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Solid State Moray Generator By Joel Lagace

#1
Good day folks here is the circuit diagram of the reactive solid state "Moray" generator!

   

A memo on fine tuning:  Big Grin


Given that both the inductance and capacitance are 70.48 µH and 70.48 µF respectively, the LC circuit is indeed resonant at 60 Hz. To fine-tune this circuit, You can optionally incorporate a parallel vacuum capacitor for small adjustments and a series capacitor for potential impedance matching.

### Verify Resonance Frequency


- **Inductance**:  (L = 70.48 
- **Capacitance**:  (C = 70.48
- **Resonance Frequency**: (60 
- **Parallel Vacuum Capacitor**: (C should range from 0 to 3.524 µF for fine-tuning.
- **Series Capacitor for Impedance Matching**:  approx 53.05 uF

*This configuration allows for fine-tuning of the LC circuit to maintain resonance at 60 Hz and achieve impedance matching if needed.

Concept

  1. LC Resonant Circuit: Utilize the high circulating reactive power at resonance.
  2. Direct Battery Integration: Connect batteries in a manner that allows them to charge without disrupting the reactive power oscillations significantly.
  3. Resistive and Inductive Loads: Use light bulbs and other inductive components to balance the load and manage current flow during different parts of the AC cycle.

Method:

Series LC Circuit with Batteries and Light Bulbs
  1. Resonant LC Circuit:
    • L: Inductor
    • C: Capacitor
  2. Direct Battery Charging:
    • Connect batteries directly into the LC circuit at points where they can charge during the positive half of the AC cycle and be protected from reverse current during the negative half.
  3. Light Bulbs as Loads:
    • Use light bulbs as resistive/inductive loads to absorb power during the negative half of the cycle, thus protecting the batteries.



Practical Considerations


  1. Voltage Levels:
    • Ensure the voltage levels in the LC circuit match the charging requirements of the batteries.
  2. Current Flow Management:
    • The light bulbs will naturally limit the current during the negative half-cycle, preventing reverse currents from damaging the batteries.
  3. Tuning:
    • Fine-tune the circuit to ensure that the LC circuit remains in resonance while effectively charging the batteries.
  4. Testing and Safety:
    • Start with lower power levels to test the setup.
    • Monitor the temperature and performance of the batteries and light bulbs to ensure they are operating within safe limits.


Challenges and Adjustments

  • Balance: Achieving the right balance between the reactive power accumulation and the load distribution is crucial.
  • Fine-Tuning: You may need to experiment with different configurations and component values to achieve optimal performance.
  • Monitoring: Continuously monitor the circuit's behavior to avoid overcharging or damaging the batteries.
By using this approach, you can tap into the reactive power of the LC circuit to charge batteries directly while using light bulbs to manage the current flow during the negative half-cycle. This should allow you to maintain the resonant condition and recover reactive power without the use of rectifiers.
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Solid State Moray Generator By Joel Lagace - by JoeLag - 05-23-2024, 03:35 PM

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