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Multilayer printing for flexible and stretchable material

NOVA is a system for printing flexible, stretchable, and conformable electronics. Plan, NOVA’s newest software feature, unlocks advanced electronics printing capabilities, such as multilayer printing and print job editing.

Get more information

Connect with our technical specialists to discuss your projects and get printing tips for flexible, stretchable, and conformable electronics.
voltera-nova

Unlock multilayer printing on NOVA

NOVA is a system for printing flexible, stretchable, and conformable electronics. Plan, NOVA’s newest software feature, unlocks advanced electronics printing capabilities, such as multilayer printing and print job editing.
Multilayer icon

Unlock multilayer

Easily generate a height map that adapts to height changes in each layer.

Edit artwork_nova dark

Customize print jobs

Adjust the print order of layers, delete unwanted features, and save print jobs with the same settings.

Material profiles icon

Material profiles

Set up multilayer prints with different material profiles.

Who’s using Voltera NOVA?

Specifications

Dispensing
Ideal for
  • Printed electronics R&D
  • Functional materials research
  • Flexible, stretchable, conformable electronics prototyping
  • Microdispensing
Layer capacity Up to 4 stack-up layers*
Material temp. control Up to 40°C
Material compatibility Most screen-printable inks
Minimum trace width 0.1 mm
File formats
  • Gerber
  • SVG (beta)

*  Designs with more than 4 stack-up layers are achievable but depend on a number of factors. For more information, contact Support at support@voltera.io.

Download Plan Datasheet

What We've Printed with Plan

Flexible PCB lit upLayer count
3

Ink
Voltera Conductor 3 silver ink
ACI Materials FS0142 Semi-Sintering Conductive Ink
ACI Materials SI3104 Stretchable Printed Insulator

Print time
~30 minutes

application_Electroluminescent-1Layer count
4

Substrate
Paper, PET

Ink
Saralon electroluminescent ink suite

Print time
~2 hours

Keyboard FlexingLayer count
3

Substrate
PET

Ink
ACI SS1109 Stretchable Silver Ink
ACI SI3104 Stretchable Printed Insulator
T4 Solder Paste Sn42Bi57.6Ag0.4

Print time
~20 minutes

My research involves developing flexible and stretchable sensors for wearable electronics. With the Plan feature, I can separate different sensor elements, traces, or components to different layers and remove toolpaths that I don’t want. The ability to change the direction of tool paths has helped me the most — there’s no air pockets, and I have a very uniform trace width because I started printing in a designated safe region.

Nick Levinski, MASc student, Mechanical and Mechatronics Engineering at the University of Waterloo

My research involves developing flexible and stretchable sensors for wearable electronics. With the Plan feature, I can separate different sensor elements, traces, or components to different layers and remove toolpaths that I don’t want. The ability to change the direction of tool paths has helped me the most — there’s no air pockets, and I have a very uniform trace width because I started printing in a designated safe region.

Nick Levinski, MASc student, Mechanical and Mechatronics Engineering at the University of Waterloo

Who’s using Voltera NOVA?

Learn more about NOVA

Connect with our technical specialists to discuss your projects and get printing tips for flexible, stretchable, and conformable electronics.

Learn more about NOVA

Connect with our technical specialists to discuss your projects and get printing tips for flexible, stretchable, and conformable electronics.

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