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Electronic Design
United States
Приєднався 6 гру 2022
Welcome to Electronic Design, your go-to destination for insights into the world of electronics engineering! As the premier independent information source, we pride ourselves on delivering must-have, fully comprehensive coverage of the electronics industry through our vast network of experts. Explore the entire spectrum of products, markets, and technologies with us, from analog and power to embedded systems, automotive innovations, and consumer electronics.
Join our community of electronics enthusiasts, where expertise meets real-world applications. Subscribe now to Electronic Design and stay ahead in the fast-paced world of electronics engineering.
Join our community of electronics enthusiasts, where expertise meets real-world applications. Subscribe now to Electronic Design and stay ahead in the fast-paced world of electronics engineering.
MIPS P8700 RISC-V Cores Target Automotive Applications
The rise of RISC-V has been rapid but adoption within safety and security critical spaces requires implementations that can meet requirements like ISO 26262 and ASIL-B/D. In this video, Sameer Wasson, CEO at MIPS, talks about their “very MIPSy core,” the P8700 RISC-V core.
Переглядів: 144
Відео
Is 48-V the Future of EV Power Distribution?
Переглядів 1,2 тис.9 годин тому
Despite the promise of 48-V technology, its adoption is still in the relatively early stages. What needs to happen for the automotive industry to harness its full potential?
Subthreshold IC Solution Promises to Reduce Power Consumption
Переглядів 27День тому
Nanopower’s nPZero architecture can reduce power consumption dramatically, increasing battery life while enhancing system monitoring functionality.
Simplifying Machine Architectures with Time-Sensitive Networking
Переглядів 24День тому
Discover how TSN (time-sensitive networking) integration can simplify machine architectures by enabling a single communication backbone. This reduces the complexity of deterministic traffic management in manufacturing ecosystems like Industry 4.0 and Smart Manufacturing.
Addressing the Complexity of a Modern EV Wire Harness
Переглядів 23114 днів тому
The automotive industry is being challenged by the high density of systems in a modern EV. This requires advanced zonal architectures leveraging next-generation signal and power distribution networks in order to deliver the functionality, reliability, and safety required in a cost-effective manner.
Get Thermal Solutions Right the First Time for Rugged Systems
Переглядів 5928 днів тому
Build, test, and iterate isn't a great way to build a rugged system. Too many variables are involved to take a brute-force approach, especially when it comes to power distribution and thermal issues. Simulation can provide designers with the necessary information to optimize a design for size, weight, power, and cost (SWaP-C) before construction. This webinar delves into the problems, tools, an...
How To Extract the Best Performance for On-Wafer RF Devices
Переглядів 109Місяць тому
Incorporating RF and microwave support on-chip can be a challenge. This is where testing and calibration equipment like that available from Maury Microwave comes into play. It is combination of many tools from a variety of sources from oscilloscopes to vector network analyzers (VNA). Jonas Urbonas, General Manager at DBM Corporation (a Maury Microwave company) talks about his company's test equ...
Using 3D Printed Gradient Index Refracted Lens
Переглядів 648Місяць тому
Fortify is a company that provides 3D printed, GRIN (gradient index) refracted lens. I talked with Phillip Lambert, Director of Applications Engineering at Fortify, about their technology. You can see the many types of lens that can be created using their technology.
Ceramic Packaging: When You Really Need Rugged
Переглядів 127Місяць тому
Ceramic packaging and substrates address high performance and reliability requirements for many electronic applications especially those that are found in rugged systems or where consistency and reliability are critical factors. @RemtecInc uses a proprietary technology called Plated Copper on Thick Film (PCTF). It can deliver high levels of product uniformity, yield consistency, and reliability.
Considerations When Designing GAN-Based Switch-Mode Power Supplies
Переглядів 128Місяць тому
GaN switches being used in switch-mode power supplies is relatively new. They promise higher efficiency and higher power density power supplies. This article discusses the readiness of this technology, mentions the challenges, and gives an outlook on the future of GaN as a replacement for silicon in switch-mode power supplies.
A Q&A on In-Memory Computing
Переглядів 269Місяць тому
Electronic Design technical editor Andy Turudic poses technical and strategy questions to Sagence AI’s Rich Terrill as a follow up to a presentation on his company's new analog computing technology for generative AI.
Analog Computing for Generative AI
Переглядів 481Місяць тому
Sagence AI (formerly Analog Inference) briefed Electronic Design on its new technology, which could rival NVIDIA's dominance of generative AI edge data centers.
Mixed-Signal Retimer Helps Deliver 800G Copper Connectivity
Переглядів 110Місяць тому
David Kuo, AVP Product Marketing and Business Development at Point2 Technology talks about the need for retimers at each end of the 800G copper-based, active electrical cables (AECs).
Test Setup Evaluates Inverter Drive Designs
Переглядів 68Місяць тому
A @Rohde-Schwarzengineer explains a test and measurement setup for inverter drives that highlights the features of the R&S RT-ZISO isolated probing system. The solution enables extremely accurate measurements of fast switching signals, especially in environments with high common-mode voltages and currents.
Renesas Introduces New AnalogPAK
Переглядів 398Місяць тому
@RenesasPresents has announced four new AnalogPAK ICs, including lower power and automotive-qualified devices along with the industry’s first programmable 14-bit SAR ADC. These can be thought of as baby-FPGAS that feature a small number of LUTs an a math block to enable programmable digital functions, but also include analog programmable components that include comparators, op amps, ADC and DAC...
Satellite IoT-NTN GNSS Cellular Module Addresses Remote Connectivity
Переглядів 104Місяць тому
Satellite IoT-NTN GNSS Cellular Module Addresses Remote Connectivity
What’s the Difference Between PCI Gen 5 and Gen 6?
Переглядів 608Місяць тому
What’s the Difference Between PCI Gen 5 and Gen 6?
What’s the Difference Between Serial NAND and NOR Flash?
Переглядів 79Місяць тому
What’s the Difference Between Serial NAND and NOR Flash?
Scalable Hardware Integration Empowers AI-Based Edge Solutions
Переглядів 56Місяць тому
Scalable Hardware Integration Empowers AI-Based Edge Solutions
Looking at Secure Serial Flash Memory for Secure Boot
Переглядів 38Місяць тому
Looking at Secure Serial Flash Memory for Secure Boot
What’s the Difference Between Soft NoC Tiling and Hard Tiling?
Переглядів 52Місяць тому
What’s the Difference Between Soft NoC Tiling and Hard Tiling?
Pluggable Solver Bring Physics-Based Simulation to Omniverse
Переглядів 1312 місяці тому
Pluggable Solver Bring Physics-Based Simulation to Omniverse
Neuromorphic NPU Sips Power to Handle ML on the Edge
Переглядів 9892 місяці тому
Neuromorphic NPU Sips Power to Handle ML on the Edge
Empowering Smart-Home Applications with Advanced Connectivity
Переглядів 792 місяці тому
Empowering Smart-Home Applications with Advanced Connectivity
Cell Monitoring Enhances Battery Performance, Safety, & Sustainability
Переглядів 1042 місяці тому
Cell Monitoring Enhances Battery Performance, Safety, & Sustainability
Expanded-Beam Fiber-Optic Connector for Rugged Environments
Переглядів 832 місяці тому
Expanded-Beam Fiber-Optic Connector for Rugged Environments
Making PCBs Using Lasers and CNC Machines
Переглядів 1872 місяці тому
Making PCBs Using Lasers and CNC Machines
Kits Target Developing Electronic Engineers
Переглядів 3223 місяці тому
Kits Target Developing Electronic Engineers
Why limit it to EV? Why not include ICE vehicles ancillary power distribution?
Because ICE is already obsolete.
48 V has been used in cars since ~2017, it came eith the introduction of mild hybrid gasoline cars. The auxilary e-motor is 48 V and also 48 V battery. In EVs in 2019 Porsche Taycan introduced 48 V for PDCC - Porsche Dynamic Chassis Control.
Telecom has been using 48V (-48v actually) for a long long time. I do understand inertia and why it will take a long time to get everything except the drive train to 48v on a vehicle.
200 watts to crank up a window? Or even 800 watts for a window? This is the performance of an immersion heater. Thinner cables? Today car manufacturers already use 0.5 sqmm cables in 12V systems. Even thinner cables would often break. Virtual battery? In the EU it is a requirement that the high-voltage battery can be separated via relays. One 12V battery is used to switch the relays. It could also be two 12V batteries for a 24V system, or four 12V batteries for a 48V system. But the starter battery cannot be dispensed with due to the regulations. Super Capacitors do not have the storage capacity of a lead-acid battery, much less than lithium batteries. The controllers in the car use 12V, but internally they work with 3.3 volts for the IC. VW is once again moving away from the zone controller concept for small cars. It is cheaper to combine central tasks in a central controller and pull cables instead of installing a separate controller for each small task. Autonomous vehicles. Who wants to drive a car controlled only by a computer? Who is liable if the computer makes errors? Autonomous trains are already rare, autonomous cars are an even more difficult task. High-speed Ethernet is rarely used in automobiles. The CAN bus system is used in the car. There are reasons for this that CAN bus is much more suitable for vehicles and that suppliers already offer CAN bus systems. Suppliers can offer a wide range of 12V systems or 24V systems such as those used in lagre trucks.
Why should you use Ethernet with 4 pairs of wires when CAN bus gets by with 1 pair of wires?
lol this guy knows his stuff
re: "Thinner cables? Today car manufacturers already use 0.5 sqmm cables in 12V systems. Even thinner cables would often break." exactly, where laymen are only able to see and focus on the idea of thinner wires, in reality what Engineers recognize is they must also focus on MECHANICAL DURABILITY, as there's exists a condition where you can actually have wires that are TOO THIN for a given application (true story). therein these kids have NO KNOWLEDGE of the time and costs to both OEM's and Dealers involved with replacing bad harnesses under WARRANTY. in their weak brains everything "magically" works PERFECT for 10 years/100,000 miles.
Allow me to explain this. Power loss = the resistance times the square of the current. For the same size wiring, if you quadruple the voltage, the current drops to a quarter and the power loss drops to a 1/16th (or much smaller wire can be used). A no-brainer to go to as high of a voltage as your insulation, semiconductor ratings, and safety standards allow (NEC code kicks in at 50volts or 60volts automotive). Biggest technical challenge I see is making a consumer level automotive produce have so much complexity that is becomes practically unserviceable.
Pls specify „unserviceable“ in more detail.
Well explained Lukas!
Very interesting! Thanks - I'm applying for a job with this and doing research :)
Tesla already moved to 48v architecture, so they use lighter, shorter & simpler network.
beam me some faster cheaper open internet with this please :)
Several times i feel like factors are presented as independent problems to be solved. When they are realy messures of the same thing.
Any optical PCI Express version?
Taken over by a group of investors? That means Toshiba will be broken up into pieces and sold at the best bid price. It's sad to see the end of Toshiba as we know it. That reminds me of Richard Gere's film Pretty Woman, 1990. Sad!!!
It would be rather useful if you would provide links to the product and software sites, and maybe to availability through distribution?
App notes?
First question is often about pricing... My take on this kind of device is the ability to do analog "real-time" functions, and digital functions to add processing, and provide, maybe, higher-level interface view for microcontrollers... Price ranges?
Nice to see software demonstration for greenPAK programming... Thanks.
Which electronic lock manufacturers are using this chip?
Will the 10800 amd ryzen cpu support pcie 6?
Thanks for the really nice Video. 🤍🐇
love what you're doing with this channel. keep it up! just subscribed.
Ini termasuk gebrakan model kombinasi baru
"This is such an exciting topic! 🚀 Advanced connectivity truly empowers smart-home applications, making our lives more convenient and efficient. Can't wait to see how this technology continues to evolve! Great content! 🔌🏡"
I don't mean to seem critical, though your products may be excellent, but your video was hardly useful and is a letdown to viewers in my opinion. It leaves more questions than it answers. It would have been more helpful to see both the laser and non-laser type machines etch the same PCB pattern and then analyze the results and highlight the differences. Also, the maximum board size was stated for the laser machine, but not for the non-laser type. In fact, nothing was mentioned about the non-laser version. Also, what about startup requirements, such as space, air filtration, waste removal, meeting local environmental codes if any? Lastly, and this often gets my goat: I went to the LPKF website and unless I missed it, there's not a clue as to price. Is the lack of price because it's presumed that someone, or a company, has bags of money sitting around and so price is not an issue? Consider making a more useful video that covers, in depth, both laser and non-laser machines and provide some real-world examples and please provide baseline prices on your website.
I was thinking more like putting antenna on the 1500 ft towers like helicopters do!
A computer inside a computer inside a computer! ... That's some Inception level computing 😂
What is IPM?
Integrated Power Management (?)
thanks a lot for this information
Ok Beagle is great but expensive.
The windshield is dumb idea. There is next to no original windshield on bobcats now
Napoleon once said! Never interrupt your enemy when he is making a mistake. 😂😂😂
This looks awesome! Is there an Application Note or blog about this setup?
Excellent interview. Nice job KR!
What licensing is required to fly heavy-lift drones in the U.S.? (FAA Part 107 + weight exemption + COA + ??)
This is really cool. Thank you!
We should't forget conteibuting back to the community by donating and acknowledging the efforts made by everyone.
thank you
what is MCU?
DONDE DESCARLO LA APP
In automobile which gan IC can be used in ev on board charger to reduce size and heat ?
Electronic Design, Your videos always make me happy, so I subscribed!
The New MIPS will still be based on the " old ' RISC MIPS ISA ? Any recent info ?
Why do GaN insist on 1920 circuits? A bridgeless PFC or Cuk-buck2?
Prise
😂 ไม่ต้องห่วงคะ ก็แค่เริ่มต้นเท่านั้น
What can you say about durability, long lifespan of Power Management IC units in 2nm chiplets packaging
What can you say about durability, long lifespan of Power Management IC units in chiplets
What can you say about durability, long lifespan of Power Management IC units in chiplets
What we will see in 2027 in term of implementation 2nm chiplet packaging in consumer gadgets.
Augmented reality windshield a big step up from hud just how do you avoid washout in sunshine big issue
I hate to see how much that windshield is to replace. Because we both know how often they break
It's always been about data, it's just now we've got so many new ways to generate and manage it.
Woow Very cool technology
Really surprised we're still implementing automotive communication with copper. With copper you have to worry about decoupling, filters, termination, esd, etc. A single fiber between modules either daisy chained or using a pon architecture. Laser diodes are ubiquitous, even led optics could be used with polymer optical fiber.
With copper you can easily detect if the wire is broken. With fiber you need to keep a heartbeat to know if its working. Copper is just way easier to manufacture, install and repair
@@AlpineTheHusky Protocol works the same way regardless. I would argue fiber is easier in all aspects. Maybe not 10 years ago, but today definitely. Especially when we are talking feet instead of miles of fiber the tolerances can be pretty low. Too-less splice methods are available for nearly all types of fiber manufactured as well so repair is not an issue. In fact a fiber splice would arguably be quicker and more reliable than a soldered connection. Not to mention the network would only need a single fiber to bidirectional communication vs the 2 wire copper networks currently used.