Abstract: A method of manufacturing a semiconductor device is provided, involving forming a first flexible film on a rigid carrier substrate, attaching a die to the flexible film, so as to leave contacts on the die exposed, forming a wiring layer to contact the contacts of the die, and releasing the flexible film where the die is attached, from the carrier. An area of the first flexible film where the die is attached can have a lower adhesion to the rigid carrier substrate than other areas, so that releasing can involve cutting the first flexible film to release a part of the area of lower adhesion, and leaving an area of higher adhesion. A combined thickness of the die, the first flexible film and the wiring layer can be less than 150 ?m, so that the device is bendable. Devices can be stacked.
Abstract: A method is described for providing a predetermined optical path in an optical module, the predetermined optical path being defined by predetermined optical characteristics for the optical module. a modifiable optical element is provided at a predetermined position in the optical module, thus generating an initial optical path of the optical module. The modifiable optical element comprising at least one optical interface in the initial optical path. An optical signal is detected from a radiation beam on the initial optical path of the optical module. The optical interface of the modifiable optical element is then physically modified to generate at least one modified optical interface of the modifiable optical element. The physical modification takes into account the detected optical signal so as to obtain substantially the predetermined optical characteristics for the optical module.
Type:
Grant
Filed:
September 20, 2006
Date of Patent:
November 4, 2008
Assignees:
Interuniversitair Microelektronica Centrum (IMEC), Universiteit Gent (RUG)
Abstract: A method is described for providing a predetermined optical path in an optical module, the predetermined optical path being defined by predetermined optical characteristics for the optical module. a modifiable optical element is provided at a predetermined position in the optical module, thus generating an initial optical path of the optical module. The modifiable optical element comprising at least one optical interface in the initial optical path. An optical signal is detected from a radiation beam on the initial optical path of the optical module. The optical interface of the modifiable optical element is then physically modified to generate at least one modified optical interface of the modifiable optical element. The physical modification takes into account the detected optical signal so as to obtain substantially the predetermined optical characteristics for the optical module.
Type:
Application
Filed:
September 20, 2006
Publication date:
April 5, 2007
Applicants:
INTERUNIVERSITAIR MICROELEKTRONICA CENTRUM (IMEC), UNIVERSITEIT GENT (RUG)
Abstract: A method for providing an optical interface with at least one optical coupling structure for a packaged optical device is described. The at least one optical coupling structure may be, for example, wave-guides and/or microlenses. The packaged optical device includes an external alignment structure. The external alignment structure has a support means with at least one hole and at least one alignment feature. The method includes providing optical encapsulate material in the hole of the support means. Optical coupling structures, such as wave-guides or microlenses, may be provided into the encapsulation at a well-defined position relative to the at least one alignment feature of the external alignment structure. By providing the optical coupling structures directly in the material comprised in the encapsulation, a high degree of alignment accuracy is obtained.
Type:
Application
Filed:
July 14, 2005
Publication date:
March 2, 2006
Applicants:
Interuniversitair Microelektronica Centrum (IMEC), Universiteit Gent (RUG)