Slayer exciter with mosfet
![slayer exciter with mosfet slayer exciter with mosfet](https://electronoobs.com/images/Circuitos/tut_39/sch_8.jpg)
In those cases, a transformer takes mains power up to several kilovolts before being sent to the spark gap and Primary/secondary coils of the Tesla coil proper. This is important to us, as it eliminates the intermediate transformer used in many Tesla coil designs.
Slayer exciter with mosfet driver#
The Slayer Exciter and its derivatives overcome this by being designed in such a way that the rising and falling voltage in the secondary coil controls the driver circuit, causing the circuit to resonate at its own natural frequency.Īnother key feature of the Slayer Exciter is that it can be made very small, and powered by batteries. This is no easy feat for many people, and in some cases, getting the maths a little wrong doesn't just translate to reduced or less spectacular results, but rather, no results. The resonance of the coils must be known and matched to the spark gap or solid state driver constructed at just that frequency. Real Tesla coils have to be tuned and are somewhat difficult for the inexperienced to build effectively. One of the key features of the Slayer Exciter is that it is self-resonating.
Slayer exciter with mosfet drivers#
While solid state drivers are increasingly becoming accepted as Tesla coils, the much simpler Slayer Exciter is really only ever called a Tesla coil out of convenience. Generally, Tesla coils use capacitors and spark gaps to achieve their oscillation. It is a form of resonant transformer which produces very low current outputs running at very high frequencies. The Tesla coil is a specific design of a high-voltage air-cored transformer invented by its namesake, Nikola Tesla. While it is often referred to in common language as a Tesla coil, it is not. It is one of the most accessible high-voltage coil designs around in terms of materials, skills, and difficulty. The Slayer Exciter has since grown to have its own community with modifications, improvements, variations, and up- and down-scaling all common. Stiffler and GBluer, members of Internet-based electronics communities. The circuit is based on the Slayer Exciter circuit, commonly attributed to Dr. Besides that, you'll need a resistor, transistor, LED, and some wire. This one is battery powered, and the batteries are the heaviest part of the whole system.
![slayer exciter with mosfet slayer exciter with mosfet](https://live.staticflickr.com/4476/37642075700_6a91011601_b.jpg)
Traditional Tesla coils are big, heavy, and noisy. Our mini build is far from powerful enough for any of that but will still yield plenty of fun, particularly from the novelty value of its small size and solid state nature.