Anyone remember this video from back in the day? This was from 2008. 3 and a half years later does the world still lack an adaptor that provides Wiimote-GC-Connectivity?
Hm.. I never thought about that. Do you have some sort of documentation/proof that a GC controller needs more than 3V to operate?The gamecube controller was never designed for low power battery operation.
There was no need for it as it got it's power from the console trough the cable.
This is different. Connecting GC controller to a Wiimote allows you to play Wii games with no native GC Controller support such as Call of Duty or Monster Hunter with a Gamecube Controller. It's basically just a Classic Controller replacement.Besides that, you could connect the controller directly to the wii, so why connect it to the wiimote
Do you think it will work if the adaptor increases the voltage? Like an invertor?Code:http://www.int03.co.uk/crema/hardware/gamecube/gc-control.htm
you need 5V for the rumble motor and 3.43V for the logic. Maybe 3.3V could work as well. Not sure about the needed current.
http://www.youtube.com/watch?v=1RE_s_X0Cac
Why not use a WaveBird controller? It's already battery-powered and all you need to worry about is converting the radio module and embedding it in an a'la WiiMotion+ case.
Benefits? It's wireless and you don't have to worry as much about the battery circuitry - the module only takes one type of voltage rather than two.
The adapter would be connected to the WiiMote, obviously. It's a two-piece set y'know. It's just battery-powered so that's one worry off a designer's back, but unfortunatelly you don't have one of those.
I thought I explained it already. A standard controller needs two types of voltage to work - one for the rumble and one for the logic. The WaveBird requires only the logic one as the energy for the rumble motors is drawn from batteries inside the controller itself. Wiring up the wireless adapter would be far easier than the controller.The adapter would be connected to the WiiMote, obviously. It's a two-piece set y'know. It's just battery-powered so that's one worry off a designer's back, but unfortunatelly you don't have one of those.
But if you need an adapter in the first place, wouldn't it be easier to build one that works with wired Gamecube Controllers?
I thought I explained it already. A standard controller needs two types of voltage to work - one for the rumble and one for the logic. The WaveBird requires only the logic one as the energy for the rumble motors is drawn from batteries inside the controller itself. Wiring up the wireless adapter would be far easier than the controller.The adapter would be connected to the WiiMote, obviously. It's a two-piece set y'know. It's just battery-powered so that's one worry off a designer's back, but unfortunatelly you don't have one of those.
But if you need an adapter in the first place, wouldn't it be easier to build one that works with wired Gamecube Controllers?
In that case they'll be equally easy to build as the WaveBird adapter and the standard wired controller send the exact same output on button presses, the only difference is the way the motor is powered and, well, the fact that one is wireless.So what's really easier, to build an adapter that supplies a wired GC Controller with power (ignoring the motor) or to build an adapter that supplies the radio unit of a WaveBird with power?
*Unless* he practically rips the logic board out of a working Classic Controller and simply wires up the appropriate buttons to the Gamecube ones, that should work quite dandy.Foxi4 speaks sense. Wavebird supplies it's own power from the battery pack. The ONLY power needed to be provided is to the receiver, which one would assume could work on a lower power input than a controller. However, I can't find any sort of documentation on the Wavebird, so I cannot say for sure if this is the case or not.
On top of the issue of power, there also needs to be some sort of micro controller in there to convert the signals from those sent by the GC controller to those expected by the Wii remote. And I would assume this will need power on top of that required for the GC controller itself.
PS2 controller needs 3.3V for power. (7.9V by the looks of things for rumble, but CC doesn't have rumble, so that connection isn't needed). Spend some more time with "your friend Google".Hm.. look what my friend Google send me in the mail: http://www.ps2tune.c...Wii-Remote.html
It's what I want, but this only works with a PS2 Controller. Does a PS2 Controller need less power than a GC Controller to function?