How to read electronic diagrams? Electronic components and their symbols. Practical examples. (Electronics – easy and simple. Book 52)

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The map uses symbols that resemble objects in the terrain. The map for an electronic system is a diagram. Symbols are also used on it. The main difficulty in using it is that sometimes the symbol refers to the internal structure of the element, not its external appearance. Look at the capacitor symbol and its appearance. The diagram shows two plates that are enclosed inside the housing. You can find pictures of the components and their corresponding symbols in Part 3. Components and symbols.

You can learn to read diagrams by analyzing circuits, starting with the simplest and moving on to more and more complex ones. The examples given in Part 1. Circuits are for this purpose.
You can check whether the analysis was correct by looking at Part 2. Explanations. The diagrams and explanations have numerical designations.
In the book you can find information and calculation examples for personalization on the following topics:
µF
0.7V
ammeter
base bias voltage
base current
battery
bipolar transistor
breakdown voltage
capacitor
capacitor in a DC circuit
capacitors in series
cathode
CB
CCO
charge
collector current
Common Base
Common Collector
Common Drain
common drain amplifier
common emitter amplifier
common source amplifier
connecting to ground for alternating signals
connection using a crocodile clip
crossed wires
current
current gain
current measurement
current source
current splits
current transmittance
DC
DC biasing conditions
diode
diode is conducting
drain
drain resistor
electrical connection
electrolytic capacitor
emitter current
emitter follower
emitter resistor
equivalent input resistance of the system
equivalent output resistance of the system
equivalent resistance
equivalent resistance in the base circuit
forward voltage drop of LED
forward-biased diode
gain factor of a transistor
gate resistor
geometric mean
GND
ignoring the current drain from the divider
input resistance
JFET
Junction Field-Effect Transistor
ki0
Kirchhoff’s Current Law
ku0
kΩ
LED diode
LED lit
negligible current
net voltage
no potential difference
non-inverting voltage amplifier
NPN bipolar transistor
Ohm’s Law
operating point
operating point is stable
operational amplifier
output resistance
parallel branches
parallel circuit
parallel resistors
potential difference
power supply
power supply fluctuations
ppQ
press-fit connection with spring contact
quiescent voltage
rectifier diode
regular diode
regulation mode
resistance
resistor
resistors in parallel
resistors in series
reverse-biased diode
screwed connection
series combination of resistors
series connection of capacitors
silicon diode
small-signal equivalent parameters
soldered connection
source follower
source resistor
sources in series
sources in the opposite direction
split current
spring contact
stabilization for the transistor’s operating point
static operating point
sum of currents
temperature changes in the base-emitter voltage
total current
total resistance
transistor
transistor’s operating point
transmittance
universal silicon diode
voltage
voltage across
voltage across capacitor
voltage across capacitors in series
voltage across the parallel resistors
voltage amplifier
voltage divider
voltage gain
voltage measurement
voltage source
voltage sources connected in series
voltage transmittance
voltmeter
Zener diode
β

I wish you satisfaction in solving puzzles and gaining as much proficiency as possible.
Thank you for purchasing my book. Don’t forget Buy it now! 🙂
Klemens Nguyen

ASIN ‏ : ‎ B0DCKBWNK1
Publication date ‏ : ‎ August 7, 2024
Language ‏ : ‎ English
File size ‏ : ‎ 8.1 MB
Text-to-Speech ‏ : ‎ Enabled
Screen Reader ‏ : ‎ Supported
Enhanced typesetting ‏ : ‎ Enabled
X-Ray ‏ : ‎ Not Enabled
Word Wise ‏ : ‎ Enabled
Print length ‏ : ‎ 68 pages