Hackaday

Syndicate content Hackaday
Fresh hacks every day
ถูกปรับปรุง 2 hours 42 min ก่อน

Starting to Wrap Up Maker Faire

ศุกร์, 09/26/2014 - 21:00

It’s almost a week since the NYC Maker Faire, and it’s about time for us to start wrapping up all the posts we’re doing on everything we’ve seen.

[Chris Mitchell], hackaday favorite from Cemetech did what he always does at Maker Faire: brought some stuff he’s doing with TI graphing calculators.

The TI-84 with GPS made a showing, as did the graphing calculator IRC client. By far the coolest looking calculator was the wooden casemod. It’s a TI-82 put into a (what feels and looks like) a maple enclosure. The buttons are painted on, and despite stuffing consumer electronics into a handmade case, it’s still reasonable portable.

There were more Hackaday fans at the faire, but I’m not sure if anyone can beat the guys from Protopalette. Wait. One guy could. Find me in public sometime and I’ll tell you about that.

The Protopalette is a board with a bunch of lights, buttons, switches, sensors, knobs, servos, and buzzers for electronics prototyping. Think of it as a stylized version of the old ‘parts and springs and wire’ radio shack beginner electronic kits.

Some of the members of the hackerspace with the craziest group narrative, LVL1 in Louisville, made it to the faire. They’re working with GE to create a ‘maker module’ for appliances. It’s called Green Bean, and GE is actually building support for this into some of their fridges, washers, stoves and dishwashers.

There are a few modules already, like a scale that will send out a message when you’re out of milk. It’s an interesting system, and there are already a lot of appliances that support the system.

Pics below.


Filed under: misc hacks

A Very Bright LED Jacket

ศุกร์, 09/26/2014 - 18:00

Last year, [Ytai] went to Burning Man for the first time. He was a bit inexperienced, and lacked the lumens to make him visible on the Playa. This year, he made up for it by building an extra bright LED Jacket.

The jacket consists of 48 LEDs, at 150 lumens each. Each RGB LED module was placed on its own PCB, and controlled by the tiny PIC12F1571 microcontroller. This microcontroller was a great fit since it has three PWM channels (one for each color) and costs 50 cents. Firmware on the PIC allows the boards to be daisy-chained together to reduce wiring. This was done by using a protocol similar to the popular WS2811 LEDs.

Assembling 50 of the boards presented a challenge. This was addressed by using surface mount components, a solder stencil from OSH Stencils, an electric skillet, and a good amount of patience. The final cost of each module was about $3.

With 50 of the boards assembled, a two layer jacket was sewn up. The electronics were sandwiched between these two fabric layers, which gave the jacket a clean look. A wrist mounted controller allows the wearer to select different patterns.

For a full rundown of the jacket, check out the video after the break.


Filed under: led hacks

THP Semifinalist: NSA Away

ศุกร์, 09/26/2014 - 15:00

Back when we started The Hackaday Prize, security, big brother, and the NSA were making headlines every day. Since that time, there has been enough bread and circuses in the news to wipe the consequences of these leaks out of the public consciousness, but work is still being done by hackers and tinkerers the world over to give you the tools to protect your data.

NSA Away is one of these tools. The first part of the project is a standalone key generator that writes the same random bits to a pair of SD cards simultaneously. With their random number generator, this is perfect encryption. The only way to crack the one time pad the team is using for encryption is to 1) use parts of the pad more than once, 2) have a terrible RNG, or 3) do something really stupid like sell the one time pad in a store.

The other part of the build is an Android-based encryption device with a camera, keyboard, SD card reader, and a USB port. This device reads the ‘OTP SD cards’ and reads data with the camera using OCR and decrypts it on the screen. Provided the OTP doesn’t fall into the wrong hands, this is a perfectly secure way to transmit data to anyone.

As far as progress goes, the members of the team have a fully functional pad generator, writing random data to SD cards. This device can also output random bits to a computer as a USB HID device, should you want to transmit your pad over unsecured mediums.

It’s an impressive bit of work, especially in the RNG department. The team is using eight avalanche noise generators in the circuit description. This part of the build isn’t quite working yet, but that’s really not needed for a proof of concept.

The project featured in this post is a quarterfinalist in The Hackaday Prize.


Filed under: The Hackaday Prize

Running Golang on the Intel Edison

ศุกร์, 09/26/2014 - 12:00

While most embedded development is still done in C and/or assembly, some people are working with more modern languages. The team over at Gobot has successfully managed to get Go running on the Intel Edison.

The Go programming language, which has been around for about five years, compiles to machine code like C. It has a number of modern features including concurrency, garbage collection, and packages.

We’ve looked at the Edison on Hackaday before, and even took a detailed look at the hardware. It features a Quark SoC, Bluetooth, and WiFi, which makes it well suited for connected devices.

Getting Go to work on the Edison hardware wasn’t particularly difficult, since it supports the Pentium instruction set and MMX. However, a library was needed to interface with the Edison’s peripherals. The Gobot team whipped up gobot-intel-iot, which makes it easy to work with GPIO, I2C, and PWM.

After the break, the team demos PWM on the Edison using Go.


Filed under: software hacks

A Wrist-Mounted Flamethrower? Sure, Why Not?

ศุกร์, 09/26/2014 - 09:00

There are three types of booths at Maker Faire. The first is the strange corporate booth, like Pepsi ‘revolutionizing fluid intake’ or some such nonsense. That one had the longest line of any booth, in case you’re wondering. The second type of booth is the people you would expect to be there – Atmel, TI, and Makerbot all came out in full force.

The third type of booth were a little hard to find. They’re the ‘show and tell’ spirit of Maker Faire, and [Stephen Hawes] was one of the best. Why? Wrist-mounted flamethrower, that’s why.

The flamethrower is fueled with a propane bottle originally meant for a camping stove, with a microcontroller and pot setup taking care of the height of the flame. Buttons underneath [Stephen]‘s thumb takes care of the propane flow and tazer-based ignitor. The wrist measurement sensor can rescale to adjust the height of the flame to how far the wearer can move their wrist.

All in all, a great project for the Faire, although we did feel a little sorry for the NYC fire marshal that was assigned to [Stephen] for the entire faire. As an aside, we’re applauding [Stephen] for not referencing whatever comic book character has fire shooting out of his hand.


Filed under: wearable hacks

Exposed Clock is Flippin’ Cool

ศุกร์, 09/26/2014 - 06:00

Some hacks are triumphs of cleverness, others…are just cool. [Super Cameraman's] exposed retro flip clock tends toward the latter half of that spectrum—it may not be the most complex, but we’re relieved that for once there isn’t an Arduino crammed into the back of it.

You can buy pared down, exposed flip clocks at museums for an arm and a leg, or you can trudge through eBay and local thrift shops until you come across a cheapo clock radio. [Super Cameraman's] clock cost him exactly $2, and is split into two sections: a clock side and a radio side. Prying off the knobs and popping open the case reveals all the shiny mechanisms and electronics, most of which he trashed. The radio and even the transformer were removed, leaving only the flip clock, which he re-wired directly to the plug—it seems these types of clocks run straight off 120VAC. Check out the video below.

[via reddit]


Filed under: clock hacks

Thermal Printer Brain Transplant is Two Hacks in One

ศุกร์, 09/26/2014 - 03:00

You know how sometimes you just can’t resist collecting old hardware, so you promise yourself that you will get around to working on it some day? [Danny] actually followed through on one of those promises after discovering an old Radio Shack TRS-80 TP-10 thermal printer in one of his boxes of old gear. It looks similar to a receipt printer you might see printing receipts at any brick and mortar store today. The original printer worked well enough, but [Danny] wasn’t satisfied with its 32 character per line limitation. He also wanted to be able to print more complex graphics. To accomplish this goal, he realized he was going to have to give this printer a brain transplant.

First, [Danny] wanted to find new paper for the printer. He only had one half of a roll left and it was 30 years old. He quickly realized that he could buy thermal paper for fax machines, but it would be too wide at 8.5 inches. Luckily, he was able to use a neighbor’s saw to cut the paper down to the right size. After a test run, he knew he was in business. The new fax paper actually looked better than the old stuff.

The next step was to figure out exactly how this printer works. If he was going to replace the CPU, he was going to need to know exactly how it functioned. He started by looking at the PCB to determine the various primary functions of the printer. He needed to know which functions were controlled by which CPU pins. After some Google-Fu, [Danny] was able to find the original manual for the printer. He was lucky in that the manual contained the schematic for the circuit.

Once he knew how everything was hooked up, [Danny] realized that he would need to learn how the CPU controlled all of the various functions. A logic analyzer would make his work much easier, but he didn’t happen to have one lying around. [Danny] he did what any skilled hacker would do. He built his own!

He built the analyzer around an ATMega664. It can sample eight signals every three microseconds. He claims it will fill its 64k of memory in about one fifth of a second. He got his new analyzer hooked up to the printer and then got to work coding his own logic visualization software. This visualization would provide him with a window to the inner workings of the circuit.

Now that he was able to see exactly how the printer functioned, [Danny] knew he would be able to code new software into a bigger and badder CPU. He chose to use another ATMega microcontroller. After a fair bit of trial and error, [Danny] ended up with working firmware. The new firmware can print up to 80 characters per line, which is more than double the original amount. It is also capable of printing simple black and white graphics.

[Danny] has published the source code and schematics for all of his circuits and utilities. You can find them at the bottom of his project page. Also, be sure to catch the demonstration video below.


Filed under: Microcontrollers

THP Semifinalist: B10N1C Yourself

ศุกร์, 09/26/2014 - 00:00

The Hackaday Prize has had a few medical devices make the semifinalist cut, and of course wearables are on the list. How about implantables? That’s what Bionic Yourself 2.0 (or B10N1C) is doing with an implantable microcontroller, battery, and sensor system.

The hardware in B10N1C includes a electromyography sensor for measuring muscle activity, an accelerometer, a vibration motor, RFID reader/writer, temperature sensor, and – get this – a LED bar graph that will shine a light through the skin. That’s something we’ve never seen before, and if you’re becoming a cyborg, it’s a nice feature to have.

As with anything you would implant in your body, safety is a prime consideration for Bionic.the Lithium battery can be overcharged (yes, through a wireless charging setup) to 10V without a risk of fire or explosion, can be hit with a hammer, and can even be punctured. The enclosure is medical grade silicone, the contacts are medical grade stainless steel, and there’s a humidity sensor inside that will radio a message saying its time to remove the device if the moisture level in the enclosure increases.

Because the device is implanted under the skin, being able to recharge and update the code without a physical connection is the name of the game. There’s a coil for wireless charging, and a lot of work is going into over the air firmware updating. It’s an astonishing project, and while most people probably won’t opt for a cyborg implant, it will look really cool.

The project featured in this post is a quarterfinalist in The Hackaday Prize.


Filed under: The Hackaday Prize, wearable hacks

Speakers at Hackaday’s 10th Anniversary

พฤ, 09/25/2014 - 22:36

It is with great pleasure that we are able to announce the final slate of speakers for Hackaday’s 10th Anniversary on October 4th in Pasadena. There are still around 30 tickets left for the conference so get yours now!

The most recently confirmed speaker is a man of many names. [Ryan Clarke] may be better known as [LosT], [1o57], or [Lostboy]. For years he has been driving the flagship contest at DEFCON by generating cryptographic puzzles that run far and deep through the 4-day conference and beyond. His talk will venture into the art and science of putting together these challenges, and the lengths at which determined hackers will go to solve them. His site gets taken over each year for DEFCON, so you might want to explore his Twitter account if you’re looking to learn more about this mysterious figure.

The other four speakers have already been mentioned in the initial announcement and last week’s follow-up. [Steve Collins] will discuss how his early interest in hacking led him to become an engineer at NASA. [Quinn Dunki] will have her scratch-built Veronica computer on hand and explain the adventure of the impressive project. [ThunderSqueak] will help us wrap our minds around the concept of non-binary computing, and [Jon McPhalen] will present the benefits of multi-core embedded processing versus traditional interrupt-based design.

We can’t wait for this amazing afternoon of talks which is just one week from Saturday. We hope to see you there!


Filed under: cons, Featured

Fail of the Week: Battery Packin’

พฤ, 09/25/2014 - 21:01

[NeXT] got himself an IBM ThinkPad TransNote and yeah, we’re pretty jealous. For the uninitiated, the TransNote was IBM’s foray into intelligent note transcription from roughly fifteen years ago. The ThinkPad doesn’t even have to be on to capture your notes because the proprietary pen has 2MB of flash memory. It won an award and everything. Not the pen, the TransNote.

Unfortunately, the battery life is poor in [NeXT]‘s machine. The TransNote was (perhaps) ahead of its time. Since it didn’t last on the market very long, there isn’t a Chinese market for replacement batteries. [NeXT] decided to rebuild the replacement battery pack himself after sending it off with no luck.

The TransNote’s battery pack uses some weird, flat Samsung 103450 cells that are both expensive and rare. [NeXT] eventually found some camera batteries that have a single cell and a charge controller. He had to rearrange the wiring because the tabs were on the same side, but ultimately, they did work. He got the cells together in the right configuration, took steps to prevent shorts, and added the TransNote’s charge controller back into the circuit.

Nothing blew up, and the ThinkPad went through POST just fine. He plugged it in to charge and waited a total of 90 minutes. The charging rate was pretty lousy, though. At 94% charge, the estimated life showed 28 minutes, which is worse than before. What are your thoughts on the outcome and if it were you, what would be the next move?

Fail of the Week is a Hackaday column which runs every Wednesday. Help keep the fun rolling by writing about your past failures and sending us a link to the story — or sending in links to fail write ups you find in your Internet travels.


Filed under: Fail of the Week, Hackaday Columns

Cheap Multimeter Gauges Embedded Idle Time

พฤ, 09/25/2014 - 18:01

How often is your microcontroller actually doing something? You can find out by measuring idle time, but how exactly do you do this? [Jack Ganssle] shows that simple embedded applications can toggle a pin when idle, which can then be measured. More complex applications like those using a Real Time Operation System can do the same by making use of the idle hook. But what can you do to make this toggling pin feedback actually mean something?

His solution is to repurpose an analog multimeter. The meter is interface with the toggle pin and a trimpot calibrates the needle. This way the needle jumps when the processor is busy and returns to zero when idle. What a great tip for getting a little more feedback about what’s going on inside of that black plastic IC package. It’s not surprising to find such a clever hack from one of the Hackaday Prize judges.

While you’re in the analog multimeter aisle you might want to pick up a couple of extras for more alternate data displays.


Filed under: Microcontrollers, tool hacks

Digital Caliper Sacrificed For DRO Project

พฤ, 09/25/2014 - 15:00

In general, machining metal on a lathe or mill takes skill and patience as the accuracy of the cuts are important. To make those accurate cuts, it is important to know where the tool is located and how far it moves. For manual machines, the most basic method of determining position is by using graduated dials mounted on the hand cranks. Although these graduated dials can certainly be accurate, they may be difficult to see and they also require the operator to do math in their head on the fly with every full revolution of the dial. Another option would be a digital read out (DRO) which has an encoder mounted to the moving axes of the machine. This setup displays the exact position of the tool on an easy to read numeric display.

Professional DRO kits for mills and lathes can cost between a few hundred dollars to several thousand dollars.  [Robert] has a lathe, wanted a DRO but didn’t want to shell out serious cash to get it. He built his own for super cheap in an extremely resourceful way…. using a Harbor Freight Digital Caliper. A housing was first fabricated so that the added equipment would not hinder the axis travel of the lathe. The caliper was then cut to length, installed in the housing and the entire assembly was then mounted to the lathe.

It is totally reasonable to use the stock caliper display to read the positional information, however, even these cheap digital calipers have connections for the encoder output data, which can easily be read by a microcontroller. That means it is super simple to hook these low-cost digital calipers up to a display remotely located in a more convenient position.

 


Filed under: tool hacks

THP Semifinalist: A Continuous Wave Radar

พฤ, 09/25/2014 - 12:00

There aren’t many Hackaday Prize entries playing around in RF, save for the handful of projects using off the shelf radio modules. That’s a little surprising to us, considering radio is one of the domains where garage-based tinkerers have always been very active. [Luke] is bucking the trend with a FM continuous wave radar, to be used in experiments with autonomous aircraft, altitude finding, and synthetic aperture radar imaging.

[Luke]‘s radar operates around 5.8-6 GHz, and is supposed to be an introduction to microwave electronics. It’s an extremely modular system built around a few VCOs, mixers, and amplifiers from Hittite, all connected with coax.

So far, [Luke] has all his modules put together, a great pair of cans for the antennas, everything confirmed as working on his scope, and a lot of commits to his git repo.

You can check out [Luke]‘s demo video is available below.

The project featured in this post is a quarterfinalist in The Hackaday Prize.


Filed under: radio hacks

Apollo, the Everything Board

พฤ, 09/25/2014 - 09:00

The best projects have a great story behind them, and the Apollo from Carbon Origins is no exception. A few years ago, the people at Carbon Origins were in school, working on a high power rocketry project.

Rocketry, of course, requires a ton of sensors in a very small and light package. The team built the precursor to Apollo, a board with a 9-axis IMU, GPS, temperature, pressure, humidity, light (UV and IR) sensors, WiFi, Bluetooth, SD card logging, a microphone, an OLED, and a trackball. This board understandably turned out to be really cool, and now it’s become the main focus of Carbon Origins.

There are more than a few ways to put together an ARM board with a bunch of sensors, and the Apollo is extremely well designed; all the LEDs are on PWM pins, as they should be, and there was a significant amount of time spent with thermal design. See that plated edge on the board? That’s for keeping the sensors cool.

The Apollo will eventually make its way to one of the crowdfunding sites, but we have no idea when that will happen. Carbon Origins is presenting at CES at the beginning of the year, so it’ll probably hit the Internet sometime around the beginning of next year. The retail price is expected to be somewhere around $200 – a little expensive, but not for what you’re getting.


Filed under: hardware, Microcontrollers

The TinyG Motion Controller

พฤ, 09/25/2014 - 06:00

When you go to a trade show of any kind, you’re expecting cool demos in the booths. At Maker Faire, there were plenty, but one of the most hypnotic was a robot built around Synthetos’ TinyG motion controller.

The demo was simply a large CNC gantry moving a ball bearing around on a string. The gantry moved in the X and Y axes, and the miniature wrecking ball was spooled and unspooled in the Z axis. The ball move around the space, coming to a complete stop without any swaying. There were even a few clear plastic tubes that the ball fell in, and popped out of without raising or lowering the string. It’s the height of motion controller coolness, all made possible with the TinyG.

The TinyG was one of a few motion control and CNC boards found at the faire. In its base configuration, it has 6 axes of motion control, RS485 to network several boards for crazy machine configurations, and a suitably powerful processor to do everything correctly.


Filed under: cnc hacks

EM Pulser Flings Washers, Side Effects May Include Curing Cancer or Death

พฤ, 09/25/2014 - 03:00

Some folks believe that exposure to electromagnetic pulses helps the human body heal itself (one portion of the [Bob Beck] protocol). [Steffan] is one of those folks and was interested in EMP generation but wasn’t crazy about the several-hundred dollar price tag for professional units. As any determined DIYer would do, he set off to make his own.

This whole thing works by straight-out-of-the-wall 110v AC running through a couple 60 watt light bulbs before moving through a rudimentary rectifier circuit. The DC output from the rectifier charges five 130uF camera flash capacitors. An inductor coil is responsible for generating the EMP and is only separated from the capacitors by a single normally-open momentary switch. Although it is possible to wrap your own coil, [Steffan] decided to use an off the shelf 2.5mH unit normally used for speaker system crossovers. Once the momentary switch is pressed, the energy in the capacitors is discharged through the inductor coil and the EMP is created. To demonstrate that the pulser does indeed work, a metal washer was placed on the inductor coil and the unit fired resulting in the washer being thrown into the air.

[Stephan] did deviate from the some of the online designs he had researched, using 7 capacitors instead of the recommended 5. The result was a firecracker-like discharge sound and melting of the 14 gauge wire. Well, back to 5 caps.


Filed under: Medical hacks

Hackerspace Tours: Omaha Maker Group

พฤ, 09/25/2014 - 01:30

Members of the [Omaha Maker Group] in Omaha, Nebraska affectionately call their space The Makery. This hearkens back to their humble beginnings in a 900 square foot space that formerly housed a bakery. There was one measly electrical outlet and they had to travel to the nearest restroom, often on vehicles they made. It was in this small space where they built the workbenches and forged the friendships that created the inviting hangout they have today.

[OMG] has been in their current, more centrally located space for the last two years. It was there that I met [Eric] and [Ben] for a few hours in the evening before Maker Faire, for which they are largely responsible. [Eric] had spent the day setting up at the Omaha Children’s Museum and he and [Ben] were kind enough to give me a detailed tour.

The new space is a progression of rooms that begins with a combination lounge and meeting space. Here you’ll find the beer and snacks, the brag wall full of framed articles, and one of the remote controllable web cams. A few of the founding members have since flung themselves around the world, but are able to participate through these links. The best part of this room is either the PVC-framed Raspi MAME cabinet or the sign on the bathroom door which doesn’t discriminate against androids.

 

Next up is a smallish room with their 3D printer, a modified Mendel with a spool holder made by one of the members. There’s a large pile of glue sticks next to it to help prints adhere to the bed. That was a new one to me. [Ben] says they work almost too well. Next to that is their K40 C02 laser cutter that they modified to operate only when closed (!). They’ve also added LEDs and an exhaust fan. The cutter was internally crowdfunded in about three days. This method works well for them according to [Eric]; no one spends money on equipment they won’t use. They are currently in the process of building a second, bigger one using a donated frame.

Much of the magic happens in the next room. It’s the biggest and houses most of the general making space, including an electronics workbench and a separate bench with hand tools. In the center are some modular wheeled workbenches, which are the first things they made as a group in the old space. You’ll also find a sewing area, a hot wire foam cutter, a plotter, and the Shapeoko they won through Inventables’ 50 states contest.

They have a member who happens to be a machinist. He’s provided all kinds of fun things like a metal lathe, wood lathe, and jigsaw that are in the fourth and final room. This is where all the heavy machinery and a lot of the raw materials can be found, along with a mill, welding rigs, a drill press, a band saw, things of that nature.

One of my favorite things about the space is the overall organization. [Eric] told me that they regularly schedule purge days to combat clutter. This is especially helpful when they have things like treadmills donated to them that are good for a couple of motors and are basically just in the way after that. All of the hand tools like socket wrenches, pliers, and hammers are color-coded to distinguish between those that anyone is free to use and those that are personal. Several shelves of blue storage totes function as lockers for private stashing.

It’s great to see a group function the way that [Omaha Maker Group] does. In addition to organizing Omaha’s first Maker Faire, they regularly man a giant booth at the Nebraska Robotics Expo. They also hold competitions at least once a year for things like trebuchet and egg drop engineering. Earlier in 2014, they had a FirLumber rally and built their own wood car run inside the ‘space.

They try to keep membership at reasonable rates. For the $15 a month student rate, you can use the publicly available tools and machines. $35 per month will get you a key. Either way, beer in the fridge is always appreciated. They have open shop time at least twice per week and meet monthly to discuss business. If you’re not into hardware, they also have a programming subgroup called OMGCode.

 

 

 


Filed under: Hackerspaces

Pick and Place Machines at Maker Faire

พฤ, 09/25/2014 - 00:00

A few years ago, every booth at a Maker Faire had a 3D printer. It didn’t matter if 3D printing was only tangental to the business, or even if the printer worked. 3D printers have finally jumped the shark, and there’s going to be an awesome t-shirt to reflect this fact. This year there weren’t many 3D printers, leaving us asking ourselves what the new hotness is.

Pick and place machines. We couldn’t find many at the faire, and only Carbide Labs’ Pick and Paste machine was working on picking up small resistors and LEDs the entire faire. Carbide’s Pick and Paste machine is exactly what you would expect in a pick and place machine: it picks up components out of tapes and wells, orients them correctly, and plops them down on a board.

The killer feature for the Pick and Paste is its modular design. The toolhead is expandable, allowing anyone to add a second vacuum nozzle to double the rate parts are placed, or a solder paste dispenser. The guys didn’t have the paste dispenser working for the fair (leaded solder and kids don’t mix), but this machine is effectively a combination pick and place machine and solder paste dispenser, something that’s usually two machines on an assembly line.

Also at the faire was Tempo Automation. They’re in a pseudo-stealth mode right now, waiting until everything works perfectly until bringing their machine to the masses. It is, however, exceptionally fast and about a third of the price of a similar machine.

The only other pick and place machine at the faire was the Firepick Delta, one of the more popular projects on hackaday.io and one of fifty finalists for the Hackaday Prize. Unfortunately, the FirePick Delta was broken in shipping, and although [Neil] was sitting right next to the 3D printing guys, it would have taken all weekend to repair the machine.


Filed under: tool hacks

Lamp Comes to Life with Ultrasonic Sensors

พุธ, 09/24/2014 - 21:00

Fans of the bouncing lamp from the Pixar corporate logo will enjoy [Daniel]‘s latest project. It’s a motion controlled desk lamp that uses ultrasonic sensors to control its physical position.

The core of the project is an Arduino and the three ultrasonic sensors. The sensors act as range finders, and when they are all working together under the direction of the microcontroller they can tell which direction a hand was moving when it passed by. This information is used to drive two servos, one in the base and one on the lamp’s arm.

The project requires an articulating desk lamp of some sort (others besides the specific one [Daniel] used shouldn’t be much of a problem as long as they bend in the same way). Most hackers will have the rest of the parts on hand, with the possible exception of the rangefinder. The code is up on the project site for a look-see or in case you want to build your own.

The only problem that [Daniel] had when putting this all together was that the base was a little wobbly. He was able to fix that with some thumbtacks, and we think the next step for the project should be switching the light on and off over the internet.


Filed under: home hacks

CircuitMaker from Altium

พุธ, 09/24/2014 - 18:00

Altium recently announced CircuitMaker, their entry into the free/low-cost PCB design tool market. They’re entering a big industry, with the likes of Eagle, KiCad, gEDA, and a host of other tool suites. We had a few minutes to talk with Max in the Altium booth at World Maker Faire, and even got a bit of time with the tool itself.

Hands on, it definitely has the look and feel of Altium Designer, right down to the familiar yellow and green boxes for schematic and sheet parts. Center stage was the 3D view, a feature which Altium has had in their software since the late 90’s.

CircuitMaker’s website is pushing the collaboration aspect of the software. Design choices can be reviewed and commented on in real-time. This also suggests that the data files will live in Altium’s own cloud storage system.

CircuitMaker is still in the pre-beta phase, but they’re looking for beta testers now, so head over to the site and sign up!


Filed under: tool hacks

Logicthai Shop

LogicStamp8fx ราคา 180 บาท

USB to TTL module ใช้ชิพ PL2303 ราคา 150 บาท

USB Power module พร้อมสาย USB ราคา 70 บาท

ชุดลงปริ้นท์ freeduinomax232ssAtmega168 ราคา 450 บาท

แผ่นปริ้นท์ freeduinomax232ss เกรด A ราคา 70 บาท

ชุดคิท freeduinomax232ssAtmega168 ราคา 320 บาท

สาย RS232 ราคา 70 บาท DC อะแดปเตอร์ 9 volt ราคา 150 บาท

ค่าส่ง EMS 60 บาท

การใช้งานชุด freeduinomax232ss จะต้องประกอบด้วย ตัวบอร์ด, สาย RS232, อะแดปเตอร์ 9 โวลท์ชนิดที่มีขั้วบวกอยู่ตรงกลาง

ผู้สนใจสั่งซื้อสินค้าส่งเมล์มาที่ sales(at)ลอจิกไทยดอทเนท

สมาชิก ส่งรายการสั่งซื้อและที่อยู่โดยเข้าเมนู contact