ELE 1001 Basic Electrical Technology L11 ELECTROMAGNETISM Dept
ELE 1001: Basic Electrical Technology L-11 ELECTROMAGNETISM Dept. of E&E, MIT, Manipal 1
ELE 1001: Basic Electrical Technology Objective Ø Find self and mutual inductance of magnetically coupled coils. Ø Apply dot rule to find the sign of mutually induced emf in series and parallel magnetic circuits. Dept. of E&E, MIT, Manipal 2
ELE 1001: Basic Electrical Technology Contents Ø Ø Ø Ø Self Induced emf Mutually induced emf Self & mutual inductance Coupling coefficient Dot rule Coils in series-aiding Coils in series-opposing Coils in parallel Dept. of E&E, MIT, Manipal 3
ELE 1001: Basic Electrical Technology Self Induced EMF Statically induced emf can be further divided into: – Mutually induced emf – Self induced emf Self Induced EMF : The induced emf in a coil is proportional to the rate of the change of the magnetic flux passing through it due to its own current. This proportionality constant is called the self inductance, L. The negative sign indicates that induced emf is opposing the cause producing it. Dept. of E&E, MIT, Manipal 4
ELE 1001: Basic Electrical Technology Mutually Induced emf Mutually induced EMF: The induced emf in a coil due to the change of flux produced by the change of current in the nearby coil. This proportionality constant is called the mutual inductance, M Dept. of E&E, MIT, Manipal 5
ELE 1001: Basic Electrical Technology Self & Mutual Inductance Current flow i 1, in coil ‘C 1’ produces self induced emf e 1 in it and mutually induced emf e 2 in nearby coil ‘C 2’ ɸ 1: Total flux developed due to i 1 ɸ 11: flux linking with C 1 ɸ 12: flux linking with C 2 Dept. of E&E, MIT, Manipal 6
ELE 1001: Basic Electrical Technology Self & Mutual Inductance Self induced emf, e 1 in ‘C 1’ or Mutual induced emf, e 2 in ‘C 2’ or Hence, (If µr is constant, is constant) Unit: Henry (H) Dept. of E&E, MIT, Manipal 7
ELE 1001: Basic Electrical Technology Coupling Coefficient • Gives idea about the magnetic coupling between the two coils. • when the entire flux in one coil links with the other, the coupling coefficient is its maximum value i. e. 1. Dept. of E&E, MIT, Manipal 8
ELE 1001: Basic Electrical Technology Coupling Coefficient Dept. of E&E, MIT, Manipal 9
ELE 1001: Basic Electrical Technology Dot Rule Polarity of mutually induced voltage depends on- Ø Ø The current directions The physical construction of the coils Dot rule helps to determine the sign of mutually induced voltage without going into the details of physical construction. Dept. of E&E, MIT, Manipal 10
ELE 1001: Basic Electrical Technology Dot Rule Additive Coupling → Fluxes are aiding Can be represented as : Current enters (or leaves) the dotted terminal on two coils. Sign of M terms same as sign of L terms Dept. of E&E, MIT, Manipal 11
ELE 1001: Basic Electrical Technology Dot Rule Subtractive coupling Fluxes are opposing Current enters the dotted terminal in one coil and leaves the dotted terminal in other coil: Sign of M terms opposite to sign of L terms Dept. of E&E, MIT, Manipal 12
ELE 1001: Basic Electrical Technology Coils in Series – Aiding + M L 1 L 2 → L 1 + L 2 + 2 M Dept. of E&E, MIT, Manipal 13
ELE 1001: Basic Electrical Technology Coils in Series – Opposing + Equivalent circuit M L 1 L 2 L 1 + L 2 - 2 M Dept. of E&E, MIT, Manipal 14
ELE 1001: Basic Electrical Technology Exercise 1. The total inductance of two coils A and B, when connected in series is 0. 5 H or 0. 2 H, depending on the relative directions of the currents in the coils. Coil A, when isolated from coil B, has a self–inductance of 0. 2 H. Calculate (a) the mutual inductance between two coils, (b) the self inductance of the coil B , (c) the coupling coefficient between the two coils , and (d) the two possible values of the emf induced in coil A when the current in the series combination decreases at 1000 A/s. Ans: (a) 0. 075 H; (b) 0. 15 H ; (c) 0. 433 ; (d) 275 V , 125 V Dept. of E&E, MIT, Manipal 15
ELE 1001: Basic Electrical Technology Exercise 2. Two coils with inductances in the ratio 1: 4 have a coupling coefficient k=0. 6. When these coils are connected in series aiding the equivalent inductance is 44. 4 m. H. Find L 1, L 2, and M. Ans: L 1 =6 m. H L 2 =24 m. H M =7. 2 m. H Dept. of E&E, MIT, Manipal 16
ELE 1001: Basic Electrical Technology Summary Ø Magnetically coupled coils will have self and mutual inductances. Ø Sign of mutually induced emf can be represented using dot rule without going into the details of physical construction. Dept. of E&E, MIT, Manipal 17
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