English | MP4 | AVC 1280×720 | AAC 44KHz 2ch | 37 Lessons (5h 1m) | 692 MB
This course explains how to analyze circuits that have alternating current (AC) voltage or current sources. Circuits with resistors, capacitors, and inductors are covered, both analytically and experimentally. Some practical applications in sensors are demonstrated.
Skills you’ll gain
- Electric Power Systems
- Electrical Power
- Electrical Engineering
- Electronic Components
- Engineering Calculations
- Basic Electrical Systems
- Electronics
- Engineering Analysis
- Power Electronics
- Electronic Systems
Table of Contents
module-1-ac-circuit-analysis
getting-started
1 start-here_instructions
2 syllabus_instructions
3 consent-form_instructions
module-1-content
4 introduction-to-linear-circuits-2-ac-analysis
5 ac-circuits
6 phasors
7 impedance
8 circuit-analysis-with-ac-impedances
9 ac-circuit-analysis-example
10 transfer-functions
11 transfer-function-example
12 module-summary
module-2-frequency-reponse
module-2-content
13 frequency-response-module-overview
14 frequency-spectrum
15 frequency-spectra-of-real-signals
16 frequency-response-linear
17 frequency-response-bode
18 bode-plot-of-rc-circuits
19 bode-plot-of-rlc-circuits
module-3-filters
module-3-content
20 lowpass-and-highpass-filters
21 lowpass-highpass-filter-design
22 lab-demo-guitar-string-filtering
23 bandpass-and-notch-filters
24 module-2-3-summary
module-4-power
module-4-content
25 power-module-overview
26 root-mean-square
27 power-factor
28 power-triangles
29 ac-power-transfer
30 sample-problem-ac-power-1
31 sample-problem-ac-power-2
32 sample-problem-ac-power-3
33 sample-problem-ac-power-4
34 sample-problem-ac-power-5
module-5-transformers
module-5-content
35 transformers
36 linear-transformer-model
37 ideal-transformer-model
38 linear-variable-differential-transformers
39 module-4-5-wrap-up
40 optional-quick-review-of-complex-numbers
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