2.5 mva transformer manufacturers in india
2500 kva transformer manufacturers in india, view 2.5 mva transformer price, A Full Range Of 2.5 mva power transformer suppliers in africa.
The 2500 kva dry type transformer specifications are widely used in – Environmentally sensitive areas (e.g. water protection areas), Chemical, oil and gas industry, Inner-city substations, Indoor and underground substations, Fire-risk areas (e.g. forests) as well as in Renewable generation (e.g. off-shore wind turbines).
2.5 mva transformer manufacturers in india
2500 kva transformer manufacturers in india
2500 kva pad mount transformer
Carries A Complete Line Of 2.5 mva dry type transformer, 2.5 mva transformer Exporter in india, view 2500 kva transformer price in india.
Click here for the 2500 kva transformer price in India. We are one of the leading suppliers as well as 2500 kva transformer manufacturers in India. Learn more about the 2.5 mva transformer weight as well as the 2500 kva oil filled transformer dimensions here.
A pad mount or a 2500 kva pad mount transformer is a kind of a ground mounted electric power distribution transformer. This pad mounted 2500 kva pad mounted transformer has been locked in a steel cabinet and mounted on a concrete pad. Since all energized connection points in the 2500 kva transformer amps have been securely enclosed in a grounded metal housing, these 2500 kva pad mount transformer dimensions can be installed in places which do not have room for a fenced enclosure. Pad mount 2.5 mva transformer impedance could used with underground electric power distribution lines at service drops.
These 2500 kva transformer specifications are used to step down the primary voltage on the line to the lower secondary voltage, which is then supplied to utility customers. A single 2.5 mva transformer could be used to serve one large building, or many homes. Check the cost of 2.5 mva transformer here. You can find more details on the 2500 kva transformer for sale in the link given here. We customise 2.5 mva transformer nameplate details as required by the buyer. For more details on the 2.5 mva transformer oil capacity click the link given.
The pad mounted 2.5 mva transformer current rating are made in power ratings from around 75 kVA to around 5000 kVA. The 2.5 mva transformer manufacturers in india often include built-in fuses and switches. Click here to inquire about the 2500 kva pad mount transformer weight. Primary power cables of the 2.5 mva power transformer may be connected with elbow connectors, which in turn could be operated when energized using a hot stick. This operation in the 2.5 mva dry type transformer allows for flexibility in repair and maintenance.
We manufacture transformers for a wide extend of industries,if you’ve got particular prerequisites for your 3 phase transformers at that point please request a cite along with your points of interest or get in touch via phone, we’re here to assist!
2.5 MVA = 2500kVA
Rating | 2.5MVA, 3PH, 415/6.6/11KV |
Frequency | 50 HZ |
LT Nominal Voltage | 415V, AC |
LT Breaker | 4000A, 3P, 415V MDO |
HT Nominal Voltage | 6.6/11KV, AC |
CT Ratio | 100/5A |
PT Ratio | 11/110V |
Capacity of Oil | 250 LTR |
Type of Oil | TC OIL |
Vector Group | Y-Y |
Empty Weight | 8000KG |
Full Weight | 7500KG |
Provisions | Can For Step Up and Step Down Application for Step Down Application Load Should be Balanced on 3PH |
2.5 mva transformer manufacturers export to | Africa, Bangladesh, Rwanda, Malaysia Tanzania, Nigeria, Kenya, Uganda, India, Malawi, Nepal |
Other Ratings | 10, 16, 25, 50, 63, 100, 160, 200, 315, 500, 630, 750 kVA |
all above transformer are | 11kV , 22kV, 33kV line |
Efficiency | 3, 4, 5 Star or Level II, Level III |
For Final 2500 kva transformer price in india Please Mail Us on info@rajasthanpower.in
India’s Largest Manufacturer Of 2500 kva pad mount transformer, Check 2.5 mva transformer oil capacity and cost of 2.5 mva transformer
The impedance of a transformer is the entire restriction offered to substituting current. This may be calculated for each winding.However, a rather basic test gives a practical strategy of measuring the comparable impedance of a transformer without isolating the impedance of the windings.
Calculation of Percentage Impedance
In arrange to decide proportionate impedance, one winding of the transformer is short-circuited. And a fair sufficient voltage is connected to the other winding to make full load current to stream within the short-circuited winding.This voltage is known as the impedance voltage.
Impedance Data for Single-Phase Transformers
kVA |
Suggested X/R Ratio |
Normal Range of Percent |
Impedance Multipliers** For Line-to-Neutral |
|
1Ø |
Calculation |
|
for %X |
for %R |
25.0 |
1.1 |
1.2–6.0 |
0.6 |
0.75 |
37.5 |
1.4 |
1.2–6.5 |
0.6 |
0.75 |
50.0 |
1.6 |
1.2–6.4 |
0.6 |
0.75 |
75.0 |
1.8 |
1.2–6.6 |
0.6 |
0.75 |
100.0 |
2.0 |
1.3–5.7 |
0.6 |
0.75 |
Rated Power (kva) |
High Voltage (kv) |
H.V.Tap range |
Low Voltage (kv) |
Connection symbol |
Short Circuit Impendence (%) |
No-load loss(W) | On-load loss(W) | No load current (%) |
|||
30 | 20 22 |
±5% ±2×2.5% |
0.4 | Yyn0 Dyn11 |
4 | 100 | 600 | 2.1 | |||
50 | 130 | 870 | 2 | ||||||||
63 | 150 | 1040 | 1.9 | ||||||||
80 | 180 | 1250 | 1.8 | ||||||||
100 | 200 | 1500 | 1.6 | ||||||||
125 | 240 | 1800 | 1.5 | ||||||||
160 | 290 | 2200 | 1.4 | ||||||||
200 | 330 | 2600 | 1.2 | ||||||||
250 | 400 | 3050 | 1.2 | ||||||||
315 | 480 | 3650 | 1.1 | ||||||||
400 | 570 | 4300 | 1 | ||||||||
500 | 680 | 5150 | 1 | ||||||||
630 | 4.5 | 810 | 6200 | 0.9 | |||||||
800 | 980 | 7500 | 0.8 | ||||||||
1000 | 1150 | 10300 | 0.7 | ||||||||
1250 | 1360 | 12000 | 0.6 | ||||||||
1600 | 1640 | 14500 | 0.6 | ||||||||
2000 | 1940 | 17100 | 0.6 | ||||||||
2500 | 2300 | 20260 | 0.5 |
kVA stands for Kilovolt-Ampere and is the rating regularly utilized to rate a transformer. The size of a transformer is decided by the kVA of the load. In numerous circumstances the power required by the load is proportionate to the rating of the transformer communicated in either VA or kVA. For case a 1KW (1000 Watts) load would require a 1kVA transformer @ unity power factor.
KVA calculation
For three phase KVA= (V*I*1.732)/1000
For single phase KVA= (V*I)/1000
MVA calculation-
For three phase MVA= (V*I*1.732)/100,000
For single phase MVA= (V*I)/1000,000
Transformer oil (moreover known as insulating oil) may be a uncommon type of oil which has fabulous electrical protection properties and is steady at high temperatures. Transformer oil is utilized in oil-filled electrical power transformers to insulate, stop arcing and corona release, and to disseminate the heat of the transformer (i.e. act as a coolant).
Main Dimensions of the 300-2500 kVA Standard Transformers with Oil Expansion Tanks | |||||||||||||||
Power | Max Voltage | Weight of Oil | Active Section Weight | Total Weight | Leng. A | Wid. B | Heig. C | D | F | ØG | L | M | N | S | T |
kVA | kV | kg | kg | kg | mm | mm | mm | mm | mm | mm | mm | mm | mm | mm | mm |
2500 | 6,3-11 | 1420 | 3645 | 6300 | 2395 | 1710 | 2365 | 1625 | 1000 | 200 | 70 | 310 | 400 | 450 | 330 |
15 | 1445 | 3630 | 6300 | 2395 | 1710 | 2380 | 1640 | 385 | |||||||
33 | 1485 | 3625 | 6345 | 2395 | 1410 | 2525 | 1690 | 485 | |||||||
Continuous Current Rating (A) |
8.3 kV |
9.9 kV |
15.5 kV |
||||||
Minimum Interrupting Capacity (A) |
Minimum Melt I2t (A2•s) |
Maximum Clear I2t (A2•s) |
Minimum Interrupting Capacity (A) |
Minimum Melt I2t (A2•s) |
Maximum Clear I2t (A2•s) |
Minimum Interrupting Capacity (A) |
Minimum Melt I2t (A2•s) |
Maximum Clear I2t (A2•s) |
|
30 |
200 |
1,800 |
9,400 |
200 |
1,800 |
9,500 |
200 |
1,800 |
10,000 |
40 |
250 |
2,900 |
14,000 |
250 |
2,900 |
14,000 |
250 |
2,900 |
19,000 |
50 |
330 |
6,300 |
30,000 |
330 |
6,300 |
30,000 |
330 |
6,300 |
33,000 |
65 |
400 |
9,300 |
33,000 |
400 |
9,300 |
34,000 |
400 |
9,300 |
40,000 |
80 |
300 |
11,600 |
56,000 |
300 |
11,600 |
56,000 |
350 |
11,600 |
62,000 |
100 |
450 |
20,600 |
76,000 |
450 |
20,600 |
76,000 |
450 |
20,600 |
116,000 |
125 |
470 |
32,100 |
120,000 |
500 |
32,100 |
150,000 |
|||
150 |
700 |
58,500 |
290,000 |
700 |
58,500 |
260,000 |
|||
165 |
800 |
82,200 |
395,000 |
800 |
82,200 |
365,000 |
|||
180 |
900 |
103,100 |
485,000 |
900 |
103,100 |
445,000 |
|||
250 |
1,000 |
148,500 |
690,000 |
||||||
250 1 |
1100 |
128,500 |
500,000 |
||||||
300 1 |
1,300 |
234,200 |
1,280,000 |
1230 |
234,200 |
1,300,000 |
|||
330 1 |
1,500 |
328,900 |
1,700,000 |
||||||
360 1 |
1,800 |
412,500 |
2,100,000 |
||||||
500 1 |
2,000 |
594,000 |
2,500,000 |
Continuous Current Rating (A) |
17.2 kV |
23 kV |
38 kV |
||||||
Minimum Interrupting Capacity (A) |
Minimum Melt I2t (A2•s) |
Maximum Clear I2t (A2•s) |
Minimum Interrupting Capacity (A) |
Minimum Melt I2t (A2•s) |
Maximum Clear I2t (A2•s) |
Minimum Interrupting Capacity (A) |
Minimum Melt I2t (A2•s) |
Maximum Clear I2t (A2•s) |
|
30 |
200 |
1,800 |
10,000 |
200 |
1,800 |
12,000 |
|||
40 |
250 |
2,900 |
19,500 |
250 |
2,900 |
20,000 |
|||
50 |
330 |
6,300 |
34,000 |
330 |
6,300 |
39,000 |
450 |
3,870 |
30,600 |
65 |
400 |
9,300 |
42,000 |
400 |
9,300 |
44,000 |
490 |
7,160 |
39,300 |
80 |
350 |
11,600 |
62,000 |
300 |
11,600 |
70,000 |
625 |
11,450 |
60,700 |
100 |
450 |
20,600 |
116,000 |
450 |
20,600 |
120,000 |
635 |
16,100 |
80,500 |
120 |
700 |
21,200 |
118,000 |
||||||
125 |
500 |
32,100 |
150,000 |
465 |
32,100 |
180,000 |
|||
140 |
800 |
36,240 |
163,000 |
||||||
150 |
700 |
58,500 |
320,000 |
||||||
165 |
900 |
82,200 |
430,000 |
||||||
250 1 |
900 |
128,500 |
650,000 |
||||||
300 1 |
1200 |
234,200 |
1,300,000 |
||||||
330 1 |
1500 |
328,900 |
1,700,000 |
Power | Max Voltage | Weight of Oil | Active Section Weight | Total Weight | Leng. A | Wid. B | Heig. C | D | F | ØG | L | M | N | S | T |
kVA | kV | kg | kg | kg | mm | mm | mm | mm | mm | mm | mm | mm | mm | mm | mm |
315 KVA | 6,3-11 | 245 | 820 | 1295 | 1525 | 750 | 1740 | 1035 | 670 | 150 | 50 | 310 | 330 | 178 | 150 |
15 | 270 | 840 | 1315 | 1540 | 760 | 1750 | 1040 | 385 | 330 | ||||||
33 | 295 | 850 | 1330 | 1600 | 775 | 1805 | 1105 | 485 | 350 | ||||||
400 KVA | 6,3-11 | 255 | 910 | 1360 | 1370 | 775 | 1595 | 1070 | 670 | 150 | 50 | 310 | 265 | 138 | 150 |
15 | 290 | 960 | 1460 | 1495 | 775 | 1710 | 1115 | 385 | 265 | ||||||
33 | 335 | 965 | 1525 | 1600 | 775 | 8155 | 1155 | 485 | 330 | ||||||
500 KVA | 6,3-11 | 300 | 1100 | 160 | 1600 | 760 | 1700 | 1150 | 670 | 150 | 50 | 310 | 330 | 263 | 150 |
15 | 315 | 1145 | 1690 | 1625 | 775 | 1765 | 1165 | 385 | 330 | ||||||
33 | 380 | 1175 | 1800 | 1675 | 805 | 1920 | 1220 | 485 | 350 | ||||||
630 KVA | 6,3-11 | 350 | 1280 | 1900 | 1680 | 790 | 1785 | 1185 | 670 | 150 | 50 | 310 | 330 | 263 | 150 |
15 | 340 | 1285 | 1895 | 1640 | 785 | 1780 | 1185 | 385 | 330 | ||||||
33 | 440 | 1405 | 2135 | 1700 | 810 | 1945 | 1255 | 485 | 350 | ||||||
800 KVA | 6,3-11 | 480 | 1530 | 2335 | 1860 | 945 | 1835 | 1190 | 820 | 150 | 50 | 310 | 400 | 263 | 150 |
15 | 475 | 1585 | 2385 | 1845 | 925 | 1870 | 1225 | 385 | |||||||
33 | 560 | 1625 | 2515 | 1950 | 925 | 2000 | 1255 | 485 | |||||||
1000 KVA | 6,3-11 | 540 | 1760 | 2690 | 1910 | 990 | 1900 | 1330 | 820 | 200 | 70 | 310 | 400 | 340 | 150 |
15 | 565 | 1840 | 2780 | 1915 | 965 | 1975 | 1330 | 385 | |||||||
33 | 650 | 1855 | 2900 | 1950 | 1015 | 2090 | 1360 | 485 | |||||||
1250 KVA | 6,3-11 | 685 | 2070 | 3345 | 2050 | 1010 | 2025 | 1380 | 820 | 200 | 70 | 310 | 400 | 340 | 150 |
15 | 670 | 2080 | 3345 | 2015 | 995 | 2090 | 1400 | 385 | |||||||
33 | 760 | 2130 | 3495 | 2005 | 1005 | 2245 | 1455 | 485 | |||||||
1600 KVA | 6,3-11 | 825 | 2415 | 4010 | 2100 | 1130 | 2110 | 1420 | 820 | 200 | 70 | 310 | 400 | 372 | 200 |
15 | 855 | 2545 | 4155 | 2020 | 1125 | 2110 | 1420 | 385 | |||||||
33 | 1000 | 2858 | 4405 | 2090 | 1185 | 2245 | 1455 | 485 | |||||||
2000 KVA | 6,3-11 | 1025 | 2730 | 4785 | 2265 | 1250 | 2255 | 1525 | 1000 | 200 | 70 | 310 | 400 | 372 | 200 |
15 | 1080 | 2765 | 4895 | 2270 | 1260 | 2160 | 1430 | 385 | |||||||
33 | 1185 | 2745 | 4985 | 2270 | 1275 | 2465 | 1635 | 485 | |||||||
2500 KVA | 6,3-11 | 1420 | 3645 | 6300 | 2395 | 1710 | 2365 | 1625 | 1000 | 200 | 70 | 310 | 400 | 450 | 330 |
15 | 1445 | 3630 | 6300 | 2395 | 1710 | 2380 | 1640 | 385 | |||||||
33 | 1485 | 3625 | 6345 | 2395 | 1410 | 2525 | 1690 | 485 |
How to use the full load chart to find kVA
A) Determine the secondary voltage of your transformer.
B) Sum up the total amperes required by the load.
C) From the full load current table below, select a transformer under the corresponding secondary voltage, with a standard kVA capacity and amperage equal to or higher than the sum required by the load.
kVA | Current in Amperes | ||||||
120V | 240V | 416V | 480V | 600V | 2400V | 4160V | |
0.25 | 2.08 | 1.04 | 0.6 | 0.52 | 0.41 | ||
0.5 | 4.16 | 2.08 | 1.2 | 1.04 | 0.83 | ||
0.75 | 6.25 | 3.13 | 1.8 | 1.56 | 1.25 | ||
1 | 8.33 | 4.17 | 2.4 | 2.08 | 1.67 | ||
1.5 | 12.5 | 6.25 | 3.6 | 3.13 | 2.5 | ||
2 | 16.7 | 8.33 | 4.81 | 4.17 | 3.33 | ||
3 | 25 | 12.5 | 7.21 | 6.25 | 5 | 1.25 | 0.72 |
5 | 41.6 | 20.8 | 12 | 10.4 | 8.33 | 2.08 | 1.2 |
7.5 | 62.5 | 31.2 | 18 | 15.6 | 12.5 | 3.12 | 1.8 |
10 | 83.3 | 41.6 | 24 | 20.8 | 16.6 | 4.16 | 2.4 |
15 | 125 | 62.5 | 36 | 31.2 | 25 | 6.25 | 3.6 |
25 | 208 | 104 | 60 | 52 | 41.6 | 10.4 | 6 |
37.5 | 312 | 156 | 90.1 | 78.1 | 62.5 | 15.6 | 9.01 |
50 | 416 | 208 | 120 | 104 | 83.3 | 20.8 | 12 |
75 | 625 | 312 | 180 | 156 | 125 | 31.2 | 18 |
100 | 833 | 416 | 240 | 208 | 166 | 41.6 | 24 |
150 | 1250 | 625 | 360 | 312 | 250 | 62.5 | 36 |
167 | 1391 | 695 | 401 | 347 | 278 | 69.5 | 40.1 |
250 | 2083 | 1041 | 600 | 520 | 416 | 104 | 60 |
333 | 2775 | 1387 | 800 | 693 | 555 | 138 | 80 |
Single Phase AC Motor Full Load Running Currents in Amperes and Recommended Transformer Ratings
Horsepower | Full Load Current (Amps) | Minimum Transformer KVA | ||
110-120V | 208V | 220-240V* | ||
0.5 | 9.8 | 5.4 | 4.9 | 1.5 |
0.75 | 13.8 | 7.6 | 6.9 | 2 |
1 | 16 | 8.8 | 8 | 3 |
1.5 | 20 | 11 | 10 | 3 |
2 | 24 | 13.2 | 12 | 5 |
3 | 34 | 18.7 | 17 | 5 |
5 | 56 | 30.8 | 28 | 7.5 |
7.5 | 80 | 44 | 40 | 15 |
10 | 100 | 55 | 50 | 15 |
15 | 135 | 74.8 | 68 | 25 |
20 | 88 | 25 | ||
25 | 110 | 37.5 | ||
30 | 136 | 37.5 | ||
40 | 176 | 50 | ||
50 | 216 | 75 |
kVA ratings include 10% overcapacity for frequent motor starts.
*For 200 volt motors, increase 220-240V ratings by 15%.
kVA | Current in Amperes | |||||||
208V | 240V | 380V | 416V | 480V | 600V | 2400V | 4160V | |
2 KVA | 5.55 | 4.81 | 3.03 | 2.77 | 2.4 | 1.92 | 0.48 | 0.27 |
3 KVA | 8.32 | 7.21 | 4.55 | 4.16 | 3.6 | 2.88 | 0.72 | 0.41 |
6 KVA | 16.6 | 14.4 | 9.11 | 8.32 | 7.21 | 5.77 | 1.44 | 0.83 |
9 KVA | 24.9 | 21.6 | 13.6 | 12.4 | 10.8 | 8.66 | 2.16 | 1.24 |
15 KVA | 41.6 | 36 | 22.7 | 20.8 | 18 | 14.4 | 3.6 | 2.08 |
30 KVA | 83.2 | 72.1 | 45.5 | 41.6 | 36 | 28.8 | 7.21 | 4.16 |
45 KVA | 124 | 108 | 68.3 | 62.4 | 54.1 | 43.3 | 10.8 | 6.24 |
75 KVA | 208 | 180 | 113 | 104 | 90.2 | 72.1 | 18 | 10.4 |
112.5 KVA | 312 | 270 | 170 | 156 | 135 | 108 | 27 | 15.6 |
150 KVA | 416 | 360 | 227 | 208 | 180 | 144 | 36 | 20.8 |
225 KVA | 624 | 541 | 341 | 312 | 270 | 216 | 54.1 | 31.2 |
300 KVA | 832 | 721 | 455 | 416 | 360 | 288 | 72.1 | 41.6 |
450 KVA | 1249 | 1082 | 683 | 624 | 541 | 433 | 108 | 62.4 |
500 KVA | 1387 | 1202 | 759 | 693 | 601 | 481 | 120 | 69.3 |
600 KVA | 1665 | 1443 | 911 | 832 | 721 | 577 | 144 | 83.2 |
750 KVA | 2081 | 1804 | 1139 | 1040 | 902 | 721 | 180 | 104 |
Three Phase AC Motor Full Load Running Currents in Amperes and Recommended Transformer Ratings
Horsepower | Full Load Current (Amps) Minimum | Transformer kVA | ||||
110-120V | 208V | 220-240V* | 440-480V | 550-600V | ||
0.5 | 4 | 2.2 | 2 | 1 | 0.8 | 3 |
0.75 | 5.6 | 3.1 | 2.8 | 1.4 | 1.1 | 3 |
1 | 7.2 | 4 | 3.6 | 1.8 | 1.4 | 3 |
1.5 | 10.4 | 5.7 | 5.2 | 2.6 | 2.1 | 3 |
2 | 13.6 | 7.5 | 6.8 | 3.4 | 2.7 | 6 |
3 | 19.2 | 10.7 | 9.6 | 4.8 | 3.9 | 6 |
5 | 30.4 | 16.7 | 15.2 | 7.6 | 6.1 | 9 |
7.5 | 44 | 24 | 22 | 11 | 9 | 15 |
10 | 56 | 31 | 28 | 14 | 11 | 15 |
15 | 84 | 46 | 42 | 21 | 17 | 30 |
20 | 108 | 59 | 54 | 27 | 22 | 30 |
25 | 136 | 75 | 68 | 34 | 27 | 45 |
30 | 160 | 88 | 80 | 40 | 32 | 45 |
40 | 208 | 114 | 104 | 52 | 41 | 75 |
50 | 260 | 143 | 130 | 65 | 52 | 75 |
60 | 170 | 154 | 77 | 62 | 75 | |
75 | 211 | 192 | 96 | 77 | 112.5 | |
100 | 273 | 248 | 124 | 99 | 150 |
kVA ratings include 10% overcapacity for frequent motor starts.
* For 200 volt motors, increase 220-240V ratings by 15%.
- The winding has novel structure and its oil passage is reasonable designed. Its newly designed insulation structure helps enhance its mechanical strength and the short circuit withstanding ability.
- The oil tank is in various types, all have good outlook.
- The core joints are of stepped shape with 3 steps, and the surface of the core is coated with cured paint to lower losses and noise.
- High reliability, advanced level of performances, reasonable economical indicators.
Formulas Used In Calculation:
1-Phase KVA = Volts x Amps / 1000
1-Phase Amps = KVA / Volts x 1000
3-Phase KVA = Volts x Amps x 1.732 / 1000
3-Phase Amps = KVA / Volts / 1.732 x 1000
Generator KVA Rating to Amperage Conversion Chart 80% POWER FACTOR |
|||||||||||
kV•A | kW | 208V | 220V | 240V | 380V | 440V | 480V | 600V | 2400V | 3300V | 4160V |
6.3 KVA | 5 | 17.5 | 16.5 | 15.2 | 9.6 | 8.3 | 7.6 | 6.1 | |||
9.4 KVA | 7.5 | 26.1 | 24.7 | 22.6 | 14.3 | 12.3 | 11.3 | 9.1 | |||
12.5 KVA | 10 | 34.7 | 33 | 30.1 | 19.2 | 16.6 | 15.1 | 12 | |||
18.7 KVA | 15 | 52 | 49.5 | 45 | 28.8 | 24.9 | 22.5 | 18 | |||
25 KVA | 20 | 69.5 | 66 | 60.2 | 38.4 | 33.2 | 30.1 | 24 | 6 | 4.4 | 3.5 |
31.3 KVA | 25 | 87 | 82.5 | 75.5 | 48 | 41.5 | 37.8 | 30 | 7.5 | 5.5 | 4.4 |
37.5 KVA | 30 | 104 | 99 | 90.3 | 57.6 | 49.8 | 45.2 | 36 | 9.1 | 6.6 | 5.2 |
50 KVA | 40 | 139 | 132 | 120 | 77 | 66.5 | 60 | 48 | 12.1 | 8.8 | 7 |
62.5 KVA | 50 | 173 | 165 | 152 | 96 | 83 | 76 | 61 | 15.1 | 10.9 | 8.7 |
75 KVA | 60 | 208 | 198 | 181 | 115 | 99.5 | 91 | 72 | 18.1 | 13.1 | 10.5 |
93.8 KVA | 75 | 261 | 247 | 226 | 143 | 123 | 113 | 90 | 22.6 | 16.4 | 13 |
100 KVA | 80 | 278 | 264 | 240 | 154 | 133 | 120 | 96 | 24.1 | 17.6 | 13.9 |
125 KVA | 100 | 347 | 330 | 301 | 192 | 166 | 150 | 120 | 30 | 21.8 | 17.5 |
156 KVA | 125 | 433 | 413 | 375 | 240 | 208 | 188 | 150 | 38 | 27.3 | 22 |
187 KVA | 150 | 520 | 495 | 450 | 288 | 249 | 225 | 180 | 45 | 33 | 26 |
219 KVA | 175 | 608 | 577 | 527 | 335 | 289 | 264 | 211 | 53 | 38 | 31 |
250 KVA | 200 | 694 | 660 | 601 | 384 | 332 | 301 | 241 | 60 | 44 | 35 |
312 KVA | 250 | 866 | 825 | 751 | 480 | 415 | 376 | 300 | 75 | 55 | 43 |
375 KVA | 300 | 1040 | 990 | 903 | 576 | 498 | 451 | 361 | 90 | 66 | 52 |
438 KVA | 350 | 1220 | 1155 | 1053 | 672 | 581 | 527 | 422 | 105 | 77 | 61 |
500 KVA | 400 | 1390 | 1320 | 1203 | 770 | 665 | 602 | 481 | 120 | 88 | 69 |
625 KVA | 500 | 1735 | 1650 | 1504 | 960 | 830 | 752 | 602 | 150 | 109 | 87 |
750 KVA | 600 | 2080 | 1980 | 1803 | 1150 | 996 | 902 | 721 | 180 | 131 | 104 |
875 KVA | 700 | 2430 | 2310 | 2104 | 1344 | 1274 | 1052 | 842 | 210 | 153 | 121 |
1000 KVA | 800 | 2780 | 2640 | 2405 | 1540 | 1330 | 1203 | 962 | 241 | 176 | 139 |
1125 KVA | 900 | 3120 | 2970 | 2709 | 1730 | 1495 | 1354 | 1082 | 271 | 197 | 156 |
1250 KVA | 1000 | 3470 | 3300 | 3009 | 1920 | 1660 | 1504 | 1202 | 301 | 218 | 174 |
1563 KVA | 1250 | 4350 | 4130 | 3740 | 2400 | 2080 | 1885 | 1503 | 376 | 273 | 218 |
1875 KVA | 1500 | 5205 | 4950 | 4520 | 2880 | 2490 | 2260 | 1805 | 452 | 327 | 261 |
2188 KVA | 1750 | 5280 | 3350 | 2890 | 2640 | 2106 | 528 | 380 | 304 | ||
2500 KVA | 2000 | 6020 | 3840 | 3320 | 3015 | 2405 | 602 | 436 | 348 | ||
2812 KVA | 2250 | 6780 | 4320 | 3735 | 3400 | 2710 | 678 | 491 | 392 | ||
3125 KVA | 2500 | 7520 | 4800 | 4160 | 3740 | 3005 | 752 | 546 | 435 | ||
3750 KVA | 3000 | 9040 | 5760 | 4980 | 4525 | 3610 | 904 | 654 | 522 | ||
4375 KVA | 3500 | 10550 | 6700 | 5780 | 5285 | 4220 | 1055 | 760 | 610 | ||
5000 KVA | 4000 | 12040 | 7680 | 6640 | 6035 | 4810 | 1204 | 872 | 695 |
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