Potentiel de la technologie MID pour les composants passifs et des antennes / Mid technology potential for RF passive components and antennas

Unnikrishnan, Divya

26 February 2015

La technologie MID (Molded Interconnect Device), fait de leur performance électrique, la flexibilitédans les circuits RF, le potentiel de réduire le nombre de composants, les étapes du processus et laminiaturisation du produit final, a conduit à de nouvelles contraintes à la RF (Radio Frequency) et ledomaine des micro-ondes. Composants moulés sont interconnectées avec des substratsthermoplastiques et les pistes conductrices sont injectés sur la surface. L'objectif de cette thèse estd'étudier la compatibilité de MID pour les applications RF. Les avantages de la technologie MID dansle domaine RF est exploitée pour les lignes de transmission, filtres passifs, coupleurs directionnels etantennes réalisation. La caractérisation RF de différents matériaux de substrat MID et l'étude de laperformance des composants RF ci-dessus sur la base de différentes technologies de fabrication MIDsont inclus dans la thèse. Enfin, le concept d'une étude d'amélioration de la permittivité de certainsthermoplastiques sont également étudiés. / MID (Molded Interconnect Devices) technology, owing to their electrical performance,flexibility in RF circuits, its potential to reduce the number of components, process steps andminiaturization of the final product, has led to some new constraints to the RF (RadioFrequency) and microwave domain. Molded components are interconnected withthermoplastic substrates and conductive traces are injected on the surface. The objective ofthis thesis is to study the compatibility of MIDs for RF applications. The advantages of MIDtechnology in the RF domain is exploited for transmission lines, passive filters, directionalcouplers and planar and 3D antennas realization. The RF characterization of various MIDsubstrate materials and the study of the performance of the above RF components based onvarious MID fabrication technologies are included in the thesis. Finally, an permittivityimprovement study of some thermoplastics are also studied.

Lignes de transmission CPW

Microruban et stripline

Conception d’antennes 2D et 3D

Impression jet d'encre et LSS

Thermoplastic substrate characterization

Transmission lines in CPW

Microstrip and stripline

Design of 2D and 3D antennas

Passive filters and directional couplers

Different MID fabrication techniques LDS

Inkjet printing and LSS

620

Potentiel de la technologie MID pour les composants passifs et des antennes / Mid technology potential for RF passive components and antennas

Unnikrishnan, Divya

26 February 2015

La technologie MID (Molded Interconnect Device), fait de leur performance électrique, la flexibilitédans les circuits RF, le potentiel de réduire le nombre de composants, les étapes du processus et laminiaturisation du produit final, a conduit à de nouvelles contraintes à la RF (Radio Frequency) et ledomaine des micro-ondes. Composants moulés sont interconnectées avec des substratsthermoplastiques et les pistes conductrices sont injectés sur la surface. L'objectif de cette thèse estd'étudier la compatibilité de MID pour les applications RF. Les avantages de la technologie MID dansle domaine RF est exploitée pour les lignes de transmission, filtres passifs, coupleurs directionnels etantennes réalisation. La caractérisation RF de différents matériaux de substrat MID et l'étude de laperformance des composants RF ci-dessus sur la base de différentes technologies de fabrication MIDsont inclus dans la thèse. Enfin, le concept d'une étude d'amélioration de la permittivité de certainsthermoplastiques sont également étudiés. / MID (Molded Interconnect Devices) technology, owing to their electrical performance,flexibility in RF circuits, its potential to reduce the number of components, process steps andminiaturization of the final product, has led to some new constraints to the RF (RadioFrequency) and microwave domain. Molded components are interconnected withthermoplastic substrates and conductive traces are injected on the surface. The objective ofthis thesis is to study the compatibility of MIDs for RF applications. The advantages of MIDtechnology in the RF domain is exploited for transmission lines, passive filters, directionalcouplers and planar and 3D antennas realization. The RF characterization of various MIDsubstrate materials and the study of the performance of the above RF components based onvarious MID fabrication technologies are included in the thesis. Finally, an permittivityimprovement study of some thermoplastics are also studied.

Lignes de transmission CPW

Microruban et stripline

Conception d’antennes 2D et 3D

Impression jet d'encre et LSS

Thermoplastic substrate characterization

Transmission lines in CPW

Microstrip and stripline

Design of 2D and 3D antennas

Passive filters and directional couplers

Different MID fabrication techniques LDS

Inkjet printing and LSS

620

A process recipe for bonding a silicone membrane to a plastic substrate

Schönström, Linus, Nordh, Anna, Strignert, Anton, Lemel, Frida, Ekengard, Jakob, Wallin, Sofie, Jabri, Zargham

January 2013

A spin-cast silicone membrane has been successfully bonded between two injection-molded microstructured plastic discs. This sandwich structure creates a useful platform for mass production of microfluidic systems, provided that the bonds are leakproof. The bonds were achieved by a silicon dioxide coating deposited on the plastic discs by evaporation. This investigation is concerned with the process and the result only, no theory is discussed.

bonding silicone

corona surface treater

SiO2 coating

thermoplastic substrate

PVD temperature

PDMS membrane

spin-coating

thickness measurements

microfluidic systems

bonding PDMS

silicon dioxide coating

spin-cast

silicone membrane

PDMS

polydimethylsiloxane

poly(dimethylsiloxane)

silicon dioxide PVD

SiO2 PVD

silicon dioxide evaporation

SiO2 evaporation

thickness of a thin film

silicon dioxide deposition

SiO2 deposition

adhesion testing

cycloolefincopolymer

cycloolefinpolymer

cyclic olefin copolymer

cyclic olefin polymer

COC

COP

plasma surface treater

surface activator

surface oxidizer