There are many applications where a unique analog waveform is desirable. Here’s how you can generate and an...
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You may think if your devices are operating at lower frequencies then your board is not high-speed; this not the case. This blog post helps you identify whether your PCB is considered high-speed.
Understanding the overall product design process, will empower engineers to innovate a finished product that will make consumers relate to it in powerful ways.
The ad-hoc design process has merit, but when is it more advantageous to adopt an ad-hoc vs. structured design? This blog post will discuss the benefits and drawbacks of using either in your own work.
Ensuring Proper Alignment of Layers and Components on a Printed Circuit Board
Learn how to create a workflow in OrCAD PCB Editor detailing the steps required for a specific portion of your design.
Hear our recommendations on layout problems to avoid when working with PCB board-to-board connectors.
Here are some strategies for even copper distribution on your PCB
Employing the best EMI filter PCB layout guidelines requires you to view a design from a multidimensional perspective that targets electromagnetic compatibility.
Learn PCB layout rules of thumb and how to incorporate these design tips into your layout to avoid costly design errors.
Because additional layers in a stackup can impact a design in many ways, you should consider these PCB stacking techniques before you increase the layer count.
Relying on old methods can only get us so far, maybe it's time we look at other solutions
An examination of the key design rules for PCB layout, and how these rules should be used within a PCB design CAD system.
To help control thermal problems in a PCB design, it is important to understand via stitching for high current traces.
Learn about the common compromises when it comes to designing a PCB.
This article examines PCB component orientation problems and why part rotations are important both electrically and for manufacturability.
This article is about different PCB component placement defect detection methods you can use to avoid common DFM errors.
This article discusses the importance of maintaining PCB creepage and clearance standards in your circuit board layout and methods for accomplishing that.
This article will explore the differences between single-ended and differential signals and show you how to use each to your advantage in your designs.
Notes on why it's important for component placement to meet assembly requirements.
Here are some money saving methods to keep your PCB designs profitable.