mrdon, it's bad enough that commoditization means cheaper--often too cheap--materials and/or construction. But when the very thing that's one of a product's key characteristics--in this case a power supply's efficiency--is sacrificed by purchasing/accounting, that just beggars belief. I mean, trading off specs and features is part of the process but sounds like you had an exceptionally bad experience.
William, that's exactly what's been needed--for power supplies to become commodities so they'd be cheap enough and small enough. At least that was the push 20 years ago. But at that time, I didn't hear anyone complaining about what would happen when components were cheapened to reach that goal. Now I think we're all aware a lot more, as both designers and consumers, of the effects of this problem, whether it's cheapo plastic gears in clocks or sub-efficient power supplies.
Ann, You and TJ are absolutely correct about small size vs cost. One of my biggest challenges in developing LED Lighting fixtures while working at Hunter Fan was power supply efficiency, small size, and cost.To achieve a quality power supply, efficiency cost is part of the Product Development financial equation. I was able to obtain superb power supply efficient (99%) and small size using good PFC based components and proper PCB thermal management techniques, but the cost was something the Bean Counters couldn't stomach. Unfortunately, efficiency was the design parameter they could leave without.
Lower power/smaller size is only expected. What is troubling about the trend for the DIY/learning crowd, how does the average human place a 0603? Not easily. Will through hole components stay, or will pre-mounted small form factor take over? I am sure the price or old-style components will increase. The size and style of the through-hole resistor hasn't changed in decades, and they stay relevant.
Not only are the power supplies getting smaller, but many of them have become commodity items, with the result thatr there is a lot of price pressure. Unfortunately that tends to lead to a reduction in quality from many suppliers, while others chgarge a bit more for a better product. Consider that some of the better suppliers are able to sell a supply for amost twice the price of what others offer, a product with similar size and power ratings. So evidently in some areas quality and robustness still matter.
TJ makes a good point about price, of course. On a different price note, back when, some power supply designers said they could make advances closer to what was needed in size and efficiency, but that it would cost an arm and a leg to do so.
mrdon, those are exactly the reasons I was hearing 20 years ago that power supplies needed to get smaller, let alone more efficient. IR has long been in the forefront of advances in power supply design and manufacturing. At one time (maybe more than one?) industry pundits have said that power supplies were a major roadblock in advancing the state of electronics.
Ann, As pointed out in the article, todays electronics are getting smaller in size but the power requirements are going up. It's great that power semiconductor manufacturers like International Rectifier are developing technologies that meet both design requirements. I agree, its nice to see the arrival of this semiconductor technology in power electronics.
Thanks for reporting on this. I remember hearing about 20 years ago that power supply designers were trying to make their products smaller, but it was a tough job to make that happen. Looks like progress has been made since then.
With erupting concern over police brutality, law enforcement agencies are turning to body-worn cameras to collect evidence and protect police and suspects. But how do they work? And are they even really effective?
A half century ago, cars were still built by people, not robots. Even on some of the country’s longest assembly lines, human workers installed windows, doors, hoods, engines, windshields, and batteries, with no robotic aid.
DuPont's Hytrel elastomer long used in automotive applications has been used to improve the way marine mooring lines are connected to things like fish farms, oil & gas installations, buoys, and wave energy devices. The new bellow design of the Dynamic Tethers wave protection system acts like a shock absorber, reducing peak loads as much as 70%.
Focus on Fundamentals consists of 45-minute on-line classes that cover a host of technologies. You learn without leaving the comfort of your desk. All classes are taught by subject-matter experts and all are archived. So if you can't attend live, attend at your convenience.