Stanley Meyer 9XB Overview (Simplified)

Stanley Meyer 9XB Circuit Overview (Simplified)

• 9XB Circuit:
• ?

How Modern Components Can Replace the 9XB Circuit :

Given that Stanley Meyer’s circuits rely on basic PWM control?and high-voltage switching, a PWM driver with opto-isolated high-voltage switching?could be a suitable replacement for the 9XB???circuit .

1. LM5041 Evaluation Board?(PWM Controller):

• Purpose:?Can generate precise PWM signals and manage high-power switching, useful for driving components like MOSFETs?or SCRs?in voltrolysis applications.
• Potential as Replacement:

2. PWM Signal Generator Module:

• Purpose:?Provides an adjustable PWM signal that can easily be tuned to 5 kHz. Some models also include onboard voltage regulation.
• Potential as Replacement:

3. Optocouplers & MOSFET/IGBT Driver Circuits:

• Purpose:?Provides high-voltage isolation?between the control signal (PWM) and the high-power switching components (MOSFETs, IGBTs, SCRs).
• Integration with PWM Generation:

Final Adaptation and Replacement Strategy:

• For 9XB Replacement:

Conclusion:

The LM5041 Evaluation Board?and PWM Signal Generator Module?can replace?the 9XB?circuit for controlling high-voltage switching in voltrolysis, provided that:

• You add optocouplers?to isolate the low-voltage PWM signals from the high-voltage switching stage.

These modern solutions provide a reliable, flexible platform to generate and control PWM signals?for voltrolysis,.

Notes PDF you can also Ask Dan for this pdf if it disappears or ask for guidance for wiring to your alternator or to your switch or cell .

also Attached and linked

https://www.ti.com/lit/ug/snva074a/snva074a.pdf?ts=1732575298707&ref_url=https%253A%252F%252Fwww.ti.com%252Ftool%252FLM5041EVAL?

Special Note you can put 2 together to make 9XA or use the TL494?is the best choice for directly replacing the 9XA?because it provides dual PWM outputs?and can be configured to generate one signal as a gate for the other, which is the core functionality needed in the 9XA.

NOTES

The LM5041?is a PWM controller?designed primarily for high-efficiency power supplies, such as those used for DC-DC conversion and motor control. However, it does not have a built-in resonance feedback feature?like the one found in systems based on Stanley Meyer’s 9XA/9XB?circuits. Instead, it is a general-purpose controller?focused on providing precision PWM output for controlling switches in power applications.

Here’s a detailed list of the LM5041's features:

LM5041 Features:

• Precision PWM Control:
• Dual Channel Capability:
• Onboard High-Side and Low-Side Driver:
• Adjustable Frequency and Duty Cycle:
• Overcurrent Protection:
• Integrated Dead Time Control:
• Soft Start:
• Internal Voltage Reference:
• Feedback Loop Capability:
• Wide Input Voltage Range:

• The LM5041 can operate over a wide input voltage range, typically from 4.5V to 18V, which makes it adaptable to various power supply configurations.

• Low Quiescent Current:

• The controller has a low quiescent current?in standby mode, which helps in reducing the overall power consumption, especially in applications where energy efficiency is important.

• Thermal Shutdown and Protection Features:

• The LM5041 includes thermal shutdown?and under-voltage lockout?(UVLO) features to protect the circuit from overheating and to ensure reliable operation in the presence of fluctuating input voltage.

Does the LM5041 Have Resonance Feedback?

• No, the LM5041 does not have a built-in resonance feedback feature?like the 9XA/9XB circuits?designed by Stanley Meyer. The 9XA/9XB?circuits were specifically engineered to use feedback loops for resonant frequency modulation?to achieve efficient voltrolysis, which is a very specific application in electrolysis and water splitting.
• The LM5041, however, is primarily intended for general power control and does not inherently provide the same resonance or gating functionality?needed in water voltrolysis applications.

Summary:

The LM5041?is a high-performance PWM controller?with a range of useful features like dual PWM output, dead-time control, and voltage regulation feedback. However, it does not have the specialized resonance feedback?or gate-overlay control?functionality needed to replicate the 9XA circuit?used in Stanley Meyer’s voltrolysis?systems. For voltrolysis-style applications, you would likely need additional components or a specialized circuit to generate the necessary gate signals and feedback for resonance control.

RESONANCE IS NOT REQUIRED TO MAKE GAS OR NANO BUBBLES OR NANO BUBBLE WATER FUEL OR FOR VOLTROLYSIS is just helps it latter on to be more efficient but not required to make it work. So there is no reason not to have water fuel in 2024 and beyond

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