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Vd = Vc x L x I Volts

      1000

Vc = Vd x l000 mV/A.m

     LxI
4.2 of AS/NZS 3008.1
Voltage drop at 50 Hz of multicore cables
                  with circular copper conductors
                              ...
Voltage drop at 50 Hz of multicore cables
                  with circular copper conductors
                              ...
Two Thirds   One Third
5.3.3 Methods Drop
5.3.3 Methods Drop
5.3.3 Methods Drop
5.3.3 Methods Drop
5.3.3 Methods Drop
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5.3.3 Methods Drop

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5.3.3 Methods Drop

  1. 1. Vd = Vc x L x I Volts 1000 Vc = Vd x l000 mV/A.m LxI
  2. 2. 4.2 of AS/NZS 3008.1
  3. 3. Voltage drop at 50 Hz of multicore cables with circular copper conductors Vc at 50 Hz in mV/A.m Conductor Size at a conductor temperature of 75 °C in mm2 1Φ Value 3Φ Value 1 51.63 44.7 1.5 33.03 28.6 2.5 18.02 15.6 4 11.22 9.71 6 7.5 6.49 10 4.46 3.86 16 2.81 2.43 25 1.78 1.54 35 1.28 1.11 These figures are based on Table 42 of AS3008. 1.
  4. 4. Voltage drop at 50 Hz of multicore cables with circular copper conductors Vc at 50 Hz in mV/A.m Conductor Size at a conductor temperature of 75 °C in mm2 1Φ Value 3Φ Value 1 51.63 44.7 1.5 33.03 28.6 2.5 18.02 15.6 4 11.22 9.71 6 7.5 6.49 10 4.46 3.86 16 2.81 2.43 25 1.78 1.54 35 1.28 1.11 These figures are based on Table 42 of AS3008. 1. lΦ value = 3Φ value x l.155
  5. 5. Two Thirds One Third

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