❓How to Connect | SSTC Interrupter Circuit | Staccato Controller for SSTC

How to connect interrupter to Tesla coil. sstc tesla coil interrupter circuit    • SSTC Interrupter ।। 60Hz Controller For Ai...   In this video, I show in detail how I connect the switching circuit to the Tesla coil (SSTC) circuit to control the shape of the discharges and prevent the MOSFETs from overheating. ⚠️ It is worth noting that alternating current discharges differ from direct current discharges. ℹ️ If you run an SSTC in continuous mode (CW – Continuous Wave), the transistors will heat up to extreme levels within seconds, current draw will be massive, and the sparks at the top will resemble short, silent plasma flames as the surrounding air constantly ionizes and overheats. To solve this overheating problem, interrupted mode is used. How does it work? Interrupted mode adds an external circuit (the interrupter, often based on chips like the 555) that switches the coil circuit on and off in pulses. On-time: The circuit is allowed to oscillate for a very brief period. Off-time: The circuit remains completely off for a few milliseconds to "breathe." When the inverter turns on (on-time), energy is abruptly injected into the primary coil, and the voltage surges to extremely high levels in a fraction of a second. Before the transistors fail due to overheating, the interrupter cuts the signal, allowing the transistors time to cool down. ❓⚡ Fun fact: The world's largest direct current battery is in the sky! When you think of direct current, what comes to mind? Probably the harmless energy of an AA battery or your cell phone battery, right? Lightning is made of direct current! Lightning is a discharge of pure, pulsed, brutal, and destructive Direct Current. The lightning that tears across the sky with such violence and a roar of billions of watts shares the same delicate nature as cells and batteries.