Наружный диаметр и вес кабелей на километр длины. Конструкция кабелей.

Справочник мастера ОАО «МОЭСК» > Раздел 3. Кабельные линии. > Глава 1.

> с.103-106

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Кабели до 1 кВ

Табл. 3-4

Наружные диаметры кабелей 1 кВ, мм.

по ГОСТ 18410-73, ТУ 16.К22-014-99

	4х жильные кабели с бумажной изоляцией				4х жильные кабели с пластмассовой изоляцией
S мм2	ААБ*	АСБ/СБ	ААБГ	АСБГ/СБГ	АПвзБбШп	АПвВнг	АПвБбШнг
4×50	34,7	35,8	31,7	31,3	35,1	34,7	35,9
4×70	37,7	41,2	34,7	36,7	28,5	28,7	29,5
4×95	40,7	44,5	37,7	40,0	31,7	31,9	32,7
4×120	44,1	48,8	41,1	44,3	35,9	35,9	36,7
4×150	51,3	51,3	46,1	46,0	39,4	39,4	40,2
4×185	55,2	54,9	50,0	49,7	43,4	43,4	44,2
4×240	60,4	60,1	55,2	54,9	47,7	47,5	48,3

 

* — В МКС — при новых прокладках не применяется.

В МКС 1 кВ кабели применяются только с жилами равного сечения.

Кабели 10 кВ

В МКС оптимизированы сечения кабелей сети 10 кВ:

• 95/35, 120/35 мм² — для РКЛ
• 185/50, 240/50, 500/70 мм² — для ПКЛ

, где в числителе сечение жилы, в знаменателе сечение экрана одножильных кабелей с пластмассовой изоляцией.

Табл. 3-5

Наружные диаметры и масса кабелей 10 кВ.

3х жильный кабель с бумажной изоляцией			1но жильный кабель с пластмассовой изоляцией
S мм2 | Диаметр, мм | Вес, кг/км			S мм2 | Диаметр, мм | Вес кг/км
ААБ**			АПвПг
3×50	42,5	2874	1×50(16)	25,3	659
3×70	45,8	3289	1×70(16)	26,8	748
3×95	48,7	3759	1×95(35)	28,4	853
3×120	51,0	4158	1×120(35)	30,2	957
3×150	57,7	5126	1×150(50)	31,8	1153
3×185	60,7	5703	1×185(50)	33,6	1286
3×240	66,9	7362	1×240(50)	35,8	1486
АСБ/СБ			1×300(70)*	38,3	1701
3×50	43,5	3888/4822	1×400(70)*	41,9	2136
3×70	46,2	4451/5989	1×500(70)*	44,7	2471
3×95	49,1	5139/7237	1×630*	48,3	2925
3×120	51,4	5624/7300	1×800*	52,5	3477
3×150	55,7	6464/9734	АПвПгу
3×185	59,0	7332/11084	1×50(16)	26,3	697
3×240	65,1	9248/14106	1×70(16)	27,8	789
ДСБГ/СБГ			1×95(35)	29,4	896
3×50	39,2	3613/4547	1×120(35)	31,2	1003
3×70	41,7	4158/5687	1×150(50)	32,8	1201
3×95	44,6	4828/6113	1×185(50)	34,6	1337
3×120	46,9	5299/7956	1×240(50)	36,8	1541
3×150	51,2	6112/9368	1×300(70)*	39,3	1759
3×185	60,7	6959/10700	1×400(70)*	42,9	2200
3×240	60,6	8835/13678	1×500(70)*	45,7	2539
			1×630*	49,3	2999
			1×800*	53,5	3556
			АПвВнг
			1×50(16)	25,3	787
			1×70(16)	26,8	885
			1×95(35)	28,4	999
			1×120(35)	30,2	1113
			1×150(50)	31,8	1318
			1×185(50)	33,6	1461
			1×240(50)	35,8	1674
			1×300(70)*	38,3	1903
			1×400(70)*	41,9	2358
			1×500(70)*	44,7	2708
			1×630*	48,3	3203
			1×800*	52,5	3780

*) для кабелей АПвП-ЮкВ сечением 300, 400, 500, 630, 800 мм2 сечение экрана рассчитывается и заказывается по индивидуальному проекту.

**) В МКС — при новых прокладках не применяется

Табл. 3-6

Наружные диаметры и масса одножильных кабелей 20-35 кВ с изоляцией из сшитого полиэтилена.

	20 кВ		35 кВ
S мм2	Диаметр, мм	Вес, кг/км	Диаметр, мм	Вес, кг/км
АПвП
1×50(16)	29,5	817	35,5	1089
1×70 (16)	31,0	916	37,0	1201
1×95 (16)	32,6	1031	38,6	1330
1×120(16)	34,4	1143	40,4	1455
1×150 (25)	36,0	1349	42,0	1673
1×185 (25)	37,8	1492	43,8	1830
1×240 (25)	40,0	1705	46,0	2063
1×300 (25)	42,5	1934	48,5	2310
1×400 (35)	46,1	2388	52,1	2792
1×500 (35)	48,9	2739	54,9	3167
1×630 (35)	52,5	3216	58,5	3676
1×800 (35)	56,7	3790	62,7	4283
АПвПу
1×50(16)	30,5	862	36,5	1143
1×70 (16)	32,0	963	38,0	1257
1×95 (16)	33,6	1081	39,6	1389
1×120(16)	35,4	1196	41,4	1516
1×150 (25)	37,0	1404	43,0	1737
1×185 (25)	38,8	1549	44,8	1896
1×240 (25)	41,0	1766	47,0	2133
1×300 (25)	43,5	1998	49,5	2384
1×400 (35)	47,1	2458	53,1	2871
1×500 (35)	49,9	2813	55,9	3250
1×630 (35)	53,5	3296	59,5	3764
1×800 (35)	57,7	3876	63,7	4378
АПвВнг
1×50 (16)	29,5	969	35,5	1274
1×70 (16)	31,0	1077	37,0	1395
1×95 (16)	32,6	1201	38,6	1533
1×120 (16)	34,4	1323	40,4	1668
1×150 (25)	36,0	1537	42,0	1896
1×185 (25)	37,8	1690	43,8	2062
1×240 (25)	40,0	1916	46,0	2308
1×300 (25)	42,5	2159	48,5	2569
1×400 (35)	46,1	2633	52,1	3071
1×500 (35)	48,9	3000	54,9	3462
1×630 (35)	52,5	3519	58,5	4015
1×800 (35)	56,7	4119	62,7	4648

 

Табл. 3-7

Наружные диаметры и масса трехжильных кабелей 20-35 кВ с бумажной изоляцией с отдельно освинцованными жилами.

S мм2	20 кВ		35 кВ
	Диаметр мм	Вес кг/км, Al/Cu	Диаметр мм	Вес кг/км, Al/Cu
АОСБ/ОСБ
3×95	85,3	12879/14762	—	—
3×120	84,6	12948/15165	94,8	16899/19169
3×150	88,3	13846/16701	102,0	17973/-
3×185	92,2	15224/18743	—	—

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см. также:

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90000 Wire gauge size chart | AWG table 90001 90002 American wire gauge (AWG) size calculator and chart. 90003 90004 Wire gauge calculator 90005 90002 * @ 68 ° F or 20 ° C 90003 90002 ** Results may change with real wires: different resistivity of material and number of strands in wire 90003 90002 Voltage drop calculator ► 90003 90004 AWG chart 90005 90014 90015 90016 AWG # 90017 90016 Diameter 90019 (inch) 90017 90016 Diameter 90019 (mm) 90017 90016 Area 90019 (kcmil) 90017 90016 Area 90019 (mm 90029 2 90030) 90017 90032 90015 90034 0000 (4/0) 90035 90034 0.4600 90035 90034 11.6840 90035 90034 211.6000 90035 90034 107.2193 90035 90032 90015 90034 000 (3/0) 90035 90034 0.4096 90035 90034 10.4049 90035 90034 167.8064 90035 90034 85.0288 90035 90032 90015 90034 00 (2/0) 90035 90034 0.3648 90035 90034 9.2658 90035 90034 133.0765 90035 90034 67.4309 90035 90032 90015 90034 0 (1/0) 90035 90034 0.3249 90035 90034 8.2515 90035 90034 105.5345 90035 90034 53.4751 90035 90032 90015 90034 1 90035 90034 0.2893 90035 90034 7.3481 90035 90034 83.6927 90035 90034 42.4077 90035 90032 90015 90034 2 90035 90034 0.2576 90035 90034 6.5437 90035 90034 66.3713 90035 90034 33.6308 90035 90032 90015 90034 3 90035 90034 0.2294 90035 90034 5.8273 90035 90034 52.6348 90035 90034 26.6705 90035 90032 90015 90034 4 90035 90034 0.2043 90035 90034 5.1894 90035 90034 41.7413 90035 90034 21.1506 90035 90032 90015 90034 5 90035 90034 0.1819 90035 90034 4.6213 90035 90034 33.1024 90035 90034 16.7732 90035 90032 90015 90034 6 90035 90034 0.1620 90035 90034 4.1154 90035 90034 26.2514 90035 90034 13.3018 90035 90032 90015 90034 7 90035 90034 0.1443 90035 90034 3.6649 90035 90034 20.8183 90035 90034 10.5488 90035 90032 90015 90034 8 90035 90034 0.1285 90035 90034 3.2636 90035 90034 16.5097 90035 90034 8.3656 90035 90032 90015 90034 9 90035 90034 0.1144 90035 90034 2.9064 90035 90034 13.0927 90035 90034 6.6342 90035 90032 90015 90034 10 90035 90034 0.1019 90035 90034 2.5882 90035 90034 10.3830 90035 90034 5.2612 90035 90032 90015 90034 11 90035 90034 0.0907 90035 90034 2.3048 90035 90034 8.2341 90035 90034 4.1723 90035 90032 90015 90034 12 90035 90034 0.0808 90035 90034 2.0525 90035 90034 6.5299 90035 90034 3.3088 90035 90032 90015 90034 13 90035 90034 0.0720 90035 90034 1.8278 90035 90034 5.1785 90035 90034 2.6240 90035 90032 90015 90034 14 90035 90034 0.0641 90035 90034 1.6277 90035 90034 4.1067 90035 90034 2.0809 90035 90032 90015 90034 15 90035 90034 0.0571 90035 90034 1.4495 90035 90034 3.2568 90035 90034 1.6502 90035 90032 90015 90034 16 90035 90034 0.0508 90035 90034 1.2908 90035 90034 2.5827 90035 90034 1.3087 90035 90032 90015 90034 17 90035 90034 0.0453 90035 90034 1.1495 90035 90034 2.0482 90035 90034 1.0378 90035 90032 90015 90034 18 90035 90034 0.0403 90035 90034 1.0237 90035 90034 1.6243 90035 90034 0.8230 90035 90032 90015 90034 19 90035 90034 0.0359 90035 90034 0.9116 90035 90034 1.2881 90035 90034 0.6527 90035 90032 90015 90034 20 90035 90034 0.0320 90035 90034 0.8118 90035 90034 1.0215 90035 90034 0.5176 90035 90032 90015 90034 21 90035 90034 0.0285 90035 90034 0.7229 90035 90034 0.8101 90035 90034 0.4105 90035 90032 90015 90034 22 90035 90034 0.0253 90035 90034 0.6438 90035 90034 0.6424 90035 90034 0.3255 90035 90032 90015 90034 23 90035 90034 0.0226 90035 90034 0.5733 90035 90034 0.5095 90035 90034 0.2582 90035 90032 90015 90034 24 90035 90034 0.0201 90035 90034 0.5106 90035 90034 0.4040 90035 90034 0.2047 90035 90032 90015 90034 25 90035 90034 0.0179 90035 90034 0.4547 90035 90034 0.3204 90035 90034 0.1624 90035 90032 90015 90034 26 90035 90034 0.0159 90035 90034 0.4049 90035 90034 0.2541 90035 90034 0.1288 90035 90032 90015 90034 27 90035 90034 0.0142 90035 90034 0.3606 90035 90034 0.2015 90035 90034 0.1021 90035 90032 90015 90034 28 90035 90034 0.0126 90035 90034 0.3211 90035 90034 0.1598 90035 90034 0.0810 90035 90032 90015 90034 29 90035 90034 0.0113 90035 90034 0.2859 90035 90034 0.1267 90035 90034 0.0642 90035 90032 90015 90034 30 90035 90034 0.0100 90035 90034 0.2546 90035 90034 0.1005 90035 90034 0.0509 90035 90032 90015 90034 31 90035 90034 0.0089 90035 90034 0.2268 90035 90034 0.0797 90035 90034 0.0404 90035 90032 90015 90034 32 90035 90034 0.0080 90035 90034 0.2019 90035 90034 0.0632 90035 90034 0.0320 90035 90032 90015 90034 33 90035 90034 0.0071 90035 90034 0.1798 90035 90034 0.0501 90035 90034 0.0254 90035 90032 90015 90034 34 90035 90034 0.0063 90035 90034 0.1601 90035 90034 0.0398 90035 90034 0.0201 90035 90032 90015 90034 35 90035 90034 0.0056 90035 90034 0.1426 90035 90034 0.0315 90035 90034 0.0160 90035 90032 90015 90034 36 90035 90034 0.0050 90035 90034 0.1270 90035 90034 0.0250 90035 90034 0.0127 90035 90032 90015 90034 37 90035 90034 0.0045 90035 90034 0.1131 90035 90034 0.0198 90035 90034 0.0100 90035 90032 90015 90034 38 90035 90034 0.0040 90035 90034 0.1007 90035 90034 0.0157 90035 90034 0.0080 90035 90032 90015 90034 39 90035 90034 0.0035 90035 90034 0.0897 90035 90034 0.0125 90035 90034 0.0063 90035 90032 90015 90034 40 90035 90034 0.0031 90035 90034 0.0799 90035 90034 0.0099 90035 90034 0.0050 90035 90032 90561 90004 Wire gauge calculations 90005 90564 Wire diameter calculations 90565 90002 The n gauge wire diameter d 90567 n 90568 in inches (in) is equal to 0.005in times 92 raised to the power of 36 minus gauge number n, divided by 39: 90003 90002 90571 d 90567 n 90568 90574 90567 (in) 90568 = 0.005 in × 92 90029 (36- 90571 n 90574) / 39 90030 90003 90002 The n gauge wire diameter d 90567 n 90568 in millimeters (mm) is equal to 0.127mm times 92 raised to the power of 36 minus gauge number n, divided by 39: 90003 90002 90571 d 90567 n 90568 90574 90567 (mm) 90568 = 0.127 mm × 92 90029 (36- 90571 n 90574) / 39 90030 90003 90564 Wire cross sectional area calculations 90565 90002 The n gauge wire’s cross sercional area A 90567 n 90568 in kilo-circular mils (kcmil) is equal to 1000 times the square wire diameter d in inches (in): 90003 90002 90571 A 90567 n 90568 90574 90567 (kcmil) 90568 = 1000 × 90571 d 90574 90567 90571 n 90574 90568 90029 2 90030 = 0.025 in 90029 2 90030 × 92 90029 (36- 90571 n 90574) /19.5 90030 90003 90002 The n gauge wire’s cross sercional area A 90567 n 90568 in square inches (in 90029 2 90030) is equal to pi divided by 4 times the square wire diameter d in inches (in): 90003 90002 90571 A 90567 n 90568 90574 90567 (in 90568 2 90567) 90568 = (π / 4) × 90571 d 90574 90567 90571 n 90574 90568 90029 2 90030 = 0.000019635 in 90029 2 90030 × 92 90029 (36- 90571 n 90574) /19.5 90030 90003 90002 The n gauge wire’s cross sercional area A 90567 n 90568 in square millimeters (mm 90029 2 90030) is equal to pi divided by 4 times the square wire diameter d in millimeters (mm): 90003 90002 90571 A 90567 n 90568 90574 90567 (mm 90568 2 90567) 90568 = (π / 4) × 90571 d 90574 90567 90571 n 90574 90568 90029 2 90030 = 0.012668 mm 90029 2 90030 × 92 90029 (36- 90571 n 90574) /19.5 90030 90003 90564 Wire resistance calculations 90565 90002 The n gauge wire resistance R in ohms per kilofeet (Ω / kft) is equal to 0.3048 × 1000000000 times the wire’s resistivity 90571 ρ 90574 in ohm-meters (Ω · m) divided by 25.4 90029 2 90030 times the cross sectional area 90571 A 90567 n 90568 90574 in square inches (in 90029 2 90030): 90003 90002 90571 R 90574 90567 90571 n 90574 (Ω / kft) 90568 = 0.3048 × 10 90029 9 90030 × 90571 ρ 90574 90567 (Ω · m) 90568 / (25.4 90029 2 90030 × 90571 A 90567 n 90568 90574 90567 (in 90568 2 90567) 90568) 90003 90002 The n gauge wire resistance R in ohms per kilometer (Ω / km) is equal to 1000000000 times the wire’s resistivity 90571 ρ 90574 in ohm-meters (Ω · m) divided by the cross sectional area 90571 A 90567 n 90568 90574 in square millimeters (mm 90029 2 90030): 90003 90002 90571 R 90574 90567 90571 n 90574 (Ω / km) 90568 = 10 90029 9 90030 × 90571 ρ 90574 90567 (Ω · m) 90568/90571 A 90567 n 90568 90574 90567 (mm 90568 2 90567) 90568 90003 90002 90003 90758 90004 See also 90005 .90000 How to Find The Suitable Size of Cable & Wire? 90001 90002 90003 How to Determine the Proper Size of Wire & Cable for Electrical Wiring Installation? 90004 90005 90006 90007 Voltage Drop in Cables 90008 90009 90010 We know that all conductors and cables (except super conductor) have some amount of resistance. 90011 90010 This resistance is directly proportional to the length and inversely proportional to the diameter of conductor i.e. 90011 90010 90003 R α L / a 90004 … [Laws of resistance R = ρ (L / a)] 90011 90010 Whenever current flows through a conductor, a voltage drop occurs in that conductor.Generally, voltage drop may neglect for small length of conductors but in case of a lower diameter and long length conductors, we have to take into account the considerable voltage drops for proper wiring installation and future load managment. 90011 90010 According to 90003 IEEE rule B-23 90004, at any point between power supply terminal and installation, 90003 Voltage drop should not increase above 2.5% of the provided (supply) voltage 90004. 90011 90010 90027 90027 90011 90030 90003 Example: 90004 90033 90010 if the Supply voltage is 220V AC, then the value of allowable voltage drop should be; 90011 90036 90037 90003 Allowable Voltage Drop 90004 = 220 x (2.5/100) = 90003 5.5V 90004 90042 90043 90010 In electrical wiring circuits, voltage drops also occur from the distribution board to the different sub circuit and final sub circuits, but for sub circuits and final sub circuits, the value of voltage drop should be half of that allowable voltage drops (ie 2.75V of 5.5V as calculated above) 90011 90010 Normally, Voltage drop in tables is described in 90003 Ampere per meter (A / m) 90004 eg what would be the voltage drop in a one meter cable which carrying one Ampere current? 90011 90010 There are two methods to define the 90003 voltage drop in a cable 90004 which we will discuses below.90011 90010 In 90003 SI 90004 (90003 System international and metric system 90004) voltage drop is described by 90003 ampere per meter (A / m) 90004. 90011 90010 In 90003 FPS (foot pound system) 90004 voltage drop is described in length based which is 90003 100 feet. 90004 90011 90036 90037 90007 Update 90008: Now you may also use the following electrical Calculators to find 90003 Voltage drop & the wire size in American wire gauge 90004 system. 90042 90043 90076 90037 90003 Electrical Wire & Cable Size Calculator (Copper & Aluminum) 90004 90042 90037 90003 Wire & Cable Size Calculator in AWG 90004 90042 90037 90003 Voltage Drop in Wire & Cable Calculator 90004 90042 90089 90006 90007 Tables & Charts for Proper Cable & Wire Sizes 90092 90008 90009 90010 Below are the important Tables which you should follow for determining the proper size of cable for Electrical Wiring Installation.90011 90010 90098 Click image to enlarge 90099 90092 90101 90101 90011 90010 90098 Click image to enlarge 90099 90011 90010 90109 90109 Click image to enlarge 90011 90010 90113 90113 90011 90010 90098 Click image to enlarge 90099 90011 90010 90121 90121 90098 Click image to enlarge 90099 90011 90010 90127 90127 90011 90006 90003 How to Find the Voltage Drop in a Cable? 90004 90009 90010 90007 To find voltage drop in a cable, follow the simple steps given below.90008 90011 90036 90037 First of all, find the maximum allowable voltage drop 90042 90037 Now, Find load current 90042 90037 Now, according to load current, select a proper cable (which current rating should be nearest to the calculated load current) from table 1 90042 90037 From Table 1, find the voltage drop in meter or 100 feet (what system you prefer) according its rated current 90042 90043 90010 (Stay cool 🙂 we will follow both methods and system for finding voltage drops (in meter and 100 feet ) in our solved example for whole electrical installation wiring).90011 90036 90037 Now, calculate the voltage drop for the actual length of wiring circuit according to its rated current with the help of 90098 90003 following formulas 90004 90099. 90042 90043 90010 (Actual length of circuit x volt drop for 1m) / 100 -> to find Volt drop in per meter. 90092 (Actual length of circuit x volt drop for 100ft) / 100> to find volt drop in 100 feet. 90011 90036 90037 Now multiply this calculated value of volt drop by load factor where; 90042 90043 90010 Load factor = Load Current to be taken by Cable / Rated Current of Cable given in the table.90011 90036 90037 This is the value of Volt drop in the cables when load current flow through it. 90042 90037 If the calculated value of voltage drop is less than the value calculated in step (1) (Maximum allowable voltage drop), than the size of selected cable is proper 90042 90037 If the calculated value of voltage drop is greater than the value calculated in step (1) (Maximum allowable voltage drop), than calculate voltage drop for the next (greater in size) cable and so on until the calculated value of voltage drop became less than the maximum allowable voltage drop calculated in step (1).90042 90043 90010 Related Posts: 90011 90006 90003 How to Determine the Proper Cable & Wire Size for Given Load? 90004 90009 90030 90007 Below are solved examples showing how to find the proper Cable Size for Given Load. 90008 90033 90010 For a given load, cable size may be found with the help of different tables but we should keep in mind and follow the rules about voltage drop. 90011 90010 Determining the size of cable for a given load, take into account the following rules. 90011 90010 For a given load except the known value of current, there should be 20% extra scope of current for additional, future or emergency needs.90011 90010 From Energy meter to Distribution board, Voltage drop should be 90003 1.25% 90004 and for final sub circuit, voltage drop should not exceed 90003 2.5% 90004 of Supply voltage. 90011 90010 Consider the change in temperature, when needed, use temperature factor (Table 3) 90011 90010 Also, consider the load factor when finding the size of cable 90011 90010 When determining the cable size, consider the wiring system i.e. in open wiring system, temperature would be low but in conduit wiring, temperature increases due to the absence of air.90011 90010 Related Posts: 90011 90006 90007 Solved Examples of Proper Wire & Cable Size 90092 90008 90009 90010 Following are the examples of determining the proper Size of cables for electrical wiring installation which will make it easy to understand the method of «how to determine the proper size of cable for a given load «. 90011 90030 90007 Example 1 ……. 90214 (British / English System) 90215 90008 90033 90010 For Electrical wiring installation in a building, Total load is 4.5kW and total length of cable from energy meter to sub circuit distribution board is 35 feet. Supply voltages are 220V and temperature is 40 ° C (104 ° F). Find the most suitable size of cable from energy meter to sub circuit if wiring is installed in conduits. 90011 90010 90007 Solution: — 90008 90011 90036 90037 Total Load = 4.5kW = 4.5 x1000W = 90003 4500W 90004 90042 90037 20% additional load = 4500 x (20/100) = 90003 900W 90004 90042 90037 Total Load = 4500W + 900W = 90003 5400W 90004 90042 90037 Total Current = I = P / V = ​​5400W / 220V = 90003 24.5A 90004 90042 90043 90010 Now select the size of cable for load current of 90003 24.5A 90004 (from Table 1) which is 7 / 0.036 (28 Amperes) it means we can use 7 / 0.036 cable according table 1. 90011 90010 Now check the selected (7 / 0.036) cable with temperature factor in Table 3, so the temperature factor is 0.94 (in table 3) at 40 ° C (104 ° F) and current carrying capacity of (7 / 0.036) is 28A, therefore, current carrying capacity of this cable at 40 ° C (104 ° F) would be; 90011 90010 90003 Current rating for 40 ° C (104 ° F) = 28 x 0.94 = 26.32 Amp. 90004 90011 90010 Since the calculated value (90003 26.32 Amp 90004) at 90003 40 ° C 90004 (90003 104 ° F 90004) is less than that of current carrying capacity of (7 / 0.036) cable which is 90003 28A 90004, therefore this size of cable (90003 7 / 0.036 90004) is also suitable with respect to temperature. 90011 90010 Now find the voltage drop for 100 feet for this (7 / 0.036) cable from 90003 Table 4 90004 which is 90003 7V 90004, But in our case, the length of cable is 35 feet.Therefore, the voltage drop for 35 feet cable would be; 90011 90010 Actual Voltage drop for 35 feet = (7 x 35/100) x (24.5 / 28) = 90003 2.1V 90004 90011 90010 And Allowable voltage drop = (2.5 x 220) / 100 = 90003 5.5V 90004 90011 90010 Here The Actual Voltage Drop (2.1V) is less than that of maximum allowable voltage drop of 5.5V. Therefore, the appropriate and most suitable cable size is (7 / 0.036) for that given load for Electrical Wiring Installation. 90011 90030 90007 Example 2 ……. (SI / Metric / Decimal System) 90008 90033 90010 What type and size of cable suits for given situation 90011 90010 Load = 5.8kW 90011 90010 Volts = 230V AV 90011 90010 Length of Circuit = 35 meter 90011 90010 Temperature = 35 ° C (95 ° F) 90011 90010 90007 Solution: — 90008 90011 90010 Load = 5.8kW = 5800W 90011 90010 90003 Voltage 90004 = 90003 230V 90004 90011 90010 90003 Current 90004 = I = P / V = ​​5800/230 = 90003 25.2A 90004 90011 90010 90003 20% additional load current 90004 = (20/100) x 5.2A = 90003 5A 90004 90011 90010 90003 Total Load Current = 25.2A + 5A = 30.2A 90004 90011 90010 Now select the size of cable for load current of 30.2A (from Table 1) which is 7 / 1.04 (31 Amperes) it means we can use 7 / 0.036 cable according 90003 table 1 90004. 90011 90010 Now check the selected (7 / 1.04) cable with temperature factor in Table 3, so the temperature factor is 0.97 (in table 3) at 35 ° C (95 ° F) and current carrying capacity of (7 / 1.04) is 31A, therefore, current carrying capacity of this cable at 40 ° C (104 ° F) would be; 90011 90010 90003 Current rating for 35 ° C (95 ° F) = 31 x 0.97 = 30 Amp. 90004 90011 90010 Since the calculated value (30 Amp) at 35 ° C (95 ° F) is less than that of current carrying capacity of (7/1.04) cable which is 31A, therefore this size of cable (7 / 1.04) is also suitable with respect to temperature. 90011 90010 Now find the voltage drop for per ampere meter for this (7 / 1.04) cable from (Table 5) which is 7mV, But in our case, the length of cable is 35 meter. Therefore, the voltage drop for 35 meter cable would be: 90011 90010 90003 Actual Voltage drop for 35meter 90004 = 90011 90010 90003 = mV x I x L 90004 90011 90010 (7/1000) x 30 × 35 = 90003 7.6V 90004 90011 90010 And 90003 Allowable voltage drop 90004 = (2.5 x 230) / 100 = 90003 5.75V 90004 90011 90010 Here the actual Voltage drop (7.35V) is greater than that of maximum allowable voltage drop of 5.75V. Therefore, this is not suitable size of cable for that given load. So we will select the next size of selected cable (7 / 1.04) which is 7 / 1.35 and find the voltage drop again. According to Table (5) the current rating of 7 / 1.35 is 40Amperes and the voltage drop in per ampere meter is 4.1 mV (See table (5)). Therefore, the actual voltage drop for 35 meter cable would be; 90011 90010 Actual Voltage drop for 35 meter = 90011 90010 90098 90003 = mV x I x L 90004 90099 90011 90010 (4.1/1000) x 40 × 35 = 7.35V = 90003 5.74V 90004 90011 90010 This drop is less than that of maximum allowable voltage drop. So this is the 90003 most appropriate and suitable cable or wire size 90004. 90011 90030 90007 Example 3 90008 90033 90010 Following Loads are connected in a building: — 90011 90010 90003 90214 Sub-Circuit 1 90215 90004 90011 90036 90037 2 lamps each o 1000W and 90042 90037 4 fans each of 80W 90042 90037 2 TV each of 120W 90042 90043 90010 90003 90214 Sub-Circuit 2 90215 90004 90011 90036 90037 6 Lamps each of 80W and 90042 90037 5 sockets each of 100W 90042 90037 4 lamps each of 800W 90042 90043 90010 If supply voltages are 230 V AC, then 90003 calculate circuit current 90004 and 90003 Cable size for each Sub-Circuit 90004? 90011 90010 90007 Solution: — 90008 90011 90010 90003 Total load of Sub-Circuit 1 90004 90011 90010 = (2 x 1000) + (4 x 80) + (2 × 120) 90011 90010 = 2000W + 320W + 240W = 2560W 90011 90010 Current for Sub-Circuit 1 = I = P / V = ​​2560/230 = 90003 11.1A 90004 90011 90010 90003 Total load of Sub-Circuit 2 90004 90011 90010 = (6 x 80) + (5 x 100) + (4 x 800) 90011 90010 = 480W + 500W + 3200W = 90003 4180W 90004 90011 90010 Current for Sub -Circuit 2 = I = P / V = ​​4180/230 = 90003 18.1A 90004 90011 90010 Therefore, 90098 90003 Cable suggested for sub circuit 1 90004 90099 = 90003 3 / .029 90004 «(90003 13 Amp 90004) or 90003 1 / 1.38 mm 90004 (90003 13 Amp 90004) 90011 90010 90003 90098 Cable suggested for Sub-Circuit 2 90099 90004 = 90003 7 /.029 90004 «(90003 21 Amp 90004) or 90003 7 / 0.85 mm (24 Amp) 90004 90011 90010 Total Current drawn by both Sub-Circuits = 11.1A + 18.1A = 90003 29.27 A 90004 90011 90010 So 90003 90098 cable suggested for Main -Circuit 90099 90004 = 90003 7 / .044 «(34 Amp) 90004 or 90003 7 / 1.04 mm (31 Amp 90004) 90011 90030 90007 Example 4 90008 90033 90010 A 10H.P (7.46kW) three phase squirrel cage induction motor of continuous rating using Star-Delta starting is connected through 400V supply by three single core PVC cables run in conduit from 250feet (76.2m) away from multi-way distribution fuse board. Its full load current is 19A. Average summer temperature in Electrical installation wiring is 35 ° C (95 ° F). Calculate the size of the cable for motor? 90011 90010 90007 Solution: — 90008 90011 90036 90037 90003 Motor load 90004 = 10H.P = 10 x 746 = 7460W 90003 * (1H.P = 746W) 90004 90042 90037 90003 Supply Voltage 90004 = 400V (3-Phase) 90042 90037 90003 Length of cable 90004 = 250feet (76.2m) 90042 90037 90003 Motor full load Current 90004 = 19A 90042 90037 90003 Temperature factor 90004 for 35 ° C (95 ° F) = 0.97 (From Table 3) 90042 90043 90010 Now select the size of cable for full load motor current of 19A (from Table 4) which is 7 / 0.36 «(23 Amperes) * (Remember that this is a 3-phase system ie 3 -core cable) and the voltage drop is 5.3V for 100 Feet. It means we can use 7 / 0.036 cable according Table (4). 90011 90010 Now check the selected (7 / 0.036) cable with temperature factor in table (3), so the temperature factor is 0.97 (in table 3) at 35 ° C (95 ° F) and current carrying capacity of (7 / 0.036 «) is 23 Amperes, therefore, current carrying capacity of this cable at 40 ° C (104 ° F) would be: 90011 90010 90098 90003 Current rating for 40 ° C (104 ° F) = 23 x 0.97 = 22.31 Amp. 90004 90099 90011 90010 Since the calculated value (22.31 Amp) at 35 ° C (95 ° F) is less than that of current carrying capacity of (7 / 0.036) cable which is 23A, therefore this size of cable (7 / 0.036) is also suitable with respect to temperature. 90011 90010 90003 Load factor = 19/23 = 0.826 90004 90011 90010 Now find the voltage drop for 100feet for this (7 / 0.036) cable from table (4) which is 5.3V, But in our case, the length of cable is 250 feet. Therefore, the voltage drop for 250 feet cable would be; 90011 90010 90003 Actual Voltage drop 90004 for 250feet = (5.3 x 250/100) x 0.826 = 90003 10.94V 90004 90011 90010 And maximum 90003 Allowable voltage drop 90004 = (2.5 / 100) x 400V = 90003 10V 90004 90011 90010 Here the actual Voltage drop (10.94V) is greater than that of maximum allowable voltage drop of 10V. Therefore, this is not suitable size of cable for that given load. So we will select the next size of selected cable (7 / 0.036) which is 7 / 0.044 and find the voltage drop again. According to Table (4) the current rating of 7 / 0.044 is 28 Amperes and the volt drop in per 100 feet is 4.1V (see Table 4). Therefore, the actual voltage drop for 250 feet cable would be; 90011 90010 Actual Voltage drop for 250 feet = 90011 90010 = 90003 Volt drop per 100 feet x length of cable x load factor 90004 90011 90010 (4.1 / 100) x 250 x 0.826 = 90003 8.46V 90004 90011 90010 And Maximum Allowable voltage drop = (2.5 / 100) x 400V = 90003 10V 90004 90011 90010 The actual voltage drop is less than that of maximum allowable voltage drop. So this is the most appropriate and suitable cable size for Electrical wiring Installation of given situation.90011 90010 Related Posts: 90011.90000 American Wire Gauge (AWG) Cable Conductor Size Chart / Table 90001 90002 90003 American Wire Gauge Conductor Size Table 90004 90005 American wire gauge (AWG) is a standardized wire gauge system for the diameters of round, solid, nonferrous, electrically conducting wire. The larger the AWG number or wire guage, the smaller the physical size of the wire. The smallest AWG size is 40 and the largest is 0000 (4/0). AWG general rules of thumb — for every 6 gauge decrease, the wire diameter doubles and for every 3 gauge decrease, the cross sectional area doubles.90006 Note 90007 — W & M Wire Gauge, US Steel Wire Gauge and Music Wire Gauge are different systems. 90008 90009 American Wire Gauge (AWG) Sizes and Properties Chart / Table 90010 90005 Table 1 lists the AWG sizes for electrical cables / conductors. In addition to wire size, the table provides values ​​load (current) carrying capacity, resistance and skin effects. The resistances and skin depth noted are for copper conductors. A detailed description of each conductor property is described below Table 1.90008 90013 Table 1: American Wire Gauge (AWG) Cable / Conductor Sizes and Properties 90010 90015 90016 90017 90018 90006 AWG 90007 90021 90018 90006 Diameter 90007 90025 [inches] 90021 90018 90006 Diameter 90007 90025 [mm] 90021 90018 90006 Area 90007 90025 [mm 90036 2 90037] 90021 90018 90006 Resistance 90007 90025 [Ohms / 1000 ft] 90021 90018 90006 Resistance 90007 90025 [Ohms / km] 90021 90018 90006 Max Current 90007 90025 [Amperes] 90021 90018 90006 Max Frequency 90007 90025 for 100% skin depth 90021 90059 90060 90061 0000 (4/0) 90021 90018 0.46 90021 90018 11.684 90021 90018 107 90021 90018 0.049 90021 90018 0.16072 90021 90018 302 90021 90018 125 Hz 90021 90059 90060 90061 000 (3/0) 90021 90018 0.4096 90021 90018 10.40384 90021 90018 85 90021 90018 0.0618 90021 90018 0.202704 90021 90018 239 90021 90018 160 Hz 90021 90059 90060 90061 00 (2/0) 90021 90018 0.3648 90021 90018 9.26592 90021 90018 67.4 90021 90018 0.0779 90021 90018 0.255512 90021 90018 190 90021 90018 200 Hz 90021 90059 90060 90061 0 (1/0) 90021 90018 0.3249 90021 90018 8.25246 90021 90018 53.5 90021 90018 0.0983 90021 90018 0.322424 90021 90018 150 90021 90018 250 Hz 90021 90059 90060 90061 1 90021 90018 0.2893 90021 90018 7.34822 90021 90018 42.4 90021 90018 0.1239 90021 90018 0.406392 90021 90018 119 90021 90018 325 Hz 90021 90059 90060 90061 2 90021 90018 0.2576 90021 90018 6.54304 90021 90018 33.6 90021 90018 0.1563 90021 90018 0.512664 90021 90018 94 90021 90018 410 Hz 90021 90059 90060 90061 3 90021 90018 0.2294 90021 90018 5.82676 90021 90018 26.7 90021 90018 0.197 90021 90018 0.64616 90021 90018 75 90021 90018 500 Hz 90021 90059 90060 90061 4 90021 90018 0.2043 90021 90018 5.18922 90021 90018 21.2 90021 90018 0.2485 90021 90018 0.81508 90021 90018 60 90021 90018 650 Hz 90021 90059 90060 90061 5 90021 90018 0.1819 90021 90018 4.62026 90021 90018 16.8 90021 90018 0.3133 90021 90018 1.027624 90021 90018 47 90021 90018 810 Hz 90021 90059 90060 90061 6 90021 90018 0.162 90021 90018 4.1148 90021 90018 13.3 90021 90018 0.3951 90021 90018 1.295928 90021 90018 37 90021 90018 1100 Hz 90021 90059 90060 90061 7 90021 90018 0.1443 90021 90018 3.66522 90021 90018 10.5 90021 90018 0.4982 90021 90018 1.634096 90021 90018 30 90021 90018 1300 Hz 90021 90059 90060 90061 8 90021 90018 0.1285 90021 90018 3.2639 90021 90018 8.37 90021 90018 0.6282 90021 90018 2.060496 90021 90018 24 90021 90018 1650 Hz 90021 90059 90060 90061 9 90021 90018 0.1144 90021 90018 2.90576 90021 90018 6.63 90021 90018 0.7921 90021 90018 2.598088 90021 90018 19 90021 90018 2050 Hz 90021 90059 90060 90061 10 90021 90018 0.1019 90021 90018 2.58826 90021 90018 5.26 90021 90018 0.9989 90021 90018 3.276392 90021 90018 15 90021 90018 2600 Hz 90021 90059 90060 90061 11 90021 90018 0.0907 90021 90018 2.30378 90021 90018 4.17 90021 90018 1.26 90021 90018 4.1328 90021 90018 12 90021 90018 3200 Hz 90021 90059 90060 90061 12 90021 90018 0.0808 90021 90018 2.05232 90021 90018 3.31 90021 90018 1.588 90021 90018 5.20864 90021 90018 9.3 90021 90018 4150 Hz 90021 90059 90060 90061 13 90021 90018 0.072 90021 90018 1.8288 90021 90018 2.62 90021 90018 2.003 90021 90018 6.56984 90021 90018 7.4 90021 90018 5300 Hz 90021 90059 90060 90061 14 90021 90018 0.0641 90021 90018 1.62814 90021 90018 2.08 90021 90018 2.525 90021 90018 8.282 90021 90018 5.9 90021 90018 6700 Hz 90021 90059 90060 90061 15 90021 90018 0.0571 90021 90018 1.45034 90021 90018 1.65 90021 90018 3.184 90021 90018 10.44352 90021 90018 4.7 90021 90018 8250 Hz 90021 90059 90060 90061 16 90021 90018 0.0508 90021 90018 1.29032 90021 90018 1.31 90021 90018 4.016 90021 90018 13.17248 90021 90018 3.7 90021 90018 11 k Hz 90021 90059 90060 90061 17 90021 90018 0.0453 90021 90018 1.15062 90021 90018 1.04 90021 90018 5.064 90021 90018 16.60992 90021 90018 2.9 90021 90018 13 k Hz 90021 90059 90060 90061 18 90021 90018 0.0403 90021 90018 1.02362 90021 90018 0.823 90021 90018 6.385 90021 90018 20.9428 90021 90018 2.3 90021 90018 17 kHz 90021 90059 90060 90061 19 90021 90018 0.0359 90021 90018 0.91186 90021 90018 0.653 90021 90018 8.051 90021 90018 26.40728 90021 90018 1.8 90021 90018 21 kHz 90021 90059 90060 90061 20 90021 90018 0.032 90021 90018 0.8128 90021 90018 0.518 90021 90018 10.15 90021 90018 33.292 90021 90018 1.5 90021 90018 27 kHz 90021 90059 90060 90061 21 90021 90018 0.0285 90021 90018 0.7239 90021 90018 0.41 90021 90018 12.8 90021 90018 41.984 90021 90018 1.2 90021 90018 33 kHz 90021 90059 90060 90061 22 90021 90018 0.0254 90021 90018 0.64516 90021 90018 0.326 90021 90018 16.14 90021 90018 52.9392 90021 90018 0.92 90021 90018 42 kHz 90021 90059 90060 90061 23 90021 90018 0.0226 90021 90018 0.57404 90021 90018 0.258 90021 90018 20.36 90021 90018 66.7808 90021 90018 0.729 90021 90018 53 kHz 90021 90059 90060 90061 24 90021 90018 0.0201 90021 90018 0.51054 90021 90018 0.205 90021 90018 25.67 90021 90018 84.1976 90021 90018 0.577 90021 90018 68 kHz 90021 90059 90060 90061 25 90021 90018 0.0179 90021 90018 0.45466 90021 90018 0.162 90021 90018 32.37 90021 90018 106.1736 90021 90018 0.457 90021 90018 85 kHz 90021 90059 90060 90061 26 90021 90018 0.0159 90021 90018 0.40386 90021 90018 0.129 90021 90018 40.81 90021 90018 133.8568 90021 90018 0.361 90021 90018 107 kHz 90021 90059 90060 90061 27 90021 90018 0.0142 90021 90018 0.36068 90021 90018 0.102 90021 90018 51.47 90021 90018 168.8216 90021 90018 0.288 90021 90018 130 kHz 90021 90059 90060 90061 28 90021 90018 0.0126 90021 90018 0.32004 90021 90018 0.081 90021 90018 64.9 90021 90018 212.872 90021 90018 0.226 90021 90018 170 kHz 90021 90059 90060 90061 29 90021 90018 0.0113 90021 90018 0.28702 90021 90018 0.0642 90021 90018 81.83 90021 90018 268.4024 90021 90018 0.182 90021 90018 210 kHz 90021 90059 90060 90061 30 90021 90018 0.01 90021 90018 0.254 90021 90018 0.0509 90021 90018 103.2 90021 90018 338.496 90021 90018 0.142 90021 90018 270 kHz 90021 90059 90060 90061 31 90021 90018 0.0089 90021 90018 0.22606 90021 90018 0.0404 90021 90018 130.1 90021 90018 426.728 90021 90018 0.113 90021 90018 340 kHz 90021 90059 90060 90061 32 90021 90018 0.008 90021 90018 0.2032 90021 90018 0.032 90021 90018 164.1 90021 90018 538.248 90021 90018 0.091 90021 90018 430 kHz 90021 90059 90060 90061 33 90021 90018 0.0071 90021 90018 0.18034 90021 90018 0.0254 90021 90018 206.9 90021 90018 678.632 90021 90018 0.072 90021 90018 540 kHz 90021 90059 90060 90061 34 90021 90018 0.0063 90021 90018 0.16002 90021 90018 0.0201 90021 90018 260.9 90021 90018 855.752 90021 90018 0.056 90021 90018 690 kHz 90021 90059 90060 90061 35 90021 90018 0.0056 90021 90018 0.14224 90021 90018 0.016 90021 90018 329 90021 90018 1079.12 90021 90018 0.044 90021 90018 870 kHz 90021 90059 90060 90061 36 90021 90018 0.005 90021 90018 0.127 90021 90018 0.0127 90021 90018 414.8 90021 90018 1360 90021 90018 0.035 90021 90018 1100 kHz 90021 90059 90060 90061 37 90021 90018 0.0045 90021 90018 0.1143 90021 90018 0.01 90021 90018 523.1 90021 90018 1715 90021 90018 0.0289 90021 90018 1350 kHz 90021 90059 90060 90061 38 90021 90018 0.004 90021 90018 0.1016 90021 90018 0.00797 90021 90018 659.6 90021 90018 2163 90021 90018 0.0228 90021 90018 1750 kHz 90021 90059 90060 90061 39 90021 90018 0.0035 90021 90018 0.0889 90021 90018 0.00632 90021 90018 831.8 90021 90018 2728 90021 90018 0.0175 90021 90018 2250 kHz 90021 90059 90060 90061 40 90021 90018 0.0031 90021 90018 0.07874 90021 90018 0.00501 90021 90018 1049 90021 90018 3440 90021 90018 0.0137 90021 90018 2900 kHz 90021 90059 90852 90853 90005 90006 90856 AWG Notes 90857 90007: American Wire Gauge (AWG) is a standardized wire gauge system used predominantly in the United States to note the diameter of electrically conducting wire.The general rule of thumb is for every 6 gauge decrease the wire diameter doubles and every 3 gauge decrease doubles the cross sectional area. 90008 90005 90006 90856 Diameter Notes 90857 90007: A mil is a unit of length equal to 0.001 inch (a «milli-inch» or a «thousandth of one inch») ie. 1 mil = 0.001 «. 90008 90005 90006 90856 Resistance Notes 90857 90007: The resistance noted in the table above is for copper wire conductor. For a given current, you can use the noted resistance and apply Ohms Law to calculate the voltage drop across the conductor.90008 90005 90006 90856 Current (ampacity) Notes 90857 90007: The current ratings shown in the table are for power transmission and have been determined using the rule of 1 amp per 700 circular mils, which is a 90856 very conservative 90857 rating. For reference, the National Electrical Code (NEC) notes the following ampacity for copper wire at 30 Celsius: 90025 14 AWG — maximum of 20 Amps in free air, maximum of 15 Amps as part of a 3 conductor cable; 90025 12 AWG — maximum of 25 Amps in free air, maximum of 20 Amps as part of a 3 conductor cable; 90025 10 AWG — maximum of 40 Amps in free air, maximum of 30 Amps as part of a 3 conductor cable.90008 90005 90006 Check your local electrical code for the correct current capacity (ampacity) for mains and in wall wiring. 90007 90008 90005 90006 90856 Skin Effect and Skin Depth Notes 90857 90007: Skin effect is the tendency of an alternating electric current (AC) to distribute itself within a conductor so that the current density near the surface of the conductor is greater than that at its core. That is, the electric current tends to flow at the «skin» of the conductor. The skin effect causes the effective resistance of the conductor to increase with the frequency of the current.The maximum frequency show is for 100% skin depth (ie. No skin effects). 90008 90893 90008 90013 American Wire Guage (AWG) Wire Sizes 90010 90005 Great, now that you’re armed with this information about AWG and conuctors, take a look at some of the DIY Hi-Fi Audio Cables and Mains Power Cord Projects. 90008 .90000 Standard Cable & Wire Sizes 90001 90002 IEC 60228 is the International Electrotechnical Commission’s international standard on conductors of insulated cables. Among other things, it defines a set of standard wire cross-sections: 90003 90004 90005 90006 90007 International standard wire sizes (IEC 60228) 90008 90009 90010 90011 0.5 mm² 90012 90011 0.75 mm² 90012 90011 1 mm² 90012 90011 1.5 mm² 90012 90011 2.5 mm² 90012 90011 4 mm² 90012 90009 90010 90011 6 mm² 90012 90011 10 mm² 90012 90011 16 mm² 90012 90011 25 mm² 90012 90011 35 mm² 90012 90011 50 mm² 90012 90009 90010 90011 70 mm² 90012 90011 95 mm² 90012 90011 120 mm² 90012 90011 150 mm² 90012 90011 185 mm² 90012 90011 240 mm² 90012 90009 90010 90011 300 mm² 90012 90011 400 mm² 90012 90011 500 mm² 90012 90011 630 mm² 90012 90011 800 mm² 90012 90011 1000 mm² 90012 90009 90066 90067 90002 90003 90002 In the United States, wire sizes are commonly measured in American Wire Gauge (AW).Increasing AWG give decreasing cross sectional areas (the smallest AWG size being 50 and the largest 0000). 90003 90072 Metric AWG Conversion 90073 90004 90005 90076 90077 90077 90077 90080 90081 Number strands / diameter 90082 per strand 90083 90008 90080 90081 Approximate overall 90082 diameter 90083 90008 90009 90076 90092 90081 mm² 90083 90008 90092 90081 Awg 90083 90008 90092 90081 Circ.Mils 90083 90008 90092 90081 inch 90083 90008 90092 90081 mm 90083 90008 90092 90081 inch 90083 90008 90092 90117 90081 mm 90083 90120 90008 90009 90076 90011 0.5 90012 90126 90011 987 90012 90011 1 / .032 90012 90011 1 / .813 90012 90011 0.032 90012 90011 0.81 90012 90009 90076 90126 90011 20 90012 90011 1020 90012 90011 7 / .0121 90012 90011 7 / .307 90012 90011 0.036 90012 90011 0.91 90012 90009 90076 90011 0.75 90012 90126 90011 1480 90012 90011 1 / .039 90012 90011 1 /.991 90012 90011 0.039 90012 90011 0.99 90012 90009 90076 90126 90011 18 90012 90011 1620 90012 90011 1 / .0403 90012 90011 1 / 1.02 90012 90011 0.04 90012 90011 1.02 90012 90009 90076 90126 90011 18 90012 90011 1620 90012 90011 7 /.0152 90012 90011 7 / .386 90012 90011 0.046 90012 90011 1.16 90012 90009 90076 90011 1 90012 90126 90011 1974 90012 90011 1 / .045 90012 90011 1 / 1.14 90012 90011 0.045 90012 90011 1.14 90012 90009 90076 90011 1 90012 90126 90011 1974 90012 90011 7 /.017 90012 90011 7 / .432 90012 90011 0.051 90012 90011 1.3 90012 90009 90076 90126 90011 16 90012 90011 2580 90012 90011 1 / .0508 90012 90011 1 / 1.29 90012 90011 0.051 90012 90011 1.29 90012 90009 90076 90126 90011 16 90012 90011 2580 90012 90011 7 /.0192 90012 90011 7 / .488 90012 90011 0.058 90012 90011 1.46 90012 90009 90076 90011 1.5 90012 90126 90011 2960 90012 90011 1 / .055 90012 90011 1 / 1.40 90012 90011 0.055 90012 90011 1.4 90012 90009 90076 90011 1.5 90012 90126 90011 2960 90012 90011 7 /.021 90012 90011 7 / .533 90012 90011 0.063 90012 90011 1.6 90012 90009 90076 90126 90011 14 90012 90011 4110 90012 90011 1 / .0641 90012 90011 1 / 1.63 90012 90011 0.064 90012 90011 1.63 90012 90009 90076 90126 90011 14 90012 90011 4110 90012 90011 7 /.0242 90012 90011 7 / .615 90012 90011 0.073 90012 90011 1.84 90012 90009 90076 90011 2.5 90012 90126 90011 4934 90012 90011 1 / .071 90012 90011 1 / 1.80 90012 90011 0.071 90012 90011 1.8 90012 90009 90076 90011 2.5 90012 90126 90011 4934 90012 90011 7 /.027 90012 90011 7 / .686 90012 90011 0.081 90012 90011 2.06 90012 90009 90076 90126 90011 12 90012 90011 6530 90012 90011 1 / .0808 90012 90011 1 / 2.05 90012 90011 0.081 90012 90011 2.05 90012 90009 90076 90126 90011 12 90012 90011 6530 90012 90011 7 /.0305 90012 90011 7 / .775 90012 90011 0.092 90012 90011 2.32 90012 90009 90076 90011 4 90012 90126 90011 7894 90012 90011 1 / .089 90012 90011 1 / 2.26 90012 90011 0.089 90012 90011 2.26 90012 90009 90076 90011 4 90012 90126 90011 7894 90012 90011 7 /.034 90012 90011 7 / .864 90012 90011 0.102 90012 90011 2.59 90012 90009 90076 90126 90011 10 90012 90011 10380 90012 90011 1 / .1019 90012 90011 1 / 2.59 90012 90011 0.102 90012 90011 2.59 90012 90009 90076 90126 90011 10 90012 90011 10380 90012 90011 7 /.0385 90012 90011 7 / .978 90012 90011 0.116 90012 90011 2.93 90012 90009 90076 90011 6 90012 90126 90011 11840 90012 90011 1 / .109 90012 90011 1 / 2.77 90012 90011 0.109 90012 90011 2.77 90012 90009 90076 90011 6 90012 90126 90011 11840 90012 90011 7 /.042 90012 90011 7 / 1.07 90012 90011 0.126 90012 90011 3.21 90012 90009 90076 90126 90011 9 90012 90011 13090 90012 90011 1 / .1144 90012 90011 1 / 2.91 90012 90011 0.1144 90012 90011 2.91 90012 90009 90076 90126 90011 9 90012 90011 13090 90012 90011 7 /.0432 90012 90011 7 / 1.10 90012 90011 0.13 90012 90011 3.3 90012 90009 90076 90126 90011 8 90012 90011 16510 90012 90011 1 / .1285 90012 90011 1 / 3.26 90012 90011 0.128 90012 90011 3.26 90012 90009 90076 90126 90011 8 90012 90011 16510 90012 90011 7 /.0486 90012 90011 7 / 1.23 90012 90011 0.146 90012 90011 3.7 90012 90009 90076 90011 10 90012 90126 90011 19740 90012 90011 1 / .141 90012 90011 1 / 3.58 90012 90011 0.141 90012 90011 3.58 90012 90009 90076 90011 10 90012 90126 90011 19740 90012 90011 7 /.054 90012 90011 7 / 1.37 90012 90011 0.162 90012 90011 4.12 90012 90009 90076 90126 90011 7 90012 90011 20820 90012 90011 1 / .1443 90012 90011 1 / 3.67 90012 90011 0.144 90012 90011 3.67 90012 90009 90076 90126 90011 7 90012 90011 20820 90012 90011 7 /.0545 90012 90011 7 / 1.38 90012 90011 0.164 90012 90011 4.15 90012 90009 90076 90126 90011 6 90012 90011 26240 90012 90011 1 / .162 90012 90011 1 / 4.11 90012 90011 0.162 90012 90011 4.11 90012 90009 90076 90126 90011 6 90012 90011 26240 90012 90011 7 /.0612 90012 90011 7 / 1.55 90012 90011 0.184 90012 90011 4.66 90012 90009 90076 90011 16 90012 90126 90011 31580 90012 90011 7 / .068 90012 90011 7 / 1.73 90012 90011 0.204 90012 90011 5.18 90012 90009 90076 90126 90011 5 90012 90011 33090 90012 90011 7 /.0688 90012 90011 7 / 1.75 90012 90011 0.206 90012 90011 5.24 90012 90009 90076 90126 90011 4 90012 90011 41740 90012 90011 7 / .0772 90012 90011 7 / 1.96 90012 90011 0.232 90012 90011 5.88 90012 90009 90076 90011 25 90012 90126 90011 49340 90012 90011 7 /.085 90012 90011 7 / 2.16 90012 90011 0.255 90012 90011 6.48 90012 90009 90076 90011 25 90012 90126 90011 49340 90012 90011 19 / .052 90012 90011 19 / 1.32 90012 90011 0.26 90012 90011 6.6 90012 90009 90076 90126 90011 3 90012 90011 52620 90012 90011 7 /.0867 90012 90011 7 / 2.20 90012 90011 0.26 90012 90011 6.61 90012 90009 90076 90126 90011 2 90012 90011 66360 90012 90011 7 / .0974 90012 90011 7 / 2.47 90012 90011 0.292 90012 90011 7.42 90012 90009 90076 90011 35 90012 90126 90011 69070 90012 90011 7 /.100 90012 90011 7 / 2.54 90012 90011 0.3 90012 90011 7.62 90012 90009 90076 90011 35 90012 90126 90011 69070 90012 90011 19 / .061 90012 90011 19 / 1.55 90012 90011 0.305 90012 90011 7.75 90012 90009 90076 90126 90011 1 90012 90011 83690 90012 90011 19 /.0664 90012 90011 19 / 1.69 90012 90011 0.332 90012 90011 9.43 90012 90009 90076 90011 50 90012 90126 90011 98680 90012 90011 19 / .073 90012 90011 19 / 1.85 90012 90011 0.365 90012 90011 9.27 90012 90009 90076 90126 90011 1/0 90012 90011 105600 90012 90011 19 /.0745 90012 90011 19 / 1.89 90012 90011 0.373 90012 90011 9.46 90012 90009 90076 90126 90011 2/0 90012 90011 133100 90012 90011 19 / .0837 90012 90011 19 / 2.13 90012 90011 0.419 90012 90011 10.6 90012 90009 90076 90011 70 90012 90126 90011 138100 90012 90011 19 /.086 90012 90011 19 / 2.18 90012 90011 0.43 90012 90011 10.9 90012 90009 90076 90126 90011 3/0 90012 90011 167800 90012 90011 19 / .094 90012 90011 19 / 2.39 90012 90011 0.47 90012 90011 11.9 90012 90009 90076 90126 90011 3/0 90012 90011 167800 90012 90011 37 /.0673 90012 90011 37 / 1.71 90012 90011 0.471 90012 90011 12 90012 90009 90076 90011 95 90012 90126 90011 187500 90012 90011 19 / .101 90012 90011 19 / 2.57 90012 90011 0.505 90012 90011 12.8 90012 90009 90076 90011 95 90012 90126 90011 187500 90012 90011 37 /.072 90012 90011 37 / 1.83 90012 90011 0.504 90012 90011 12.8 90012 90009 90076 90126 90011 4/0 90012 90011 211600 90012 90011 19 / .1055 90012 90011 19 / 2.68 90012 90011 0.528 90012 90011 13.4 90012 90009 90076 90011 120 90012 90126 90011 237.8mcm 90012 90011 37 / .081 90012 90011 37 / 2.06 90012 90011 0.567 90012 90011 14.4 90012 90009 90076 90126 90126 90011 250mcm 90012 90011 37 / .0822 90012 90011 37 / 2.09 90012 90011 0.575 90012 90011 14.6 90012 90009 90076 90011 150 90012 90126 90011 300mcm 90012 90011 37 /.090 90012 90011 37 / 2.29 90012 90011 0.63 90012 90011 16 90012 90009 90076 90126 90126 90011 350mcm 90012 90011 37 / .0973 90012 90011 37 / 2.47 90012 90011 0.681 90012 90011 17.3 90012 90009 90076 90011 185 90012 90126 90011 365.1mcm 90012 90011 37 / .100 90012 90011 37 / 2.54 90012 90011 0.7 90012 90011 17.8 90012 90009 90076 90126 90126 90011 400mcm 90012 90011 37 / .104 90012 90011 37 / 2.64 90012 90011 0.728 90012 90011 18.5 90012 90009 90076 90011 240 90012 90126 90011 473.6mcm 90012 90011 37 / .114 90012 90011 37 / 2.90 90012 90011 0.798 90012 90011 20.3 90012 90009 90076 90011 240 90012 90126 90011 473.6mcm 90012 90011 61 / .089 90012 90011 61 / 2.26 90012 90011 0.801 90012 90011 20.3 90012 90009 90076 90126 90126 90011 500mcm 90012 90011 37 /.1162 90012 90011 37 / 2.95 90012 90011 0.813 90012 90011 20.7 90012 90009 90076 90126 90126 90011 500mcm 90012 90011 61 / .0905 90012 90011 61 / 2.30 90012 90011 0.814 90012 90011 20.7 90012 90009 90076 90011 300 90012 90126 90011 592.1mcm 90012 90011 61 / .099 90012 90011 61 / 2.51 90012 90011 0.891 90012 90011 22.6 90012 90009 90076 90126 90126 90011 600mcm 90012 90011 61 / .0992 90012 90011 61 / 2.52 90012 90011 0.893 90012 90011 22.7 90012 90009 90076 90126 90126 90011 700mcm 90012 90011 61 /.1071 90012 90011 61 / 2.72 90012 90011 0.964 90012 90011 24.5 90012 90009 90076 90126 90126 90011 750mcm 90012 90011 61 / .1109 90012 90011 61 / 2.82 90012 90011 0.998 90012 90011 25.4 90012 90009 90076 90126 90126 90011 750mcm 90012 90011 91 /.0908 90012 90011 91 / 2.31 90012 90011 0.999 90012 90011 25.4 90012 90009 90076 90011 400 90012 90126 90011 789.4mcm 90012 90011 61 / .114 90012 90011 61 / 2.90 90012 90011 1.026 90012 90011 26.1 90012 90009 90076 90126 90126 90011 800mcm 90012 90011 61 /.1145 90012 90011 61 / 2.91 90012 90011 1.031 90012 90011 26.2 90012 90009 90076 90126 90126 90011 800mcm 90012 90011 61 / .0938 90012 90011 91 / 2.38 90012 90011 1.032 90012 90011 26.2 90012 90009 90076 90011 500 90012 90126 90011 1000mcm 90012 90011 61 /.1280 90012 90011 61 / 3.25 90012 90011 1.152 90012 90011 29.3 90012 90009 90076 90126 90126 90011 1000mcm 90012 90011 91 / .1048 90012 90011 91 / 2.66 90012 90011 1.153 90012 90011 29.3 90012 90009 90076 90011 625 90012 90126 90011 1233.7mcm 90012 90011 91 / .117 90012 90011 91 / 2.97 90012 90011 1.287 90012 90011 32.7 90012 90009 90076 90126 90126 90011 1250mcm 90012 90011 91 / .1172 90012 90011 91 / 2.98 90012 90011 1.289 90012 90011 32.7 90012 90009 90076 90126 90126 90011 1250mcm 90012 90011 127 /.0992 90012 90011 127 / 2.52 90012 90011 1.29 90012 90011 32.8 90012 90009 90076 90126 90126 90011 1500mcm 90012 90011 91 / .1284 90012 90011 91 / 3.26 90012 90011 1.412 90012 90011 35.9 90012 90009 90076 90126 90126 90011 1500mcm 90012 90011 127 /.1087 90012 90011 127 / 2.76 90012 90011 1.413 90012 90011 35.9 90012 90009 90076 90011 800 90012 90126 90011 1578.8mcm 90012 90011 91 / .132 90012 90011 91 / 3.35 90012 90011 1.452 90012 90011 36.9 90012 90009 90076 90011 1000 90012 90126 90011 1973.5mcm 90012 90011 91 / .147 90012 90011 91 / 3.73 90012 90011 1.617 90012 90011 41.1 90012 90009 90076 90126 90126 90011 2000mcm 90012 90011 127 / .1255 90012 90011 127 / 3.19 90012 90011 1.632 90012 90011 41.5 90012 90009 90076 90126 90126 90011 2000mcm 90012 90011 169 /.1088 90012 90011 169 / 2.76 90012 90011 1.632 90012 90011 41.5 90012 90009 90066 90067 91322 Definitions 91323 91324 91325 Circ.Mils — cross sectional area in Circular Mils 91326 91325 Awg — American Wire Gauge size 91326 91325 mm² — Metric Wire Size mm² 91326 91331 90072 See Also 90073 .