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How To Work with Power Analyzer by Keysight
Exporting Results

After completing your simulation in Power Analyzer by Keysight, you will likely need to export some of the results for further analysis. In this video, we will show you how to prepare a report once the simulation is done.

Benefits of Ultra HDI
Blog
The Benefits of Ultra HDI

Learn more about the combination of using both flexible materials and ultra-HDI feature sizes in this article.

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How-To's
Plane Connect - Direct in RF Design

Designing high-frequency circuit boards requires a sharp eye toward maintaining signal integrity. Some signal connections are more prone to interruption than others. In this video, you can learn how Altium Designer's Polygon Connect Design Rule and the Thermal Relief option can help in the PCB design process.

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How To Work with Power Analyzer by Keysight
Understanding and Correcting Violations

When you finish the Power Analyzer by Keysight simulation process, you may find some design problems. In this video, we will learn how to understand and correct any violations that may arise on your board.

Blog
Concept Phase – Cooling and Airflow Part 1

Next step in our open-source laptop project is to explain how to design cooling and airflow. In this article, we can show you the first part of this process, such as airflow concept, fan measurement and clearance.

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How-To's
Routing Any Angle or Arc in RF Design

High-frequency signals require special consideration when routing. Altium Designer allows you to add RF nets to a net class, then apply design rules. Learn how, as well as some other handy high-frequency routing tips, in this video.

Harness Design
Blog
Create Connections with Harness Design

Many modern electronics have multiple boards, and connecting those different boards and systems together are harnesses. Learn more about how Altium Designer can help you create harnesses for your own multi-board designs here.

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How To Work with Power Analyzer by Keysight
Working with Power Analyzer Panel

Learn how to use the Power Analyzer software by Keysight panel. This video explains all the basic instructions and provides helpful hints for using the software effectively.

Embedded thumbnail for Which PCB Materials are used in RF Design
How-To's
Which PCB Materials are used in RF Design

High frequency signals are carried on circuit boards via transmission lines. Learn the differences between standard 50 ohm impedance microstrip lines and coplanar transmission lines in this video. We also explore the best-use cases for coplanar transmission lines, how they impact loss and interference, dielectric thicknesses, and more.

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How To Work with Power Analyzer by Keysight
Configuring Autorecognition

Before using the Power Analyzer by Keysight, it is important to configure certain parameters. In this video, we will demonstrate how to properly set up the software for auto-recognition.

Embedded thumbnail for Adding Power Nets for Simulation
How To Work with Power Analyzer by Keysight
Adding Power Nets for Simulation

One of the most important things when designing your PCB is to check and measure the quality of electrical power for your project. Power Analyzer by Keysight offers you the ability to simulate how power is distributed on your PCB. In this video, we will show you how to prepare power nets for simulation in Altium Designer.

Embedded thumbnail for How to Use Transmission Lines in RF Design
How-To's
How to Use Transmission Lines in RF Design

High frequency signals are carried on circuit boards via transmission lines. Learn the differences between standard 50 ohm impedance microstrip lines and coplanar transmission lines in this video. We also explore the best-use cases for coplanar transmission lines, how they impact loss and interference, dielectric thicknesses, and more.

Blog
Nucleo Shields Multi-Board Design

Learn how easy it is to create multi-board projects. This practical project article covers the reasons for breaking larger boards into sub-assemblies and explores the various connection options available between sub-assembly boards.

Blog
Analog Solar Tracker Project

In this article you can learn about light sensors while building an analog solar panel tracking system. This open-source project covers multi-channel design, window comparators, driving motors, and photosensors.

Blog
Concept Phase – Initial CAD Design

We are continuing our journey through the open-source laptop project. This article explains an initialization of CAD design process from the early concept and brainstorming phase.

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Star ground PCB
Blog
What is PCB Star Grounding and Why Would Anyone Use It?

If you look on the internet, you'll find some interesting grounding recommendations, and sometimes terminology gets thrown around and applied to a PCB without the proper context or understanding of real electrical behavior. DC recommendations get applied to AC, low current gets applied to high current, and vice versa... the list goes on. One of the more interesting grounding techniques you'll see as a recommendation, including on some popular engineering blogs within the industry, is the use of PCB star grounding.

Silkscreen on PCB
Blog
Your Guide to PCB Silkscreen

Every PCB has silkscreen on the surface layer, and you’ll see a range of alphanumeric codes, numbers, markings, and logos on PCB silkscreen. What exactly does it all mean, and what specifically should you include in your silkscreen layer? All designs are different, but there are some common pieces of information that will appear in any silkscreen in order to aid assembly, testing, debug, and traceability

Gibbs ringing
Blog
What Causes Gibbs Ringing in High-speed Channel Simulations?

Designing high-speed channels on complex boards requires simulations, measurements on test boards, or both to ensure the design operates as you intend. Gibbs ringing is one of these effects that can occur when calculating a channel’s response using band-limited network parameters. Just as is the case in measurements, Gibbs ringing can occur in channel simulations due to the fact that network parameters are typically band-limited.

Heated component on PCB
Blog
Efficient Heat Dissipation with SMD Heat Sinks Keeps You From Dropping PCBs

In electronics, there is the possibility that your PCB can get pretty hot due to power dissipation in certain components. There are many things to consider when dealing with heat in your board, and it starts with determining power dissipation in your design during schematic capture. If you happen to be operating within safe limits in a high power device, you might need an SMD heat sink on certain components. Ultimately, this could save your components, your product, and even the operator.

RF PCB
Blog
RF Power Supply Design and Layout Guide

One thing is certain: power supply designs can get much more complex than simply routing DC power lines to your components. RF power supply designs require special care to ensure they will function without transferring excessive noise between portions of the system, something that is made more difficult due to the high power levels involved. In addition to careful layout, circuitry needs to be designed such that the system provides highly efficient power conversion and delivery to each subsection of the system.

Prevent Overvoltage, Overcurrent and Heat logo
Blog
Methods to Protect your Circuit

Overvoltage, overcurrent, and heat are the three most likely events that can destroy our expensive silicon-based components or reduce our product’s life expectancy. The effects are often quite instant, but our product might survive several months of chronic overstress before giving up the ghost in some cases. Without adequate protection, our circuit can be vulnerable to damage, so what should we do? Or do we need to do anything?

SUBCKT sharing
Blog
SUBCKT Sharing: The Fastest Ways to Share SPICE Models Online

Today’s PCB designers and layout engineers often need to put on their simulation hat to learn more about the products they build. When you need to perform simulations, you need models for components, and simulation models often need to be shared with other team members at the project level or component level. What’s the best way for Altium Designer users to share this data? Read this article to learn more about sharing your models with other design participants. 

RF Printed Circuit Board
Blog
RF PCB Material Comparison for mmWave Devices

When some designers start talking materials, they probably default to FR4 laminates. The reality is there are many FR4 materials, each with relatively similar structure and a range of material property values. Designs on FR4 are quite different from those encountered at the low GHz range and mmWave frequencies. So what exactly changes at high frequencies, and what makes these materials different? To see just what makes a specific laminate useful as an RF PCB material, take a look at our guide below. 

Testing Challenges and Solutions
Blog
Low Cost Solutions for Automated Hardware in the Loop Testing

In today’s fast-paced world where iterations of electronics are spun at lightning speeds, we often forget one of the most critical aspects of development: testing. Even if we have that fancy test team, are we really able to utilize them for every modification, every small and insignificant change that we make to our prototypes? In this article, we will review a very low cost, yet highly effective and quite exhaustive test system that will get you that bang for your buck that you’ve been looking for.

PCB Assembly
Blog
Best Practices for Using DNI/DNP Entries in Your PCB BOM

If you’ve ever looked at the BOM for a reference design or an open-source project, you may have seen a comment in some of the entries in your BOM. This comment is either “DNP” or “DNI”. If you think about it, every component placed in the PCB requires some level of placement and routing effort, which takes time and money if you’re working for a client. This begs the question, why would anyone design a board with components they don’t plan to include in the final assembly?

Altium Designer interface
Blog
Altium OutJob Files vs. Project Release: What's the Difference?

When it’s time to share your design data with your manufacturer, it’s like taking a leap of faith. Sending off a complete documentation package might seem as easy as placing your fab files in a zip folder, but there are better ways to ensure your manufacturer understands your project and has access to all your design data. For Altium Designer users, there are multiple options for creating and packaging release data into a complete package for your manufacturers.

Power component on PCB
Blog
Testing the Limits of Your LDO's Efficiency

If you’re designing a circuit board to be powered by anything except a bench-top regulated power supply, you’ll need to select a power regulator to place on your board. Just like any other component, your regulator has stated operating specs you’ll see in a product summary, and it has more detailed specs you’ll find in a datasheet. The fine details in your datasheets are easy to overlook, but they are the major factors that determine how your component will interact with the rest of your system.

PCB Laboratory Equipment
Blog
How Total Harmonic Distortion Affects Your Power System

It would be nice if the power that came from the wall was truly noise-free. Unfortunately, this is not the case, and although a power system can appear to output a clean sine wave, zooming into an oscilloscope trace or using an FFT will tell you a different story. When you take "dirty" power, put it through rectification, and then pass it through a switching regulator, you introduce additional noise into the system that further degrades power quality. If you’re a power supply or power systems designer, then you know the value of supplying your devices with clean, noise-free power.

Copper on PCB
Blog
What PCB Copper Thickness Should You Use?

If you’re an electronics designer or you’re just beginning your career as an engineer, the PCB stackup is probably one of the last things you’ll think about. Simple items like PCB copper thickness and board thickness can get pushed to the back burner, but you’ll need to think about these two points for many applications as not every board will be fabricated on a standard 1.57 mm two-layer PCB

Finished PCB
Blog
Should You Route Signals in Your PCB Power Plane?

I often get questions from designers asking about things like signal integrity and power integrity, and this most recent question forced me to think about some basic routing practices near planes and copper pour. "Is it okay to route signal traces on the same layer as power planes? I’ve seen some stackup guidelines that suggest this is fine, but no one provides solid advice." Once again, we have a great example of a long-standing design guideline without enough context.

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Embedded thumbnail for Introduction to Snapping Options
How to use Snapping
Introduction to Snapping Options

Introduction to snapping options: grids, guides, axes of objects, and snapping to objects.

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How to Work with Draftsman
Working with Tables | Draftsman Document

The Draftsman Document Editor allows you to add all your data for your design through tables. We’ll show you how to work with tables, and the various options to add and edit, such as Bill of Materials, Drill Tables, Transmission Line Tables, and custom tables. 

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How To Work with High-Speed Projects
Pin Part Swapping | High-speed Design

If you have a lot of traces intersecting on a single layer, but you need to minimize the amount of vias for your high speed design, you can utilize pin and part swapping. Altium Designer has tools to solve these issues, and we’ll show you how to solve them.

Embedded thumbnail for How to Route High-Speed Designs | High-Speed Design
How To Work with High-Speed Projects
How to Route High-Speed Designs | High-Speed Design

Routing for your high-speed design can be really easy with just a little preparation. We’ll walk you through the best ways to set up your routing so you can easily route your high-speed signals. 

Embedded thumbnail for How to Define A Net Class on Schematic | How To Use Altium Designer
How-To's
How to Define A Net Class on Schematic | How To Use Altium Designer

Altium Designer makes it easy to define net classes in both PCB and the schematic. We’ll show you how to define a net class in the schematic for whatever classes you need. 

Embedded thumbnail for Creating Differential Pairs in the Schematic
How to Work with Differential Pairs
Creating Differential Pairs in the Schematic

Learn how to create differential pairs on the schematic side.

Embedded thumbnail for Measuring in the PCB
How-To's
Measuring in the PCB

Altium Designer gives you fine grained control over how you measure object distances in the PCB. When spacing is such a critical aspect of board layout, this control is absolutely necessary. We'll show you how to utilize the measure distance command and measure selected objects, as well as how to measure tracks and faces of 3D bodies.

Embedded thumbnail for Quantel Laser | MCAD and ECAD Designers Collaborate with Altium
Discovering Altium 365
Quantel Laser | MCAD and ECAD Designers Collaborate with Altium

In this video, Quantel’s engineers - Jeremie Waller (Senior Electrical Engineer) is using Altium Designer for ECAD and Laine McNeil (Senior Mechanical Engineer) is using Solidworks for MCAD. They are both in an Altium 365 workspace that allows them to closely collaborate while staying in their own familiar design environment.

Embedded thumbnail for Using Free (Any) Angle Routing
How-To's
Using Free (Any) Angle Routing

In this video, you will see how Altium Designer now makes it extremely easy to create curved corners in your designs. Previously, arc-in-corner routing was only supported during interactive routing, but not in Push&Shove mode or during track sliding. The new Push&Shove engine solves this by adding arcs during push and shove and also during track sliding, which is done by switching to any angle corner mode to perform snake routing.

Embedded thumbnail for Snapping When Creating Routes
How to use Snapping
Snapping When Creating Routes

Learn how to effectively use snapping to facilitate routing.

Embedded thumbnail for How to edit or manage your board shape in Altium Designer | Rigid-flex
How to Work with Rigid-Flex PCBs
How to edit or manage your board shape in Altium Designer | Rigid-flex

Altium Designer 21 features many powerful tools for creating and editing your rigid-flex board shape. We’ll show you how to use to the board planning mode to create board shape and define regions as well as edit their properties for easy identification and functionality.

Embedded thumbnail for How Breville Innovates 4x Faster with Altium
Discovering Altium 365
How Breville Innovates 4x Faster with Altium

Learn how Breville, a consumer electronics company from Australia, was able to speed up its product development process by at least four times with Altium 365. 

Embedded thumbnail for How to use the Property Panel in Altium Designer
How-To's
How to use the Property Panel in Altium Designer

How to use the Property Panel in Altium Designer: The properties panel is your information hub for all objects in Altium Designer. Watch this video to learn how to best use the properties dialog in Altium Designer. 

Embedded thumbnail for How to Improve Routing Using Glossing
How-To's
How to Improve Routing Using Glossing

Routes for your design can get messy, leading to inefficiency and waste. Altium Designer’s Glossing features can help! We’ll show you how to clean up your interactive routing as you route, how to gloss tracks already routed, and some tips and tricks to clean them up exactly how you want them.

Embedded thumbnail for Tenting Vias in Altium Designer
How-To's
Tenting Vias in Altium Designer

This video shows how to tent vias in Altium Designer by using design rules. Since vias are often located very close to pads, during assembly, solder paste sometimes flows into vias, which, in turn, leads to poor soldering quality. To avoid this, cover vias with a solder mask layer.

Embedded thumbnail for How to Create and Validate Return Paths in Altium Designer
How-To's
How to Create and Validate Return Paths in Altium Designer

For high-speed projects where there are lines with a given impedance, it is important to maintain a consistent return signal path. For the return signal, reference planes are created in the form of polygons and the polygons must maintain integrity along the entire path of the signal. This video shows how consistent return paths are created and validated. 

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