{"id":2140,"date":"2025-08-29T02:37:42","date_gmt":"2025-08-29T02:37:42","guid":{"rendered":"https:\/\/flj-pcb.com\/?page_id=2140"},"modified":"2025-09-25T08:01:12","modified_gmt":"2025-09-25T08:01:12","slug":"heavy-copper-pcb","status":"publish","type":"page","link":"https:\/\/flj-pcb.com\/de_at\/pcb-manufacturer\/heavy-copper-pcb\/","title":{"rendered":"Starke Kupferplatinen f\u00fcr Hochstromanwendungen"},"content":{"rendered":"<div data-elementor-type=\"wp-page\" data-elementor-id=\"2140\" class=\"elementor elementor-2140\" data-elementor-post-type=\"page\">\n\t\t\t\t<div class=\"elementor-element elementor-element-6b3b64b e-flex e-con-boxed e-con e-parent\" data-id=\"6b3b64b\" data-element_type=\"container\">\n\t\t\t\t\t<div class=\"e-con-inner\">\n\t\t\t\t<div class=\"elementor-element elementor-element-45ef605 elementor-widget elementor-widget-text-editor\" data-id=\"45ef605\" data-element_type=\"widget\" data-widget_type=\"text-editor.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t\t\t\t\t\t\t<h1 data-start=\"153\" data-end=\"189\">Was bedeutet \u201cSchwerkupfer-Leiterplatte\u201d?<\/h1><p data-start=\"191\" data-end=\"583\">Gedruckte Schaltungen gibt es in vielen Varianten. Einer dieser Typen ist die Hochstrom-Leiterplatte, auch Starkkupfer-Leiterplatte genannt. Diese Leiterplatten haben n\u00fctzliche Eigenschaften f\u00fcr Anwendungen, die hohe Str\u00f6me und wechselnde Temperaturen erfordern. Hochstromleiterplatten aus Kupfer halten h\u00f6heren Temperaturen l\u00e4nger stand, k\u00f6nnen h\u00f6here Stromst\u00e4rken verarbeiten und bieten st\u00e4rkere L\u00f6tstellen und Anschlusspunkte.<\/p><p data-start=\"191\" data-end=\"583\"><img fetchpriority=\"high\" decoding=\"async\" src=\"https:\/\/flj-pcb.com\/wp-content\/uploads\/2025\/09\/thick-copper-PCB.webp\" alt=\"heavy copper pcb\" width=\"600\" height=\"390\" \/><\/p><h2 data-start=\"585\" data-end=\"615\">Was ist eine Hochstrom-Leiterplatte?<\/h2><p data-start=\"616\" data-end=\"1085\">Eine Hochstromleiterplatte ist eine Leiterplatte, die f\u00fcr eine h\u00f6here kritische Stromdichte ausgelegt ist als eine Standardleiterplatte. Eine Standardplatine kann nur Str\u00f6me im Bereich von einigen zehn Ampere aufnehmen. Eine Hochstromplatine kann Hunderte oder sogar Tausende von Ampere \u00fcbertragen und h\u00e4lt h\u00f6heren Temperaturen \u00fcber l\u00e4ngere Zeitr\u00e4ume stand. Das einzigartige Design dieser Leiterplatten verwendet dickere und schwerere Kupferschichten, was der Leiterplatte eine st\u00e4rkere und haltbarere elektrische und mechanische Leistung verleiht.<\/p><p data-start=\"1087\" data-end=\"1486\">PCBs mit hohem Kupfergehalt enthalten in der Regel mehr als <strong data-start=\"1133\" data-end=\"1171\">3 Unzen Kupfer pro Quadratfu\u00df<\/strong> zur \u00dcbertragung hoher Stromlasten. Auch wenn die Gesamtkupfermenge weniger als 3 oz\/ft\u00b2 betr\u00e4gt, kann eine Leiterplatte als Dickkupferleiterplatte eingestuft werden, wenn die Kupferdicke in kritischen Bereichen mehr als <strong data-start=\"1368\" data-end=\"1380\">4 oz\/ft\u00b2<\/strong>. Diese gro\u00dfe Menge an Kupfer wird verwendet, wenn das Hinzuf\u00fcgen von Breite zu einer Spur nicht m\u00f6glich oder nicht die beste Option ist.<\/p><p data-start=\"1488\" data-end=\"1860\">Bei einer Leiterplatte f\u00fcr einen Gleichstrommotor beispielsweise kann die standardm\u00e4\u00dfige Leiterbahnbreite, die f\u00fcr die erforderliche Leistung erforderlich ist, sehr gro\u00df sein, da die Entwickler thermische Einschr\u00e4nkungen ber\u00fccksichtigen m\u00fcssen. Leiterplatten aus Dickkupfer verwenden stattdessen <strong data-start=\"1679\" data-end=\"1697\">dickere Spuren<\/strong> um die gleiche Strombelastbarkeit bei geringerer Leiterbahnbreite zu erreichen. Dies hilft, Platz auf der Leiterplatte zu sparen und gleichzeitig die thermische und elektrische Leistung beizubehalten.<\/p><p data-start=\"1862\" data-end=\"2225\">Die Kupferdicke von Dickkupferplatten reicht in der Regel von etwa <strong data-start=\"1957\" data-end=\"1977\">105 \u00b5m bis 400 \u00b5m<\/strong>. Neben der h\u00f6heren Kupferdicke sind diese Leiterplatten in der Lage, W\u00e4rme bei hohen Temperaturen abzuleiten und bieten gleichzeitig st\u00e4rkere elektrische Verbindungen. Dieses W\u00e4rmemanagement tr\u00e4gt dazu bei, dass Leiterplatten aus dickem Kupfer bei starker Belastung nicht thermisch belastet werden und ausfallen.<\/p><hr data-start=\"2227\" data-end=\"2230\" \/><h1 data-start=\"2232\" data-end=\"2274\">Vorteile von dickem Kupfer im PCB-Design<\/h1><p data-start=\"2276\" data-end=\"2678\">W\u00e4rmemanagement ist heute wichtiger denn je, da elektronische Ger\u00e4te in raueren Umgebungen und mit h\u00f6heren Str\u00f6men betrieben werden. Leiterplatten mit hohem Kupferanteil (z. B. mit internen und\/oder externen Kupferleitern im Bereich <strong data-start=\"2503\" data-end=\"2528\">5 oz\/ft\u00b2 bis 19 oz\/ft\u00b2<\/strong>, und manchmal definiert als \u00fcber <strong data-start=\"2560\" data-end=\"2572\">4 oz\/ft\u00b2<\/strong>) helfen, die W\u00e4rme von den Bauteilen abzuleiten. Diese Eigenschaft kann durch \u00dcberhitzung verursachte Ausf\u00e4lle erheblich reduzieren.<\/p><p data-start=\"2680\" data-end=\"3032\"><a href=\"https:\/\/flj-pcb.com\/de_at\/pcb-manufacturer\/\">PCB-Hersteller<\/a> verwenden schweres Kupfer, um robuste Leiterplatten zu schaffen. Die daraus resultierenden Leiterplatten bieten eine bessere Leitf\u00e4higkeit und eine h\u00f6here Widerstandsf\u00e4higkeit gegen thermische Belastungen. Diese Leiterplatten k\u00f6nnen auch die gleiche Stromkapazit\u00e4t auf kleinerer Fl\u00e4che erreichen, weil eine einzelne Lage mehr Kupfergewicht tragen kann oder weil mehrere Kupfergewichte auf derselben Lage angeordnet sind.<\/p><p data-start=\"3034\" data-end=\"3079\">Zu den wichtigsten Vorteilen von dickem Kupfer in Leiterplatten geh\u00f6ren:<\/p><ul data-start=\"3080\" data-end=\"3350\"><li data-start=\"3080\" data-end=\"3135\"><p data-start=\"3082\" data-end=\"3135\">Geringere thermische Belastung der Komponenten und der Leiterplatte.<\/p><\/li><li data-start=\"3136\" data-end=\"3177\"><p data-start=\"3138\" data-end=\"3177\">Verbesserte Strombelastbarkeit.<\/p><\/li><li data-start=\"3178\" data-end=\"3241\"><p data-start=\"3180\" data-end=\"3241\">F\u00e4higkeit, wiederholte Temperaturwechsel ohne Schaden zu \u00fcberstehen.<\/p><\/li><li data-start=\"3242\" data-end=\"3350\"><p data-start=\"3244\" data-end=\"3350\">Geringere Gr\u00f6\u00dfe der fertigen Leiterplatte bei einigen Designs, da durch das Stapeln von Kupfer weniger Lagen erforderlich sind.<\/p><\/li><\/ul><h3 data-start=\"3352\" data-end=\"3392\">Wer profitiert von Schwerkupfer-PCBs?<\/h3><p data-start=\"3393\" data-end=\"3455\">Zu den Branchen, die eindeutig von Starkkupfer profitieren, geh\u00f6ren:<\/p><ul data-start=\"3456\" data-end=\"3630\"><li data-start=\"3456\" data-end=\"3481\"><p data-start=\"3458\" data-end=\"3481\">Milit\u00e4r und Verteidigung.<\/p><\/li><li data-start=\"3482\" data-end=\"3497\"><p data-start=\"3484\" data-end=\"3497\">Automobilindustrie.<\/p><\/li><li data-start=\"3498\" data-end=\"3559\"><p data-start=\"3500\" data-end=\"3559\">Solarmodulsysteme (PV-Wechselrichter und zugeh\u00f6rige Ausr\u00fcstung).<\/p><\/li><li data-start=\"3560\" data-end=\"3596\"><p data-start=\"3562\" data-end=\"3596\">Hersteller von Schwei\u00dfger\u00e4ten.<\/p><\/li><li data-start=\"3597\" data-end=\"3630\"><p data-start=\"3599\" data-end=\"3630\">Industrielle Kontrollger\u00e4te.<\/p><\/li><\/ul><p data-start=\"3632\" data-end=\"3934\">In diesen Branchen werden h\u00e4ufig Leiterplatten ben\u00f6tigt, die eine hohe W\u00e4rmeabgabe bew\u00e4ltigen k\u00f6nnen und eine zuverl\u00e4ssige Stromverteilung bieten. Stark verkupferte Durchgangsl\u00f6cher eignen sich besonders gut f\u00fcr die Ableitung von W\u00e4rme zu externen K\u00fchlk\u00f6rpern. Eine gute Stromverteilung ist f\u00fcr eine hohe Zuverl\u00e4ssigkeit unerl\u00e4sslich, und schweres Kupfer tr\u00e4gt dazu bei, sie zu erreichen.<\/p><p data-start=\"3632\" data-end=\"3934\"><img decoding=\"async\" src=\"https:\/\/flj-pcb.com\/wp-content\/uploads\/2025\/09\/Thick-copper-PCBs-for-industrial-control-applications.webp\" alt=\"heavy copper pcb for industrial control applications\" width=\"600\" height=\"450\" \/><\/p><p data-start=\"3936\" data-end=\"4243\">Schweres Kupfer ist nicht neu. Das Verfahren wird seit vielen Jahren eingesetzt, um die anspruchsvollen Anforderungen des Milit\u00e4rs und der Verteidigung zu erf\u00fcllen, z. B. bei Waffenkontrollsystemen. Jetzt verlangen auch die g\u00e4ngigen Elektronikhersteller eine bessere W\u00e4rmeabfuhr. Daher ist Starkkupfer auch in nicht-milit\u00e4rischen Anwendungen immer h\u00e4ufiger anzutreffen.<\/p><hr data-start=\"4245\" data-end=\"4248\" \/><h1 data-start=\"4250\" data-end=\"4285\">Wie schweres Kupfer hergestellt und verwendet wird<\/h1><p data-start=\"4287\" data-end=\"4667\">Leiterplatten aus dickem Kupfer werden in der Regel durch eine Kombination aus <strong data-start=\"4342\" data-end=\"4360\">Galvanik<\/strong> und <strong data-start=\"4365\" data-end=\"4376\">\u00c4tzen<\/strong> Prozesse. Ziel ist es, die Kupferdicke nicht nur auf flachen Leiterbahnen zu erh\u00f6hen, sondern auch auf <strong data-start=\"4469\" data-end=\"4486\">\u00fcber Seitenw\u00e4nde<\/strong> und <strong data-start=\"4491\" data-end=\"4507\">plattierte L\u00f6cher<\/strong>. Wenn eine Leiterplatte vielen Produktionszyklen ausgesetzt ist, k\u00f6nnen die galvanischen L\u00f6cher verschlei\u00dfen oder schw\u00e4cher werden. Das Hinzuf\u00fcgen von schwerem Kupfer st\u00e4rkt diese L\u00f6cher und verbessert die Zuverl\u00e4ssigkeit.<\/p><p data-start=\"4669\" data-end=\"4878\">Mit einer Platine aus schwerem Kupfer k\u00f6nnen Sie Hochstrom- oder Hochleistungsbereiche und Steuer- oder Signalschaltungen auf derselben Platine kombinieren. Dadurch werden in einigen Systemen separate Stromversorgungsplatinen oder sperrige externe Verdrahtungen \u00fcberfl\u00fcssig.<\/p><p data-start=\"4880\" data-end=\"5365\">PHILIFAST arbeitet mit seinen Kunden zusammen, um deren Bed\u00fcrfnisse zu ermitteln und zu verstehen. Wir stimmen die Verfahren zur Herstellung von Dickkupfer auf diese Bed\u00fcrfnisse ab. So ist es beispielsweise wichtig, die Art der Bauteile zu kennen, wie viele Schichten erforderlich sind und welche Materialien verwendet werden m\u00fcssen. PHILIFAST kann einen Kostenvoranschlag erstellen und die Vor- und Nachteile der Verwendung von Schwerstkupfer erl\u00e4utern. Die Fortschritte in der Technologie haben Verfahren erm\u00f6glicht, die sowohl die Galvanisierung als auch das Kantenfr\u00e4sen oder -schleifen nutzen, um die erforderliche Kupferdicke und Ebenheit zu erreichen.<\/p><hr data-start=\"5367\" data-end=\"5370\" \/><h1 data-start=\"5372\" data-end=\"5423\">Kupferst\u00e4rkewerte, die in Dickkupfer-Leiterplatten verwendet werden<\/h1><p data-start=\"5425\" data-end=\"5466\">In der Praxis werden Sie Folgendes finden:<\/p><ul data-start=\"5467\" data-end=\"5999\"><li data-start=\"5467\" data-end=\"5552\"><p data-start=\"5469\" data-end=\"5552\">Typisch <strong data-start=\"5477\" data-end=\"5493\">schweres Kupfer<\/strong> Die Dickenwerte fallen in den Bereich <strong data-start=\"5529\" data-end=\"5549\">105 \u00b5m bis 400 \u00b5m<\/strong>.<\/p><\/li><li data-start=\"5553\" data-end=\"5806\"><p data-start=\"5555\" data-end=\"5806\">Schweres Kupfer wird \u00fcblicherweise beschrieben in <strong data-start=\"5593\" data-end=\"5619\">Unzen pro Quadratfu\u00df<\/strong> oder <strong data-start=\"5623\" data-end=\"5658\">Unzen pro Quadratfu\u00df (oz\/ft\u00b2)<\/strong>, oder in der Leiterplattenindustrie allgemeiner als <strong data-start=\"5700\" data-end=\"5736\">Unze pro Quadratfu\u00df oder Unze pro ft\u00b2<\/strong>, viele Anbieter verwenden jedoch <strong data-start=\"5764\" data-end=\"5786\">Unze pro Quadratfu\u00df<\/strong> oder in \u00b5m umrechnen.<\/p><\/li><li data-start=\"5807\" data-end=\"5999\"><p data-start=\"5809\" data-end=\"5999\">Standard-Kupfergewichte wie <strong data-start=\"5838\" data-end=\"5846\">1 Unze<\/strong> entsprechen in etwa <strong data-start=\"5869\" data-end=\"5881\">34-35 \u00b5m<\/strong> der Kupferdicke f\u00fcr eine einzelne Seite, aber die fertige Dicke h\u00e4ngt von der Beschichtung, der Oberfl\u00e4chenbehandlung und der Laminierung ab.<\/p><\/li><\/ul><p data-start=\"6001\" data-end=\"6192\">Wenn Durchkontaktierungen und Durchgangsl\u00f6cher plattiert und dann verdickt werden, k\u00f6nnen sowohl das Lochkupfer als auch das Oberfl\u00e4chenkupfer ansteigen, wenn nicht besondere Ma\u00dfnahmen ergriffen werden, um die Plattierung nur im gebohrten Loch zu kontrollieren.<\/p><hr data-start=\"6194\" data-end=\"6197\" \/><h1 data-start=\"6199\" data-end=\"6275\">Leiterplattendicke und Kupfergewicht - Auswirkungen auf das Design und die Herstellung von Leiterplatten<\/h1><p data-start=\"6277\" data-end=\"6845\">Wenn Sie Bretter aus Rohmaterial zuschneiden, gibt es zwei Hauptprobleme <strong data-start=\"6338\" data-end=\"6357\">Plattendicke<\/strong> und <strong data-start=\"6362\" data-end=\"6379\">Kupfergewicht<\/strong>. F\u00fcr Rohplattenst\u00e4rken \u00fcber <strong data-start=\"6413\" data-end=\"6423\">0,8 mm<\/strong>, wird in der Regel eine Reihe von Standarddicken verwendet: <strong data-start=\"6473\" data-end=\"6519\">1,0 mm, 1,2 mm, 1,6 mm, 2,0 mm und 3,2 mm<\/strong>. F\u00fcr Dicken unter <strong data-start=\"6543\" data-end=\"6553\">0,8 mm<\/strong>, Diese werden nicht als Standardserie angesehen. D\u00fcnne Plattenst\u00e4rken sind oft kundenspezifisch. \u00dcbliche Werte f\u00fcr d\u00fcnne Kerndicken, die f\u00fcr Innenschichten verwendet werden, sind: <strong data-start=\"6711\" data-end=\"6766\">0,1 mm, 0,15 mm, 0,2 mm, 0,3 mm, 0,4 mm und 0,6 mm<\/strong>. Diese d\u00fcnnen Kernmaterialien werden haupts\u00e4chlich als Innenlagen von Mehrlagenleiterplatten verwendet.<\/p><p data-start=\"6277\" data-end=\"6845\"><img decoding=\"async\" src=\"https:\/\/flj-pcb.com\/wp-content\/uploads\/2025\/09\/thick-copper-PCBs-design.webp\" alt=\"heavy copper pcb design\" width=\"700\" height=\"393\" \/><\/p><p data-start=\"6847\" data-end=\"6999\">Wenn Sie die Au\u00dfenschicht entwerfen und eine fertige Plattendicke w\u00e4hlen, m\u00fcssen Sie die zus\u00e4tzliche Dicke ber\u00fccksichtigen, die w\u00e4hrend der Produktion hinzugef\u00fcgt wird. Dazu geh\u00f6ren:<\/p><ul data-start=\"7000\" data-end=\"7243\"><li data-start=\"7000\" data-end=\"7069\"><p data-start=\"7002\" data-end=\"7069\">Galvanisch aufgebrachte Kupferdicke w\u00e4hrend der Durchkontaktierung und der Lochbeschichtung.<\/p><\/li><li data-start=\"7070\" data-end=\"7096\"><p data-start=\"7072\" data-end=\"7096\">Dicke der L\u00f6tmaske.<\/p><\/li><li data-start=\"7097\" data-end=\"7203\"><p data-start=\"7099\" data-end=\"7203\">Dicke der Oberfl\u00e4chenbeschichtung (z. B. Hei\u00dfluftl\u00f6tung, ENIG-Vergoldung oder andere Beschichtungen).<\/p><\/li><li data-start=\"7204\" data-end=\"7243\"><p data-start=\"7206\" data-end=\"7243\">Seidenraster- und Kohletintenst\u00e4rke.<\/p><\/li><\/ul><p data-start=\"7245\" data-end=\"7475\">In der Praxis ist eine nackte, fertige Platte etwa um die folgende Dicke dicker <strong data-start=\"7305\" data-end=\"7320\">0,05-0,1 mm<\/strong> als der Kernrohstoff aufgrund dieser Zus\u00e4tze. Bretter mit Zinnbeschichtung weisen in der Regel eine gr\u00f6\u00dfere Enddicke auf, etwa <strong data-start=\"7457\" data-end=\"7474\">0,075-0,15 mm<\/strong>.<\/p><p data-start=\"7477\" data-end=\"7489\">Zum Beispiel:<\/p><ul data-start=\"7490\" data-end=\"8033\"><li data-start=\"7490\" data-end=\"7729\"><p data-start=\"7492\" data-end=\"7729\">Wenn Ihre Anforderung an die fertige Platte lautet <strong data-start=\"7530\" data-end=\"7540\">2,0 mm<\/strong>, und Sie w\u00e4hlen <strong data-start=\"7557\" data-end=\"7567\">2,0 mm<\/strong> Rohkernmaterials in der Zuschnittphase liegt die fertige Platte in der Regel zwischen <strong data-start=\"7661\" data-end=\"7682\">2,1 mm und 2,3 mm<\/strong> nach Fertigungstoleranzen und Verarbeitung.<\/p><\/li><li data-start=\"7730\" data-end=\"8033\"><p data-start=\"7732\" data-end=\"8033\">Wenn Ihr Entwurf unbedingt erfordert, dass die fertige Platte <strong data-start=\"7792\" data-end=\"7815\">nicht mehr als 2,0 mm<\/strong>, sollten Sie eine nicht standardisierte Rohtafel von <strong data-start=\"7863\" data-end=\"7873\">1,9 mm<\/strong> f\u00fcr die Herstellung. In diesem Fall muss der Verarbeiter nicht genormtes Material bei einem Rohstofflieferanten bestellen, was in der Regel die Lieferfrist verl\u00e4ngert.<\/p><\/li><\/ul><p data-start=\"8035\" data-end=\"8452\">F\u00fcr den Aufbau der inneren Schicht k\u00f6nnen Sie die endg\u00fcltige Schichtdicke durch die Wahl verschiedener <strong data-start=\"8132\" data-end=\"8143\">Prepreg<\/strong> Dicken und durch \u00c4nderung des Lagenaufbaus. Die Wahl des Kerns ist flexibel. Zum Beispiel kann man zum Erreichen eines <strong data-start=\"8244\" data-end=\"8254\">1,6 mm<\/strong> endg\u00fcltige Dicke, k\u00f6nnten Sie eine <strong data-start=\"8291\" data-end=\"8301\">1,2 mm<\/strong> Kern oder ein <strong data-start=\"8312\" data-end=\"8322\">1,0 mm<\/strong> Kern in Kombination mit geeigneten Prepreg-Schichten, solange die Endlaminierung die Dicke des fertigen Materials in einem akzeptablen Bereich h\u00e4lt.<\/p><hr data-start=\"8454\" data-end=\"8457\" \/><h1 data-start=\"8459\" data-end=\"8503\">Toleranz bei der Plattendicke - was ist zu erwarten?<\/h1><p data-start=\"8505\" data-end=\"8666\">Leiterplattendesigner m\u00fcssen die Dickentoleranz der fertigen Leiterplatte zusammen mit den Toleranzen bei der Produktmontage ber\u00fccksichtigen. Die wichtigsten Faktoren, die zur Abweichung der Enddicke beitragen, sind:<\/p><ol data-start=\"8667\" data-end=\"8865\"><li data-start=\"8667\" data-end=\"8719\"><p data-start=\"8670\" data-end=\"8719\">Rohmaterialtoleranz des Plattenlieferanten.<\/p><\/li><li data-start=\"8720\" data-end=\"8809\"><p data-start=\"8723\" data-end=\"8809\">Kaschierverfahrenstoleranz, wenn mehrere Schichten und Prepregs zusammengepresst werden.<\/p><\/li><li data-start=\"8810\" data-end=\"8865\"><p data-start=\"8813\" data-end=\"8865\">Zus\u00e4tzliche Dicke durch Au\u00dfenschicht aus Kupfer und Beschichtung.<\/p><\/li><\/ol><p data-start=\"8867\" data-end=\"8944\">Typische Toleranzen f\u00fcr die Rohmaterialdicke, die h\u00e4ufig f\u00fcr g\u00e4ngige Platten angegeben werden, sind:<\/p><ul data-start=\"8945\" data-end=\"9085\"><li data-start=\"8945\" data-end=\"8981\"><p data-start=\"8947\" data-end=\"8981\">F\u00fcr <strong data-start=\"8951\" data-end=\"8965\">0,8-1,0 mm<\/strong>: \u00b1<strong data-start=\"8968\" data-end=\"8978\">0,1 mm<\/strong>.<\/p><\/li><li data-start=\"8982\" data-end=\"9019\"><p data-start=\"8984\" data-end=\"9019\">F\u00fcr <strong data-start=\"8988\" data-end=\"9002\">1,2-1,6 mm<\/strong>: \u00b1<strong data-start=\"9005\" data-end=\"9016\">0,13 mm<\/strong>.<\/p><\/li><li data-start=\"9020\" data-end=\"9053\"><p data-start=\"9022\" data-end=\"9053\">F\u00fcr <strong data-start=\"9026\" data-end=\"9036\">2,0 mm<\/strong>: \u00b1<strong data-start=\"9039\" data-end=\"9050\">0,18 mm<\/strong>.<\/p><\/li><li data-start=\"9054\" data-end=\"9085\"><p data-start=\"9056\" data-end=\"9085\">F\u00fcr <strong data-start=\"9060\" data-end=\"9070\">3,0 mm<\/strong>: \u00b1<strong data-start=\"9073\" data-end=\"9084\">0,23 mm<\/strong>.<\/p><\/li><\/ul><p data-start=\"9087\" data-end=\"9406\">Die Kaschierungstoleranz h\u00e4ngt von der Anzahl der Schichten und der Gesamtdicke ab. Sie wird in der Regel innerhalb folgender Grenzen kontrolliert <strong data-start=\"9201\" data-end=\"9219\">\u00b1(0,05-0,1) mm<\/strong>. Leiterplatten mit Randsteckverbindern oder Kartenrandkontakten (z. B. ein gedruckter Kartenrand f\u00fcr einen Steckverbinder) erfordern eine sorgf\u00e4ltige Auswahl der Dicke und der Toleranzen, um den Steckverbinderspezifikationen zu entsprechen.<\/p><hr data-start=\"9408\" data-end=\"9411\" \/><h1 data-start=\"9413\" data-end=\"9461\">Oberfl\u00e4chenkupferst\u00e4rke und Beschichtungsstandards<\/h1><p data-start=\"9463\" data-end=\"9692\">Via-Kupfer und Lochkupfer werden durch chemische Abscheidung und anschlie\u00dfende galvanische Abscheidung hergestellt. Wenn Sie die Dicke der galvanischen L\u00f6cher erh\u00f6hen, nimmt auch die Dicke des Oberfl\u00e4chenkupfers zu, es sei denn, Sie ergreifen besondere Kontrollma\u00dfnahmen.<\/p><p data-start=\"9694\" data-end=\"9789\">Nach Angaben von <strong data-start=\"9707\" data-end=\"9721\">IPC-A-600G<\/strong> Norm betr\u00e4gt die Mindestkupferschichtdicke f\u00fcr plattierte L\u00f6cher:<\/p><ul data-start=\"9790\" data-end=\"9879\"><li data-start=\"9790\" data-end=\"9841\"><p data-start=\"9792\" data-end=\"9841\">F\u00fcr Arbeiten der Klassen 1 und 2: <strong data-start=\"9829\" data-end=\"9838\">20 \u00b5m<\/strong>.<\/p><\/li><li data-start=\"9842\" data-end=\"9879\"><p data-start=\"9844\" data-end=\"9879\">F\u00fcr Arbeiten der Klasse 3: <strong data-start=\"9869\" data-end=\"9878\">25 \u00b5m<\/strong>.<\/p><\/li><\/ul><p data-start=\"9881\" data-end=\"10529\">Wenn Sie ein Kupfergewicht von <strong data-start=\"9917\" data-end=\"9925\">1 Unze<\/strong>, erinnern, dass <strong data-start=\"9941\" data-end=\"9949\">1 Unze<\/strong> entspricht in der Regel einer Mindestdicke der Rohfolie in bestimmten Systemen, und die fertige Dicke nach der Beschichtung kann h\u00f6her sein. Wenn zum Beispiel die Rohfolienoption ein Minimum von <strong data-start=\"10132\" data-end=\"10143\">15,4 \u00b5m<\/strong> f\u00fcr ein nominales 1-Unzen-Material in einigen Herstellungsspezifikationen, nach Ber\u00fccksichtigung <strong data-start=\"10225\" data-end=\"10235\">2-3 \u00b5m<\/strong> des m\u00f6glichen Toleranzverlustes, k\u00f6nnte das Minimum erreichen <strong data-start=\"10288\" data-end=\"10299\">33,4 \u00b5m<\/strong> in der Praxis. Wenn Sie ein h\u00f6heres Rohmaterial oder ein h\u00f6heres Beschichtungsziel w\u00e4hlen, kann die fertige Kupferdicke bis zu <strong data-start=\"10408\" data-end=\"10419\">47,9 \u00b5m<\/strong> oder mehr, je nach Herstellungsweg. Andere Kupferdickenwerte folgen \u00e4hnlichen Berechnungsregeln.<\/p><hr data-start=\"10531\" data-end=\"10534\" \/><h1 data-start=\"10536\" data-end=\"10585\">Wie w\u00e4hlt man die Leiterplattendicke - was ist Standard?<\/h1><p data-start=\"10587\" data-end=\"10814\">F\u00fcr Leiterplattenrohlinge (Rohplatten) gibt es keine weltweit einheitliche Dicke. Marktkonventionen und Nachfrage machen jedoch bestimmte Dicken zum Standard. Durch Stapeln mehrerer Prepregs und Kerne k\u00f6nnen Sie eine gr\u00f6\u00dfere Dicke der fertigen Leiterplatte erreichen.<\/p><p data-start=\"10816\" data-end=\"10863\">\u00dcbliche Standarddicken f\u00fcr fertige Platten sind:<\/p><ul data-start=\"10864\" data-end=\"10945\"><li data-start=\"10864\" data-end=\"10891\"><p data-start=\"10866\" data-end=\"10891\"><strong data-start=\"10866\" data-end=\"10888\">0,031 Zoll (0,78 mm)<\/strong>.<\/p><\/li><li data-start=\"10892\" data-end=\"10919\"><p data-start=\"10894\" data-end=\"10919\"><strong data-start=\"10894\" data-end=\"10916\">0,062 Zoll (1,57 mm)<\/strong>.<\/p><\/li><li data-start=\"10920\" data-end=\"10945\"><p data-start=\"10922\" data-end=\"10945\"><strong data-start=\"10922\" data-end=\"10944\">0,093 Zoll (2,36 mm)<\/strong>.<\/p><\/li><\/ul><p data-start=\"10947\" data-end=\"11317\">Die gebr\u00e4uchlichste fertige Dicke in der allgemeinen Elektronik ist <strong data-start=\"11008\" data-end=\"11019\">1,57 mm<\/strong> oder <strong data-start=\"11023\" data-end=\"11035\">0,062 Zoll<\/strong>. Aber die Benutzer und die spezifischen Anwendungen bestimmen, welche Dicke f\u00fcr eine Produktlinie Standard ist. Fr\u00fcher wurde Sperrholz als Tr\u00e4germaterial verwendet, und die Platten waren dicker. Mit der Zeit wurden bessere Optionen wie Epoxidglas (FR-4) zum Standard und erm\u00f6glichten eine bessere Kontrolle \u00fcber die fertige Dicke.<\/p><hr data-start=\"11319\" data-end=\"11322\" \/><h1 data-start=\"11324\" data-end=\"11377\">Faktoren, die die Leiterplattendicke und das Kupfergewicht beeinflussen<\/h1><p data-start=\"11379\" data-end=\"11476\">Bei der Planung der Plattendicke und des Kupfergewichts sind diese Design- und Fertigungsfaktoren zu ber\u00fccksichtigen:<\/p><ol data-start=\"11478\" data-end=\"12191\"><li data-start=\"11478\" data-end=\"11562\"><p data-start=\"11481\" data-end=\"11562\"><strong data-start=\"11481\" data-end=\"11503\">Wichtigste Kostenfaktoren<\/strong>Kosten: Die Gr\u00f6\u00dfe der Platte und die Anzahl der Schichten bestimmen weitgehend die Kosten.<\/p><\/li><li data-start=\"11563\" data-end=\"11650\"><p data-start=\"11566\" data-end=\"11650\"><strong data-start=\"11566\" data-end=\"11584\">PCB-Komplexit\u00e4t<\/strong>Die Anzahl der Lagen und die Anzahl der Durchkontaktierungen beeinflussen sowohl die Dicke als auch die Kosten.<\/p><\/li><li data-start=\"11651\" data-end=\"11774\"><p data-start=\"11654\" data-end=\"11774\"><strong data-start=\"11654\" data-end=\"11672\">Verwendete Materialien<\/strong>: W\u00e4hlen Sie die Materialien nach der Betriebsgeschwindigkeit, der Betriebsfrequenz und der maximalen Betriebstemperatur aus.<\/p><\/li><li data-start=\"11775\" data-end=\"11918\"><p data-start=\"11778\" data-end=\"11918\"><strong data-start=\"11778\" data-end=\"11803\">Betriebsumgebung<\/strong>Die Wahl der Dicke h\u00e4ngt davon ab, ob die Platte hohen Temperaturen, Feuchtigkeit oder mechanischen Belastungen standhalten muss.<\/p><\/li><li data-start=\"11919\" data-end=\"12060\"><p data-start=\"11922\" data-end=\"12060\"><strong data-start=\"11922\" data-end=\"11947\">Produktionsfaktoren<\/strong>Lochgr\u00f6\u00dfen und -anzahl, Kupfergewicht und Oberfl\u00e4chenbehandlung beeinflussen die Plattendicke und das Endergebnis.<\/p><\/li><li data-start=\"12061\" data-end=\"12191\"><p data-start=\"12064\" data-end=\"12191\"><strong data-start=\"12064\" data-end=\"12127\">Verkleidungsmethode, Abstand zwischen den Platten und Geometrie der Leiterbahnen<\/strong>: Sie wirken sich auf den Arbeitsablauf, die Herstellbarkeit und die endg\u00fcltigen Abmessungen aus.<\/p><\/li><\/ol><hr data-start=\"12193\" data-end=\"12196\" \/><h1 data-start=\"12198\" data-end=\"12251\">Wie man die Kupferdicke und Leiterbahnbreite von Leiterplatten festlegt<\/h1><p data-start=\"12253\" data-end=\"12783\">Sie k\u00f6nnen eine <strong data-start=\"12267\" data-end=\"12293\">Leiterbahnbreiten-Rechner<\/strong> um die f\u00fcr einen bestimmten Strom erforderliche Kupferdicke und Leiterbahnbreite zu bestimmen. Das Tool funktioniert wie ein normaler Taschenrechner: Sie geben den Strom, den zul\u00e4ssigen Temperaturanstieg, das Kupfergewicht, die Leiterplattendicke und andere Spezifikationen ein, und der Rechner liefert die erforderliche Leiterbahnbreite und Kupferdicke. Viele Rechner bieten eine Genauigkeit von bis zu <strong data-start=\"12628\" data-end=\"12639\">0,01 mm<\/strong> f\u00fcr genaue Ergebnisse. Wenn Ihre Anwendung erfordert, dass die fertige Dicke unter einem bestimmten Grenzwert bleibt, planen Sie entsprechend und passen Sie die Stapelung an.<\/p><hr data-start=\"12785\" data-end=\"12788\" \/><h1 data-start=\"12790\" data-end=\"12838\">Was ist bei der Wahl der Leiterplattendicke zu beachten?<\/h1><p data-start=\"12840\" data-end=\"12954\">Wenn Sie sich f\u00fcr eine Brettst\u00e4rke entscheiden, um eine bessere Haltbarkeit und Leistung zu erzielen, sollten Sie diese Spezifikationen und Faktoren ber\u00fccksichtigen:<\/p><ul data-start=\"12955\" data-end=\"13229\"><li data-start=\"12955\" data-end=\"12988\"><p data-start=\"12957\" data-end=\"12988\">Gewicht der fertigen Platte.<\/p><\/li><li data-start=\"12989\" data-end=\"13026\"><p data-start=\"12991\" data-end=\"13026\">Flexibilit\u00e4t oder Starrheit erforderlich.<\/p><\/li><li data-start=\"13027\" data-end=\"13079\"><p data-start=\"13029\" data-end=\"13079\">Impedanzanpassung f\u00fcr Hochgeschwindigkeitssignale.<\/p><\/li><li data-start=\"13080\" data-end=\"13124\"><p data-start=\"13082\" data-end=\"13124\">Bauteilh\u00f6he und Platz auf der Platine.<\/p><\/li><li data-start=\"13125\" data-end=\"13182\"><p data-start=\"13127\" data-end=\"13182\">Kompatibilit\u00e4t mit dem Rest der mechanischen Konstruktion.<\/p><\/li><li data-start=\"13183\" data-end=\"13229\"><p data-start=\"13185\" data-end=\"13229\">Allgemeine Gestaltungsregeln und Layout-Zw\u00e4nge.<\/p><\/li><\/ul><hr data-start=\"13231\" data-end=\"13234\" \/><h1 data-start=\"13236\" data-end=\"13272\">Wie sieht es mit der benutzerdefinierten Plattendicke aus?<\/h1><p data-start=\"13274\" data-end=\"13529\">Rohplatten und Bleche f\u00fcr die Leiterplattenherstellung sind in gro\u00dfem Umfang erh\u00e4ltlich. Es gibt viele Anpassungsm\u00f6glichkeiten, so dass die Hersteller spezifische Anforderungen erf\u00fcllen k\u00f6nnen. Sie k\u00f6nnen die Dicke w\u00e4hlen aus <strong data-start=\"13445\" data-end=\"13465\">0,2 mm bis 6,3 mm<\/strong> in <strong data-start=\"13469\" data-end=\"13480\">0,01 mm<\/strong> Schritte in vielen Gesch\u00e4ften. Die Schritte sind in der Regel:<\/p><ul data-start=\"13530\" data-end=\"13688\"><li data-start=\"13530\" data-end=\"13593\"><p data-start=\"13532\" data-end=\"13593\">Entscheiden Sie, welche gemeinsamen Kern-\/Prepreg-St\u00e4rken Sie verwenden m\u00f6chten.<\/p><\/li><li data-start=\"13594\" data-end=\"13688\"><p data-start=\"13596\" data-end=\"13688\">Erg\u00e4nzen Sie diese mit Kupferfolie, plattiertem Kupfer und L\u00f6tmaske, um die endg\u00fcltige Dicke zu erreichen.<\/p><\/li><\/ul><p data-start=\"13690\" data-end=\"13740\">Was Sie bei der Bestellung von kundenspezifischen Dicken beachten sollten:<\/p><ol data-start=\"13741\" data-end=\"14253\"><li data-start=\"13741\" data-end=\"13898\"><p data-start=\"13744\" data-end=\"13898\"><strong data-start=\"13744\" data-end=\"13763\">Durchlaufzeit<\/strong>Ungew\u00f6hnliche Dicken erfordern nicht standardisiertes Material und verl\u00e4ngern somit die Vorlaufzeiten. Dies wirkt sich auf die Liefertermine und die Entwicklungszeit aus.<\/p><\/li><li data-start=\"13899\" data-end=\"14110\"><p data-start=\"13902\" data-end=\"14110\"><strong data-start=\"13902\" data-end=\"13929\">CM-Ausr\u00fcstungsf\u00e4higkeit<\/strong>: W\u00e4hlen Sie einen Vertragshersteller (CM), der \u00fcber die richtige Ausr\u00fcstung verf\u00fcgt. Wenn der Lohnfertiger die von Ihnen gew\u00fcnschte Dicke nicht herstellen kann, m\u00fcssen Sie m\u00f6glicherweise Kompromisse eingehen und einige Designentscheidungen \u00e4ndern.<\/p><\/li><li data-start=\"14111\" data-end=\"14253\"><p data-start=\"14114\" data-end=\"14253\"><strong data-start=\"14114\" data-end=\"14133\">Zus\u00e4tzliche Kosten<\/strong>: Kundenspezifische Spezifikationen verursachen h\u00f6here Produktionskosten. Spezielle Materialien, strenge Toleranzen und zus\u00e4tzliche Arbeitsschritte erh\u00f6hen die Kosten.<\/p><\/li><\/ol><p data-start=\"14255\" data-end=\"14481\">Die Verwendung kundenspezifischer St\u00e4rken kann die Leistung und die einzigartige Funktion des Produkts verbessern. Mehrschichtige und kundenspezifische Platten sind jedoch mit zus\u00e4tzlichen Handgriffen, Prozessschritten und Materialkosten verbunden. Das kann mehrlagige kundenspezifische Leiterplatten teuer machen.<\/p><p data-start=\"14483\" data-end=\"14741\">Mit einem zuverl\u00e4ssigen Fertigungspartner l\u00e4sst sich die gew\u00fcnschte Dicke problemlos erreichen. Der erste Schritt besteht in der Regel darin, Standardkern-\/Prepreg-Dickenwerte auszuw\u00e4hlen und diese dann mit plattiertem Kupfer und Kupferfolie sowie der gew\u00e4hlten L\u00f6tmaske und Oberfl\u00e4chenbehandlung zu kombinieren.<\/p><hr data-start=\"14743\" data-end=\"14746\" \/><h1 data-start=\"14748\" data-end=\"14786\">PHILIFAST-Dienstleistungen und unser Angebot<\/h1><p data-start=\"14788\" data-end=\"15020\">Bei PHILIFAST erf\u00fcllen wir die Bed\u00fcrfnisse unserer Kunden mit hochwertigen und pr\u00e4zisen Prototypen. Wir sind in der Lage, sowohl Standard- als auch kundenspezifische Anforderungen zu erf\u00fcllen, und wir achten auf die Designabsicht. Zu den Highlights unserer kundenspezifischen PCB-Fertigungsdienste geh\u00f6ren:<\/p><ul data-start=\"15021\" data-end=\"15345\"><li data-start=\"15021\" data-end=\"15061\"><p data-start=\"15023\" data-end=\"15061\"><strong data-start=\"15023\" data-end=\"15058\">Pr\u00e4zise Kostenvoranschl\u00e4ge innerhalb von 24 Stunden<\/strong>.<\/p><\/li><li data-start=\"15062\" data-end=\"15147\"><p data-start=\"15064\" data-end=\"15147\"><strong data-start=\"15064\" data-end=\"15115\">Schl\u00fcsselfertiger Prozess in drei Tagen oder weniger abgeschlossen<\/strong> f\u00fcr viele Standardprototypen.<\/p><\/li><li data-start=\"15148\" data-end=\"15209\"><p data-start=\"15150\" data-end=\"15209\">Verk\u00fcrzte Beschaffungszeit durch Koordination der Lieferanten.<\/p><\/li><li data-start=\"15210\" data-end=\"15268\"><p data-start=\"15212\" data-end=\"15268\">Gezielte Qualit\u00e4tskontrolle und Zertifizierung nach Bedarf.<\/p><\/li><li data-start=\"15269\" data-end=\"15345\"><p data-start=\"15271\" data-end=\"15345\">Hohe PCB-Qualit\u00e4t und <strong data-start=\"15292\" data-end=\"15330\">Automatische optische Inspektion (AOI)<\/strong> in der Produktion.<\/p><\/li><\/ul><p data-start=\"15347\" data-end=\"15670\">Wenn Sie eine Leiterplattenfertigung ben\u00f6tigen, kann PHILIFAST Prototypen und Produktionsdienstleistungen anbieten. Wir pr\u00fcfen die Kundenanforderungen, besprechen die Anzahl der Lagen, die Auswahl der Materialien, das Kupfergewicht und andere kritische Parameter. Wir erkl\u00e4ren auch die Vor- und Nachteile von dickem Kupfer und wie es sich auf die Kosten, das Gewicht und die Herstellbarkeit der Leiterplatte auswirkt.<\/p><hr data-start=\"15672\" data-end=\"15675\" \/><h1 data-start=\"15677\" data-end=\"15722\">Kurze technische Zusammenfassung und Empfehlungen<\/h1><ul data-start=\"15724\" data-end=\"16829\"><li data-start=\"15724\" data-end=\"15810\"><p data-start=\"15726\" data-end=\"15810\">Dickkupfer-Leiterplatten sind f\u00fcr Anwendungen mit hohen Str\u00f6men und hohem W\u00e4rmebedarf gedacht.<\/p><\/li><li data-start=\"15811\" data-end=\"15942\"><p data-start=\"15813\" data-end=\"15942\">Sie verwenden viel dickeres Kupfer, das in der Regel in oz\/ft\u00b2 oder \u00b5m gemessen wird. Typische Dickkupferwerte liegen zwischen <strong data-start=\"15918\" data-end=\"15939\">105 \u00b5m und 400 \u00b5m<\/strong>.<\/p><\/li><li data-start=\"15943\" data-end=\"16098\"><p data-start=\"15945\" data-end=\"16098\">Schweres Kupfer verbessert die Strombelastbarkeit und die W\u00e4rmeableitung. Es reduziert die thermische Belastung und kann bei gleicher Leistung kleinere Platinenlayouts erm\u00f6glichen.<img loading=\"lazy\" decoding=\"async\" class=\"alignnone size-full wp-image-2723\" src=\"https:\/\/flj-pcb.com\/wp-content\/uploads\/2025\/09\/The-Heat-Dissipation-Advantages-of-Thick-Copper-PCBs.webp\" alt=\"The Heat Dissipation Advantages of Thick Copper PCBs\" width=\"599\" height=\"393\" srcset=\"https:\/\/flj-pcb.com\/wp-content\/uploads\/2025\/09\/The-Heat-Dissipation-Advantages-of-Thick-Copper-PCBs.webp 599w, https:\/\/flj-pcb.com\/wp-content\/uploads\/2025\/09\/The-Heat-Dissipation-Advantages-of-Thick-Copper-PCBs-300x197.webp 300w\" sizes=\"(max-width: 599px) 100vw, 599px\" \/><\/p><\/li><li data-start=\"16099\" data-end=\"16206\"><p data-start=\"16101\" data-end=\"16206\">Starkes Kupfer wird in der Regel durch Galvanisieren aufgebracht. Es st\u00e4rkt auch plattierte L\u00f6cher und Seitenw\u00e4nde von Durchkontaktierungen.<\/p><\/li><li data-start=\"16207\" data-end=\"16423\"><p data-start=\"16209\" data-end=\"16423\">Die Konstrukteure m\u00fcssen die zus\u00e4tzliche Dicke einplanen, die durch die Beschichtung, die L\u00f6tmaske und die Oberfl\u00e4chenbehandlung entsteht. Die fertige Dicke ist nicht mit der Dicke des Rohkerns identisch. Ber\u00fccksichtigen Sie die Rohmaterial- und Laminierungstoleranz.<\/p><\/li><li data-start=\"16424\" data-end=\"16661\"><p data-start=\"16426\" data-end=\"16661\">Standardm\u00e4\u00dfige fertige Plattenst\u00e4rken sind <strong data-start=\"16470\" data-end=\"16492\">0,78 mm (0,031 Zoll)<\/strong>, <strong data-start=\"16494\" data-end=\"16516\">1,57 mm (0,062 Zoll)<\/strong>, und <strong data-start=\"16522\" data-end=\"16544\">2,36 mm (0,093 Zoll)<\/strong>, mit <strong data-start=\"16551\" data-end=\"16562\">1,57 mm<\/strong> die in der allgemeinen Elektronik am weitesten verbreitet sind. Benutzerdefinierte Platinen k\u00f6nnen reichen von <strong data-start=\"16638\" data-end=\"16658\">0,2 mm bis 6,3 mm<\/strong>.<\/p><\/li><li data-start=\"16662\" data-end=\"16829\"><p data-start=\"16664\" data-end=\"16829\">Ber\u00fccksichtigen Sie bei der Entwicklung Kostentreiber (Gr\u00f6\u00dfe und Lagen), Komplexit\u00e4t (Durchkontaktierungen und Lagen), Materialien (Geschwindigkeit, Frequenz, maximale Temperatur) und die Betriebsumgebung.<\/p><\/li><\/ul>\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t<section class=\"elementor-section elementor-top-section elementor-element elementor-element-efck3nk elementor-section-content-top elementor-section-boxed elementor-section-height-default elementor-section-height-default\" data-id=\"efck3nk\" data-element_type=\"section\" data-settings=\"{&quot;background_background&quot;:&quot;classic&quot;}\">\n\t\t\t\t\t\t\t<div class=\"elementor-background-overlay\"><\/div>\n\t\t\t\t\t\t\t<div class=\"elementor-container elementor-column-gap-no\">\n\t\t\t\t\t<div class=\"elementor-column elementor-col-100 elementor-top-column elementor-element elementor-element-7882748\" data-id=\"7882748\" data-element_type=\"column\">\n\t\t\t<div class=\"elementor-widget-wrap elementor-element-populated\">\n\t\t\t\t\t\t<div class=\"elementor-element elementor-element-9fc6712 elementor-widget elementor-widget-heading\" data-id=\"9fc6712\" data-element_type=\"widget\" data-widget_type=\"heading.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t\t\t<h2 class=\"elementor-heading-title elementor-size-default\">H\u00e4ufig gestellte Fragen<\/h2>\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t<div class=\"elementor-element elementor-element-631b990 elementor-widget elementor-widget-accordion\" data-id=\"631b990\" data-element_type=\"widget\" data-widget_type=\"accordion.default\">\n\t\t\t\t<div class=\"elementor-widget-container\">\n\t\t\t\t\t\t\t<div class=\"elementor-accordion\">\n\t\t\t\t\t\t\t<div class=\"elementor-accordion-item\">\n\t\t\t\t\t<div id=\"elementor-tab-title-1031\" class=\"elementor-tab-title\" data-tab=\"1\" role=\"button\" aria-controls=\"elementor-tab-content-1031\" aria-expanded=\"false\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon elementor-accordion-icon-right\" aria-hidden=\"true\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon-closed\"><svg class=\"e-font-icon-svg e-fas-plus-circle\" viewbox=\"0 0 512 512\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\"><path d=\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zm144 276c0 6.6-5.4 12-12 12h-92v92c0 6.6-5.4 12-12 12h-56c-6.6 0-12-5.4-12-12v-92h-92c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h92v-92c0-6.6 5.4-12 12-12h56c6.6 0 12 5.4 12 12v92h92c6.6 0 12 5.4 12 12v56z\"><\/path><\/svg><\/span>\n\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon-opened\"><svg class=\"e-font-icon-svg e-fas-minus-circle\" viewbox=\"0 0 512 512\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\"><path d=\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zM124 296c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h264c6.6 0 12 5.4 12 12v56c0 6.6-5.4 12-12 12H124z\"><\/path><\/svg><\/span>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<\/span>\n\t\t\t\t\t\t\t\t\t\t\t\t<a class=\"elementor-accordion-title\" tabindex=\"0\">Was ist eine Leiterplatte aus schwerem Kupfer?<\/a>\n\t\t\t\t\t<\/div>\n\t\t\t\t\t<div id=\"elementor-tab-content-1031\" class=\"elementor-tab-content elementor-clearfix\" data-tab=\"1\" role=\"region\" aria-labelledby=\"elementor-tab-title-1031\"><p>Eine Dickkupfer-Leiterplatte ist eine Leiterplatte, bei der eine Kupferfolie oder -beschichtung verwendet wird, die deutlich dicker ist als die Standardkupferschicht (\u00fcblicherweise \u22653 oz\/ft\u00b2 \u2248105 \u00b5m, obwohl einige Hersteller \u22652 oz als Dickkupfer bezeichnen).<\/p><\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t\t\t<div class=\"elementor-accordion-item\">\n\t\t\t\t\t<div id=\"elementor-tab-title-1032\" class=\"elementor-tab-title\" data-tab=\"2\" role=\"button\" aria-controls=\"elementor-tab-content-1032\" aria-expanded=\"false\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon elementor-accordion-icon-right\" aria-hidden=\"true\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon-closed\"><svg class=\"e-font-icon-svg e-fas-plus-circle\" viewbox=\"0 0 512 512\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\"><path d=\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zm144 276c0 6.6-5.4 12-12 12h-92v92c0 6.6-5.4 12-12 12h-56c-6.6 0-12-5.4-12-12v-92h-92c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h92v-92c0-6.6 5.4-12 12-12h56c6.6 0 12 5.4 12 12v92h92c6.6 0 12 5.4 12 12v56z\"><\/path><\/svg><\/span>\n\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon-opened\"><svg class=\"e-font-icon-svg e-fas-minus-circle\" viewbox=\"0 0 512 512\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\"><path d=\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zM124 296c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h264c6.6 0 12 5.4 12 12v56c0 6.6-5.4 12-12 12H124z\"><\/path><\/svg><\/span>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<\/span>\n\t\t\t\t\t\t\t\t\t\t\t\t<a class=\"elementor-accordion-title\" tabindex=\"0\">Warum sollten Sie sich f\u00fcr Leiterplatten aus schwerem Kupfer entscheiden?<\/a>\n\t\t\t\t\t<\/div>\n\t\t\t\t\t<div id=\"elementor-tab-content-1032\" class=\"elementor-tab-content elementor-clearfix\" data-tab=\"2\" role=\"region\" aria-labelledby=\"elementor-tab-title-1032\"><p>Sie erh\u00f6hen die Strombelastbarkeit, verbessern die W\u00e4rmeableitung und erh\u00f6hen die mechanische Festigkeit - geeignet f\u00fcr Leistungselektronik und hochzuverl\u00e4ssige Systeme.<\/p><\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t\t\t<div class=\"elementor-accordion-item\">\n\t\t\t\t\t<div id=\"elementor-tab-title-1033\" class=\"elementor-tab-title\" data-tab=\"3\" role=\"button\" aria-controls=\"elementor-tab-content-1033\" aria-expanded=\"false\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon elementor-accordion-icon-right\" aria-hidden=\"true\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon-closed\"><svg class=\"e-font-icon-svg e-fas-plus-circle\" viewbox=\"0 0 512 512\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\"><path d=\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zm144 276c0 6.6-5.4 12-12 12h-92v92c0 6.6-5.4 12-12 12h-56c-6.6 0-12-5.4-12-12v-92h-92c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h92v-92c0-6.6 5.4-12 12-12h56c6.6 0 12 5.4 12 12v92h92c6.6 0 12 5.4 12 12v56z\"><\/path><\/svg><\/span>\n\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon-opened\"><svg class=\"e-font-icon-svg e-fas-minus-circle\" viewbox=\"0 0 512 512\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\"><path d=\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zM124 296c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h264c6.6 0 12 5.4 12 12v56c0 6.6-5.4 12-12 12H124z\"><\/path><\/svg><\/span>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<\/span>\n\t\t\t\t\t\t\t\t\t\t\t\t<a class=\"elementor-accordion-title\" tabindex=\"0\">Welche Kupfergewichte sind typisch f\u00fcr Dickkupferplatten?<\/a>\n\t\t\t\t\t<\/div>\n\t\t\t\t\t<div id=\"elementor-tab-content-1033\" class=\"elementor-tab-content elementor-clearfix\" data-tab=\"3\" role=\"region\" aria-labelledby=\"elementor-tab-title-1033\"><p>G\u00e4ngige Schwergewichte sind 2 oz, 3 oz, 4 oz und mehr (einige Designs gehen bis 6 oz oder dar\u00fcber hinaus f\u00fcr spezielle Anwendungen).<\/p><\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t\t\t<div class=\"elementor-accordion-item\">\n\t\t\t\t\t<div id=\"elementor-tab-title-1034\" class=\"elementor-tab-title\" data-tab=\"4\" role=\"button\" aria-controls=\"elementor-tab-content-1034\" aria-expanded=\"false\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon elementor-accordion-icon-right\" aria-hidden=\"true\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon-closed\"><svg class=\"e-font-icon-svg e-fas-plus-circle\" viewbox=\"0 0 512 512\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\"><path d=\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zm144 276c0 6.6-5.4 12-12 12h-92v92c0 6.6-5.4 12-12 12h-56c-6.6 0-12-5.4-12-12v-92h-92c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h92v-92c0-6.6 5.4-12 12-12h56c6.6 0 12 5.4 12 12v92h92c6.6 0 12 5.4 12 12v56z\"><\/path><\/svg><\/span>\n\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon-opened\"><svg class=\"e-font-icon-svg e-fas-minus-circle\" viewbox=\"0 0 512 512\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\"><path d=\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zM124 296c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h264c6.6 0 12 5.4 12 12v56c0 6.6-5.4 12-12 12H124z\"><\/path><\/svg><\/span>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<\/span>\n\t\t\t\t\t\t\t\t\t\t\t\t<a class=\"elementor-accordion-title\" tabindex=\"0\">Wie wirkt sich schweres Kupfer auf das Design von Leiterbahnen und Durchkontaktierungen aus?<\/a>\n\t\t\t\t\t<\/div>\n\t\t\t\t\t<div id=\"elementor-tab-content-1034\" class=\"elementor-tab-content elementor-clearfix\" data-tab=\"4\" role=\"region\" aria-labelledby=\"elementor-tab-title-1034\"><p>Dickeres Kupfer erfordert breitere\/angepasste Leiterbahngeometrien, ge\u00e4nderte \u00c4tzzugaben und eine spezielle Durchkontaktierung (Wrap-Plating oder Build-up), um zuverl\u00e4ssige Leitf\u00e4higkeit und Herstellbarkeit zu gew\u00e4hrleisten.<\/p><\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t\t\t<div class=\"elementor-accordion-item\">\n\t\t\t\t\t<div id=\"elementor-tab-title-1035\" class=\"elementor-tab-title\" data-tab=\"5\" role=\"button\" aria-controls=\"elementor-tab-content-1035\" aria-expanded=\"false\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon elementor-accordion-icon-right\" aria-hidden=\"true\">\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon-closed\"><svg class=\"e-font-icon-svg e-fas-plus-circle\" viewbox=\"0 0 512 512\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\"><path d=\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zm144 276c0 6.6-5.4 12-12 12h-92v92c0 6.6-5.4 12-12 12h-56c-6.6 0-12-5.4-12-12v-92h-92c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h92v-92c0-6.6 5.4-12 12-12h56c6.6 0 12 5.4 12 12v92h92c6.6 0 12 5.4 12 12v56z\"><\/path><\/svg><\/span>\n\t\t\t\t\t\t\t\t<span class=\"elementor-accordion-icon-opened\"><svg class=\"e-font-icon-svg e-fas-minus-circle\" viewbox=\"0 0 512 512\" xmlns=\"http:\/\/www.w3.org\/2000\/svg\"><path d=\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zM124 296c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h264c6.6 0 12 5.4 12 12v56c0 6.6-5.4 12-12 12H124z\"><\/path><\/svg><\/span>\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t<\/span>\n\t\t\t\t\t\t\t\t\t\t\t\t<a class=\"elementor-accordion-title\" tabindex=\"0\">Wie sollte ich schweres Kupfer in meinen Fertigungsunterlagen angeben?<\/a>\n\t\t\t\t\t<\/div>\n\t\t\t\t\t<div id=\"elementor-tab-content-1035\" class=\"elementor-tab-content elementor-clearfix\" data-tab=\"5\" role=\"region\" aria-labelledby=\"elementor-tab-title-1035\"><p>Geben Sie das Gewicht des fertigen Kupfers (z. B. \u201c3 oz fertig \/ \u2248105 \u00b5m auf Schicht X\u201d), die erforderlichen Leiterbahnbreiten, die Dicke der Durchkontaktierung, Impedanz- oder Temperaturanstiegsziele und die bevorzugte Oberfl\u00e4chenbeschaffenheit an. Klare Spezifikationen vermeiden Missverst\u00e4ndnisse.<\/p><\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/section>\n\t\t\t\t<\/div>","protected":false},"excerpt":{"rendered":"<p>What does \u201cheavy-copper PCB\u201d mean? Printed circuit boards come in many types. One of these types is the high-current PCB, [&hellip;]<\/p>","protected":false},"author":1,"featured_media":0,"parent":1898,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_uag_custom_page_level_css":"","site-sidebar-layout":"no-sidebar","site-content-layout":"","ast-site-content-layout":"full-width-container","site-content-style":"default","site-sidebar-style":"default","ast-global-header-display":"","ast-banner-title-visibility":"","ast-main-header-display":"","ast-hfb-above-header-display":"","ast-hfb-below-header-display":"","ast-hfb-mobile-header-display":"","site-post-title":"disabled","ast-breadcrumbs-content":"","ast-featured-img":"disabled","footer-sml-layout":"","theme-transparent-header-meta":"","adv-header-id-meta":"","stick-header-meta":"","header-above-stick-meta":"","header-main-stick-meta":"","header-below-stick-meta":"","astra-migrate-meta-layouts":"default","ast-page-background-enabled":"default","ast-page-background-meta":{"desktop":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center 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center\";s:15:\"background-size\";s:4:\"auto\";s:21:\"background-attachment\";s:6:\"scroll\";s:15:\"background-type\";s:0:\"\";s:16:\"background-media\";s:0:\"\";s:12:\"overlay-type\";s:0:\"\";s:13:\"overlay-color\";s:0:\"\";s:15:\"overlay-opacity\";s:0:\"\";s:16:\"overlay-gradient\";s:0:\"\";}s:6:\"tablet\";a:12:{s:16:\"background-color\";s:25:\"var(--ast-global-color-4)\";s:16:\"background-image\";s:0:\"\";s:17:\"background-repeat\";s:6:\"repeat\";s:19:\"background-position\";s:13:\"center center\";s:15:\"background-size\";s:4:\"auto\";s:21:\"background-attachment\";s:6:\"scroll\";s:15:\"background-type\";s:0:\"\";s:16:\"background-media\";s:0:\"\";s:12:\"overlay-type\";s:0:\"\";s:13:\"overlay-color\";s:0:\"\";s:15:\"overlay-opacity\";s:0:\"\";s:16:\"overlay-gradient\";s:0:\"\";}s:6:\"mobile\";a:12:{s:16:\"background-color\";s:25:\"var(--ast-global-color-4)\";s:16:\"background-image\";s:0:\"\";s:17:\"background-repeat\";s:6:\"repeat\";s:19:\"background-position\";s:13:\"center center\";s:15:\"background-size\";s:4:\"auto\";s:21:\"background-attachment\";s:6:\"scroll\";s:15:\"background-type\";s:0:\"\";s:16:\"background-media\";s:0:\"\";s:12:\"overlay-type\";s:0:\"\";s:13:\"overlay-color\";s:0:\"\";s:15:\"overlay-opacity\";s:0:\"\";s:16:\"overlay-gradient\";s:0:\"\";}}"],"footnotes":[""],"_elementor_edit_mode":["builder"],"_elementor_template_type":["wp-page"],"_elementor_data":["[{\"id\":\"6b3b64b\",\"elType\":\"container\",\"settings\":{\"display_condition_list\":[{\"display_condition_login_status\":\"subscriber\",\"_id\":\"042e9ed\"}]},\"elements\":[{\"id\":\"45ef605\",\"elType\":\"widget\",\"settings\":{\"editor\":\"<h1 data-start=\\\"153\\\" data-end=\\\"189\\\">What does \\u201cheavy-copper PCB\\u201d mean?<\\\/h1><p data-start=\\\"191\\\" data-end=\\\"583\\\">Printed circuit boards come in many types. One of these types is the high-current PCB, also called a heavy-copper PCB. These boards have useful properties for applications that involve high current and changing temperatures. Heavy-copper PCBs can resist higher temperatures for longer times, they can handle higher current rates, and they provide stronger solder joints and connection points.<\\\/p><p data-start=\\\"191\\\" data-end=\\\"583\\\"><img src=\\\"https:\\\/\\\/flj-pcb.com\\\/wp-content\\\/uploads\\\/2025\\\/09\\\/thick-copper-PCB.webp\\\" alt=\\\"heavy copper pcb\\\" width=\\\"600\\\" height=\\\"390\\\" \\\/><\\\/p><h2 data-start=\\\"585\\\" data-end=\\\"615\\\">What is a high-current PCB?<\\\/h2><p data-start=\\\"616\\\" data-end=\\\"1085\\\">A high-current PCB is a printed circuit board designed to support a higher critical current density than a standard PCB. A standard board may only support currents in the tens of amps. A high-current board can carry hundreds or even thousands of amps, and it can resist higher temperatures for long periods. The unique design of these PCBs uses thicker and heavier copper layers, and that gives the board stronger and more durable electrical and mechanical performance.<\\\/p><p data-start=\\\"1087\\\" data-end=\\\"1486\\\">Heavy-copper PCBs typically contain more than <strong data-start=\\\"1133\\\" data-end=\\\"1171\\\">3 ounces of copper per square foot<\\\/strong> for carrying high current loads. Even when the total copper amount is less than 3 oz\\\/ft\\u00b2, a board can still be classed as a heavy-copper PCB if the copper thickness on critical areas is more than <strong data-start=\\\"1368\\\" data-end=\\\"1380\\\">4 oz\\\/ft\\u00b2<\\\/strong>. This large amount of copper is used when adding width to a trace is not possible or not the best option.<\\\/p><p data-start=\\\"1488\\\" data-end=\\\"1860\\\">For example, on a DC motor PCB, the standard trace width needed to deliver the required power may be large, because designers must consider thermal constraints. Heavy-copper PCBs instead use <strong data-start=\\\"1679\\\" data-end=\\\"1697\\\">thicker traces<\\\/strong> to achieve the same current carrying capacity while keeping trace width smaller. This helps save board space while maintaining thermal and electrical performance.<\\\/p><p data-start=\\\"1862\\\" data-end=\\\"2225\\\">You will commonly find that the copper thickness used in Heavy-copper boards ranges from about <strong data-start=\\\"1957\\\" data-end=\\\"1977\\\">105 \\u00b5m to 400 \\u00b5m<\\\/strong>. In addition to higher copper thickness, these boards are able to dissipate heat at high temperature while offering stronger electrical connections. This thermal management helps heavy-copper PCBs avoid thermal stress and failure under heavy load.<\\\/p><hr data-start=\\\"2227\\\" data-end=\\\"2230\\\" \\\/><h1 data-start=\\\"2232\\\" data-end=\\\"2274\\\">Advantages of thick copper in PCB design<\\\/h1><p data-start=\\\"2276\\\" data-end=\\\"2678\\\">Thermal management is more important now than ever, because electronic equipment runs in harsher environments and at higher currents. Heavy-copper PCBs (for example, with internal and\\\/or external copper conductors in the range <strong data-start=\\\"2503\\\" data-end=\\\"2528\\\">5 oz\\\/ft\\u00b2 to 19 oz\\\/ft\\u00b2<\\\/strong>, and sometimes defined as over <strong data-start=\\\"2560\\\" data-end=\\\"2572\\\">4 oz\\\/ft\\u00b2<\\\/strong>) help conduct heat away from components. This property can greatly reduce failures caused by overheating.<\\\/p><p data-start=\\\"2680\\\" data-end=\\\"3032\\\"><a href=\\\"https:\\\/\\\/flj-pcb.com\\\/pcb-manufacturer\\\/\\\">PCB manufacturers<\\\/a> use heavy copper to create robust conductor platforms. The resulting boards offer better conductivity and greater resistance to thermal stress. These boards can also achieve the same current capacity in a smaller area because a single layer can carry more copper weight or because multiple copper weights are placed on the same layer.<\\\/p><p data-start=\\\"3034\\\" data-end=\\\"3079\\\">Key benefits of thick copper in PCBs include:<\\\/p><ul data-start=\\\"3080\\\" data-end=\\\"3350\\\"><li data-start=\\\"3080\\\" data-end=\\\"3135\\\"><p data-start=\\\"3082\\\" data-end=\\\"3135\\\">Reduced thermal strain on components and the board.<\\\/p><\\\/li><li data-start=\\\"3136\\\" data-end=\\\"3177\\\"><p data-start=\\\"3138\\\" data-end=\\\"3177\\\">Improved current carrying capability.<\\\/p><\\\/li><li data-start=\\\"3178\\\" data-end=\\\"3241\\\"><p data-start=\\\"3180\\\" data-end=\\\"3241\\\">Ability to survive repeated thermal cycling without damage.<\\\/p><\\\/li><li data-start=\\\"3242\\\" data-end=\\\"3350\\\"><p data-start=\\\"3244\\\" data-end=\\\"3350\\\">Smaller finished board size in some designs, because copper stacking reduces the need for multiple layers.<\\\/p><\\\/li><\\\/ul><h3 data-start=\\\"3352\\\" data-end=\\\"3392\\\">Who benefits from heavy-copper PCBs?<\\\/h3><p data-start=\\\"3393\\\" data-end=\\\"3455\\\">Industries that gain clear benefits from heavy copper include:<\\\/p><ul data-start=\\\"3456\\\" data-end=\\\"3630\\\"><li data-start=\\\"3456\\\" data-end=\\\"3481\\\"><p data-start=\\\"3458\\\" data-end=\\\"3481\\\">Military and defense.<\\\/p><\\\/li><li data-start=\\\"3482\\\" data-end=\\\"3497\\\"><p data-start=\\\"3484\\\" data-end=\\\"3497\\\">Automotive.<\\\/p><\\\/li><li data-start=\\\"3498\\\" data-end=\\\"3559\\\"><p data-start=\\\"3500\\\" data-end=\\\"3559\\\">Solar panel systems (PV inverters and related equipment).<\\\/p><\\\/li><li data-start=\\\"3560\\\" data-end=\\\"3596\\\"><p data-start=\\\"3562\\\" data-end=\\\"3596\\\">Welding equipment manufacturers.<\\\/p><\\\/li><li data-start=\\\"3597\\\" data-end=\\\"3630\\\"><p data-start=\\\"3599\\\" data-end=\\\"3630\\\">Industrial control equipment.<\\\/p><\\\/li><\\\/ul><p data-start=\\\"3632\\\" data-end=\\\"3934\\\">These industries often need PCBs that can handle large heat output and that deliver reliable power distribution. Heavy-copper plated through holes are particularly good for moving heat to external heat sinks. Good power distribution is essential for high reliability, and heavy copper helps achieve it.<\\\/p><p data-start=\\\"3632\\\" data-end=\\\"3934\\\"><img src=\\\"https:\\\/\\\/flj-pcb.com\\\/wp-content\\\/uploads\\\/2025\\\/09\\\/Thick-copper-PCBs-for-industrial-control-applications.webp\\\" alt=\\\"heavy copper pcb for industrial control applications\\\" width=\\\"600\\\" height=\\\"450\\\" \\\/><\\\/p><p data-start=\\\"3936\\\" data-end=\\\"4243\\\">Heavy copper is not new. The method has been in use for many years to meet demanding military and defense requirements, such as weapon control systems. Now, mainstream electronics manufacturers also ask for better heat removal. Heavy copper has therefore become more common in non-military applications too.<\\\/p><hr data-start=\\\"4245\\\" data-end=\\\"4248\\\" \\\/><h1 data-start=\\\"4250\\\" data-end=\\\"4285\\\">How heavy copper is made and used<\\\/h1><p data-start=\\\"4287\\\" data-end=\\\"4667\\\">Heavy copper PCBs are usually made by a combination of <strong data-start=\\\"4342\\\" data-end=\\\"4360\\\">electroplating<\\\/strong> and <strong data-start=\\\"4365\\\" data-end=\\\"4376\\\">etching<\\\/strong> processes. The goal is to increase the copper thickness not just on flat traces but also on <strong data-start=\\\"4469\\\" data-end=\\\"4486\\\">via sidewalls<\\\/strong> and <strong data-start=\\\"4491\\\" data-end=\\\"4507\\\">plated holes<\\\/strong>. If a board is exposed to many production cycles, plated holes can wear or weaken. Adding heavy copper strengthens those plated holes and improves reliability.<\\\/p><p data-start=\\\"4669\\\" data-end=\\\"4878\\\">A heavy-copper board lets you combine high-current or high-power zones and control or signal circuits on the same board. This avoids the need for separate power boards or bulky external wiring in some systems.<\\\/p><p data-start=\\\"4880\\\" data-end=\\\"5365\\\">PHILIFAST works with customers to confirm and understand their needs. We match heavy copper manufacturing processes to those needs. For example, it is important to know the component types, how many layers are required, and what materials must be used. PHILIFAST can give a quote and explain the pros and cons of using heavy copper. Advances in technology have allowed processes that use both electroplating and edge milling or grinding to reach required copper thickness and flatness.<\\\/p><hr data-start=\\\"5367\\\" data-end=\\\"5370\\\" \\\/><h1 data-start=\\\"5372\\\" data-end=\\\"5423\\\">Copper thickness values used in heavy-copper PCBs<\\\/h1><p data-start=\\\"5425\\\" data-end=\\\"5466\\\">In practice, you will find the following:<\\\/p><ul data-start=\\\"5467\\\" data-end=\\\"5999\\\"><li data-start=\\\"5467\\\" data-end=\\\"5552\\\"><p data-start=\\\"5469\\\" data-end=\\\"5552\\\">Typical <strong data-start=\\\"5477\\\" data-end=\\\"5493\\\">heavy copper<\\\/strong> thickness values fall in the range <strong data-start=\\\"5529\\\" data-end=\\\"5549\\\">105 \\u00b5m to 400 \\u00b5m<\\\/strong>.<\\\/p><\\\/li><li data-start=\\\"5553\\\" data-end=\\\"5806\\\"><p data-start=\\\"5555\\\" data-end=\\\"5806\\\">Heavy copper is commonly described in <strong data-start=\\\"5593\\\" data-end=\\\"5619\\\">ounces per square foot<\\\/strong> or <strong data-start=\\\"5623\\\" data-end=\\\"5658\\\">ounces per square foot (oz\\\/ft\\u00b2)<\\\/strong>, or in the PCB industry more commonly as <strong data-start=\\\"5700\\\" data-end=\\\"5736\\\">oz per square foot or oz per ft\\u00b2<\\\/strong>, though many suppliers use <strong data-start=\\\"5764\\\" data-end=\\\"5786\\\">oz per square foot<\\\/strong> or convert to \\u00b5m.<\\\/p><\\\/li><li data-start=\\\"5807\\\" data-end=\\\"5999\\\"><p data-start=\\\"5809\\\" data-end=\\\"5999\\\">Standard copper weights like <strong data-start=\\\"5838\\\" data-end=\\\"5846\\\">1 oz<\\\/strong> correspond roughly to <strong data-start=\\\"5869\\\" data-end=\\\"5881\\\">34\\u201335 \\u00b5m<\\\/strong> of copper thickness for a single side, but the finished thickness depends on plating, surface finish, and lamination.<\\\/p><\\\/li><\\\/ul><p data-start=\\\"6001\\\" data-end=\\\"6192\\\">When vias and through-holes are plated and then thickened, both the hole copper and the surface copper may increase unless special steps are taken to control plating only in the drilled hole.<\\\/p><hr data-start=\\\"6194\\\" data-end=\\\"6197\\\" \\\/><h1 data-start=\\\"6199\\\" data-end=\\\"6275\\\">Board thickness and copper weight \\u2014 impact on PCB design and manufacturing<\\\/h1><p data-start=\\\"6277\\\" data-end=\\\"6845\\\">When you cut boards from raw material, two main concerns are <strong data-start=\\\"6338\\\" data-end=\\\"6357\\\">board thickness<\\\/strong> and <strong data-start=\\\"6362\\\" data-end=\\\"6379\\\">copper weight<\\\/strong>. For raw board thicknesses above <strong data-start=\\\"6413\\\" data-end=\\\"6423\\\">0.8 mm<\\\/strong>, a standard set of thicknesses is commonly used: <strong data-start=\\\"6473\\\" data-end=\\\"6519\\\">1.0 mm, 1.2 mm, 1.6 mm, 2.0 mm, and 3.2 mm<\\\/strong>. For thicknesses below <strong data-start=\\\"6543\\\" data-end=\\\"6553\\\">0.8 mm<\\\/strong>, these are not considered the standard series. Thin board thicknesses are often customized. Common thin core thickness values used for inner layers include: <strong data-start=\\\"6711\\\" data-end=\\\"6766\\\">0.1 mm, 0.15 mm, 0.2 mm, 0.3 mm, 0.4 mm, and 0.6 mm<\\\/strong>. These thin core materials are mainly used as inner layers of multilayer PCBs.<\\\/p><p data-start=\\\"6277\\\" data-end=\\\"6845\\\"><img src=\\\"https:\\\/\\\/flj-pcb.com\\\/wp-content\\\/uploads\\\/2025\\\/09\\\/thick-copper-PCBs-design.webp\\\" alt=\\\"heavy copper pcb design\\\" width=\\\"700\\\" height=\\\"393\\\" \\\/><\\\/p><p data-start=\\\"6847\\\" data-end=\\\"6999\\\">When you design the outer layer and choose a finished board thickness, you must account for additional thickness added during production. These include:<\\\/p><ul data-start=\\\"7000\\\" data-end=\\\"7243\\\"><li data-start=\\\"7000\\\" data-end=\\\"7069\\\"><p data-start=\\\"7002\\\" data-end=\\\"7069\\\">Electroplated copper thickness added during via and hole plating.<\\\/p><\\\/li><li data-start=\\\"7070\\\" data-end=\\\"7096\\\"><p data-start=\\\"7072\\\" data-end=\\\"7096\\\">Solder mask thickness.<\\\/p><\\\/li><li data-start=\\\"7097\\\" data-end=\\\"7203\\\"><p data-start=\\\"7099\\\" data-end=\\\"7203\\\">Surface finish thickness (for example, hot-air solder leveling, ENIG gold plating, or other finishes).<\\\/p><\\\/li><li data-start=\\\"7204\\\" data-end=\\\"7243\\\"><p data-start=\\\"7206\\\" data-end=\\\"7243\\\">Silk screen and carbon ink thickness.<\\\/p><\\\/li><\\\/ul><p data-start=\\\"7245\\\" data-end=\\\"7475\\\">In practice, a bare finished board will be thicker by about <strong data-start=\\\"7305\\\" data-end=\\\"7320\\\">0.05\\u20130.1 mm<\\\/strong> than the core raw material because of these additions. Boards with tin plating typically show a larger final thickness increase, around <strong data-start=\\\"7457\\\" data-end=\\\"7474\\\">0.075\\u20130.15 mm<\\\/strong>.<\\\/p><p data-start=\\\"7477\\\" data-end=\\\"7489\\\">For example:<\\\/p><ul data-start=\\\"7490\\\" data-end=\\\"8033\\\"><li data-start=\\\"7490\\\" data-end=\\\"7729\\\"><p data-start=\\\"7492\\\" data-end=\\\"7729\\\">If your finished board requirement is <strong data-start=\\\"7530\\\" data-end=\\\"7540\\\">2.0 mm<\\\/strong>, and you choose <strong data-start=\\\"7557\\\" data-end=\\\"7567\\\">2.0 mm<\\\/strong> raw core material at the cutting stage, the final finished board will usually end up between <strong data-start=\\\"7661\\\" data-end=\\\"7682\\\">2.1 mm and 2.3 mm<\\\/strong> after fabrication tolerances and processing.<\\\/p><\\\/li><li data-start=\\\"7730\\\" data-end=\\\"8033\\\"><p data-start=\\\"7732\\\" data-end=\\\"8033\\\">If your design absolutely requires the finished board to be <strong data-start=\\\"7792\\\" data-end=\\\"7815\\\">no more than 2.0 mm<\\\/strong>, you should request a nonstandard raw board of <strong data-start=\\\"7863\\\" data-end=\\\"7873\\\">1.9 mm<\\\/strong> for fabrication. In that case, the fabricator must order nonstandard material from a raw material supplier, which will typically extend the delivery lead time.<\\\/p><\\\/li><\\\/ul><p data-start=\\\"8035\\\" data-end=\\\"8452\\\">For inner layer construction, you can adjust the final laminated thickness by choosing different <strong data-start=\\\"8132\\\" data-end=\\\"8143\\\">prepreg<\\\/strong> thicknesses and by changing the layer stackup. The core choice is flexible. For example, to reach a <strong data-start=\\\"8244\\\" data-end=\\\"8254\\\">1.6 mm<\\\/strong> final thickness, you could choose a <strong data-start=\\\"8291\\\" data-end=\\\"8301\\\">1.2 mm<\\\/strong> core or a <strong data-start=\\\"8312\\\" data-end=\\\"8322\\\">1.0 mm<\\\/strong> core combined with suitable prepreg layers, as long as the final lamination keeps the finished thickness in the acceptable range.<\\\/p><hr data-start=\\\"8454\\\" data-end=\\\"8457\\\" \\\/><h1 data-start=\\\"8459\\\" data-end=\\\"8503\\\">Board thickness tolerance \\u2014 what to expect<\\\/h1><p data-start=\\\"8505\\\" data-end=\\\"8666\\\">PCB designers must consider the finished board thickness tolerance along with product assembly tolerances. The main contributors to final thickness variance are:<\\\/p><ol data-start=\\\"8667\\\" data-end=\\\"8865\\\"><li data-start=\\\"8667\\\" data-end=\\\"8719\\\"><p data-start=\\\"8670\\\" data-end=\\\"8719\\\">Raw material tolerance from the board supplier.<\\\/p><\\\/li><li data-start=\\\"8720\\\" data-end=\\\"8809\\\"><p data-start=\\\"8723\\\" data-end=\\\"8809\\\">Lamination process tolerance when multiple layers and prepregs are pressed together.<\\\/p><\\\/li><li data-start=\\\"8810\\\" data-end=\\\"8865\\\"><p data-start=\\\"8813\\\" data-end=\\\"8865\\\">Extra thickness from outer layer copper and plating.<\\\/p><\\\/li><\\\/ol><p data-start=\\\"8867\\\" data-end=\\\"8944\\\">Typical raw material thickness tolerances often quoted for common panels are:<\\\/p><ul data-start=\\\"8945\\\" data-end=\\\"9085\\\"><li data-start=\\\"8945\\\" data-end=\\\"8981\\\"><p data-start=\\\"8947\\\" data-end=\\\"8981\\\">For <strong data-start=\\\"8951\\\" data-end=\\\"8965\\\">0.8\\u20131.0 mm<\\\/strong>: \\u00b1<strong data-start=\\\"8968\\\" data-end=\\\"8978\\\">0.1 mm<\\\/strong>.<\\\/p><\\\/li><li data-start=\\\"8982\\\" data-end=\\\"9019\\\"><p data-start=\\\"8984\\\" data-end=\\\"9019\\\">For <strong data-start=\\\"8988\\\" data-end=\\\"9002\\\">1.2\\u20131.6 mm<\\\/strong>: \\u00b1<strong data-start=\\\"9005\\\" data-end=\\\"9016\\\">0.13 mm<\\\/strong>.<\\\/p><\\\/li><li data-start=\\\"9020\\\" data-end=\\\"9053\\\"><p data-start=\\\"9022\\\" data-end=\\\"9053\\\">For <strong data-start=\\\"9026\\\" data-end=\\\"9036\\\">2.0 mm<\\\/strong>: \\u00b1<strong data-start=\\\"9039\\\" data-end=\\\"9050\\\">0.18 mm<\\\/strong>.<\\\/p><\\\/li><li data-start=\\\"9054\\\" data-end=\\\"9085\\\"><p data-start=\\\"9056\\\" data-end=\\\"9085\\\">For <strong data-start=\\\"9060\\\" data-end=\\\"9070\\\">3.0 mm<\\\/strong>: \\u00b1<strong data-start=\\\"9073\\\" data-end=\\\"9084\\\">0.23 mm<\\\/strong>.<\\\/p><\\\/li><\\\/ul><p data-start=\\\"9087\\\" data-end=\\\"9406\\\">Lamination tolerance depends on the number of layers and the total thickness. It is commonly controlled to within <strong data-start=\\\"9201\\\" data-end=\\\"9219\\\">\\u00b1(0.05\\u20130.1) mm<\\\/strong>. Boards that include edge connectors or card edge contacts (like a printed card edge for a connector) need careful selection of thickness and tolerance to match connector specifications.<\\\/p><hr data-start=\\\"9408\\\" data-end=\\\"9411\\\" \\\/><h1 data-start=\\\"9413\\\" data-end=\\\"9461\\\">Surface copper thickness and plating standards<\\\/h1><p data-start=\\\"9463\\\" data-end=\\\"9692\\\">Via copper and plated hole copper are formed by chemical deposition followed by electroplating. If you increase plated hole thickness, surface copper thickness will often increase as well unless you take special control measures.<\\\/p><p data-start=\\\"9694\\\" data-end=\\\"9789\\\">According to <strong data-start=\\\"9707\\\" data-end=\\\"9721\\\">IPC-A-600G<\\\/strong> standard, the minimum copper plating thickness for plated holes is:<\\\/p><ul data-start=\\\"9790\\\" data-end=\\\"9879\\\"><li data-start=\\\"9790\\\" data-end=\\\"9841\\\"><p data-start=\\\"9792\\\" data-end=\\\"9841\\\">For Class 1 and Class 2 workmanship: <strong data-start=\\\"9829\\\" data-end=\\\"9838\\\">20 \\u00b5m<\\\/strong>.<\\\/p><\\\/li><li data-start=\\\"9842\\\" data-end=\\\"9879\\\"><p data-start=\\\"9844\\\" data-end=\\\"9879\\\">For Class 3 workmanship: <strong data-start=\\\"9869\\\" data-end=\\\"9878\\\">25 \\u00b5m<\\\/strong>.<\\\/p><\\\/li><\\\/ul><p data-start=\\\"9881\\\" data-end=\\\"10529\\\">When you specify a copper weight of <strong data-start=\\\"9917\\\" data-end=\\\"9925\\\">1 oz<\\\/strong>, remember that <strong data-start=\\\"9941\\\" data-end=\\\"9949\\\">1 oz<\\\/strong> typically corresponds to a minimum raw foil thickness in certain systems, and finished thickness after plating can be higher. For example, if the raw foil option yields a minimum of <strong data-start=\\\"10132\\\" data-end=\\\"10143\\\">15.4 \\u00b5m<\\\/strong> for a nominal 1 oz material in some manufacturing specifications, after allowing <strong data-start=\\\"10225\\\" data-end=\\\"10235\\\">2\\u20133 \\u00b5m<\\\/strong> of possible tolerance loss, the minimum might reach <strong data-start=\\\"10288\\\" data-end=\\\"10299\\\">33.4 \\u00b5m<\\\/strong> in practice. If you choose a higher raw material or plating target, the finished copper thickness can reach <strong data-start=\\\"10408\\\" data-end=\\\"10419\\\">47.9 \\u00b5m<\\\/strong> or more depending on the manufacturing route. Other copper thickness values follow similar calculation rules.<\\\/p><hr data-start=\\\"10531\\\" data-end=\\\"10534\\\" \\\/><h1 data-start=\\\"10536\\\" data-end=\\\"10585\\\">How to choose PCB thickness \\u2014 what is standard?<\\\/h1><p data-start=\\\"10587\\\" data-end=\\\"10814\\\">PCB blanks (raw panels) do not have a single fixed global thickness. However, market convention and demand make certain thicknesses standard. You can get greater finished board thickness by stacking multiple prepregs and cores.<\\\/p><p data-start=\\\"10816\\\" data-end=\\\"10863\\\">Common standard finished board thicknesses are:<\\\/p><ul data-start=\\\"10864\\\" data-end=\\\"10945\\\"><li data-start=\\\"10864\\\" data-end=\\\"10891\\\"><p data-start=\\\"10866\\\" data-end=\\\"10891\\\"><strong data-start=\\\"10866\\\" data-end=\\\"10888\\\">0.031 in (0.78 mm)<\\\/strong>.<\\\/p><\\\/li><li data-start=\\\"10892\\\" data-end=\\\"10919\\\"><p data-start=\\\"10894\\\" data-end=\\\"10919\\\"><strong data-start=\\\"10894\\\" data-end=\\\"10916\\\">0.062 in (1.57 mm)<\\\/strong>.<\\\/p><\\\/li><li data-start=\\\"10920\\\" data-end=\\\"10945\\\"><p data-start=\\\"10922\\\" data-end=\\\"10945\\\"><strong data-start=\\\"10922\\\" data-end=\\\"10944\\\">0.093 in (2.36 mm)<\\\/strong>.<\\\/p><\\\/li><\\\/ul><p data-start=\\\"10947\\\" data-end=\\\"11317\\\">The most common finished thickness in general electronics is <strong data-start=\\\"11008\\\" data-end=\\\"11019\\\">1.57 mm<\\\/strong> or <strong data-start=\\\"11023\\\" data-end=\\\"11035\\\">0.062 in<\\\/strong>. But users and specific applications determine what thickness is standard for a product line. In early days, plywood was used as a substrate and boards were thicker. Over time, better options like epoxy glass (FR-4) became standard and allowed more control over finished thickness.<\\\/p><hr data-start=\\\"11319\\\" data-end=\\\"11322\\\" \\\/><h1 data-start=\\\"11324\\\" data-end=\\\"11377\\\">Factors that affect PCB thickness and copper weight<\\\/h1><p data-start=\\\"11379\\\" data-end=\\\"11476\\\">When planning board thickness and copper weight, consider these design and manufacturing factors:<\\\/p><ol data-start=\\\"11478\\\" data-end=\\\"12191\\\"><li data-start=\\\"11478\\\" data-end=\\\"11562\\\"><p data-start=\\\"11481\\\" data-end=\\\"11562\\\"><strong data-start=\\\"11481\\\" data-end=\\\"11503\\\">Major cost drivers<\\\/strong>: board size and number of layers largely determine cost.<\\\/p><\\\/li><li data-start=\\\"11563\\\" data-end=\\\"11650\\\"><p data-start=\\\"11566\\\" data-end=\\\"11650\\\"><strong data-start=\\\"11566\\\" data-end=\\\"11584\\\">PCB complexity<\\\/strong>: layer count and number of vias affect both thickness and cost.<\\\/p><\\\/li><li data-start=\\\"11651\\\" data-end=\\\"11774\\\"><p data-start=\\\"11654\\\" data-end=\\\"11774\\\"><strong data-start=\\\"11654\\\" data-end=\\\"11672\\\">Materials used<\\\/strong>: choose materials based on operating speed, operating frequency, and maximum operating temperature.<\\\/p><\\\/li><li data-start=\\\"11775\\\" data-end=\\\"11918\\\"><p data-start=\\\"11778\\\" data-end=\\\"11918\\\"><strong data-start=\\\"11778\\\" data-end=\\\"11803\\\">Operating environment<\\\/strong>: whether the board must withstand high temperature, humidity, or mechanical stress will affect thickness choice.<\\\/p><\\\/li><li data-start=\\\"11919\\\" data-end=\\\"12060\\\"><p data-start=\\\"11922\\\" data-end=\\\"12060\\\"><strong data-start=\\\"11922\\\" data-end=\\\"11947\\\">Manufacturing factors<\\\/strong>: hole sizes and counts, copper weight, and surface finish options influence board thickness and final outcome.<\\\/p><\\\/li><li data-start=\\\"12061\\\" data-end=\\\"12191\\\"><p data-start=\\\"12064\\\" data-end=\\\"12191\\\"><strong data-start=\\\"12064\\\" data-end=\\\"12127\\\">Panelization method, gap between boards, and trace geometry<\\\/strong>: these affect routing, manufacturability, and final dimensions.<\\\/p><\\\/li><\\\/ol><hr data-start=\\\"12193\\\" data-end=\\\"12196\\\" \\\/><h1 data-start=\\\"12198\\\" data-end=\\\"12251\\\">How to specify PCB copper thickness and trace width<\\\/h1><p data-start=\\\"12253\\\" data-end=\\\"12783\\\">You can use a <strong data-start=\\\"12267\\\" data-end=\\\"12293\\\">trace width calculator<\\\/strong> to specify the copper thickness and trace width needed for a certain current. The tool works like a normal calculator: you input the current, allowable temperature rise, copper weight, PCB thickness, and other specs, and the calculator returns the required trace width and copper thickness. Many calculators provide precision down to <strong data-start=\\\"12628\\\" data-end=\\\"12639\\\">0.01 mm<\\\/strong> for accurate results. If your application requires the finished thickness to stay below a given limit, plan accordingly and adjust the stackup.<\\\/p><hr data-start=\\\"12785\\\" data-end=\\\"12788\\\" \\\/><h1 data-start=\\\"12790\\\" data-end=\\\"12838\\\">Things to remember when choosing PCB thickness<\\\/h1><p data-start=\\\"12840\\\" data-end=\\\"12954\\\">When you decide on board thickness to get better durability and performance, keep these specs and factors in mind:<\\\/p><ul data-start=\\\"12955\\\" data-end=\\\"13229\\\"><li data-start=\\\"12955\\\" data-end=\\\"12988\\\"><p data-start=\\\"12957\\\" data-end=\\\"12988\\\">Weight of the finished board.<\\\/p><\\\/li><li data-start=\\\"12989\\\" data-end=\\\"13026\\\"><p data-start=\\\"12991\\\" data-end=\\\"13026\\\">Flexibility or rigidity required.<\\\/p><\\\/li><li data-start=\\\"13027\\\" data-end=\\\"13079\\\"><p data-start=\\\"13029\\\" data-end=\\\"13079\\\">Impedance matching needs for high-speed signals.<\\\/p><\\\/li><li data-start=\\\"13080\\\" data-end=\\\"13124\\\"><p data-start=\\\"13082\\\" data-end=\\\"13124\\\">Component height and space on the board.<\\\/p><\\\/li><li data-start=\\\"13125\\\" data-end=\\\"13182\\\"><p data-start=\\\"13127\\\" data-end=\\\"13182\\\">Compatibility with the rest of the mechanical design.<\\\/p><\\\/li><li data-start=\\\"13183\\\" data-end=\\\"13229\\\"><p data-start=\\\"13185\\\" data-end=\\\"13229\\\">Overall design rules and layout constraints.<\\\/p><\\\/li><\\\/ul><hr data-start=\\\"13231\\\" data-end=\\\"13234\\\" \\\/><h1 data-start=\\\"13236\\\" data-end=\\\"13272\\\">What about custom board thickness?<\\\/h1><p data-start=\\\"13274\\\" data-end=\\\"13529\\\">Raw panels and sheets for PCB manufacturing are widely available. Many customization options exist so manufacturers can meet specific specs. You can choose thickness from <strong data-start=\\\"13445\\\" data-end=\\\"13465\\\">0.2 mm to 6.3 mm<\\\/strong> in <strong data-start=\\\"13469\\\" data-end=\\\"13480\\\">0.01 mm<\\\/strong> increments in many shops. The steps usually are:<\\\/p><ul data-start=\\\"13530\\\" data-end=\\\"13688\\\"><li data-start=\\\"13530\\\" data-end=\\\"13593\\\"><p data-start=\\\"13532\\\" data-end=\\\"13593\\\">Decide the common core\\\/prepreg thicknesses you want to use.<\\\/p><\\\/li><li data-start=\\\"13594\\\" data-end=\\\"13688\\\"><p data-start=\\\"13596\\\" data-end=\\\"13688\\\">Match them with copper foil, plated copper, and solder mask to reach the finished thickness.<\\\/p><\\\/li><\\\/ul><p data-start=\\\"13690\\\" data-end=\\\"13740\\\">Points to remember when ordering custom thickness:<\\\/p><ol data-start=\\\"13741\\\" data-end=\\\"14253\\\"><li data-start=\\\"13741\\\" data-end=\\\"13898\\\"><p data-start=\\\"13744\\\" data-end=\\\"13898\\\"><strong data-start=\\\"13744\\\" data-end=\\\"13763\\\">Turnaround time<\\\/strong>: uncommon thicknesses require nonstandard material and so lead times increase. This affects delivery schedules and development time.<\\\/p><\\\/li><li data-start=\\\"13899\\\" data-end=\\\"14110\\\"><p data-start=\\\"13902\\\" data-end=\\\"14110\\\"><strong data-start=\\\"13902\\\" data-end=\\\"13929\\\">CM equipment capability<\\\/strong>: choose a contract manufacturer (CM) that has the right equipment. If the CM cannot manufacture your desired thickness, you may need to compromise and change some design choices.<\\\/p><\\\/li><li data-start=\\\"14111\\\" data-end=\\\"14253\\\"><p data-start=\\\"14114\\\" data-end=\\\"14253\\\"><strong data-start=\\\"14114\\\" data-end=\\\"14133\\\">Additional cost<\\\/strong>: custom specs cause higher production cost. Special materials, strict tolerances, and extra process steps all add cost.<\\\/p><\\\/li><\\\/ol><p data-start=\\\"14255\\\" data-end=\\\"14481\\\">Using custom thickness can improve the product\\u2019s performance and unique function. But multi-layer and custom boards come with extra handling, process steps, and material costs. That can make multilayer custom boards expensive.<\\\/p><p data-start=\\\"14483\\\" data-end=\\\"14741\\\">Having a reliable manufacturing partner helps reach the desired thickness smoothly. The usual first step is to pick standard core\\\/prepreg thickness values and then combine them with plated copper and copper foil and the chosen solder mask and surface finish.<\\\/p><hr data-start=\\\"14743\\\" data-end=\\\"14746\\\" \\\/><h1 data-start=\\\"14748\\\" data-end=\\\"14786\\\">PHILIFAST services and what we offer<\\\/h1><p data-start=\\\"14788\\\" data-end=\\\"15020\\\">At PHILIFAST, we meet customer needs with high-quality and accurate prototypes. We can support both standard and custom requirements and we pay attention to design intent. Highlights of our custom PCB manufacturing services include:<\\\/p><ul data-start=\\\"15021\\\" data-end=\\\"15345\\\"><li data-start=\\\"15021\\\" data-end=\\\"15061\\\"><p data-start=\\\"15023\\\" data-end=\\\"15061\\\"><strong data-start=\\\"15023\\\" data-end=\\\"15058\\\">Accurate quotes within 24 hours<\\\/strong>.<\\\/p><\\\/li><li data-start=\\\"15062\\\" data-end=\\\"15147\\\"><p data-start=\\\"15064\\\" data-end=\\\"15147\\\"><strong data-start=\\\"15064\\\" data-end=\\\"15115\\\">Turnkey process completed in three days or less<\\\/strong> for many standard prototypes.<\\\/p><\\\/li><li data-start=\\\"15148\\\" data-end=\\\"15209\\\"><p data-start=\\\"15150\\\" data-end=\\\"15209\\\">Shortened procurement time through supplier coordination.<\\\/p><\\\/li><li data-start=\\\"15210\\\" data-end=\\\"15268\\\"><p data-start=\\\"15212\\\" data-end=\\\"15268\\\">Focused quality control and certification as required.<\\\/p><\\\/li><li data-start=\\\"15269\\\" data-end=\\\"15345\\\"><p data-start=\\\"15271\\\" data-end=\\\"15345\\\">High PCB quality and <strong data-start=\\\"15292\\\" data-end=\\\"15330\\\">automated optical inspection (AOI)<\\\/strong> in production.<\\\/p><\\\/li><\\\/ul><p data-start=\\\"15347\\\" data-end=\\\"15670\\\">If you need PCB manufacturing, PHILIFAST can offer prototypes and production services. We check customer requirements, discuss layer counts, material selections, copper weight, and other critical parameters. We also explain the pros and cons of heavy copper and how it will affect board cost, weight, and manufacturability.<\\\/p><hr data-start=\\\"15672\\\" data-end=\\\"15675\\\" \\\/><h1 data-start=\\\"15677\\\" data-end=\\\"15722\\\">Short technical summary and recommendations<\\\/h1><ul data-start=\\\"15724\\\" data-end=\\\"16829\\\"><li data-start=\\\"15724\\\" data-end=\\\"15810\\\"><p data-start=\\\"15726\\\" data-end=\\\"15810\\\">Thick-copper PCBs are meant for high current and high thermal demand applications.<\\\/p><\\\/li><li data-start=\\\"15811\\\" data-end=\\\"15942\\\"><p data-start=\\\"15813\\\" data-end=\\\"15942\\\">They use much thicker copper, commonly measured in oz\\\/ft\\u00b2 or \\u00b5m. Typical thick-copper values lie between <strong data-start=\\\"15918\\\" data-end=\\\"15939\\\">105 \\u00b5m and 400 \\u00b5m<\\\/strong>.<\\\/p><\\\/li><li data-start=\\\"15943\\\" data-end=\\\"16098\\\"><p data-start=\\\"15945\\\" data-end=\\\"16098\\\">Heavy copper improves current carrying capacity and heat dissipation. It reduces thermal strain and can allow smaller board layouts for the same power.<img class=\\\"alignnone size-full wp-image-2723\\\" src=\\\"https:\\\/\\\/flj-pcb.com\\\/wp-content\\\/uploads\\\/2025\\\/09\\\/The-Heat-Dissipation-Advantages-of-Thick-Copper-PCBs.webp\\\" alt=\\\"The Heat Dissipation Advantages of Thick Copper PCBs\\\" width=\\\"599\\\" height=\\\"393\\\" \\\/><\\\/p><\\\/li><li data-start=\\\"16099\\\" data-end=\\\"16206\\\"><p data-start=\\\"16101\\\" data-end=\\\"16206\\\">Heavy copper is commonly applied by electroplating. It also strengthens plated holes and via sidewalls.<\\\/p><\\\/li><li data-start=\\\"16207\\\" data-end=\\\"16423\\\"><p data-start=\\\"16209\\\" data-end=\\\"16423\\\">Designers must plan for additional thickness caused by plating, solder mask, and surface finish. Finished thickness is not the same as raw core thickness. Consider raw material tolerance and lamination tolerance.<\\\/p><\\\/li><li data-start=\\\"16424\\\" data-end=\\\"16661\\\"><p data-start=\\\"16426\\\" data-end=\\\"16661\\\">Standard finished board thicknesses include <strong data-start=\\\"16470\\\" data-end=\\\"16492\\\">0.78 mm (0.031 in)<\\\/strong>, <strong data-start=\\\"16494\\\" data-end=\\\"16516\\\">1.57 mm (0.062 in)<\\\/strong>, and <strong data-start=\\\"16522\\\" data-end=\\\"16544\\\">2.36 mm (0.093 in)<\\\/strong>, with <strong data-start=\\\"16551\\\" data-end=\\\"16562\\\">1.57 mm<\\\/strong> being the most common in general electronics. Custom boards can range from <strong data-start=\\\"16638\\\" data-end=\\\"16658\\\">0.2 mm to 6.3 mm<\\\/strong>.<\\\/p><\\\/li><li data-start=\\\"16662\\\" data-end=\\\"16829\\\"><p data-start=\\\"16664\\\" data-end=\\\"16829\\\">When you design, consider cost drivers (size and layers), complexity (vias and layers), materials (speed, frequency, max temperature), and the operating environment.<\\\/p><\\\/li><\\\/ul>\",\"display_condition_list\":[{\"display_condition_login_status\":\"subscriber\",\"_id\":\"63054c4\"}]},\"elements\":[],\"widgetType\":\"text-editor\"}],\"isInner\":false},{\"id\":\"efck3nk\",\"elType\":\"section\",\"settings\":{\"gap\":\"no\",\"content_position\":\"top\",\"background_background\":\"classic\",\"background_color\":\"#FFFFFF00\",\"background_position\":\"bottom center\",\"background_attachment\":\"scroll\",\"background_repeat\":\"no-repeat\",\"background_size\":\"cover\",\"background_size_mobile\":\"cover\",\"background_overlay_background\":\"classic\",\"background_overlay_color_b\":\"rgba(255,255,255,0)\",\"background_overlay_opacity\":{\"unit\":\"px\",\"size\":\"\",\"sizes\":[]},\"padding\":{\"unit\":\"px\",\"top\":\"120\",\"right\":\"0\",\"bottom\":\"120\",\"left\":\"0\",\"isLinked\":false},\"padding_tablet\":{\"unit\":\"px\",\"top\":\"80\",\"right\":\"40\",\"bottom\":\"80\",\"left\":\"40\",\"isLinked\":false},\"padding_mobile\":{\"unit\":\"px\",\"top\":\"50\",\"right\":\"25\",\"bottom\":\"50\",\"left\":\"25\",\"isLinked\":false},\"content_width\":{\"unit\":\"px\",\"size\":800,\"sizes\":[]},\"display_condition_list\":[{\"display_condition_login_status\":\"subscriber\",\"_id\":\"27282f3\"}]},\"elements\":[{\"id\":\"7882748\",\"elType\":\"column\",\"settings\":{\"_column_size\":100,\"_inline_size\":null,\"padding\":{\"unit\":\"px\",\"top\":\"0\",\"right\":\"0\",\"bottom\":\"0\",\"left\":\"0\",\"isLinked\":true},\"space_between_widgets\":40,\"display_condition_list\":[{\"display_condition_login_status\":\"subscriber\",\"_id\":\"af07be0\"}]},\"elements\":[{\"id\":\"9fc6712\",\"elType\":\"widget\",\"settings\":{\"title\":\"Frequently Asked Questions\",\"align\":\"center\",\"display_condition_list\":[{\"display_condition_login_status\":\"subscriber\",\"_id\":\"bf4a911\"}]},\"elements\":[],\"widgetType\":\"heading\"},{\"id\":\"631b990\",\"elType\":\"widget\",\"settings\":{\"tabs\":[{\"tab_title\":\"What is a heavy-copper PCB?\",\"tab_content\":\"<p>A heavy-copper PCB is a board that uses copper foil or plating significantly thicker than standard (commonly \\u22653 oz\\\/ft\\u00b2 \\u2248105 \\u00b5m, though some vendors mark \\u22652 oz as heavy copper).<\\\/p>\",\"_id\":\"1f7b19c\"},{\"_id\":\"5b2cefb\",\"tab_title\":\"Why choose heavy-copper PCBs?\",\"tab_content\":\"<p>They increase current-carrying capacity, improve thermal dissipation, and add mechanical strength\\u2014suitable for power electronics and high-reliability systems.<\\\/p>\"},{\"_id\":\"116e4aa\",\"tab_title\":\"What copper weights are typical for heavy-copper boards?\",\"tab_content\":\"<p>Common heavy weights include 2 oz, 3 oz, 4 oz and higher (some designs go to 6 oz or beyond for specialized applications).<\\\/p>\"},{\"_id\":\"5d0a55a\",\"tab_title\":\"How does heavy copper affect trace and via design?\",\"tab_content\":\"<p>Thicker copper needs wider\\\/adjusted trace geometries, modified etch allowances, and special via plating (wrap plating or build-up) to ensure reliable conductivity and manufacturability.<\\\/p>\"},{\"_id\":\"8707733\",\"tab_title\":\"How should I specify heavy copper in my fabrication notes?\",\"tab_content\":\"<p>State finished copper weight (e.g., \\u201c3 oz finished \\\/ \\u2248105 \\u00b5m on layer X\\u201d), required trace widths, via plating thickness, impedance or temperature-rise targets, and preferred surface finish. 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class=\\\"elementor-section elementor-top-section elementor-element elementor-element-efck3nk elementor-section-content-top elementor-section-boxed elementor-section-height-default elementor-section-height-default\\\" data-id=\\\"efck3nk\\\" data-element_type=\\\"section\\\" data-settings=\\\"{&quot;background_background&quot;:&quot;classic&quot;}\\\">\\n\\t\\t\\t\\t\\t\\t\\t<div class=\\\"elementor-background-overlay\\\"><\\\/div>\\n\\t\\t\\t\\t\\t\\t\\t<div class=\\\"elementor-container elementor-column-gap-no\\\">\\n\\t\\t\\t\\t\\t<div class=\\\"elementor-column elementor-col-100 elementor-top-column elementor-element elementor-element-7882748\\\" data-id=\\\"7882748\\\" data-element_type=\\\"column\\\">\\n\\t\\t\\t<div class=\\\"elementor-widget-wrap elementor-element-populated\\\">\\n\\t\\t\\t\\t\\t\\t<div class=\\\"elementor-element elementor-element-9fc6712 elementor-widget elementor-widget-heading\\\" data-id=\\\"9fc6712\\\" data-element_type=\\\"widget\\\" data-widget_type=\\\"heading.default\\\">\\n\\t\\t\\t\\t<div class=\\\"elementor-widget-container\\\">\\n\\t\\t\\t\\t\\t<h2 class=\\\"elementor-heading-title elementor-size-default\\\">Frequently Asked Questions<\\\/h2>\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t<div class=\\\"elementor-element elementor-element-631b990 elementor-widget elementor-widget-accordion\\\" data-id=\\\"631b990\\\" data-element_type=\\\"widget\\\" data-widget_type=\\\"accordion.default\\\">\\n\\t\\t\\t\\t<div class=\\\"elementor-widget-container\\\">\\n\\t\\t\\t\\t\\t\\t\\t<div class=\\\"elementor-accordion\\\">\\n\\t\\t\\t\\t\\t\\t\\t<div class=\\\"elementor-accordion-item\\\">\\n\\t\\t\\t\\t\\t<div id=\\\"elementor-tab-title-1031\\\" class=\\\"elementor-tab-title\\\" data-tab=\\\"1\\\" role=\\\"button\\\" aria-controls=\\\"elementor-tab-content-1031\\\" aria-expanded=\\\"false\\\">\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon elementor-accordion-icon-right\\\" aria-hidden=\\\"true\\\">\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon-closed\\\"><svg class=\\\"e-font-icon-svg e-fas-plus-circle\\\" viewBox=\\\"0 0 512 512\\\" xmlns=\\\"http:\\\/\\\/www.w3.org\\\/2000\\\/svg\\\"><path d=\\\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zm144 276c0 6.6-5.4 12-12 12h-92v92c0 6.6-5.4 12-12 12h-56c-6.6 0-12-5.4-12-12v-92h-92c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h92v-92c0-6.6 5.4-12 12-12h56c6.6 0 12 5.4 12 12v92h92c6.6 0 12 5.4 12 12v56z\\\"><\\\/path><\\\/svg><\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon-opened\\\"><svg class=\\\"e-font-icon-svg e-fas-minus-circle\\\" viewBox=\\\"0 0 512 512\\\" xmlns=\\\"http:\\\/\\\/www.w3.org\\\/2000\\\/svg\\\"><path d=\\\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zM124 296c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h264c6.6 0 12 5.4 12 12v56c0 6.6-5.4 12-12 12H124z\\\"><\\\/path><\\\/svg><\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<a class=\\\"elementor-accordion-title\\\" tabindex=\\\"0\\\">What is a heavy-copper PCB?<\\\/a>\\n\\t\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t\\t<div id=\\\"elementor-tab-content-1031\\\" class=\\\"elementor-tab-content elementor-clearfix\\\" data-tab=\\\"1\\\" role=\\\"region\\\" aria-labelledby=\\\"elementor-tab-title-1031\\\"><p>A heavy-copper PCB is a board that uses copper foil or plating significantly thicker than standard (commonly \\u22653 oz\\\/ft\\u00b2 \\u2248105 \\u00b5m, though some vendors mark \\u22652 oz as heavy copper).<\\\/p><\\\/div>\\n\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t\\t\\t\\t<div class=\\\"elementor-accordion-item\\\">\\n\\t\\t\\t\\t\\t<div id=\\\"elementor-tab-title-1032\\\" class=\\\"elementor-tab-title\\\" data-tab=\\\"2\\\" role=\\\"button\\\" aria-controls=\\\"elementor-tab-content-1032\\\" aria-expanded=\\\"false\\\">\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon elementor-accordion-icon-right\\\" aria-hidden=\\\"true\\\">\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon-closed\\\"><svg class=\\\"e-font-icon-svg e-fas-plus-circle\\\" viewBox=\\\"0 0 512 512\\\" xmlns=\\\"http:\\\/\\\/www.w3.org\\\/2000\\\/svg\\\"><path d=\\\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zm144 276c0 6.6-5.4 12-12 12h-92v92c0 6.6-5.4 12-12 12h-56c-6.6 0-12-5.4-12-12v-92h-92c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h92v-92c0-6.6 5.4-12 12-12h56c6.6 0 12 5.4 12 12v92h92c6.6 0 12 5.4 12 12v56z\\\"><\\\/path><\\\/svg><\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon-opened\\\"><svg class=\\\"e-font-icon-svg e-fas-minus-circle\\\" viewBox=\\\"0 0 512 512\\\" xmlns=\\\"http:\\\/\\\/www.w3.org\\\/2000\\\/svg\\\"><path d=\\\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zM124 296c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h264c6.6 0 12 5.4 12 12v56c0 6.6-5.4 12-12 12H124z\\\"><\\\/path><\\\/svg><\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<a class=\\\"elementor-accordion-title\\\" tabindex=\\\"0\\\">Why choose heavy-copper PCBs?<\\\/a>\\n\\t\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t\\t<div id=\\\"elementor-tab-content-1032\\\" class=\\\"elementor-tab-content elementor-clearfix\\\" data-tab=\\\"2\\\" role=\\\"region\\\" aria-labelledby=\\\"elementor-tab-title-1032\\\"><p>They increase current-carrying capacity, improve thermal dissipation, and add mechanical strength\\u2014suitable for power electronics and high-reliability systems.<\\\/p><\\\/div>\\n\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t\\t\\t\\t<div class=\\\"elementor-accordion-item\\\">\\n\\t\\t\\t\\t\\t<div id=\\\"elementor-tab-title-1033\\\" class=\\\"elementor-tab-title\\\" data-tab=\\\"3\\\" role=\\\"button\\\" aria-controls=\\\"elementor-tab-content-1033\\\" aria-expanded=\\\"false\\\">\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon elementor-accordion-icon-right\\\" aria-hidden=\\\"true\\\">\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon-closed\\\"><svg class=\\\"e-font-icon-svg e-fas-plus-circle\\\" viewBox=\\\"0 0 512 512\\\" xmlns=\\\"http:\\\/\\\/www.w3.org\\\/2000\\\/svg\\\"><path d=\\\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zm144 276c0 6.6-5.4 12-12 12h-92v92c0 6.6-5.4 12-12 12h-56c-6.6 0-12-5.4-12-12v-92h-92c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h92v-92c0-6.6 5.4-12 12-12h56c6.6 0 12 5.4 12 12v92h92c6.6 0 12 5.4 12 12v56z\\\"><\\\/path><\\\/svg><\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon-opened\\\"><svg class=\\\"e-font-icon-svg e-fas-minus-circle\\\" viewBox=\\\"0 0 512 512\\\" xmlns=\\\"http:\\\/\\\/www.w3.org\\\/2000\\\/svg\\\"><path d=\\\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zM124 296c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h264c6.6 0 12 5.4 12 12v56c0 6.6-5.4 12-12 12H124z\\\"><\\\/path><\\\/svg><\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<a class=\\\"elementor-accordion-title\\\" tabindex=\\\"0\\\">What copper weights are typical for heavy-copper boards?<\\\/a>\\n\\t\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t\\t<div id=\\\"elementor-tab-content-1033\\\" class=\\\"elementor-tab-content elementor-clearfix\\\" data-tab=\\\"3\\\" role=\\\"region\\\" aria-labelledby=\\\"elementor-tab-title-1033\\\"><p>Common heavy weights include 2 oz, 3 oz, 4 oz and higher (some designs go to 6 oz or beyond for specialized applications).<\\\/p><\\\/div>\\n\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t\\t\\t\\t<div class=\\\"elementor-accordion-item\\\">\\n\\t\\t\\t\\t\\t<div id=\\\"elementor-tab-title-1034\\\" class=\\\"elementor-tab-title\\\" data-tab=\\\"4\\\" role=\\\"button\\\" aria-controls=\\\"elementor-tab-content-1034\\\" aria-expanded=\\\"false\\\">\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon elementor-accordion-icon-right\\\" aria-hidden=\\\"true\\\">\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon-closed\\\"><svg class=\\\"e-font-icon-svg e-fas-plus-circle\\\" viewBox=\\\"0 0 512 512\\\" xmlns=\\\"http:\\\/\\\/www.w3.org\\\/2000\\\/svg\\\"><path d=\\\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zm144 276c0 6.6-5.4 12-12 12h-92v92c0 6.6-5.4 12-12 12h-56c-6.6 0-12-5.4-12-12v-92h-92c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h92v-92c0-6.6 5.4-12 12-12h56c6.6 0 12 5.4 12 12v92h92c6.6 0 12 5.4 12 12v56z\\\"><\\\/path><\\\/svg><\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon-opened\\\"><svg class=\\\"e-font-icon-svg e-fas-minus-circle\\\" viewBox=\\\"0 0 512 512\\\" xmlns=\\\"http:\\\/\\\/www.w3.org\\\/2000\\\/svg\\\"><path d=\\\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zM124 296c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h264c6.6 0 12 5.4 12 12v56c0 6.6-5.4 12-12 12H124z\\\"><\\\/path><\\\/svg><\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<a class=\\\"elementor-accordion-title\\\" tabindex=\\\"0\\\">How does heavy copper affect trace and via design?<\\\/a>\\n\\t\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t\\t<div id=\\\"elementor-tab-content-1034\\\" class=\\\"elementor-tab-content elementor-clearfix\\\" data-tab=\\\"4\\\" role=\\\"region\\\" aria-labelledby=\\\"elementor-tab-title-1034\\\"><p>Thicker copper needs wider\\\/adjusted trace geometries, modified etch allowances, and special via plating (wrap plating or build-up) to ensure reliable conductivity and manufacturability.<\\\/p><\\\/div>\\n\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t\\t\\t\\t<div class=\\\"elementor-accordion-item\\\">\\n\\t\\t\\t\\t\\t<div id=\\\"elementor-tab-title-1035\\\" class=\\\"elementor-tab-title\\\" data-tab=\\\"5\\\" role=\\\"button\\\" aria-controls=\\\"elementor-tab-content-1035\\\" aria-expanded=\\\"false\\\">\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon elementor-accordion-icon-right\\\" aria-hidden=\\\"true\\\">\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon-closed\\\"><svg class=\\\"e-font-icon-svg e-fas-plus-circle\\\" viewBox=\\\"0 0 512 512\\\" xmlns=\\\"http:\\\/\\\/www.w3.org\\\/2000\\\/svg\\\"><path d=\\\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zm144 276c0 6.6-5.4 12-12 12h-92v92c0 6.6-5.4 12-12 12h-56c-6.6 0-12-5.4-12-12v-92h-92c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h92v-92c0-6.6 5.4-12 12-12h56c6.6 0 12 5.4 12 12v92h92c6.6 0 12 5.4 12 12v56z\\\"><\\\/path><\\\/svg><\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t<span class=\\\"elementor-accordion-icon-opened\\\"><svg class=\\\"e-font-icon-svg e-fas-minus-circle\\\" viewBox=\\\"0 0 512 512\\\" xmlns=\\\"http:\\\/\\\/www.w3.org\\\/2000\\\/svg\\\"><path d=\\\"M256 8C119 8 8 119 8 256s111 248 248 248 248-111 248-248S393 8 256 8zM124 296c-6.6 0-12-5.4-12-12v-56c0-6.6 5.4-12 12-12h264c6.6 0 12 5.4 12 12v56c0 6.6-5.4 12-12 12H124z\\\"><\\\/path><\\\/svg><\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<\\\/span>\\n\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t\\t<a class=\\\"elementor-accordion-title\\\" tabindex=\\\"0\\\">How should I specify heavy copper in my fabrication notes?<\\\/a>\\n\\t\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t\\t<div id=\\\"elementor-tab-content-1035\\\" class=\\\"elementor-tab-content elementor-clearfix\\\" data-tab=\\\"5\\\" role=\\\"region\\\" aria-labelledby=\\\"elementor-tab-title-1035\\\"><p>State finished copper weight (e.g., \\u201c3 oz finished \\\/ \\u2248105 \\u00b5m on layer X\\u201d), required trace widths, via plating thickness, impedance or temperature-rise targets, and preferred surface finish. Clear specs avoid miscommunication.<\\\/p><\\\/div>\\n\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t<\\\/div>\\n\\t\\t\\t\\t\\t<\\\/div>\\n\\t\\t<\\\/div>\\n\\t\\t\\t\\t\\t<\\\/div>\\n\\t\\t<\\\/section>\\n\\t\\t\",\"scripts\":[],\"styles\":[]}}"],"_uag_css_file_name":["uag-css-2140.css"],"_uag_js_file_name":["uag-js-2140.js"]},"uagb_featured_image_src":{"full":false,"thumbnail":false,"medium":false,"medium_large":false,"large":false,"1536x1536":false,"2048x2048":false,"trp-custom-language-flag":false},"uagb_author_info":{"display_name":"Philifast","author_link":"https:\/\/flj-pcb.com\/de_at\/author\/2475017442jygmail-com\/"},"uagb_comment_info":0,"uagb_excerpt":"What does \u201cheavy-copper PCB\u201d mean? Printed circuit boards come in many types. One of these types is the high-current PCB, [&hellip;]","_links":{"self":[{"href":"https:\/\/flj-pcb.com\/de_at\/wp-json\/wp\/v2\/pages\/2140","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/flj-pcb.com\/de_at\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/flj-pcb.com\/de_at\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/flj-pcb.com\/de_at\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/flj-pcb.com\/de_at\/wp-json\/wp\/v2\/comments?post=2140"}],"version-history":[{"count":20,"href":"https:\/\/flj-pcb.com\/de_at\/wp-json\/wp\/v2\/pages\/2140\/revisions"}],"predecessor-version":[{"id":3335,"href":"https:\/\/flj-pcb.com\/de_at\/wp-json\/wp\/v2\/pages\/2140\/revisions\/3335"}],"up":[{"embeddable":true,"href":"https:\/\/flj-pcb.com\/de_at\/wp-json\/wp\/v2\/pages\/1898"}],"wp:attachment":[{"href":"https:\/\/flj-pcb.com\/de_at\/wp-json\/wp\/v2\/media?parent=2140"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}