fadingfastsd
Electrical
- May 2, 2011
- 2
Hey guys, I'm new to the forum here, although I've browsed through it many times. A quick intro and then I'll get down to my question.
I'm a 28 year old Electrical Engineer by education (San Diego State University). I specialize in motorcycle electronic components, specifically charging system parts (stator/flywheel/CDI ignition/coils). I also do quite a bit of wiring harness design and other general automotive electrical consulting.
So, on to my question.
I am building some custom test equipment to bench test and profile power output of motorcycle stators, as well as stress test motorcycle voltage regulator/rectifier units.
The equipment is already assembled, however I am having trouble finding a suitable power plant. Motorcycle alternator systems consist of a 4-16 pole stator unit (depending on bike size and ignition configuration) & a permanent magnet flywheel. I need to drive the flywheel with accurate RPM control, ideally from 500 to 7000 RPM. If I use an AC motor, I know I need a 3 phase unit to give me adjustable RPM. My original design used a 1 horsepower 3 phase AC motor, driving roughly an 6" diameter sheave, with a v-belt connecting the driven shaft with roughly a 2" belt pitch sheave. The other end of this shaft held the flywheel. I used an Automation Direct GS2 series motor drive, which worked very well.
The motor controller (drive) took single phase 110VAC input, and provided 220VAC 3 phase output to drive the motor. Just spinning the flywheel on it's own, this worked very well, and provided accurate RPM control. However, to stress test these stators, I need to put a serious load on them to generate heat (usual failure mode - heat buildup in stator windings, causing short to ground or another winding at a spot of poor insulation). I do this by running through a large load box I have constructed. The load box contains a 3-phase input rectifier, followed by 2 large capacitors (to take the place of charging a battery on motorcycle). The stable DC output from the caps is then switched through various load resistors to allow up to 500Watts of power dissipation (calculated assuming 13VDC).
The issue I am having, is that a 1 horsepower motor cannot keep the flywheel spinning without bogging down severely as I put any sort of electrical load on the stator. Even with no electrical load, and the stator inside of the flywheel, the increased resistance of the magnetic field will limit RPM, and any load switched on and the motor bogs severely.
I would like to be able to generate a peak of about 35amps (@ 13VDC = 455Watts) from the stator, to really well stress the largest models I will need to test.
I believe I now need about a 6 horsepower motor to be able to drive the flywheel with a fully loaded stator engaged. My issue is...is this possible with the limitations I have available?
I have 110VAC & 220VAC Single Phase service available where I run the test equipment. From my research so far, it looks like most motor controllers with single phase input cap out at a 3 horsepower motor drive capability.
Are DC motors an option? To get down to the short of it, is it possible for me to drive a 6 horsepower electric motor with single phase 110V/220V service. I suppose I could swap out the breaker for this particular circuit for higher amperage (currently 15amp breakers).
Also, cost is somewhat of an issue. I could spend up to another $1000 if I absolutely have to for a new motor/drive setup.
Thanks so much for your help and input!
Motorcycle Electronics Consulting
I'm a 28 year old Electrical Engineer by education (San Diego State University). I specialize in motorcycle electronic components, specifically charging system parts (stator/flywheel/CDI ignition/coils). I also do quite a bit of wiring harness design and other general automotive electrical consulting.
So, on to my question.
I am building some custom test equipment to bench test and profile power output of motorcycle stators, as well as stress test motorcycle voltage regulator/rectifier units.
The equipment is already assembled, however I am having trouble finding a suitable power plant. Motorcycle alternator systems consist of a 4-16 pole stator unit (depending on bike size and ignition configuration) & a permanent magnet flywheel. I need to drive the flywheel with accurate RPM control, ideally from 500 to 7000 RPM. If I use an AC motor, I know I need a 3 phase unit to give me adjustable RPM. My original design used a 1 horsepower 3 phase AC motor, driving roughly an 6" diameter sheave, with a v-belt connecting the driven shaft with roughly a 2" belt pitch sheave. The other end of this shaft held the flywheel. I used an Automation Direct GS2 series motor drive, which worked very well.
The motor controller (drive) took single phase 110VAC input, and provided 220VAC 3 phase output to drive the motor. Just spinning the flywheel on it's own, this worked very well, and provided accurate RPM control. However, to stress test these stators, I need to put a serious load on them to generate heat (usual failure mode - heat buildup in stator windings, causing short to ground or another winding at a spot of poor insulation). I do this by running through a large load box I have constructed. The load box contains a 3-phase input rectifier, followed by 2 large capacitors (to take the place of charging a battery on motorcycle). The stable DC output from the caps is then switched through various load resistors to allow up to 500Watts of power dissipation (calculated assuming 13VDC).
The issue I am having, is that a 1 horsepower motor cannot keep the flywheel spinning without bogging down severely as I put any sort of electrical load on the stator. Even with no electrical load, and the stator inside of the flywheel, the increased resistance of the magnetic field will limit RPM, and any load switched on and the motor bogs severely.
I would like to be able to generate a peak of about 35amps (@ 13VDC = 455Watts) from the stator, to really well stress the largest models I will need to test.
I believe I now need about a 6 horsepower motor to be able to drive the flywheel with a fully loaded stator engaged. My issue is...is this possible with the limitations I have available?
I have 110VAC & 220VAC Single Phase service available where I run the test equipment. From my research so far, it looks like most motor controllers with single phase input cap out at a 3 horsepower motor drive capability.
Are DC motors an option? To get down to the short of it, is it possible for me to drive a 6 horsepower electric motor with single phase 110V/220V service. I suppose I could swap out the breaker for this particular circuit for higher amperage (currently 15amp breakers).
Also, cost is somewhat of an issue. I could spend up to another $1000 if I absolutely have to for a new motor/drive setup.
Thanks so much for your help and input!
Motorcycle Electronics Consulting
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