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The PCB design process involves six fundamental steps that are essential for the successful production of printed circuit boards, from conception to final production. Conceptualization The first step in PCB design is defining the board’s purpose and functions, its features, connections to other circuits, placement within the final product, approximate dimensions, and environmental considerations such […]

High-power electronic products are used in various applications, such as industrial production, medical devices, and automotive. Designing high-power PCBs can be challenging due to the complexity of high-current and high-voltage circuits, which are compounded when high-speed or mixed-signal circuits are included. Selecting the proper substrate material, component placement, and stack-up design, as well as meeting

Digital printed circuit board (PCB) design is a critical process in the development of electronic devices. As technology advances, digital PCBs become more complex, requiring designers to follow a set of rules to ensure that their designs are successful. Here are the top 5 rules for digital PCB design. Follow design guidelines Every PCB design

Although the PCB design process may vary depending on the company, the fundamental steps are the same. It begins with an idea for a product that is then turned into a manufacturable product. The process includes serial and parallel paths, as well as loops for review and modification. Let’s explore the basic steps of the

The process of designing electronic products typically involves functional testing to ensure that the product operates as intended. However, redesigning a failed product can be costly and challenging. By conducting electrical testing, such as In-Circuit or Flying Probe tests, before functional testing, the failure rate can be reduced, leading to less scrapped boards. It is

An integrated and optimized multidomain environment can facilitate concurrent and efficient designs across all engineering teams, enabling better collaboration and breaking down barriers between disciplines. This can ultimately result in cost optimization, accelerated design time, improved data integrity, and better quality designs. In addition, a digitally integrated and optimized environment supports early visibility on control

Design for Manufacturing (DFM) refers to the process of designing a PCB with the manufacturing process in mind. DFM should be considered throughout the design flow in order to ensure a seamless design-to-manufacturing hand-off. However, in the past, poor quality data that does not address producibility or manufacturability has often been handed over to manufacturing,

In my previous blog, I introduced the five pillars of PCB design best practices. In this blog, I’ll focus on the second pillar, “engineering productivity and efficiency.” By optimizing engineering productivity and efficiency, you can reduce design cycle time, costs, and risks. While PCB design may be similar regardless of the company or team you

Design automation is an essential aspect of printed circuit board (PCB) design. It involves the use of software and tools to automate repetitive tasks, reduce errors, and improve efficiency. In this article, we will discuss the best practices for design automation in PCB design. The Benefits of Design Automation Design automation provides several benefits, including:

The library and design data management are critical aspects of printed circuit board (PCB) design. The library provides the necessary components and data to create a PCB layout, while data management ensures that the design is accurate, up-to-date, and easily accessible. In this article, we will discuss the best practices for managing libraries and design