Haunted House Part 1
1-2 hours
Ages 11+
What Will You Make?
In this tutorial, inspired by K-Fai Steele’s interactive work, Tickytown, we will teach you how to use flaps of pressure-sensitive conductive plastic to add special effects your paper to circuit projects. When you touch the gravestones near this haunted house, different LEDs will gently fade on and off.
Several years ago I attended a circuitry exhibit called “Paper Curiosities” at MIT. While there, I had an opportunity to interact with K-Fai Steele’s inspiring work, Tickytown, an illuminated neighborhood perched upon the back of an itchy dog in which the secret lives of residents are gradually revealed as a viewer strokes the dog’s fur.
What Will You Learn?
You will learn to make a piece of interactive art using circuits and paper crafting.
Brainstorm an Idea
Step 1
Tickytown reveals a few narrative details at a time, as viewers interact with the piece. I liked the idea of characters being revealed as lights turned on inside of darkened windows, so I decided to create a haunted house with interactive gravestones.
Sketch the Scene & Cut Out Openings
Step 2
Using a variety of online tutorials for inspiration, I sketched a haunted scene with a pencil and experimented with different design elements. In my first attempt, I sketched an owl on a tree branch and poked holes in the paper for the LEDs to shine through. I wasn’t happy with the holes in my paper and thought that the effect might be better if an owl (or monster) was merely suggested rather than sketched. I drew several gravestones, thinking that each stone would serve as a switch, connecting to a window. Once I had a sketch that I was happy with, I went over it with a black pen.
Step 3
I cut the windows and doors out of my house using a craft knife. Afterward, I placed my drawing onto a piece of cardboard, traced the openings onto it, and cut them out in the same way.
Prepare Illustrations
Step 4
K-Fai sketched characters, light fixtures, and architectural elements for each room that she lit up; this added a lot of dimension to her artwork. I used a different approach. I found copyright friendly illustrations of skeletons that I then edited, resized, and printed onto white vellum paper. Getting them to fit the spaces that I’d cut out took a little experimentation. If you try this method, you may want to do a few test prints on printer paper before making a final print on vellum.
Step 5
To get an idea of how each skeleton would look in the openings I cut out, I held my sketch up against a glass window, positioning each skeleton illustration in front of them. I then traced an outline slightly larger than each window cutout onto the vellum, leaving a border around each image for narrow strips of double stick tape. It’s important to avoid getting tape on what will be the exposed part of the vellum cutouts, as it may be visible when the images are backlit.
Start Layering
Step 6
I taped one sheet of purple vellum to the back of my haunted house sketch. I then cut and adhered the skeleton illustrations (printed on white vellum) to the back side of that. I used a Japanese screw punch to poke holes in the cardboard, so that a silhouette of eyes would peek through when lit up. I also added a silhouette of a ghost to the back side of my sketch (requiring me to make an additional cut-out in the cardboard).
Plan & Construct Your Circuit & Switches
Step 7
Using a second piece of drawing paper and your sketch with the illustrations taped to it, determine where you want each LED to go. Mark each of those spots with a pencil.
Step 8
When planning your circuit, it’s helpful to sketch out a positive (+) and a negative (-) trace that spans the length of your sketch. It’s also helpful to draw an “X” in each spot where you want to create a switch, an area where you will be adding a pressure sensor to close your circuit to light an LED.
Step 9
I went about creating my pressure switches by leaving small gaps in my copper tape circuit that I carefully covered with flaps of Pressure Sensitive Conductive Plastic. This “flap pressure sensor” type of switch is the second example featured in the video tutorial Chibitronics: 6 DIY Pressure Sensor Circuits.
Since the conductive plastic is sensitive to pressure, pressing it down firmly over the switch gap not only closes the switch, but it also alters the resistance in the circuit. As you add pressure to a conductive plastic flap by pushing it down over the switch gap, the resistance in that part of the circuit will (in most cases) visibly decrease, resulting in a noticeable increase in the brightness of the LEDs!
Tip: I found that large gaps were not as effective as narrower ones, so I had to go in and add copper tape in some places.
Flap Sensors
Step 10
Each of my gravestones has a switch nearby. When planning my circuit, I thought it would be interesting if a gravestone on one side of my drawing connected to a window on the other side. I was able to achieve this, but I had to place insulating bridges (washi tape) on my circuit in places where positive and negative traces needed to cross.
In hindsight, I wish that I’d spread my gravestones out a bit more, so that my switches would have had more space between them. I wish I’d done this, because the cardboard that I used to back my illustration is less pliable than the fabric K-Fai used in Tickytown. This means that I sometimes triggered multiple LEDs in my circuit when I’d only intended to trigger one. This didn’t end up being an insurmountable problem, however, because the resistance in the circuit still varied, creating a spooky effect as the lights faded on and off.
Out of curiosity, I ended up creating a second circuit for my house. The functionality and special effects are different, but it was equally fun to make. If you’d like to see how to light your haunted house with a different circuit, one that lights colors in sequence with a single switch, visit the Haunted House Pt. 2: Light Colors in Sequence tutorial.
Test Your Circuit
Step 11
Once you’ve laid down your conductive traces and placed conductive plastic flaps over the gaps you left in your circuit, connect your circuit to power and ground to ensure that your connections work, the LEDs are placed where you want them, and the pressure sensor switches are working correctly. I added pieces of conductive fabric tape to the ends of my positive and negative leads so that I could easily clip them with alligator clips and power my artwork with a Chibi Chip. If you don’t have a Chibi Chip, but you like the idea of powering your project through USB, you may want to check out the USB Powered Paper Circuits: An Alternative to Coin Batteries tutorial. Alternatively, you can use two 3V coin cell batteries, a couple of magnets, and alligator clips; visit this Variable Power Supply tutorial to learn more.
Tips
The Pressure Sensitive Conductive Plastic sold by Chibitronics is more conductive than many of the resistive plastic products on the market. There were a couple of places in my circuit where I noticed that my Circuit Stickers were encountering more resistance than I expected, resulting in a much dimmer LED effect than I wanted, even with firm pressure. When I swapped out the standard resistive plastic that I had been using on the troublesome switches, substituting a square of Chibitronics version of the conductive plastic, the LEDs brightened up considerably. I did, however, discover that by sandwiching a piece of the less conductive plastic between the copper tape switch and the more conductive Chibitronics flap that I got a wider range of brightness values (and a more dramatic fading effect) when pressing on the switch than using only the more conductive material. (This effect is similar to what happens in the DIY Pressure Sensor example in Chapter 5 of the Circuit Sticker Sketchbook (Template 5).
Assemble & Display Your Art
Step 11
I created a final version of my sketch on watercolor paper, adding details with gouache paint. Once it dried, I adhered the sketch to the cardboard with the cutouts using a spray adhesive and briefly placed it under weights. I also used spray adhesive to mount the paper with my circuit onto another piece of cardboard. I then positioned the artwork layer on top of the circuit layer, adding a narrow strip of craft foam at the top of the circuit layer to minimize contact between the art layer and the circuit layer. In order to maintain access to the circuit layer, I created a taped hinge at the top of my piece rather than adhering the art layer permanently to the circuit layer. After connecting alligator clips from the negative and positive leads of my project to the 5V and ground pins of my Chibi Chip, I could light up the windows in my project by pressing down on the gravestones!
What Is Happening Here?
Pressure Sensors
Instead of blinking your LEDs on and off, you can make them fade in and out. In this project we made a special pressure-sensitive conductive plastic that becomes more conductive when pressed to create a pressure sensor that can fade an LED both in and out.
Pressure-sensitive conductive plastic, sold by the brand names Velostat or Linqstat, is a thin plastic containing conductive carbon particles. This gives it an electrical resistance that changes with pressure. In other words, how well it conducts electricity changes when you press on it. We can use this to make a pressure sensor.
When you are not pressing on the plastic, the conductive particles in the material are spaced farther apart. Electrons cannot flow as well, so the light is dimmer. The harder you press, the closer the conductive particles become and the better the material conducts, so the light shines brighter.
Learn more in the introductory pressure sensor project.
What Is Next?
Get Creative
What other kinds of scenes can you create with this technique? What other ways can you play with light in your circuit?
Looking for inspiration? Try Shadows, Silhouettes, & Layers: Experiments with Paper & Light for lots of exciting ways to make paper and light effects using art and engineering.
Chibitronics Educators Guide
Chibitronics Paper Circuits STEAM Educator’s Guide is a FREE comprehensive guide to STEAM (Science Technology Engineering Art and Math) learning with paper circuits!
This 185-page guide includes:
Overview and history of paper circuits, including materials, techniques and troubleshooting tips
Suggested learning standards
Resources on equitable teaching and collaboration in the classroom
7 detailed lesson sequences based on the Circuit Sticker Sketchbook in Part 1 Lessons
12 detailed lesson sequences based on Love to Code in Part 2 Lessons
6 Featured Projects: cross-curricular adaptable project inspirations
Printable templates for each lesson sequence
Throughout the guide, Chibitronics celebrates artists, educators, art techniques, and projects to showcase inspiring work in action. The arts are interwoven into each activity; STEM becomes a medium to ask and explore big questions about ourselves and the world, and nurture new forms of creativity!
Materials:
- drawing paper
- printer paper
- Pressure Sensitive Conductive Plastic (aka: resistive plastic)
Note: Standard pressure sensitive conductive plastics, sometimes marketed as Velostat and Linqstat, are not as conductive as the product we sell at Chibitronics.) - Circuit Stickers
- copper tape or conductive fabric tape
- 2 X 3V coin cell batteries (OR a 5V power source such as a Chibi Chip and two alligator clips)
- white vellum
- purple vellum
- cardboard
- washi or Scotch tape
- double stick tape
- scissors
- pencil
- black pen
- craft knife
- computer and printer
- adhesive spray
- art supplies of your choice
- (optional) Japanese screw punch
