Difference between revisions of "Electronics"

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=== Pages of links ===
 
=== Pages of links ===
 
*[http://www.eevblog.com/wiki/index.php?title=Main_Page EEVblog links] (in wiki format)
 
*[http://www.eevblog.com/wiki/index.php?title=Main_Page EEVblog links] (in wiki format)
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==Further reading==
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{{Main article|Books and publications}}
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*[http://frank.harvard.edu/aoe/ The Art of Electronics], by Paul Horowitz and Winfield Hill ISBN 0521370957
   
 
[[Category:Electronics]]
 
[[Category:Electronics]]

Revision as of 12:32, 27 October 2013

Electronic circuits and components can be divided into two groups: analog and digital. A particular device may consist of circuitry that has one or the other or a mix of the two.[1]

A linear circuit is one in which, for a sinusoidal input voltage of frequency f, any steady-state output of the circuit (the current through any component, or the voltage between any two points) is also sinusoidal with frequency f. Note that the output need not be in phase with the input.[2]

Getting started

First gain experience with some simpler audio electronics project(s), and build up the knowledge, skills and equipment.[3] Developing the circuit is finally not that difficult, but then creating the module or synth as a real physical/mechanical thing is. Making pcbs, making front panels, choosing the right parts which fit the mechanical requirements, etc. So start with some kind of kit based or at least fully instructed project, like something from Catgirl Synth or Music From Outer Space especially the Sound Lab Mini-Synth Once you've managed to build one of these, you can start modifying it and adding your own developments. This way you are rehearsing the mechanical side (which definitely needs to be learned mostly by experience), and you will already learn a lot about electronics.[4]

Construction methods

Many different methods of connecting components have been used over the years. Early electronics often used point to point wiring, or terminal strips. Most modern day electronics now use printed circuit boards (PCBs) made of materials such as FR4, or the cheaper (and less hard-wearing) Synthetic Resin Bonded Paper (SRBP, also known as Paxoline/Paxolin (trade marks) and FR2). Health and environmental concerns associated with electronics assembly have gained increased attention in recent years, especially for products destined to the European Union, with its Restriction of Hazardous Substances Directive (RoHS) and Waste Electrical and Electronic Equipment Directive (WEEE).[1]

Enclosure design considerations

An engineer or designer must balance many objectives and practical considerations when selecting enclosures and protective features of the product itself and its components.

  • Hazards to be protected against: mechanical damage, exposure to weather and dirt, electromagnetic interference, etc.
  • Heat dissipation requirements
  • Tradeoffs between tooling capital cost and per-unit cost
  • Tradeoffs between time to first delivery and production rate
  • Availability and capability of suppliers
  • User interface design and convenience
  • Ease of access to internal parts when required for maintenance
  • Product safety, and compliance with regulatory standards
  • Aesthetics, and other marketing considerations
  • Service life and reliability[5]

See also

References

  1. ^ a b Wikipedia:Electronics
  2. ^ Linear circuit design handbook by Hank Zumbahlen, Newnes, 2008, ISBN 0-7506-8703-7
  3. ^ StackExchange EE, Building a synthesizer with no prior experience
  4. ^ The Synth-diy Archive, Hello, and some questions, May 2013
  5. ^ Wikipedia:Electronic_packaging#Design_considerations

External links

Pages of links

Further reading

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