You want to create sustainable electronic products. How can you design them for durability and repairability?
To create electronic products that stand the test of time and reduce waste, thoughtful design is key. Here's how to ensure durability and repairability:
- Opt for modular designs that allow for easy component replacement or upgrades.
- Use standardized, non-proprietary screws and connectors to simplify repairs.
- Provide comprehensive repair manuals and affordable spare parts to support a repair culture.
How do you approach sustainability in product design? Share your strategies.
You want to create sustainable electronic products. How can you design them for durability and repairability?
To create electronic products that stand the test of time and reduce waste, thoughtful design is key. Here's how to ensure durability and repairability:
- Opt for modular designs that allow for easy component replacement or upgrades.
- Use standardized, non-proprietary screws and connectors to simplify repairs.
- Provide comprehensive repair manuals and affordable spare parts to support a repair culture.
How do you approach sustainability in product design? Share your strategies.
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Key design thought parameters to be considered: 1. Modularity Interchangeable parts for easy replacements/ upgrades : easy repair & longer product lifespan. 2. Durable Materials: High-quality materials to withstand wear & tear - mechanical faults require costly replacements & parts' inventory 3. Simpler Repair Processes: Design for easy disassembly and repair with proper repair manuals and spare parts' inventory guidelines. 4. Standardize Components: Use standardized components especially for non-critical segments of the products - easy availability and economy of scale. 5. Robust Testing: Test to withstand various conditions & usage scenarios. 6. Encourage Recycling: Design with recyclability criteria & minimize hazardous substances.
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We bring together expertise, technology and services that lower operating costs and risks. Design and implementation of building efficiency and sustainability improvement programs. Improvement opportunities. Operational improvements. Devices built to last.
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To create a reliable and easy-to-repair electronic product, it's important to prioritize the power supply. Start by upgrading the circuit to include a stable and regulated power supply, using components that are easy to find in the market. Many electronic devices fail due to unstable power supply issues. Additionally, implementing a cooling system, like fans and heat sinks, is important for managing heat in the components. This helps to prevent overheating, which can lead to voltage and current irregularities, this Improves the overall dependability of the product.
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- Maximize in house recycling as much as possible, it's not just environment friendly but cost effective as well and it makes your supply chain lean. - Product Design abstraction, platform based approach, reusable templates and streamlined SKUs will reap the benefits of economics of scale for manufacturing and help focus on quality. - Modular design of the internal components of the product helps to reduce cost of replacement and also help to draw insights of long term durability of each component.
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I am able to do age appropriate work. And at present I support the company to achieve success. And try to give new gifts for company success
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Design and produce with low power chip sets. This reduces direct power requirements, Lifetime HVAC requirements and the lower thermal load will extend the life of the electronics. Also should result in a superior ROI over time.
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Tech companies need to take internal politics egos out of the process and focus on tech. SPC, Agile, Six Sigma, Scrum, et al, are useful tools. But if when they let numbers rule them and they can't see beyond the numbers, companies go away. Every company I've been at that didn't see that,... they aren't around any more, they went away. You'd might as well let AI run the company for you for what it's worth. Tech companies need to be run by tech people. HP was going down hill under Carla Fiorina, an MBA. Intel has been doing great under Andrew Grove, a Ph.D. in chemical engineering and chip designer for Intel,... he knew the core job inside and out. Costs less to spend more up front, than to try to fix it after the fact.
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Back in the day, those solid-state microwaves wouldn’t die, and gas refrigerators running on ammonia? They put a whole new meaning to “end of life.” The people using them seemed to check out at the same time as the fridge! And yeah, there were dangers—if the ammonia leaked, well, let’s just say you weren’t making it to the next generation. Now, sure, we’ve made strides—better materials like sulfur-based battery tech and recyclable circuit boards—but we’re still ignoring life cycles. Take the iPhone: instead of choking me out by slowing it down, why not build it to meet real expectations? I swap mine yearly anyway! Make parts recyclable, keep what lasts, and replace what doesn’t. Enough with this “upgrade or die” nonsense!
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