[{"data":1,"prerenderedAt":1414},["ShallowReactive",2],{"blog-post-de-fi-typ-a-vs-typ-b":3,"blog-alternates-rcd-type-a-vs-b":338},{"id":4,"title":5,"articleId":6,"body":7,"category":317,"date":318,"description":319,"extension":320,"lastUpdated":318,"locale":321,"meta":322,"navigation":323,"path":324,"publishDate":318,"readTime":325,"refreshInterval":326,"seo":327,"slug":328,"stem":329,"tags":330,"__hash__":337},"blog\u002Fblog\u002Frcd-type-a-vs-b.de.md","FI Typ A vs. Typ B: Wann brauche ich welchen Fehlerstromschutzschalter?","rcd-type-a-vs-b",{"type":8,"value":9,"toc":306},"minimark",[10,15,23,28,134,138,145,167,171,174,194,198,244,248,251,272,275,279,291,295],[11,12,14],"h1",{"id":13},"fi-typ-a-vs-typ-b-wann-brauche-ich-welchen","FI Typ A vs. Typ B: Wann brauche ich welchen?",[16,17,18,22],"p",{},[19,20,21],"strong",{},"Das AREI schreibt mindestens einen FI-Schutzschalter (RCD) Typ A als Minimum vor."," Typ B ist erforderlich, wenn Gleichfehlerströme auftreten können — typischerweise bei Wallboxen ohne integrierten DC-Fehlerstromsensor oder Wärmepumpen mit Frequenzumrichter. Die Wahl des richtigen RCD-Typs ist entscheidend für die Sicherheit und die Keurings-Konformität.",[24,25,27],"h2",{"id":26},"übersicht-aller-rcd-typen","Übersicht aller RCD-Typen",[29,30,31,50],"table",{},[32,33,34],"thead",{},[35,36,37,41,44,47],"tr",{},[38,39,40],"th",{},"Typ",[38,42,43],{},"Erkennt",[38,45,46],{},"Einsatzbereich",[38,48,49],{},"Preis (ca.)",[51,52,53,70,86,102,118],"tbody",{},[35,54,55,61,64,67],{},[56,57,58],"td",{},[19,59,60],{},"AC",[56,62,63],{},"Nur reine Wechselfehlerströme",[56,65,66],{},"Veraltet, nicht mehr zulässig für Neuinstallationen",[56,68,69],{},"~€25–40",[35,71,72,77,80,83],{},[56,73,74],{},[19,75,76],{},"A",[56,78,79],{},"Wechsel- + pulsierende Gleichfehlerströme",[56,81,82],{},"Standard für Haushalt",[56,84,85],{},"~€40–60",[35,87,88,93,96,99],{},[56,89,90],{},[19,91,92],{},"A-SI",[56,94,95],{},"Wie Typ A, selektiv (zeitverzögert)",[56,97,98],{},"Haupt-RCD (300 mA), vermeidet Kaskadenauslösung",[56,100,101],{},"~€80–120",[35,103,104,109,112,115],{},[56,105,106],{},[19,107,108],{},"B",[56,110,111],{},"Alle Fehlerströme inkl. glatter Gleichstrom",[56,113,114],{},"Wallbox, Wärmepumpe mit Inverter",[56,116,117],{},"~€150–250",[35,119,120,125,128,131],{},[56,121,122],{},[19,123,124],{},"F",[56,126,127],{},"Wie A + frequenzgesteuerte Fehlerströme",[56,129,130],{},"Frequenzgesteuerte Antriebe (Motoren)",[56,132,133],{},"~€100–180",[24,135,137],{"id":136},"wann-ist-typ-b-erforderlich","Wann ist Typ B erforderlich?",[16,139,140,141,144],{},"Typ B ist notwendig, wenn ein Gerät ",[19,142,143],{},"glatte Gleichfehlerströme"," erzeugen kann. Dies betrifft vor allem:",[146,147,148,155,161],"ul",{},[149,150,151,154],"li",{},[19,152,153],{},"Wallbox (Ladestation) ohne integrierten DC-Fehlerstromsensor:"," Einfache Ladestationen ohne 6-mA-DC-Erkennung benötigen einen Typ-B-RCD",[149,156,157,160],{},[19,158,159],{},"Wärmepumpe mit Inverter (Frequenzumrichter):"," Der Frequenzumrichter kann DC-Fehlerströme erzeugen",[149,162,163,166],{},[19,164,165],{},"PV-Wechselrichter ohne Transformator:"," Transformatorlose Wechselrichter können DC-Anteile ins Netz einspeisen",[24,168,170],{"id":169},"wann-reicht-typ-a","Wann reicht Typ A?",[16,172,173],{},"Typ A ist ausreichend für:",[146,175,176,182,188],{},[149,177,178,181],{},[19,179,180],{},"Wallbox MIT integriertem DC-Fehlerstromsensor (6 mA):"," Das AREI (Art. 7.22.4) schreibt Typ B oder gleichwertig (z. B. Typ A + RDC-DD) vor. Ein einfacher Typ A allein reicht bei der Wallbox nicht aus — die Wallbox muss einen integrierten DC-6mA-Sensor haben, der DC-Fehlerströme ab 6 mA erkennt und den Ladevorgang unterbricht",[149,183,184,187],{},[19,185,186],{},"Normale Haushaltsgeräte:"," Waschmaschine, Geschirrspüler, Herd, Beleuchtung",[149,189,190,193],{},[19,191,192],{},"Steckdosenstromkreise:"," Standard 30-mA-RCD Typ A",[24,195,197],{"id":196},"arei-anforderungen","AREI-Anforderungen",[29,199,200,210],{},[32,201,202],{},[35,203,204,207],{},[38,205,206],{},"AREI Artikel",[38,208,209],{},"Anforderung",[51,211,212,220,228,236],{},[35,213,214,217],{},[56,215,216],{},"Art. 4.2.4.3",[56,218,219],{},"RCD ist Pflicht für jeden Stromkreis (TT-System)",[35,221,222,225],{},[56,223,224],{},"Art. 4.2.4.3_b",[56,226,227],{},"Maximal 8 Endstromkreise pro 30-mA-RCD",[35,229,230,233],{},[56,231,232],{},"Art. 5.3.5.3_a",[56,234,235],{},"Differenzstrom-Schutzeinrichtungen in hauswirtschaftlichen Anlagen mindestens Typ A; am Speisepunkt mindestens 40 A Nennstromstärke",[35,237,238,241],{},[56,239,240],{},"Art. 7.22",[56,242,243],{},"Wallbox: Eigener Stromkreis mit angemessenem RCD",[24,245,247],{"id":246},"selektivität-beachten","Selektivität beachten",[16,249,250],{},"Für eine korrekte Selektivität sollte die Installation wie folgt aufgebaut sein:",[252,253,254,260,266],"ol",{},[149,255,256,259],{},[19,257,258],{},"Haupt-RCD:"," 300 mA, Typ A-SI (selektiv, zeitverzögert)",[149,261,262,265],{},[19,263,264],{},"Gruppen-RCDs:"," 30 mA, Typ A (für normale Stromkreise)",[149,267,268,271],{},[19,269,270],{},"Spezial-RCD:"," 30 mA, Typ B (für Wallbox\u002FWärmepumpe, falls kein DC-Sensor vorhanden)",[16,273,274],{},"So löst bei einem Fehler nur der zuständige Gruppen-RCD aus, nicht der Haupt-RCD — die restliche Installation bleibt in Betrieb.",[24,276,278],{"id":277},"preisunterschied-und-empfehlung","Preisunterschied und Empfehlung",[16,280,281,282,286,287,290],{},"Der Preisunterschied zwischen Typ A (",[283,284,285],"del",{},"€40–60) und Typ B (","€150–250) ist erheblich. Prüfen Sie daher immer zuerst, ob Ihre Wallbox oder Wärmepumpe einen ",[19,288,289],{},"integrierten DC-Fehlerstromsensor"," hat. Falls ja, reicht ein günstigerer Typ-A-RCD. Die Herstellerdokumentation gibt darüber Auskunft.",[24,292,294],{"id":293},"verwandte-artikel","Verwandte Artikel",[16,296,297,298,305],{},"Planen Sie Ihre Schutzgeräte normgerecht mit ",[299,300,304],"a",{"href":301,"rel":302},"https:\u002F\u002Fwww.planelec.be",[303],"nofollow","PlanElec"," — automatische RCD-Typ-Empfehlung inklusive.",{"title":307,"searchDepth":308,"depth":308,"links":309},"",2,[310,311,312,313,314,315,316],{"id":26,"depth":308,"text":27},{"id":136,"depth":308,"text":137},{"id":169,"depth":308,"text":170},{"id":196,"depth":308,"text":197},{"id":246,"depth":308,"text":247},{"id":277,"depth":308,"text":278},{"id":293,"depth":308,"text":294},"faq","2026-03-25","Vergleich aller RCD-Typen (AC, A, A-SI, B, F) für belgische Elektroinstallationen nach AREI-Normen.","md","de",{},true,"\u002Fblog\u002Frcd-type-a-vs-b.de","5 min",12,{"title":5,"description":319},"fi-typ-a-vs-typ-b","blog\u002Frcd-type-a-vs-b.de",[331,332,333,334,335,336],"fi-schutzschalter","rcd","typ-a","typ-b","arei","wallbox","T8WFbvvmG-84SU2VwKE9aS5BNIH_L_ZtkGC1X1NF3H0",[339,549,838,1128],{"id":4,"title":5,"articleId":6,"body":340,"category":317,"date":318,"description":319,"extension":320,"lastUpdated":318,"locale":321,"meta":546,"navigation":323,"path":324,"publishDate":318,"readTime":325,"refreshInterval":326,"seo":547,"slug":328,"stem":329,"tags":548,"__hash__":337},{"type":8,"value":341,"toc":537},[342,344,348,350,426,428,432,446,448,450,464,466,502,504,506,520,522,524,530,532],[11,343,14],{"id":13},[16,345,346,22],{},[19,347,21],{},[24,349,27],{"id":26},[29,351,352,364],{},[32,353,354],{},[35,355,356,358,360,362],{},[38,357,40],{},[38,359,43],{},[38,361,46],{},[38,363,49],{},[51,365,366,378,390,402,414],{},[35,367,368,372,374,376],{},[56,369,370],{},[19,371,60],{},[56,373,63],{},[56,375,66],{},[56,377,69],{},[35,379,380,384,386,388],{},[56,381,382],{},[19,383,76],{},[56,385,79],{},[56,387,82],{},[56,389,85],{},[35,391,392,396,398,400],{},[56,393,394],{},[19,395,92],{},[56,397,95],{},[56,399,98],{},[56,401,101],{},[35,403,404,408,410,412],{},[56,405,406],{},[19,407,108],{},[56,409,111],{},[56,411,114],{},[56,413,117],{},[35,415,416,420,422,424],{},[56,417,418],{},[19,419,124],{},[56,421,127],{},[56,423,130],{},[56,425,133],{},[24,427,137],{"id":136},[16,429,140,430,144],{},[19,431,143],{},[146,433,434,438,442],{},[149,435,436,154],{},[19,437,153],{},[149,439,440,160],{},[19,441,159],{},[149,443,444,166],{},[19,445,165],{},[24,447,170],{"id":169},[16,449,173],{},[146,451,452,456,460],{},[149,453,454,181],{},[19,455,180],{},[149,457,458,187],{},[19,459,186],{},[149,461,462,193],{},[19,463,192],{},[24,465,197],{"id":196},[29,467,468,476],{},[32,469,470],{},[35,471,472,474],{},[38,473,206],{},[38,475,209],{},[51,477,478,484,490,496],{},[35,479,480,482],{},[56,481,216],{},[56,483,219],{},[35,485,486,488],{},[56,487,224],{},[56,489,227],{},[35,491,492,494],{},[56,493,232],{},[56,495,235],{},[35,497,498,500],{},[56,499,240],{},[56,501,243],{},[24,503,247],{"id":246},[16,505,250],{},[252,507,508,512,516],{},[149,509,510,259],{},[19,511,258],{},[149,513,514,265],{},[19,515,264],{},[149,517,518,271],{},[19,519,270],{},[16,521,274],{},[24,523,278],{"id":277},[16,525,281,526,286,528,290],{},[283,527,285],{},[19,529,289],{},[24,531,294],{"id":293},[16,533,297,534,305],{},[299,535,304],{"href":301,"rel":536},[303],{"title":307,"searchDepth":308,"depth":308,"links":538},[539,540,541,542,543,544,545],{"id":26,"depth":308,"text":27},{"id":136,"depth":308,"text":137},{"id":169,"depth":308,"text":170},{"id":196,"depth":308,"text":197},{"id":246,"depth":308,"text":247},{"id":277,"depth":308,"text":278},{"id":293,"depth":308,"text":294},{},{"title":5,"description":319},[331,332,333,334,335,336],{"id":550,"title":551,"articleId":6,"body":552,"category":317,"date":318,"description":826,"extension":320,"lastUpdated":318,"locale":827,"meta":828,"navigation":323,"path":829,"publishDate":318,"readTime":325,"refreshInterval":326,"seo":830,"slug":6,"stem":831,"tags":832,"__hash__":837},"blog\u002Fblog\u002Frcd-type-a-vs-b.en.md","RCD Type A vs. Type B: When Do I Need Which?",{"type":8,"value":553,"toc":817},[554,557,563,567,657,661,668,688,692,695,715,719,761,765,768,788,791,795,806,810],[11,555,551],{"id":556},"rcd-type-a-vs-type-b-when-do-i-need-which",[16,558,559,562],{},[19,560,561],{},"The AREI prescribes at least an RCD Type A as the minimum."," Type B is required when smooth DC fault currents can occur — typically with EV chargers without an integrated DC fault current sensor or heat pumps with a frequency inverter. Choosing the correct RCD type is critical for safety and inspection compliance.",[24,564,566],{"id":565},"overview-of-all-rcd-types","Overview of All RCD Types",[29,568,569,585],{},[32,570,571],{},[35,572,573,576,579,582],{},[38,574,575],{},"Type",[38,577,578],{},"Detects",[38,580,581],{},"Application",[38,583,584],{},"Price (approx.)",[51,586,587,601,615,629,643],{},[35,588,589,593,596,599],{},[56,590,591],{},[19,592,60],{},[56,594,595],{},"Only pure AC fault currents",[56,597,598],{},"Obsolete, no longer permitted for new installations",[56,600,69],{},[35,602,603,607,610,613],{},[56,604,605],{},[19,606,76],{},[56,608,609],{},"AC + pulsating DC fault currents",[56,611,612],{},"Standard for residential use",[56,614,85],{},[35,616,617,621,624,627],{},[56,618,619],{},[19,620,92],{},[56,622,623],{},"Same as Type A, selective (time-delayed)",[56,625,626],{},"Main RCD (300 mA), prevents cascade tripping",[56,628,101],{},[35,630,631,635,638,641],{},[56,632,633],{},[19,634,108],{},[56,636,637],{},"All fault currents including smooth DC",[56,639,640],{},"EV charger, heat pump with inverter",[56,642,117],{},[35,644,645,649,652,655],{},[56,646,647],{},[19,648,124],{},[56,650,651],{},"Same as A + frequency-controlled fault currents",[56,653,654],{},"Variable-frequency drives (motors)",[56,656,133],{},[24,658,660],{"id":659},"when-is-type-b-required","When Is Type B Required?",[16,662,663,664,667],{},"Type B is necessary when a device can generate ",[19,665,666],{},"smooth DC fault currents",". This primarily applies to:",[146,669,670,676,682],{},[149,671,672,675],{},[19,673,674],{},"EV charger (charging station) without integrated DC fault current sensor:"," Simple charging stations without 6 mA DC detection require a Type B RCD",[149,677,678,681],{},[19,679,680],{},"Heat pump with inverter (frequency converter):"," The frequency converter can generate DC fault currents",[149,683,684,687],{},[19,685,686],{},"PV inverter without transformer:"," Transformerless inverters can feed DC components into the grid",[24,689,691],{"id":690},"when-is-type-a-sufficient","When Is Type A Sufficient?",[16,693,694],{},"Type A is sufficient for:",[146,696,697,703,709],{},[149,698,699,702],{},[19,700,701],{},"EV charger WITH integrated DC fault current sensor (6 mA):"," The AREI (Art. 7.22.4) requires Type B or equivalent (e.g., Type A + RDC-DD). A simple Type A alone is not sufficient for an EV charger — the charger must have an integrated DC 6 mA sensor that detects DC fault currents from 6 mA and interrupts charging",[149,704,705,708],{},[19,706,707],{},"Normal household appliances:"," Washing machine, dishwasher, cooktop, lighting",[149,710,711,714],{},[19,712,713],{},"Socket circuits:"," Standard 30 mA RCD Type A",[24,716,718],{"id":717},"arei-requirements","AREI Requirements",[29,720,721,731],{},[32,722,723],{},[35,724,725,728],{},[38,726,727],{},"AREI Article",[38,729,730],{},"Requirement",[51,732,733,740,747,754],{},[35,734,735,737],{},[56,736,216],{},[56,738,739],{},"RCD is mandatory for every circuit (TT system)",[35,741,742,744],{},[56,743,224],{},[56,745,746],{},"Maximum 8 final circuits per 30 mA RCD",[35,748,749,751],{},[56,750,232],{},[56,752,753],{},"Residual-current devices in residential installations must be at least Type A; at the feed point at least 40 A rated current",[35,755,756,758],{},[56,757,240],{},[56,759,760],{},"EV charger: Dedicated circuit with appropriate RCD",[24,762,764],{"id":763},"ensuring-selectivity","Ensuring Selectivity",[16,766,767],{},"For correct selectivity, the installation should be structured as follows:",[252,769,770,776,782],{},[149,771,772,775],{},[19,773,774],{},"Main RCD:"," 300 mA, Type A-SI (selective, time-delayed)",[149,777,778,781],{},[19,779,780],{},"Group RCDs:"," 30 mA, Type A (for normal circuits)",[149,783,784,787],{},[19,785,786],{},"Special RCD:"," 30 mA, Type B (for EV charger\u002Fheat pump, if no DC sensor present)",[16,789,790],{},"This way, in case of a fault, only the responsible group RCD trips, not the main RCD — the rest of the installation remains operational.",[24,792,794],{"id":793},"price-difference-and-recommendation","Price Difference and Recommendation",[16,796,797,798,801,802,805],{},"The price difference between Type A (",[283,799,800],{},"€40–60) and Type B (","€150–250) is substantial. Therefore, always first check whether your EV charger or heat pump has an ",[19,803,804],{},"integrated DC fault current sensor",". If so, a less expensive Type A RCD is sufficient. The manufacturer's documentation provides this information.",[24,807,809],{"id":808},"related-articles","Related Articles",[16,811,812,813,816],{},"Plan your protection devices to code with ",[299,814,304],{"href":301,"rel":815},[303]," — automatic RCD type recommendation included.",{"title":307,"searchDepth":308,"depth":308,"links":818},[819,820,821,822,823,824,825],{"id":565,"depth":308,"text":566},{"id":659,"depth":308,"text":660},{"id":690,"depth":308,"text":691},{"id":717,"depth":308,"text":718},{"id":763,"depth":308,"text":764},{"id":793,"depth":308,"text":794},{"id":808,"depth":308,"text":809},"Comparison of all RCD types (AC, A, A-SI, B, F) for Belgian electrical installations according to AREI\u002FRGIE standards.","en",{},"\u002Fblog\u002Frcd-type-a-vs-b.en",{"title":551,"description":826},"blog\u002Frcd-type-a-vs-b.en",[332,833,834,835,335,836],"residual-current-device","type-a","type-b","ev-charger","bXBWLPTkBe8x5MQGHq7LQQWrhjZYzAIpnJrDY4nBig4",{"id":839,"title":840,"articleId":6,"body":841,"category":317,"date":318,"description":1115,"extension":320,"lastUpdated":318,"locale":1116,"meta":1117,"navigation":323,"path":1118,"publishDate":318,"readTime":325,"refreshInterval":326,"seo":1119,"slug":1120,"stem":1121,"tags":1122,"__hash__":1127},"blog\u002Fblog\u002Frcd-type-a-vs-b.fr.md","Différentiel Type A vs. Type B : Quand ai-je besoin de quel type ?",{"type":8,"value":842,"toc":1106},[843,846,852,856,950,954,961,981,985,988,1008,1012,1054,1058,1061,1081,1084,1088,1095,1099],[11,844,840],{"id":845},"différentiel-type-a-vs-type-b-quand-ai-je-besoin-de-quel-type",[16,847,848,851],{},[19,849,850],{},"Le RGIE prescrit au minimum un différentiel (DDR) de Type A."," Le Type B est requis lorsque des courants de défaut continus peuvent apparaître — typiquement avec des bornes de recharge sans détecteur de courant de défaut DC intégré ou des pompes à chaleur avec variateur de fréquence. Le choix du bon type de DDR est déterminant pour la sécurité et la conformité au contrôle.",[24,853,855],{"id":854},"aperçu-de-tous-les-types-de-ddr","Aperçu de tous les types de DDR",[29,857,858,873],{},[32,859,860],{},[35,861,862,864,867,870],{},[38,863,575],{},[38,865,866],{},"Détecte",[38,868,869],{},"Domaine d'application",[38,871,872],{},"Prix (env.)",[51,874,875,890,905,920,935],{},[35,876,877,881,884,887],{},[56,878,879],{},[19,880,60],{},[56,882,883],{},"Uniquement les courants de défaut alternatifs purs",[56,885,886],{},"Obsolète, plus autorisé pour les nouvelles installations",[56,888,889],{},"~25–40 €",[35,891,892,896,899,902],{},[56,893,894],{},[19,895,76],{},[56,897,898],{},"Alternatifs + courants de défaut continus pulsés",[56,900,901],{},"Standard pour usage domestique",[56,903,904],{},"~40–60 €",[35,906,907,911,914,917],{},[56,908,909],{},[19,910,92],{},[56,912,913],{},"Comme Type A, sélectif (temporisé)",[56,915,916],{},"DDR principal (300 mA), évite le déclenchement en cascade",[56,918,919],{},"~80–120 €",[35,921,922,926,929,932],{},[56,923,924],{},[19,925,108],{},[56,927,928],{},"Tous les courants de défaut y compris continu lisse",[56,930,931],{},"Borne de recharge, pompe à chaleur avec onduleur",[56,933,934],{},"~150–250 €",[35,936,937,941,944,947],{},[56,938,939],{},[19,940,124],{},[56,942,943],{},"Comme A + courants de défaut à fréquence variable",[56,945,946],{},"Entraînements à fréquence variable (moteurs)",[56,948,949],{},"~100–180 €",[24,951,953],{"id":952},"quand-le-type-b-est-il-requis","Quand le Type B est-il requis ?",[16,955,956,957,960],{},"Le Type B est nécessaire lorsqu'un appareil peut générer des ",[19,958,959],{},"courants de défaut continus lisses",". Cela concerne principalement :",[146,962,963,969,975],{},[149,964,965,968],{},[19,966,967],{},"Borne de recharge sans détecteur de courant de défaut DC intégré :"," Les bornes simples sans détection DC 6 mA nécessitent un DDR Type B",[149,970,971,974],{},[19,972,973],{},"Pompe à chaleur avec onduleur (variateur de fréquence) :"," Le variateur peut générer des courants de défaut DC",[149,976,977,980],{},[19,978,979],{},"Onduleur PV sans transformateur :"," Les onduleurs sans transformateur peuvent injecter des composantes DC dans le réseau",[24,982,984],{"id":983},"quand-le-type-a-suffit-il","Quand le Type A suffit-il ?",[16,986,987],{},"Le Type A est suffisant pour :",[146,989,990,996,1002],{},[149,991,992,995],{},[19,993,994],{},"Borne de recharge AVEC détecteur de courant de défaut DC intégré (6 mA) :"," Le RGIE (Art. 7.22.4) prescrit un DDR Type B ou équivalent (p.ex. Type A + RDC-DD) pour les bornes de recharge. Un simple Type A seul ne suffit pas pour une borne — la borne doit disposer d'un capteur DC 6 mA intégré qui détecte les courants de défaut DC à partir de 6 mA et interrompt la charge",[149,997,998,1001],{},[19,999,1000],{},"Appareils ménagers normaux :"," Machine à laver, lave-vaisselle, plaque de cuisson, éclairage",[149,1003,1004,1007],{},[19,1005,1006],{},"Circuits prises de courant :"," DDR standard 30 mA Type A",[24,1009,1011],{"id":1010},"exigences-rgie","Exigences RGIE",[29,1013,1014,1024],{},[32,1015,1016],{},[35,1017,1018,1021],{},[38,1019,1020],{},"Article RGIE",[38,1022,1023],{},"Exigence",[51,1025,1026,1033,1040,1047],{},[35,1027,1028,1030],{},[56,1029,216],{},[56,1031,1032],{},"Le DDR est obligatoire pour chaque circuit (système TT)",[35,1034,1035,1037],{},[56,1036,224],{},[56,1038,1039],{},"Maximum 8 circuits départ par DDR 30 mA",[35,1041,1042,1044],{},[56,1043,232],{},[56,1045,1046],{},"Dispositifs de protection à courant différentiel résiduel dans les installations domestiques au minimum Type A ; au point d'alimentation au minimum 40 A de courant nominal",[35,1048,1049,1051],{},[56,1050,240],{},[56,1052,1053],{},"Borne de recharge : circuit dédié avec DDR approprié",[24,1055,1057],{"id":1056},"respecter-la-sélectivité","Respecter la sélectivité",[16,1059,1060],{},"Pour une sélectivité correcte, l'installation doit être structurée comme suit :",[252,1062,1063,1069,1075],{},[149,1064,1065,1068],{},[19,1066,1067],{},"DDR principal :"," 300 mA, Type A-SI (sélectif, temporisé)",[149,1070,1071,1074],{},[19,1072,1073],{},"DDR de groupe :"," 30 mA, Type A (pour les circuits normaux)",[149,1076,1077,1080],{},[19,1078,1079],{},"DDR spécial :"," 30 mA, Type B (pour borne de recharge\u002Fpompe à chaleur, si pas de détecteur DC intégré)",[16,1082,1083],{},"Ainsi, en cas de défaut, seul le DDR de groupe concerné déclenche, pas le DDR principal — le reste de l'installation reste en service.",[24,1085,1087],{"id":1086},"différence-de-prix-et-recommandation","Différence de prix et recommandation",[16,1089,1090,1091,1094],{},"La différence de prix entre Type A (~40–60 €) et Type B (~150–250 €) est considérable. Vérifiez donc toujours d'abord si votre borne de recharge ou pompe à chaleur dispose d'un ",[19,1092,1093],{},"détecteur de courant de défaut DC intégré",". Si oui, un DDR Type A moins coûteux suffit. La documentation du fabricant fournit cette information.",[24,1096,1098],{"id":1097},"articles-connexes","Articles connexes",[16,1100,1101,1102,1105],{},"Planifiez vos dispositifs de protection conforme aux normes avec ",[299,1103,304],{"href":301,"rel":1104},[303]," — recommandation automatique du type de DDR incluse.",{"title":307,"searchDepth":308,"depth":308,"links":1107},[1108,1109,1110,1111,1112,1113,1114],{"id":854,"depth":308,"text":855},{"id":952,"depth":308,"text":953},{"id":983,"depth":308,"text":984},{"id":1010,"depth":308,"text":1011},{"id":1056,"depth":308,"text":1057},{"id":1086,"depth":308,"text":1087},{"id":1097,"depth":308,"text":1098},"Comparaison de tous les types de DDR (AC, A, A-SI, B, F) pour les installations électriques belges selon le RGIE.","fr",{},"\u002Fblog\u002Frcd-type-a-vs-b.fr",{"title":840,"description":1115},"differentiel-type-a-vs-type-b","blog\u002Frcd-type-a-vs-b.fr",[1123,1124,834,835,1125,1126],"differentiel","ddr","rgie","borne-de-recharge","qUwiraQ4SIZ55Tm-Ko-QKEzigrcalWUo3Zw4cVE6MeA",{"id":1129,"title":1130,"articleId":6,"body":1131,"category":317,"date":318,"description":1403,"extension":320,"lastUpdated":318,"locale":1404,"meta":1405,"navigation":323,"path":1406,"publishDate":318,"readTime":325,"refreshInterval":326,"seo":1407,"slug":1408,"stem":1409,"tags":1410,"__hash__":1413},"blog\u002Fblog\u002Frcd-type-a-vs-b.nl.md","Differentieel Type A vs. Type B: Wanneer heb ik welke nodig?",{"type":8,"value":1132,"toc":1394},[1133,1136,1142,1146,1235,1239,1246,1266,1270,1273,1293,1297,1338,1342,1345,1365,1368,1372,1383,1387],[11,1134,1130],{"id":1135},"differentieel-type-a-vs-type-b-wanneer-heb-ik-welke-nodig",[16,1137,1138,1141],{},[19,1139,1140],{},"Het AREI schrijft minstens een differentieel (RCD) Type A voor als minimum."," Type B is vereist wanneer gelijkstroomfoutstromen kunnen optreden — typisch bij laadpalen zonder ingebouwde DC-foutstroomsensor of warmtepompen met frequentieomvormer. De keuze van het juiste RCD-type is cruciaal voor de veiligheid en de keuringsconformiteit.",[24,1143,1145],{"id":1144},"overzicht-van-alle-rcd-types","Overzicht van alle RCD-types",[29,1147,1148,1163],{},[32,1149,1150],{},[35,1151,1152,1154,1157,1160],{},[38,1153,575],{},[38,1155,1156],{},"Detecteert",[38,1158,1159],{},"Toepassingsgebied",[38,1161,1162],{},"Prijs (ca.)",[51,1164,1165,1179,1193,1207,1221],{},[35,1166,1167,1171,1174,1177],{},[56,1168,1169],{},[19,1170,60],{},[56,1172,1173],{},"Enkel zuivere wisselstroomfoutstromen",[56,1175,1176],{},"Verouderd, niet meer toegelaten voor nieuwe installaties",[56,1178,69],{},[35,1180,1181,1185,1188,1191],{},[56,1182,1183],{},[19,1184,76],{},[56,1186,1187],{},"Wissel- + pulserende gelijkstroomfoutstromen",[56,1189,1190],{},"Standaard voor huishouden",[56,1192,85],{},[35,1194,1195,1199,1202,1205],{},[56,1196,1197],{},[19,1198,92],{},[56,1200,1201],{},"Zoals Type A, selectief (tijdvertraagd)",[56,1203,1204],{},"Hoofd-RCD (300 mA), vermijdt cascadeuitschakeling",[56,1206,101],{},[35,1208,1209,1213,1216,1219],{},[56,1210,1211],{},[19,1212,108],{},[56,1214,1215],{},"Alle foutstromen incl. gladde gelijkstroom",[56,1217,1218],{},"Laadpaal, warmtepomp met inverter",[56,1220,117],{},[35,1222,1223,1227,1230,1233],{},[56,1224,1225],{},[19,1226,124],{},[56,1228,1229],{},"Zoals A + frequentiegestuurde foutstromen",[56,1231,1232],{},"Frequentiegestuurde aandrijvingen (motoren)",[56,1234,133],{},[24,1236,1238],{"id":1237},"wanneer-is-type-b-vereist","Wanneer is Type B vereist?",[16,1240,1241,1242,1245],{},"Type B is nodig wanneer een toestel ",[19,1243,1244],{},"gladde gelijkstroomfoutstromen"," kan veroorzaken. Dit geldt vooral voor:",[146,1247,1248,1254,1260],{},[149,1249,1250,1253],{},[19,1251,1252],{},"Laadpaal (laadstation) zonder ingebouwde DC-foutstroomsensor:"," Eenvoudige laadstations zonder 6 mA DC-detectie hebben een Type B-RCD nodig",[149,1255,1256,1259],{},[19,1257,1258],{},"Warmtepomp met inverter (frequentieomvormer):"," De frequentieomvormer kan DC-foutstromen veroorzaken",[149,1261,1262,1265],{},[19,1263,1264],{},"PV-omvormer zonder transformator:"," Transformatorloze omvormers kunnen DC-componenten in het net invoeden",[24,1267,1269],{"id":1268},"wanneer-volstaat-type-a","Wanneer volstaat Type A?",[16,1271,1272],{},"Type A is voldoende voor:",[146,1274,1275,1281,1287],{},[149,1276,1277,1280],{},[19,1278,1279],{},"Laadpaal MET ingebouwde DC-foutstroomsensor (6 mA):"," De meeste moderne laadpalen (bv. met Type A-EV-modus) hebben een ingebouwde sensor die DC-foutstromen vanaf 6 mA detecteert en het laden onderbreekt",[149,1282,1283,1286],{},[19,1284,1285],{},"Gewone huishoudtoestellen:"," Wasmachine, vaatwasser, kookplaat, verlichting",[149,1288,1289,1292],{},[19,1290,1291],{},"Stopcontactkringen:"," Standaard 30 mA RCD Type A",[24,1294,1296],{"id":1295},"arei-vereisten","AREI-vereisten",[29,1298,1299,1308],{},[32,1300,1301],{},[35,1302,1303,1305],{},[38,1304,206],{},[38,1306,1307],{},"Vereiste",[51,1309,1310,1317,1324,1331],{},[35,1311,1312,1314],{},[56,1313,216],{},[56,1315,1316],{},"RCD is verplicht voor elke kring (TT-systeem)",[35,1318,1319,1321],{},[56,1320,224],{},[56,1322,1323],{},"Maximaal 8 eindkringen per 30 mA RCD",[35,1325,1326,1328],{},[56,1327,232],{},[56,1329,1330],{},"Differentieelstroombeveiliging in huishoudelijke installaties minstens Type A; aan het voedingspunt minstens 40 A nominale stroomsterkte",[35,1332,1333,1335],{},[56,1334,240],{},[56,1336,1337],{},"Laadpaal: Eigen kring met geschikte RCD",[24,1339,1341],{"id":1340},"selectiviteit-respecteren","Selectiviteit respecteren",[16,1343,1344],{},"Voor een correcte selectiviteit moet de installatie als volgt worden opgebouwd:",[252,1346,1347,1353,1359],{},[149,1348,1349,1352],{},[19,1350,1351],{},"Hoofd-RCD:"," 300 mA, Type A-SI (selectief, tijdvertraagd)",[149,1354,1355,1358],{},[19,1356,1357],{},"Groeps-RCD's:"," 30 mA, Type A (voor gewone kringen)",[149,1360,1361,1364],{},[19,1362,1363],{},"Speciale RCD:"," 30 mA, Type B (voor laadpaal\u002Fwarmtepomp, indien geen DC-sensor aanwezig)",[16,1366,1367],{},"Zo schakelt bij een fout enkel de verantwoordelijke groeps-RCD uit, niet de hoofd-RCD — de rest van de installatie blijft in werking.",[24,1369,1371],{"id":1370},"prijsverschil-en-aanbeveling","Prijsverschil en aanbeveling",[16,1373,1374,1375,1378,1379,1382],{},"Het prijsverschil tussen Type A (",[283,1376,1377],{},"€40–60) en Type B (","€150–250) is aanzienlijk. Controleer daarom altijd eerst of uw laadpaal of warmtepomp een ",[19,1380,1381],{},"ingebouwde DC-foutstroomsensor"," heeft. Zo ja, dan volstaat een goedkopere Type A-RCD. De documentatie van de fabrikant geeft hierover uitsluitsel.",[24,1384,1386],{"id":1385},"gerelateerde-artikelen","Gerelateerde artikelen",[16,1388,1389,1390,1393],{},"Plan uw beveiligingstoestellen conform de normen met ",[299,1391,304],{"href":301,"rel":1392},[303]," — automatische RCD-type-aanbeveling inbegrepen.",{"title":307,"searchDepth":308,"depth":308,"links":1395},[1396,1397,1398,1399,1400,1401,1402],{"id":1144,"depth":308,"text":1145},{"id":1237,"depth":308,"text":1238},{"id":1268,"depth":308,"text":1269},{"id":1295,"depth":308,"text":1296},{"id":1340,"depth":308,"text":1341},{"id":1370,"depth":308,"text":1371},{"id":1385,"depth":308,"text":1386},"Vergelijking van alle RCD-types (AC, A, A-SI, B, F) voor Belgische elektro-installaties volgens het AREI.","nl",{},"\u002Fblog\u002Frcd-type-a-vs-b.nl",{"title":1130,"description":1403},"differentieel-type-a-vs-type-b","blog\u002Frcd-type-a-vs-b.nl",[1411,332,834,835,335,1412],"differentieel","laadpaal","iR0qsZS3FNBlq6efLstXv1hrxRsRt1RRp__gRaQBGAM",1775151657851]