Yasunobu Matsuoka

Orcid: 0000-0003-4978-956X

According to our database¹, Yasunobu Matsuoka authored at least 16 papers between 2011 and 2018.

Collaborative distances:

Dijkstra number² of five.
Erdős number³ of four.

Timeline

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Book

In proceedings

Article

PhD thesis

Dataset

Other

Links

On csauthors.net:

Bibliography

2018

A 50-Gb/s High-Sensitivity (-9.2 dBm) Low-Power (7.9 pJ/bit) Optical Receiver Based on 0.18-µm SiGe BiCMOS Technology.

[BibT_eX]

[DOI]

IEEE J. Solid State Circuits, 2018

2016

A 50-Gb/s Optical Transmitter Based on a 25-Gb/s-Class DFB-LD and a 0.18-µm SiGe BiCMOS LD Driver.

[BibT_eX]

[DOI]

IEICE Trans. Electron., 2016

A 50.6-Gb/s 7.8-mW/Gb/s -7.4-dBm sensitivity optical receiver based on 0.18-µm SiGe BiCMOS technology.

[BibT_eX]

[DOI]

Proceedings of the 2016 IEEE Symposium on VLSI Circuits, 2016

A jitter-reduction packaging structure for a 56-Gb/s NRZ modulated optical receiver.

[BibT_eX]

[DOI]

Proceedings of the Optical Fiber Communications Conference and Exhibition, 2016

2015

A 50-Gb/s NRZ-modulated optical transmitter based on a DFB-LD and a 0.18-µm SiGe BiCMOS LD driver.

[BibT_eX]

[DOI]

Proceedings of the Optical Fiber Communications Conference and Exhibition, 2015

Wide-temperature-range 103.2 (25.8 × 4)-Gb/s optical link for data-center Interconnects using a 1.3-µm lens-integrated surface-emitting laser array.

[BibT_eX]

[DOI]

Proceedings of the Optical Fiber Communications Conference and Exhibition, 2015

25-Gbps error-free transmission over SMF and OM3 MMF using silicon photonics transmitter and CMOS receiver.

[BibT_eX]

[DOI]

Proceedings of the European Conference on Optical Communication, 2015

An electrical and optical concurrent design methodology for enlarging jitter margin of 25.8-Gb/s optical interconnects.

[BibT_eX]

[DOI]

Proceedings of the 2015 IEEE Custom Integrated Circuits Conference, 2015

2014

A 25-to-28 Gb/s High-Sensitivity (-9.7 dBm) 65 nm CMOS Optical Receiver for Board-to-Board Interconnects.

[BibT_eX]

[DOI]

IEEE J. Solid State Circuits, 2014

25-Gbps×4 optical transmitter with adjustable asymmetric pre-emphasis in 65-nm CMOS.

[BibT_eX]

[DOI]

Proceedings of the IEEE International Symposium on Circuits and Systemss, 2014

2013

25 Gb/s 150-m Multi-Mode Fiber Transmission Using a CMOS-Driven 1.3-µm Lens-Integrated Surface-Emitting Laser.

[BibT_eX]

[DOI]

IEICE Trans. Electron., 2013

Compact and power-efficient 100-Gbps CMOS-based transceiver.

[BibT_eX]

[DOI]

Proceedings of the 2013 Optical Fiber Communication Conference and Exposition and the National Fiber Optic Engineers Conference (OFC/NFOEC), 2013

A 25-Gb/s × 4-Ch, 8 × 8 mm<sup>2</sup>, 2.8-mm thick compact optical transceiver module for on-board optical interconnect.

[BibT_eX]

[DOI]

Proceedings of the 2013 Optical Fiber Communication Conference and Exposition and the National Fiber Optic Engineers Conference (OFC/NFOEC), 2013

A 4× 25-to-28Gb/s 4.9mW/Gb/s -9.7dBm high-sensitivity optical receiver based on 65nm CMOS for board-to-board interconnects.

[BibT_eX]

[DOI]

Proceedings of the 2013 IEEE International Solid-State Circuits Conference, 2013

2011

A 25 Gb/s 65-nm CMOS Low-Power Laser Diode Driver With Mutually Coupled Peaking Inductors for Optical Interconnects.

[BibT_eX]

[DOI]

IEEE Trans. Circuits Syst. I Regul. Pap., 2011

A 35-GHz, 0.8-A/W and 26-µm Misalignment Tolerance Microlens-Integrated p-i-n Photodiodes.

[BibT_eX]

[DOI]

IEICE Trans. Electron., 2011

Yasunobu Matsuoka

Timeline

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On csauthors.net:

Bibliography

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