Assembly Technologies for Integrated Transmitter/Receiver Optical Sub-Assembly Modules

Keita MOCHIZUKI; Tadashi MURAO; Mizuki SHIRAO; Yoshiyuki KAMO; Nobuyuki YASUI; Takahiro YOSHIMOTO; Daisuke ECHIZENYA; Masaya SHIMONO; Hidekazu KODERA; Masamichi NOGAMI; Hiroshi ARUGA

doi:10.1587/transele.E100.C.187

Special Section on Fabrication Technologies Supporting the Photonic/Nanostructure Devices

Assembly Technologies for Integrated Transmitter/Receiver Optical Sub-Assembly Modules

Keita MOCHIZUKI, Tadashi MURAO, Mizuki SHIRAO, Yoshiyuki KAMO, Nobuyuki YASUI, Takahiro YOSHIMOTO, Daisuke ECHIZENYA, Masaya SHIMONO, Hidekazu KODERA, Masamichi NOGAMI, Hiroshi ARUGA

Author information

Keita MOCHIZUKI
Mitsubishi Electric Corporation
Tadashi MURAO
Mitsubishi Electric Corporation
Mizuki SHIRAO
Mitsubishi Electric Corporation
Yoshiyuki KAMO
Mitsubishi Electric Corporation
Nobuyuki YASUI
Mitsubishi Electric Corporation
Takahiro YOSHIMOTO
Mitsubishi Electric Corporation
Daisuke ECHIZENYA
Mitsubishi Electric Corporation
Masaya SHIMONO
Mitsubishi Electric Corporation
Hidekazu KODERA
Mitsubishi Electric Corporation
Masamichi NOGAMI
Mitsubishi Electric Corporation
Hiroshi ARUGA
Mitsubishi Electric Corporation

Keywords: hybrid integration, optical sub-assembly, 100 Gb/s Ethernet

JOURNAL FREE ACCESS

2017 Volume E100.C Issue 2 Pages 187-195

DOI https://doi.org/10.1587/transele.E100.C.187

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Abstract

We have succeeded in developing three techniques, a precise lens-alignment technique, low-loss built-in Spatial Multiplexing optics and a well-matched electrical connection for high-frequency signals, which are indispensable for realizing compact high-performance TOSAs and ROSAs employing hybrid integration technology. The lens position was controlled to within ±0.3 µm by high-power laser irradiation. All components comprising the multiplexing optics are bonded to a prism, enabling the insertion loss to be held down to 0.8 dB due to the dimensional accuracy of the prism. The addition of an FPC layer reduced the impedance mismatch at the junction between the FPC and PCB. We demonstrated a compact integrated four-lane 25 Gb/s TOSA (15.1 mm × 6.5 mm × 5.6 mm) and ROSA (17.0 mm × 12.0 mm × 7.0 mm) using the built-in spatial Mux/Demux optics with good transmission performance for 100 Gb/s Ethernet. These are respectively suitable for the QSFP28 and CFP2 form factors.

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