01-16-2024, 02:28 PM
I guess you are right, Faraday/Lenz laws are violated when induction is made with help of magnetic field created by dc.
So, what is the role of resistor rig ? According to Figuera patent is moving the magnetic field in one direction. There are 7 assemblies and each one have 3 windings on it, 2 for electromagnets and one for output.
How they work ? N coil receive dc at first without any part of resistance from resistor rig, than contact moves on first section of the resistance from resistor rig and the coil receiving won’t have enough power to energise the whole coil because resistance will prevent than on next contact, coil will receive a higher resistance as moves to cover 2 sections of resistance from resistor rig and so on. Now if we look at magnetic field we can observe that every time when more resistance is added the coil will be shorter or better said only a part of the coil will radiate magnetic field so the right sequence is 8/8 8/7 8/6 … 8/1 from its length, than on S coil it will happen the same. Now look at the whole picture and see how the magnetic field is switched off in one direction in cascade, along the whole output coil.
So, all electromagnet coil are energised from resistor rig. The fact that there are 3 coils on a single core might trick you to see that in fact you have an electromagnet which is energised in segments inside of the output coil and being energised in segments represent the movement of a bar magnet in and out inside the output coil.
Think of right hand rule for magnetic field and electric flow. Just put your hand next to the output coil and visualise what is happening in electromagnets … this will tell you how to wire the coils for electromagnets and where magnetic field appear for each segment switched on/off
This is a brilliant idea to avoid drag from permanent magnets and increased efficiency fro having 100% of the wires in output coil induced when compared with a rotary dynamo/alternator because of the position of magnets to allow a rotor.
Now if we understand this concept of induction without moving parts, many methods and design can be done to obtain the same results or better.
After this part is understood we can move to wiring the output for further increase of power and how to direct a little part of output back in the system to power itself.
So, what is the role of resistor rig ? According to Figuera patent is moving the magnetic field in one direction. There are 7 assemblies and each one have 3 windings on it, 2 for electromagnets and one for output.
How they work ? N coil receive dc at first without any part of resistance from resistor rig, than contact moves on first section of the resistance from resistor rig and the coil receiving won’t have enough power to energise the whole coil because resistance will prevent than on next contact, coil will receive a higher resistance as moves to cover 2 sections of resistance from resistor rig and so on. Now if we look at magnetic field we can observe that every time when more resistance is added the coil will be shorter or better said only a part of the coil will radiate magnetic field so the right sequence is 8/8 8/7 8/6 … 8/1 from its length, than on S coil it will happen the same. Now look at the whole picture and see how the magnetic field is switched off in one direction in cascade, along the whole output coil.
So, all electromagnet coil are energised from resistor rig. The fact that there are 3 coils on a single core might trick you to see that in fact you have an electromagnet which is energised in segments inside of the output coil and being energised in segments represent the movement of a bar magnet in and out inside the output coil.
Think of right hand rule for magnetic field and electric flow. Just put your hand next to the output coil and visualise what is happening in electromagnets … this will tell you how to wire the coils for electromagnets and where magnetic field appear for each segment switched on/off
This is a brilliant idea to avoid drag from permanent magnets and increased efficiency fro having 100% of the wires in output coil induced when compared with a rotary dynamo/alternator because of the position of magnets to allow a rotor.
Now if we understand this concept of induction without moving parts, many methods and design can be done to obtain the same results or better.
After this part is understood we can move to wiring the output for further increase of power and how to direct a little part of output back in the system to power itself.