Title :
Novel Strain Relief Design for Multilayer Thin Film Stretchable Interconnects
Author :
Yung-Yu Hsu ; Lucas, Kevin ; Davis, Daniel ; Elolampi, Brian ; Ghaffari, Roozbeh ; Rafferty, Conor ; Dowling, K.
Author_Institution :
MC10 Inc., Cambridge, MA, USA
Abstract :
Most electronic systems are rigid and inflexible. Many applications, however, require or benefit from conformable designs. To create efficient conformable systems, multilayer stretchable interconnects are necessary. A novel strain relief structure for multilayer stretchable interconnects is proposed. The numerical analysis shows that the proposed structure will function indefinitely when stretched as much as 20% of its initial length. Electromechanical measurements demonstrate that the onset of microcrack formation in the interconnects occurs, on average, after 89% elongation. These measurements also show that the structures are able to withstand elongations of up to 285%. Additionally, precise failure mechanisms, including interconnect straightening and microcrack formation are documented.
Keywords :
elongation; integrated circuit interconnections; microcracks; multilayers; semiconductor thin films; electromechanical measurement; electronic system; elongation; failure mechanism; interconnect straightening; microcrack formation; multilayer thin film stretchable interconnects; strain relief design; strain relief structure; Failure analysis; finite element methods; flexible electronics; integrated circuit interconnections; integrated circuit packaging; materials reliability; strain; stress;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2013.2264217
