background preloader


An exploration into the possibilities for individual construction and customization of the most ubiquitous of electronic devices, the cellphone. … more Electronic Popables Electronic Popables is an interactive pop-up book that sparkles, sings, and moves. The book integrates traditional pop-up mechanisms with thin, flexible, paper-based electronics and the result is a book that … more Codeable Objects Codeable Objects is a library for Processing that enables novice coders, designers and artists to rapidly design, customize and construct an artifact using geometric computation and digital fabrication The programming … more Self-folding Origami Paper A first-step toward origami robotics, I/O paper is a pair of origami papers in which the red (controller) paper senses how it is being folded and the white (output) paper … more Kit-of-No-Parts The Kit-of-No-Parts is an approach to crafting electronics rather than designing discrete components. DressCode Computational Textiles Curriculum Related:  ETEXTILES

LED Shoe Clips Step #3: PrevNext Gently singe the edges to prevent fraying. Step #5: Fold remaining circles into wedges and compile in a stack with the illuminated wedges evenly distributed in the ruffle stack. Step #6: Be sure both longer positive leads are facing the same side of the stack, and stitch the fabric in place with plain thread. Step #8: Start the soft battery holder with a piece of felt shaped to double over the coincell battery. Step #9: Using two pieces of conductive thread, sew a pad at the center of each felt circle with leads hidden in the felt sprouting from one outer side. Step #11: Stitch the ruffle assembly to the top of the battery holder with standard thread. Step #12: Stitch the remaining tails of conductive thread to connect with their respective polarity leads of the LEDs.Stitch the positive thread to both positive LED leads, and stitch the negative thread to the negative leads. Step #14: Stick a paperclip in the back of the battery holder and clip onto your shoe! Step #15:

Empezando con LilyPad Arduino ~ Este es un tutorial rápido para empezar a coser un simple circuito y controlar LEDS, usando la placa Arduino LilyPad. No aprenderás cómo crear tus propios programas para Arduino, pero conectarás 9 LEDs a la placa (uno a cada pin excepto los pines + y -), y cargarás el código propuesto para cambiar la forma en que las luces se moverán y parpadearán. Los materiales que necesitarás son los siguientes: Recomendado (pero no necesario): Bastidor En primer lugar, visita la página y descarga el software de Arduino si es que aún no lo tienes. Echa un vistazo a tu placa LilyPad – tiene 11 pads que pueden ser conectados a cualquier cantidad de dispositivos interesantes. Para comenzar, enhebra tu aguja con el hilo conductor, y cose tu placa sobre la tela que quieras, en el agujero titulado “5? Ahora hilvana un hilo desde este punto hacia donde quieras que esté tu primer LED, luego cóselo al pad positivo de tu LED. Enrolla y corta tu hilo. Ahora sólo faltan 2 pads.

amazon SEW ELECTRIC | DIY PROJECTS THAT COMBINE FABRIC, ELECTRONICS AND PROGRAMMING Soft Electronics Tutorials Specialized Materials The tools and materials for creating soft circuits are pretty standard: you need your electronic components and their tools, and your soft materials and their tools. Anything that conducts electricity can be interesting here: snaps can be switches; hooks and eyes can too. If you are thinking of doing digital electronics, check out the Lilypad Arduino, an open-source programmable microcontroller designed especially for sewing and use with conductive thread. Not sure you want to invest in a whole spool of conductive thread? Sewing with components To sew traditional components one must make them into sewable buttons. If the component will be under physical pressure, reinforce the conductive thread stitches with normal thread, which is stronger. Another option to connect between hard and soft elements in a circuit is to terminate the soft portion with a snap. Use normal cotton / polyester thread to secure the snap after sewing it with conductive thread. Soft push-button 1.

Sewn Circuits | The Tinkering Studio A stuffed camera’s flash actually goes off when a button on the back is pressed! Sewing can be challenging and rewarding at the same time A great deal of facilitation happens between participants, with more experienced sewers showing the ropes to novices When we offer this activity at the museum, there is an age limit of 10+, but no such thing at home! Often a simple decorative name badge is a great starter project Name badges are also a good way to practice different types of stitches, or experiment with the sewing machine Having a sewing machine expands the range of possibilities greatly! The is no limit to what you can accomplish with enough time and effort, like this amazing light-up functional bowtie!

Knit a Working Circuit Forget about circuit boards and start thinking about circuit stitches with this illuminating tutorial by electronic art professor Jesse Seay on how to knit your own circuitry. …I developed a method to “print” circuit boards on my knitting machine, with materials that are inexpensive, easily available, and solderable. The method works with both traditional electronic components and with e-textile components. And while I use a knitting machine for rapid production, the materials should work fine for hand knitters. As Seay explains in the introduction, this tutorial assumes that you already know how to knit and shows you how to integrate wiring into your knitting by design a knitting pattern that will allow you to make connections between electronic components, just like an ordinary circuit board. Once you get the hang of it, it’s fun to turn “traditional” circuit designs into knitted circuit designs.[...] Related

LilyTiny Plush Monster Favorited Favorite 6 Introduction Craft a glowing-eyed stuffed monster while exploring the LilyTiny preprogrammed microcontroller. This is a project based on the Tiny Monster Activity created at MIT’s High-Low Tech Lab by Emily Lovell, Jie Qi, and Natalie Freed. While the original monster activity uses one LED, this project will use two (or more) to light up the monster’s eyes. We’ll learn how to hook up the LilyTiny board, prototype with alligator clips, and plan a conductive thread circuit on a three dimensional project. This is a great project to try after you’ve done a couple e-sewing projects and before you are ready to start programming a full LilyPad Arduino project. Suggested Reading If you’ve never worked with e-textiles before, you may want to have a look at these other tutorials. Materials and Tools Let’s go over all of the things you’ll need to sew your project together: You will also need: Step 1: Cut Out Template Download and print the provided template. LilyTiny Monster Template

Circuit Scribe, lapicero para dibujar circuitos eléctricos que funcionan - TEC Noticias Published on Noviembre 22nd, 2013 | by Renzo Saettone Un grupo de la Universidad de Illinois realizó una investigación y desarrolló una tinta de plata conductora de electricidad basada en agua, no es tóxica y se puede usar en lapiceros. Este lapicero rollerball permite diseñar y probar circuitos eléctricos en papel tan fácil como hacer un dibujo. Los componentes se pueden conectar al circuito dibujado poniendo un material magnético debajo del papel. Puedes integrarlo a otro otro hardware como Raspberry Pi, Arduino, Makey Makey y otras plataformas electrónicas. El proyecto se encuentra en Kickstater buscando $85,000, hasta el cierre de este artículo ha recaudado $102,877 faltando 39 días. Vía TechCrunch Tags: Cables, Circuit Scribe, circuitos eléctricos, Crowdfunding, dibujar, Escolares, Escuelas, Estudiantes, Inventos, Kickstarter, lapicero, Protoboards About the Author Renzo Saettone Editor.

How Wearable Technology Works" For most people, fun is the hook that makes new technology worth investigating. Wearable technology promises entertainment galore. Video games are bigger than ever, with cinematic appeal and wow-inducing special effects. Depending on the model, you'll attach between eight and 17 inertial sensors to your body. Wearable cameras are nothing new; mountain bikers, parachutists and other adventuresome souls have been using them for years. Desperate to improve your baseball, golf or tennis swing? Most wearables aren't quite ready for prime time, though. INICIACIÓN A LOS E-TEXTILES: TEXTILES Y CIRCUITOS | E-Textiles & Visual Arts TechniquesE-Textiles & Visual Arts Techniques Este tutorial de iniciación a los e-textiles lo he diseñado para el proyecto #Caseando invitada por Hirikilabs. Mas información aqui //Descripción: Este taller práctico DIY sirve como iniciación a las nuevas posibilidades creativas que ofrece los textiles electrónicos aplicados al ámbito domestico y personal. Textiles de varios coloresPatrones en papel ( también se pueden crear las plantillas textiles utilizando la cortadora láser)Kit Kitronik: Electro-Fashion, Flasher Controller, LEDs & Thread ( Incluye porta batería cosible, batería de 3V, ,LEDs e hilo conductivo)Hilo normalAgujaTijerasRelleno ( arroz o arena)Opcional: pistola de silicona Paso 1: DISEÑO LAS PLANTILLAS Imprime en un folio normal las plantillas y recortar la silueta. También puede crear las plantillas utilizando la cortadora láser: Una vez tenemos las formas recortadas, podemos comenzar a coser el cuerpo del búho a mano o utilizando una máquina de coser. Paso 2: APRENDO LO QUE ES UN CIRCUITO SENCILLO

The 10 Most Amazing Electronic Clothes Of the Century Computers? Clothes? What's the difference? Let’s face it, without the technology you use everyday you’d be pretty stuck. Need to make a big impression at a formal event? Why buy computerized clothing when you can make your own? Kanjun Qie from MIT Media Lab made a really cool sound-producing hoodie called the Soundie. Not useful enough? For those of us with a little electronics know-how the Arduino Lilypad is definitely a great option to make some kick-ass electronic-wear. Sports injuries can take years to overcome, and when you’re a professional athlete they can cost you a lot more than time. Also by Cute Circuit, the Hug Shirt stands on a basic premise: we all want to reach out and touch someone. The Hug Shirt lets you hug yourself and send a warm feeling to someone on the other side of the planet. ...This is a situation ripe for abuse. So maybe you want to put some electronics in your clothes, but you don’t want to do all the design yourself.

E-Textiles: an Introduction to Our Electro-Fashion Range | Kitronik Amidst the hype surrounding wearable technology, we, too, have been deeply inspired by the craze. As a result, we have designed our own range of E-Textiles parts in a bid to help lessen the gap between Electronics and textiles: Electro-Fashion. Discover just how easy it is to conduct your own E-Textiles project using our Electro-Fashion range and be a part of this global infatuation with fashionable electronics. An E-Textiles project by Laura Cooper, a Design and Technology Education undergraduate at Nottingham Trent University. Electro-Fashion Starter Pack, Standard Cell Holder, parts Electro-Fashion is Kitronik's own range of E-Textiles parts. A preview of our Sewable Rocket Key Ring Torch Tutorial In addition to supplying the fundamental parts of any E-Textile project, we also offer a selection of online E-Textiles tutorials and resources with step-by-step guidance and cutting pattern templates. Electro-Fashion Magnet Activated E-Textiles Kit How to Make a Sewable Rocket Key Ring Torch