The Lee-Tseung Lead Out Theory

[hansvonlieven]

No Bill, this is a revolutionary device discovered in a Hong Kong two dollar shop.   

Hans von Lieven

[Paul-R]

redundant

[Top Gun]

The Program Logic Controller PLC for the Tseung Pulse Motor â€" logic overview:

(1)   Start Up Phase
a.   Is the inner cylinder rotating clockwise?  If not, loop and flash warning light.
b.   First set all coils to Driver Coils, send Pulse DC Current via the Starting Batteries to rotate the inner cylinder.
c.   Check speed of rotation of the inner cylinder via the sensor.  If speed is lower than the designed (or set speed), keep sending Pulse DC Current.

Operational Phase is from (2) to (7). 

(2)   When the speed of rotation is at or above the designed (or set speed) upper level, turn one Driver Coil to a Collector Coil.  Use the Collected Electricity to recharge the Starting Batteries (or the backup Batteries) and light up some light bulbs.  The speed of rotation will decrease.

(3)   When the speed of rotation is at or below the designed (or set) lower level, turn a Collector Coil back into a Driver Coil.    Loop back to (2).  This will keep the speed of rotation between the upper and lower levels. 

(4)   There will be need for some voltage smoothing mechanism as the Collected Current is expected to be Pulsing DC and may not be ideal for recharging batteries or providing light.

(5)   If properly designed and implemented, the Lead-Out Energy is expected to be more than 50% of the Input Pulsing Energy.  In theory, there should be 150% Output Pulsing Energy.  We expect some energy loss.  If the loss is less than the Lead-Out Energy, the device should keep leading-out magnetic (or electron motion energy) and no additional input energy is required.  This means that the device must be at least 66.7% (100/150) efficient in the conventional sense.

(6)   If our prototype is at least 66.7% efficient, the batteries will be recharged by the lead-out energy.  If the efficiency is lower, the batteries will slowly drain.  If the efficiency is higher, the batteries will be re-charged and additional work can be done.

(7)   The 225 HP Pulse Motor is much more efficient than 66.7% and thus it can use the lead-out energy to do work without the need for any fossil fuel.

Shut Down Phase

a.   Is the Shut Down Switch on?  If so,
b.   Turn off all Pulse Current to the Driver Coils
c.   The load (light bulbs) should use up all the energy stored as ‘flywheel effect’ within a few seconds.  The Inner Cylinder should slow down to zero.

[Top Gun]

One reason for NOT increasing the magnitude of the Pulsing DC current is that the Coils get hot with larger current.

A few coils got melted or deformed in the experiments.

[chrisC]

The Program Logic Controller PLC for the Tseung Pulse Motor â€" logic overview:

(1)   Start Up Phase
a.   Is the inner cylinder rotating clockwise?  If not, loop and flash warning light.
b.   First set all coils to Driver Coils, send Pulse DC Current via the Starting Batteries to rotate the inner cylinder.
c.   Check speed of rotation of the inner cylinder via the sensor.  If speed is lower than the designed (or set speed), keep sending Pulse DC Current.

Operational Phase is from (2) to (7). 

(2)   When the speed of rotation is at or above the designed (or set speed) upper level, turn one Driver Coil to a Collector Coil.  Use the Collected Electricity to recharge the Starting Batteries (or the backup Batteries) and light up some light bulbs.  The speed of rotation will decrease.

(3)   When the speed of rotation is at or below the designed (or set) lower level, turn a Collector Coil back into a Driver Coil.    Loop back to (2).  This will keep the speed of rotation between the upper and lower levels. 

(4)   There will be need for some voltage smoothing mechanism as the Collected Current is expected to be Pulsing DC and may not be ideal for recharging batteries or providing light.

(5)   If properly designed and implemented, the Lead-Out Energy is expected to be more than 50% of the Input Pulsing Energy.  In theory, there should be 150% Output Pulsing Energy.  We expect some energy loss.  If the loss is less than the Lead-Out Energy, the device should keep leading-out magnetic (or electron motion energy) and no additional input energy is required.  This means that the device must be at least 66.7% (100/150) efficient in the conventional sense.

(6)   If our prototype is at least 66.7% efficient, the batteries will be recharged by the lead-out energy.  If the efficiency is lower, the batteries will slowly drain.  If the efficiency is higher, the batteries will be re-charged and additional work can be done.

(7)   The 225 HP Pulse Motor is much more efficient than 66.7% and thus it can use the lead-out energy to do work without the need for any fossil fuel.

Shut Down Phase

a.   Is the Shut Down Switch on?  If so,
b.   Turn off all Pulse Current to the Driver Coils
c.   The load (light bulbs) should use up all the energy stored as ‘flywheel effect’ within a few seconds.  The Inner Cylinder should slow down to zero.

Top Dork:

Why do you talk so much and waste your time writing even more garbage?
If your snake oil is so good, please show us a working model. The 2008 Olympics are already over and did Obama give you any any $ out of his $150B energy program?

The stuff you post here is quite laughable indeed. So, after 3 years of 'boat in calm water' crap, you've migrated to trying to impress simple minded people about pulsing coils? You need to get a life....

cheers
chrisC