Resistance 、 capacitance 、 inductance 、 diode 、 triode 、MOS tube 、 Key 、LED The lamp 、LCD、 Buzzer or something. The basic circuit is mainly divided into the following two steps :
Now we are endless MCU programming students, I didn't let them learn analog electricity, But first learn the basic circuit.
I am here 1 Code written years ago, At first glance, Suddenly I can't understand, But with the foundation, It's fast to understand. Īnd, Technical stuff, Never learn by rote, There are so many things you can't remember. I prefer, When you have a lot of practical product design experience, Go back to see, Will understand more thoroughly. In this case, it is a waste of time to understand, Even if you knock it out, Maybe when you can really use it, you forget. īecause you haven't experienced an actual project before, Their understanding ability is very limited, Just within your cognitive range. I don't recommend novices to die, Because it's impossible to pass a Book, Or get it through in a tutorial. Now it's rolling to this extent, Analog electricity is often used for RF, There are many other basic numbers, It may be the industry problem I came into contact with. They will also provide schematic diagrams and PCB layout The advice of, Just follow the work of the original factory, If there are problems, provide technical guidance. Īfter working for many years, I found, In fact, these are basically useless, Now the degree of circuit integration is very high, Basically, there are special chip solutions, You don't have to design it yourself.
It's too hard, From the triode, there are various mathematical formulas and calculations. I'm an electrical self-taught electronic, I almost gave up when learning analog circuits. I don't know how many beginners' electronic engineer dreams have ended with analog circuits.