LionelHutz : Hi Lionel, and thank you for contributing to keeping this topic alive. My primary concern was with the technical feasibility of the concept design, rather than mass market potential. After reading that the concept was technically flawed I was intrigued to better understand why as I knew that all of the technologies worked separately, so why not together?
1. The wall outlet transfers power to the device's plug through induction.
2. With no need for physical patterned connectors any device could be powered: the parallel sockets would readily probe a device from Japan, as they would form the UK, and supply the appropriate voltage, polarity, AC/DC automatically.
3. A more permanent option to keep the plug in place with a magnetic field.
1. The issue of heat you mention is the issue facing the wireless power industry as demands increase for "fast chargers" and higher demanding loads so I read. I think I understand correctly that the losses with inefficiently directly translate into heat, especially with greater loads. However, as of 2011 I recall motor driven food blenders being powered (perhaps only pulsed?) with induction power from directly beneath a modified kitchen counter top. I understand distance to be a complication for induction, however if the plug's surface is directly flush with the wall outlet antenna to get the best possible alignment then could a food processor not be powered at any distance if tethered by a cable? Fundamentally, wireless power via induction does work safely for high demanding loads, so the concept design can surely power more demanding household appliances than just a low powered devices?
2. While universal plug adaptors exist, I believe they channel their supply based on a physical configuration. However, with more complex machinery such as a multimeter it is routine to check the polarity of a circuit for example, as well as other necessary checks to perform to know what conditions the device requires to safely power it. This is all added cost I agree: from the system to configure the power spat out from outlet automatically itself, to the information wirelessly transmitted of the configuration that the device(s) require to either an existing home network, or directly to a smart phone device (home automation) within range.
3. The option to firmly hold the plug in place at the wall outlet was hinted at as being ancillary to the initial attraction of existing magnets themselves. The convenience of neodymium magnets are likely enough with their strength directly pole-to-pole being their strongest, however sliding the surfaces away from each other is a lot less demanding and not ideal when vacuuming or using food related appliances. The idea then from the concept is to increase this with I assume a magnetic field, which makes sense as the wall outlet is in and of itself its own power supply! My research uncovered two options: one where the field was switched on, becoming a noisy parasitic load, or the opposite of which power would relieve the field, one of the two, but this seems to be the idea.
All of these technologies are real, just separately, what I want to know is what would need to be considered when putting them all together. Sound and heat issues seem to be apparent, as well as matters of efficiency and running cost compared to existing options - but, how to overcome these?
