Learn how to fix a dead car plasma unit with a design flaw and turn it into a powerful ozone generator for effective vehicle deodorizing. Discover the intricate circuitry and components involved in this innovative project.
What was the main design flaw in the in-vehicle ozone generator?
The circuit failed to produce ozone or light up the bulb at the end.
How was the plasma unit fixed after the DC application issue?
Reverse engineering was required to allow for Corona discharge.
What was the basis of the circuitry for the plasma unit?
It was based on a Royer oscillator with two transistors.
What component determines which transistor turns on in the circuit?
A single bias resistor trickles current to the transistor for bias.
How does the ozone generator create high voltage in the system?
Through the combination of alternating current and capacitance effect.
What role does the stainless steel mesh play in the ozone generator?
It acts as a dialectric separator in the unit.
Why does the diode and capacitor circuit cause a plasma discharge?
Due to AC jiggling, even at lower voltages like 5 Volts.
How can you detect the plasma discharge in the unit?
By observing the blue glue indicating the plasma discharge occurring.
What is the purpose of the ozone generator in the vehicle deodorizing process?
To create high levels of ozone for effective deodorizing when the vehicle is not in use.
What unusual arrangement is used to drive the transistors in the circuitry?
The capacitor and feedback winding are used in an unusual arrangement.
Learn how to fix a dead car plasma unit with a design flaw and turn it into a powerful ozone generator for effective vehicle deodorizing. Discover the intricate circuitry and components involved in this innovative project.
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