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CnC Tech |
MW35-C HY 14AWG 3KG MAX/V 4500 |
0 |
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MW35-C HY 22AWG 15KG MAX/V 3600 |
0 |
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MW35-C HY 26AWG 15KG MAX/V 3300 |
0 |
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MW35-C HY 32AWG 15KG MAX/V 2600 |
0 |
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MW35-C HY 20AWG 15KG MAX/V 3800 |
1 |
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MW-28C SL 22AWG 1KG MAX/V 2000 |
12 |
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MW35-C HY 30AWG 15KG MAX/V 3000 |
0 |
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MW-28C SL 20AWG 1KG MAX/V 2000 |
17 |
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MW35-C HY 16AWG 15KG MAX/V 4000 |
1 |
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MW35-C HY 28AWG 15KG MAX/V 3200 |
0 |
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MW35-C HY 24AWG 15KG MAX/V 3500 |
0 |
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CnC Tech |
MW35-C HY 18AWG 15KG MAX/V 3900 |
1 |
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CnC Tech |
MW35-C HY 14AWG 15KG MAX/V 4500 |
0 |
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MW35-C HY 34AWG 15KG MAX/V 2500 |
0 |
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MW35-C HY 37AWG 30KG/66.1LBS |
0 |
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MW35-C HY 12AWG 30KG/66.1LBS |
0 |
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CnC Tech |
MW35-C HY 38AWG 30KG/66.1LBS |
0 |
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Magnetic wire, also known as winding wire, is a critical component in electromagnetic devices such as transformers and inductors. It consists of a conductive core (typically copper or aluminum) insulated by a thin polymer coating. Its primary function is to convert electrical energy into magnetic energy and vice versa, enabling voltage transformation, current regulation, and energy storage. With the rapid development of power electronics, renewable energy systems, and electric vehicles, magnetic wire has become indispensable in modern electrical and electronic systems.
| Type | Functional Characteristics | Application Examples |
|---|---|---|
| Enameled Wire | Thin enamel insulation, high thermal conductivity, excellent dielectric strength | High-frequency transformers, motors, inductors |
| Film-insulated Wire | Polyester or polyimide film wrapping, enhanced mechanical protection | High-reliability aerospace systems, medical devices |
| Silk-wrapped Wire | Natural silk fiber insulation, flexible for manual winding | Vintage audio equipment, specialized audio transformers |
| Self-bonding Wire | Adhesive coating enables coil self-support without bobbins | Compact inductors, wireless charging coils |
A typical magnetic wire comprises three key layers:
The cross-sectional diameter ranges from 0.02mm (magnet wire in micro-inductors) to 5.0mm (heavy-duty transformer windings).
| Parameter | Description | Importance |
|---|---|---|
| Wire Gauge (AWG/mm ) | Defines current-carrying capacity and resistance | Determines thermal performance and voltage drop |
| Temperature Class | Thermal endurance rating (130 C to 220 C) | Dictates operational lifespan in high-temperature environments |
| Dielectric Strength | Voltage withstand capability (kV/mm) | Ensures electrical safety and insulation reliability |
| Thermal Index | Resistance to thermal aging | Impacts long-term stability in power electronics |
Case Study: In electric vehicles, 400V-class magnetic wires with Class 180 thermal rating enable compact traction motor designs achieving >95% efficiency.
| Manufacturer | Headquarters | Representative Product |
|---|---|---|
| Essex Furukawa | USA | ECW-180 (High-temperature enameled wire) |
| Leoni AG | Germany | AIWIRE (Automotive isolation wire) |
| Sumitomo Electric | Japan | PEEK-insulated wire for hybrid vehicles |
Market forecasts predict 6.2% CAGR through 2030 driven by renewable energy integration and electrified transportation demands.