Axial Flux Coreless Generator 100kw 300rpm Permanent Magnet Alternator
Our disc coreless PMG have advantage in low Rated speed, Low starting wind speed, Small volume, Energy Small, Light weight, Compact structure,High efficiency etc.
Serial number | Parameter | Unit | Data |
1 | Rated power | Kilowatt | 100 |
2 | Rated rotational speed | RPM | 300 |
3 | Rated voltage | V | 400VAC |
4 | Rated current | A | 250 |
6 | Efficiency | >92% | |
7 | Resistance (wire-wire) | Ω | |
8 | Winding form | Y | |
9 | Insulation resistance | 1 Min/1760VACentigrade | |
10 | Leakage level | <20Master of Arts | |
11 | Starting torque | N/M | <1.0 |
12 | Rated torque | N/M | 3166 |
13 | Phase number | Three-phase | |
14 | Organization | Outer rotor | |
15 | Stator | Empty core coil | |
16 | Rotor | Rare earth permanent magnet | |
17 | The pole number | Utmost point | 48 |
18 | External diameter of the generator | Mm | 1100 |
19 | Length of generator | Mm | 250 |
20 | Generator weight | Kilogram | 500 |
21 | Shaft diameter | Mm | 120 |
22 | Length of shaft | Mm | 300 |
23 | Shell material | Carbon steel | |
24 | Shaft material | Carbon steel |


An axial flux generator is a type of electric generator that uses a geometry where the magnetic flux between the rotor and stator is aligned parallel to the axis of rotation, rather than radially as in conventional generators.
Some of the advantages of axial flux generators are:
• They have a compact structure, especially short axial sizes, which can reduce the weight and size of the generator.
• They have a high torque density and high power density, which means they can produce more torque and power per unit volume than conventional generators.
• They have a small end-winding, which reduces the copper losses and improves the efficiency of the generator.
• They have an excellent cooling performance, because the air gap between the rotor and stator is large and allows for better heat dissipation.
• They can be easily integrated with other components, such as printed circuit boards, and use rectangular copper strips for the windings, which simplifies the manufacturing process.
• They can operate at low speeds and generate useful voltages, which makes them suitable for applications such as wind turbines and tidal current power generation.






