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First-Order RL&RC Circuits

First-Order RL&RC Circuits. DONE BY AL-AHMED, UTHMAN SULTAN ELECTRICAL ENGINEERING DEPARTMENT. Objective:-. to show you the relationship between MATH 202 and the electrical engineering major. To obtain the first order differential equation To estimate the solution of RC or RL circuit.

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First-Order RL&RC Circuits

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  1. First-Order RL&RC Circuits DONE BY AL-AHMED, UTHMAN SULTAN ELECTRICAL ENGINEERING DEPARTMENT

  2. Objective:- • to show you the relationship between MATH 202 and the electrical engineering major. • To obtain the first order differential equation • To estimate the solution of RC or RL circuit. • To understand the physical meaning of the obtained differential equation. • To show you graphical solution.

  3. Background • In the begging I would like to introduce some terminology related to electrical devices:- Voltage sorce, current source, inductor ,resistor and capacitor

  4. Voltage • Defination :- is the energy per unit charge created by the separation (positive and negative charge). • Mathematical expression :-

  5. Cont. voltage • Circuit symbol:- Where V=the voltage in (volts) W=the energy in (joules) q= the charge in (coulombs)

  6. Current • DEFINATION the rate of charge flow. • Mathematical expression

  7. Cont. current • Where i= the current in (amperes) q= charge in (coulombs) t=the time in (seconds) Circuit symbol:-

  8. Resistor • Defination:- is the circuit element which used to model the behavior of resistance phenomena. Resistance phenomena ( is the capacity of materials to impede the flow of current or more specifically , the flow of electric charge)

  9. Cont. resistor • Circuit symbol:-

  10. Inductor • is an electrical component that oppose any change in electrical current and it is composed of coil of wire wound around a supporting core whose material may be magnetic or nonmagnetic. • The behavior of inductor is based in phenomena associated with magnetic field (( source of magnetic field is charge in motion, or current.

  11. Cont. inductor • Where V= voltage between inductor in (volt) L= inductor in (henery) = rate of change of current flow in amper = rate of change of time in second

  12. cont. inductor • Circuit symbol:-

  13. Capacitor • DEFINATION:- • is an electrical component that consists of two conductors separated by an insulator or dielectric material. His job is to sore energy like battery. • The behavior of inductor is based in phenomena associated with electric field ( the source of electric field is separation of charge or voltage.

  14. Cont. capacitor • Mathematical relation • Where i= current that in capacitor in (ampere) C= capacitance in (farad) = rated of change of voltage. = rate of change of time in second .

  15. Cont. capacitor • Circuit symbol:-

  16. The Basic Analytical Techniques • (1) OHM’s Law

  17. KVL (2) Kirchhoff’s law 1 The algebraic sum of all voltage around any closed path in circuit equal to zero

  18. KCL • Kirchhoff’s law 2 The algebraic sum of all current at any node in a circuit equal to zero

  19. Response of First-Order RL and RC Circuits My objective here extend to two main parts • Natural Response • Step Response

  20. Natural Response

  21. Step Response

  22. The Natural Response Of An RL Circuit Required • Find i(t) by obtain the D.E? • Solve the D.E.

  23. Solution (1)We use KVL to obtain an expression involving i,R,L (2) summing the voltage around the closed loop gives

  24. Remark about D.E • this equation a first order ordinary D.E. • it contains terms involving the ordinary derivative (). • The highest order derivative is 1 • L & R constant (they are not function of either dependent variable i or independent variable t) • We can say ,this equation is ordinary D.E with constant coefficients

  25. Solving the D.E • To solve the D.E we divide by L

  26. We transpose the term involving i to right hand side

  27. Multiply both sides by dt

  28. We divide by I

  29. We integrate both side

  30. the final answer is

  31. The Natural Response Of An RC Circuit • IS ANALOGOUS TO RL

  32. D.E. OF RC

  33. FINAL ANSWER

  34. Thank You For Attention

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