[{"data":1,"prerenderedAt":4605},["ShallowReactive",2],{"blog-post-en-ev-charger-arei":3,"blog-alternates-ev-charger-installation-arei":1034},{"id":4,"title":5,"articleId":6,"body":7,"category":1010,"date":1011,"description":1012,"extension":1013,"lastUpdated":1014,"locale":1015,"meta":1016,"navigation":1017,"path":1018,"publishDate":1011,"readTime":1019,"refreshInterval":1020,"seo":1021,"slug":1022,"stem":1023,"tags":1024,"__hash__":1033},"blog\u002Fblog\u002Fev-charger-arei.en.md","EV Charger Installation According to AREI: The Complete Guide for Belgium","ev-charger-installation-arei",{"type":8,"value":9,"toc":968},"minimark",[10,14,18,23,26,31,39,43,46,50,53,57,60,64,68,145,150,163,168,176,180,245,250,261,266,277,281,288,292,296,365,371,375,382,404,411,415,418,422,433,439,443,454,460,466,470,477,481,488,494,499,503,506,510,513,568,573,598,602,605,616,619,623,629,633,677,681,687,701,705,709,790,847,863,867,870,874,912,921,925,928,931,935,944,952,956],[11,12,5],"h1",{"id":13},"ev-charger-installation-according-to-arei-the-complete-guide-for-belgium",[15,16,17],"p",{},"Installing an EV charger (wallbox) for electric vehicles in Belgium is subject to strict AREI\u002FRGIE regulations. Article 7.22 of the AREI\u002FRGIE governs the specific requirements for charging infrastructure. In this guide, we explain all regulations, cable requirements, and protective measures — so your installation is compliant and passes the electrical inspection.",[19,20,22],"h2",{"id":21},"arei-requirements-for-ev-chargers-art-722","AREI Requirements for EV Chargers (Art. 7.22)",[15,24,25],{},"The AREI\u002FRGIE sets the following basic requirements for EV charger installations:",[27,28,30],"h3",{"id":29},"dedicated-circuit","Dedicated Circuit",[15,32,33,34,38],{},"The EV charger ",[35,36,37],"strong",{},"must"," have its own dedicated circuit. It may not be connected to an existing circuit (e.g., sockets in the garage). This dedicated circuit must run directly from the distribution board to the charger.",[27,40,42],{"id":41},"residual-current-device-rcd","Residual Current Device (RCD)",[15,44,45],{},"Each EV charger needs its own RCD (residual current device). The type of RCD depends on the charger (more on this below).",[27,47,49],{"id":48},"circuit-breaker-mcb","Circuit Breaker (MCB)",[15,51,52],{},"A properly sized circuit breaker (MCB) protects the charger circuit against overload and short circuit.",[27,54,56],{"id":55},"surge-protection-device-spd","Surge Protection Device (SPD)",[15,58,59],{},"Art. 4.5.1 requires protection against overvoltages according to good professional practice. In practice, a central SPD is installed in the distribution board, protecting all circuits including the EV charger circuit against transient overvoltages caused by lightning strikes or switching operations in the grid.",[19,61,63],{"id":62},"single-phase-vs-three-phase-which-charger","Single-Phase vs. Three-Phase: Which Charger?",[27,65,67],{"id":66},"single-phase-37-kw-or-74-kw","Single-Phase — 3.7 kW or 7.4 kW",[69,70,71,87],"table",{},[72,73,74],"thead",{},[75,76,77,81,84],"tr",{},[78,79,80],"th",{},"Property",[78,82,83],{},"3.7 kW (16A)",[78,85,86],{},"7.4 kW (32A)",[88,89,90,101,112,123,134],"tbody",{},[75,91,92,96,99],{},[93,94,95],"td",{},"Connection",[93,97,98],{},"Single-phase, 230V",[93,100,98],{},[75,102,103,106,109],{},[93,104,105],{},"Current",[93,107,108],{},"16A",[93,110,111],{},"32A",[75,113,114,117,120],{},[93,115,116],{},"Cable cross-section",[93,118,119],{},"2.5 mm²",[93,121,122],{},"6 mm²",[75,124,125,128,131],{},[93,126,127],{},"Circuit breaker",[93,129,130],{},"20A Type C",[93,132,133],{},"32A Type C",[75,135,136,139,142],{},[93,137,138],{},"Charging time (50 kWh battery)",[93,140,141],{},"~14 hours",[93,143,144],{},"~7 hours",[15,146,147],{},[35,148,149],{},"Advantages of single-phase:",[151,152,153,157,160],"ul",{},[154,155,156],"li",{},"Cheaper installation",[154,158,159],{},"Simpler wiring",[154,161,162],{},"Sufficient for most households (overnight charging)",[15,164,165],{},[35,166,167],{},"Disadvantages of single-phase:",[151,169,170,173],{},[154,171,172],{},"Limited charging power",[154,174,175],{},"At 7.4 kW: possible phase imbalance (watch out during registration)",[27,177,179],{"id":178},"three-phase-11-kw-or-22-kw","Three-Phase — 11 kW or 22 kW",[69,181,182,194],{},[72,183,184],{},[75,185,186,188,191],{},[78,187,80],{},[78,189,190],{},"11 kW (16A)",[78,192,193],{},"22 kW (32A)",[88,195,196,205,215,225,235],{},[75,197,198,200,203],{},[93,199,95],{},[93,201,202],{},"Three-phase, 400V",[93,204,202],{},[75,206,207,209,212],{},[93,208,105],{},[93,210,211],{},"3x 16A",[93,213,214],{},"3x 32A",[75,216,217,219,222],{},[93,218,116],{},[93,220,221],{},"2.5 mm² (5G2.5)",[93,223,224],{},"6 mm² (5G6)",[75,226,227,229,232],{},[93,228,127],{},[93,230,231],{},"20A 3-pole Type C",[93,233,234],{},"32A 3-pole Type C",[75,236,237,239,242],{},[93,238,138],{},[93,240,241],{},"~5 hours",[93,243,244],{},"~2.5 hours",[15,246,247],{},[35,248,249],{},"Advantages of three-phase:",[151,251,252,255,258],{},[154,253,254],{},"Significantly faster charging",[154,256,257],{},"Balanced load distribution (no phase imbalance)",[154,259,260],{},"Future-proof",[15,262,263],{},[35,264,265],{},"Disadvantages of three-phase:",[151,267,268,271,274],{},[154,269,270],{},"More expensive installation",[154,272,273],{},"Three-phase connection at distribution board required",[154,275,276],{},"Higher material costs (thicker cables, more expensive protection devices)",[27,278,280],{"id":279},"our-recommendation","Our Recommendation",[15,282,283,284,287],{},"For most single-family homes, we recommend an ",[35,285,286],{},"11 kW three-phase EV charger",". It offers the best compromise between charging power, cost, and future-proofing. An electric vehicle is fully charged overnight in 4-5 hours — sufficient for daily use.",[19,289,291],{"id":290},"cable-and-protection-proper-sizing","Cable and Protection: Proper Sizing",[27,293,295],{"id":294},"cable-cross-section-overview","Cable Cross-Section Overview",[69,297,298,313],{},[72,299,300],{},[75,301,302,305,308,311],{},[78,303,304],{},"Power",[78,306,307],{},"Cable type",[78,309,310],{},"Cross-section",[78,312,127],{},[88,314,315,327,339,352],{},[75,316,317,320,323,325],{},[93,318,319],{},"3.7 kW (1P, 16A)",[93,321,322],{},"XVB 3G2.5",[93,324,119],{},[93,326,130],{},[75,328,329,332,335,337],{},[93,330,331],{},"7.4 kW (1P, 32A)",[93,333,334],{},"XVB 3G6",[93,336,122],{},[93,338,133],{},[75,340,341,344,347,349],{},[93,342,343],{},"11 kW (3P, 16A)",[93,345,346],{},"XVB 5G2.5",[93,348,119],{},[93,350,351],{},"20A 3P Type C",[75,353,354,357,360,362],{},[93,355,356],{},"22 kW (3P, 32A)",[93,358,359],{},"XVB 5G6",[93,361,122],{},[93,363,364],{},"32A 3P Type C",[15,366,367,370],{},[35,368,369],{},"Important:"," For long cable runs (>15m), the cross-section may need to be increased to limit voltage drop (AREI Art. 5.2.5 — voltage drop; Art. 5.2.1.2b — cable selection). Plan the cable route in advance and consult voltage drop tables if in doubt.",[27,372,374],{"id":373},"cable-type","Cable Type",[15,376,377,378,381],{},"In Belgium, ",[35,379,380],{},"XVB cable"," is typically used for fixed installations:",[151,383,384,389,394,399],{},[154,385,386,388],{},[35,387,322],{}," for single-phase 16A",[154,390,391,393],{},[35,392,334],{}," for single-phase 32A",[154,395,396,398],{},[35,397,346],{}," for three-phase 16A",[154,400,401,403],{},[35,402,359],{}," for three-phase 32A",[15,405,406,407,410],{},"When installed in a Preflex conduit, individual ",[35,408,409],{},"VOB conductors"," (H07V-U) can be used, provided the conduit is adequately sized.",[19,412,414],{"id":413},"rcd-type-the-most-important-protection-device","RCD Type: The Most Important Protection Device",[15,416,417],{},"Choosing the right RCD is particularly important for EV chargers — and can cause significant cost differences.",[27,419,421],{"id":420},"type-a-integrated-dc-6-ma-sensor-rdc-dd-in-the-charger","Type A + Integrated DC 6 mA Sensor (RDC-DD in the Charger)",[15,423,424,425,428,429,432],{},"Art. 7.22.4 requires Type B or equivalent. Type A alone is NOT sufficient — the charger must additionally have an integrated DC 6 mA sensor (Type A + RDC-DD in the charger). Most modern EV chargers (e.g., Wallbox Pulsar Plus, ABB Terra, Easee) have a ",[35,426,427],{},"built-in DC fault current sensor (6 mA DC)",". In this case, an ",[35,430,431],{},"RCD Type A (30 mA)"," is sufficient, as the charger itself provides DC protection.",[15,434,435,438],{},[35,436,437],{},"Cost Type A:"," ~€30-50 (2-pole, single-phase) or ~€50-80 (4-pole, three-phase)",[27,440,442],{"id":441},"type-b-if-no-dc-sensor-in-the-charger","Type B (If No DC Sensor in the Charger)",[15,444,445,446,449,450,453],{},"If your charger does ",[35,447,448],{},"not"," have a built-in DC fault current sensor, you need an ",[35,451,452],{},"RCD Type B",". This also detects DC fault currents that can occur with AC\u002FDC chargers.",[15,455,456,459],{},[35,457,458],{},"Cost Type B:"," ~€200-400",[15,461,462,465],{},[35,463,464],{},"Tip:"," When purchasing your EV charger, ensure that a DC fault current sensor is integrated. This saves you €120-370 on the RCD (Type B ~€200-400 instead of Type A ~€30-80, depending on the number of poles)!",[27,467,469],{"id":468},"type-a-si-alternative","Type A-SI (Alternative)",[15,471,472,473,476],{},"Some manufacturers also offer ",[35,474,475],{},"RCD Type A-SI"," (selective, surge current resistant), which can be a good choice for EV chargers to avoid nuisance tripping from inrush currents.",[19,478,480],{"id":479},"surge-protection-spd-central-for-the-entire-installation","Surge Protection (SPD) — Central for the Entire Installation",[15,482,483,484,487],{},"Art. 4.5.1 requires protection against overvoltages according to good professional practice. In practice, an ",[35,485,486],{},"SPD (surge protection device)"," is installed in the distribution board, protecting all connected devices including the EV charger against transient overvoltages. The AREI does not specify a concrete \"Type 2\" — that designation comes from the product standard (IEC 61643-11).",[15,489,490,493],{},[35,491,492],{},"Cost SPD:"," ~€50-80",[15,495,496,498],{},[35,497,369],{}," The SPD must be protected with an upstream fuse (gR fuse or MCB). Follow the manufacturer's specifications.",[19,500,502],{"id":501},"registration-with-the-grid-operator","Registration with the Grid Operator",[15,504,505],{},"In Belgium, EV charger installations above a certain power level must be registered with the relevant grid operator:",[27,507,509],{"id":508},"registration-requirements-vary-by-grid-operator","Registration Requirements (Vary by Grid Operator)",[15,511,512],{},"Thresholds vary by grid operator. Fluvius requires notification from 5 kVA (not kW — the difference matters when cos phi is not equal to 1). Thresholds at ORES\u002FRESA and Sibelga may differ.",[69,514,515,528],{},[72,516,517],{},[75,518,519,522,525],{},[78,520,521],{},"Grid operator",[78,523,524],{},"Region",[78,526,527],{},"Registration required",[88,529,530,543,556],{},[75,531,532,537,540],{},[93,533,534],{},[35,535,536],{},"Fluvius",[93,538,539],{},"Flanders",[93,541,542],{},"From 5 kVA",[75,544,545,550,553],{},[93,546,547],{},[35,548,549],{},"ORES",[93,551,552],{},"Wallonia",[93,554,555],{},"Grid-operator-dependent",[75,557,558,563,566],{},[93,559,560],{},[35,561,562],{},"Sibelga",[93,564,565],{},"Brussels",[93,567,555],{},[15,569,570],{},[35,571,572],{},"This means in practice:",[151,574,575,581,587,592],{},[154,576,577,580],{},[35,578,579],{},"3.7 kW single-phase:"," Generally no registration needed",[154,582,583,586],{},[35,584,585],{},"7.4 kW single-phase:"," Registration required",[154,588,589,586],{},[35,590,591],{},"11 kW three-phase:",[154,593,594,597],{},[35,595,596],{},"22 kW three-phase:"," Registration required + possibly grid capacity check",[27,599,601],{"id":600},"how-to-register","How to Register?",[15,603,604],{},"Registration is done online through the portal of the respective grid operator:",[151,606,607,610,613],{},[154,608,609],{},"Fluvius: via Mijn Fluvius",[154,611,612],{},"ORES: via the ORES customer portal",[154,614,615],{},"Sibelga: via the Sibelga portal",[15,617,618],{},"Have the following information ready: EAN number of your meter, power rating of the charger, desired installation date.",[19,620,622],{"id":621},"updating-the-single-line-diagram","Updating the Single-Line Diagram",[15,624,625,626,628],{},"After installing an EV charger, the single-line diagram of your electrical installation ",[35,627,37],{}," be updated. The charger is shown as its own branch in the diagram:",[27,630,632],{"id":631},"what-must-be-in-the-diagram","What Must Be in the Diagram?",[634,635,636,642,648,653,659,665,671],"ol",{},[154,637,638,641],{},[35,639,640],{},"Dedicated circuit"," from the distribution board",[154,643,644,647],{},[35,645,646],{},"RCD"," with type indication (A or B)",[154,649,650,652],{},[35,651,127],{}," with rated current",[154,654,655,658],{},[35,656,657],{},"SPD"," (surge protection device)",[154,660,661,664],{},[35,662,663],{},"EV charger symbol"," with power indication",[154,666,667,670],{},[35,668,669],{},"Cable designation"," (e.g., XVB 5G2.5)",[154,672,673,676],{},[35,674,675],{},"Phase assignment"," (for three-phase: L1\u002FL2\u002FL3)",[27,678,680],{"id":679},"planelec-makes-it-easy","PlanElec Makes It Easy",[15,682,683,686],{},[35,684,685],{},"PlanElec"," has the EV charger symbol and associated validation already integrated:",[151,688,689,692,695,698],{},[154,690,691],{},"The charger symbol complies with the AREI standard",[154,693,694],{},"Validation automatically checks: dedicated circuit, RCD protection, SPD obligation",[154,696,697],{},"Phase assignment can be entered directly",[154,699,700],{},"PDF export contains all required information",[19,702,704],{"id":703},"example-installation-with-cost-overview","Example Installation with Cost Overview",[27,706,708],{"id":707},"scenario-11-kw-charger-three-phase-10m-cable-run","Scenario: 11 kW Charger (Three-Phase), 10m Cable Run",[69,710,711,721],{},[72,712,713],{},[75,714,715,718],{},[78,716,717],{},"Material",[78,719,720],{},"Cost",[88,722,723,731,739,747,755,762,770,778],{},[75,724,725,728],{},[93,726,727],{},"EV charger (e.g., Pulsar Plus, with DC sensor)",[93,729,730],{},"€600-900",[75,732,733,736],{},[93,734,735],{},"XVB 5G2.5 cable (10m)",[93,737,738],{},"€30-40",[75,740,741,744],{},[93,742,743],{},"RCD Type A 30mA 4-pole (DC sensor in charger)",[93,745,746],{},"€50-80",[75,748,749,752],{},[93,750,751],{},"Circuit breaker 20A 3-pole Type C",[93,753,754],{},"€25-40",[75,756,757,760],{},[93,758,759],{},"SPD Type 2 3-pole",[93,761,746],{},[75,763,764,767],{},[93,765,766],{},"Upstream fuse for SPD",[93,768,769],{},"€10-15",[75,771,772,775],{},[93,773,774],{},"Miscellaneous (terminals, mounting, cable glands)",[93,776,777],{},"€20-30",[75,779,780,785],{},[93,781,782],{},[35,783,784],{},"Material total",[93,786,787],{},[35,788,789],{},"€785-1,185",[69,791,792,801],{},[72,793,794],{},[75,795,796,799],{},[78,797,798],{},"Labour",[78,800,720],{},[88,802,803,811,819,827,835],{},[75,804,805,808],{},[93,806,807],{},"Installation by electrician (4-6 hrs)",[93,809,810],{},"€200-360",[75,812,813,816],{},[93,814,815],{},"Update single-line diagram (with PlanElec)",[93,817,818],{},"€49",[75,820,821,824],{},[93,822,823],{},"Inspection (if needed)",[93,825,826],{},"€150-200",[75,828,829,832],{},[93,830,831],{},"Grid operator registration",[93,833,834],{},"€0 (free)",[75,836,837,842],{},[93,838,839],{},[35,840,841],{},"Labour total",[93,843,844],{},[35,845,846],{},"€399-609",[69,848,849],{},[72,850,851],{},[75,852,853,858],{},[78,854,855],{},[35,856,857],{},"Total cost",[78,859,860],{},[35,861,862],{},"€1,184-1,794",[27,864,866],{"id":865},"money-saving-tip-buy-materials-yourself","Money-Saving Tip: Buy Materials Yourself",[15,868,869],{},"You can save considerably by purchasing the materials yourself and only having the electrician perform the installation. Ensure CE marking and buy from specialized electrical wholesalers (e.g., Rexel, Cebeo, Solar).",[19,871,873],{"id":872},"common-mistakes-to-avoid","Common Mistakes to Avoid",[634,875,876,882,888,894,900,906],{},[154,877,878,881],{},[35,879,880],{},"No dedicated circuit:"," Connecting the charger to an existing socket is not only unsafe but violates the AREI.",[154,883,884,887],{},[35,885,886],{},"Wrong RCD type:"," Without a DC sensor in the charger, an RCD Type B is mandatory.",[154,889,890,893],{},[35,891,892],{},"Missing SPD:"," Surge protection is often forgotten — the inspector will flag it.",[154,895,896,899],{},[35,897,898],{},"No updated single-line diagram:"," Every change to the installation must be documented in the diagram.",[154,901,902,905],{},[35,903,904],{},"No grid operator registration:"," From approximately 5 kVA, registration is mandatory (exact threshold varies by grid operator).",[154,907,908,911],{},[35,909,910],{},"Cable cross-section too small:"," Especially for long cable runs (>15m), watch the voltage drop.",[913,914,915],"blockquote",{},[15,916,917,920],{},[35,918,919],{},"Earthing note:"," A prerequisite for a safe EV charger installation: the entire earthing chain (earth electrode, main equipotential bonding, protective conductor) must be intact. For older installations without proper earthing, remediation is required.",[19,922,924],{"id":923},"conclusion","Conclusion",[15,926,927],{},"Installing an EV charger in Belgium is entirely feasible but requires compliance with AREI\u002FRGIE regulations under Article 7.22. The key points: dedicated circuit, correct RCD type, surge protection (Art. 4.5.1), and an updated single-line diagram. With careful planning and the right materials, you will pass the inspection without issues.",[929,930],"hr",{},[19,932,934],{"id":933},"related-articles","Related Articles",[151,936,937],{},[154,938,939],{},[940,941,943],"a",{"href":942},"\u002Fen\u002Fblog\u002Fcost-comparison-diy-vs-electrician","Cost Comparison: DIY vs. Hiring an Electrician",[151,945,946],{},[154,947,948],{},[940,949,951],{"href":950},"\u002Fen\u002Fblog\u002Fplanelec-vs-excel-paper","PlanElec vs. Excel\u002FPaper",[19,953,955],{"id":954},"document-your-ev-charger-in-the-single-line-diagram","Document Your EV Charger in the Single-Line Diagram",[15,957,958,959,961,962],{},"With ",[35,960,685],{},", add your EV charger correctly to the single-line diagram — with the proper AREI symbol, automatic validation for RCD protection and SPD, and professional PDF export. ",[940,963,967],{"href":964,"rel":965},"https:\u002F\u002Fplanelec.com",[966],"nofollow","Get started now →",{"title":969,"searchDepth":970,"depth":970,"links":971},"",2,[972,979,984,988,993,994,998,1002,1006,1007,1008,1009],{"id":21,"depth":970,"text":22,"children":973},[974,976,977,978],{"id":29,"depth":975,"text":30},3,{"id":41,"depth":975,"text":42},{"id":48,"depth":975,"text":49},{"id":55,"depth":975,"text":56},{"id":62,"depth":970,"text":63,"children":980},[981,982,983],{"id":66,"depth":975,"text":67},{"id":178,"depth":975,"text":179},{"id":279,"depth":975,"text":280},{"id":290,"depth":970,"text":291,"children":985},[986,987],{"id":294,"depth":975,"text":295},{"id":373,"depth":975,"text":374},{"id":413,"depth":970,"text":414,"children":989},[990,991,992],{"id":420,"depth":975,"text":421},{"id":441,"depth":975,"text":442},{"id":468,"depth":975,"text":469},{"id":479,"depth":970,"text":480},{"id":501,"depth":970,"text":502,"children":995},[996,997],{"id":508,"depth":975,"text":509},{"id":600,"depth":975,"text":601},{"id":621,"depth":970,"text":622,"children":999},[1000,1001],{"id":631,"depth":975,"text":632},{"id":679,"depth":975,"text":680},{"id":703,"depth":970,"text":704,"children":1003},[1004,1005],{"id":707,"depth":975,"text":708},{"id":865,"depth":975,"text":866},{"id":872,"depth":970,"text":873},{"id":923,"depth":970,"text":924},{"id":933,"depth":970,"text":934},{"id":954,"depth":970,"text":955},"guide","2026-05-25","Everything about AREI\u002FRGIE requirements for EV charger (wallbox) installations in Belgium: cable sizing, RCD protection, SPD obligation, grid operator registration, and single-line diagram. With cost overview.","md","2026-06-05","en",{},true,"\u002Fblog\u002Fev-charger-arei.en","8 min",12,{"title":5,"description":1012},"ev-charger-arei","blog\u002Fev-charger-arei.en",[1025,1026,1027,1028,1029,1030,1031,1032],"EV charger","wallbox","AREI","electric vehicle","installation","RCD protection","Belgium","single-line diagram","qDcmLv9q_Kd6hd7wIoGJBvQGrRqOAHj5eYFt8Eeow_8",[1035,1987,2705,3651],{"id":1036,"title":1037,"articleId":6,"body":1038,"category":1010,"date":1011,"description":1972,"extension":1013,"lastUpdated":1014,"locale":1973,"meta":1974,"navigation":1017,"path":1975,"publishDate":1011,"readTime":1019,"refreshInterval":1020,"seo":1976,"slug":1977,"stem":1978,"tags":1979,"__hash__":1986},"blog\u002Fblog\u002Fborne-recharge-rgie.fr.md","Installer une borne de recharge selon le RGIE : Le guide complet pour la Belgique",{"type":8,"value":1039,"toc":1933},[1040,1043,1046,1050,1053,1057,1064,1068,1071,1075,1078,1082,1085,1089,1093,1160,1165,1176,1181,1189,1193,1253,1258,1269,1274,1285,1289,1296,1300,1304,1369,1375,1378,1385,1407,1414,1418,1421,1425,1436,1442,1446,1457,1462,1468,1471,1478,1482,1489,1494,1499,1503,1506,1510,1561,1566,1591,1595,1598,1609,1612,1616,1622,1626,1668,1672,1677,1691,1695,1699,1774,1827,1843,1847,1850,1854,1892,1894,1897,1899,1903,1911,1919,1923],[11,1041,1037],{"id":1042},"installer-une-borne-de-recharge-selon-le-rgie-le-guide-complet-pour-la-belgique",[15,1044,1045],{},"L'installation d'une borne de recharge (wallbox) pour véhicules électriques en Belgique est soumise à des prescriptions strictes du RGIE. L'article 7.22 du RGIE réglemente les exigences spécifiques pour l'infrastructure de recharge. Dans ce guide, nous expliquons toutes les prescriptions, exigences de câblage et mesures de protection — pour que votre installation soit conforme aux normes et passe le contrôle.",[19,1047,1049],{"id":1048},"exigences-rgie-pour-borne-de-recharge-art-722","Exigences RGIE pour borne de recharge (Art. 7.22)",[15,1051,1052],{},"Le RGIE pose les exigences de base suivantes pour les installations de bornes de recharge :",[27,1054,1056],{"id":1055},"circuit-dédié","Circuit dédié",[15,1058,1059,1060,1063],{},"La borne de recharge ",[35,1061,1062],{},"doit"," disposer de son propre circuit dédié. Elle ne peut pas être raccordée à un circuit existant (par ex. prises dans le garage). Ce circuit dédié doit aller directement du coffret de distribution à la borne.",[27,1065,1067],{"id":1066},"différentiel-protection-différentielle","Différentiel (protection différentielle)",[15,1069,1070],{},"Chaque borne de recharge nécessite son propre différentiel (RCD). Le type de différentiel dépend de la borne (plus de détails ci-dessous).",[27,1072,1074],{"id":1073},"disjoncteur","Disjoncteur",[15,1076,1077],{},"Un disjoncteur (MCB) correctement dimensionné protège le circuit de la borne contre les surcharges et les courts-circuits.",[27,1079,1081],{"id":1080},"protection-contre-les-surtensions-spd","Protection contre les surtensions (SPD)",[15,1083,1084],{},"L'art. 4.5.1 exige de manière générale la protection contre les surtensions selon les règles de l'art. En pratique, un SPD central est installé dans le coffret de distribution, protégeant tous les circuits y compris celui de la borne de recharge contre les surtensions transitoires causées par la foudre ou les commutations dans le réseau.",[19,1086,1088],{"id":1087},"monophasé-vs-triphasé-quelle-borne","Monophasé vs. triphasé : Quelle borne ?",[27,1090,1092],{"id":1091},"monophasé-37-kw-ou-74-kw","Monophasé — 3,7 kW ou 7,4 kW",[69,1094,1095,1108],{},[72,1096,1097],{},[75,1098,1099,1102,1105],{},[78,1100,1101],{},"Caractéristique",[78,1103,1104],{},"3,7 kW (16A)",[78,1106,1107],{},"7,4 kW (32A)",[88,1109,1110,1120,1129,1139,1149],{},[75,1111,1112,1115,1118],{},[93,1113,1114],{},"Raccordement",[93,1116,1117],{},"Monophasé, 230V",[93,1119,1117],{},[75,1121,1122,1125,1127],{},[93,1123,1124],{},"Intensité",[93,1126,108],{},[93,1128,111],{},[75,1130,1131,1134,1137],{},[93,1132,1133],{},"Section de câble",[93,1135,1136],{},"2,5 mm²",[93,1138,122],{},[75,1140,1141,1143,1146],{},[93,1142,1074],{},[93,1144,1145],{},"20A type C",[93,1147,1148],{},"40A type C",[75,1150,1151,1154,1157],{},[93,1152,1153],{},"Temps de charge (batterie 50 kWh)",[93,1155,1156],{},"~14 heures",[93,1158,1159],{},"~7 heures",[15,1161,1162],{},[35,1163,1164],{},"Avantages monophasé :",[151,1166,1167,1170,1173],{},[154,1168,1169],{},"Installation moins chère",[154,1171,1172],{},"Câblage plus simple",[154,1174,1175],{},"Suffisant pour la plupart des ménages (charge nocturne)",[15,1177,1178],{},[35,1179,1180],{},"Inconvénients monophasé :",[151,1182,1183,1186],{},[154,1184,1185],{},"Puissance de charge limitée",[154,1187,1188],{},"À 7,4 kW : déséquilibre de phase possible (attention lors de la déclaration)",[27,1190,1192],{"id":1191},"triphasé-11-kw-ou-22-kw","Triphasé — 11 kW ou 22 kW",[69,1194,1195,1205],{},[72,1196,1197],{},[75,1198,1199,1201,1203],{},[78,1200,1101],{},[78,1202,190],{},[78,1204,193],{},[88,1206,1207,1216,1224,1233,1243],{},[75,1208,1209,1211,1214],{},[93,1210,1114],{},[93,1212,1213],{},"Triphasé, 400V",[93,1215,1213],{},[75,1217,1218,1220,1222],{},[93,1219,1124],{},[93,1221,211],{},[93,1223,214],{},[75,1225,1226,1228,1231],{},[93,1227,1133],{},[93,1229,1230],{},"2,5 mm² (5G2,5)",[93,1232,224],{},[75,1234,1235,1237,1240],{},[93,1236,1074],{},[93,1238,1239],{},"20A tripolaire type C",[93,1241,1242],{},"32A tripolaire type C",[75,1244,1245,1247,1250],{},[93,1246,1153],{},[93,1248,1249],{},"~5 heures",[93,1251,1252],{},"~2,5 heures",[15,1254,1255],{},[35,1256,1257],{},"Avantages triphasé :",[151,1259,1260,1263,1266],{},[154,1261,1262],{},"Charge nettement plus rapide",[154,1264,1265],{},"Répartition de charge équilibrée (pas de déséquilibre)",[154,1267,1268],{},"Pérenne",[15,1270,1271],{},[35,1272,1273],{},"Inconvénients triphasé :",[151,1275,1276,1279,1282],{},[154,1277,1278],{},"Installation plus coûteuse",[154,1280,1281],{},"Raccordement triphasé au coffret nécessaire",[154,1283,1284],{},"Coûts de matériel plus élevés (câbles plus épais, dispositifs de protection plus chers)",[27,1286,1288],{"id":1287},"notre-recommandation","Notre recommandation",[15,1290,1291,1292,1295],{},"Pour la plupart des maisons unifamiliales, nous recommandons une ",[35,1293,1294],{},"borne de recharge triphasée 11 kW",". Elle offre le meilleur compromis entre puissance de charge, coûts et pérennité. Un véhicule électrique est entièrement chargé en 4-5 heures pendant la nuit — cela suffit pour l'usage quotidien.",[19,1297,1299],{"id":1298},"câble-et-protection-le-bon-dimensionnement","Câble et protection : Le bon dimensionnement",[27,1301,1303],{"id":1302},"aperçu-des-sections-de-câble","Aperçu des sections de câble",[69,1305,1306,1321],{},[72,1307,1308],{},[75,1309,1310,1313,1316,1319],{},[78,1311,1312],{},"Puissance",[78,1314,1315],{},"Type de câble",[78,1317,1318],{},"Section",[78,1320,1074],{},[88,1322,1323,1335,1346,1358],{},[75,1324,1325,1328,1331,1333],{},[93,1326,1327],{},"3,7 kW (1P, 16A)",[93,1329,1330],{},"XVB 3G2,5",[93,1332,1136],{},[93,1334,1145],{},[75,1336,1337,1340,1342,1344],{},[93,1338,1339],{},"7,4 kW (1P, 32A)",[93,1341,334],{},[93,1343,122],{},[93,1345,1148],{},[75,1347,1348,1350,1353,1355],{},[93,1349,343],{},[93,1351,1352],{},"XVB 5G2,5",[93,1354,1136],{},[93,1356,1357],{},"20A 3P type C",[75,1359,1360,1362,1364,1366],{},[93,1361,356],{},[93,1363,359],{},[93,1365,122],{},[93,1367,1368],{},"32A 3P type C",[15,1370,1371,1374],{},[35,1372,1373],{},"Important :"," Pour de longues longueurs de câble (>15m), la section doit éventuellement être augmentée pour limiter la chute de tension (RGIE Art. 5.2.5 — variation de tension ; Art. 5.2.1.2b — choix des canalisations). Planifiez le parcours du câble à l'avance et consultez les tableaux de chute de tension en cas de doute.",[27,1376,1315],{"id":1377},"type-de-câble",[15,1379,1380,1381,1384],{},"En Belgique, on utilise habituellement du ",[35,1382,1383],{},"câble XVB"," pour les installations fixes :",[151,1386,1387,1392,1397,1402],{},[154,1388,1389,1391],{},[35,1390,1330],{}," pour monophasé 16A",[154,1393,1394,1396],{},[35,1395,334],{}," pour monophasé 32A",[154,1398,1399,1401],{},[35,1400,1352],{}," pour triphasé 16A",[154,1403,1404,1406],{},[35,1405,359],{}," pour triphasé 32A",[15,1408,1409,1410,1413],{},"Pour une pose en tube Preflex, des ",[35,1411,1412],{},"conducteurs VOB individuels"," sont envisageables (H07V-U), à condition que le tube soit suffisamment dimensionné.",[19,1415,1417],{"id":1416},"type-de-différentiel-le-dispositif-de-protection-le-plus-important","Type de différentiel : Le dispositif de protection le plus important",[15,1419,1420],{},"Le choix du bon différentiel est particulièrement important pour les bornes de recharge — et peut entraîner des différences de coût considérables.",[27,1422,1424],{"id":1423},"type-a-avec-capteur-de-courant-résiduel-dc-recommandé","Type A avec capteur de courant résiduel DC (recommandé)",[15,1426,1427,1428,1431,1432,1435],{},"La plupart des bornes de recharge modernes (par ex. Wallbox Pulsar Plus, ABB Terra, Easee) disposent d'un ",[35,1429,1430],{},"capteur de courant résiduel DC intégré (6 mA DC)",". Dans ce cas, un ",[35,1433,1434],{},"différentiel type A (30 mA)"," suffit, car la borne assure elle-même la protection DC.",[15,1437,1438,1441],{},[35,1439,1440],{},"Coût type A :"," ~€30-50 (bipolaire, monophasé) ou ~€50-80 (tétrapolaire, triphasé)",[27,1443,1445],{"id":1444},"type-b-si-pas-de-capteur-dc-dans-la-borne","Type B (si pas de capteur DC dans la borne)",[15,1447,1448,1449,1452,1453,1456],{},"Si votre borne ",[35,1450,1451],{},"n'a pas"," de capteur de courant résiduel DC intégré, vous avez besoin d'un ",[35,1454,1455],{},"différentiel type B",". Celui-ci détecte également les courants de défaut continus (DC), qui peuvent survenir avec les chargeurs AC\u002FDC.",[15,1458,1459,459],{},[35,1460,1461],{},"Coût type B :",[15,1463,1464,1467],{},[35,1465,1466],{},"Conseil :"," Lors de l'achat de la borne, vérifiez qu'un capteur de courant résiduel DC est intégré. Cela vous fait économiser €120-370 sur le différentiel (type B ~€200-400 au lieu du type A ~€30-80, selon le nombre de pôles) !",[27,1469,1470],{"id":468},"Type A-SI (alternative)",[15,1472,1473,1474,1477],{},"Certains fabricants proposent aussi un ",[35,1475,1476],{},"différentiel type A-SI"," (sélectif, résistant aux courants impulsionnels), qui peut être un bon choix pour les bornes afin d'éviter les déclenchements intempestifs dus aux courants d'appel.",[19,1479,1481],{"id":1480},"protection-contre-les-surtensions-spd-centralisée-pour-toute-linstallation","Protection contre les surtensions (SPD) — centralisée pour toute l'installation",[15,1483,1484,1485,1488],{},"L'art. 4.5.1 exige de manière générale la protection contre les surtensions selon les règles de l'art. En pratique, un ",[35,1486,1487],{},"SPD (parafoudre)"," est installé dans le coffret de distribution, protégeant tous les appareils raccordés y compris la borne de recharge contre les surtensions transitoires. Le RGIE ne mentionne pas de « Type 2 » spécifique — la désignation de type provient de la norme produit (IEC 61643-11).",[15,1490,1491,493],{},[35,1492,1493],{},"Coût SPD :",[15,1495,1496,1498],{},[35,1497,1373],{}," Le SPD doit être protégé par un fusible amont (fusible gR ou MCB). Respectez les prescriptions du fabricant.",[19,1500,1502],{"id":1501},"déclaration-au-gestionnaire-de-réseau","Déclaration au gestionnaire de réseau",[15,1504,1505],{},"En Belgique, les installations de bornes de recharge à partir d'une certaine puissance doivent être déclarées au gestionnaire de réseau compétent :",[27,1507,1509],{"id":1508},"obligation-de-déclaration-à-partir-de-575-kw","Obligation de déclaration à partir de 5,75 kW",[69,1511,1512,1525],{},[72,1513,1514],{},[75,1515,1516,1519,1522],{},[78,1517,1518],{},"Gestionnaire de réseau",[78,1520,1521],{},"Région",[78,1523,1524],{},"Obligation",[88,1526,1527,1539,1550],{},[75,1528,1529,1533,1536],{},[93,1530,1531],{},[35,1532,536],{},[93,1534,1535],{},"Flandre",[93,1537,1538],{},"À partir de 5,75 kW",[75,1540,1541,1545,1548],{},[93,1542,1543],{},[35,1544,549],{},[93,1546,1547],{},"Wallonie",[93,1549,1538],{},[75,1551,1552,1556,1559],{},[93,1553,1554],{},[35,1555,562],{},[93,1557,1558],{},"Bruxelles",[93,1560,1538],{},[15,1562,1563],{},[35,1564,1565],{},"Cela signifie :",[151,1567,1568,1574,1580,1585],{},[154,1569,1570,1573],{},[35,1571,1572],{},"3,7 kW monophasé :"," Pas de déclaration nécessaire",[154,1575,1576,1579],{},[35,1577,1578],{},"7,4 kW monophasé :"," Déclaration requise",[154,1581,1582,1579],{},[35,1583,1584],{},"11 kW triphasé :",[154,1586,1587,1590],{},[35,1588,1589],{},"22 kW triphasé :"," Déclaration requise + éventuellement vérification de capacité réseau",[27,1592,1594],{"id":1593},"comment-déclarer","Comment déclarer ?",[15,1596,1597],{},"La déclaration se fait en ligne via le portail du gestionnaire de réseau concerné :",[151,1599,1600,1603,1606],{},[154,1601,1602],{},"Fluvius : via Mijn Fluvius",[154,1604,1605],{},"ORES : via le portail client ORES",[154,1607,1608],{},"Sibelga : via le portail Sibelga",[15,1610,1611],{},"Ayez les informations suivantes à portée de main : numéro EAN de votre compteur, puissance de la borne, date d'installation souhaitée.",[19,1613,1615],{"id":1614},"mettre-à-jour-le-schéma-unifilaire","Mettre à jour le schéma unifilaire",[15,1617,1618,1619,1621],{},"Après l'installation d'une borne de recharge, le schéma unifilaire de votre installation électrique ",[35,1620,1062],{}," être mis à jour. La borne est représentée comme un départ propre dans le schéma :",[27,1623,1625],{"id":1624},"que-doit-figurer-dans-le-schéma","Que doit figurer dans le schéma ?",[634,1627,1628,1634,1640,1645,1650,1656,1662],{},[154,1629,1630,1633],{},[35,1631,1632],{},"Circuit propre"," depuis le coffret de distribution",[154,1635,1636,1639],{},[35,1637,1638],{},"Différentiel"," avec indication du type (A ou B)",[154,1641,1642,1644],{},[35,1643,1074],{}," avec courant nominal",[154,1646,1647,1649],{},[35,1648,657],{}," (protection contre les surtensions)",[154,1651,1652,1655],{},[35,1653,1654],{},"Symbole de borne de recharge"," avec indication de puissance",[154,1657,1658,1661],{},[35,1659,1660],{},"Désignation du câble"," (par ex. XVB 5G2,5)",[154,1663,1664,1667],{},[35,1665,1666],{},"Attribution des phases"," (en triphasé : L1\u002FL2\u002FL3)",[27,1669,1671],{"id":1670},"planelec-simplifie-les-choses","PlanElec simplifie les choses",[15,1673,1674,1676],{},[35,1675,685],{}," a déjà intégré le symbole de borne de recharge et la validation correspondante :",[151,1678,1679,1682,1685,1688],{},[154,1680,1681],{},"Le symbole de borne respecte la norme RGIE",[154,1683,1684],{},"La validation vérifie automatiquement : circuit propre, protection différentielle, parafoudre",[154,1686,1687],{},"L'attribution des phases peut être saisie directement",[154,1689,1690],{},"L'export PDF contient toutes les données requises",[19,1692,1694],{"id":1693},"exemple-dinstallation-avec-aperçu-des-coûts","Exemple d'installation avec aperçu des coûts",[27,1696,1698],{"id":1697},"scénario-borne-11-kw-triphasée-10m-de-câble","Scénario : Borne 11 kW (triphasée), 10m de câble",[69,1700,1701,1711],{},[72,1702,1703],{},[75,1704,1705,1708],{},[78,1706,1707],{},"Matériel",[78,1709,1710],{},"Coût",[88,1712,1713,1720,1727,1734,1741,1748,1755,1762],{},[75,1714,1715,1718],{},[93,1716,1717],{},"Borne de recharge (par ex. Pulsar Plus, avec capteur DC)",[93,1719,730],{},[75,1721,1722,1725],{},[93,1723,1724],{},"Câble XVB 5G2,5 (10m)",[93,1726,738],{},[75,1728,1729,1732],{},[93,1730,1731],{},"Différentiel type A 30mA tétrapolaire (capteur DC dans la borne)",[93,1733,746],{},[75,1735,1736,1739],{},[93,1737,1738],{},"Disjoncteur 20A tripolaire type C",[93,1740,754],{},[75,1742,1743,1746],{},[93,1744,1745],{},"SPD type 2 tripolaire",[93,1747,746],{},[75,1749,1750,1753],{},[93,1751,1752],{},"Fusible amont SPD",[93,1754,769],{},[75,1756,1757,1760],{},[93,1758,1759],{},"Petit matériel (bornes, fixation, passe-câble)",[93,1761,777],{},[75,1763,1764,1769],{},[93,1765,1766],{},[35,1767,1768],{},"Matériel total",[93,1770,1771],{},[35,1772,1773],{},"€785-1.185",[69,1775,1776,1785],{},[72,1777,1778],{},[75,1779,1780,1783],{},[78,1781,1782],{},"Main d'œuvre",[78,1784,1710],{},[88,1786,1787,1794,1801,1808,1816],{},[75,1788,1789,1792],{},[93,1790,1791],{},"Installation par électricien (4-6 h)",[93,1793,810],{},[75,1795,1796,1799],{},[93,1797,1798],{},"Mise à jour schéma unifilaire (avec PlanElec)",[93,1800,818],{},[75,1802,1803,1806],{},[93,1804,1805],{},"Contrôle (si nécessaire)",[93,1807,826],{},[75,1809,1810,1813],{},[93,1811,1812],{},"Déclaration gestionnaire de réseau",[93,1814,1815],{},"€0 (gratuit)",[75,1817,1818,1823],{},[93,1819,1820],{},[35,1821,1822],{},"Main d'œuvre total",[93,1824,1825],{},[35,1826,846],{},[69,1828,1829],{},[72,1830,1831],{},[75,1832,1833,1838],{},[78,1834,1835],{},[35,1836,1837],{},"Coût total",[78,1839,1840],{},[35,1841,1842],{},"€1.184-1.794",[27,1844,1846],{"id":1845},"astuce-économie-acheter-le-matériel-soi-même","Astuce économie : Acheter le matériel soi-même",[15,1848,1849],{},"Vous pouvez économiser considérablement en achetant le matériel vous-même et en ne faisant réaliser que l'installation par l'électricien. Vérifiez le marquage CE et achetez chez des grossistes en électricité spécialisés (par ex. Rexel, Cebeo, Solar).",[19,1851,1853],{"id":1852},"éviter-les-erreurs-courantes","Éviter les erreurs courantes",[634,1855,1856,1862,1868,1874,1880,1886],{},[154,1857,1858,1861],{},[35,1859,1860],{},"Pas de circuit dédié :"," Brancher la borne sur une prise existante est non seulement dangereux, mais contraire au RGIE.",[154,1863,1864,1867],{},[35,1865,1866],{},"Mauvais type de différentiel :"," Sans capteur DC dans la borne, un type B est obligatoire.",[154,1869,1870,1873],{},[35,1871,1872],{},"Parafoudre manquant :"," La protection contre les surtensions (SPD) est souvent oubliée — le contrôleur le remarquera.",[154,1875,1876,1879],{},[35,1877,1878],{},"Pas de schéma unifilaire mis à jour :"," Toute modification de l'installation doit être documentée dans le schéma.",[154,1881,1882,1885],{},[35,1883,1884],{},"Pas de déclaration au gestionnaire de réseau :"," À partir de 5,75 kW, la déclaration est obligatoire.",[154,1887,1888,1891],{},[35,1889,1890],{},"Section de câble trop faible :"," Surtout pour les longs parcours (>15m), surveillez la chute de tension.",[19,1893,924],{"id":923},[15,1895,1896],{},"L'installation d'une borne de recharge en Belgique est tout à fait réalisable, mais exige le respect des prescriptions RGIE selon l'article 7.22. Les points essentiels : circuit dédié, bon type de différentiel, protection contre les surtensions (Art. 4.5.1) et schéma unifilaire mis à jour. Avec une planification soigneuse et les bons matériaux, vous passerez le contrôle sans problème.",[929,1898],{},[19,1900,1902],{"id":1901},"articles-connexes","Articles connexes",[151,1904,1905],{},[154,1906,1907],{},[940,1908,1910],{"href":1909},"\u002Ffr\u002Fblog\u002Fcomparatif-cout-soi-meme-vs-electricien","Comparatif coût : dessiner soi-même vs. électricien",[151,1912,1913],{},[154,1914,1915],{},[940,1916,1918],{"href":1917},"\u002Ffr\u002Fblog\u002Fplanelec-vs-excel-papier","PlanElec vs. Excel\u002Fpapier",[19,1920,1922],{"id":1921},"documenter-votre-borne-dans-le-schéma-unifilaire","Documenter votre borne dans le schéma unifilaire",[15,1924,1925,1926,1928,1929],{},"Avec ",[35,1927,685],{},", ajoutez correctement votre borne de recharge au schéma unifilaire — avec le bon symbole RGIE, la validation automatique pour la protection différentielle et le parafoudre, et un export PDF professionnel. ",[940,1930,1932],{"href":964,"rel":1931},[966],"Commencer maintenant →",{"title":969,"searchDepth":970,"depth":970,"links":1934},[1935,1941,1946,1950,1955,1956,1960,1964,1968,1969,1970,1971],{"id":1048,"depth":970,"text":1049,"children":1936},[1937,1938,1939,1940],{"id":1055,"depth":975,"text":1056},{"id":1066,"depth":975,"text":1067},{"id":1073,"depth":975,"text":1074},{"id":1080,"depth":975,"text":1081},{"id":1087,"depth":970,"text":1088,"children":1942},[1943,1944,1945],{"id":1091,"depth":975,"text":1092},{"id":1191,"depth":975,"text":1192},{"id":1287,"depth":975,"text":1288},{"id":1298,"depth":970,"text":1299,"children":1947},[1948,1949],{"id":1302,"depth":975,"text":1303},{"id":1377,"depth":975,"text":1315},{"id":1416,"depth":970,"text":1417,"children":1951},[1952,1953,1954],{"id":1423,"depth":975,"text":1424},{"id":1444,"depth":975,"text":1445},{"id":468,"depth":975,"text":1470},{"id":1480,"depth":970,"text":1481},{"id":1501,"depth":970,"text":1502,"children":1957},[1958,1959],{"id":1508,"depth":975,"text":1509},{"id":1593,"depth":975,"text":1594},{"id":1614,"depth":970,"text":1615,"children":1961},[1962,1963],{"id":1624,"depth":975,"text":1625},{"id":1670,"depth":975,"text":1671},{"id":1693,"depth":970,"text":1694,"children":1965},[1966,1967],{"id":1697,"depth":975,"text":1698},{"id":1845,"depth":975,"text":1846},{"id":1852,"depth":970,"text":1853},{"id":923,"depth":970,"text":924},{"id":1901,"depth":970,"text":1902},{"id":1921,"depth":970,"text":1922},"Tout sur les exigences RGIE pour l'installation de bornes de recharge en Belgique : section de câble, protection différentielle, parafoudre, déclaration au gestionnaire de réseau et schéma unifilaire. Avec aperçu des coûts.","fr",{},"\u002Fblog\u002Fborne-recharge-rgie.fr",{"title":1037,"description":1972},"borne-recharge-rgie","blog\u002Fborne-recharge-rgie.fr",[1980,1026,1981,1982,1029,1983,1984,1985],"borne de recharge","RGIE","voiture électrique","protection différentielle","Belgique","schéma unifilaire","8SR9HQbXxn3iDLezfq8Mr1HoFudoV0f3gx29Hytcwjk",{"id":4,"title":5,"articleId":6,"body":1988,"category":1010,"date":1011,"description":1012,"extension":1013,"lastUpdated":1014,"locale":1015,"meta":2702,"navigation":1017,"path":1018,"publishDate":1011,"readTime":1019,"refreshInterval":1020,"seo":2703,"slug":1022,"stem":1023,"tags":2704,"__hash__":1033},{"type":8,"value":1989,"toc":2663},[1990,1992,1994,1996,1998,2000,2004,2006,2008,2010,2012,2014,2016,2018,2020,2074,2078,2086,2090,2096,2098,2152,2156,2164,2168,2176,2178,2182,2184,2186,2242,2246,2248,2252,2270,2274,2276,2278,2280,2286,2290,2292,2298,2302,2306,2308,2312,2314,2318,2322,2326,2328,2330,2332,2334,2378,2382,2400,2402,2404,2412,2414,2416,2420,2422,2452,2454,2458,2468,2470,2472,2536,2582,2596,2598,2600,2602,2628,2634,2636,2638,2640,2642,2648,2654,2656],[11,1991,5],{"id":13},[15,1993,17],{},[19,1995,22],{"id":21},[15,1997,25],{},[27,1999,30],{"id":29},[15,2001,33,2002,38],{},[35,2003,37],{},[27,2005,42],{"id":41},[15,2007,45],{},[27,2009,49],{"id":48},[15,2011,52],{},[27,2013,56],{"id":55},[15,2015,59],{},[19,2017,63],{"id":62},[27,2019,67],{"id":66},[69,2021,2022,2032],{},[72,2023,2024],{},[75,2025,2026,2028,2030],{},[78,2027,80],{},[78,2029,83],{},[78,2031,86],{},[88,2033,2034,2042,2050,2058,2066],{},[75,2035,2036,2038,2040],{},[93,2037,95],{},[93,2039,98],{},[93,2041,98],{},[75,2043,2044,2046,2048],{},[93,2045,105],{},[93,2047,108],{},[93,2049,111],{},[75,2051,2052,2054,2056],{},[93,2053,116],{},[93,2055,119],{},[93,2057,122],{},[75,2059,2060,2062,2064],{},[93,2061,127],{},[93,2063,130],{},[93,2065,133],{},[75,2067,2068,2070,2072],{},[93,2069,138],{},[93,2071,141],{},[93,2073,144],{},[15,2075,2076],{},[35,2077,149],{},[151,2079,2080,2082,2084],{},[154,2081,156],{},[154,2083,159],{},[154,2085,162],{},[15,2087,2088],{},[35,2089,167],{},[151,2091,2092,2094],{},[154,2093,172],{},[154,2095,175],{},[27,2097,179],{"id":178},[69,2099,2100,2110],{},[72,2101,2102],{},[75,2103,2104,2106,2108],{},[78,2105,80],{},[78,2107,190],{},[78,2109,193],{},[88,2111,2112,2120,2128,2136,2144],{},[75,2113,2114,2116,2118],{},[93,2115,95],{},[93,2117,202],{},[93,2119,202],{},[75,2121,2122,2124,2126],{},[93,2123,105],{},[93,2125,211],{},[93,2127,214],{},[75,2129,2130,2132,2134],{},[93,2131,116],{},[93,2133,221],{},[93,2135,224],{},[75,2137,2138,2140,2142],{},[93,2139,127],{},[93,2141,231],{},[93,2143,234],{},[75,2145,2146,2148,2150],{},[93,2147,138],{},[93,2149,241],{},[93,2151,244],{},[15,2153,2154],{},[35,2155,249],{},[151,2157,2158,2160,2162],{},[154,2159,254],{},[154,2161,257],{},[154,2163,260],{},[15,2165,2166],{},[35,2167,265],{},[151,2169,2170,2172,2174],{},[154,2171,270],{},[154,2173,273],{},[154,2175,276],{},[27,2177,280],{"id":279},[15,2179,283,2180,287],{},[35,2181,286],{},[19,2183,291],{"id":290},[27,2185,295],{"id":294},[69,2187,2188,2200],{},[72,2189,2190],{},[75,2191,2192,2194,2196,2198],{},[78,2193,304],{},[78,2195,307],{},[78,2197,310],{},[78,2199,127],{},[88,2201,2202,2212,2222,2232],{},[75,2203,2204,2206,2208,2210],{},[93,2205,319],{},[93,2207,322],{},[93,2209,119],{},[93,2211,130],{},[75,2213,2214,2216,2218,2220],{},[93,2215,331],{},[93,2217,334],{},[93,2219,122],{},[93,2221,133],{},[75,2223,2224,2226,2228,2230],{},[93,2225,343],{},[93,2227,346],{},[93,2229,119],{},[93,2231,351],{},[75,2233,2234,2236,2238,2240],{},[93,2235,356],{},[93,2237,359],{},[93,2239,122],{},[93,2241,364],{},[15,2243,2244,370],{},[35,2245,369],{},[27,2247,374],{"id":373},[15,2249,377,2250,381],{},[35,2251,380],{},[151,2253,2254,2258,2262,2266],{},[154,2255,2256,388],{},[35,2257,322],{},[154,2259,2260,393],{},[35,2261,334],{},[154,2263,2264,398],{},[35,2265,346],{},[154,2267,2268,403],{},[35,2269,359],{},[15,2271,406,2272,410],{},[35,2273,409],{},[19,2275,414],{"id":413},[15,2277,417],{},[27,2279,421],{"id":420},[15,2281,424,2282,428,2284,432],{},[35,2283,427],{},[35,2285,431],{},[15,2287,2288,438],{},[35,2289,437],{},[27,2291,442],{"id":441},[15,2293,445,2294,449,2296,453],{},[35,2295,448],{},[35,2297,452],{},[15,2299,2300,459],{},[35,2301,458],{},[15,2303,2304,465],{},[35,2305,464],{},[27,2307,469],{"id":468},[15,2309,472,2310,476],{},[35,2311,475],{},[19,2313,480],{"id":479},[15,2315,483,2316,487],{},[35,2317,486],{},[15,2319,2320,493],{},[35,2321,492],{},[15,2323,2324,498],{},[35,2325,369],{},[19,2327,502],{"id":501},[15,2329,505],{},[27,2331,509],{"id":508},[15,2333,512],{},[69,2335,2336,2346],{},[72,2337,2338],{},[75,2339,2340,2342,2344],{},[78,2341,521],{},[78,2343,524],{},[78,2345,527],{},[88,2347,2348,2358,2368],{},[75,2349,2350,2354,2356],{},[93,2351,2352],{},[35,2353,536],{},[93,2355,539],{},[93,2357,542],{},[75,2359,2360,2364,2366],{},[93,2361,2362],{},[35,2363,549],{},[93,2365,552],{},[93,2367,555],{},[75,2369,2370,2374,2376],{},[93,2371,2372],{},[35,2373,562],{},[93,2375,565],{},[93,2377,555],{},[15,2379,2380],{},[35,2381,572],{},[151,2383,2384,2388,2392,2396],{},[154,2385,2386,580],{},[35,2387,579],{},[154,2389,2390,586],{},[35,2391,585],{},[154,2393,2394,586],{},[35,2395,591],{},[154,2397,2398,597],{},[35,2399,596],{},[27,2401,601],{"id":600},[15,2403,604],{},[151,2405,2406,2408,2410],{},[154,2407,609],{},[154,2409,612],{},[154,2411,615],{},[15,2413,618],{},[19,2415,622],{"id":621},[15,2417,625,2418,628],{},[35,2419,37],{},[27,2421,632],{"id":631},[634,2423,2424,2428,2432,2436,2440,2444,2448],{},[154,2425,2426,641],{},[35,2427,640],{},[154,2429,2430,647],{},[35,2431,646],{},[154,2433,2434,652],{},[35,2435,127],{},[154,2437,2438,658],{},[35,2439,657],{},[154,2441,2442,664],{},[35,2443,663],{},[154,2445,2446,670],{},[35,2447,669],{},[154,2449,2450,676],{},[35,2451,675],{},[27,2453,680],{"id":679},[15,2455,2456,686],{},[35,2457,685],{},[151,2459,2460,2462,2464,2466],{},[154,2461,691],{},[154,2463,694],{},[154,2465,697],{},[154,2467,700],{},[19,2469,704],{"id":703},[27,2471,708],{"id":707},[69,2473,2474,2482],{},[72,2475,2476],{},[75,2477,2478,2480],{},[78,2479,717],{},[78,2481,720],{},[88,2483,2484,2490,2496,2502,2508,2514,2520,2526],{},[75,2485,2486,2488],{},[93,2487,727],{},[93,2489,730],{},[75,2491,2492,2494],{},[93,2493,735],{},[93,2495,738],{},[75,2497,2498,2500],{},[93,2499,743],{},[93,2501,746],{},[75,2503,2504,2506],{},[93,2505,751],{},[93,2507,754],{},[75,2509,2510,2512],{},[93,2511,759],{},[93,2513,746],{},[75,2515,2516,2518],{},[93,2517,766],{},[93,2519,769],{},[75,2521,2522,2524],{},[93,2523,774],{},[93,2525,777],{},[75,2527,2528,2532],{},[93,2529,2530],{},[35,2531,784],{},[93,2533,2534],{},[35,2535,789],{},[69,2537,2538,2546],{},[72,2539,2540],{},[75,2541,2542,2544],{},[78,2543,798],{},[78,2545,720],{},[88,2547,2548,2554,2560,2566,2572],{},[75,2549,2550,2552],{},[93,2551,807],{},[93,2553,810],{},[75,2555,2556,2558],{},[93,2557,815],{},[93,2559,818],{},[75,2561,2562,2564],{},[93,2563,823],{},[93,2565,826],{},[75,2567,2568,2570],{},[93,2569,831],{},[93,2571,834],{},[75,2573,2574,2578],{},[93,2575,2576],{},[35,2577,841],{},[93,2579,2580],{},[35,2581,846],{},[69,2583,2584],{},[72,2585,2586],{},[75,2587,2588,2592],{},[78,2589,2590],{},[35,2591,857],{},[78,2593,2594],{},[35,2595,862],{},[27,2597,866],{"id":865},[15,2599,869],{},[19,2601,873],{"id":872},[634,2603,2604,2608,2612,2616,2620,2624],{},[154,2605,2606,881],{},[35,2607,880],{},[154,2609,2610,887],{},[35,2611,886],{},[154,2613,2614,893],{},[35,2615,892],{},[154,2617,2618,899],{},[35,2619,898],{},[154,2621,2622,905],{},[35,2623,904],{},[154,2625,2626,911],{},[35,2627,910],{},[913,2629,2630],{},[15,2631,2632,920],{},[35,2633,919],{},[19,2635,924],{"id":923},[15,2637,927],{},[929,2639],{},[19,2641,934],{"id":933},[151,2643,2644],{},[154,2645,2646],{},[940,2647,943],{"href":942},[151,2649,2650],{},[154,2651,2652],{},[940,2653,951],{"href":950},[19,2655,955],{"id":954},[15,2657,958,2658,961,2660],{},[35,2659,685],{},[940,2661,967],{"href":964,"rel":2662},[966],{"title":969,"searchDepth":970,"depth":970,"links":2664},[2665,2671,2676,2680,2685,2686,2690,2694,2698,2699,2700,2701],{"id":21,"depth":970,"text":22,"children":2666},[2667,2668,2669,2670],{"id":29,"depth":975,"text":30},{"id":41,"depth":975,"text":42},{"id":48,"depth":975,"text":49},{"id":55,"depth":975,"text":56},{"id":62,"depth":970,"text":63,"children":2672},[2673,2674,2675],{"id":66,"depth":975,"text":67},{"id":178,"depth":975,"text":179},{"id":279,"depth":975,"text":280},{"id":290,"depth":970,"text":291,"children":2677},[2678,2679],{"id":294,"depth":975,"text":295},{"id":373,"depth":975,"text":374},{"id":413,"depth":970,"text":414,"children":2681},[2682,2683,2684],{"id":420,"depth":975,"text":421},{"id":441,"depth":975,"text":442},{"id":468,"depth":975,"text":469},{"id":479,"depth":970,"text":480},{"id":501,"depth":970,"text":502,"children":2687},[2688,2689],{"id":508,"depth":975,"text":509},{"id":600,"depth":975,"text":601},{"id":621,"depth":970,"text":622,"children":2691},[2692,2693],{"id":631,"depth":975,"text":632},{"id":679,"depth":975,"text":680},{"id":703,"depth":970,"text":704,"children":2695},[2696,2697],{"id":707,"depth":975,"text":708},{"id":865,"depth":975,"text":866},{"id":872,"depth":970,"text":873},{"id":923,"depth":970,"text":924},{"id":933,"depth":970,"text":934},{"id":954,"depth":970,"text":955},{},{"title":5,"description":1012},[1025,1026,1027,1028,1029,1030,1031,1032],{"id":2706,"title":2707,"articleId":6,"body":2708,"category":1010,"date":1011,"description":3636,"extension":1013,"lastUpdated":1014,"locale":3637,"meta":3638,"navigation":1017,"path":3639,"publishDate":1011,"readTime":1019,"refreshInterval":1020,"seo":3640,"slug":3641,"stem":3642,"tags":3643,"__hash__":3650},"blog\u002Fblog\u002Flaadpaal-arei.nl.md","Laadpaal installeren volgens AREI: De complete gids voor België",{"type":8,"value":2709,"toc":3597},[2710,2713,2716,2720,2723,2727,2734,2738,2741,2745,2748,2752,2755,2759,2763,2826,2831,2842,2847,2855,2859,2918,2923,2934,2939,2950,2954,2961,2965,2969,3032,3038,3041,3048,3070,3077,3081,3084,3088,3099,3105,3109,3120,3125,3130,3134,3141,3145,3152,3157,3162,3166,3169,3173,3176,3228,3233,3258,3262,3265,3275,3278,3282,3288,3292,3333,3337,3342,3356,3360,3364,3438,3491,3506,3510,3513,3517,3555,3559,3562,3564,3568,3576,3583,3587],[11,2711,2707],{"id":2712},"laadpaal-installeren-volgens-arei-de-complete-gids-voor-belgië",[15,2714,2715],{},"De installatie van een laadpaal (wallbox) voor elektrische voertuigen in België is onderworpen aan strikte AREI-voorschriften. Artikel 7.22 van het AREI regelt de specifieke vereisten voor laadinfrastructuur. In deze gids leggen we alle voorschriften, kabelvereisten en beschermingsmaatregelen uit — zodat uw installatie normconform is en de keuring doorstaat.",[19,2717,2719],{"id":2718},"arei-vereisten-voor-laadpaal-art-722","AREI-vereisten voor laadpaal (Art. 7.22)",[15,2721,2722],{},"Het AREI stelt volgende basisvereisten aan laadpaalinstallaties:",[27,2724,2726],{"id":2725},"eigen-kring","Eigen kring",[15,2728,2729,2730,2733],{},"De laadpaal ",[35,2731,2732],{},"moet"," over een eigen, toegewijde kring beschikken. Ze mag niet op een bestaande kring (bijv. stopcontacten in de garage) aangesloten worden. Deze toegewijde kring moet rechtstreeks van de verdeelkast naar de laadpaal lopen.",[27,2735,2737],{"id":2736},"aardlekschakelaar-differentieelbeveiliging","Aardlekschakelaar (differentieelbeveiliging)",[15,2739,2740],{},"Elke laadpaal heeft een eigen aardlekschakelaar (RCD) nodig. Het type aardlekschakelaar hangt af van de laadpaal (meer hierover verderop).",[27,2742,2744],{"id":2743},"automaat-disjoncteur","Automaat (disjoncteur)",[15,2746,2747],{},"Een juist gedimensioneerde automaat (MCB) beschermt de laadpaalkring tegen overbelasting en kortsluiting.",[27,2749,2751],{"id":2750},"overspanningsbeveiliging-spd","Overspanningsbeveiliging (SPD)",[15,2753,2754],{},"Art. 4.5.1 vereist algemeen de bescherming tegen overspanningen volgens de regels van het vak. In de praktijk wordt een centrale SPD in de verdeelkast geïnstalleerd, die alle kringen inclusief de laadpaalkring beschermt tegen overspanningen door blikseminslag of schakelingen in het net.",[19,2756,2758],{"id":2757},"eenfasig-vs-driefasig-welke-laadpaal","Eenfasig vs. driefasig: Welke laadpaal?",[27,2760,2762],{"id":2761},"eenfasig-37-kw-of-74-kw","Eenfasig — 3,7 kW of 7,4 kW",[69,2764,2765,2776],{},[72,2766,2767],{},[75,2768,2769,2772,2774],{},[78,2770,2771],{},"Eigenschap",[78,2773,1104],{},[78,2775,1107],{},[88,2777,2778,2788,2797,2806,2815],{},[75,2779,2780,2783,2786],{},[93,2781,2782],{},"Aansluiting",[93,2784,2785],{},"1-fasig, 230V",[93,2787,2785],{},[75,2789,2790,2793,2795],{},[93,2791,2792],{},"Stroomsterkte",[93,2794,108],{},[93,2796,111],{},[75,2798,2799,2802,2804],{},[93,2800,2801],{},"Kabeldoorsnede",[93,2803,1136],{},[93,2805,122],{},[75,2807,2808,2811,2813],{},[93,2809,2810],{},"Automaat",[93,2812,1145],{},[93,2814,1148],{},[75,2816,2817,2820,2823],{},[93,2818,2819],{},"Laadtijd (50 kWh accu)",[93,2821,2822],{},"~14 uur",[93,2824,2825],{},"~7 uur",[15,2827,2828],{},[35,2829,2830],{},"Voordelen eenfasig:",[151,2832,2833,2836,2839],{},[154,2834,2835],{},"Goedkoper in installatie",[154,2837,2838],{},"Eenvoudigere bedrading",[154,2840,2841],{},"Voldoende voor de meeste huishoudens (nachtlading)",[15,2843,2844],{},[35,2845,2846],{},"Nadelen eenfasig:",[151,2848,2849,2852],{},[154,2850,2851],{},"Beperkt laadvermogen",[154,2853,2854],{},"Bij 7,4 kW: mogelijke scheefbelasting (let op bij aanmelding)",[27,2856,2858],{"id":2857},"driefasig-11-kw-of-22-kw","Driefasig — 11 kW of 22 kW",[69,2860,2861,2871],{},[72,2862,2863],{},[75,2864,2865,2867,2869],{},[78,2866,2771],{},[78,2868,190],{},[78,2870,193],{},[88,2872,2873,2882,2890,2898,2908],{},[75,2874,2875,2877,2880],{},[93,2876,2782],{},[93,2878,2879],{},"3-fasig, 400V",[93,2881,2879],{},[75,2883,2884,2886,2888],{},[93,2885,2792],{},[93,2887,211],{},[93,2889,214],{},[75,2891,2892,2894,2896],{},[93,2893,2801],{},[93,2895,1230],{},[93,2897,224],{},[75,2899,2900,2902,2905],{},[93,2901,2810],{},[93,2903,2904],{},"20A 3-polig type C",[93,2906,2907],{},"32A 3-polig type C",[75,2909,2910,2912,2915],{},[93,2911,2819],{},[93,2913,2914],{},"~5 uur",[93,2916,2917],{},"~2,5 uur",[15,2919,2920],{},[35,2921,2922],{},"Voordelen driefasig:",[151,2924,2925,2928,2931],{},[154,2926,2927],{},"Aanzienlijk sneller laden",[154,2929,2930],{},"Gelijkmatige lastverdeling (geen scheefbelasting)",[154,2932,2933],{},"Toekomstbestendig",[15,2935,2936],{},[35,2937,2938],{},"Nadelen driefasig:",[151,2940,2941,2944,2947],{},[154,2942,2943],{},"Duurdere installatie",[154,2945,2946],{},"Driefasige aansluiting aan verdeelkast nodig",[154,2948,2949],{},"Hogere materiaalkosten (dikkere kabels, duurdere beveiligingstoestellen)",[27,2951,2953],{"id":2952},"onze-aanbeveling","Onze aanbeveling",[15,2955,2956,2957,2960],{},"Voor de meeste eengezinswoningen bevelen we een ",[35,2958,2959],{},"11 kW driefasige laadpaal"," aan. Deze biedt het beste compromis tussen laadvermogen, kosten en toekomstbestendigheid. Een elektrisch voertuig is 's nachts in 4-5 uur volledig opgeladen — dat volstaat voor het dagelijks gebruik.",[19,2962,2964],{"id":2963},"kabel-en-zekering-de-juiste-dimensionering","Kabel en zekering: De juiste dimensionering",[27,2966,2968],{"id":2967},"overzicht-kabeldoorsnedes","Overzicht kabeldoorsnedes",[69,2970,2971,2986],{},[72,2972,2973],{},[75,2974,2975,2978,2981,2984],{},[78,2976,2977],{},"Vermogen",[78,2979,2980],{},"Kabeltype",[78,2982,2983],{},"Doorsnede",[78,2985,2810],{},[88,2987,2988,2999,3010,3021],{},[75,2989,2990,2993,2995,2997],{},[93,2991,2992],{},"3,7 kW (1F, 16A)",[93,2994,1330],{},[93,2996,1136],{},[93,2998,1145],{},[75,3000,3001,3004,3006,3008],{},[93,3002,3003],{},"7,4 kW (1F, 32A)",[93,3005,334],{},[93,3007,122],{},[93,3009,1148],{},[75,3011,3012,3015,3017,3019],{},[93,3013,3014],{},"11 kW (3F, 16A)",[93,3016,1352],{},[93,3018,1136],{},[93,3020,1357],{},[75,3022,3023,3026,3028,3030],{},[93,3024,3025],{},"22 kW (3F, 32A)",[93,3027,359],{},[93,3029,122],{},[93,3031,1368],{},[15,3033,3034,3037],{},[35,3035,3036],{},"Belangrijk:"," Bij lange kabellengtes (>15m) moet de doorsnede mogelijk verhoogd worden om de spanningsval te beperken (AREI Art. 5.2.5 — spanningsverandering; Art. 5.2.1.2b — keuze van de leidingen). Plan de kabelroute vooraf en raadpleeg bij twijfel de spanningsvaltabellen.",[27,3039,2980],{"id":3040},"kabeltype",[15,3042,3043,3044,3047],{},"In België wordt voor vast aangelegde installaties doorgaans ",[35,3045,3046],{},"XVB-kabel"," gebruikt:",[151,3049,3050,3055,3060,3065],{},[154,3051,3052,3054],{},[35,3053,1330],{}," voor eenfasig 16A",[154,3056,3057,3059],{},[35,3058,334],{}," voor eenfasig 32A",[154,3061,3062,3064],{},[35,3063,1352],{}," voor driefasig 16A",[154,3066,3067,3069],{},[35,3068,359],{}," voor driefasig 32A",[15,3071,3072,3073,3076],{},"Bij plaatsing in een Preflex-buis komen ",[35,3074,3075],{},"VOB-afzonderlijke aders"," in aanmerking (H07V-U), waarbij de buis voldoende gedimensioneerd moet zijn.",[19,3078,3080],{"id":3079},"type-aardlekschakelaar-het-belangrijkste-beveiligingstoestel","Type aardlekschakelaar: Het belangrijkste beveiligingstoestel",[15,3082,3083],{},"De keuze van de juiste aardlekschakelaar is bij laadpalen bijzonder belangrijk — en kan aanzienlijke kostenverschillen veroorzaken.",[27,3085,3087],{"id":3086},"type-a-ingebouwde-dc-6ma-sensor-rdc-dd-in-de-laadpaal","Type A + ingebouwde DC-6mA-sensor (RDC-DD in de laadpaal)",[15,3089,3090,3091,3094,3095,3098],{},"Art. 7.22.4 schrijft Type B of gelijkwaardig voor. Type A alleen volstaat NIET — de laadpaal moet bijkomend een ingebouwde DC-6mA-sensor hebben (Type A + RDC-DD in de laadpaal). De meeste moderne laadpalen (bijv. Wallbox Pulsar Plus, ABB Terra, Easee) hebben een dergelijke ",[35,3092,3093],{},"ingebouwde DC-foutstroomsensor (6 mA DC)",". In dat geval volstaat een ",[35,3096,3097],{},"aardlekschakelaar type A (30 mA)",", aangezien de laadpaal zelf de DC-bescherming verzorgt.",[15,3100,3101,3104],{},[35,3102,3103],{},"Kosten type A:"," ~€30-50 (2-polig, eenfasig) of ~€50-80 (4-polig, driefasig)",[27,3106,3108],{"id":3107},"type-b-als-geen-dc-sensor-in-de-laadpaal","Type B (als geen DC-sensor in de laadpaal)",[15,3110,3111,3112,3115,3116,3119],{},"Als uw laadpaal ",[35,3113,3114],{},"geen"," ingebouwde DC-foutstroomsensor heeft, hebt u een ",[35,3117,3118],{},"aardlekschakelaar type B"," nodig. Deze detecteert ook gelijkstroomfoutstromen (DC), die bij AC\u002FDC-laders kunnen optreden.",[15,3121,3122,459],{},[35,3123,3124],{},"Kosten type B:",[15,3126,3127,3129],{},[35,3128,464],{}," Let bij de aankoop van de laadpaal erop dat een DC-foutstroomsensor geïntegreerd is. Dat bespaart u €120-370 op de aardlekschakelaar (type B ~€200-400 in plaats van type A ~€30-80, afhankelijk van het aantal polen)!",[27,3131,3133],{"id":3132},"type-a-si-alternatief","Type A-SI (alternatief)",[15,3135,3136,3137,3140],{},"Sommige fabrikanten bieden ook ",[35,3138,3139],{},"aardlekschakelaar type A-SI"," (selectief, impulsstrombestendig) aan, die bij laadpalen een goede keuze kan zijn om ongewenste uitschakelingen door inschakestromen te vermijden.",[19,3142,3144],{"id":3143},"overspanningsbeveiliging-spd-centraal-voor-de-gehele-installatie","Overspanningsbeveiliging (SPD) — centraal voor de gehele installatie",[15,3146,3147,3148,3151],{},"Art. 4.5.1 vereist algemeen de bescherming tegen overspanningen volgens de regels van het vak. In de praktijk wordt een ",[35,3149,3150],{},"SPD (overspanningsbeveiliging)"," in de verdeelkast geïnstalleerd, die alle aangesloten toestellen inclusief de laadpaal beschermt tegen transiënte overspanningen. Het AREI noemt geen concreet \"Type 2\" — de type-aanduiding stamt uit de productnorm (IEC 61643-11).",[15,3153,3154,493],{},[35,3155,3156],{},"Kosten SPD:",[15,3158,3159,3161],{},[35,3160,3036],{}," De SPD moet met een voorzekering (gR-zekering of MCB) beveiligd worden. Neem de fabrikantvoorschriften in acht.",[19,3163,3165],{"id":3164},"aanmelding-bij-de-netbeheerder","Aanmelding bij de netbeheerder",[15,3167,3168],{},"In België moeten laadpaalinstallaties vanaf een bepaald vermogen bij de bevoegde netbeheerder aangemeld worden:",[27,3170,3172],{"id":3171},"meldplicht-varieert-per-netbeheerder","Meldplicht (varieert per netbeheerder)",[15,3174,3175],{},"De drempelwaarden variëren per netbeheerder. Fluvius vereist een melding vanaf 5 kVA (niet kW — het verschil is relevant bij cos phi ongelijk aan 1). Waarden bij ORES\u002FRESA en Sibelga kunnen afwijken.",[69,3177,3178,3191],{},[72,3179,3180],{},[75,3181,3182,3185,3188],{},[78,3183,3184],{},"Netbeheerder",[78,3186,3187],{},"Regio",[78,3189,3190],{},"Meldplicht",[88,3192,3193,3205,3217],{},[75,3194,3195,3199,3202],{},[93,3196,3197],{},[35,3198,536],{},[93,3200,3201],{},"Vlaanderen",[93,3203,3204],{},"Vanaf 5 kVA",[75,3206,3207,3211,3214],{},[93,3208,3209],{},[35,3210,549],{},[93,3212,3213],{},"Wallonië",[93,3215,3216],{},"Netbeheerderafhankelijk",[75,3218,3219,3223,3226],{},[93,3220,3221],{},[35,3222,562],{},[93,3224,3225],{},"Brussel",[93,3227,3216],{},[15,3229,3230],{},[35,3231,3232],{},"Dit betekent in de praktijk:",[151,3234,3235,3241,3247,3252],{},[154,3236,3237,3240],{},[35,3238,3239],{},"3,7 kW eenfasig:"," In de regel geen aanmelding nodig",[154,3242,3243,3246],{},[35,3244,3245],{},"7,4 kW eenfasig:"," Aanmelding vereist",[154,3248,3249,3246],{},[35,3250,3251],{},"11 kW driefasig:",[154,3253,3254,3257],{},[35,3255,3256],{},"22 kW driefasig:"," Aanmelding vereist + mogelijk netcapaciteitscontrole",[27,3259,3261],{"id":3260},"hoe-aanmelden","Hoe aanmelden?",[15,3263,3264],{},"De aanmelding gebeurt online via het portaal van de desbetreffende netbeheerder:",[151,3266,3267,3269,3272],{},[154,3268,609],{},[154,3270,3271],{},"ORES: via het ORES-klantenportaal",[154,3273,3274],{},"Sibelga: via het Sibelga-portaal",[15,3276,3277],{},"Houd volgende informatie bij de hand: EAN-nummer van uw meter, vermogen van de laadpaal, gewenst installatietijdstip.",[19,3279,3281],{"id":3280},"eendraadschema-actualiseren","Eendraadschema actualiseren",[15,3283,3284,3285,3287],{},"Na de installatie van een laadpaal ",[35,3286,2732],{}," het eendraadschema van uw elektrische installatie geactualiseerd worden. De laadpaal wordt als eigen aftakking in het schema weergegeven:",[27,3289,3291],{"id":3290},"wat-moet-in-het-schema-staan","Wat moet in het schema staan?",[634,3293,3294,3299,3305,3310,3315,3321,3327],{},[154,3295,3296,3298],{},[35,3297,2726],{}," vanaf de verdeelkast",[154,3300,3301,3304],{},[35,3302,3303],{},"Aardlekschakelaar"," met type-aanduiding (A of B)",[154,3306,3307,3309],{},[35,3308,2810],{}," met nominale stroom",[154,3311,3312,3314],{},[35,3313,657],{}," (overspanningsbeveiliging)",[154,3316,3317,3320],{},[35,3318,3319],{},"Laadpaalsymbool"," met vermogensaanduiding",[154,3322,3323,3326],{},[35,3324,3325],{},"Kabelaanduiding"," (bijv. XVB 5G2,5)",[154,3328,3329,3332],{},[35,3330,3331],{},"Fasetoewijzing"," (bij driefasig: L1\u002FL2\u002FL3)",[27,3334,3336],{"id":3335},"planelec-maakt-het-eenvoudig","PlanElec maakt het eenvoudig",[15,3338,3339,3341],{},[35,3340,685],{}," heeft het laadpaalsymbool en de bijbehorende validatie reeds geïntegreerd:",[151,3343,3344,3347,3350,3353],{},[154,3345,3346],{},"Het laadpaalsymbool voldoet aan de AREI-norm",[154,3348,3349],{},"De validatie controleert automatisch: eigen kring, aardlekbeveiliging, SPD-verplichting",[154,3351,3352],{},"De fasetoewijzing kan rechtstreeks ingevuld worden",[154,3354,3355],{},"De PDF-export bevat alle vereiste gegevens",[19,3357,3359],{"id":3358},"voorbeeldinstallatie-met-kostenoverzicht","Voorbeeldinstallatie met kostenoverzicht",[27,3361,3363],{"id":3362},"scenario-11-kw-laadpaal-driefasig-10m-kabellengte","Scenario: 11 kW laadpaal (driefasig), 10m kabellengte",[69,3365,3366,3376],{},[72,3367,3368],{},[75,3369,3370,3373],{},[78,3371,3372],{},"Materiaal",[78,3374,3375],{},"Kosten",[88,3377,3378,3385,3392,3399,3406,3413,3420,3427],{},[75,3379,3380,3383],{},[93,3381,3382],{},"Laadpaal (bijv. Pulsar Plus, met DC-sensor)",[93,3384,730],{},[75,3386,3387,3390],{},[93,3388,3389],{},"XVB 5G2,5 kabel (10m)",[93,3391,738],{},[75,3393,3394,3397],{},[93,3395,3396],{},"Aardlekschakelaar type A 30mA 4-polig (DC-sensor in laadpaal)",[93,3398,746],{},[75,3400,3401,3404],{},[93,3402,3403],{},"Automaat 20A 3-polig type C",[93,3405,754],{},[75,3407,3408,3411],{},[93,3409,3410],{},"SPD type 2 3-polig",[93,3412,746],{},[75,3414,3415,3418],{},[93,3416,3417],{},"Voorzekering SPD",[93,3419,769],{},[75,3421,3422,3425],{},[93,3423,3424],{},"Klein materiaal (klemmen, bevestiging, kabeldoorvoer)",[93,3426,777],{},[75,3428,3429,3434],{},[93,3430,3431],{},[35,3432,3433],{},"Materiaal totaal",[93,3435,3436],{},[35,3437,1773],{},[69,3439,3440,3449],{},[72,3441,3442],{},[75,3443,3444,3447],{},[78,3445,3446],{},"Arbeid",[78,3448,3375],{},[88,3450,3451,3458,3465,3472,3480],{},[75,3452,3453,3456],{},[93,3454,3455],{},"Installatie door elektricien (4-6 uur)",[93,3457,810],{},[75,3459,3460,3463],{},[93,3461,3462],{},"Eendraadschema actualiseren (met PlanElec)",[93,3464,818],{},[75,3466,3467,3470],{},[93,3468,3469],{},"Keuring (indien nodig)",[93,3471,826],{},[75,3473,3474,3477],{},[93,3475,3476],{},"Aanmelding netbeheerder",[93,3478,3479],{},"€0 (gratis)",[75,3481,3482,3487],{},[93,3483,3484],{},[35,3485,3486],{},"Arbeid totaal",[93,3488,3489],{},[35,3490,846],{},[69,3492,3493],{},[72,3494,3495],{},[75,3496,3497,3502],{},[78,3498,3499],{},[35,3500,3501],{},"Totale kosten",[78,3503,3504],{},[35,3505,1842],{},[27,3507,3509],{"id":3508},"bespaartip-materiaal-zelf-kopen","Bespaartip: Materiaal zelf kopen",[15,3511,3512],{},"U kunt aanzienlijk besparen door het materiaal zelf te kopen en alleen de installatie door de elektricien te laten uitvoeren. Let op CE-markering en koop bij gespecialiseerde elektrogroothandels (bijv. Rexel, Cebeo, Solar).",[19,3514,3516],{"id":3515},"veelgemaakte-fouten-vermijden","Veelgemaakte fouten vermijden",[634,3518,3519,3525,3531,3537,3543,3549],{},[154,3520,3521,3524],{},[35,3522,3523],{},"Geen eigen kring:"," De laadpaal op een bestaand stopcontact aansluiten is niet alleen onveilig, maar AREI-strijdig.",[154,3526,3527,3530],{},[35,3528,3529],{},"Verkeerd type aardlekschakelaar:"," Zonder DC-sensor in de laadpaal is een type B dwingend vereist.",[154,3532,3533,3536],{},[35,3534,3535],{},"Ontbrekende SPD:"," De overspanningsbeveiliging wordt vaak vergeten — de keurder merkt het op.",[154,3538,3539,3542],{},[35,3540,3541],{},"Geen geactualiseerd eendraadschema:"," Elke wijziging aan de installatie moet in het schema gedocumenteerd worden.",[154,3544,3545,3548],{},[35,3546,3547],{},"Geen aanmelding bij de netbeheerder:"," Vanaf ca. 5 kVA is de aanmelding verplicht (exacte drempel varieert per netbeheerder).",[154,3550,3551,3554],{},[35,3552,3553],{},"Te dunne kabeldoorsnede:"," Vooral bij lange leidingwegen (>15m) de spanningsval in het oog houden.",[19,3556,3558],{"id":3557},"conclusie","Conclusie",[15,3560,3561],{},"De installatie van een laadpaal in België is goed haalbaar, maar vereist naleving van de AREI-voorschriften volgens artikel 7.22. De belangrijkste punten: eigen kring, juist type aardlekschakelaar, overspanningsbeveiliging (Art. 4.5.1) en een geactualiseerd eendraadschema. Met een zorgvuldige planning en de juiste materialen slaagt u probleemloos voor de keuring.",[929,3563],{},[19,3565,3567],{"id":3566},"gerelateerde-artikelen","Gerelateerde artikelen",[151,3569,3570],{},[154,3571,3572],{},[940,3573,3575],{"href":3574},"\u002Fnl\u002Fblog\u002Fkostenvergelijking-zelf-vs-elektricien","Kostenvergelijking: zelf tekenen vs. elektricien",[151,3577,3578],{},[154,3579,3580],{},[940,3581,1918],{"href":3582},"\u002Fnl\u002Fblog\u002Fplanelec-vs-excel-papier",[19,3584,3586],{"id":3585},"laadpaal-in-het-eendraadschema-documenteren","Laadpaal in het eendraadschema documenteren",[15,3588,3589,3590,3592,3593],{},"Met ",[35,3591,685],{}," voegt u uw laadpaal correct toe aan het eendraadschema — met het juiste AREI-symbool, automatische validatie voor aardlekbeveiliging en SPD en professionele PDF-export. ",[940,3594,3596],{"href":964,"rel":3595},[966],"Nu starten →",{"title":969,"searchDepth":970,"depth":970,"links":3598},[3599,3605,3610,3614,3619,3620,3624,3628,3632,3633,3634,3635],{"id":2718,"depth":970,"text":2719,"children":3600},[3601,3602,3603,3604],{"id":2725,"depth":975,"text":2726},{"id":2736,"depth":975,"text":2737},{"id":2743,"depth":975,"text":2744},{"id":2750,"depth":975,"text":2751},{"id":2757,"depth":970,"text":2758,"children":3606},[3607,3608,3609],{"id":2761,"depth":975,"text":2762},{"id":2857,"depth":975,"text":2858},{"id":2952,"depth":975,"text":2953},{"id":2963,"depth":970,"text":2964,"children":3611},[3612,3613],{"id":2967,"depth":975,"text":2968},{"id":3040,"depth":975,"text":2980},{"id":3079,"depth":970,"text":3080,"children":3615},[3616,3617,3618],{"id":3086,"depth":975,"text":3087},{"id":3107,"depth":975,"text":3108},{"id":3132,"depth":975,"text":3133},{"id":3143,"depth":970,"text":3144},{"id":3164,"depth":970,"text":3165,"children":3621},[3622,3623],{"id":3171,"depth":975,"text":3172},{"id":3260,"depth":975,"text":3261},{"id":3280,"depth":970,"text":3281,"children":3625},[3626,3627],{"id":3290,"depth":975,"text":3291},{"id":3335,"depth":975,"text":3336},{"id":3358,"depth":970,"text":3359,"children":3629},[3630,3631],{"id":3362,"depth":975,"text":3363},{"id":3508,"depth":975,"text":3509},{"id":3515,"depth":970,"text":3516},{"id":3557,"depth":970,"text":3558},{"id":3566,"depth":970,"text":3567},{"id":3585,"depth":970,"text":3586},"Alles over de AREI-vereisten voor laadpaalinstallaties in België: kabeldoorsnede, aardlekbeveiliging, SPD-verplichting, aanmelding bij de netbeheerder en eendraadschema. Met kostenoverzicht.","nl",{},"\u002Fblog\u002Flaadpaal-arei.nl",{"title":2707,"description":3636},"laadpaal-arei","blog\u002Flaadpaal-arei.nl",[3644,1026,1027,3645,3646,3647,3648,3649],"laadpaal","elektrisch voertuig","installatie","aardlekbeveiliging","België","eendraadschema","4dCYfwkvs69Y8gibX43lMQwj39x7Zfj6ZB_kNy7vl9U",{"id":3652,"title":3653,"articleId":6,"body":3654,"category":1010,"date":1011,"description":4589,"extension":1013,"lastUpdated":1014,"locale":4590,"meta":4591,"navigation":1017,"path":4592,"publishDate":1011,"readTime":1019,"refreshInterval":1020,"seo":4593,"slug":4594,"stem":4595,"tags":4596,"__hash__":4604},"blog\u002Fblog\u002Fwallbox-arei.de.md","Wallbox installieren nach AREI: Der komplette Leitfaden für Belgien",{"type":8,"value":3655,"toc":4550},[3656,3659,3662,3666,3669,3673,3680,3684,3687,3691,3694,3698,3701,3705,3709,3774,3779,3790,3795,3803,3807,3866,3871,3882,3887,3898,3902,3909,3913,3917,3978,3984,3987,3994,4016,4023,4027,4030,4034,4045,4051,4055,4066,4071,4077,4081,4088,4092,4099,4103,4108,4112,4115,4119,4122,4173,4178,4203,4207,4210,4221,4224,4228,4234,4238,4279,4283,4288,4302,4306,4310,4382,4435,4450,4454,4457,4461,4499,4507,4511,4514,4516,4520,4528,4536,4540],[11,3657,3653],{"id":3658},"wallbox-installieren-nach-arei-der-komplette-leitfaden-für-belgien",[15,3660,3661],{},"Die Installation einer Wallbox (Ladestation für Elektroautos) in Belgien unterliegt strengen AREI-Vorschriften. Artikel 7.22 des AREI regelt die spezifischen Anforderungen für Ladeinfrastruktur. In diesem Leitfaden erklären wir alle Vorschriften, Kabelanforderungen und Schutzmaßnahmen — damit Ihre Installation normkonform ist und die Keuring besteht.",[19,3663,3665],{"id":3664},"arei-anforderungen-für-wallbox-art-722","AREI-Anforderungen für Wallbox (Art. 7.22)",[15,3667,3668],{},"Das AREI stellt folgende Grundanforderungen an Wallbox-Installationen:",[27,3670,3672],{"id":3671},"eigener-stromkreis","Eigener Stromkreis",[15,3674,3675,3676,3679],{},"Die Wallbox ",[35,3677,3678],{},"muss"," über einen eigenen, dedizierten Stromkreis verfügen. Sie darf nicht an einen bestehenden Stromkreis (z.B. Steckdosen in der Garage) angeschlossen werden. Dieser dedizierte Kreis muss vom Verteilerkasten direkt zur Wallbox führen.",[27,3681,3683],{"id":3682},"fi-schutzschalter-differentialschutz","FI-Schutzschalter (Differentialschutz)",[15,3685,3686],{},"Jede Wallbox benötigt einen eigenen FI-Schutzschalter (RCD). Die Art des FI hängt von der Wallbox ab (mehr dazu weiter unten).",[27,3688,3690],{"id":3689},"leitungsschutzschalter-automaat","Leitungsschutzschalter (Automaat)",[15,3692,3693],{},"Ein entsprechend dimensionierter Leitungsschutzschalter (MCB) schützt den Wallbox-Stromkreis vor Überlast und Kurzschluss.",[27,3695,3697],{"id":3696},"überspannungsschutz-spd","Überspannungsschutz (SPD)",[15,3699,3700],{},"Art. 4.5.1 verlangt allgemein den Schutz vor Überspannungen nach den Regeln des Fachs. In der Praxis wird ein zentraler SPD im Verteilerkasten installiert, der alle Kreise einschließlich des Wallbox-Kreises vor Überspannungen durch Blitzeinschlag oder Schaltvorgänge im Netz schützt.",[19,3702,3704],{"id":3703},"einphasig-vs-dreiphasig-welche-wallbox","Einphasig vs. Dreiphasig: Welche Wallbox?",[27,3706,3708],{"id":3707},"einphasig-37-kw-oder-74-kw","Einphasig — 3,7 kW oder 7,4 kW",[69,3710,3711,3722],{},[72,3712,3713],{},[75,3714,3715,3718,3720],{},[78,3716,3717],{},"Eigenschaft",[78,3719,1104],{},[78,3721,1107],{},[88,3723,3724,3734,3743,3752,3763],{},[75,3725,3726,3729,3732],{},[93,3727,3728],{},"Anschluss",[93,3730,3731],{},"1-phasig, 230V",[93,3733,3731],{},[75,3735,3736,3739,3741],{},[93,3737,3738],{},"Stromstärke",[93,3740,108],{},[93,3742,111],{},[75,3744,3745,3748,3750],{},[93,3746,3747],{},"Kabelquerschnitt",[93,3749,1136],{},[93,3751,122],{},[75,3753,3754,3757,3760],{},[93,3755,3756],{},"Leitungsschutzschalter",[93,3758,3759],{},"20A Typ C",[93,3761,3762],{},"32A Typ C",[75,3764,3765,3768,3771],{},[93,3766,3767],{},"Ladezeit (50 kWh Akku)",[93,3769,3770],{},"~14 Stunden",[93,3772,3773],{},"~7 Stunden",[15,3775,3776],{},[35,3777,3778],{},"Vorteile einphasig:",[151,3780,3781,3784,3787],{},[154,3782,3783],{},"Günstiger in der Installation",[154,3785,3786],{},"Einfachere Verkabelung",[154,3788,3789],{},"Ausreichend für die meisten Haushalte (Nachtladung)",[15,3791,3792],{},[35,3793,3794],{},"Nachteile einphasig:",[151,3796,3797,3800],{},[154,3798,3799],{},"Begrenzte Ladeleistung",[154,3801,3802],{},"Bei 7,4 kW: Schieflast möglich (Achtung bei der Anmeldung)",[27,3804,3806],{"id":3805},"dreiphasig-11-kw-oder-22-kw","Dreiphasig — 11 kW oder 22 kW",[69,3808,3809,3819],{},[72,3810,3811],{},[75,3812,3813,3815,3817],{},[78,3814,3717],{},[78,3816,190],{},[78,3818,193],{},[88,3820,3821,3830,3838,3846,3856],{},[75,3822,3823,3825,3828],{},[93,3824,3728],{},[93,3826,3827],{},"3-phasig, 400V",[93,3829,3827],{},[75,3831,3832,3834,3836],{},[93,3833,3738],{},[93,3835,211],{},[93,3837,214],{},[75,3839,3840,3842,3844],{},[93,3841,3747],{},[93,3843,1230],{},[93,3845,224],{},[75,3847,3848,3850,3853],{},[93,3849,3756],{},[93,3851,3852],{},"20A 3-polig Typ C",[93,3854,3855],{},"32A 3-polig Typ C",[75,3857,3858,3860,3863],{},[93,3859,3767],{},[93,3861,3862],{},"~5 Stunden",[93,3864,3865],{},"~2,5 Stunden",[15,3867,3868],{},[35,3869,3870],{},"Vorteile dreiphasig:",[151,3872,3873,3876,3879],{},[154,3874,3875],{},"Deutlich schnelleres Laden",[154,3877,3878],{},"Gleichmäßige Lastverteilung (keine Schieflast)",[154,3880,3881],{},"Zukunftssicher",[15,3883,3884],{},[35,3885,3886],{},"Nachteile dreiphasig:",[151,3888,3889,3892,3895],{},[154,3890,3891],{},"Teurere Installation",[154,3893,3894],{},"Dreiphasiger Anschluss am Verteilerkasten nötig",[154,3896,3897],{},"Höhere Materialkosten (dickere Kabel, teurere Schutzgeräte)",[27,3899,3901],{"id":3900},"unsere-empfehlung","Unsere Empfehlung",[15,3903,3904,3905,3908],{},"Für die meisten Einfamilienhäuser empfehlen wir eine ",[35,3906,3907],{},"11 kW dreiphasige Wallbox",". Sie bietet den besten Kompromiss zwischen Ladeleistung, Kosten und Zukunftssicherheit. Ein Elektroauto ist über Nacht in 4-5 Stunden vollgeladen — das reicht für den Alltag.",[19,3910,3912],{"id":3911},"kabel-und-sicherung-die-richtige-dimensionierung","Kabel und Sicherung: Die richtige Dimensionierung",[27,3914,3916],{"id":3915},"übersicht-kabelquerschnitte","Übersicht Kabelquerschnitte",[69,3918,3919,3934],{},[72,3920,3921],{},[75,3922,3923,3926,3929,3932],{},[78,3924,3925],{},"Leistung",[78,3927,3928],{},"Kabeltyp",[78,3930,3931],{},"Querschnitt",[78,3933,3756],{},[88,3935,3936,3946,3956,3967],{},[75,3937,3938,3940,3942,3944],{},[93,3939,1327],{},[93,3941,1330],{},[93,3943,1136],{},[93,3945,3759],{},[75,3947,3948,3950,3952,3954],{},[93,3949,1339],{},[93,3951,334],{},[93,3953,122],{},[93,3955,3762],{},[75,3957,3958,3960,3962,3964],{},[93,3959,343],{},[93,3961,1352],{},[93,3963,1136],{},[93,3965,3966],{},"20A 3P Typ C",[75,3968,3969,3971,3973,3975],{},[93,3970,356],{},[93,3972,359],{},[93,3974,122],{},[93,3976,3977],{},"32A 3P Typ C",[15,3979,3980,3983],{},[35,3981,3982],{},"Wichtig:"," Bei langen Kabellängen (>15m) muss der Querschnitt möglicherweise erhöht werden, um den Spannungsabfall zu begrenzen (AREI Art. 5.2.5 — Spannungsänderung; Art. 5.2.1.2b — Wahl der Leitungen). Planen Sie die Kabelstrecke vorab und konsultieren Sie bei Unsicherheit die Spannungsabfalltabellen.",[27,3985,3928],{"id":3986},"kabeltyp",[15,3988,3989,3990,3993],{},"In Belgien wird für fest verlegte Installationen üblicherweise ",[35,3991,3992],{},"XVB-Kabel"," verwendet:",[151,3995,3996,4001,4006,4011],{},[154,3997,3998,4000],{},[35,3999,1330],{}," für einphasig 16A",[154,4002,4003,4005],{},[35,4004,334],{}," für einphasig 32A",[154,4007,4008,4010],{},[35,4009,1352],{}," für dreiphasig 16A",[154,4012,4013,4015],{},[35,4014,359],{}," für dreiphasig 32A",[15,4017,4018,4019,4022],{},"Bei Verlegung in einem Preflex-Rohr kommen ",[35,4020,4021],{},"VOB-Einzeladern"," in Frage (H07V-U), wobei das Rohr ausreichend dimensioniert sein muss.",[19,4024,4026],{"id":4025},"fi-typ-das-wichtigste-schutzgerät","FI-Typ: Das wichtigste Schutzgerät",[15,4028,4029],{},"Die Wahl des richtigen FI-Schutzschalters ist bei Wallboxen besonders wichtig — und kann erhebliche Kostenunterschiede verursachen.",[27,4031,4033],{"id":4032},"typ-a-integrierter-dc-6ma-sensor-rdc-dd-in-der-wallbox","Typ A + integrierter DC-6mA-Sensor (RDC-DD in der Wallbox)",[15,4035,4036,4037,4040,4041,4044],{},"Art. 7.22.4 schreibt Typ B oder gleichwertig vor. Typ A allein reicht NICHT — die Wallbox muss zusätzlich einen integrierten DC-6mA-Sensor haben (Typ A + RDC-DD in der Wallbox). Die meisten modernen Wallboxen (z.B. Wallbox Pulsar Plus, ABB Terra, Easee) haben einen solchen ",[35,4038,4039],{},"integrierten DC-Fehlerstromsensor (6 mA DC)",". In diesem Fall genügt ein ",[35,4042,4043],{},"FI Typ A (30 mA)",", da die Wallbox selbst den DC-Schutz übernimmt.",[15,4046,4047,4050],{},[35,4048,4049],{},"Kosten FI Typ A:"," ~€30-50 (2-polig, einphasig) bzw. ~€50-80 (4-polig, dreiphasig)",[27,4052,4054],{"id":4053},"typ-b-wenn-kein-dc-sensor-in-der-wallbox","Typ B (wenn kein DC-Sensor in der Wallbox)",[15,4056,4057,4058,4061,4062,4065],{},"Wenn Ihre Wallbox ",[35,4059,4060],{},"keinen"," eingebauten DC-Fehlerstromsensor hat, benötigen Sie einen ",[35,4063,4064],{},"FI Typ B",". Dieser erkennt auch Gleichfehlerströme (DC), die bei AC\u002FDC-Ladegeräten auftreten können.",[15,4067,4068,459],{},[35,4069,4070],{},"Kosten FI Typ B:",[15,4072,4073,4076],{},[35,4074,4075],{},"Tipp:"," Achten Sie beim Kauf der Wallbox darauf, dass ein DC-Fehlerstromsensor (RDC-DD) integriert ist. Das spart Ihnen €120-370 beim FI-Schutzschalter (Typ B ~€200-400 statt Typ A ~€30-80, je nach Polzahl)!",[27,4078,4080],{"id":4079},"typ-a-si-alternative","Typ A-SI (Alternative)",[15,4082,4083,4084,4087],{},"Einige Hersteller bieten auch ",[35,4085,4086],{},"FI Typ A-SI"," (selektiv, impulsstromfest) an, der bei Wallboxen eine gute Wahl sein kann, um Fehlauslösungen durch Einschaltströme zu vermeiden.",[19,4089,4091],{"id":4090},"überspannungsschutz-spd-zentral-für-die-gesamte-installation","Überspannungsschutz (SPD) — zentral für die gesamte Installation",[15,4093,4094,4095,4098],{},"Art. 4.5.1 verlangt allgemein den Schutz vor Überspannungen nach den Regeln des Fachs. In der Praxis wird ein ",[35,4096,4097],{},"SPD (Überspannungsschutz)"," im Verteilerkasten installiert, der alle angeschlossenen Geräte einschließlich der Wallbox vor transienten Überspannungen schützt. Das AREI nennt keinen konkreten „Typ 2\" — die Typ-Bezeichnung stammt aus der Produktnorm (IEC 61643-11).",[15,4100,4101,493],{},[35,4102,3156],{},[15,4104,4105,4107],{},[35,4106,3982],{}," Der SPD muss mit einer Vorsicherung (gR-Sicherung oder MCB) abgesichert werden. Beachten Sie die Herstellerangaben.",[19,4109,4111],{"id":4110},"anmeldung-beim-netzbetreiber","Anmeldung beim Netzbetreiber",[15,4113,4114],{},"In Belgien müssen Wallbox-Installationen ab einer bestimmten Leistung beim zuständigen Netzbetreiber angemeldet werden:",[27,4116,4118],{"id":4117},"meldepflicht-variiert-je-nach-netzbetreiber","Meldepflicht (variiert je nach Netzbetreiber)",[15,4120,4121],{},"Die Schwellenwerte variieren je nach Netzbetreiber. Fluvius verlangt eine Meldung ab 5 kVA (nicht kW — der Unterschied ist bei cos phi ungleich 1 relevant). Werte bei ORES\u002FRESA und Sibelga können abweichen.",[69,4123,4124,4136],{},[72,4125,4126],{},[75,4127,4128,4131,4133],{},[78,4129,4130],{},"Netzbetreiber",[78,4132,524],{},[78,4134,4135],{},"Meldepflicht",[88,4137,4138,4150,4162],{},[75,4139,4140,4144,4147],{},[93,4141,4142],{},[35,4143,536],{},[93,4145,4146],{},"Flandern",[93,4148,4149],{},"Ab 5 kVA",[75,4151,4152,4156,4159],{},[93,4153,4154],{},[35,4155,549],{},[93,4157,4158],{},"Wallonien",[93,4160,4161],{},"Netzbetreiberabhängig",[75,4163,4164,4168,4171],{},[93,4165,4166],{},[35,4167,562],{},[93,4169,4170],{},"Brüssel",[93,4172,4161],{},[15,4174,4175],{},[35,4176,4177],{},"Das bedeutet in der Praxis:",[151,4179,4180,4186,4192,4197],{},[154,4181,4182,4185],{},[35,4183,4184],{},"3,7 kW einphasig:"," In der Regel keine Anmeldung nötig",[154,4187,4188,4191],{},[35,4189,4190],{},"7,4 kW einphasig:"," Anmeldung erforderlich",[154,4193,4194,4191],{},[35,4195,4196],{},"11 kW dreiphasig:",[154,4198,4199,4202],{},[35,4200,4201],{},"22 kW dreiphasig:"," Anmeldung erforderlich + möglicherweise Netzkapazitätsprüfung",[27,4204,4206],{"id":4205},"wie-anmelden","Wie anmelden?",[15,4208,4209],{},"Die Anmeldung erfolgt online über das Portal des jeweiligen Netzbetreibers:",[151,4211,4212,4215,4218],{},[154,4213,4214],{},"Fluvius: über Mijn Fluvius",[154,4216,4217],{},"ORES: über das ORES-Kundenportal",[154,4219,4220],{},"Sibelga: über das Sibelga-Portal",[15,4222,4223],{},"Halten Sie folgende Informationen bereit: EAN-Nummer Ihres Zählers, Leistung der Wallbox, gewünschter Installationszeitpunkt.",[19,4225,4227],{"id":4226},"eindrahtschema-aktualisieren","Eindrahtschema aktualisieren",[15,4229,4230,4231,4233],{},"Nach der Installation einer Wallbox ",[35,4232,3678],{}," das Eindrahtschema Ihrer Elektroinstallation aktualisiert werden. Die Wallbox wird als eigener Abzweig im Schema dargestellt:",[27,4235,4237],{"id":4236},"was-muss-im-schema-stehen","Was muss im Schema stehen?",[634,4239,4240,4245,4251,4256,4261,4267,4273],{},[154,4241,4242,4244],{},[35,4243,3672],{}," ab dem Verteilerkasten",[154,4246,4247,4250],{},[35,4248,4249],{},"FI-Schutzschalter"," mit Typ-Angabe (A oder B)",[154,4252,4253,4255],{},[35,4254,3756],{}," mit Nennstrom",[154,4257,4258,4260],{},[35,4259,657],{}," (Überspannungsschutz)",[154,4262,4263,4266],{},[35,4264,4265],{},"Wallbox-Symbol"," mit Leistungsangabe",[154,4268,4269,4272],{},[35,4270,4271],{},"Kabelbezeichnung"," (z.B. XVB 5G2,5)",[154,4274,4275,4278],{},[35,4276,4277],{},"Phasenzuordnung"," (bei dreiphasig: L1\u002FL2\u002FL3)",[27,4280,4282],{"id":4281},"planelec-macht-es-einfach","PlanElec macht es einfach",[15,4284,4285,4287],{},[35,4286,685],{}," hat das Wallbox-Symbol und die zugehörige Validierung bereits integriert:",[151,4289,4290,4293,4296,4299],{},[154,4291,4292],{},"Das Wallbox-Symbol entspricht der AREI-Norm",[154,4294,4295],{},"Die Validierung prüft automatisch: eigener Stromkreis, FI-Schutz, Überspannungsschutz",[154,4297,4298],{},"Die Phasenzuordnung kann direkt eingetragen werden",[154,4300,4301],{},"Der PDF-Export enthält alle erforderlichen Angaben",[19,4303,4305],{"id":4304},"beispiel-installation-mit-kostenübersicht","Beispiel-Installation mit Kostenübersicht",[27,4307,4309],{"id":4308},"szenario-11-kw-wallbox-dreiphasig-10m-kabellänge","Szenario: 11 kW Wallbox (dreiphasig), 10m Kabellänge",[69,4311,4312,4320],{},[72,4313,4314],{},[75,4315,4316,4318],{},[78,4317,717],{},[78,4319,3375],{},[88,4321,4322,4329,4336,4343,4350,4357,4364,4371],{},[75,4323,4324,4327],{},[93,4325,4326],{},"Wallbox (z.B. Pulsar Plus, mit DC-Sensor)",[93,4328,730],{},[75,4330,4331,4334],{},[93,4332,4333],{},"XVB 5G2,5 Kabel (10m)",[93,4335,738],{},[75,4337,4338,4341],{},[93,4339,4340],{},"FI Typ A 30mA 4-polig (da DC-Sensor in Wallbox)",[93,4342,746],{},[75,4344,4345,4348],{},[93,4346,4347],{},"Leitungsschutzschalter 20A 3-polig Typ C",[93,4349,754],{},[75,4351,4352,4355],{},[93,4353,4354],{},"SPD Typ 2 3-polig",[93,4356,746],{},[75,4358,4359,4362],{},[93,4360,4361],{},"Vorsicherung SPD",[93,4363,769],{},[75,4365,4366,4369],{},[93,4367,4368],{},"Kleinmaterial (Klemmen, Befestigung, Kabeldurchführung)",[93,4370,777],{},[75,4372,4373,4378],{},[93,4374,4375],{},[35,4376,4377],{},"Material gesamt",[93,4379,4380],{},[35,4381,1773],{},[69,4383,4384,4393],{},[72,4385,4386],{},[75,4387,4388,4391],{},[78,4389,4390],{},"Arbeit",[78,4392,3375],{},[88,4394,4395,4402,4409,4416,4424],{},[75,4396,4397,4400],{},[93,4398,4399],{},"Installation durch Elektriker (4-6 Std.)",[93,4401,810],{},[75,4403,4404,4407],{},[93,4405,4406],{},"Eindrahtschema aktualisieren (mit PlanElec)",[93,4408,818],{},[75,4410,4411,4414],{},[93,4412,4413],{},"Keuring (wenn nötig)",[93,4415,826],{},[75,4417,4418,4421],{},[93,4419,4420],{},"Anmeldung Netzbetreiber",[93,4422,4423],{},"€0 (kostenlos)",[75,4425,4426,4431],{},[93,4427,4428],{},[35,4429,4430],{},"Arbeit gesamt",[93,4432,4433],{},[35,4434,846],{},[69,4436,4437],{},[72,4438,4439],{},[75,4440,4441,4446],{},[78,4442,4443],{},[35,4444,4445],{},"Gesamtkosten",[78,4447,4448],{},[35,4449,1842],{},[27,4451,4453],{"id":4452},"spartipp-material-selbst-kaufen","Spartipp: Material selbst kaufen",[15,4455,4456],{},"Sie können erheblich sparen, wenn Sie das Material selbst kaufen und nur die Installation vom Elektriker ausführen lassen. Achten Sie auf CE-Kennzeichnung und kaufen Sie bei spezialisierten Elektrogroßhändlern (z.B. Rexel, Cebeo, Solar).",[19,4458,4460],{"id":4459},"häufige-fehler-vermeiden","Häufige Fehler vermeiden",[634,4462,4463,4469,4475,4481,4487,4493],{},[154,4464,4465,4468],{},[35,4466,4467],{},"Kein eigener Stromkreis:"," Die Wallbox an eine bestehende Steckdose anzuschließen ist nicht nur unsicher, sondern AREI-widrig.",[154,4470,4471,4474],{},[35,4472,4473],{},"Falscher FI-Typ:"," Ohne DC-Sensor in der Wallbox ist ein FI Typ B zwingend erforderlich.",[154,4476,4477,4480],{},[35,4478,4479],{},"Fehlender Überspannungsschutz:"," Der Überspannungsschutz (SPD) wird oft vergessen — der Kontrolleur bemängelt es.",[154,4482,4483,4486],{},[35,4484,4485],{},"Kein aktualisiertes Eindrahtschema:"," Jede Änderung an der Installation muss im Schema dokumentiert werden.",[154,4488,4489,4492],{},[35,4490,4491],{},"Keine Anmeldung beim Netzbetreiber:"," Ab ca. 5 kVA ist die Anmeldung Pflicht (genaue Schwelle variiert je nach Netzbetreiber).",[154,4494,4495,4498],{},[35,4496,4497],{},"Zu dünner Kabelquerschnitt:"," Besonders bei langen Leitungswegen (>15m) den Spannungsabfall beachten.",[913,4500,4501],{},[15,4502,4503,4506],{},[35,4504,4505],{},"Erdungshinweis:"," Voraussetzung für eine sichere Wallbox-Installation: Die gesamte Erdungskette (Erdungselektrode, Hauptpotentialausgleich, Schutzleiter) muss intakt sein. Bei älteren Installationen ohne ordnungsgemäße Erdung ist eine Nachbesserung erforderlich.",[19,4508,4510],{"id":4509},"fazit","Fazit",[15,4512,4513],{},"Die Installation einer Wallbox in Belgien ist gut machbar, erfordert aber die Einhaltung der AREI-Vorschriften nach Artikel 7.22. Die wichtigsten Punkte: eigener Stromkreis, richtiger FI-Typ, Überspannungsschutz (Art. 4.5.1) und ein aktualisiertes Eindrahtschema. Mit einer sorgfältigen Planung und den richtigen Materialien bestehen Sie die Keuring problemlos.",[929,4515],{},[19,4517,4519],{"id":4518},"verwandte-artikel","Verwandte Artikel",[151,4521,4522],{},[154,4523,4524],{},[940,4525,4527],{"href":4526},"\u002Fde\u002Fblog\u002Fkostenvergleich-selbst-vs-elektriker","Kostenvergleich: Selbst zeichnen vs. Elektriker",[151,4529,4530],{},[154,4531,4532],{},[940,4533,4535],{"href":4534},"\u002Fde\u002Fblog\u002Fplanelec-vs-excel-papier","PlanElec vs. Excel\u002FPapier",[19,4537,4539],{"id":4538},"wallbox-im-eindrahtschema-dokumentieren","Wallbox im Eindrahtschema dokumentieren",[15,4541,4542,4543,4545,4546],{},"Mit ",[35,4544,685],{}," fügen Sie Ihre Wallbox korrekt ins Eindrahtschema ein — mit dem richtigen AREI-Symbol, automatischer Validierung für FI-Schutz und SPD und professionellem PDF-Export. ",[940,4547,4549],{"href":964,"rel":4548},[966],"Jetzt starten →",{"title":969,"searchDepth":970,"depth":970,"links":4551},[4552,4558,4563,4567,4572,4573,4577,4581,4585,4586,4587,4588],{"id":3664,"depth":970,"text":3665,"children":4553},[4554,4555,4556,4557],{"id":3671,"depth":975,"text":3672},{"id":3682,"depth":975,"text":3683},{"id":3689,"depth":975,"text":3690},{"id":3696,"depth":975,"text":3697},{"id":3703,"depth":970,"text":3704,"children":4559},[4560,4561,4562],{"id":3707,"depth":975,"text":3708},{"id":3805,"depth":975,"text":3806},{"id":3900,"depth":975,"text":3901},{"id":3911,"depth":970,"text":3912,"children":4564},[4565,4566],{"id":3915,"depth":975,"text":3916},{"id":3986,"depth":975,"text":3928},{"id":4025,"depth":970,"text":4026,"children":4568},[4569,4570,4571],{"id":4032,"depth":975,"text":4033},{"id":4053,"depth":975,"text":4054},{"id":4079,"depth":975,"text":4080},{"id":4090,"depth":970,"text":4091},{"id":4110,"depth":970,"text":4111,"children":4574},[4575,4576],{"id":4117,"depth":975,"text":4118},{"id":4205,"depth":975,"text":4206},{"id":4226,"depth":970,"text":4227,"children":4578},[4579,4580],{"id":4236,"depth":975,"text":4237},{"id":4281,"depth":975,"text":4282},{"id":4304,"depth":970,"text":4305,"children":4582},[4583,4584],{"id":4308,"depth":975,"text":4309},{"id":4452,"depth":975,"text":4453},{"id":4459,"depth":970,"text":4460},{"id":4509,"depth":970,"text":4510},{"id":4518,"depth":970,"text":4519},{"id":4538,"depth":970,"text":4539},"Alles über die AREI-Anforderungen für Wallbox-Installationen in Belgien: Kabelquerschnitt, FI-Schutz, Überspannungsschutz, Anmeldung beim Netzbetreiber und Eindrahtschema. Mit Kostenübersicht.","de",{},"\u002Fblog\u002Fwallbox-arei.de",{"title":3653,"description":4589},"wallbox-arei","blog\u002Fwallbox-arei.de",[4597,4598,1027,4599,4600,4601,4602,4603],"Wallbox","Ladestation","Elektroauto","Installation","FI-Schutz","Belgien","Eindrahtschema","AmJjElToA9KPoQ6H--1Vpnh0mkre4hNE9JnAhhcVDNA",1780670245060]