PCBA(Leiterplattenbestückung) stands at the heart of modern electronic devices, alles kompakt, effizient, und zuverlässige elektronische Produkte, die wir heute verwenden, verlassen sich darauf. Aber für einige Anfänger, Sie wissen nicht viel über PCBA, so we decided to write an article like this to comprehensively introduce PCBA including its types, production process, PCBA testing methods, usw. Beginnen wir mit seiner Definition.
PCBA refers to the finished board after all the electronic components are soldered onto a printed circuit board (PCB). And we call the process of assembling components on the circuit board as PCB Assembly, which plays a very significant role in the manufacturing of electronic devices. The main purpose of a PCBA is to act as a platform that supports the necessary electronic components to work harmoniously, so as to achieve the intended functions of the electronic device.
According to the assembly techniques, we can divide PCBAs into 3 Typen: SMT PCBAs, through-hole assembled PCBAs, and mixed-technology PCBAs.
SMT PCBAs, wie der Name schon sagt, verwenden Oberflächenmontagetechnologie where the components are mounted directly onto the PCB and connected to the traces through reflow soldering. SMT components are comparatively small and can be assembled on both sides of the PCB to achieve compact designs. PCBAs with surface mount assembled parts are used in most electronic products due to their enhanced performance and the ability to save space. And BGA assembly is particularly important for high-density connections in applications such as processors and memory chips.
Through-hole assembled PCBAs refer to printed circuit boards where electronic components are mounted using the through-hole technology. In this assembly method, components have leads that are passed through holes drilled through the PCB and soldered on the other side. This assembly technique comes with benefits such as improved mechanical joints and fast prototyping. jedoch, they are not suitable for small and dense PCB designs as Durchkontaktierte Komponenten are relatively larger in size than the Surface Mount Devices (SMDs).
In mixed-technology printed circuit board assembly, through-hole and surface mount components are used on the same board. This kind of PCBA capitalizes on the benefits associated with both through-hole and surface mount techniques of assembly. It is usually applied where the design involves the usage of through hole connection which is mechanically secure and surface mount technology which affords density.
PCB und PCBA sind zwei Begriffe, die sehr ähnlich aussehen, und Anfänger in der Elektronikbranche sind oft verwirrt darüber. Was ist also der Unterschied zwischen PCB und PCBA??
Als grundlegende Plattform dient eine Leiterplatte, bestehend aus dem nicht leitenden Substrat und leitenden Pfaden, die verschiedene Komponenten elektrisch verbinden, jedoch ohne angeschlossene elektronische Komponenten. Es handelt sich im Wesentlichen um eine leere Platine, die darauf wartet, Komponenten hinzuzufügen. PCBA, auf der anderen Seite, stellt den nächsten Schritt im Herstellungsprozess dar, wo elektronische Komponenten wie Widerstände, Kondensatoren, und integrierte Schaltkreise(ICs) are soldered onto the PCB, Dies macht es zu einer vollständig montierten und funktionsfähigen Leiterplatte, die für den Einsatz in elektronischen Geräten bereit ist.
Below we have listed a table that lists the main differences between PCB and PCBA:
Besonderheit | PCB | PCBA |
Definition | Bare board with conductive tracks | Completed board with components |
Komponenten | No components attached | Components soldered onto the board |
Funktionalität | Cannot function on its own | Ready for use in electronic devices |
Komplexität | Simpler | Komplexer |
Kosten | Untere | Höher (includes components and assembly) |
Testen | Basic electrical tests | Functional and quality tests |
Time to produce | Shorter | Longer (includes assembly time) |
The PCBA process involves several crucial steps to assemble a functional printed circuit board:
Choosing the best PCBA manufacturer is crucial to ensuring the quality and reliability of the products. Below we list key factors that should be considered when finding your PCBA manufacturing partner:
The quality is always the primary concern. In selecting a PCBA manufacturer, we must consider if they meet the standard, if they have complied with a certification like ISO9001, and if they have a strict quality control system.
In order to work on your project, a PCBA manufacturer must be capable of meeting the specifications of your project. This comprises their skill in handling various technologies of the PCBA such as through-hole and surface-mount technologies; their ability to handle the various components and materials, and their manufacturing capabilities as well.
Though quality is crucial, one cannot overlook the cost factor in manufacturing the PCBA. It is always ideal for us to work with a PCBA manufacturer who provides affordable prices and quality products at the same time.
Another important consideration is the time that it takes to produce the PCBA. In dieser Hinsicht, it is essential to choose a manufacturer that is well capable of working within your time frame to deliver high-quality boards.
Als führender PCBA-Hersteller in China, MOKO Technology ist bestrebt, hochwertige Leiterplatten zu wettbewerbsfähigen Preisen zu liefern, mit der Verpflichtung zur Transparenz und ohne versteckte Gebühren. Wir beherrschen verschiedene Leiterplattenbestückungstechnologien, und unsere hochmoderne Einrichtung ist darauf ausgelegt, den unterschiedlichen Bedürfnissen unserer Kunden gerecht zu werden. We have a stringent quality control process to ensure the quality of each product. Kontaktieren Sie uns to start your project now!
What factors affect PCBA cost?
Major factors affecting PCBA cost include the size of the board, Anzahl der Schichten, Komplexität, number of components, volume of production, type of tests that need to be done, and the time it takes to complete. Higher complexity and shorter turnaround time usually lead to the higher cost.
What’s the difference between SMT and through-hole assembly?
SMT is the process that places components on the surface of the PCB while through-hole involves insertion of the components through drilled holes on the PCB and soldering on the other side of the board. The SMT enables a higher component density and the technique is more widely used in modern PCBAs.
Can I use both through-hole and surface-mount components on the same PCBA?
Ja, through-hole and surface-mount components can be used on the same PCBA, in this way, the PCBA benefits from the strong mechanical strength of through-hole and the high density of surface-mount technology.
What are common PCBA defects?
Some of the common defects are solder bridges, cold or dry solder joints, bad component position, fehlende Komponenten, wrong polarity, and components getting damaged due to heat during soldering.
How does MOKO Technology ensure the quality of Printed Circuit Board Assembly?
The quality control of MOKO Technology’s PCBA starts with careful designs. Ebenfalls, we have a standardized production process and implement a series of testing methods to ensure the utmost quality of each board.
Can PCBAs be repaired if they fail?
In den meisten Fällen, Ja, they can be repaired. jedoch, some severely damaged PCBAs can not be repaired. Allgemein, repairing PCBAs involves replacing components, and fixing soldering issues or damaged traces.
In the world of printed circuit board design and manufacturing, precision and accuracy are paramount.…
Soldering is a cornerstone technique in electronics assembly, it's used to connect electrical pieces and…
Heutzutage, electronic products are both compact and lightweight while performing a variety of functions. Diese…
As technology continues to advance in the electronics industry, packaging remains one of the key…
Bringing your electronic ideas to life begins with PCB drawing, which is the process of…
Printed Circuit Board design is one of the most significant processes in electronics production. Deciding…