Add to ORKGFor low-cost applications like smart labels a mounting technology, which allows high throughput, is necessary. Therefore such products are fabricated reel-to-reel on flexible substrates. With this technology cheap substrate materials can be used and substrate handling is reduced to a minimum. But to achieve fast production cycles it is important to establish rapid and efficient mounting technologies. Flip chip assembly using anisotropic conductive adhesive (ACA) offers an inexpensive method interconnecting many contacts simultaneously, but mounting speed is limited by the fact, that a defined pressure has to be maintained during curing. For chips with only a few contacts alternative methods which allow higher throughput are investigated
Die thickness of common, high-volume chip stacks range between 50-100 m while thinning industry aims...
Flip-chip mounting using soft solder offers several advantages in comparison with other chip-mountin...
The world is heading towards the IoE (Internet of Everything) where everything will be connected to ...
Automated and cost-efficient manufacturing processes are of paramount importance for low-cost mass p...
This paper describes research conducted to develop and evaluate isotropically conductive adhesive pr...
Flip chip attachments provide the highest interconnect density possible, making this technology attr...
Increasing interest in cost effective flip chip technologies leads to the development of various fle...
Printing technology and mounting technology enable the novel field of hybrid printed electronics. To...
Today's demand on high density interconnects and fast packaging technologies enhance flip-chip assem...
In this paper, a low temperature flip-chip integration technique for Si bare dies is demonstrated on...
The attachment of a flip chip of moderate size and pitch to an organic substrate has lost much of it...
The project "Autarkic Distributed Microsystems" is focused on the development of a miniaturized 3-di...
This paper describes the successful process investigations on ultrathin flip-chip bonding for fine-p...
peer reviewedWe developed a low-cost process for assembling versatile sensors without expensive, thi...
International audienceAbstract: For heterogeneous materials assembly, the thermal expansion mismatch...
Die thickness of common, high-volume chip stacks range between 50-100 m while thinning industry aims...
Flip-chip mounting using soft solder offers several advantages in comparison with other chip-mountin...
The world is heading towards the IoE (Internet of Everything) where everything will be connected to ...
Automated and cost-efficient manufacturing processes are of paramount importance for low-cost mass p...
This paper describes research conducted to develop and evaluate isotropically conductive adhesive pr...
Flip chip attachments provide the highest interconnect density possible, making this technology attr...
Increasing interest in cost effective flip chip technologies leads to the development of various fle...
Printing technology and mounting technology enable the novel field of hybrid printed electronics. To...
Today's demand on high density interconnects and fast packaging technologies enhance flip-chip assem...
In this paper, a low temperature flip-chip integration technique for Si bare dies is demonstrated on...
The attachment of a flip chip of moderate size and pitch to an organic substrate has lost much of it...
The project "Autarkic Distributed Microsystems" is focused on the development of a miniaturized 3-di...
This paper describes the successful process investigations on ultrathin flip-chip bonding for fine-p...
peer reviewedWe developed a low-cost process for assembling versatile sensors without expensive, thi...
International audienceAbstract: For heterogeneous materials assembly, the thermal expansion mismatch...
Die thickness of common, high-volume chip stacks range between 50-100 m while thinning industry aims...
Flip-chip mounting using soft solder offers several advantages in comparison with other chip-mountin...
The world is heading towards the IoE (Internet of Everything) where everything will be connected to ...