Printed Electronic

BioAge is very skilled in the printed electronics, the company was involved in the A3PLE (http://www.a3ple.eu) FP7 European Research Project where it has designed a lot of large electronic circuits that were printed on paper, while in the 1D-NEON (http://1d-neon.eu) H2020 European Research Project the company is involved in the development of electronic circuits to be printed on textile.

BioAge has developed software tools to establish the shape of resistors printed on paper, starting from the target value of resistance, software model of printed capacitors, so that it is possible to establish the shape of the capacitor to be printed, starting from the target value of capacitance.

BioAge has developed an approach to design very large printed electronic circuits, with our approach it is possible to define several different layers, each of them linked to a particular electronic ink (like, conductive ink, resistive ink, insulator ink, electrolyte ink, and so on..), after the designing process we can provide every layer of the circuit to be printed.

BioAge has developed the technology to print RF antennas that can be used to collect RF energy, the typical application is the energy harvesting, or to transmit data by means of RF, starting from the RF frequency we can design an optimized printed antenna.

BioAge has been involved as partner of the European scientific research project APPLE (GA-262782), and has provided a decisive contribution to win the award for the “Best Publicly Funded Project Demonstrator”, the prize has been assigned, on 4th March 2015, in Munich during the LOPEC-2015 “Trade Fair and Conference for Printed Electronics” congress.
logo lopec
a3ple

In our laboratories we have all the facilities to print electronic circuits on flat surface, of on non-flat surfaces, so we can easily realize your prototypes.

The company offers the following services:

  • Designing of electronic circuits to be printed on paper
  • Designing of electronic circuits to be printed on textile
  • Designing of electronic circuits to be printed on plastic surface (also on non flat surfaces)
  • Realization of prototypes of electronic circuits printed on papers
  • Realization of prototypes of electronic circuits printed on textile
  • Realization of prototypes of electronic circuits printed on plastic
  • Realization of hybrid prototypes, where some electronic components are printed wile other discrete components are assembled (by means of conductive glue) on same printed substrate

EXAMPLES:

Antenna Ritagliata

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PAPER
Wireless high power transfer electronic RFID 13.56 Mhz antenna printed on recycled paper by screen printing, using silver conductive ink
SAMSUNG CSC

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FABRIC
Wireless high power transfer electronic RFID 13.56 Mhz antenna printed on fabric by screen printing, using silver conductive ink
antenna

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TUNED ANTENNA AND CAPACITOR ON TEXTILE
Wireless high power transfer electronic RFID 13.56 Mhz antenna and tuning capacitor, realized using standard textile fiber and conductive fibers
ANTENNA LATO SILVER

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WOOD
Wireless high power transfer electronic RFID 13.56 Mhz antenna printed on wood by screen printing, using silver conductive ink
IMG_1807_Ritagliata

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PLASTIC
Capacitive Button circuit printed on FIAT 500X GLOVE BOX by pad printing, using silver conductive ink
IMG_2

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PAPER
Temperature Monitoring Circuit printed on photographic paper by roll to roll printing machine
DSCF7852

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PAPER
Temperature Monitoring Circuit printed on photographic paper by roll to roll printing machine
IMG_15_RITAGLIATA

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Light Monitoring Circuit printed on photographic paper by roll to roll printing machine
IMG_1

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Capacitor printed on photographic paper by screen printing, using silver conductive ink
IMG_1

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Thermochromic Display printed on photographic paper by screen printing, using silver conductive ink
primo piano piccola

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PAPER
Electrowetting system printed on photographic paper by screen printing and super hydrophobic surface treatment.

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