Electrical


05-03

Marking System


05-04

Syllabus

Resistor Color Code


05-10

Introduction to Electrical Engineering

  • Ohms Law, basic circuit components, Basic Definitions
  • Page 1-5

05-11

Equivalent resistance calculation (Series / parallel)


05-17

Equivalent resistance calculation (Start-Delta Transformation)

  • Youtube

  • Star to Delta

    ➢ Rab = (RaRb + RaRc + Rb*Rc) / Rc

  • Delta to Star

    ➢ Ra = (Rab*Rac)/ (Rab + Rbc + Rac)


05-18

Current/Voltage Divider Rule

  • Current Divider Rule (Parallel)

    ➢ I1 = I * R2 / (R1 + R2)

  • Voltage Divider Rule (Series)

    ➢ V1 = V * R1 / (R1 + R2)

  • Derivation

    ➢ Req = R1*R2 / (R1 + R2) ---> V = I * Req ---> I1 = V / R1
    ➢ Req = R1 + R2 ---> I = V / Req ---> V1 = I * R1


05-24

KCL (point law), KVL (mesh law)

  • Page 4-7

  • Statement

    ➢ the total current entering a circuits junction is exactly equal to the total current leaving the same junction
    ➢ in any closed loop network, the total voltage around the loop is equal to the sum of all the voltage drops within the same loop


05-31 / 06-01

Nodal Analysis with current and voltage sources, supernode


06-07

Mesh Analysis (KVL)


06-08

Mesh analysis with current source (Source conversion), supermesh


06-14 / 06-15 / 06-21

Super position Theorem


06-22

  • Nodal Analysis

07-17

  • Test

07-26 / 07-27

  • Thevenin Theorem

08-02 / 08-03

  • Norton Theorem

08-09 / 08-10 / 08-16

  • Maximum Power Transfer Theorem

08-17


08-24 - 09-07

More from BE Computer Notes
All posts