10kW Induction Heater: Difference between revisions
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=Why 10kW?= | |||
*It is a useful size in a transition from home economics to industrial power. Homes can have 10kW power outlets as a standard option (50a at 240V) | |||
*For industriall power, larger power levels can be built by: multiplying wire connections, scaling the power stage, and using the same control circuit. | |||
=Intro - 10 kW Home Power Circuit= | =Intro - 10 kW Home Power Circuit= | ||
Great study, guy became active again in 2021 from initial work in 2010 - Tutorial at http://inductionheatertutorial.com/ | Great study, guy became active again in 2021 from initial work in 2010 - Tutorial at http://inductionheatertutorial.com/ | ||
Latest revision as of 17:58, 4 June 2022
Why 10kW?
- It is a useful size in a transition from home economics to industrial power. Homes can have 10kW power outlets as a standard option (50a at 240V)
- For industriall power, larger power levels can be built by: multiplying wire connections, scaling the power stage, and using the same control circuit.
Intro - 10 kW Home Power Circuit
Great study, guy became active again in 2021 from initial work in 2010 - Tutorial at http://inductionheatertutorial.com/
- Note - someone capable of documenting and adding some calculations and data like this is worth learning from. This is the best tutorial on induction power I've seen so far - this circuitry can be scaled likely to 100kW without much change in topology, using Extensive Scalability of components.