Laser Direct Imaging Material and process developments for next Generation Integrated Chipless RFID

The project aims at development new materials (e.g. photo imageable pastes) and processes for high-precision LTCC technology relying on laser direct imaging. The project will enable new possibilities for EU industry within the future generation chipless and battery less radio-frequency identification (RFID) tags that can: operate in millimetre wave (mmW) radio frequencies (RF), provide identification with simultaneous (precise) localization capabilities, and be read by commercially available 24 GHz and 77 GHz automotive radars that will be one of the key block of future autonomous vehicles. The project will enable Gdansk Tech development of new original mm wave retrodictive antenna designs and circuits that can be produced using using the LTCC technology, which will be integrated with microwave circuits that will code RFID tag's ID. As project output, high IF scientific publications are planned as well as a patent application.

Details

Project's acronym:

LDI MAGIC

Financial Program Name:

ERA-NET COFUND

Organization:

Narodowe Centrum Badań i Rozwoju (NCBR) (The National Centre for Research and Development)

Agreement:

M-ERA.NET3/2021/123/LDI MAGIC/2022 z dnia 2022-12-30

Realisation period:

2022-05-01 - 2025-04-30

Research team leader:

dr hab. inż. Łukasz Kulas

Realised in:

Department of Microwave and Antenna Engineering

External institutions participating in project:

ISS RFID sp. z o.o. (Poland)
Fraunhofer Institut für keramisches Technologien und Systeme (Fraunhofer Institute for Ceramic Technologies and Systems) (Germany)

Project's value:

5 640 885.00 PLN

Request type:

International Research Programmes

Domestic:

International project

Verified by:

Gdańsk University of Technology

Papers associated with that project

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Year 2024

Millimeter Wave Retrodirective Van Atta Arrays in LTCC Technology
Publication
- K. Trzebiatowski
- M. Ihle
- B. Sikorski
- Ł. Kulas
- K. Nyka
- Year 2024
The millimeter wave Van Atta arrays, intended for chipless RFID applications and fabricated in LTCC technology, are presented in this paper. The arrays are designed for 24 GHz and 60 GHz bands. The method for an easy modification of the RCS characteristic by increasing the number of single-dimensional arrays, intended for increasing the RCS level, is also presented. The LTCC manufacturing process is described in detail. The fabricated...

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