Simplified Adam Motor Using Hall IC - Free Energy

The Adam motor is nominally a pulse motor, but it also acts as a generator when the pulse applied to the coil pushes the magnets on the rotor.

No wind or water is needed to spin the rotor. Electric pulses are sent to a control coil to rotate the rotor, which has a rotating disk with multiple magnets. On the stator side, additional coils are mounted to collect electrical energy. In essence, the system operates by switching from induction to generation. An induction motor can quickly be turned into a generator.

The pulse voltage is extremely high to accelerate the rotor (flywheel), and the impulse is strong enough to counteract the Lenz force during the generation process in the stator coils.

The Adam version typically uses 6 coils: 2 control coils for the induction motor function, and 4 coils for power generation.

Learn more: The Golden Ratio Motor Generator: Super-Power Multi-Polar Magnet

Improvements and Development

The key requirement for this free energy motor/generator is precise design of coil placement and pulse timing!

This is a foundational invention presented for educational purposes—to develop thinking and technology. Once the basic electromechanical system is understood, developers have used electronic components to create alternative versions with the same core principles.

One developer, Tim Harwood, built a simpler version based on the Adam motor principle using a Hall IC sensor.

The Hall IC sensor acts like a switch that opens or closes. When a magnetic field passes by, the sensor triggers and allows the PNP transistor to conduct.

However, the operation isn't just about switching on to amplify voltage and current. The improved design includes a closing phase when the reverse voltage at the yellow coil starts to rise negatively, meaning it begins to reverse polarity.

At that moment - when the voltage in the yellow coil begins to reverse - the PNP transistor switches off, instantly creating an open circuit, which in turn generates a strong reverse voltage spike.

So, just as the voltage is about to dip into negative territory, it gets flipped with a very high amplitude. This over-voltage condition produces a powerful thrust on the magnet, resulting in rotor acceleration.

While traditional generators slow down under load, a generator equipped with this circuit will instead accelerate to extremely high speeds and eventually stabilize into a uniform rotational motion.

These reverse pulses from sudden coil cutoff also recharge the battery. As a result, you never need to worry about the battery draining while the motor is running.

Now just add a few more coils to harvest free energy - that’s it. You can add 2 to 3 additional energy-collecting coils. But adding too many will slow down the motor.

⁂ Self-powered generator with feedback circuit for input.

⁜ Generates Energy-On-Demand: ⇉  The Ultimate OFF-GRID Generator

※ Transistorized snap-off technology to harness energy from dielectric inertia.
※ This is a modern version of the self-powered generator, suitable for today's manufacturing - just buy the electronic components and electrical equipment to assemble, then expand the scale and increase the power of the machine. In addition, the plan has many other modern and unique methods!

Important Notes When Assembling and Designing the Improved Adam Motor

1/ Use PNP transistors that can handle high-voltage pulse currents. IGBT is the most ideal type for handling high pulse currents in power applications.

2/ Add wires from the two points labeled “Ground” and “Supply” (as shown in the diagram), and branch off from them. Install correctly oriented diodes along these wires to charge multiple batteries. This is done when using an IGBT and a yellow coil with a very large number of turns. It’s a method to extract more power from the reverse charging pulses.

3/ The voltage at the coils on the stator needs to be converted.

Each coil has two ends, effectively acting like two AC phases (two alternating voltage signals).

The simplest way is to feed these two ends into a bridge rectifier, followed by a capacitor. This behaves like a temporary battery and can feed directly into an inverter.

Another way to get two phases and a neutral wire is to use two bifilar coils. Each output phase from the stator coil is connected to one side of a bifilar coil. Do the same for the other phase. The 0V wires from both bifilar coils are joined together. A bifilar coil will then have 3 terminals: 0V, 1V, 2V. I haven't drawn this setup, as it’s just a suggested idea.

Also needed: a device that converts unstable-frequency, high-peak AC voltage into a clean standard voltage (like 220V or 110V). This device is called an Isolation Transformer.

After that, simply use an inverter for stable power output.

4/ The simplest way to handle output voltage: just feed it into a bridge rectifier to charge a battery bank! Then connect an inverter to the battery—done!

5/ Notes when designing coils on the Stator:

Proposed plan for high power generator:

⁂ Self-powered generator with feedback circuit for input.

⁜ Generates Energy-On-Demand: ⇉  The Ultimate OFF-GRID Generator

※ Transistorized snap-off technology to harness energy from dielectric inertia.
※ This is a modern version of the self-powered generator, suitable for today's manufacturing - just buy the electronic components and electrical equipment to assemble, then expand the scale and increase the power of the machine. In addition, the plan has many other modern and unique methods!

Pulsed Electric Motor Generator

List of electrical equipment needed to buy to build this generator

The Simplified Adam Motor is a pulse motor-generator system based on free energy principles and regenerative acceleration. Originally inspired by Robert Adams and later developed further by Tim Harwood, this version uses a Hall Effect Sensor to precisely control the timing of transistor switching. As the rotor spins with embedded magnets, pulses energize the control coil to both accelerate the rotor and counteract Lenz drag, while additional coils extract usable electrical energy.

Component Name	Component Details (as listed on Amazon/AliExpress)	Buy Link
Hall Effect Sensor IC	A3144 Hall Effect Sensor Module 5V, Digital Output, Magnetic Detector	Check
PNP Transistor	TIP42C PNP Power Transistor – 100V, 6A, TO-220	Check
IGBT Transistor (optional)	FGA25N120ANTD IGBT Module – 1200V, 25A, TO-3P	Check
Diode (for pulse recovery)	UF4007 Ultra Fast Recovery Diode – 1000V, 1A	Check
24 AWG Copper Magnet Wire	Enameled Copper Wire – 24 AWG, for custom winding of control/generator coils	Check
Ferrite Core	Ferrite Ring Core Toroid – For making coils (stator and generator coils)	Check
Neodymium Magnets	N52 Neodymium Disc Magnets – 20mm x 5mm, strong rare earth magnets	Check
CD Rotor Disc or Acrylic Wheel	120mm Acrylic Rotor Disc with center hole – for magnet mounting	Check
Ball Bearings	608ZZ Ball Bearings – 8mm inner, 22mm outer, used for smooth rotor motion	Check
Bridge Rectifier Module	KBPC5010 50A 1000V Bridge Rectifier – for AC to DC conversion	Check
Electrolytic Capacitor	1000uF 50V Electrolytic Capacitor – for smoothing rectified voltage	Check
Battery Bank	12V 7Ah Lead Acid Battery – Rechargeable battery for power storage	Check
Isolation Transformer	220V to 220V Isolation Transformer – 500W to 1000W, for voltage stabilization	Check
Off-grid Inverter	Pure Sine Wave Inverter 12V to 220V – 500W to 1000W, AC output from battery	Check
Bifilar Coil (DIY or ready-made)	Bifilar Wound Coil – 3 terminals: 0V, 1V, 2V. Used for phase + neutral separation	Check
DC Power Supply (optional)	12V 2A DC Adapter – for initial testing or replacing battery source	Check

Unlike traditional motors that slow under load, this system can accelerate under generation, thanks to strategic pulse interruption and back-EMF recovery. By storing the reverse voltage spikes into a battery bank and using inverter + isolation transformer systems, it becomes a self-sustaining platform for both motion and electricity.

Engineers and hobbyists can expand the system by adding up to 2–3 generator coils, while carefully managing torque and output balance. The motor encourages hands-on learning in pulse electronics, magnetics, and alternative energy research.

Here is a simple generator design:

The Adams Pulsed Electric Motor Generator

⁂  Revealed At Last...!
Self-powered generator with feedback circuit for input.

⁜ Generates Energy-On-Demand: ⇉  Harnessing the power of the Field

※ Transistorized snap-off technology to harness energy from dielectric inertia.
※ This is a modern version of the self-powered generator, suitable for today's manufacturing - just buy the electronic components and electrical equipment to assemble, then expand the scale and increase the power of the machine. In addition, the plan has many other modern and unique methods!