Heavy copper PCB produce 4 or more ounces of copper on each layer. Four ounce copper PCBS are most commonly used in commercial products. Konsentrasi tembaga bisa nganti 200 ons saben kaki persegi. PCBS tembaga abot akeh digunakake ing elektronik lan sirkuit sing mbutuhake transmisi daya dhuwur. In addition, the thermal strength these PCBS provide is impeccable. Ing pirang-pirang aplikasi, utamane elektronik, kisaran termal kritis amarga suhu sing dhuwur bakal ngrusak komponen elektronik sing sensitif lan mengaruhi kinerja sirkuit.

Kapasitas dissipation panas & GT; PCBS tembaga abot luwih dhuwur tinimbang PCBS biasa. Heat dissipation is critical to developing robust circuits. Pemrosesan sinyal termal sing ora bener ora mung bakal mengaruhi kinerja peralatan elektronik, nanging uga bakal nyepetake umur layanan sirkuit kasebut.

High power circuit wiring can be developed using heavy copper PCBS. Mekanisme kabel iki nyedhiyakake penanganan stres termal sing luwih dipercaya lan nyedhiyakake pagawean apik nalika nggabungake pirang-pirang saluran ing piring kompak tunggal.

Heavy copper PCBS are widely used in a variety of products because they provide a variety of functions to improve circuit performance. These PCBS are widely used in high-power equipment such as transformers, radiators, inverters, military equipment, solar panels, automotive products, welding equipment and power distribution systems.

Pabrik PCB tembaga abot

Kaya PCBS standar, PCBS tembaga abot mbutuhake perbaikan luwih akeh.

Traditional heavy copper PCBS are manufactured using outdated technology, resulting in uneven tracking and undercutting on the PCB, resulting in inefficiencies. Today, however, modern manufacturing techniques support fine cuts and minimal bottom cuts.

Kualitas perawatan stres termal PCB tembaga abot

Faktor-faktor kayata stres termal penting banget kanggo ngrancang sirkuit lan insinyur kudu ngilangi sabisa-bisa.

Suwe-suwe, teknik manufaktur PCB wis berkembang, lan macem-macem teknologi PCB ditemokake, kayata PCBS aluminium, sing bisa ngatasi stres termal.

Kanggo kepentingan desainer PCB tembaga abot duwe kinerja termal lan desain ramah lingkungan nalika nyuda anggaran tenaga nalika njaga sirkuit.

Amarga komponen elektronik sing panas banget bakal nyebabake gagal, malah mbebayani nyawane, manajemen bebaya ora bisa diabaikan.

The traditional process for achieving heat dissipation quality is to use an external heat sink, connected to the heating component. Amarga, tanpa disipasi panas, bagean pemanas nyedhaki suhu dhuwur, kanggo ngilangi panas iki, radiator nggunakake panas saka bagean kasebut lan nularake liwat lingkungan sekitar. Usually, these radiators are made of copper or aluminum.The use of these radiators not only exceeded the development cost, but also required more space and time. The result, though, doesn’t even come close to the cooling power of a heavy copper PCB.

Ing PCBS tembaga sing abot, sink panas dipasang ing papan nalika digawe, tinimbang nggunakake sink panas eksternal. As the external radiator requires more space, there are fewer restrictions on the placement of the radiator.

Amarga wastafel dilapisi ing papan sirkuit lan disambungake menyang sumber panas nggunakake bolongan konduktif tinimbang nggunakake antarmuka lan sendi mekanik, panas ditransfer kanthi cepet, saengga bisa nambah wektu dissipasi panas.

Bolongan termal ing PCBS tembaga sing abot ngidini disipasi panas luwih akeh tinimbang teknologi liyane, amarga bolongan liwat termal dikembangake nganggo tembaga. Kajaba iku, kerapatan saiki saya apik lan efek kulit minimal.

Advantages of heavy copper PCB: <

Keuntungan PCB tembaga abot nggawe sing paling penting ing pangembangan sirkuit listrik dhuwur. Heavy copper concentration can handle high power and high heat, which is why high power circuits have been developed using this technology. Such circuits cannot be developed with low-copper concentrated PCBS because they cannot withstand the huge thermal stress caused by high current and flow current. PCBS tembaga abot biasane dianggep PCBS saiki dhuwur amarga kapasitas pendinginan sing signifikan.

The relationship between copper thickness and current is an important factor in using heavy copper PCB. As the concentration of copper increases, so does the total cross-sectional area of copper, which reduces the resistance in the circuit. Kaya sing kita ngerteni, kerugian ngrusak kabeh desain, lan konsentrasi tembaga bisa nggawe PCBS iki kanggo nyuda anggaran listrik.

Konduktivitas saiki minangka faktor penting, utamane nalika ngatasi sinyal daya sing sithik, lan konduktivitas PCBS tembaga abot saiki bisa ditambah resistensi minimal.

Connectors are essential for jumper connections. However, connectors are often difficult to maintain on traditional PCBS. Due to the lower strength of occasional PCBS, the connector area is usually affected by mechanical stress, but heavy copper PCBS provide higher strength and ensure higher reliability.

Pabrik PCB tembaga abot RAYMING

Pabrik PCB tembaga sing abot mbutuhake perawatan sing tepat, lan penanganan sing ora bener sajrone manufaktur bisa nyebabake kinerja sing kurang apik, mesthi nganggep layanan pabrikan sing duwe pengalaman.

RAYMING nyedhiyakake fasilitas manufaktur PCB eksekutif kanggo kabeh jinis PCBS. RAYMING has been specializing in heavy copper PCB manufacturing and developing high quality production images for the past ten years.

PCBS tembaga abot digawe ing mesin otomatis canggih, sing bisa nggawe PCBS sing bisa dipercaya. Nganti saiki, kita wis ngembangake PCBS loro lapis nganti 20 ons, PCBS multi-lapisan bobote tembaga 4-6 ons.