Oscillating sine wave LC tank magnet motor.

MarkE · August 24, 2015, 10:23:16 AM

Quote from: synchro1 on August 24, 2015, 10:09:57 AM
The "Keppe Motor" can run as an A.C. synchronous, or D.C. pulse motor. Keppe has reported the same reduction of input under load as Gotoluc. Luc grabs ahold of the rotor axle untill it starts to slip, and measures a drop in input.

The slowed rotating magnets are forced to do work to try and catch up with the A.C. frequency. The permanent magnet's field is actually strengthened from the quantum plane to help the rotation get back in synchronicity with the A.C. frequency. When Luc squeezes the axle and causes the magnet rotor to begin to "Slip", the magnets really start growing stronger to help catch back up to the input frequency from the atomic level. This results in the reduction in input, and amounts to "Free energy".

The Keppe fan motor is an electronically commutated DC motor. It will not run as a synchronous AC motor.

synchro1 · August 24, 2015, 10:50:43 AM

@MarkE,

Unique Features of the Keppe Motor:

•Automatic dual voltage: can run on either 110 V or 220 V, or 50 Hz or 60 Hz, with no customer settings required, making it universal.

•Can run on AC or DC, making the switch back to DC more achievable.

•The Keppe Motor runs barely 5º C above ambient, whereas conventional motors run as much as 20-60º C above ambient.

MarkE · August 24, 2015, 11:12:14 AM

Quote from: synchro1 on August 24, 2015, 10:50:43 AM
@MarkE,

Your block diagram above stretched the page! Please delete it.

The picture is 1262 pixels wide.

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Unique Features of the Keppe Motor:

•Automatic dual voltage: can run on either 110 V or 220 V, or 50 Hz or 60 Hz, with no customer settings required, making it universal.

That is not at all unique. The schematics of the Keppe motor I reviewed would not even safely run on 110V. 220V would cause the electronics to catch fire. I made specific recommendations for safety changes that they may have later incorporated.

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•Can run on AC or DC, making the switch back to DC more achievable.

That's because there is a full-wave bridge rectifier and filter capacitor. DC input simply means current only ever runs through two of the four diodes in the full-wave bridge. The rectification and filtering means that it cannot run as an AC synchronous motor.

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•The Keppe Motor runs barely 5º C above ambient, whereas conventional motors run as much as 20-60º C above ambient.

Anyone can make a motor run cool simply by oversizing as Keppe do. What matters is how much power the motor wastes. In the schematic above, Keppe ineptly get their low power setting with a wasteful power dropping resistor, when a simple multivibrator could have been used to chop current.

synchro1 · August 24, 2015, 12:29:07 PM

@MarkE,

I didn't say that the Keppe Motor was an A.C. synchronous motor. I merely restated what Keppe says; That "the motor can run as one" either on 110 V or 220 V, or 50 Hz or 60 Hz. Keppe also maintains that the motor draws less input under load, like Gotoluc's A.C. synchronous job. I'm suggesting a common factor that involves a strengthening of magnet force from slip lag to account for the seperate but similar effects.

MarkE · August 24, 2015, 01:51:38 PM

Quote from: synchro1 on August 24, 2015, 12:29:07 PM
@MarkE,

I didn't say that the Keppe Motor was an A.C. synchronous motor. I merely restated what Keppe says; That "the motor can run as one" either on 110 V or 220 V, or 50 Hz or 60 Hz.

Keppe are FOS. They make a number of false claims such as resonant operation that does not occur. It is like all their utter BS about "disinverted physics". You didn't know better. OK, now you do know better.

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Keppe also maintains that the motor draws less input under load, like Gotoluc's A.C. synchronous job. I'm suggesting a common factor that involves a strengthening of magnet force from slip lag to account for the seperate but similar effects.

Well, the problem there is that Keppe compare their poorly designed, electronically commutated motor against extremely inefficient shaded pole AC motors. A fair comparison is against other DC motors, such as DC BLMs. Keppe do not want to make such comparisons because when they do, their crude POS motor comes up short. The Keppe motor compares poorly against commercial DC BLMs that cost less to build, are more efficient, and don't constitute electrocution and fire hazards that the Keppe fan kit motor did as released a couple of years ago.

The Keppe motor is a very crude affair: It has a single pole stator and a two pole permanent magnet rotor. It throws away the stator magnetization energy. The incredible part is that Keppe claim that it took them 10 years to build what has the sophistication of an 8th grade science project that disregards safety.

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Re: Oscillating sine wave LC tank magnet motor.
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The "Keppe Motor" can run as an A.C. synchronous...