| Place of Origin: | China |
|---|---|
| Brand Name: | Rvyuan |
| Certification: | IEC/NEMA/JIS/RoHS/ISO |
| Model Number: | Copper litz wire |
| Minimum Order Quantity: | 10kg |
| Price: | Negotiation |
| Packaging Details: | Spool with carton |
| Delivery Time: | 2-15 workding days |
| Payment Terms: | Negotiation |
| Supply Ability: | Satisfy your demand |
| Name: | Customized 0.07mm X 200 High Frequency Copper Litz WireUL Certified Class H Insulated Copper Stranded Wire Litz Wire | Certification: | ISO9001/ISO14001/UL/SGS |
|---|---|---|---|
| Diameter: | 0.07mm | Conductor: | Copper |
| Insulation: | Enamel | Rated Temperature: | 155 |
| Key Word: | UL Certified Class H Insulated Copper Stranded Wire Litz Wire | No. Of Strands: | 200 |
| Highlight: | Class H Litz Wire,Insulated Copper Stranded Wire,UL Certified Litz Wire |
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UL Certified Class H Insulated Copper Stranded Wire Litz Wire
Litz wire has many applications in the field of signal transmission. Due to its special structure and design, Litz wire can effectively reduce the uneven current density of AC current inside the wire, thereby improving high-frequency signal transmission performance.
The following are some of the main applications of Litz wire in the field of signal transmission:
Wireless communications: Litz wire is often used to make wireless communications antennas, especially in applications that require processing of high-frequency signals and microwave signals. The selection of its structure and materials ensures even distribution of high-frequency signals inside the wire, thereby improving the performance and transmission efficiency of the antenna.
Electromagnetic field detection: In the field of electromagnetic field detection, Litz wire is also widely used in the production of receiving coils and sensors, which can improve the sensitivity and accuracy of receiving electromagnetic signals.
High-frequency signal transmission: Litz wire is also used in high-frequency signal transmission lines. Its design can reduce skin effect and current concentration, thereby reducing signal loss and distortion, and improving the quality and stability of signal transmission.
