A Silicon Platform With MEMS Active Alignment Function and Its Potential Application in Si-Photonics Packaging

A silicon (Si) platform, which consists of passive alignment structures (V-grooves), active microelectromechanical systems (MEMS) alignment components, mechanical locking mechanisms, and predeposited gold-tin soldering pads is developed to address the submicron accuracy assembly requirement of the discrete laser diode (LD) to a small core in-chip Si waveguide (WG). A 2-D in situ active alignment of a ball lens in LD-ball lens-Si-WG coupling system is presented here. The 1550-nm DFB LD and the passive Si-photonics chip are attached onto the platform, using flip-chip bonding process. The 2-D alignment of the ball lens is then achieved through the in-plane motion of the suspension arms and the specially designed V-groove. The position of the ball lens is subsequently fixed by the locking mechanism mechanically. MEMS electrothermal V-beam actuators, which can provide large force with a large displacement under a low driving voltage, i.e., >50 ¿m at 25 V are employed in this platform. The effectiveness and stability of the arm locking function have been tested with a shift of <0.1 ¿m after vibration testing (10g , 2 kHz). The integrated aligning and locking functions of the MEMS platform are also demonstrated through the LD-ball lens-Si-WG coupling system. These results show the potential of this MEMS platform in hybrid integrated Si photonics and applications that consist of LD-ball lens-Si-WG coupling system, e.g., the transmitter and transceiver.

[1]  S. Koehl,et al.  Development of CMOS-Compatible Integrated Silicon Photonics Devices , 2006, IEEE Journal of Selected Topics in Quantum Electronics.

[2]  R. Ghodssi,et al.  Automated Two-Axes Optical Fiber Alignment Using Grayscale Technology , 2007, Journal of Microelectromechanical Systems.

[3]  Weisong Wang,et al.  Precision in-package positioning with a thermal inchworm , 2008 .

[4]  D. Uttamchandani,et al.  Alignment and fixing of fiber optics based on electrothermal MEMS actuators , 2005, IEEE Photonics Technology Letters.

[5]  Ronald E. Scotti,et al.  Uncooled laser packaging based on silicon optical bench technology , 1996, Other Conferences.

[6]  Deepak Uttamchandani,et al.  Scalable electrothermal MEMS actuator for optical fibre alignment , 2004 .

[7]  R.R.A. Syms,et al.  Robust latching MEMS translation stages for micro-optical systems , 2004 .

[8]  John D. Grade,et al.  Micromachined actuators with braking mechanisms , 2005 .

[9]  W. P. Sassen,et al.  Two-Dimensional Fiber Positioning and Clamping Device for Product-Internal Microassembly , 2008, Journal of Microelectromechanical Systems.

[10]  S. Aoshima,et al.  Compact mass axis alignment device with piezoelements for optical fibers , 1992, IEEE Photonics Technology Letters.

[11]  Weisong Wang,et al.  Design of a bidirectional MEMS actuator with high displacement resolution, large driving force and power-free latching , 2008 .

[12]  Vijayakumar R. Dhuler,et al.  In-package active fiber optic micro-aligner , 1998, Photonics West.

[13]  Thomas Frank Two-axis electrodynamic micropositioning devices , 1998 .

[14]  R.R.A. Syms,et al.  Multistate latching MEMS variable optical attenuator , 2004, IEEE Photonics Technology Letters.

[15]  H. Uetsuka,et al.  2 axes optical switch with holding mechanism , 2003, The Sixteenth Annual International Conference on Micro Electro Mechanical Systems, 2003. MEMS-03 Kyoto. IEEE.

[16]  L. L. Chu,et al.  Bent-beam electrothermal actuators-Part II: Linear and rotary microengines , 2001 .