Toroidal Core Material: Low Iron Loss, High Magnetic Performance Silicon Steel

Product Introduction

Material:
The product is made from high-quality cold-rolled grain-oriented silicon steel with thickness options of 0.2mm, 0.23mm, 0.27mm, 0.3mm, and 0.35mm, offering low iron loss and high magnetic permeability.

Features:

• The material features a closed-loop magnetic circuit due to its paramagnetic ring structure, ensuring no magnetic leakage and optimal magnetic performance.
• Manufactured using high-precision slitting machines and winding equipment, the product has minimal burrs (≤0.02mm) and a high stacking factor.
• Vacuum annealing under 99.99% ultra-pure nitrogen gas protection further enhances the product's performance to meet stringent quality standards.

Performance:
Customizable material options are available to meet diverse customer quality requirements.

Applications:
This material is ideal for:

• Transformer Cores: Used in high-efficiency power and distribution transformers to minimize energy loss and maximize performance.
• High-Performance Inductors: Suitable for precision electromagnetic devices requiring excellent magnetic properties.
• Electric Motors: Employed in motor cores to enhance efficiency and reduce operational losses.
• Other Electromagnetic Equipment: Widely applicable in power generation, industrial equipment, and specialized high-efficiency magnetic systems.

1. 
   Translation: Laminated Core Voltage Transformer Core

2. 
   Translation: Capacitive Voltage Transformer Core

Differences

1. Laminated Core Voltage Transformer Core ()

   • Structure: This type of core is made by stacking thin sheets of electrical steel, typically cold-rolled silicon steel, with insulating layers between them. The laminated structure helps reduce eddy current losses and improves the overall efficiency of the voltage transformer.
   • Applications: Commonly used in traditional electromagnetic voltage transformers where accurate voltage measurement and isolation are required in power systems. The core's lamination ensures low core losses, especially at high frequencies, making it suitable for standard voltage measurement and protection in power networks.

2. Capacitive Voltage Transformer Core ()

   • Structure: This type of core is part of a capacitive voltage transformer (CVT), which operates based on the principle of capacitance rather than a laminated iron core. The core might not necessarily be a traditional iron core and often involves capacitive dividers.
   • Applications: Used in capacitive voltage transformers that are designed for high-voltage applications, especially in electrical substations where space and weight are limited. CVTs are preferred in some systems for their compact design and ability to handle high-voltage measurements efficiently, especially in AC power systems.

Summary of Differences

• Laminated cores () are used in traditional electromagnetic voltage transformers and are constructed using iron laminations to reduce losses, ideal for standard voltage measurement applications.
• Capacitive cores () are part of capacitive voltage transformers, which rely on capacitive dividers rather than a traditional iron core to measure high voltages in a more compact and efficient way, especially for high-voltage applications in substations.