During the PCB manufacturing process, the darkening of the gold plating layer is a relatively common cosmetic defect. This not only affects the visual appearance of the product but may also indirectly impact its electrical conductivity and resistance to oxidation, resulting in unnecessary production losses. Based on practical production experience, this issue is not caused […]
High TG laminates refer to materials with a Tg value typically above 170°C; for example, common lead-free compatible laminates can have a Tg of around 185°C. Furthermore, the thermal decomposition temperature (Td) at which these laminates lose 5% of their mass is also higher—taking a standard FR4 laminate from a particular brand as an example,
In the electronic assembly process, the baking of FR4 PCBs may seem unremarkable, but it is in fact a critical step that determines the quality of the solder joints. Its primary purpose is to thoroughly remove any moisture absorbed by the board during storage, transport or whilst in the workshop environment. If moisture remains within
Rolled copper and electrolytic copper are the two main types of copper foil used in high frequency PCBs for lamination with PTFE boards. Due to differences in their manufacturing processes, there are significant variations between the two in terms of lamination strength, high-frequency performance, process compatibility and environmental resistance. Rolled copper is produced through a
Unlike standard PCB substrates, the thermal conductivity of PTFE PCBs is not determined solely by the substrate itself, but rather by the combined effects of substrate properties, filler modification, manufacturing processes and application scenarios. The core challenge in optimising thermal conductivity lies in enhancing thermal efficiency without compromising PTFE’s inherent advantages of low high-frequency loss.
What is a BGA? When dealing with high-density integrated circuits (ICs) – such as microprocessors or complex ASICs – you are likely to encounter ball grid arrays (BGAs). Unlike traditional pin-based packages, this surface-mount technology utilises a full array of solder balls on the underside of the chip, fundamentally resolving the issue of insufficient pin
Unlike standard PCBs, the core of multilayer RF PCB design lies in balancing signal integrity with manufacturability. High-frequency signals are prone to attenuation, reflection and crosstalk during transmission, and the complexity of multi-layer structures further exacerbates these issues. The core value of multilayer RF PCBs lies in utilising three-dimensional routing to overcome the performance limitations
Flexible printed circuit boards (FPCs), with their inherent properties of being bendable, foldable, lightweight, and compact, are ideally suited to the requirements of tight spaces and complex structural assemblies in sectors such as smartphones, wearable devices, automotive electronics, medical instruments and aerospace. They have become an indispensable core interconnect component in modern electronic products. The
The stack up design of a PCB (printed circuit board) directly determines its electrical performance, mechanical reliability, manufacturability and cost. Among these, Through Hole Board and HDI boards are the two main types, and there is a fundamental difference in the underlying logic of their stack up designs—this difference stems from the fundamental differences between
HDI PCB(High Density Interconnect) is a core PCB manufacturing process designed for high-density wiring, characterised primarily by the use of micro-blind vias and buried blind vias to achieve efficient interconnection between different copper layers within the circuit board. As electronic products rapidly evolve towards lighter, thinner and higher-performance designs, market demand for HDI boards continues
In the efficiency race of power electronics systems, engineers often focus on “front-end parameters” such as the on-resistance, gate charge, and reverse recovery charge of switching devices. However, a deeper, more fundamental factor—the “Substrate Diode“—whose impact is amplified after system integration, is often the hidden battleground determining the performance ceiling and long-term reliability of the
In the field of PCB manufacturing, the circuit patterning process is a critical factor in determining the performance and quality of the PCB. Among these, Tenting (subtractive process), SAP (semi-additive process) and mSAP (modified semi-additive process) are three core processes, each with its own unique characteristics and suitable applications. These three processes differ significantly in
High frequency PCBs for military radar serve as the core hardware platform within radar systems, undertaking critical tasks such as signal transmission, power amplification and processing; their performance directly determines the radar’s detection accuracy, anti-jamming capability and response speed. As military radars typically operate in the microwave to millimetre-wave bands (40–94 GHz), high frequency signals
Automated Optical Inspection (AOI) is a core quality inspection technology in the PCB manufacturing sector. It relies on machine vision and image recognition technologies, combining lighting systems, high-definition camera systems and image processing and recognition systems. By capturing images of the PCB’s surface and internal layers via high-definition cameras, and then analysing and comparing them
The design of thick copper PCBs differs significantly from that of conventional thin copper PCBs. The core challenge lies in ‘balancing high current-carrying capacity, efficient heat dissipation and manufacturing feasibility’—line width calculations must take into account both current-carrying capacity and etching processes, via design must avoid voids, and thermal management must utilise the advantages of
Underetching of PCB circuit traces primarily occurs during the etching process. Any deviation in the concentration, temperature, spray pressure or etching time of the etching solution will significantly increase the risk of underetching. Many PCB manufacturers encounter underetching issues because they adopt a ‘one-size-fits-all’ approach to parameter settings, failing to take into account the differing
Every improvement in the precision of flexible circuit formation drives the expansion of ceramic pcb into high-end applications such as 5G communications, medical electronics and aerospace. As the two core processes in the PCB manufacturing industry, subtractive and additive methods are not mutually exclusive; rather, they form a complementary and symbiotic technological landscape centred on
High-frequency, low-loss FPCs (flexible printed circuit boards) are the key medium for signal transmission in 5G communication equipment; their material properties directly determine the transmission speed, stability and coverage of 5G signals. As 5G technology evolves from the Sub-6GHz band to the millimetre-wave band, and application scenarios expand from consumer devices to industrial internet, aerospace
Metal Core PCB (MCPCBs), also known as Insulated Metal Substrate (IMS) PCBs or thermal PCBs, are a type of printed circuit board that uses a metal plate as the substrate instead of traditional FR4 fibreglass cloth, and are primarily used to address heat dissipation issues in high-power electronic components. MCPCBs consist of a three-layer structure:
Ceramic circuit boards offer unique advantages in terms of wide temperature ranges, high thermal conductivity, high-frequency stability and resistance to harsh environments, enabling them to meet the stringent requirements of extreme military sensors for substrate materials. Requirements of Extreme Military Sensors for Ceramic Circuit Boards Wide Temperature Range and Extreme Temperature ResistanceMilitary sensors are frequently
With the trend towards higher frequencies, miniaturisation and higher performance in electronic devices, high frequency PCBs (printed circuit boards) are now widely used in fields such as 5G communications, satellite communications, millimetre-wave radar and GPS modules. The choice of materials directly determines signal transmission quality, operational stability and product lifespan. Compared to standard PCBs, high
Industry Challenges, Evolution, and the Historical Framework of PCB Cutting machines Technology About pcb cutting machines, In an era where electronic product iteration cycles are measured in months, the PCB, as the physical foundation upon which everything is built, experiences amplified impacts on any bottleneck in its manufacturing process. Looking back over the past two
In the PCB manufacturing process, although pcb inks are classified as auxiliary materials, they play an indispensable role in PCB circuit boards. Different types of ink not only determine the feasibility and yield of the production process, but also directly affect the electrical performance of the PCB. Main Types of PCB Inks 1.Conductive InkConductive ink
High-Density Interconnect (HDI) PCBs, with their finer line widths, smaller via diameters and higher routing density, have become indispensable core components in sectors such as smartphones, high-end telecommunications equipment and automotive electronics. However, compared to traditional PCBs, the manufacturing costs of HDI PCBs are significantly higher, presenting a practical challenge that many companies must address
