Altium Designer Viewer Mode Datasheet Securely view, print, and cross-probe single documents or entire projects in one comprehensive interface. Read Article Bluetooth 5.1 SoC vs. Module: Which is Best for Your Design? The list of features available in Bluetooth just got a little longer since the release of Bluetooth 5.1. Component manufacturers have taken this mobile technology to the next level for IoT devices by integrating wireless comms with an MCU for embedded processing. This is just another step in the continuous push to pack more functionality into a smaller footprint. If you want to incorporate a Bluetooth 5.1 SoC into your new product, you have two Read Article Altium 365: Work from Anywhere, Connect with Anyone Altium 365 has launched in the midst of a worldwide quarantine effort. Lawrence Romine explains how the launch timing couldn’t be more serendipitous. Read Article Altium 365 + Altium Designer 20.1 Released Today - Work from Anywhere, Connect with Anyone Altium 365 is the world’s only cloud platform for printed circuit board design and realization. Seamlessly accessible from Altium Designer 19 (and up), it provides the most connected experience with Altium Designer 20.1. Altium 365 and Altium Designer 20.1 - now available Altium 365 creates seamless collaboration points across the entire PCB development process, making it the most connected design experience in the industry. Altium Designer users Read Article PCB Mountable Connectors: SMD vs. Through-hole When I designed some of my first boards, I was always working at DC or low speed, and any signal integrity problems from my connectors were an afterthought. These initial boards were for low frequency measurements of an electrochemical sensor. The only circuitry involved was a low-pass filter circuit with through-hole passives, a PCB mountable connector for a lab-grade power supply, and a parallel connection to an SMU. After learning the finer Read Article Designing Pressure Tolerant Electronics: It's All About Mechanics After a recent inquiry from a customer about a high power board that must withstand high gas pressures, my team suddenly realized we needed to do some research on designing pressure tolerant electronics. This area is not as popular as designing electronics for ambient pressures, but the design techniques used here enable important scientific expeditions and industrial applications in high pressure environments. Whether the board will be placed in Read Article High Voltage SMPS PCB Layout to Minimize Heat and Noise Whether you are performing AC-DC conversion or DC-DC conversion, switching power supply layouts are common in high voltage design and must be constructed carefully. Although this system is quite common, it will easily radiate EMI due to the fast changes in voltage and current during switching. Designers can rarely adapt existing designs into new systems as a minor change in one area can create an EMI problem that is difficult to diagnose. With Read Article How to Select an Inductor for a Buck Converter An SMPS is one of those quiet (yet electrically noisy) devices that makes your favorite electronics run smoothly. They sit in the background quietly doing their duty, yet your board wouldn’t operate without them. As part of DC-DC converter design for power-hungry applications, component selection is quite important for ensuring stable power delivery to a load with high efficiency. Among the numerous DC-DC converter topologies, a buck converter Read Article Driving Haptic Vibration and Feedback in Wearables Augmented reality, virtual surgery, limb replacements, medical devices, and other new technologies need to incorporate haptic vibration motors and feedback to give the wearer a full sense of how they are interacting with their environment. Unless these cutting-edge applications include haptic vibration and feedback, users are forced to rely on their other four senses to understand the real or virtual environment. Low cost components to support Read Article Modeling Copper Foil Roughness in Altium Designer's Impedance Profiler Advanced transmission line models for long interconnects require that designers include copper foil roughness calculations in order to determine accurate impedance. Without the right models or design software, you’ll be left to estimate the skin effect impedance, dispersion, and parasitics in your PCB. These models can be difficult to work with by hand if you’re not mathematically inclined, but the right design tools can be used to quickly Read Article High-Speed Signal Routing: The 5 Important PCB Design Constraints Your modern digital board is most likely classified as high speed, regardless of whether you looked at the datasheets for your components. Designing your board successfully will take some important steps when you begin your design. Aside from floorplanning and stackup design, your routing strategy will need to operate within some important PCB design constraints. After you capture your schematic as an initial layout and create an initial Read Article How to Reduce Clock and Signal Jitter: Debugging Power Supply Noise Low level components need ultra-stable power, and high speed digital signals need to have repeatable edge transition times. The two aspects of digital signalling are related, and you’ll need to suppress all aspects of power supply noise to reduce jitter in a digital system. During a design debug, you’ll need to gather measurements throughout your board if you want to isolate and eliminate sources of power supply noise. Here’s how you can isolate Read Article Transmission Line Impedance Measurement: Even vs. Odd Mode If you need an accurate transmission line impedance measurement, here are the important values you need to use in your next board. Read Article How to Take a Phase Noise Measurement in a PCB There are plenty of noise sources in your PCB, ranging from thermal noise to EMI received from external sources. Phase noise is one noise source that occurs in analog signal sources like reference oscillators and frequency synthesizers. This type of noise affects the timing of analog signals and it arises due to contributions from other noise sources. If you’re debugging a high frequency board with a reference oscillator, then you might need to Read Article PCB Trace and Pad Clearance: Low vs. High Voltage High voltage/high current designs carry safety requirements that need to be met by designers. Similarly, high-speed designs need to have suppressed crosstalk in order to ensure signal integrity. The key design aspects that relate to both areas are your PCB trace clearance and pad clearance values. These design choices are critical for balancing safety, noise suppression, and manufacturability. The IPC 2221 voltage and spacing standards provide Read Article PCB Via Current-Carrying Capacity: Is My PCB Too Hot? What does PCBA too hot mean? It's a common question from designers, particularly new designers that are learning about industry standards, and refers to the PCB via current-carrying capacity of conductors. Trace and via current-carrying capacity are legitimate design points to focus on when designing a new board that will carry high current. The goal is to keep conductor temperatures below some appropriate limit, which then helps keep components Read Article Amplifier Stability at High Frequencies and Stray Capacitance Amplifiers are one of those critical components that make modern life possible. From wireless communication to power electronics, amplifiers need to run stably and predictably for these products to work properly. Stability analysis is one of my favorite topics in physics and engineering, and it always tends to crop up in places you would least expect. One of these places is in amplifiers. Any time-dependent physical system with feedback and gain Read Article Pagination First page « First Previous page ‹‹ Page68 Current page69 Page70 Page71 Page72 Page73 Next page ›› Last page Last » Load More