Electronics in the Age Of The Arduino
Contents
Status
A workshop that SCIL is thinking about offering.
General
Electronics has changed in the age of the Arduino, not just because of the Arduino but other things have also contributed:
- Most electronics now have micro controllers and software
- While discrete components still exist much work is done with sub assemblies often containing 100's of components.
- Prices have fallen.
- The web provides almost real time access to components and other gear.
- Specifications that used to require ownership of manuals are now online.
- Tons of learning material online.
This course will help you navigate this new landscape.
More info? contact: User:Russ_hensel
Theory
Then
In the old days electronics was taught from a theory of basic components:
- Batteries - source of dc voltage
- Resistors
- Series and Parallel Circuit.
- Network theory
- Current
- Capicators
- Inductors
- Transistor
- ......
- Complex circuits
- AC theory.....
Now
Now you still need to know the basics of Voltage, Current, and Power, this is perhaps best understood by using the analogy of electricity to water and water pressure: ( link needed ). Rather than think of AC and DC it is probably best to think of these as quantiles variables that change with time. DC is just a Voltage that is constant, and therefore the simplest, to understand.
Next think of other circuit components as "black boxes" that have some practical use, and for now ignore how they work. The old basic components: Batteries, Resistors, Capacitors, Inductors, Transistor.... are just examples of these black boxes, but perhaps not the place to start as you can easily buy much more interesting ones for cheap money.
In the new world we need to think of the power/load characteristics of "the black boxes" and the communications between "black boxes".
Spend Time On
- Basic concepts of Potential Difference ( Voltage units Volt ), Current ( units Ampere ), Power ( units Watts ) Charge ( units Coulomb ) Time ( units second )
- Basic ohms law, but note that it is not a law for many components, perhaps most. Is good for metal like wires and resistors.
Spend Less Time On
- Series/Parallel Circuits - except to know in series circuits the current is identical for all components, in parllel circits the voltage is the same for all components.
- Resistor Code - skip it use a meter.
- AC Impedance Calculations
Power/Load
Constant Voltage
Most circuits are set up as constant voltage. By that we mean that for some time the circuit operates with some voltage constant. Here we will consider it constant even if it is constant for a short time as with a pulse, which while varying is constant first at one voltage and then at another.
Output
A simple constant voltage output might be a simple battery, say a 9V battery. It is called a 9V battery because under reasonable load for a reasonable time the voltage is 9V. When we connect it to some other component ( called the load ) current starts to flow. This requires that power from the battery be transfered to the load ( power = voltage * current ). We can measure how "heavy" the load is based either on the current or the power. What is a reasonable load depends on how long we want the battery to last. So for a battery a reasonable question is what is a reasonable load ( we will not answer this here ).