DocumentCode
1078193
Title
Process-based cost modeling of photonics manufacture: the cost competitiveness of monolithic integration of a 1550-nm DFB laser and an electroabsorptive modulator on an InP platform
Author
Fuchs, Erica R H ; Bruce, E.J. ; Ram, R.J. ; Kirchain, Randolph E.
Author_Institution
Eng. Syst. Div., Massachusetts Inst. of Technol., Cambridge, MA
Volume
24
Issue
8
fYear
2006
Firstpage
3175
Lastpage
3186
Abstract
The monolithic integration of components holds promise to increase network functionality and reduce packaging expense. Integration also drives down yield due to manufacturing complexity and the compounding of failures across devices. Consensus is lacking on the economically preferred extent of integration. Previous studies on the cost feasibility of integration have used high-level estimation methods. This study instead focuses on accurate-to-industry detail, basing a process-based cost model of device manufacture on data collected from 20 firms across the optoelectronics supply chain. The model presented allows for the definition of process organization, including testing, as well as processing conditions, operational characteristics, and level of automation at each step. This study focuses on the cost implications of integration of a 1550-nm DFB laser with an electroabsorptive modulator on an InP platform. Results show the monolithically integrated design to be more cost competitive over discrete component options regardless of production scale. Dominant cost drivers are packaging, testing, and assembly. Leveraging the technical detail underlying model projections, component alignment, bonding, and metal-organic chemical vapor deposition (MOCVD) are identified as processes where technical improvements are most critical to lowering costs. Such results should encourage exploration of the cost advantages of further integration and focus cost-driven technology development
Keywords
III-V semiconductors; costing; distributed feedback lasers; electro-optical modulation; electroabsorption; electronics packaging; indium compounds; integrated optics; integrated optoelectronics; semiconductor lasers; 1550 nm; DFB laser; InP; accurate-to-industry detail; bonding; electroabsorptive modulator; metal-organic chemical vapor deposition; monolithic integration; packaging; process organization; process-based cost model; Costs; Indium phosphide; Laser modes; Manufacturing processes; Monolithic integrated circuits; Optical modulation; Packaging; Photonics; Supply chains; Virtual manufacturing; Indium compounds; lasers; manufacturing economics; modeling; monolithically integrated circuits;
fLanguage
English
Journal_Title
Lightwave Technology, Journal of
Publisher
ieee
ISSN
0733-8724
Type
jour
DOI
10.1109/JLT.2006.875961
Filename
1667840
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