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The following test results were obtained for a 75 KVA, 2200/220 V, 60 HZ single-phase transformer:
A single-phase transformer has the following data: 10 kVA, 2200/220 V, 60 Hz and its circuit parameters are as follows: L1 = 23.75 H, L2 = 0.2375 H, R1 = 5.2 Ω, R2 = 0.052 Ω, M = 2.37 H. The transformer was connected to the supply of rated voltage. Write the voltage equations,
Al. A 1 kVA single-phase step-down transformer is connected to a 220 V, 50 Hz A.C. source and delivers power to a load. The winding resistance and reactance at secondary side are 0.02 2 and 0.1 12 respectively. The maximum value of core flux is 0.248 mWb and the secondary winding contains 1000 turns. Evaluate a. b. the voltage induced on the secondary side; the turn ratio of primary side to secondary side; the rated current on both sides; and...
Ideal, single-phase two-winding transformer A single-phase two-winding transformer is rated 20 kVA, 480/120 V, 60 Hz A source connected to the 480-V winding supplies an impedance load con- nected to the 120-V winding. The load absorbs 15 kVA at 0.8 p.f. lagging Ideal, single-phase two-winding transformer A single-phase two-winding transformer is rated 20 kVA, 480/120 V, 60 Hz A source connected to the 480-V winding supplies an impedance load con- nected to the 120-V winding. The load absorbs 15 kVA...
3.10 A 240/120 V, 4.8 kVA, 60 Hz, single-phase transformer is used to supply a 4.8 kVA resistive load (i.e., the load has a power factor of 1.0) at rated voltage of 120 V a) If you assume the transformer is ideal, what would be the magni- tude of the expected primary side (240 V side) current? b) Again, if you assume the transformer is ideal, what is the apparent impedance of the load viewed from the high-voltage side of...
A single-phase 10 kVA, 460/120 V, 60 Hz, transformer has an efficiency of 96% when it delivers 9 kW at 0.9 pf lagging. The transformer is connected as an autotransformer to supply load to a 460 V circuit from a 580 V source. Show the autotransformer connection Determine kVA rating of the autotransformer Determine the efficiency of the autotransformer at full-load with 0.9 pf lagging
Problem 2: A 10 KVA 2200/220 V, 50 Hz transformer core and full load copper losses are given as PCore = 153 W, PCu = 224 W. a) Find the maximum efficiency b) Determine the all-day efficiency under following load pattern: 1. 2 hrs at 5/4 load 2. 6 hrs at full load 3. 8 hrs at 2 load 4. 4 hrs at 4 load 5. 4 hrs at no load
step by step please
The following data were obtained for a 20-kVA, 60-Hz, 2400:240-V distribution transformer tested 5. at 60 Hz Power Voltage V Current, A 240 61.3 1038 8.33 With high-voltage winding open-circuited With low-voltage terminals short-circuited 122 257 Compute the efficiency at full-load current and the rated terminal voltage at 0.8 power factor. a. Assume that the load power factor is varied while the load current and secondary terminal voltage are b. held constant. Use a phasor diagram...
A single-phase transformer of nominal values of 10kVA, 440/220 V and 60 Hz supplies nominal load at a power factor of 0.85 lagging connected to the side of low voltage. The load operates at a nominal voltage and the transformer has the following parameters: R=0.160, X,=0.48 , R=0.040, X=0.12, R900, Xy=1300. Determine: 1. The voltage regulation of the transformer. 2. The efficiency of the transformer.
A 75-kVA, 4900-250-V,50-Hz, single-phase transformer has the following parameters expressed in ohms: RLS = 0.005 RHS = 2.477 RfeHS = 44,167 XLS = 0.0115 XHS = 4.8419 XMHS = 7,798.2 The transformer is operating in the step-down mode, delivering 70 % of the rated load at rated voltage and 0.98 p.f. lagging. Determine the magnitude of the input impedance of the combined transformer and load in Ohms.
can you calculate this question and explain why?
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1. A 250-kVA, 11000/2200-V, 50-Hz, single-phase transformer has the following parameters: RI 1.3 , R2 0.05 , Rel 193 k2, X1 4.5 Q X2 0.16 2 I,- 80 kQ Xml (a) Draw the approximate equivalent circuit of the transformer showing all the circuit parameters referred to the low-voltage side. Use the approximate equivalent circuit to calculate the input voltage and voltage regulation of the transformer when it delivers full load at...