We’re pretty sure Apple decided to implement an IR sensor in their Mac Mini line simply to mock the user. For those who are unaware, the built in sensor only works with the standard Apple Remote; unless you happen to have a programmable PDA or similar you’re SOL. An alternative solution would be to install a USB IR receiver. But then your beautiful Mac Mini is forced to sit alongside an ugly black box. Why not have the best of both worlds? [SqueeZe] wrote an (almost) entirely non invasive tutorial for placing a USB IR receiver inside his Mac Mini. Reminds us of a certain hack a while back, but the objective was to get the IR receiver outside of the unit rather than inside. Different people, different worlds.
Through the years, our reader base has grown like we never could have imagined. We thank everyone for reading, and owe our gratitude to all who have sent in submissions. We live for them. The more high quality submissions you send in, the more we’ll post. Along with you, we’ve taken part in some really great projects and enjoyed the writing of some reallygreat people.
Now it is time to share our plans for the future with you. We have two announcements that we would like to get your thoughts on.
#1. Content:
Hack a Day first started as an offshoot of Engadget. It was a place where we were able to look at things from a hacker perspective. Contrary to what some people believe, it wasn’t all hardcore electronic engineering. It wasn’t even all projects. We had fun, and discussed our thoughts on many thingsthat weren’tthat complicated.
As we move forward, we will be covering a wide variety of posts. From simple things, like teardowns to the amazingly complex projects that inspire us all. We intend to get you original content from the perspective of people who are not just consumers, but hackers of all different skill levels.
We are working to make it easier to browse the site, with your specific interests in mind. Our first motion was to add the “Classic Hacks” category which gathers up the more complicated projects. We’re open to other ideas of how to best categorize the content to make your experience better.
#2. Social Interaction:
Since the beginning of Hack a Day, we have been inundated with questions and requests. People are asking for help on existing projects as well as trying to break into the complexities that can lay in front of a beginner. We’ve seen unofficial Hack a Day forums come and go, but we think it is time that we did something ourselves. We’ve been working behind the scenes on a really slick system which allows people to ask questions, get answers, and even rate and give feedback.You will hopefully see this appear in a matter of weeks as we finish up the last bits.
We look forward to seeing some of you shine, sharing your knowledge with the hacker community.
[Pyrofer] sent in his stereoscopic game project and we are just giddy with excitement. He has hacked apart an old TomyTronic 3D handheld viewer and put new guts in. He’s using a PIC micro to push stereoscopic imagery to twin LCDs. He wrote all code from scratch including the 3d library, wii nunchuck driver, and LCD driver. This thing even has bluetooth so he can play multiplayer if he ever makes a second one. The whole unit is kept alive via a lithium polymer battery so you don’t have to worry about any cords other than the wii nunchuck. This thing is awesome, we would love to play with one. You can see a video after the break.
[Steve] shows us his version of the knock detecting lock system. The idea is pretty simple, knock in a certain pattern and the door unlocks. We’ve seen it before several times. This solution is somewhat cleaner than the others, not only in physical design, but also in how you reprogram it. Simply push the reprogram button and enter your new knock. We’re a bit surprised that the suction cups actually hold it on the door. Maybe it’s just us, but we can never seem to get those things to hold very well. There are lots of great pictures as well as the source code available on his site.
Friends, pilgrims, send us your hacks. Most especially, your Thanksgiving hacks. We had a wonderful time over the past six weeks collecting and highlighting your Halloween props and now it’s on to the next holiday. Did you build your own deep fried turkey rig with some special features? How about that pie making robot you built for last year’s celebration? Can’t live without your twittering cornucopia? Document it and send it to our tip line! All Thanksgiving themed hacks will be considered but only the well documented and creative entries will be featured.
If you just joined us, here’s a roundup of the Halloween Props we encountered this year:
[Computergeek] made an Arduino Shield in order to use it as an Apple remote. We like the construction technique that he used; taking perf-board and soldering the circuit and using stripped wire to interface with the pin sockets on the Arduino. He’s written the code needed to function as an Apple Remote but this shield has a lot more potential. This is an excellent opportunity to delve into the different IR protocols out there and create a universal remote for all of your random devices. We’d also want to give it a try as a TV-B-Gone.
The parts are easy to find or salvage without putting in an order. We’re not certain about his design, he should probably have invited a resistor to the party the two IR LEDs are having.
The hard drive in [Jason's] 24″ iMac was on the blink. He decided that instead of just swapping out the bad drive for a traditional unit he would upgrade to a solid state drive. Tearing apart high-end hardware like this can be a bit nerve-racking but luckily the drive is mounted right behind the screen so he didn’t have to take everything apart.
The SSD he picked up was 2.5″ but the mounting hardware in the iMac is only setup for 3.5″ form factors. We would have used a bit of hackery to make it work but [Jason] went with an adapter kit. Uh-oh, once installed there was no problem with the mounting but the SATA cable didn’t reach far enough to plug it in. The cable snaked around under the motherboard and would have been a lot of work to swap for a longer one. He ended up removing all of the mounting screws except for one coercing the drive close enough for the connection.
It worked for him and it can for you as well. If you do this make sure to devise your own mounting scheme so that you don’t hit the same snag.
[Peter] deserves an award for doing more with less. He’s built a handheld device based on an AVR controller that has features normally associated with much more powerful devices. Here’s what it doesn’t do: no phone calls, no text messages, no accelerometer, and best of all no app approval needed. What it does do is leverage inexpensive, readily available components combined with common homebrew development techniques to create a touch sensitive handheld.
The demo video embedded after the break details the device playing video, rendering 3D objects, and displaying pictures and ebooks with touch scrolling. All of this is running at 60 fps for a smooth picture. The whole thing is no larger than the 320×240 LCD that he salvaged from a broken MP3 player. An Atmel AVR ATmega644 microcontroller ties together the display, a resistive touch screen, and a microSD card for storage. The chip also controls the backlight, a Lithium Polymer battery, and uses USB for PC connectivity, charging, and even a mouse or keyboard interface. He etched the PCB himself for surface mount components and managed to do it with just four jumpers needed on the underside.
This is a big leap forward from the last AVR based touch sensitive device we saw. All of the functionality seen in the demo is run using 4k of memory and 32k of programming space. Because [Peter's] powering this at 3.3v the system clock is limited to 12MHz but he’s managed to make it work. We asked him to post code and schematics and he didn’t hold back. Head over to the microtouch project page to download the code, Eagle CAD files, and PCB artwork. All of the demo files are there just waiting for you to build on his hard work. When you’ve got something running, don’t forget to share it with us!
[Steve Wozniak], Last of the freelance hackers and Greatest swordfighter in the world, lives a hacker life you couldn’t even dream about. The folks over at medGadget ran into him and learned about his watch. In their interview (embedded after the break) [Steve] shows off the Nixie tube wristwatch that we can only assume he created himself.
The watch consists of two tiny tubes, a PCB, and battery. There must be an accelerometer in there because the display is switched off unless the watch is held at a certain configurable angle. Once held in the correct position the display flashes the hours, then the minutes.
The time is set by two buttons inside the watch’s case. [Steve] goes on to explain the trepidation his fellow passengers have when he disassembles the watch mid-flight and starts to monkey around with the buttons inside. Not to be stopped at electronic tomfoolery, he also shares his delight in sneaking ceramic knives on board so that he can properly cut his steaks.
Lifestyle aside, the small Nixie clock packages we’ve seen don’t even come close to this. We assume this is pretty hard on the battery and wonder if the watch gets hot if you’re stuck in a long meeting and constantly looking at the time. We can get over both of those limitations just for the cool factor alone.
Update: Reader [Stephen] left a comment pointing to the origin of the watch. It is controlled by a PIC microprocessor, boasts a four-month battery life at 50 viewings per day, and there’s some code available. It is for sale but currently out of stock.
