Title :
Degradation of fiber optical communication devices under damp-heat aging
Author :
Park, Jongwoo ; Shin, D.S.
Author_Institution :
Princeton Optronics, Mercerville, NJ, USA
Abstract :
Failure mechanism of hermetically sealed fiber optical communication devices under damp-heat aging (85/spl deg/C and 85% relative humidity) is discussed linked to degradation of physical properties of the cured epoxy, i.e., glass transition temperature, coefficient of thermal expansion, and adhesion. Recovery of output power or insertion loss from the degraded devices is reported after baking at a certain temperature. This reversible phenomenon is attributed to moisture absorption under the test condition and desorption at high temperature bake. This letter demonstrates that a correlation exists between the performance of optical communication devices and physical properties of the cured epoxy used for the subassembly.
Keywords :
adhesives; ageing; modules; optical communication equipment; optical fibre communication; optical fibre losses; optical fibre testing; telecommunication network reliability; thermal expansion; 85 degC; coefficient of thermal expansion; cured epoxy; damp-heat aging; degraded devices; failure mechanism; fiber optical communication device degradation; glass transition temperature; hermetically sealed fiber optical communication devices; high temperature bake; insertion loss; moisture absorption; optical communication devices; output power; physical properties; relative humidity; subassembly; test condition; thermal expansion coefficient; Aging; Failure analysis; Glass; Hermetic seals; Humidity; Mechanical factors; Optical fiber communication; Optical fiber devices; Temperature; Thermal degradation;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2003.815336
