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Vias, Sequential Lamination, and Plating: Navigating Their Role in Signal Integrity for PCB Design

Welcome to the fascinating world of PCB design, where the interplay of various elements shapes the heart of modern electronics. Today, let’s have a chat about something crucial but often underrated – the impact of vias, sequential lamination, and plating on signal integrity.
Vias, Sequential Lamination, and Plating: Navigating Their Role in Signal Integrity for PCB Design Read More

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PCB Etching

Vias, Sequential Lamination, and Plating: Navigating Their Role in Signal Integrity for PCB Design

Welcome to the fascinating world of PCB design, where the interplay of various elements shapes the heart of modern electronics. Today, let’s have a chat about something crucial but often underrated – the impact of vias, sequential lamination, and plating on signal integrity.
Vias, Sequential Lamination, and Plating: Navigating Their Role in Signal Integrity for PCB Design Read More
Designer-Fabricator Collaboration

Bridging the Gap: Why Designer-Fabricator Collaboration Matters in PCB Manufacturing

The relationship between designers and fabricators plays a crucial role in the success of any project. However, there has been an ongoing discussion about the disconnect between these two groups and the benefits of having designers who understand the intricacies of fabrication facilities.
Bridging the Gap: Why Designer-Fabricator Collaboration Matters in PCB Manufacturing Read More
PCB Manufacturing

Navigating the Ever-Changing World of PCB Manufacturing: What Designers and Engineers Need to Know

In the world of Printed Circuit Board (PCB) manufacturing, the landscape is constantly evolving. With applications spanning across various industries, including Medical, Aerospace, Military, and more, designers and design engineers need to stay ahead of the curve.
Navigating the Ever-Changing World of PCB Manufacturing: What Designers and Engineers Need to Know Read More

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Welcome Gregory Halvorson, AdvancedPCB’s New CEO

Welcome Gregory Halvorson, AdvancedPCB’s New CEO Read More

Choosing the Right Laminate Material for Your PCB Design

While PCB design has relied largely on the tried-and-true FR-4 substrate, many designs require more robust temperature or frequency performance to ensure their circuit performs optimally.
Choosing the Right Laminate Material for Your PCB Design Read More
Low-Noise Block (LNB) downconverter board

Ask Our Engineers

What happens if I don’t use a solder mask on my PCB?
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Balanced Copper Stack

Questions from the Web

I have a question about the manufacturing capability for copper weights. Is it possible to use different copper weights on the same PCB?
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Canon PCB Design

The Importance of Power and Ground Planes in PCB Design

Ground and power planes are large conductive areas in a PCB design that serve diverse purposes. Ground planes provide a common reference point for electrical signals and serve as return paths for currents.
The Importance of Power and Ground Planes in PCB Design Read More
Circuit board

Advanced PCB Routing Strategies

PCB routing is pivotal in ensuring the functionality, signal integrity, manufacturability, and reliability of electronic designs. Conductive traces are more than mere component interconnections or power distribution paths, and through effective routing, engineers can minimize signal degradation, crosstalk, and electromagnetic interference (EMI).
Advanced PCB Routing Strategies Read More
Circuit board

Meeting the Moment: Filling the Jobs in the Semiconductor Industry

The Semiconductor Industry Association, the foremost trade group in the space, projected that 67,000 of the new jobs the CHIPS Act will create are vulnerable to vacancy in 2030.
Meeting the Moment: Filling the Jobs in the Semiconductor Industry Read More
PCB Design for Signal Integrity and Manufacturability

Approaches to PCB Design for Signal Integrity and Manufacturability

fter formalizing a circuit’s functionality in a schematic diagram and deciding on the parts, devices, and technologies to employ, the next step is to create a functional PCB layout. This step aims to place all components on the PCB and establish all necessary connections, ensuring that the board dimensions are minimal and that application-specific goals, such as minimal losses or maximal signal integrity, are met.
Approaches to PCB Design for Signal Integrity and Manufacturability Read More
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Understanding High-Power PCB Requirements

Pinpointing what constitutes a high-power design can be challenging. However, high-power designs generally involve currents measuring multiple amperes or voltages extending into the kilovolt range.
Understanding High-Power PCB Requirements Read More
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