Multichannel 25 Gb/s low-power driver and transimpedance amplifier integrated circuits for 100 Gb/s optical links

Jochen Verbrugghe; Renato Vaernewyck; Bart Moeneclaey; Xin Yin; Graeme Maxwell; Richard Cronin; Guy Torfs; Xing Zhi Qiu; Caroline P. Lai; Paul Townsend; Johan Bauwelinck

doi:10.1109/JLT.2014.2319112

Multichannel 25 Gb/s low-power driver and transimpedance amplifier integrated circuits for 100 Gb/s optical links

Jochen Verbrugghe
, Renato Vaernewyck
, Bart Moeneclaey
, Xin Yin
, Graeme Maxwell
, Richard Cronin
, Guy Torfs
, Xing Zhi Qiu
, Caroline P. Lai
, Paul Townsend
, Johan Bauwelinck

Research output: Contribution to journal › Article › peer-review

Abstract

Highly integrated electronic driver and receiver ICs with low-power consumption are essential for the development of cost-effective multichannel fiber-optic transceivers with small form factor. This paper presents the latest results of a two-channel 28 Gb/s driver array for optical duobinary modulation and a four-channel 25 Gb/s TIA array suited for both NRZ and optical duobinary detection. This paper demonstrated that 28 Gb/s duobinary signals can be efficiently generated on chip with a delay-and-add digital filter and that the driver power consumption can be significantly reduced by optimizing the drive impedance well above 50 Ω, without degrading the signal quality. To the best of our knowledge, this is the fastest modulator driver with on-chip duobinary encoding and precoding, consuming only 652 mW per channel at a differential output swing of 6 Vpp. The 4 × 25 Gb/s TIA shows a good sensitivity of -10.3 dBm average optical input power at 25 Gb/s for PRBS 2 ³¹ -1 and low power consumption of 77 mW per channel. Both ICs were developed in a 130 nm SiGe BiCMOS process.

Original language	English
Article number	6814280
Pages (from-to)	2877-2885
Number of pages	9
Journal	Journal of Lightwave Technology
Volume	32
Issue number	16
DOIs	https://doi.org/10.1109/JLT.2014.2319112
Publication status	Published - 15 Aug 2014

Keywords

Driver
driver array
SiGe BiCMOS
transimpedance amplifier
transimpedance amplifier array

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10.1109/JLT.2014.2319112

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Verbrugghe, J., Vaernewyck, R., Moeneclaey, B., Yin, X., Maxwell, G., Cronin, R., Torfs, G., Qiu, X. Z., Lai, C. P., Townsend, P., & Bauwelinck, J. (2014). Multichannel 25 Gb/s low-power driver and transimpedance amplifier integrated circuits for 100 Gb/s optical links. Journal of Lightwave Technology, 32(16), 2877-2885. Article 6814280. https://doi.org/10.1109/JLT.2014.2319112

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title = "Multichannel 25 Gb/s low-power driver and transimpedance amplifier integrated circuits for 100 Gb/s optical links",

abstract = "Highly integrated electronic driver and receiver ICs with low-power consumption are essential for the development of cost-effective multichannel fiber-optic transceivers with small form factor. This paper presents the latest results of a two-channel 28 Gb/s driver array for optical duobinary modulation and a four-channel 25 Gb/s TIA array suited for both NRZ and optical duobinary detection. This paper demonstrated that 28 Gb/s duobinary signals can be efficiently generated on chip with a delay-and-add digital filter and that the driver power consumption can be significantly reduced by optimizing the drive impedance well above 50 Ω, without degrading the signal quality. To the best of our knowledge, this is the fastest modulator driver with on-chip duobinary encoding and precoding, consuming only 652 mW per channel at a differential output swing of 6 Vpp. The 4 × 25 Gb/s TIA shows a good sensitivity of -10.3 dBm average optical input power at 25 Gb/s for PRBS 2 31 -1 and low power consumption of 77 mW per channel. Both ICs were developed in a 130 nm SiGe BiCMOS process.",

keywords = "Driver, driver array, SiGe BiCMOS, transimpedance amplifier, transimpedance amplifier array",

author = "Jochen Verbrugghe and Renato Vaernewyck and Bart Moeneclaey and Xin Yin and Graeme Maxwell and Richard Cronin and Guy Torfs and Qiu, \{Xing Zhi\} and Lai, \{Caroline P.\} and Paul Townsend and Johan Bauwelinck",

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doi = "10.1109/JLT.2014.2319112",

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AU - Yin, Xin

AU - Maxwell, Graeme

AU - Cronin, Richard

AU - Torfs, Guy

AU - Qiu, Xing Zhi

AU - Lai, Caroline P.

AU - Townsend, Paul

AU - Bauwelinck, Johan

PY - 2014/8/15

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N2 - Highly integrated electronic driver and receiver ICs with low-power consumption are essential for the development of cost-effective multichannel fiber-optic transceivers with small form factor. This paper presents the latest results of a two-channel 28 Gb/s driver array for optical duobinary modulation and a four-channel 25 Gb/s TIA array suited for both NRZ and optical duobinary detection. This paper demonstrated that 28 Gb/s duobinary signals can be efficiently generated on chip with a delay-and-add digital filter and that the driver power consumption can be significantly reduced by optimizing the drive impedance well above 50 Ω, without degrading the signal quality. To the best of our knowledge, this is the fastest modulator driver with on-chip duobinary encoding and precoding, consuming only 652 mW per channel at a differential output swing of 6 Vpp. The 4 × 25 Gb/s TIA shows a good sensitivity of -10.3 dBm average optical input power at 25 Gb/s for PRBS 2 31 -1 and low power consumption of 77 mW per channel. Both ICs were developed in a 130 nm SiGe BiCMOS process.

AB - Highly integrated electronic driver and receiver ICs with low-power consumption are essential for the development of cost-effective multichannel fiber-optic transceivers with small form factor. This paper presents the latest results of a two-channel 28 Gb/s driver array for optical duobinary modulation and a four-channel 25 Gb/s TIA array suited for both NRZ and optical duobinary detection. This paper demonstrated that 28 Gb/s duobinary signals can be efficiently generated on chip with a delay-and-add digital filter and that the driver power consumption can be significantly reduced by optimizing the drive impedance well above 50 Ω, without degrading the signal quality. To the best of our knowledge, this is the fastest modulator driver with on-chip duobinary encoding and precoding, consuming only 652 mW per channel at a differential output swing of 6 Vpp. The 4 × 25 Gb/s TIA shows a good sensitivity of -10.3 dBm average optical input power at 25 Gb/s for PRBS 2 31 -1 and low power consumption of 77 mW per channel. Both ICs were developed in a 130 nm SiGe BiCMOS process.

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Multichannel 25 Gb/s low-power driver and transimpedance amplifier integrated circuits for 100 Gb/s optical links

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Keywords

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