Basic Electronics

November 20, 2025 Courses
Basic Electronics

English | MP4 | AVC 1280×720 | AAC 44KHz 2ch | 79 Lessons (9h 12m) | 1.63 GB

Master the fundamental principles of electronic circuits and devices with this comprehensive course designed for aspiring electrical engineers, electronics enthusiasts, and hardware developers. Beginning with essential circuit elements, resistors, and power sources, you’ll progress through systematic circuit analysis techniques including Kirchhoff’s laws, nodal and mesh analysis, and network theorems like Thevenin’s and Norton’s equivalents. The course covers both time-domain analysis of RL, RC, and RLC circuits and frequency-domain techniques using phasor algebra for AC circuit analysis. You’ll explore semiconductor devices including diodes for signal shaping and voltage regulation, bipolar junction transistors (BJTs) for amplification and switching, MOSFETs for low-power applications, and operational amplifiers (op-amps) for building complex signal processing circuits. Through hands-on problem-solving and practical applications, you’ll learn to design power circuits, calculate power factors in AC systems, and implement digital switching circuits. Whether you’re preparing for advanced studies in electrical engineering, developing IoT devices, or pursuing careers in electronics design and embedded systems, this course provides the essential foundation in circuit theory, semiconductor physics, and analog electronics needed to analyze, design, and troubleshoot electronic systems across diverse engineering applications.

What you’ll learn

  • Analyze circuits using Kirchhoff’s laws, nodal and mesh techniques, and network theorems for systematic problem-solving.
  • Design amplifiers and switching circuits with diodes, BJTs, and MOSFETs for signal processing and power applications.
  • Apply phasor algebra for AC circuit analysis and calculate power factors to optimize electrical system performance.
  • Build operational amplifier circuits for signal conditioning, arithmetic operations, and advanced analog applications.

Skills you’ll gain

  • Electronics Engineering
  • Basic Electrical Systems
  • Electronics
  • Semiconductors
  • Electrical Engineering
  • Power Electronics
  • Electronic Components
  • Network Analysis
  • Engineering Analysis
  • Applied Mathematics
  • Electrical Systems
  • Control Systems
  • Electronic Systems
  • Engineering Calculations
Table of Contents

basic-circuit-elements-and-laws

course-introduction
1 course-intro-video
2 course-overview_instructions
3 course-structure-critical-information_instructions

ohms-law-kcl-and-kvl
4 identify-the-types-of-sources-in-electrical-circuits
5 what-is-resistance-and-ohms-law
6 ohms-law-kcl-and-kvl_instructions
7 introduction-and-application-of-kirchhoffs-current-law
8 kirchhoffs-current-law_instructions
9 introduction-and-application-of-kirchhoffs-voltage-law
10 kirchhoffs-voltage-law_instructions
11 additional-problems-on-kcl-and-kvl
12 additional-problems-on-kcl-and-kvl_instructions
13 solution-to-additional-problems-on-kcl-and-kvl_instructions

simplification-of-resistive-circuits
14 analyzing-simple-series-and-parallel-circuits
15 resistors-in-series-and-parallel_instructions
16 simplify-the-connections-in-circuits
17 power-consumption-in-resistive-circuits
18 power-consumption_instructions

summary-and-assessment
19 module-wrap-up-basic-circuit-elements-and-laws
20 basic-circuit-elements-and-laws_instructions
21 recommended-reading-basic-circuit-elements-and-laws_instructions

basic-nodal-and-mesh-analysis

analyze-complex-electrical-circuits-using-nodal-analysis
22 introduction-and-application-of-nodal-analysis
23 nodal-analysis_instructions
24 identify-and-apply-the-supernode-analysis-in-the-circuits
25 supernode-concept_instructions
26 solving-problems-using-nodal-supernode-analysis
27 solving-problems-using-nodal-supernodal-analysis_instructions

analyze-complex-electrical-circuits-using-mesh-analysis
28 introduction-and-application-of-mesh-analysis
29 mesh-analysis_instructions
30 identify-and-apply-the-supermesh-analysis
31 supermesh-analysis_instructions
32 solving-problems-using-supermesh-analysis
33 examples-of-circuits-using-mesh-supermesh-analysis_instructions

solving-circuits-using-mesh-and-nodal-analysis
34 solve-additional-problems-using-nodal-and-mesh-analysis
35 additional-problems-based-on-nodal-and-mesh_instructions
36 solutions-to-problems-based-on-nodal-or-mesh-analysis_instructions

summary-and-assessment
37 module-wrap-up-basic-nodal-and-mesh-analysis
38 basic-nodal-and-mesh-analysis_instructions
39 recommended-reading-basic-nodal-and-mesh-analysis_instructions

useful-circuit-analysis-techniques

various-approaches-to-find-responses-in-given-circuits
40 application-of-superposition-theorem
41 application-of-superposition-theorem_instructions
42 utilization-of-source-transformation-to-simplify-circuits
43 utilization-of-source-transformation-to-simplify-circuits_instructions

use-network-theorems-in-presence-of-dependent-sources
44 superposition-theorem-with-dependent-source-present
45 superposition-theorem-with-dependent-source-present_instructions
46 source-transformation-with-dependent-source-in-the-circuit
47 source-transformation-with-dependent-source-in-the-circuit_instructions

representing-complex-electrical-circuits-in-a-simple-two-element-equivalents
48 thevenin-and-norton-theorem-part-1
49 thevenin-and-norton-theorem-part-2
50 thevenin-with-dependent-sources-present
51 application-of-thevenin-theorem-and-norton-theorem_instructions
52 maximum-power-transfer-theorem
53 maximum-power-transfer-theorem_instructions

summary-and-assessment
54 module-wrap-up-useful-circuit-analysis-techniques
55 recommended-reading-useful-circuit-analysis-techniques_instructions

time-domain-analysis-of-circuits

analyze-source-free-rl-rc-circuits-and-driven-rl-rc-circuits
56 introduction-to-energy-storage-elements
57 introduction-to-energy-storage-elements_instructions
58 equivalent-capacitance-and-inductance
59 equivalent-capacitance-and-inductance_instructions
60 source-free-rc-circuits
61 source-free-rl-circuits
62 examples-of-source-free-rc-and-rl-circuit
63 driven-rc-and-rl-circuit
64 source-free-rc-and-rl-circuits-and-driven-rl-and-rc-circuits_instructions

analyze-series-and-parallel-rlc-circuits
65 second-order-circuits-natural-response-part-1
66 second-order-circuits-natural-response-part-2
67 second-order-circuits-complete-response
68 series-and-parallel-rlc-circuits_instructions

summary-and-assessment
69 module-wrap-up-video
70 recommeded-reading-time-domain-analysis-of-circuits_instructions

sinusoidal-steady-state-analysis

utilize-phasor-algebra-to-analyze-circuits-with-sinusoidal-stimuli
71 sinusoidal-function
72 sinusoidal-function_instructions
73 frequency-domain-analysis
74 frequency-domain-analysis_instructions
75 impedance-in-ac-circuits
76 impedances-and-admittances_instructions

applying-network-theorems-in-ac-circuits
77 solving-simple-ac-circuits
78 solving-simple-ac-circuits_instructions
79 nodal-and-mesh-analysis-in-ac-circuits
80 nodal-and-mesh-analysis-in-ac-circuits_instructions
81 superposition-theorem-in-ac-circuits
82 superposition-theorem-in-ac-circuits_instructions
83 thevenin-theorem-in-ac-circuits
84 thevenin-theorem-in-ac-circuits_instructions

summary-and-assessment
85 module-wrap-up-video
86 recommended-reading-sinusoidal-steady-state-analysis_instructions

power-in-ac-circuits

types-of-power-in-ac-circuits
87 instantaneous-and-average-power
88 instantaneous-and-average-power_instructions
89 power-in-terms-of-root-mean-square-rms-values
90 power-in-terms-of-root-mean-square-rms-values_instructions
91 maximum-power-transfer-theorem-in-ac-circuits
92 maximum-power-transfer-theorem-in-ac-circuits_instructions

power-calculations-in-ac-circuits
93 power-calculations
94 power-factor-correction
95 power-calculations-examples
96 power-calculations-and-power-factor-correction_instructions

summary-and-assessment
97 module-wrap-up-video
98 recommended-reading-power-in-ac-circuits_instructions

diode-circuits-and-applications

analyze-diode-circuits
99 what-is-a-diode
100 what-is-a-diode_instructions
101 design-a-clipper-clamper-circuit
102 design-of-a-clipper-clamper-circuit_instructions
103 non-ideal-diodes
104 non-ideal-diodes_instructions
105 zener-diode
106 zener-diodes_instructions
107 other-types-of-diodes
108 other-types-of-diodes_instructions

summary-and-assessment
109 module-wrap-up
110 recommended-reading-diode-circuits-and-applications_instructions

bipolar-junction-transistors

understanding-the-three-terminal-devices
111 what-is-a-transistor
112 introduction-to-transistor_instructions
113 signal-amplification-and-switching
114 amplification-and-switching_instructions
115 definition-of-input-output-characteristics
116 definition-of-input-output-characteristics_instructions
117 types-of-bjts
118 the-bjt-as-a-circuit-element_instructions
119 bjt-based-amplifier
120 bjt-based-amplifier_instructions
121 use-bjt-as-a-switch
122 bjt-as-a-switch_instructions

summary-and-assessment
123 module-wrap-up-video
124 recommended-reading-bipolar-junction-transistors_instructions

mosfets

analyze-mosfet-circuits
125 mosfet-terminals
126 mosfet-terminals_instructions
127 mosfet-output-characteristics
128 mosfet-output-characteristics_instructions
129 operating-point-of-a-fet-circuit
130 operating-point-of-a-fet-circuit_instructions
131 mosfet-based-amplifier
132 mosfet-based-amplifier_instructions
133 mosfet-based-switch
134 mosfet-based-switch_instructions

summary-and-assessment
135 module-wrap-up-video
136 summary_instructions
137 recommended-reading-mosfets_instructions

operational-amplifiers-op-amps

introduction-to-the-op-amps
138 the-ideal-op-amp
139 the-ideal-op-amp_instructions
140 inverting-and-non-inverting-amplifiers
141 inverting-and-non-inverting-amplifiers_instructions
142 summing-and-difference-amplifiers
143 summing-and-difference-amplifiers_instructions

op-amp-applications
144 cascaded-op-amp-stages
145 cascaded-op-amp-stages_instructions
146 voltage-gain-and-feedback
147 voltage-gain-and-feedback_instructions
148 comparator-and-instrumentation-amplifier
149 comparator-and-instrumentation-amplifier_instructions
150 non-ideal-op-amp
151 non-ideal-op-amp_instructions

summary-and-assessment
152 module-wrap-up-video
153 summary_instructions
154 recommended-reading-operational-amplifiers-op-amps_instructions

course-wrap-up
155 course-summary_instructions

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