations to ensure each transformer meets the highest standards of efficiency and reliability.
The debate between Core Type and Shell Type Transformers often centers around application suitability. Core Types are preferred for high-voltage environments due to their efficiency and simpler cooling methods. Shell Types, however, excel in low-voltage scenarios where compactness and structural robustness are crucial. The best choice ultimately depends on the specific needs of the application and operating environment, making both types valuable in different contexts.
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