You're tasked with revolutionizing electrical engineering products. How do you ensure they remain dependable?
How would you make sure new electrical engineering products are reliable? Share your strategies and insights.
You're tasked with revolutionizing electrical engineering products. How do you ensure they remain dependable?
How would you make sure new electrical engineering products are reliable? Share your strategies and insights.
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from creating schematic diagrams to laying out printed circuit boards (PCBs). Ensure you're proficient with shortcuts and advanced features of your CAD software, which can reduce design time and minimize errors, thus freeing up more of your schedule.
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"Brake fast, learn fast" is what my last manager use to say. Once you know where you need to go, that is usually the most difficult part, getting there is just a matter of planning and time. That includes planning prototypes to test specific components you and you team are not comfortable with analytical or FEA models alone. A good strategy is to stress a lot the components and really understand their limits. That information is extremely valuable and once you have the data, it's just plain statistics.
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Something crucial always that we are developing new technology is the security, therefore you must ensure that your products follow standards as #IEEE or #IEC, additionally in some cases you must achieve the local rules as #RETIE or other ones, therefore, you should make testing for these products and once it's done and get accreditation, you can start to sell, usually I suggest that you do it, if your company develop technology in this area or you want to open markets if not you can use products to companies that ensure it that done as #Siemens or #ABB
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I leverage various methodologies and techniques backed by scientific principles. Firstly, I emphasize the importance of rigorous design validation and testing protocols, adhering to standards such as IEC 60601, ISO 9001, and IEEE standards. This involves thorough analysis of the product's architecture, component selection, and system-level verification to minimize the risk of failures. In parallel, I emphasize the necessity of employing Failure Mode and Effects Analysis (FMEA) and Failure Mode, Effects, and Criticality Analysis (FMECA), both of which are scientific methodologies. These aid in identifying potential failure modes, severity, and occurrence rates, thereby guiding corrective actions to mitigate them.
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To ensure electrical engineering products remain dependable, I would implement a rigorous design and testing process focused on reliability, adhering to international standards. This includes using high-quality materials, conducting stress tests under various conditions, incorporating redundancy for critical systems, and prioritizing safety features. Continuous monitoring and feedback from real-world usage would inform iterative improvements, ensuring the products evolve while maintaining consistent performance.
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