Facing a last-minute rush to change colors on a client's project? You know the drill: maintaining color consistency is crucial, especially when different devices are involved. Dive into the world of color spaces and profiles—knowing these will be your lifesaver! Don't forget to calibrate your tools and communicate clearly with your client to manage expectations. And always do those final checks; they can make or break your project's success. Have you ever had a color mishap because of device discrepancies? Share your experience!
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In today's post about #ApprovalStudioFeatures, we wanted to focus on comparison! We've created 4 automatic compare modes that you can intuitively use during your approval workflow. Why are compare modes necessary? Tracking design version changes with the naked eye can be problematic. You need to check the requested changes, find them in the new version, and make sure they were applied correctly. With compare modes, you can minimize this human error. 4 unique comparison modes in Approval Studio: Side-by-side Side-by-side mode allows you to examine two versions next to each other down to the tiniest details. They will zoom and rotate simultaneously, and you can show or hide the annotations. Also, you can choose to display only the difference by ticking the checkbox. Fader Fader option is a slider that you can drag to gradually shift what you see in the design proofing tool from one version to the other. Difference This design comparison mode shows you only the differences between the two design iterations that you have chosen. Toggle Toggle turns on a dynamic switch between the design iterations so that the changes are more noticeable in your design version control process. We hope you liked this little overview. You can see the ways our compare modes work on this explanation page: https://lnkd.in/dEMHJySA
Comparison Modes
https://approval.studio
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🔌🧩 Starting the hardware design process? Don't skip the Block Diagram! In the world of hardware design, the Block Diagram is your compass. 🗺️ It's your initial roadmap that can make or break the success of your project. 🚀 🔍 Understanding Requirements: The Block Diagram allows you to dissect and comprehend project requirements at a glance. It's your first step in translating ideas into tangible components. 🤝 Collaboration Magic: If you're working with a team (and most of us do!), the Block Diagram becomes the common language. It's the visual bridge that aligns everyone's vision, ensuring smoother teamwork and fewer missteps. 🧩 Puzzle Pieces: Think of it as putting together a complex jigsaw puzzle. The Block Diagram helps you see how each piece fits into the larger picture. It's the cornerstone of a well-thought-out design. So, whether you're a lone innovator or part of a dynamic team, remember this: Start with the Block Diagram, and watch your hardware design process become a masterpiece. 🎨💡 #HardwareDesign #BlockDiagram #Teamwork #Innovation #Engineering
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🚀 You never know. I don't know why, but that 𝐛𝐨𝐚𝐫𝐝 𝐬𝐪𝐮𝐞𝐞𝐳𝐞𝐝 𝐦𝐞 𝐨𝐮𝐭. In a way. Currently, the PCB is not finished yet. Not finished finished. It is almost finished. 1️⃣ There is a variant that a customer gives you freedom with a few requirements stated. 2️⃣ Then, there is an opposite situation with multiple documents describing the project. To-do lists and checklists. You can feel confident because you know the borders. Yes, but there could still be unspoken and unwritten requirements. When a customer wants to keep track of everything and maintain all requirements, there is a clear piece of advice from me— —DON'T improvise at any cost. Happy designing. Piece ☮️ 💡 If you like my work and would like to transform your ideas into an actual product, 𝗳𝗲𝗲𝗹 𝗳𝗿𝗲𝗲 𝘁𝗼 𝘀𝗲𝗻𝗱 𝗺𝗲 𝗮 𝗺𝗲𝘀𝘀𝗮𝗴𝗲 here on LinkedIn or 𝐨𝐫 𝐚𝐧 𝐞-𝐦𝐚𝐢𝐥 to the address in the profile💡 𝗗𝗼 𝘆𝗼𝘂 𝘄𝗮𝗻𝘁 𝘁𝗼 𝘀𝗲𝗲 𝗺𝗼𝗿𝗲 𝗽𝗼𝘀𝘁𝘀 𝗳𝗿𝗼𝗺 𝗺𝗲? 🔔 Ring it on my Profile #ukazcodelas #showyourwork #hwidvorakinfo #design #whoisjohngalt
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Occasionally our clients ask us to design products that people can rely on in extreme environments: potentially explosive, very hot or cold, high humidity, or crawling with pathogens. Often, the products also qualify as “mission-critical,” meaning people’s lives depend on them. Failure is unacceptable. Extreme conditions often present extreme product-development challenges. Explore some of the harshest environments we've encountered as a product designers and engineers—and the ruggedized solutions and products we built to stand up to them: https://bit.ly/47mSQws Learn more about our Rugged and Portable Product Development expertise: https://bit.ly/47wpqvi #engineering #productdesign #productdevelopment with Delve
Product Design for Extreme Environments
delve.com
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Implementing a designer's ideas requires a collaborative approach to ensure that their creative vision comes to life effectively. First, it's essential to have clear and open communication between the designer and the development team to fully understand the design concepts and expectations. Detailed documentation, including design mockups, style guides, and interactive prototypes, can guide the development process. Utilizing project management tools and regular check-ins can help track progress and address any discrepancies early on. Additionally, it's vital to be flexible and open to feedback, as adjustments may be necessary to align the final product with the initial design vision while considering technical feasibility and user experience. By fostering a teamwork-oriented environment, the designer's ideas can be seamlessly translated into a functional and visually appealing end product. #PCBManufacturing #TechInnovation #CommunicationSkills #KnowledgeMatters #PrintedCircuitBoards #PCBdesign
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If you’re done with ideas for a hardware product, then you need to find components. Bringing suitable components together and making them work flawlessly is not an easy task. There are 3 points to be clarified for anyone who starts developing a HW product from scratch. 🔋 Energy 🛜 Communication 📦 Form factor Energy is about whether the device is battery-operated or grid-powered. If battery-powered then how long it should operate with a single charge? Communication is about what the inputs and outputs device should provide including I/O ports, screens, sounds, and visuals. The form factor is about the dimensions of the device, water resistance, controls, look and feel. When you put all requirements to the table it may sound a bit chaotic. I explain how to sort things out and reach an industrial design in my newsletter. You can find the newsletter link in my profile. You may find it in the comments too.
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How to Develop the new product? 5 key pionts to achieve the sucessful projects. 1. Market Scales , Trends and Target market Analysis needed from Brand owners. 2. A sufficient communication at the market request is needed before ID/3D design, hardware design and software design. 3. ID/3D mechenical design should consider for mass production, Reliability along with the cost evaluation. 4. Hardware design should consider the power consumption, endurance, Power-OFF/Standy Current/Voltage and life time reliability. 5. Hardware Test, software test, reliabilty test system is important before mass production. Will you have more pionts on that? welcome for your comments.
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5 key points for new product development, what is your ideas on that?
How to Develop the new product? 5 key pionts to achieve the sucessful projects. 1. Market Scales , Trends and Target market Analysis needed from Brand owners. 2. A sufficient communication at the market request is needed before ID/3D design, hardware design and software design. 3. ID/3D mechenical design should consider for mass production, Reliability along with the cost evaluation. 4. Hardware design should consider the power consumption, endurance, Power-OFF/Standy Current/Voltage and life time reliability. 5. Hardware Test, software test, reliabilty test system is important before mass production. Will you have more pionts on that? welcome for your comments.
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Nine best practices for Design for AM. Do you have other tips not covered here, if so, please comment below. https://lnkd.in/gkpZZ6Nu
DfAM: Nine Best Practices - Digital Engineering
digitalengineering247.com
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