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Litz Wire Types & Applications - Metalitz

Litz wire is a highly specialized type of cable designed for use in high-frequency applications.Litz wire, vital for high-frequency applications. It minimizes losses caused by the skin effect and proximity effect, which occur when alternating currents are present at high frequencies. Made from individually insulated copper strands twisted or braided together, Litz wire is manufactured in various shapes and sizes to meet industry-specific demands such as inductive coils, wireless charging systems, and power supply circuits. Additionally, customized insulation can be provided based on environmental, thermal, and electrical requirements. Litz Wire is classified into eight types: Type 1 (simple twisted), Type 2 (grouped twisted), Type 3 (multiple grouped twisted), Type 4 (braided), Type 5 (grouped braided), Type 6 (multiple grouped braided), Type 7 (insulated strands), and Type 8 (custom configurations). Each type enhances performance in specific applications.

Simple Twisted (Type 1)

Type 1 Litz wire is the simplest and most commonly used variety in applications where reducing losses is a priority. This design involves individually insulated strands twisted together, offering better current distribution and reducing resistance at higher frequencies.

Construction

  • Strands: The number of strands is determined based on the current capacity and frequency.
  • Standard Insulation: Typically insulated with enamel, but materials like silk or polyurethane can also be used.
  • Customized Insulation: Depending on specific requirements, insulation materials like PTFE, nylon, or polyester can be added for enhanced durability and performance.
  • Applications: Ideal for use in small transformers, RF inductors, and other high-frequency AC applications.
Type-1 Litz Wire

Grouped Twisted (Type 2 )

Type 2 Litz wire improves upon Type 1 by grouping multiple twisted strands together, making it more suitable for higher frequencies. This construction minimizes the skin effect and proximity effect more effectively, offering higher efficiency.

Construction

  • Construction: Bundles of twisted Type 1 strands are further twisted together for better surface area and current distribution.
  • Strands: Made up of individually insulated strands that are grouped for high-frequency use.
  • Standard Insulation: Common materials like enamel or polyurethane.
  • Customized Insulation: Insulation options like silk, textile yarn, or extruded compounds can be added for additional mechanical or thermal protection.
  • Applications: Frequently used in power inductors and high-frequency transformers.
Type-2 Litz Wire

Multi Grouped Twisted (Type 3)

Type 3 Litz wire is more complex, suitable for high-power and high-frequency applications. It offers a more refined design to reduce AC losses in systems like motors and power inductors.

Construction

  • Construction: Multiple Type 2 bundles are twisted together in a hierarchical arrangement for enhanced performance.
  • Strands: Each strand is individually insulated, improving current distribution and reducing overall resistance.
  • Standard Insulation: Typically insulated with polyurethane or polyimide.
  • Customized Insulation: For high-temperature applications, PTFE, polyester, or silk insulation can be used.
  • Applications: Commonly used in high-frequency motors, inductors, and RF circuits where power loss reduction is essential.
Type-3 Litz Wire

Braided (Type 4)

Type 4 Litz wire handles extremely high frequencies and is optimized for current-carrying capacity. It is widely used in applications where efficiency at high frequencies is crucial.

Construction

  • Construction: It consists of multiple twisted Type 3 bundles, providing optimal performance.
  • Strands: Insulated strands ensure maximum efficiency at high frequencies.
  • Standard Insulation: Materials like PTFE, polyimide, or polyurethane are used to provide strong thermal and electrical insulation.
  • Customized Insulation: Can be upgraded with extruded compounds or yarn for better performance in challenging environments.
  • Applications: Ideal for RF transformers, power inverters, and wireless charging systems.
Type-4 Litz Wire

Group Braided (Type 5)

Type 5 Litz wire is designed with a central fiber core for added mechanical strength. It is often used in heavy-duty applications, such as in the aerospace and automotive sectors, where structural durability is critical.

Construction

  • Construction: Bundles of Type 2 Litz wire are twisted around a fiber core, offering increased mechanical integrity.
  • Strands: The core supports the structure, ensuring stability.
  • Standard Insulation: Textile yarn, tape, or extruded compounds can be used for outer insulation.
  • Customized Insulation: Nylon, polyester, or PTFE insulation can be provided for enhanced performance in harsh conditions.
  • Applications: Used in automotive systems, aerospace components, and high-frequency transformers.
Type-5 Litz Wire

Multi-Grouped Braided (Type 6)

Type 6 Litz wire combines the high-frequency efficiency of Type 4 with the structural benefits of a fiber core. It’s designed for use in environments where space constraints are significant.

Construction

  • Construction: Bundles of Type 4 wires are twisted around a central core, creating a round geometry.
    Strands: Highly flexible with the ability to carry large currents in compact spaces.
  • Standard Insulation: Options include nylon, polyester, or PTFE for added mechanical protection.
  • Customized Insulation: Insulation materials like polyimide or silk can be added based on the environmental conditions.
  • Applications: Ideal for wireless power transfer, wireless charging, and other compact, high-frequency systems.
Type-6 Litz Wire

Insulated Strands (Type 7)

Type 7 Litz wire has a unique rectangular profile, making it perfect for applications where efficient use of space is critical. This wire is commonly used in grounding and specialized inductor designs.

Construction

  • Construction: Braided, film-insulated magnet wire, formed into a rectangular shape.
  • Strands: Provides a high aspect ratio with a lower copper fill factor, typically between 45% and 55%.
  • Standard Insulation: Textile yarn or extruded compounds for added protection.
  • Customized Insulation: Additional materials like tape, PTFE, or polyimide can be chosen based on space, heat, and mechanical requirements.
  • Applications: Widely used in grounding applications and high-frequency systems where space is a limiting factor.
Type-7 Litz Wire

Customized Specification Type 8

Type 8 Litz wire is designed for high-frequency applications that require a compact form factor and excellent copper density. It’s ideal for use in applications with space constraints, such as medical devices and power supplies.

Construction

  • Construction: Strands are twisted and compressed into a rectangular or oval profile, maximizing copper density.
  • Strands: Copper density ranges between 60% to 75%, providing high-efficiency current flow.
  • Standard Insulation: Textile yarn, tape, or extruded compounds provide protection from environmental factors.
  • Customized Insulation: Polyimide, PTFE, or silk can be added to meet high-performance and specific environmental demands.
  • Applications: Commonly used in high-frequency medical devices, power supplies, and space-constrained systems.
Type-8 Litz Wire

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