Fig. G1 – Flow-chart for the selection of cable size and protective device rating for a given circuit (DB422280_EN)
Fig. G2 – Calculation of maximum load current IB (DB422281_EN)
Fig. G3 – Circuit protection by circuit breaker (DB422282_EN)
Fig. G4 – Circuit protection by fuses (DB422283_EN)
Fig. G5 – I2t characteristic of an insulated conductor at two different ambient temperatures (DB422284)
Fig. G6 – Current levels for determining circuir breaker or fuse characteristics (DB422285_EN)
Fig. G7 – Location of protective devices (DB422286a)
Fig. G7 – Location of protective devices (DB422286b_EN)
Fig. G7 – Location of protective devices (DB422286c_EN)
Fig. G10 – Examples of methods of installation (part of table A.52.3 of IEC 60364-5-52) (continued on next page)
![[DB422287]](/enw/images/0/0e/DB422287.svg)
[DB422287]
![[DB422288]](/enw/images/5/56/DB422288.svg)
[DB422288]
![[DB422289]](/enw/images/2/29/DB422289.svg)
[DB422289]
![[DB422290]](/enw/images/6/6c/DB422290.svg)
[DB422290]
![[DB422291]](/enw/images/3/38/DB422291.svg)
[DB422291]
![[DB422292]](/enw/images/f/fd/DB422292.svg)
[DB422292]
![[DB422293]](/enw/images/3/3a/DB422293.svg)
[DB422293]
![[DB422294]](/enw/images/d/dc/DB422294.svg)
[DB422294]
![[DB422295]](/enw/images/9/91/DB422295.svg)
[DB422295]
![[DB422296]](/enw/images/8/86/DB422296.svg)
[DB422296]
![[DB422287]](/enwiki/File:DB422287.svg)
![[DB422288]](/enwiki/File:DB422288.svg)
![[DB422289]](/enwiki/File:DB422289.svg)
![[DB422290]](/enwiki/File:DB422290.svg)
![[DB422291]](/enwiki/File:DB422291.svg)
![[DB422292]](/enwiki/File:DB422292.svg)
![[DB422293]](/enwiki/File:DB422293.svg)
![[DB422294]](/enwiki/File:DB422294.svg)
![[DB422295]](/enwiki/File:DB422295.svg)
![[DB422296]](/enwiki/File:DB422296.svg)
Fig. G17 – Reduction factors for groups of more than one circuit of single-core cables to be applied to reference rating for one circuit of single-core cables in free air - Method of installation F. (table B.52.21 of IEC 60364-5-52) (DB422297)
Fig. G17 – Reduction factors for groups of more than one circuit of single-core cables to be applied to reference rating for one circuit of single-core cables in free air - Method of installation F. (table B.52.21 of IEC 60364-5-52) (DB422298)
Fig. G17 – Reduction factors for groups of more than one circuit of single-core cables to be applied to reference rating for one circuit of single-core cables in free air - Method of installation F. (table B.52.21 of IEC 60364-5-52) (DB422299)
Fig. G17 – Reduction factors for groups of more than one circuit of single-core cables to be applied to reference rating for one circuit of single-core cables in free air - Method of installation F. (table B.52.21 of IEC 60364-5-52) (DB422300)
Fig. G17 – Reduction factors for groups of more than one circuit of single-core cables to be applied to reference rating for one circuit of single-core cables in free air - Method of installation F. (table B.52.21 of IEC 60364-5-52) (DB422301)
Fig. G17 – Reduction factors for groups of more than one circuit of single-core cables to be applied to reference rating for one circuit of single-core cables in free air - Method of installation F. (table B.52.21 of IEC 60364-5-52) (DB422302)
Fig. G18 – Reduction factors for more than one circuit, single-core or multi-core cables laid directly in the ground. Installation method D. (table B.52.18 of IEC 60364-5-52) (DB422303a)
Fig. G18 – Reduction factors for more than one circuit, single-core or multi-core cables laid directly in the ground. Installation method D. (table B.52.18 of IEC 60364-5-52) (DB422303b)
Fig. G20 – Current-carrying capacities in amperes for different methods of installation, PVC insulation, three loaded conductors, copper or aluminium, conductor temperature: 70 °C, ambient temperature: 30 °C in air, 20 °C in ground (table B.52.4 of IEC 60364-5-52) (DB422304)
Fig. G20 – Current-carrying capacities in amperes for different methods of installation, PVC insulation, three loaded conductors, copper or aluminium, conductor temperature: 70 °C, ambient temperature: 30 °C in air, 20 °C in ground (table B.52.4 of IEC 60364-5-52) (DB422305)
Fig. G20 – Current-carrying capacities in amperes for different methods of installation, PVC insulation, three loaded conductors, copper or aluminium, conductor temperature: 70 °C, ambient temperature: 30 °C in air, 20 °C in ground (table B.52.4 of IEC 60364-5-52) (DB422306)
Fig. G20 – Current-carrying capacities in amperes for different methods of installation, PVC insulation, three loaded conductors, copper or aluminium, conductor temperature: 70 °C, ambient temperature: 30 °C in air, 20 °C in ground (table B.52.4 of IEC 60364-5-52) (DB422307)
Fig. G20 – Current-carrying capacities in amperes for different methods of installation, PVC insulation, three loaded conductors, copper or aluminium, conductor temperature: 70 °C, ambient temperature: 30 °C in air, 20 °C in ground (table B.52.4 of IEC 60364-5-52) (DB422308)
Fig. G20 – Current-carrying capacities in amperes for different methods of installation, PVC insulation, three loaded conductors, copper or aluminium, conductor temperature: 70 °C, ambient temperature: 30 °C in air, 20 °C in ground (table B.52.4 of IEC 60364-5-52) (DB422309)
Fig. G20 – Current-carrying capacities in amperes for different methods of installation, PVC insulation, three loaded conductors, copper or aluminium, conductor temperature: 70 °C, ambient temperature: 30 °C in air, 20 °C in ground (table B.52.4 of IEC 60364-5-52) (DB422310)
Fig. G23b – Maximum admissible currents (p.u.) in a busbar trunking system as functions of the 3rd harmonic level (DB422311_EN)
Fig. G26 – Maximum voltage drop (DB422312_EN)
Fig. G29 – Example 1 (DB422313_EN)
Fig. G30 – Example 2 (DB422314_EN)
Fig. G32 – Case of several transformers in parallel (DB422315)
Fig. G33 – Impedance diagram (DB422316)
Fig. G36 – Recapitulation table of impedances for different parts of a power-supply system (DB422317)
Fig. G37 – Example of maximum short-circuit calculations for a LV installation supplied at 400 V (nominal) from a 1000 kVA MV/LV transformer (DB422318)
Fig. G38 – Determination of downstream short-circuit current level Isc using Figure G39 (DB422319_EN)
Fig. G40 – Circuit protected by aM fuses (DB422320_EN)
Fig. G41 – Circuit protected by circuit breaker without thermal overload relay (DB422321_EN)
Fig. G42a – Circuit breaker D provides protection against short-circuit faults as far as and including the load (DB422322_EN)
Fig. G43 – Protection by circuit breaker (DB422323)
Fig. G44 – Protection by aM-type fuses (DB422324)
Fig. G45 – Protection by gG-type fuses (DB422325)
Fig. G46 – Definition of L for a 3-phase 3-wire circuit (DB422326_EN)
Fig. G53b – Example of energy limitation of a MCB for different ratings (DB422327_EN)
Fig. G54 – A poor connection in a series arrangement will leave all downstream appliances unprotected (DB422328_EN)
Fig. G55 – Direct connection of the PEN conductor to the earth terminal of an appliance (DB422329)
Fig. G56 – The TN-C-S scheme (DB422330)
Fig. G60 – PE conductor to the main earth bar in the MGDB (DB422331_EN)
Fig. G62 – Supplementary equipotential conductors (DB422332_EN)
Fig. G63a – Triplen harmonics are in phase and cumulate in the Neutral (DB422346)
Fig. G63b – Load factor of the neutral conductor vs the percentage of 3rd harmonic (DB422347_EN)
Fig. - – Compact NSX100 circuit breaker (PB116760_EN)
Fig. - – (DB422333)
Fig. - – (DB422334)
Fig. - – (DB422335)
Fig. - – (DB422336)
Fig. G64 – The various situations in which the neutral conductor may appear (DB422337)
Fig. G64 – The various situations in which the neutral conductor may appear (DB422338)
Fig. G64 – The various situations in which the neutral conductor may appear (DB422339)
Fig. G64 – The various situations in which the neutral conductor may appear (DB422340)
Fig. G64 – The various situations in which the neutral conductor may appear (DB422341)
Fig. G64 – The various situations in which the neutral conductor may appear (DB422342)
Fig. G64 – The various situations in which the neutral conductor may appear (DB422343)
Fig. G64 – The various situations in which the neutral conductor may appear (DB422344)
Fig. G64 – The various situations in which the neutral conductor may appear (DB422345)
Fig. G65 – Example of single-line diagram (DB422367_EN)
