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Digital and e-textile design at the CCI

This page is a guide to different techniques that can be used in digital and e-textile design, resources we have at the CCI, places to source materials, and possible sources of inspiration/research references.

Here, 'digital design' refers to textile equipment that works with CAD, and e-textiles specifically to the integration of electronic components within textiles. Both of these things are well-supported at the CCI and can also be done in combination.

Equipment

At the CCI we have two main pieces of digital textiles equipment:

Both of these machines require training to use. Please check Orb for upcoming tutorials, or contact Agnes for more information. Additionally, we have a Brother sewing machine that can also be used for student projects. If you have used a sewing machine before you may use this without training, otherwise ask the technicians.

Programmable knit sample:

Digital embroidery sample:

Online Resources

digital design

Guides to using the CCI

e-textiles

A fantastic resource for most e-textile related ideas and tutorials is How To Get What You Want, aka the KOBAKANT art collective DIY wearable technology documentation site. I'd strongly recommend just browsing around the site -- they have some great detailed guides, including knitted sensors, robust hard/soft connections, textile speakers, and using conductive velcro as a switch.

Materials

Non-electronic materials

At the CCI we have embroidery thread, sewing thread, lambswool and cotton yarn, and limited amounts of calico, cotton drill and backing fabric to experiment with on the machines. If you are planning a larger project, we ask that you purchase your own materials, and can give you advice on doing so.

Conductive Thread

It's better to think of conductive thread as a long resistor than a traditional cable. All conductive threads come with an associated resistance per unit length, and this can vary a lot between different brands and thicknesses. For a ballpark figure, Adafruit's 2 ply conductive thread is made of stainless steel, and has a resistance of 16 ohms/foot. If you're unsure of which brand you're using, you can always use a multimeter to measure it.

Image showing a pair of hands holding probes touching a length of conductive thread. The probes are attached to a multimeter, which reads the resistance of the thread.

Adafruit have a short conductive thread tutorial that covers basics like hand- and machine-stitching, and steps to prevent short circuits.

Conductive Yarn

Conductive yarn is different to conductive thread: it has much higher resistance, which makes it inadequate to directly connect components unless they are very close together or the knitted yarn is stretched, but it is well-suited to pressure sensing.

When a knitted sample is held loosely, it has a high resistance as the steel fibres in the yarn do not make contact with one another, but when the sample is stretched, the steel fibres are pulled into closer contact, reducing the resistance and allowing the flow of an electric current.

Conformable Connections

Conformability (using soft and flexible components) is key to making robust e-textile projects, and is particularly relevant to projects using conductive thread. We have a stock of conductive velcro and poppers that can be used to integrate wires into projects, as well as super-flexible silicone wire.

Sourcing Materials