Difference between revisions of "DI Electronics Workshop"
From Wikicliki
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− | == | + | == Basic Circuits == |
[[File:circuit1.png]] [[File:resistors.png|240px]] [[File:circuit2.jpg]] | [[File:circuit1.png]] [[File:resistors.png|240px]] [[File:circuit2.jpg]] | ||
* '''LED''' - small side = long leg = positive | * '''LED''' - small side = long leg = positive | ||
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== Arduino == | == Arduino == | ||
* the big brick is the microcontroller | * the big brick is the microcontroller | ||
+ | * spk16000 - oscilator - crystal | ||
− | == Trivia == | + | == Thoughts/Questions == |
+ | * IOIO is an android/bluetooth module. Why should one use that over a wifi shield with xively? | ||
+ | * How do I run pure data? | ||
+ | |||
+ | == Trivia & other interesting things == | ||
* UK Mains has a 50Hz hum. Depending on where or what time (eg: when eastenders ends and everyone puts on the kettle) this hum will change. It is alleged that you can find out what time or location it is from the hum - mains hum signature. From wikipedia: "Electrical network frequency (ENF) analysis is a forensic technique for validating audio recordings by comparing frequency changes in background mains hum in the recording with long-term high-precision historical records of mains frequency changes from a database. In effect the mains hum signal is treated as a time-dependent digital watermark that can be used to find when the recording was created, and to help to detect any edits in the sound recording" | * UK Mains has a 50Hz hum. Depending on where or what time (eg: when eastenders ends and everyone puts on the kettle) this hum will change. It is alleged that you can find out what time or location it is from the hum - mains hum signature. From wikipedia: "Electrical network frequency (ENF) analysis is a forensic technique for validating audio recordings by comparing frequency changes in background mains hum in the recording with long-term high-precision historical records of mains frequency changes from a database. In effect the mains hum signal is treated as a time-dependent digital watermark that can be used to find when the recording was created, and to help to detect any edits in the sound recording" | ||
+ | * IOIO: https://www.sparkfun.com/tutorials/280 | ||
+ | |||
[[Category:Electronics]] [[Category:Design Interactions]] | [[Category:Electronics]] [[Category:Design Interactions]] |
Revision as of 14:03, 28 October 2013
Basic Circuits
- LED - small side = long leg = positive
- Connectors - red wires positive / black wires negative or ground (why GND? GND = grounding for discharge)
- Resistor - if you didn't have it the LED would blow / it makes sure the led does not draw all of the 5v current / 220 Ohms Resistor - red red brown is 22 *10
- Resistance is calculated in ohms. So how do we figure out the current? The Lab power supply has a switch for amps/volts you can see its about 0.01.
- V=IR: See more about Ohm's Law
- Using Multimeter: solid line dc, wavy line ac, turn to 20
- Variable Resistor: aka Rotary Potentometer [use middle pin and side pin]
Arduino
- the big brick is the microcontroller
- spk16000 - oscilator - crystal
Thoughts/Questions
- IOIO is an android/bluetooth module. Why should one use that over a wifi shield with xively?
- How do I run pure data?
Trivia & other interesting things
- UK Mains has a 50Hz hum. Depending on where or what time (eg: when eastenders ends and everyone puts on the kettle) this hum will change. It is alleged that you can find out what time or location it is from the hum - mains hum signature. From wikipedia: "Electrical network frequency (ENF) analysis is a forensic technique for validating audio recordings by comparing frequency changes in background mains hum in the recording with long-term high-precision historical records of mains frequency changes from a database. In effect the mains hum signal is treated as a time-dependent digital watermark that can be used to find when the recording was created, and to help to detect any edits in the sound recording"
- IOIO: https://www.sparkfun.com/tutorials/280