Crash Course on Power Electronics: Difference between revisions
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For mastering the Power Electronics Consruction Set component of OSE work - step one is an overview tutorial on power electronics. This means basic explanations of multi-puropose controllers and their connection to power-handling elements. This includes: | |||
#How to control current output from any AC or DC input | #How to control current output from any AC or DC input | ||
#How to control voltage level coming out of any AC or DC input | #How to control voltage level coming out of any AC or DC input | ||
#Managing | #Managing conversion from AC to DC for various purposes. | ||
Explanations should include wiring for stock components, such as PWM signal generators, and corresponding power handling elements. | |||
The above should address full modularity, and scalability. By modularity - we mean plugging in additional units for added power, or added voltage. | The above should address full modularity, and scalability. By modularity - we mean plugging in additional units for added power, or added voltage. | ||
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#Producing them/getting them produced | #Producing them/getting them produced | ||
Thus, the above should cover conceptual and | Thus, the above should cover conceptual and practical understanding of building, at all scales from watts to 500kW (the scale we deem sufficient on all counts for a full, resilient community): | ||
#Inverters | #Inverters | ||
#Converters | #Converters | ||
#Charge controllers for | #Charge controllers for various generators feeding a microgrid | ||
#Inverter welder power supplies | #Inverter welder power supplies | ||
#Welder power supplies. | #Welder power supplies. | ||
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The end point of this is a Crash Course on Power Electronics | The end point of this is a Crash Course on Power Electronics, in the general framework of our approach to creating resilient communities. | ||
[[Category:Power Electronics]] | [[Category:Power Electronics]] | ||
Revision as of 23:15, 2 August 2010
For mastering the Power Electronics Consruction Set component of OSE work - step one is an overview tutorial on power electronics. This means basic explanations of multi-puropose controllers and their connection to power-handling elements. This includes:
- How to control current output from any AC or DC input
- How to control voltage level coming out of any AC or DC input
- Managing conversion from AC to DC for various purposes.
Explanations should include wiring for stock components, such as PWM signal generators, and corresponding power handling elements.
The above should address full modularity, and scalability. By modularity - we mean plugging in additional units for added power, or added voltage.
The practical tools should also be explained, in terms of open source software for:
- Designing and modifying circuits
- Generating fabrication files
- Producing them/getting them produced
Thus, the above should cover conceptual and practical understanding of building, at all scales from watts to 500kW (the scale we deem sufficient on all counts for a full, resilient community):
- Inverters
- Converters
- Charge controllers for various generators feeding a microgrid
- Inverter welder power supplies
- Welder power supplies.
- Plasma cutter power supplies
- Induction furnace power supplies
- DC, AC, and stepper motor controllers
- Battery chargers
The point is to start with conceptual understanding of an integrated framework for handling applied power electronics, and then moving to particular applications. If presented conceptually, in a modular, open source design fashion - with modules for functionality and for scalability - I don't see why a non-expert like myself cannot pick up on the material to be very proficient in creating/building real-world applications.
Specifically, here are some examples of the needs of OSE:
- a low-cost, high-power windmill cannot be designed properly without mastery of power electronics for handling power that fluctuates widely.
- Mastery of power electronics is essential for building a robust charge controller for a steam engine feeding a microgrid or a battery bank - especially if the steam engine is powered via fluctuating solar concentrator power
The end point of this is a Crash Course on Power Electronics, in the general framework of our approach to creating resilient communities.