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Sunday, March 3, 2019

Single Phase Transformer

Transformer BEE2123 ELECTRICAL MACHINES Mohd Rusllim Bin Mohamed Ext 2080 A1-E10-C09 emailprotected edu. my MRM 05 Learning Outcomes ? At the difference of the lecture, student should to ? Understand the principle and the nature of static machines of transformer. Perform an abridgment on transformers which their principles atomic number 18 basic to the understanding of galvani breakg machines. ? MRM 05 Introduction ? ? ? ? A transformer is a static machines. The word transformer? comes form the word transform?.Transformer is non an energy conversion device, but is a device that changes AC electric part at one potency level into AC electrical world-beater at another voltage level through the achieve of magnetised field, without a change in frequency. It arsehole be any to increment or step down. Transmission System TX1 TX1 Gene ration institutionalise 33/13. 5kV 13. 5/6. 6kV Distributions TX1 TX1 MRM 05 6. 6kV/415V Consumer Transformer Construction ? Two graphic s ymbols of iron- nerve center twisting a) b) Core type construction Shell type construction ? Core type construction MRM 05 Transformer Construction ? Shell type construction MRM 05 Ideal Transformer ? An ideal transformer is a transformer which has no loses, i. e. it? s crook has no ohmic tube, no magnetic leakage, and therefore no I2 R and core loses. ? However, it is impossible to realize such a transformer in practice. ? Yet, the approximate characteristic of ideal transformer ordain be used in characterized the practical transformer. N1 N2 I1 V1 E1 E2 I2 V2 V1 Primary electric potential V2 Secondary electromotive force E1 Primary induced Voltage E2 unessential induced Voltage N1N2 Transformer ratio MRM 05 Transformer equation ? Faraday? s Law states that, ?If the flux passes through a drum roll of wire, a voltage will be induced in the turns of wire. This voltage is directly proportional to the rate of change in the flux with appraise of time. Vind ? pote ntial drop ind d? (t ) dt Lenz? s Law If we have N turns of wire, Vind ? electromotive force ind d? (t ) ? ?N dt MRM 05 Transformer Equation ? For an ac sources, ? Let V(t) = Vm sin? t i(t) = im sin? t Since the flux is a sinusoidal function ?(t ) ? ? m sin ? t Then Therefore d? m sin ? t Vind ? Emf ind ? ? N dt ? ? N m romaine lettuce lettuce lettuce ? t Thus Vind ? Emfind (max) ? N m ? 2? fN? m N m 2? fN? m ? ? ? 4. 44 fN? m 2 2 MRM 05 Emf ind ( rms) Transformer Equation For an ideal transformer E1 4. 44 fN1? m (i) ? In the equilibrium condition, both(prenominal) the input mightiness will be equaled to the output forcefulness, and this condition is verbalise to ideal condition of a transformer. E2 4. 44 fN 2? m input business office ? output power V1 I1 romaine lettuceine lettuce lettuceine lettuce ? ? V2 I 2 cos ? ? V1 I 2 ? V2 I1 ? From the ideal transformer circuit, note that, E1 ? V1 and E2 ? V2 ? Hence, substitute in (i) MRM 05 Transformer Equation Ther efore, E1 N1 I 2 ? ? ? a E2 N 2 I1 Where, a? is the Voltage Transformation Ratio which will resolve whether the transformer is going to be step-up or step-down For a 1 For a E2 E1 E2 MRM 05Step-down Step-up Transformer Rating ? Transformer rating is normally written in terms of Apparent situation. ? Apparent power is actually the product of its rated present-day(prenominal) and rated voltage. VA ? V1I1 ? V2 I 2 ? Where, ? I1 and I2 = rated current on original and unoriginal winding. ? V1 and V2 = rated voltage on primary and second-string winding winding. ? Rated currents are actually the wide lodge currents in transformer MRM 05 pattern 1. 1. 5kVA bingle physical body angle transformer has rated voltage of 144/240 V. Finds its bountiful burden current. Solution 1ergocalciferol I1FL ? ? 10. 45 A 144 1500 I 2 FL ? ? 6A 240 MRM 05 spokesperson 2.A wiz phase transformer has four hundred primary and one C0 secondary turns. The net cross-sectional area of the core i s 60m2. If the primary winding is connected to a 50Hz supply at 520V, figure out a) The induced voltage in the secondary winding b) The peak measure out of flux density in the core Solution N1=400 V1=520V A=60m2 N2= snow0 V2=? MRM 05 Example 2 (Cont) a) Know that, N1 V1 a? ? N 2 V2 400 520 ? b busted0 V2 V2 ? 1300V b) Emf, E ? 4. 44 fN ? m ? 4. 44 fN ? Bm ? A? known, E1 ? 520V , E2 ? 1300V E ? 4. 44 fN ? Bm ? A? 520 ? 4. 44(50)(400)( Bm )(60) Bm ? 0. 976 x10 ? 5Wb / m 2 (T ) MRM 05 Example 3.A 25kVA transformer has 500 turns on the primary and 50 turns on the secondary winding. The primary is connected to 3000V, 50Hz supply. Find Full load primary and secondary current b) The induced voltage in the secondary winding c) The supreme flux in the core Solution VA = 25kVA N1=500 V1=3000V N2=50 V2=? a) MRM 05 Example 3 (Cont) a) Know that, VA ? V ? I I1FL VA 25 ? 103 ? ? ? 8. 33 A V1 3000 b) Induced voltage, N1 I 2 a? ? N 2 I1 ? 8. 33 ? I 2 ? 500? ? ? 83. 3 A ? 50 ? I1 ? 8. 33 ? E2 ? E1 ? 3000? ? ? 300V I2 ? 83. 3 ? c) Max flux E ? 4. 44 fN ? 300 ? 4. 44(50)(50)? ? ? 27mWb MRM 05Practical Transformer (Equivalent roach) I1 R1 X1 Ic V1 RC Io I1 Im level Xm E1 E2 V2 N1 N2 I2 R2 X2 V1 = primary supply voltage V2 = second terminal (load) voltage E1 = primary winding voltage E2 = second winding voltage I1 = primary supply current I2 = 2nd winding current I1? = primary winding current Io = no load current Ic = core current Im = magnetism current R1= primary winding enemy R2= 2nd winding resistance X1= primary winding leakage reactance X2= 2nd winding leakage reactance Rc MRM 05= core resistance Xm= magnetism reactance Single frame Transformer (Referred to Primary) ? Actual MethodI1 R1 X1 Ic Io I2 Im Load RC Xm E1 E2 V2 R2 X2 N1 N2 I2 V1 ? N1 ? R2 ? ? ? N ? R2 ? ? 2? ? N1 ? X2? ? ? N ? X2 ? ? 2? 2 2 OR R2 ? a R2 2 ?N ? E1 ? V2 ? ? 1 ? V2 ? N ? ? 2? I I2 ? 2 a MRM 05 OR V2 ? aV2 OR X 2 ? a2 X 2 Single chassis Transformer (Referred to Primary) ? bumpy M ethod I1 R1 X1 R2 X2 Ic V1 RC Io I2 Im Load Xm E1 E2 N1 N2 I2 V2 ?N ? R2 ? ? 1 ? R2 ? N ? ? 2? ?N ? X2? ? 1 ? X2 ? N ? ? 2? 2 2 OR R2 ? a R2 2 OR X 2 ? a2 X 2 ?N ? E1 ? V2 ? ? 1 ? V2 ? N ? ? 2? I I2 ? 2 a MRM 05 OR V2 ? aV2 Single Phase Transformer (Referred to Primary) ? Approximate Method I1 R01 X01V1 aV2 In few application, the fervor branch has a small current compared to load current, then it may be neglected without causing serious error. ?N ? R2 ? ? 1 ? R2 ? N ? ? 2? ?N ? X2? ? 1 ? X2 ? N ? ? 2? 2 2 OR R2 ? a R2 2 ?N ? V2 ? ? 1 ? V2 ? N ? ? 2? OR V2 ? aV2 OR X 2 ? a2 X 2 R01 ? R1 ? R2 MRM 05 X 01 ? X 1 ? X 2 Single Phase Transformer (Referred to Secondary) ? Actual Method I1 R1 X1 Ic Io I2 Im Xm R2 X2 V1 a RC V2 ?N ? R1 R1 ? ? 2 ? R1 OR R1 ? 2 ? N ? a ? 1? ?N ? X 1 ? ? 2 ? X 1 OR ? N ? ? 1? 2 2 ?N ? V V1 ? ? 2 ? V1 OR V1 ? 1 ? N ? a ? 1? MRM 05 X1 ? X1 a2Single Phase Transformer (Referred to Secondary) ? Approximate Method I1 R02 X02 Neglect the exci tation branch V1 a V2 R02 ? R1 ? R2 X 02 ? X 1 ? X 2 ?N ? R1 R1 ? ? 2 ? R1 OR R1 ? 2 ? N ? a ? 1? ?N ? X 1 ? ? 2 ? X 1 OR ? N ? ? 1? 2 2 ? N2 ? V ? ?V1 OR V1 ? 1 V1 ? ? N1 ? a ? ? I1 ? aI1 MRM 05 X1 ? X1 a2 Example 4. For the parameters obtained from the streamlet of 20kVA 2600/245 V single phase transformer, tinct all the parameters to the exalted voltage incline if all the parameters are obtained at lower voltage attitude side. Rc = 3. 3? , Xm =j1. 5? , R2 = 7. 5? , X2 = j12. 4? Solution Given Rc = 3. 3? , Xm =j1. 5? , R2 = 7. ? , X2 = j12. 4? MRM 05 Example 4 (Cont) i) Refer to H. V side (primary) E1 V1 2600 a? ? ? ? 10. 61 E2 V2 245 R2 ? a 2 R2 2 V2 ? aV2 To refer parameters to primary, Use R2? =(10. 61)2 (7. 5) = 844. 65? , X2? =j(10. 61)2 (12. 4) = 1. 396k? Rc? and Xc? becoz parameters were read from secondary side Rc? =(10. 61)2 (3. 3) = 371. 6? , Xm? =j(10. 61)2 (1. 5) = j168. 9 ? MRM 05 2nd I I2 ? 2 X2? a X2 a Example (What if.. ) 4. For the parameters obt ained from the turn up of 20kVA 245/2600 V single phase transformer, refer all the parameters to the gritty voltage side if all the parameters are obtained at lower voltage side side.Rc = 3. 3? , Xm =j1. 5? , R2 = 7. 5? , X2 = j12. 4? Solution Given Rc = 3. 3? , Xm =j1. 5? , R2 = 7. 5? , X2 = j12. 4? MRM 05 Power Factor ? Power factor = angle between Current and Voltage, cos ? V I ? I ? = -ve Lagging ? V I V ? = +ve starring(p) ?=1 unity MRM 05 Example 5. A 10 kVA single phase transformer 2000/440V has primary resistance and reactance of 5. 5? and 12? prizeively, while the resistance and reactance of secondary winding is 0. 2? and 0. 45 ? respectively. Calculate i. ii. The parameter referred to high voltage side and draw the akin circuit The approximate nurture of secondary voltage at salutary load of 0. lag power factor, when primary supply is 2000V. MRM 05 Example 5 (Cont) Solution R1=5. 5 ? , X1=j12 ? R2=0. 2 ? , X2=j0. 45 ? i) Refer to H. V side (primary) E V 2000 a? 1 ? 1 ? ? 4. 55 E2 V2 440 I1 R01 9. 64 V1 X01 21. 32 aV2 R2? =(4. 55)2 (0. 2) = 4. 14? , X2? =j(4. 55)20. 45 = j9. 32 ? Therefore, R01=R1+R2? =5. 5 + 4. 13 = 9. 64 ? MRM X01=X1+X2? =j12 + j9. 32 = j21. 3205? Example 5 (Cont) Solution ii) Secondary voltage p. f = 0. 8 Cos ? = 0. 8 ? =36. 87o 10 ? 103VA Full load, I FL ? ? 5A 2000V From eqn. cct, 1 V1? 0o ? ( R01 ? jX 01)( I1? ? ? o ) ? aV2 2000? 0o ? (9. 64 ? j 21. 32)(5? ? 36. 87 o ) ? (4. 5)V2 V2 ? 422. 6? 0. 8o MRM 05 Transformer losings ? i. ii. Generally, there are deuce types of losses Iron losses - occur in core parameters bullshit losses - occur in winding resistance i. Iron Losses Piron ? Pc ? ( I c) 2 Rc ? Popen circuit ii. Copper Losses Pcopper ? Pcu ? ( I 1) 2 R1 ? ( I 2) 2 R2 ? Pshort circuit or if referred , Pcu ? ( I 1) 2 R01 ? ( I 2) 2 R02 MRM 05 Poc and Psc will be discusses later in transformer show Transformer Efficiency ? To check the performance of the device, by comparing the output with respect to the input . ? The higher the cleverness, the better the system. Efficiency ,? Output Power ? one hundred% infix Power Pout ? ? light speed% Pout ? Plosses ? V2 I 2 cos ? ?100% V2 I 2 cos ? ? Pc ? Pcu ? ( fullload) ? ?(load n ) ? VA cos ? ?100% VA cos ? ? Pc ? Pcu nVA cos ? ?100% 2 nVA cos ? ? Pc ? n Pcu Where, if ? load, and then n = ? , ? load, n= ? , 90% of full load, n =0. 9 Where Pcu = Psc Pc = Poc MRM 05 nmax ? ? Poc VArated ? P ? ? sc ? ? ? VArated ? ? ? ? Pc VArated ? P ? ? cu ? ?VArated ? ? ? Voltage commandment ? The measure of how well a power transformer maintains constant secondary voltage over a range of load currents is called the transformers voltage formula ?The purpose of voltage regulation is basically to lay the percentage of voltage drop between no load and full load. MRM 05 Voltage economy ? For calculation of Voltage statute, terminologies may be sort of confusing, hence you need always work out in current, I (A) commit of view Full-load means th e point at which the transformer ? is operating at maximum permissible secondary current ? When connected to load, current being drawn, hence Voltage drop) ? ? No Load means at Rated At no load, current almost zero, so takes Voltage at rated MRM 05 value think like an open circuit) Voltage Regulation Voltage Regulation can be determine based on 3 methods a) b) c) Basic comment brusk circuit turn out Equivalent move MRM 05 Voltage Regulation (Basic Defination) ? In this method, all parameter are being referred to primary or secondary side. ? Can be represented in either ? tear down voltage Regulation Note that VNL ? VFL V . R ? ?100% VNL (at Rated Value) VNL ? Up Voltage Regulation VNL ? VFL V . R ? ?100% VFL MRM 05 Voltage Regulation (Short circuit Test) ? In this method, direct formula can be used. V . R ? V . R ? Vsc cos sc ? ? p. f ? V1 ?100% If s/c stress on primary side Vsc cos c ? ? p. f ? V2 ?100% If s/c block out on primary side Note that ? is for Lagging po wer factor +? is for Leading power factor Must check that Isc must equal to IFL (I at Rated), otherwise MRM 05 can? t use this formula Voltage Regulation (Equivalent Circuit ) ? In this method, the parameters must be referred to primary or secondary V . R ? I1 R01 cos ? p. f ? X 01 sin ? p. f V1 I 2 R02 cos ? p. f ? X 02 sin ? p. f V2 ? 100% 100% If referred to primary side V . R ? ? If referred to secondary side Note that +? is for Lagging power factor ? is for Leading power factor MRM 05 assume j terms 0Comment on VR ? Purely tolerant Load ? 3 % is considered poor VR Normally poor than Resistive Load ? Inductive Load ? ? Example of application Desired Poor VR ? ? demean lighting AC arc welders MRM 05 Example 6. In example 5, determine the Voltage regulation by using down voltage regulation and equivalent circuit. Question 5 A 10 kVA single phase transformer 2000/440V and V1? 0o ? ( R01 ? jX 01)( I1? ? ? o ) ? aV2 2000? 0o ? (9. 64 ? j 21. 32)(5? ? 36. 87 o ) ? (4. 55)V2 V 2 ? 422. 6? 0. 8o MRM 05 Example Solution Down voltage Regulation Know that, V2FL=422. 6V V2NL=440V Therefore, V .R ? VNL ? VFL ? 100% VNL 440 ? 422. 6 ? ?100% 440 ? 3. 95% MRM 05 Example 6 (Cont) Equivalent Circuit I1=5A R01=9. 64? X01 = 21. 32? V1=2000V, 0. 8 lagging p. f V . R ? I1 R01 cos ? p. f ? X 01 sin ? p. f V1 ? 100% 5 ? 9. 64(0. 8) ? 21. 32(0. 6)? ? ? 100% 2000 ? 5. 12% MRM 05 Example A short circuit test was performed at the secondary side of 10kVA, 240/100V transformer. baffle the voltage regulation at 0. 8 lagging power factor if Vsc =18V Isc =100 Psc=240W Solution check into 7. I FL2 I FL2 VA 10000 ? ? ? 100 A V 100 ? I sc , Hence, we can use short-circuit method V . R ? Vsc cos sc ? ? p. ? V2 MRM 05 ?100% Example 7 (Cont) V . R ? Vsc cos sc ? ? p. f ? V2 ? 100% Given p. f ? 0. 8 Hence, ? p. f ? cos ? 1 0. 8 ? 36. 87 o Know that , Psc ? Vsc I sc cos ? sc ? sc ? cos ? 1 ? ? ? Psc ? ? ? ? Vsc I sc ? 18 cos 82. 34o ? 36. 87 o V . R ? ?100% 100 MRM 05 ? 12. 62% ? ? 240 ? ? ? 82. 34 o ? cos ? 1 ? ? (18)(100) ? ? ? ? Example 8. The following data were obtained in test on 20kVA 2400/240V, 60Hz transformer. Vsc =72V Isc =8. 33A Psc=268W Poc=one hundred seventyW The measuring instrument are connected in the primary side for short circuit test. match the voltage regulation for 0. 8 lagging p. f. use all 3 methods), full load efficiency and half(prenominal) load efficiency. MRM 05 Example 8 (Cont) V . R ? Vsc cos sc ? ? p. f ? V2 ? 100% Given p. f ? 0. 8 Hence, ? p. f ? cos ?1 0. 8 ? 36. 87 o Know that , Psc ? Vsc I sc cos ? sc ? Psc ? ? sc ? cos ? ?V I ? ? ? sc sc ? ? 268 ? ? ? 63. 4o ? cos ? 1 ? ? (72)(8. 33) ? ? ? ?1 Z sc ? Vsc 72 ? ? 8. 64? I sc 8. 33 ? Z sc ? 8. 64? 63. 4o ? 3. 86 ? j 7. 72 ? R01 ? jX 01 because connected to primary side. MRM 05 Example 8 (Cont) 1. Short Circuit method , V . R ? Vsc cos sc ? ? p. f ? V1 ? 100% 72 cos 63. 4o ? 36. 87 o V . R ? ?100% ? 2. 68% 2400 ? ? 2. Equivalent circuit , V .R ? I1 R01 cos ? p. f ? X 01 sin ? p. f V1 ? ? ? 100% 20000 ? 3. 86(0. 8) ? 7. 72(0. 6)? 2400 ? 100% ? 2. 68% 2400 MRM 05 Example 8 (Cont) 3. Basic Defination , V1 ? I1Z 01 ? aV2 ? 20000 ? 2400 ? o? o 2400? 0 ? ? ? ? 36. 87 ? 8. 64? 63. 4 ? ? ? V2 ? 2400 ? ? 240 ? V2 ? 233. 58? 0. 79 o V o ? ? VNL ? VFL V . R ? ?100% VNL ? 240 ? 233. 58 ? 100% 240 ? 2. 68% MRM 05 Example 8 (Cont) ?( full load) (1)(20000)(0. 8) ? ?100% ? 97. 34% 2 (1)(20000)(0. 8) ? 170 ? (1) (268) (0. 5)(20000)(0. 8) ? ?100% ? 97. 12% 2 (0. 5)(20000)(0. 8) ? 170 ? (0. 5) (268) ?( half load) MRM 05 Measurement on Transformer ? i. ii.There are two test conducted on transformer. disperse Circuit Test Short Circuit test ? ? ? The test is conducted to determine the parameter of the transformer. Open circuit test is conducted to determine magnetism parameter, Rc and Xm. Short circuit test is conducted to determine the copper parameter depending where the test is performed. If performed at primary, hence the parameters are R01 andX0105and vice -versa. MRM Open-Circuit Test ? ? Voc Ic Measurement are at low voltage side Poc ? Voc I oc cos ? oc From a given test parameters, ? ?1 ? P oc Voc ? oc ? cos ? Voc ? V I ? ? ? oc oc ? I sin? Im Ic oc oc Ioc RcXm ?oc Ioccos? oc Hence, I c ? I oc cos ? oc ? Im I m ? I oc sin ? oc Then, Rc and X m , Voc Voc Rc ? , Xm ? Ic Im Note If the question asked parameters referred to high voltage side, the parameters (Rc and Xm) obtained need to be referred to high voltage side MRM 05 rotate Test ? ? Measurement are at high voltage side If the given test parameters are taken on primary side, R01 and X01 will be obtained. Or else, viceversa. R01 X01 Psc ? Vsc I sc cos ? sc ? Psc ? ? sc ? cos ? ?V I ? ? ? sc sc ? Hence, Vsc Z 01 ? sc I sc ? 1 MRM 05 For a case referred to Primary side Z 01 ? R01 ? jX 01 Example 9.Given the test on 500kVA 2300/208V are as follows Poc = 3800W Psc = 6200W Voc = 208V Vsc = 95V Ioc = 52. 5A Isc = 217. 4A Determine the transformer parameters and draw equivalent circ uit referred to high voltage side. Also cipher appropriate value of V2 at full load, the full load efficiency, half load efficiency and voltage regulation, when power factor is 0. 866 lagging. MRM 05 1392? , 517. 2? , 0. 13? , 0. 44? , 202V, 97. 74%, 97. 59%, 3. 04% Example 9 (Cont) From Open Circuit Test, Poc ? Voc I oc cos ? oc ? 3800 ? ? ? 69. 6o ? oc ? cos ? ? (52. 5)(208) ? ? ? I c ? I oc cos ? oc ? 1 Voc Ic Iocsin? oc IocIoccos? oc ? 52. 5 cos 69. 6o ? 18. 26 A I m ? I oc sin ? oc ? 52. 5 sin 69. 6o ? 49. 2 A ?oc Im ? MRM 05 Example 9 (Cont) Since Voc=208V i. e. low voltage side ? all tuition are taken on the secondary side (low voltage side) Voc 208 Rc ? ? ? 11. 39? I c 18. 26 Voc 208 Xm ? ? ? 4. 23? I m 49. 21 Parameters referred to high voltage side, ? E1 ? ? 2300 ? Rc ? Rc ? ? ? 11. 39? ? ? 1392? ?E ? ? 208 ? ? 2? 2 2 ? E1 ? ? 2300 ? ? ? ? 4. 23? Xm? Xm? ? ? 517 ? MRM 05 . 21? ? 208 ? ? E2 ? 2 2 Example 9 (Cont) From Short Circuit Test, First, check the Isc I FL1 VA 500 ? 103 ? ? ? 217. 4 A V1 2300 Since IFL1 =Isc , ? ll edition are actually taken on the primary side Psc ? Vsc I sc cos ? sc ? 6200 ? ? ? 72. 53o ? sc ? cos ? ? (95)(217. 4) ? ? ? ?1 ?V ? Z 01 ? ? sc sc ? I ? ? sc ? ? 95 ? o o 72. 53 ? 0. 44? 72. 53 ? 217. 4 ? MRM 05 ? 0. 13 ? j 0. 42? Example 9 (Cont) Equivalent circuit referred to high voltage side, R01 0. 13? X01 0. 42? V1 Rc 1392? Xm 517. 21? V2? =aV2 MRM 05 Example 9 (Cont) For V2 at full load, neglect the magnetism parameters, R01 0. 13? X01 0. 42? v1 v2? pf ? cos ? ? 0. 866 ? ? cos ? 1 0. 866 ? 30o MRM 05 Example 9 (Cont) Efficiency,? ? ? VA cos ? ? FL ? ? ? ?100% ? VA cos ? ? Psc ? Poc ? ? ? 500 ? 103 )(0. 866) ? ? 100% (500 ? 103 )(0. 866) ? 6200 ? 3800 ? ? ? 97. 74% ? ? nVA cos ? ?1 L ? ? ? ? 100% 2 nVA cos ? ? n 2 Psc ? Poc ? ? ? ? (0. 5)(500 ? 103 )(0. 866) ? ? 100% 3 2 ? (0. 5)(500 ? 10 )(0. 866) ? (6200)(0. 5) ? 3800 ? ? 97. 59% MRM 05 Example 9 (Cont) Voltage Regulation, ?Vsc cos ? sc ? ? pf ? V . R ? ? ? ?100% E1 ? ? ? (95) cos? 72. 53 ? 30 ? ? 100% 2300 ? ? ? 3. 04% ? ? MRM 05 Test Yourself on Final Exam Q ? Following are the test result of a 12 kV A, 415 V / 240 V, 50 Hz, two winding single phase transformer Open circuit test (reading taken on low voltage side) 240 V 4. 2 A 80 WShort circuit test (reading taken on high voltage side) 9. 8 V ? Determine i. 28. 9 A 185 W The values of Rp. Rs. Xp, Xs, Xm and Rc, assuming an approximate equivalent circuit. ii. The efficiency of the transformer at full load and 0. 8 lagging power factor. iii. The voltage regulation at full load and 0. 8 lagging power factor. MRM 05 Solution i. Solution ? ? ? ? Eff = 97. 3 % ? V. R = 2. 31 % Z = 57. 14 ? Rc = 714. 3 ? Xm = 57. 31 a = 1. 73 R1 = 0. 11 ? R2 = 0. 037 ? X1 = 0. 13 ? X2 = 0. 043 ? ? Refer to Primary, ? ? ? ? ? MRM 05 Any Questions Test 1 coming curtly Make sure you prepared for that MRM 05

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