Hello,
Have you got a brick into your pocket?
Could the pandora / pyra / or next generation model be much thinner?
Any ideas how to make it thinner, regarding hardware are welcome.
Kind regards,
James
We can have ideas but
problem is MONEY and TIME, a lot of both, and we, nor ED, have those.
My ideas:
-Put CPU board on upper side, and use aluminiun back so it would be a big heat radiator for SOC/CPU connecting CPU to aluminum back (frame around display could be insulated from that heat radiator for CPU). Battery would continue on lower side, much cooler (no heat from CPU/SOC). It would have only 2 PCB, one on each side (today we have 3: two on bottom part and other on upper part).
Pepole who says: but you can't put CPU next to display becuase it would burn for heat... Well, our samrphones have that. My smartphone is 7 mm thick and CPU plus LCD display are inside those 7 mm case, it has 4 years of intense use and LCD display is perfect, no damage from CPU/SOC heat. In Pyra it woulf be better because, while not having battery on upper part, it could add insulator and connect CPU/SOC directly to aluminiun upper case, to act as a very big raditor.
People who says: but you can't put CPU on top part and keyboard/battery/some ports on lower side. Well, I have convertible computers where CPU is on tablet part and you can have other battery and ports on optional keyboard base or in a dock (USB 3, HDMI, etc).
-Use OLED display. I don't like them in normal devices because with use they burn-in, but if it was Pyra I could replace it when it got burned in a few years.
-Forget plastic case, instead use aluminum on top part and aluminum or MgCast on down (it is an alloy of Al+Mg).
-You don't need a very big battery but a fast battery swap system (without turning machine off: this can be solved using two half capacity batteries inside, two equal batteries, or one big and one very very small to maintain energy while swapping big battery). For example instead of 6000 mAh battery it can have 3000 mAh battery (plus a very small to maintain energy a minute for battery change, or two 1500 mAh batteries inside) and a fast swap battery system (for example similar to those on some cameras, where you open a door and battery is ejected). Pyra would be lighter, you would have less weight on your hands.
I think on my cell phone: it is 7 mm thick and it has removable battery, with a much better system than Pyra for battery insertion/extraction: it has metal case and bolts (I have it from 4 years ago and I have changed battery thousands of times, as usually I don't charge battery inside but outside smartphone and I interchange them). So Pyra 2 could be 7mm+10mm thick (10 mm for keyboard, battery, modem, etc), that is 1,7 cm.
What is the
problem: MONEY+RESORUCES, big money+resoruces. A big company with tons of money, resources and know-how, can do a smartphone in 7 mm (and it could do a Pyra 2 in 1,7 cm), but we don't have those resources. And that big company makes devices selling by hundred of thousand, or even millions, nor a device for a few thousands.
With actual resources I don't see options for important imoprovements on thickness. As much screen part could be a bit thiner (ED mentioned it). But lower part is a mess: even actually there are a lot of problems to put a modern SOC because there is very little vertical space for it and for dissipation. It wasn't considered on original design, so now there is a big problem for future CPU boards.
With my idea (CPU on top part connected to aluminum back as radiator) it could be marvellous, but that is not possible, nor it will be, because of money+resoruces. Simply look the problems ED has found on actual Pyra; How would he (or someone of us with less money and less experience) start other from zero?
Even with all that problems and very very big delay, Pyra continues being unique, there is no other similar machine: pocket size (even thick) with back-lit keyboard plus complete gamming controls inside (even thouse gamming controlls would be good for serious use: you can combine thumb triggers with keys, and use analog sticks as mouses).