Search Results - "Ohhira, R."

A 40 Gb/s Multi-Data-Rate CMOS Transmitter and Receiver Chipset With SFI-5 Interface for Optical Transmission Systems by Kaeriyama, S., Amamiya, Y., Noguchi, H., Yamazaki, Z., Yamase, T., Hosoya, K., Okamoto, M., Tomari, S., Yamaguchi, H., Shoda, H., Ikeda, H., Tanaka, S., Takahashi, T., Ohhira, R., Noda, A., Hijioka, K., Tanabe, A., Fujita, S., Kawahara, N.

“…A fully integrated 40 Gb/s transmitter and receiver chipset with SFI-5 interface is implemented in a 65 nm CMOS technology and mounted in a plastic BGA…”
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A 40Gb/s multi-data-rate CMOS transceiver chipset with SFI-5 interface for optical transmission systems by Amamiya, Y., Kaeriyama, S., Noguchi, H., Yamazaki, Z., Yamase, T., Hosoya, K., Okamoto, M., Tomari, S., Yamaguchi, H., Shoda, H., Ikeda, H., Tanaka, S., Takahashi, T., Ohhira, R., Noda, A., Hijioka, K., Tanabe, A., Fujita, S., Kawahara, N.

“…In this paper, 40 Gb/s SFI-5-compliant TX and RX chips in 65 nm CMOS technology consume 2.8 W each. This low power dissipation allows for a small and low-cost…”
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A 40-Gb/s Multi-Data-Rate CMOS Transmitter and Receiver Chipset with SFI-5 Interface for Optical Transmission Systems by Noguchi, H, Yamase, T, Hosoya, K, Okamoto, M, Yamaguchi, H, Shoda, H, Ohhira, R, Noda, A, Fujita, S, Kawahara, N

“…A fully integrated 40-Gb/s transmitter and receiver chipset with SFI-5 interface was implemented in a 65-nm CMOS technology and mounted in a plastic BGA…”
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A 35-to-46-Gb/s Ultra-Low Jitter Clock and Data Recovery Circuit for Optical Fiber Transmission Systems by Noguchi, H., Hosoya, K., Ohhira, R., Uchida, H., Noda, A., Yoshida, N., Wada, S.

“…We demonstrated an ultra-low jitter clock and data recovery (CDR) circuit that covers an ultra wide frequency range from 35 Gb/s to 46 Gb/s. Our CDR has a…”
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Compensation for PMD-induced time-variant waveform distortions in 43-Gbit/s NRZ transmission by ultra-wideband electrical equalizer module by Wada, S., Ohhira, R., Ito, T., Yamazaki, J., Amamiya, Y., Takeshita, H., Noda, A., Fukuchi, K.

“…We have successfully demonstrated error-free transmission of 43-Gbit/s NRZ WDM signals over a 405-km SMF having a maximum of 15.6-ps DGD with our…”
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Novel RZ signal format with alternate-chirp for suppression of nonlinear degradation in 40 Gb/s based WDM by Ohhira, R., Ogasahara, D., Ono, T.

“…A novel alternate-chirped RZ signal format is proposed. 2 dB improvement in nonlinear tolerance has been confirmed experimentally, compared to CS-RZ format in…”
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40-Gb/s Optical receiver achieving 13 dB dynamic range without optical preamplifier by Moribayashi, S., Ohhira, R., Oami, T., Noda, A., Baba, N., Takeuchi, T.

“…We have developed 40-Gb/s optical receiver consisting of a limiting amplifier and a transimpedance amplifier. Using NRZ-format, back-to-back receiver…”
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10.92-Tb/s (273/spl times/40-Gb/s) triple-band/ultra-dense WDM optical-repeatered transmission experiment by Fukuchi, K., Kasamatsu, T., Morie, M., Ohhira, R., Ito, T., Sekiya, K., Ogasahara, D., Ono, T.

“…With LD-pumped gain-shifted thulium-doped fiber amplifiers, polarization interleave multiplexing combined with wavelength/polarization demultiplexing for…”
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A high-sensitivity 40-Gbit/s optical receiver using packaged GaAs HBT-ICs by Ohhira, R., Amamiya, Y., Niwa, T., Nagano, N., Takeuchi, T., Kurioka, C., Chuzenji, T., Fukuchi, K.

“…Summary form only given. In this paper, we report the development of 40-Gbit/s optical receiver that employs three packaged AlGaAs-InGaAs HBT ICs: a…”
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