After researching how a Magnetic Amplifier works, it gave me a few ideas
on how we may be able gain some energy from a magnetic field. This concept may be the basis on which the Hans Coler device works. Here is a brief explanation on the idea: If we take a coated steel wire of many turns and use this as the transformer Core. Now we have a variable flux core that varies
with the current sent down the steel wire. After winding a coil of copper wire around this core and use
a magnet on one side of the core then pulse the core you should be able to create a magnetic field in
parallel to the coil of copper which induces no voltage in the coil but if we turn off the current to the steel
core then the magnetic field will be perpendicular to the copper coil thereby inducing a voltage in it.
If we then take another coil of copper wrapped around the core to drive our core into saturation and
we may have an oscillation circuit.
The original idea came to me while researching, how to decrease self induction. When you send
a current down a straight wire, there is minimal self induction until you run a parallel wire next to it.
When we create a coil of wire we wrap those wires as tight together as we can for efficiency but
what we are doing is creating an environment in which these wires create a magnetic field and that
field bleeds over to the next wire inducing a charge in it in the opposite direction to the current that
flows through it. The more energy that you put into that coil the more it opposes it and this opposition
is called self induction. It is a self limiting device at its core. So when we add a iron core to the coil
then we create a bigger field that compounds the problem.
The problem to solve is how to have a core that was variable so when you put energy into the coil
it has very little Magnetic reluctance or to put it another way, saturate the core, then once the current is shut off to the coil then the core un-saturates and you harness the extra
energy from the coil through BEMF.
The idea in a nutshell is that when you use a magnet attached to the core it sets up a magnetic
domain within the core, and since the core is made of coated steel wire, when you send a minute
current through the steel wire the magnetic domain created by the magnet is misaligned slightly
making the field collapse and inducing a voltage into the copper coil wrapped around the core.
Once you shut off the current to the core then the magnetic domain from the magnet realigns
thereby creating another voltage within the copper coil.
on how we may be able gain some energy from a magnetic field. This concept may be the basis on which the Hans Coler device works. Here is a brief explanation on the idea: If we take a coated steel wire of many turns and use this as the transformer Core. Now we have a variable flux core that varies
with the current sent down the steel wire. After winding a coil of copper wire around this core and use
a magnet on one side of the core then pulse the core you should be able to create a magnetic field in
parallel to the coil of copper which induces no voltage in the coil but if we turn off the current to the steel
core then the magnetic field will be perpendicular to the copper coil thereby inducing a voltage in it.
If we then take another coil of copper wrapped around the core to drive our core into saturation and
we may have an oscillation circuit.
The original idea came to me while researching, how to decrease self induction. When you send
a current down a straight wire, there is minimal self induction until you run a parallel wire next to it.
When we create a coil of wire we wrap those wires as tight together as we can for efficiency but
what we are doing is creating an environment in which these wires create a magnetic field and that
field bleeds over to the next wire inducing a charge in it in the opposite direction to the current that
flows through it. The more energy that you put into that coil the more it opposes it and this opposition
is called self induction. It is a self limiting device at its core. So when we add a iron core to the coil
then we create a bigger field that compounds the problem.
The problem to solve is how to have a core that was variable so when you put energy into the coil
it has very little Magnetic reluctance or to put it another way, saturate the core, then once the current is shut off to the coil then the core un-saturates and you harness the extra
energy from the coil through BEMF.
The idea in a nutshell is that when you use a magnet attached to the core it sets up a magnetic
domain within the core, and since the core is made of coated steel wire, when you send a minute
current through the steel wire the magnetic domain created by the magnet is misaligned slightly
making the field collapse and inducing a voltage into the copper coil wrapped around the core.
Once you shut off the current to the core then the magnetic domain from the magnet realigns
thereby creating another voltage within the copper coil.