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Xbox 360 controller hack.Hacking the Xbox 360 Controller

By admin on July 15, 2021 0 Comments


Xbox 360 controller hack.Use Your 360 Controllers On The Original Xbox


From HackSpace magazine store.Can we hack an Xbox controller? — HackSpace magazine


my kids threw this controller into the trash, they said it will not work anymore because the player does not respond to the controller, so I took it apart to. Feb 08,  · An Arduino Pro Micro, acting as a master controller, talks to a MAX USB host controller, which interfaces with an Xbox wireless receiver, either genuine or ted Reading Time: 2 mins. Hacking the Xbox Controller: So you read my Xbox S controller tutorial, then you went out and tried to mod a controller. Well, it’s a little bit different. Here I highlight the differences and show you how to get a microcontroller to perform different button functions wit Estimated Reading Time: 4 mins.


Xbox 360 controller hack.Hack the Xbox controller using Arduino | Arduino Blog

Jul 09,  · Official Xbox controller (wired): $45 shipped. What you get: All buttons and D-Pad, plus both analog triggers (now digital) Official Xbox controller (wireless): $50 shipped. What you get: All buttons and D-Pad, plus both analog triggers (now digital) *Shipping prices to the US. Add $5 for Canada and the UK. Other countries PM for details. Feb 13,  · Don’t forget to subscribe, like and comment. Also subscribe to foxxkidd for more vids of me. Thx for Watching ��. Apr 20,  · The Xbox controller is quite old (circa ) but it is still a delight to use when gaming, and now we have a hackable controller which can be repurposed into much grander projects. It isn’t worth picking one up for the full retail price, but if you can find one in a thrift store or car boot sale, then it is worth your time and effort to use this in a fun project.
HackSpace magazine
Introduction: Hacking the Xbox 360 Controller
Hacking the Xbox Controller : 6 Steps – Instructables

More articles from HackSpace magazine magazine
Use Your Controllers On The Original Xbox | Hackaday

So you read my Xbox S controller tutorial, then you went out and tried to mod a controller. Well, it’s a little bit different. Here I highlight the differences and show you how to get a microcontroller to perform different button functions with the new controller. And more importantly, I show you how to stuff it all into that sleek little case. This tutorial covers the wired controller. If you look at the pictures below, you will see step by step how to install using the smt optocoupler.

But refer to step 4 to see how to make the smt optocoupler. Here, I show your the places where to access the X and Y button signals. The switching is different, so we need to switch these with use of optocouplers. Unlike relays, optocouplers are unidirectional, so we have to pay attention to how we hook them up. What’s an optocoupler? An optocoupler is a little light emitting diode placed next to a phototransistor in a plastic chip package.

Here, I’m using the 4n27, which is a 6 pin device. I am using the DIP package, meaning it’s full size with through-hole pins. Could I save a lot of space by using a surface mount part? Well, sort of. Surface mount mainly reduces the height of your circuit, rather than the width As you will see if you open up your controller, there isn’t a lot of space here, but just south of the B button, there is a very tall space that we can utilize.

You can see that I placed a 1k axial resistor onto the R trigger potentiometer output so that it sticks str8 up. This makes it easier to acess after we have glued on the other chips, and if you clip it right, there’s just barely room enough inside the case for it to stand str8 up like that. The chip on the bottom is a microcontroller.

It is deadbugged, with the notch pointing up. The chips on the right are two stacked photocouplers. This is a pictorial showing how to cram two dip optocouplers inside the controller.

After you finish this, refer to the schematic in later step for wiring. The switching is done differently on the controller. There will be two traces for each button. The trace on the left of the button will transmit a signal to the trace on the right of the button. This is important. As discussed before, the optocoupler is unidirectional. Do you see what I mean? So for a common 6 pin photocoupler, such as the 4n27, pin 5 is the phototransistor collector.

This must attach to the left trace for the respective button. Pin 4 is the phototransistor emittor. This has to be connected to the trace to the right of the button. Now pin 1 of the coupler is the anode of the light emitting diode that is hidden inside of the chip. This means we can attach pin 1 to our positive rail. Pin 2 is the cathode. So we can attach this to our chip But wait a minute. If we won’t put a resistor in there, somewhere, we will burn out the diode or our microcontroller.

Pin 3 is normally unused, so we can solder a small smt resistor between pin 2 and pin 3. Then we can attach out microcontroller output pin to pin 3 of the coupler. So ok, I found these really really small tsop smt dual channel optocouplers. I had to give these a go, they just look so neat. Follow the pics to see how I made a mini interface using this part and a bit of protoboard.

If you use the type of switch commonly called the 6mm tactile switch, as I do, there is a nice place for it to go. I find that the length of the cap should be around mm tall for best feel.

My buttons are actually 9. The proper place, IMO, for the buttons, is just about level with the middle screw line, just at the crease where the handles start to form. This spot also just happens to have enough space for placement. Any further out or much further up, and you will run into space problems. The top chip is the optocoupler, a 4n27 in this case. Actually it’s two of them, stacked.

The outer leads represent the bottom coupler. The inner leads are the top coupler. The pins are bent up, in this scemmy.

The bottom chip is the microcontroller. It is deadbugged, thus the numbering is backwards. The pins are not bent in this case, but left as is. Very interesting. We as Gadget and Gizmo lovers are admirers of Xbox We did an article on Xbox as well. Reply 9 years ago on Step 6. Reply 10 years ago on Step 6. Reply 12 years ago on Introduction. Reply 10 years ago on Introduction. Well they are a little short, mostly because they are too fat. The screws are tamper proof torx.

You can bypass the need for this set by using a drill and drilling the nipple off but be careful not to damage the threading. Reply 13 years ago on Introduction. What I did to solve this problem was Take a small drill bit, small enough to fit in the torx slot, then put it in the trusty old dremel and drill out the “tab” inside the torx.

I know it sounds hard but the tab will instantly break off. You can take a dremel to a regular torx driver. Use a regular cutting disk, the thin kind. Cut a str8 line into the end of the bit. Aim the cut so that it completely obliterates one pair of opposing teeth. This leaves 4 teeth intact. And, in case you missed the obvious point of doing this, it creates a channel wide enough to pass the security post! It has to have a cutting disk thin enough that it can slot the end without ruining more than one set of teeth.

It doesn’t have to cut very deep. I think any industrial grade saw will be too big. Dremel is probably the only way to go. I just used a small flathead and used the pin in the middle to get a good grip on it and just used the flathead to unscrew it. Either that one or one size smaller. An added bonus of the flathead is sometimes it just breaks off the pin and you can use a normal Torex to finish up size 8’ish. Introduction: Hacking the Xbox Controller. By klee27x Follow.

More by the author:. Did you make this project? Share it with us! I Made It! Reply Upvote. Hansd7 5 years ago. Great Stuff. I am also wondering what this does Soldering and confusing work for no apparent result. Satella blahblah01 Reply 10 years ago on Step 6. I think i have the same set that dosent work.

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