IFD:Printed Interfaces WiS18: Difference between revisions

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== Description ==
== Description ==
Printed Electronics can turn everyday objects into interfaces for the digital world.
Printed Electronics can turn everyday objects into interfaces for the digital world.
We will use screen printing with conductive ink to print our own designs on paper, leather, or glass and use them as buttons or slider with the help of microcontrollers such as Arduino. This way we we create objects which serve as input devices for digital functionalities.
We will use screen printing with conductive ink to print our own designs on different material and use them as buttons or sliders with the help of microcontrollers such as Arduino. This way we we create objects which serve as input devices for digital functionalities.
We will first take a look at the basic qualities and possibilities of printed electronics, as well as the characteristics of the tools we are going to use. Here we focus on the screen printing methos and the concept of capacitive sensing with Arduino. Students will design their own objects which we will print on and connect to an Arduino in our second meeting. How about a hot key for your favourite piece of software printed on your sketchbook?
 
We will first take a look at the basic qualities and possibilities of printed electronics, as well as the characteristics of the tools we are going to use. Here we focus on the screen printing method and the concept of capacitive sensing with Arduino. Students will design their own objects which we will print on and connect to an Arduino during the second part of our class.
 
The subject will be connected to Prof. Jens Geelhaar's class: »IDMC - Interface Design Masterclass / Moholy-Nagy Machines.« There will be an introduction to the machines of the Bauhaus Form & Function Lab at Marienstr. 7b, focusing on the 3D MID technology. In our workshop we will then think of possibilites of connecting printed electronics and 3D MID to create a completely new kind of interactive objects.


== Admission requirements ==
== Admission requirements ==
Basic knowledge regarding microcontrollers and electronics components is helpful, but technical pre-requisites are not required. Concurrent enrollment in other IFD courses offering is strongly encouraged.
Basic knowledge regarding microcontrollers and electronics components is helpful, but technical pre-requisites are not required. We encourge you to also take part in Prof. Jens Geelhaar's project module. Students who are not taking part in the Interface Design project module are requested to first consult with Jens Geelhaar about the projects which they would like to work on during this class.


== Registration procedure  ==
== Registration procedure  ==
'''Please register at the faculty's module registration.''' Students who are not able to take part in the faculty module registration, please register until '''November 4th''' by email with the Subject ''{{PAGENAME}}'' to: f.wittig (at) gmx.de.  
Please register at the faculty's module registration. Students who are not able to take part in the faculty module registration, please register until November 4th by email with the Subject ''{{PAGENAME}}'' to: f.wittig (at) gmx.de.  
Your email should contain the following information:
Your email should contain the following information:


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Together we will hold working sessions as well as introductory lectures to the following topics:  <br/>Printed Electronics, Digital Printing, Paper Types, Papercraft. <br/> -->
Together we will hold working sessions as well as introductory lectures to the following topics:  <br/>Printed Electronics, Digital Printing, Paper Types, Papercraft. <br/> -->


November 24 - First meeting, Introduction to printed electronics, Introduction to screen printing<br/>
November 24 - First meeting, Overview, Introduction to printed electronics, Brief introduction to the BFFL & 3D MID technology, Arduino basics & capacitive sensing<br/>
November 25 - Collecting ideas, Designing circuits<br/><br/>
November 25 - Introduction to screen printing, Collecting ideas, Designing circuits<br/><br/>
December 1 - Printing, Individual project work<br/>
December 1 - Printed electronics & inkjet, Prototyping, Individual project work<br/>
December 2 - Continued project work, Final Presentations
December 2 - Test prints, Arduino keyboard library, Project work continued, Student presentations<br/><br/>
 
January 18 - Screen Exposure (optional)
January 19 - Screenprinting sessions 1<br/>
January 20 - Screenprinting sessions 2, Project work discussions, Information on the write-up<br/><br/>
January 26 - Screenprinting sessions 3, Individual project work<br/>
January 27 - Final presentations


== Literature ==
== Literature ==
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== Links ==
[[Category:WS18]]
* Up to date information in the course's page on the MediaWiki: http://www.uni-weimar.de/medien/wiki/IFD:Printed_Electronics_ButtonUp
 
[[Category:WS18]],
[[Category:Fachmodul]]
[[Category:Fachmodul]]
[[Category:Printed Electronics]]
[[Category:Printed Electronics]]
[[Category:Interface Design]]
[[Category:Interface Design]]
[[Category:Florian Wittig]]
[[Category:Florian Wittig]]
[[Zeitraster]]

Latest revision as of 09:52, 12 November 2019

Fachmodul als Blockmodul / Subject Module as Block Module
Printed Interfaces
Instructor: Florian Wittig
Credits: 6 ECTS, 3 SWS
Capacity: max. 8 students
Language: English
Date: 24-25 November 2018, 10:00-16:00; presumably 01-02 December 2018, 10:00-16:00
Location: Marienstraße 7b, Room 002
First Meeting: 24 November 2018

Description

Printed Electronics can turn everyday objects into interfaces for the digital world. We will use screen printing with conductive ink to print our own designs on different material and use them as buttons or sliders with the help of microcontrollers such as Arduino. This way we we create objects which serve as input devices for digital functionalities.

We will first take a look at the basic qualities and possibilities of printed electronics, as well as the characteristics of the tools we are going to use. Here we focus on the screen printing method and the concept of capacitive sensing with Arduino. Students will design their own objects which we will print on and connect to an Arduino during the second part of our class.

The subject will be connected to Prof. Jens Geelhaar's class: »IDMC - Interface Design Masterclass / Moholy-Nagy Machines.« There will be an introduction to the machines of the Bauhaus Form & Function Lab at Marienstr. 7b, focusing on the 3D MID technology. In our workshop we will then think of possibilites of connecting printed electronics and 3D MID to create a completely new kind of interactive objects.

Admission requirements

Basic knowledge regarding microcontrollers and electronics components is helpful, but technical pre-requisites are not required. We encourge you to also take part in Prof. Jens Geelhaar's project module. Students who are not taking part in the Interface Design project module are requested to first consult with Jens Geelhaar about the projects which they would like to work on during this class.

Registration procedure

Please register at the faculty's module registration. Students who are not able to take part in the faculty module registration, please register until November 4th by email with the Subject Printed Interfaces WiS18 to: f.wittig (at) gmx.de. Your email should contain the following information:

  • name, surname
  • program and semester (Studienprogramm und Fachsemester)
  • matriculation number (Matrikelnummer)
  • valid email address @uni-weimar.de (no other mailing addresses will be accepted) Why?
  • short sentence on why you want to participate in this course.

Evaluation

Active participation; planning & fabricating an object containing a printed circuit, documentation.

Eligible participants

Graduates enrolled in the Faculties of Media, Art and Design, and in the MediaArchitecture program.
Open to students of other departments, please ask the staff at your department wether the credit points can be taken into account.

Syllabus

November 24 - First meeting, Overview, Introduction to printed electronics, Brief introduction to the BFFL & 3D MID technology, Arduino basics & capacitive sensing
November 25 - Introduction to screen printing, Collecting ideas, Designing circuits

December 1 - Printed electronics & inkjet, Prototyping, Individual project work
December 2 - Test prints, Arduino keyboard library, Project work continued, Student presentations

January 18 - Screen Exposure (optional) January 19 - Screenprinting sessions 1
January 20 - Screenprinting sessions 2, Project work discussions, Information on the write-up

January 26 - Screenprinting sessions 3, Individual project work
January 27 - Final presentations

Literature

Printed Electronics:

  • Suganuma, Katsuaki: Introduction to Printed Electronics. New York: Springer Science+Business Media, 2014.
    ISBN 978-1-4614-9624-3 (Print) ISBN 978-1-4614-9625-0 (Online)
    (E-Book accessible via a link in the catalogue of the university library)
  • Nan-Wei Gong, Jürgen Steimle, Simon Olberding, Steve Hodges, Nicholas Gillian, Yoshihiro Kawahara, and Joseph A. Paradiso: PrintSense: A Versatile Sensing Technique to Support Multimodal Flexible Surface Interaction. CHI 2014 Toronto: ACM, 2014.


Screenprinting:

  • Lengwiler, Guido: Die Geschichte des Siebdrucks: Zur Entstehung des vierten Druckverfahrens. Sulgen: Niggli, 2013. ISBN 978-3-7212-0876-4