User:LMischler/Img-2018-F: Difference between revisions

Latest revision as of 17:23, 19 April 2021

Fig. F1 – Zones time/current of effects of AC current on human body when passing from left hand to feet (DB422220_EN)

Fig. F2 – Contact with live part (Direct contact) (DB422221_EN)

Fig. F3 – Contact with parts in fault conditions (Indirect contact) (DB422222_EN)

Fig. F4 – Inherent protection against direct contact by insulation of a 3-phase cable with outer sheath (DB422223)

Fig. F5 – Example of isolation by enclosure (PB119913)

Fig. F6 – Illustration of the dangerous touch voltage Uc (DB431001)

Fig. F8 – Additional protection by RCD (DB431012)

Fig. F9 – Tripping curve of High Sensitivity 30mA RCD (in blue) compared to body sensitivity curves (DB431013_EN)

Fig. F10 – Circuit supplying socket-outlets

(DB422241)
(DB422267)

Fig. F11 – Automatic disconnection of supply for TT system (DB422225_EN)

Fig. F15 – Distribution circuits (DB422239_EN)

Fig. F16 – Separate earth electrode (DB422240_EN)

Fig. F17 – Unearthed exposed conductive parts (A) (DB422243)

Fig. F18 – Automatic disconnection in TN system (DB422226_EN)

Fig. F20 – Disconnection by circuit breaker for a TN system (DB422227_EN)

Fig. F21 – Disconnection by fuses for a TN system (DB422228_EN)

Fig. F22 – Implementation of the TN earthing system (DB422248_EN)

Fig. F23 – Calculation of L max. for a TN-earthed system, using the conventional method (DB422249)

Fig. F29 – Circuit breaker with low-set instantaneous magnetic tripping (DB422250_EN)

Fig. F30 – RCD protection on TN systems with high earth-fault-loop impedance (DB422251_EN)

Fig. F31 – Improved equipotential bonding (DB422252_EN)

Fig. F32 – Simplified circuit (DB431014)

Fig. F33 – Fault current path for a first fault in IT system (DB431015)

Fig. F34 – Vector representation of voltages and currents in case of fault between phase 1 and earth (DB431016)

Fig. F35 – Example of phase-to-earth Insulation Monitoring Device used in IT system (PB116742)

Fig. F36 – Two different situations to be considered (DB422231_EN)

Fig. F37 – Circuit breaker tripping on double fault situation when exposed-conductive-parts are connected to a common protective conductor (DB422230_EN)

Fig. F39 – Calculation of Lmax. for an IT-eathed system, showing fault-current path for a double-fault condition (DB422257_EN)

Fig. F41 – Positions of essential functions in 3-phase 3-wire IT-earthed system (DB422253_EN)

Fig. F43 – Non-automatic (manual) fault location (DB422254)

Fig. F44 – Fixed automatic fault location (DB422255_EN)

Fig. F45 – Automatic fault location and insulation-resistance data logging (DB422256)

Fig. F46 – Principle of RCD (DB422260)

Fig. F47 – The 2 technologies of RCDs

(DB431017_EN)
(DB431039_EN)

Fig. F48 – Industrial-type CB with RCD module

(LV433831_L28)
(PB116744)
(PB116745)

Fig. F49 – Domestic residual current circuit breakers (RCCBs) for earth leakage protection

(PB116746)
(PB116747)

Fig. F50 – RCDs with separate toroidal current transformers (Vigirex)

(PB116748)
(PB116749)

Fig. F51 – Different types of RCDs (DB431022_EN)

Fig. F53 – Standardized 0.5 μs/100 KHz current transient wave (DB422261_EN)

Fig. F54 – Standardized 1.2/50 μs voltage transient wave (DB422262_EN)

Fig. F55 – Standardized current-impulse wave 8/20 μs (DB422263_EN)

Fig. F58 – Means of reducing the ratio IΔn/Iph (max.) (DB422264)

Fig. F60 – Residual current circuit breakers (RCCBs) (DB422265)

Fig. F61 – Total discrimination at 3 levels (DB422244_EN)

Fig. F62 – Total discrimination at 2 levels (DB422245_EN)

Fig. F63 – Total discrimination at 3 or 4 levels (DB422246_EN)

Fig. F64 – Coordination between RCDs type B (DB431019_EN)

Fig. F65 – Coordination between RCD type A and RCD type B (DB431020_EN)

Fig. F66 – Example of installation with discriminative protection at 2 or 3 levels (DB422247_EN)

Fig. F67 – Low-voltage supplies from a safety isolating transformer (DB422232)

Fig. F68 – Safety supply from a class II separation transformer (DB422233)

Fig. F69 – Principale of class II insultation level (IEC 60364-4-41 sub-clause 412) (DB422234_EN)

Fig. F70 – Protection by out-of arm’s reach arrangements and the interposition of non-conducting obstacles (DB422235_EN)

Fig. F71 – Equipotential bonding of all exposed-conductive-parts simultaneously accessible (DB422236_EN)

Fig. F72 – Overcurrent protection curve and earth fault potential current (DB431027_EN)

Fig. F73 – Origin of fires in building (DB422237_EN)

Fig. F74 – Example of tripping curve of earth leakage protection (DB431028_EN)

Fig. F75 – Exemple of tripping curve of RS type ground fault protection (DB431029_EN)

Fig. F76 – Exemple of Compact NSX630 with integrated Residual sensing ground fault protection Micrologic 6.3E (PB119909)

Fig. F77 – Different types of ground fault prodections

(DB422238a)
(DB422238b)
(DB422238c)

Fig. F78 – Exemple of 250 A MCCB with earth leakage measurement and alarming (Compact NSX Micrologic Vigi 4.3) (PB119910)

Fig. F79 – Exemple of external earth leakage monitoring relay (PB119911)

Fig. F80 – Serial Arc (DB422949a_EN)

Fig. F81 – Parallel arc fault (DB422949b_EN)

Fig. F82 – Arc fault generation (DB431031_EN)

Fig. F83 – Illustration of a resisitive short circuit (PB116753)

Fig. F84 – Example of a carbonized connection (PB116752)

Fig. F85 – Situation increasing risks of fire

(DB422266a)
(DB422266b)
(DB422266c)
(DB422266d)
(DB422266e)
(DB422266f)
(DB422266g)
(DB422266h)

Fig. F86 – MCB vs AFDD tripping curve (DB422950_EN)

Fig. F87 – General principle of Schneider Electric arc fault detection devices (DB431034_EN)

Fig. F88 – Anomalies in electric currents that could indicate the presence of potentially dangerous arc faults (DB422951_EN)

Fig. F89 – Typical waveform of electric arc. Arc voltage (black) and current (green) (DB431026)

Fig. F90 – Methods of construction of Arc fault detection devices (DB431036_EN)

Fig. F91 – AFD unit with opening means installed in series with an RCBO (DB431037_EN)

Fig. F92 – AFD unit with MCB (DB431038_EN)

Fig. F93 – Schneider Electric arc fault detection unit (PB119908_L21)

Fig. F94 – Schneider Electric AFDD (PB116754)

@@ Line 3: / Line 3: @@
 {{FigImage|DB422222_EN|svg|F3|Contact with parts in fault conditions (Indirect contact) '''(DB422222_EN)'''}}
 {{FigImage|DB422223|svg|F4|Inherent protection against direct contact by insulation of a 3-phase cable with outer sheath '''(DB422223)'''}}
-{{FigImage|PB119913|jpg|F5|Example of isolation by envelope  '''(PB119913)'''}}
+{{FigImage|PB119913|jpg|F5|Example of isolation by enclosure  '''(PB119913)'''}}
 {{FigImage|DB431001|svg|F6|Illustration of the dangerous touch voltage Uc '''(DB431001)'''}}
 {{FigImage|DB431012|svg|F8|Additional protection by RCD '''(DB431012)'''}}
@@ Line 22: / Line 22: @@
 {{FigImage|DB422251_EN|svg|F30|RCD protection on TN systems with high  earth-fault-loop impedance '''(DB422251_EN)'''}}
 {{FigImage|DB422252_EN|svg|F31|Improved equipotential bonding '''(DB422252_EN)'''}}
-{{FigImage|DB431014|svg|F33|Simplified circuit '''(DB431014)'''}}
+{{FigImage|DB431014|svg|F32|Simplified circuit '''(DB431014)'''}}
-{{FigImage|DB431015|svg|F34|Fault current path for a first fault in IT system '''(DB431015)'''}}
+{{FigImage|DB431015|svg|F33|Fault current path for a first fault in IT system '''(DB431015)'''}}
-{{FigImage|DB431016|svg|F35|Vector representation of voltages and currents  in case of fault between phase 1 and earth '''(DB431016)'''}}
+{{FigImage|DB431016|svg|F34|Vector representation of voltages and currents  in case of fault between phase 1 and earth '''(DB431016)'''}}
-{{FigImage|PB116742|jpg|F36|Example of phase-to-earth Insulation Monitoring Device used in IT system '''(PB116742)'''}}
+{{FigImage|PB116742|jpg|F35|Example of phase-to-earth Insulation Monitoring Device used in IT system '''(PB116742)'''}}
-{{FigImage|DB422231_EN|svg|F37|Two different situations to be considered '''(DB422231_EN)'''}}
+{{FigImage|DB422231_EN|svg|F36|Two different situations to be considered '''(DB422231_EN)'''}}
-{{FigImage|DB422230_EN|svg|F38|Circuit breaker tripping on double fault situation when exposed-conductive-parts are connected to a common protective conductor '''(DB422230_EN)'''}}
+{{FigImage|DB422230_EN|svg|F37|Circuit breaker tripping on double fault situation when exposed-conductive-parts are connected to a common protective conductor '''(DB422230_EN)'''}}
-{{FigImage|DB422257_EN|svg|F40|Calculation of Lmax. for an IT-eathed system, showing fault-current path for a double-fault condition '''(DB422257_EN)'''}}
+{{FigImage|DB422257_EN|svg|F39|Calculation of Lmax. for an IT-eathed system, showing fault-current path for a double-fault condition '''(DB422257_EN)'''}}
-{{FigImage|DB422253_EN|svg|F42|Positions of essential functions in 3-phase 3-wire IT-earthed system '''(DB422253_EN)'''}}
+{{FigImage|DB422253_EN|svg|F41|Positions of essential functions in 3-phase 3-wire IT-earthed system '''(DB422253_EN)'''}}
-{{FigImage|DB422254|svg|F44|Non-automatic (manual) fault location '''(DB422254)'''}}
+{{FigImage|DB422254|svg|F43|Non-automatic (manual) fault location '''(DB422254)'''}}
-{{FigImage|DB422255_EN|svg|F45|Fixed automatic fault location '''(DB422255_EN)'''}}
+{{FigImage|DB422255_EN|svg|F44|Fixed automatic fault location '''(DB422255_EN)'''}}
-{{FigImage|DB422256|svg|F46|Automatic fault location and insulation-resistance data logging '''(DB422256)'''}}
+{{FigImage|DB422256|svg|F45|Automatic fault location and insulation-resistance data logging '''(DB422256)'''}}
-{{FigImage|DB422260|svg|F47|Principle of RCD '''(DB422260)'''}}
+[[File:DB431079.svg|'''(DB431079)''']]
-{{Gallery|F48|The 2 technologies of RCDs||
+[[File:DB431080.svg|'''(DB431080)''']]
+[[File:DB431081.svg|'''(DB431081)''']]
+[[File:DB431082.svg|'''(DB431082)''']]
+{{FigImage|DB422260|svg|F46|Principle of RCD '''(DB422260)'''}}
+{{Gallery|F47|The 2 technologies of RCDs||
 |DB431017_EN.svg||'''(DB431017_EN)'''
 |DB431039_EN.svg||'''(DB431039_EN)'''}}
-{{Gallery|F49|Industrial-type CB with RCD module||
+{{Gallery|F48|Industrial-type CB with RCD module||
 |LV433831_L28.jpg||'''(LV433831_L28)'''
 |PB116744.jpg||'''(PB116744)'''
 |PB116745.jpg||'''(PB116745)'''}}
-{{Gallery|F50|Domestic residual current circuit breakers (RCCBs) for earth leakage protection||
+{{Gallery|F49|Domestic residual current circuit breakers (RCCBs) for earth leakage protection||
 |PB116746.jpg||'''(PB116746)'''
 |PB116747.jpg||'''(PB116747)'''}}
-{{Gallery|F51|RCDs with separate toroidal current transformers (Vigirex)||
+{{Gallery|F50|RCDs with separate toroidal current transformers (Vigirex)||
 |PB116748.jpg||'''(PB116748)'''
 |PB116749.jpg||'''(PB116749)'''}}
-{{FigImage|DB431022_EN|svg|F52|Different types of RCDs '''(DB431022_EN)'''}}
+{{FigImage|DB431022_EN|svg|F51|Different types of RCDs '''(DB431022_EN)'''}}
 [[File:DB431040.svg|'''(DB431040)''']]
 [[File:DB431040.svg|'''(DB431040)''']]
@@ Line 91: / Line 95: @@
 [[File:DB431072.svg|'''(DB431072)''']]
 [[File:DB431073.svg|'''(DB431073)''']]
-{{FigImage|DB422261_EN|svg|F54|Standardized 0.5 μs/100 KHz current transient wave '''(DB422261_EN)'''}}
+{{FigImage|DB422261_EN|svg|F53|Standardized 0.5 μs/100 KHz current transient wave '''(DB422261_EN)'''}}
-{{FigImage|DB422262_EN|svg|F55|Standardized 1.2/50 μs voltage transient wave '''(DB422262_EN)'''}}
+{{FigImage|DB422262_EN|svg|F54|Standardized 1.2/50 μs voltage transient wave '''(DB422262_EN)'''}}
-{{FigImage|DB422263_EN|svg|F56|Standardized current-impulse wave 8/20 μs '''(DB422263_EN)'''}}
+{{FigImage|DB422263_EN|svg|F55|Standardized current-impulse wave 8/20 μs '''(DB422263_EN)'''}}
-{{FigImage|DB422264|svg|F59|Means of reducing the ratio IΔn/Iph (max.) '''(DB422264)'''}}
+[[File:DB431079.svg|'''(DB431079)''']]
-{{FigImage|DB422265|svg|F61|Residual current circuit breakers (RCCBs) '''(DB422265)'''}}
+[[File:DB431080.svg|'''(DB431080)''']]
-{{FigImage|DB422244_EN|svg|F62|Total discrimination at 3 levels '''(DB422244_EN)'''}}
+[[File:DB431080.svg|'''(DB431080)''']]
-{{FigImage|DB422245_EN|svg|F63|Total discrimination at 2 levels '''(DB422245_EN)'''}}
+[[File:DB431080.svg|'''(DB431080)''']]
-{{FigImage|DB422246_EN|svg|F64|Total discrimination at 3 or 4 levels '''(DB422246_EN)'''}}
+[[File:DB431080.svg|'''(DB431080)''']]
-{{FigImage|DB431019_EN|svg|F65|Coordination between RCD type B '''(DB431019_EN)'''}}
+{{FigImage|DB422264|svg|F58|Means of reducing the ratio IΔn/Iph (max.) '''(DB422264)'''}}
-{{FigImage|DB431020_EN|svg|F66|Coordination between RCD type A and RCD type B  '''(DB431020_EN)'''}}
+{{FigImage|DB422265|svg|F60|Residual current circuit breakers (RCCBs) '''(DB422265)'''}}
-{{FigImage|DB422247_EN|svg|F67|Example of installation with discriminative protection at 2 or 3 levels '''(DB422247_EN)'''}}
+{{FigImage|DB422244_EN|svg|F61|Total discrimination at 3 levels '''(DB422244_EN)'''}}
-{{FigImage|DB422232|svg|F68|Low-voltage supplies from a safety isolating transformer '''(DB422232)'''}}
+{{FigImage|DB422245_EN|svg|F62|Total discrimination at 2 levels '''(DB422245_EN)'''}}
-{{FigImage|DB422233|svg|F69|Safety supply from a class II separation transformer '''(DB422233)'''}}
+{{FigImage|DB422246_EN|svg|F63|Total discrimination at 3 or 4 levels '''(DB422246_EN)'''}}
-{{FigImage|DB422234_EN|svg|F70|Principale of class II insultation level (IEC 60364-4-41 sub-clause 412) '''(DB422234_EN)'''}}
+{{FigImage|DB431019_EN|svg|F64|Coordination between RCDs type B '''(DB431019_EN)'''}}
-{{FigImage|DB422235_EN|svg|F71|Protection by out-of arm’s reach arrangements and the interposition of non-conducting obstacles '''(DB422235_EN)'''}}
+{{FigImage|DB431020_EN|svg|F65|Coordination between RCD type A and RCD type B  '''(DB431020_EN)'''}}
-{{FigImage|DB422236_EN|svg|F72|Equipotential bonding of all exposed-conductive-parts simultaneously accessible '''(DB422236_EN)'''}}
+{{FigImage|DB422247_EN|svg|F66|Example of installation with discriminative protection at 2 or 3 levels '''(DB422247_EN)'''}}
-{{FigImage|DB431027_EN|svg|F73|Overcurrent protection curve and earth fault potential current '''(DB431027_EN)'''}}
+[[File:DB431010.svg|'''(DB431010)''']]
-{{FigImage|DB422237_EN|svg|F74|Origin of fires in building '''(DB422237_EN)'''}}
+{{FigImage|DB422232|svg|F67|Low-voltage supplies from a safety isolating transformer '''(DB422232)'''}}
-{{FigImage|DB431028_EN|svg|F75|Example of tripping curve of earth leakage  protection  '''(DB431028_EN)'''}}
+{{FigImage|DB422233|svg|F68|Safety supply from a class II separation transformer '''(DB422233)'''}}
-{{FigImage|DB431029_EN|svg|F76|Exemple of tripping curve of RS type ground fault protection '''(DB431029_EN)'''}}
+{{FigImage|DB422234_EN|svg|F69|Principale of class II insultation level (IEC 60364-4-41 sub-clause 412) '''(DB422234_EN)'''}}
-{{FigImage|PB119909|jpg|F77|Exemple of Compact NSX630 with integrated Residual sensing ground fault protection Micrologic 6.3E '''(PB119909)'''}}
+{{FigImage|DB422235_EN|svg|F70|Protection by out-of arm’s reach arrangements and the interposition of non-conducting obstacles '''(DB422235_EN)'''}}
-{{Gallery|F78|Different types of ground fault prodections||
+{{FigImage|DB422236_EN|svg|F71|Equipotential bonding of all exposed-conductive-parts simultaneously accessible '''(DB422236_EN)'''}}
+{{FigImage|DB431027_EN|svg|F72|Overcurrent protection curve and earth fault potential current '''(DB431027_EN)'''}}
+{{FigImage|DB422237_EN|svg|F73|Origin of fires in building '''(DB422237_EN)'''}}
+{{FigImage|DB431028_EN|svg|F74|Example of tripping curve of earth leakage  protection  '''(DB431028_EN)'''}}
+{{FigImage|DB431029_EN|svg|F75|Exemple of tripping curve of RS type ground fault protection '''(DB431029_EN)'''}}
+{{FigImage|PB119909|jpg|F76|Exemple of Compact NSX630 with integrated Residual sensing ground fault protection Micrologic 6.3E '''(PB119909)'''}}
+{{Gallery|F77|Different types of ground fault prodections||
 |DB422238a.svg||'''(DB422238a)'''
 |DB422238b.svg||'''(DB422238b)'''
 |DB422238c.svg||'''(DB422238c)'''}}
-{{FigImage|PB119910|jpg|F79|Exemple of 250 A MCCB with earth leakage measurement and alarming (Compact NSX Micrologic Vigi 4.3) '''(PB119910)'''}}
+{{FigImage|PB119910|jpg|F78|Exemple of 250 A MCCB with earth leakage measurement and alarming (Compact NSX Micrologic Vigi 4.3) '''(PB119910)'''}}
-{{FigImage|PB119911|jpg|F80|Exemple of external earth leakage monitoring relay '''(PB119911)'''}}
+{{FigImage|PB119911|jpg|F79|Exemple of external earth leakage monitoring relay '''(PB119911)'''}}
-{{FigImage|DB422949a_EN|svg|F81|Serial Arc '''(DB422949a_EN)'''}}
+{{FigImage|DB422949a_EN|svg|F80|Serial Arc '''(DB422949a_EN)'''}}
-{{FigImage|DB422949b_EN|svg|F82|Parallel arc fault '''(DB422949b_EN)'''}}
+{{FigImage|DB422949b_EN|svg|F81|Parallel arc fault '''(DB422949b_EN)'''}}
-{{FigImage|DB431031_EN|svg|F83|Arc fault generation '''(DB431031_EN)'''}}
+{{FigImage|DB431031_EN|svg|F82|Arc fault generation '''(DB431031_EN)'''}}
-{{FigImage|PB116753|jpg|F84|Illustration of a resisitive short circuit '''(PB116753)'''}}
+{{FigImage|PB116753|jpg|F83|Illustration of a resisitive short circuit '''(PB116753)'''}}
-{{FigImage|PB116752|jpg|F85|Example of a carbonized connection '''(PB116752)'''}}
+{{FigImage|PB116752|jpg|F84|Example of a carbonized connection '''(PB116752)'''}}
-{{Gallery|F86|Situation increasing risks of fire||
+{{Gallery|F85|Situation increasing risks of fire||
 |DB422266a.svg||'''(DB422266a)'''
 |DB422266b.svg||'''(DB422266b)'''
@@ Line 132: / Line 142: @@
 |DB422266g.svg||'''(DB422266g)'''
 |DB422266h.svg||'''(DB422266h)'''}}
-{{FigImage|DB422950_EN|svg|F87|MCB vs AFDD tripping curve '''(DB422950_EN)'''}}
+{{FigImage|DB422950_EN|svg|F86|MCB vs AFDD tripping curve '''(DB422950_EN)'''}}
-{{FigImage|DB431034_EN|svg|F88|General principle of Schneider Electric arc fault detection devices '''(DB431034_EN)'''}}
+{{FigImage|DB431034_EN|svg|F87|General principle of Schneider Electric arc fault detection devices '''(DB431034_EN)'''}}
-{{FigImage|DB422951_EN|svg|F89|Anomalies in electric currents that could indicate the presence of potentially dangerous arc faults '''(DB422951_EN)'''}}
+{{FigImage|DB422951_EN|svg|F88|Anomalies in electric currents that could indicate the presence of potentially dangerous arc faults '''(DB422951_EN)'''}}
-{{FigImage|DB431026|svg|F90|Typical waveform of electric arc. Arc voltage (black) and current (green) '''(DB431026)'''}}
+{{FigImage|DB431026|svg|F89|Typical waveform of electric arc. Arc voltage (black) and current (green) '''(DB431026)'''}}
-{{FigImage|DB431036_EN|svg|F91|Methods of construction of Arc fault detection devices '''(DB431036_EN)'''}}
+{{FigImage|DB431036_EN|svg|F90|Methods of construction of Arc fault detection devices '''(DB431036_EN)'''}}
-{{FigImage|DB431037_EN|svg|F92|AFD unit with opening means installed in series  with an RCBO '''(DB431037_EN)'''}}
+{{FigImage|DB431037_EN|svg|F91|AFD unit with opening means installed in series  with an RCBO '''(DB431037_EN)'''}}
-{{FigImage|DB431038_EN|svg|F93|AFD unit with MCB '''(DB431038_EN)'''}}
+{{FigImage|DB431038_EN|svg|F92|AFD unit with MCB '''(DB431038_EN)'''}}
-{{FigImage|PB119908_L21|jpg|F94|Schneider Electric arc fault detection unit '''(PB119908_L21)'''}}
+{{FigImage|PB119908_L21|jpg|F93|Schneider Electric arc fault detection unit '''(PB119908_L21)'''}}
-{{FigImage|PB116754|jpg|F95|Schneider Electric AFDD '''(PB116754)'''}}
+{{FigImage|PB116754|jpg|F94|Schneider Electric AFDD '''(PB116754)'''}}

User:LMischler/Img-2018-F: Difference between revisions

Latest revision as of 17:23, 19 April 2021

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