ONEREEL® Transformer Cut Core Bobbin is a component used in the construction of transformers, which are devices that transfer electrical energy between two or more circuits through electromagnetic induction. The term "rectangular" suggests a specific shape or design of the bobbin.
In transformer design, the bobbin is typically a plastic or insulating material framework that holds the primary and secondary windings of the transformer. It helps in organizing and supporting the windings in a specific configuration. The term "Rectangular Transformer Bobbin" could imply a bobbin with a rectangular shape, but without more context, it's challenging to provide specific details.
ONEREEL® Transformer Cut Core Bobbin Parameter (Specification)
EI lamination Specification sheet | |
Window Dimension | Length*Width*Height |
I Shape | |
EI28 | |
8*11 | 24.5*18.8*16.5 |
8*12 | 24.5*18.8*16.5 |
8*15 | 28.5*19.2*16.5 |
8*18 | 31.0*19.3*16.5 |
EI35 | |
10*10 | 25.5*23.3*18.9 |
10*13 | 27.5*23.7*18.9 |
10*14 | 27.5*23.7*18.9 |
ONEREEL® Transformer Cut Core Bobbin Details
1.Plastic: Plastic is a common material for transformer bobbins due to its lightweight, cost-effectiveness, and electrical insulation properties. Common plastic materials include Nylon and Polypropylene.
2.Magnetic Materials: In some applications, bobbin materials may include magnetic materials to enhance transformer performance
ONEREEL® Transformer Cut Core Bobbin Feature and Application
1.Shape: The term "Rectangular" indicates that the bobbin has a rectangular shape, possibly for specific installation and stacking requirements in applications.
2.Support Structure: As a support structure for coils, it needs to offer sufficient stability and mechanical strength to ensure the transformer's stable operation.
3.Electrical Insulation: Transformer bobbins are typically made from electrically insulating materials to prevent electrical short circuits, providing electrical insulation performance.
4.Temperature Stability: The material of the bobbin needs to have good temperature stability to withstand the heat generated during transformer operation, preventing failures or damage.