1KW 1000RPM Low Torque Axial Flux Coreless Generator Permanent Magnet PMG
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.
1. Coreless, anhysteresis, slotless, have low starting torque.
2. No iron loss, have high efficiency
3. Adopt unique coreless precision winding technology design precision coil
4. Adopt the rare earth permanent magnet, which is multipole, mean gap, high power density and high output power.
5. Low speed direct driving, no torque fluctuations
6. Compact structure, high ratio of power to volume
7. No iron loss, low calorific value,small temperature rise
8. Simple structure, easy to install
9. The brushless structure, free maintenance
10. Suitable for vertical axis wind turbine; gasoline generators; hydroelectric generator
NO. |
PARAMETER |
UNITS |
DATA |
1 |
Rated power |
W |
1000 |
2 |
Rated speed |
RPM |
1000 |
3 |
Rated voltage |
V |
48V |
4 |
Rated Current |
Amp |
20A |
5 |
Rated torque |
NM |
9.5NM |
6 |
Efficiency |
|
>95% |
7 |
Resistance (Line-Line) |
|
- |
8 |
Winding type |
|
Y |
9 |
Insulation Resistance |
|
100Mohm Min(500V DC) |
10 |
Leakage level |
|
<5 ma |
11 |
Start torque |
N/M |
<0.1 |
12 |
Phase |
|
Three phase |
13 |
Structure |
|
Inner rotor |
14 |
Stator |
|
coreless |
15 |
Rotor |
|
Permanent magnet type (outer rotor) |
16 |
Gen. Diameter |
mm |
210 |
17 |
Gen. Length |
mm |
114 |
18 |
Gen. Weight |
kg |
7.5 |
19 |
Shaft. Diameter |
mm |
30 |
20 |
Housing Material |
|
Aluminum ( Alloy ) |
21 |
Shaft Material |
|
Steel |
Power Curve
Drawing
Our Advantage
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.
1. What kind of region can be installed wind turbine?
Small wind turbines should be applied in the regions which wind resources is sufficient. The annual average wind speed should be
more than 3m/s, the effective wind speed 3-20m/s should be more than 3000h in accumulation per year. The density of 3-20m/s
effectively average wind power should be more than 100W/m2.
It should be noted that choosing the rated design speed wind turbine is in conformity with local design speed. It is significantly
in making use of wind resources and in economic aspect. Wind tunnel test proves that the fan power transformation of the impeller
in the direct ratio with wind speed, that is to say, the wind speed decide the output electrical power.
2. How to calculate the actual need power in my home to configure the appropriate power of wind turbines?
At present, battery stores the power from the wind turbine, then discharge to home appliances. So the power which discharged to
the load and be charged timely by wind turbine is the amount of the actual needs power.
Take an example: the rated output power from wind turbine generator is 100W per hour, the continuous workable hours by wind is 4
hours. The battery can be charged total capacity is 400WH. For only about 70% power from battery can be discharged to the load, so
the actual power which can be used from battery is 280WH.
If there are:
1) Bulb15W x 2 Pieces, working 4 hours one day, consumption 120WH
2) TV 35W x 1 set, working 3 hours one day, consumption 105WH
3) Radio 15W x 1 Piece, working 4 hours one day, consumption 60WH
Above total consumption is 285WH per day. If you only design to install 100W wind turbine generator, the consumption total power
will more than the power from wind turbine generator. In long period of time using power from 100W wind turbine generator, it will
make the battery serious loss of electricity and damaged, and it will cut down your battery service life.
It is assumed that wind turbine at rated wind power generation and energy consumption, but in fact, due to the variability of the
wind, intermittent, there are strong and weak wind different (wind speed) and wind blow in long time and short time
different(frequency). So you should cut down even cut off some electrical application working time when the wind condition is in
poor to protect your battery. If your budget is enough, it will be better to install a diesel generator set or install solar
panels at the same time.
3. How to select the correct battery capacity to get power from wind turbine generator?
Generally, the battery capacity should be equal or smaller than the power from wind turbine generator.
1) 100W wind turbine generator matches 120AH battery (60AH x 2 Pieces)
2) 200W wind turbine generator matches 120-180AH battery (60 OR 90AH x 2 Pieces)
3) 300W wind turbine generator matches 240AH battery (120AH x 2 Pieces)
4) 750W wind turbine generator matches 240AH battery (120AH x 2 Pieces)
5) 1000W wind turbine generator matches 360AH battery (60AH x 3 Pieces)