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Design Phase – Lid Assembly Electronics Part 2

We are going deeper into lid assembly electronics in our Open Source Laptop project. In this chapter we will tackle the PCB design of the webcam board and show you how to deal with some expected challenges, such as overall small form factor of the board or breaking out the microscopic webcam image sensor.

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New Constraint Manager
New Constraint Manager: Introduction & Creation of Net Classes

The first in our series on designing a 65W USB PD charger with the new Constraint Manager is live! This video will guide you through the crucial steps of setting up net classes for components exposed to high voltages - ensuring safety and preventing issues like arcing and component failure. Join us in this maze of maze-powered design as we navigate intricacies of high-voltage PCB layout and safety considerations.

Agile Hardware Development
Blog
5 Ways Hardware Development Is Just… Different

Explore the challenges and strategies of implementing Agile methodology in electronics hardware development. Understand key differences between hardware and software development within the Agile framework.

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How-To's
Tesla Unveiled! EE Deep Dives Into Roadster's PCB Design Files

Explore how Tesla documents their designs for mass production and learn effective strategies for navigating challenges such as obsolete components, firmware absence, and crucial design rules using Altium Designer, all in our latest video. Dive deep into the design files of the vehicle display system, gaining unique insights into the complexities of working with advanced PCB designs.

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Wearable Design Project
Wearable Design Project - Introduction

Ever wanted to design a wearable electronic device? Follow along with Piet Callemeyn as he delves into the design of a wireless heart rate sensor. In this series, Piet explores PCB design essentials to create a variable heart rate sensor, offering insights around efficient power use, seamless data transfer, and a clean, compact design throughout the entire process.

Blog
Flexible Circuit Assembly: Thinking Through Component Placement

The flexible circuits are ideal for applications where a thin, small, and lightweight PCB is needed. However, in such cases, challenges in assembly and fabrication often arise. This article delves into these challenges, focusing on component selection and placement and how they can significantly impact the performance of the flexible circuit in its intended application.

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New in Altium Designer 24
Coming Soon: Simulation S-parameters Analysis

Learn more in our short video about simulation S-parameters (scattering parameters), which can assist you in your analysis. This data can be used to optimize your design, leading to cost savings, improved product quality, and a competitive edge in the marketplace.

Blog
Coding Your Own Networked Test Equipment

Have you ever performed manual tests? If your answer is yes, you're likely aware of how laborious and time-consuming the entire process can be. Allow us to introduce you to the realm of test equipment automation. Our new step-by-step guide empowers you to write code that seamlessly configures your networked test equipment, all from the convenience of your computer.

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New in Altium Designer 24
Coming Soon: Footprint Mirroring Prevention

Check out the new feature that we are preparing for you. Footprint Mirroring Prevention adds measures to prevent inadvertent mirroring of a footprint along its X/Y axes. With this functionality, you can avoid costly board respins.

Blog
Pi.MX8 Project – Schematic structure and component placement

We are advancing with our brand new Pi.MX8 Project. In this chapter, we delve deeper into two crucial aspects: the overall schematic and component placement on the PCB board. Don't hesitate to check it out. Additionally, you can follow this project through our workspace; the link is provided within the article.

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New in Altium Designer 24
Design in a New Dimension: Altium Designer’s 3D-MID Demo

Explore the cutting-edge 3D-MID capabilities in Altium Designer with our detailed demo! In this video, we guide you through the process of creating a 3D PCB document, importing components, and seamlessly transitioning from 2D to 3D board design.

Blog
Redefine PCB Boundaries with HDI Design

Dive into the world of High-Density Interconnect (HDI) design to enhance your projects. Explore heightened signal integrity, improved reliability, and the seamless integration of advanced technologies - all within compact and lightweight designs. Discover more about HDI on our updated feature page.

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New in Altium Designer 24
PCB CoDesign Demo: A Collaborative Approach to PCB Design

Explore the realm of collaborative design through our PCB CoDesign feature. Discover how multiple engineers can seamlessly collaborate on the same project in our full-time demo. Design faster together with Altium Designer 24.

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New in Altium Designer 24
Empowering Faster Electronics Development with Altium Designer 24 - Webinar Recording

If you missed our Altium Designer 24 webinar, don't worry! We have good news for you—it was recorded. Explore the game-changing features that will revolutionize your PCB design experience and discover the new standard in electronic design.

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Copper pour and via stitching
Blog
Copper Pour and Via Stitching: Do You Need Them in a PCB Layout?

To pour or not to pour, to stitch or not to stitch… Over many years, some common “rules of thumb” have become very popular and, ultimately, taken a bit out of context. Rules of thumb are not always wrong, but taking PCB design recommendations out of context helps justify bad design practices, and it can even affect the producibility of your board. Like many aspects of a physical PCB layout, via stitching and copper pour can be like acid: quite useful if implemented properly, but also dangerous if used indiscriminately.

MOSFET Components
Blog
Should You Use Power MOSFETs in Series?

Power MOSFETs enable a huge range of electronic systems, specifically in situations where BJTs are not useful or efficient. MOSFETs can be used in high current systems in parallel arrangements, but what about their use in series? Both arrangements of MOSFETs have their pitfalls that designers should consider. Let’s look at MOSFETs in series as they are quite useful in certain systems, but be careful to design your circuits and your PCB for reliability.

MLCC controlled ESR capacitor
Blog
Controlled ESR Capacitors: Should You Use Them for Power Integrity?

I can’t think of a single product I’ve built that doesn’t require capacitors. We often talk a lot about effective series inductance (ESL) in capacitors and its effects on power integrity. What about effective series resistance (ESR)? Is there a technique you can use to determine the appropriate level of resistance, and can you use ESR to your advantage?

Ground Pour, Impedance and Losses
Blog
Microstrip Ground Clearance Part 2: How Clearance Affects Losses

If your goal is to hit a target impedance, and you’re worried about how nearby pour might affect impedance, you can get closer than the limits set by the 3W rule. But what are the effects on losses? If the reason for this question isn’t obvious, or if you’re not up-to-date on the finer points of transmission line design, then keep reading to see how nearby ground pour can affect losses in impedance-controlled interconnects.

Choosing the Right Microphone for Embedded Applications
Blog
Choosing the Right Microphone for Embedded Applications

If you need to capture sound waves for your electrical device to process, you'll need a microphone. However, microphones these days have become very advanced, and there are so many options to choose from. They range from the relatively simple and popular condenser type microphones to state-of-the-art sound conversion solutions incorporating internal amplifiers and other electronic processing functionality. In this article, we'll take a look at some of the options available.

 Computer planet with circuit grid
Blog
Composite Amplifiers and How They Give the Best of Both Worlds

There are many times where you need an amplifier with high gain, low noise, high slew rate, and broad bandwidth simultaneously. However, not all of these design goals are possible with all off-the-shelf components. Here are some points to consider when working with a composite amplifier design and how to evaluate your design with the right set of circuit simulation tools.

Impedance balancing power supply
Blog
Reduce Common-Mode Noise in Your Power Supply with Impedance Balancing

Simple switching regulator circuits that operate in compact spaces, like on a small PCB, can usually be deployed in noisy environments without superimposing significant noise on the output power level. As long as you lay out the board properly, you’ll probably only need a simple filter circuit to remove EMI on the inputs and outputs. As the regulator becomes larger, both physically and electrically, noise problems can become much more apparent, namely radiated EMI and conducted EMI in the PCB layout.

Part 1: Why Your PCB Design Review Process Is Obsolete and What You Can Do About It
Blog
Part 1: Why Your PCB Design Review Process Is Obsolete and What You Can Do About It

A PCB design review is a practice to review the design of a board for possible errors and issues at various stages of product development. It can range from a formal checklist with official sign-offs to a more free-form inspection of schematic drawings and PCB layouts. For this article, we will not delve into what to check during a design review process but rather look at how a review process itself usually unfolds and how to optimize it to get the most out of your time.

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. 

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How to use Snapping
Snapping When Creating Polygons

When creating polygons you can use snap points to form fit your polygons to the exact size and shape you need. We’ll show you how to set your snap points, which ones are most helpful for creating polygons, and how to use the same techniques to create keep out and solder mask areas.

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Library Managment
Automatic Symbol Creation in Altium 365

In order to design your projects, you’ll need a set of components to work with. Although the integration of Octopart with Altium Designer gives us a large repertoire of components, you simply can’t have access to every component model in the world. We’re going to create a component in the Altium 365 workspace with the Symbol Creation Wizard.

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How to Work with Differential Pairs
Creating Differential Pairs in the PCB

Learn how to create differential pairs in the PCB.

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Success Stories
From The Beatles to the PCB - VOX Story

Dave Clarke, R&D manager for VOX, walks us through his story of designing VOX amplifiers for electronic instruments as well as his love for music and electronics design. Be sure to subscribe to the Altium Stories channel to stay updated on new videos. Altium LLC is accelerating the pace of innovation through electronics. From individual inventors to multinational corporations, more PCB designers and engineers choose Altium software to design and realize their ideas. 

Embedded thumbnail for Creating PCB Mounting Holes
Creating PCB Mounting Holes

Our PCB must somehow be assembled into the final drone assembly. This will be achieved by attaching our PCB to the motherboard connector and by special mounting racks, which requires precise positioning of the two mounting holes on the PCB.

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Working with PCB Keepouts

When working in the PCB, there may be specific areas that you would want to prevent the presence of certain objects, such as vias, tracks or copper regions. All of this can be realized in Altium Designer by using the Keepouts feature.

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Discovering Altium 365
Design Review Use Case

Design reviews are critical to being successful. Capture design discussions through contextual commenting in the web browser or in Altium Designer to ensure feedback is recorded and actioned effectively.

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Resolving Errors in the PCB

We’ve looked at how to set up the Design Rule Checker to help us analyze our PCB design errors. Now it’s time to resolve these errors and prep our design to start generating output files.

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Defining the Layer Stackup

The PCB is designed and formed as a stack of layers and the definition of the PCB layer stack is a critical element of successful printed circuit board design. In Altium Designer, the Layer Stack Manager is used to develop the printed circuit board internal design including layer-pairing, careful via design, any back drilling requirements, rigid/flex requirements, copper balancing, layer stack symmetry, and material compliance. This video guides you through creation of a layer stackup, adding the necessary layers, as well as adding an impedance profile.

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Searching for Errors in Schematic

Searching for Errors: Errors and mistakes happen to everyone - from beginners to professionals. So we always preach how it is paramount for your design to be validated before pushing it to the PCB. But luckily it’s pretty easy to find and analyze any errors using Altium Designer. We’ll take a look at how to find and analyze errors in your schematic.

Embedded thumbnail for Creating Net Classes
6月 2, 2020
Creating Net Classes

A Net Class is a collection of nets that can be used for creating a targeted design rule. So for example, you may want all power and ground nets to have a minimum track width to handle a specific current rating. So we’ll show you how to assign these nets to a NetClass. 

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New in Altium Designer 20 5月 6, 2020
How to Transfer Libraries to Concord Pro

This video demonstrates how the Library Migrator can quickly move database and integrated libraries to the Concord Pro workspace. Your design can be organized and verified in the Library Migrator before pushing it to the cloud. After migration, the Messages panel will display any missing information.

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New in Altium Designer 20 4月 29, 2020
Improved Impedance Calculator

The impedance calculator in the Layer Stack Manager now supports single and differential coplanar structures. This video shows how the impedance calculator has been improved with new coplanar transmission line structures, greater control over the dimensional properties of the physical structure, and modeling of Conductor Surface Roughness using Surface Roughness and Roughness Factor values. 

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New in Altium Designer 20 4月 27, 2020
Propagation Delay Support

In Altium Designer 20.0, you can now selectively monitor propagation delay along the whole connection or selected objects, such as tracks, pads, and vias.

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New in Altium Designer 20 4月 23, 2020
New Routing Capabilities

Advanced routing capabilities help you complete the most basic, as well as the most difficult, routing challenges. In Altium Designer 20.0, we’ve added intelligent control over pad entries that are capable of working with any combination of pad geometry as well as a new any angle routing mode that allows you to make beautiful traces that smoothly contours around obstacles.

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New in Altium Designer 20 4月 21, 2020
New Length Tuning Engine

The tuning engine in Altium Designer has been redesigned and is now better than ever. Tuning sections can be picked up and moved to new locations on the track. What is truly remarkable is that the tunings are completely dynamic and change shape and fill patterns depending on the boundaries and surroundings.

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