4 × 25 Gb/s PAM4 optical transmitter for micro‐ring modulator with thermal control

Chen, Yinghao; Chen, Yingmei; Guo, Chao; Fan, Wentian; Zhu, En; Hu, Zhengfei

doi:10.1002/mop.33580

Cited by 4 publications

(2 citation statements)

References 8 publications

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“…Together with the peak detector and operational transconductance amplifier, this setup forms the AGC loop. 9 The output stage utilizes an improved structure based on SEFPP to provide a sufficient voltage signal swing to the modulator. 8 The on-chip bias tee consists of 50-pF AC-coupling capacitor and 40 kΩ bias resister, which together introduce a −80kHz high-pass cutoff frequency.…”

Section: Circuit Designmentioning

confidence: 99%

“…To accommodate input signals with different amplitudes and maintain a constant output signal amplitude, an additional variable gain amplifier (VGA) is added after the equalizer. Together with the peak detector and operational transconductance amplifier, this setup forms the AGC loop 9 . The output stage utilizes an improved structure based on SEFPP to provide a sufficient voltage signal swing to the modulator 8 .…”

Section: Circuit Designmentioning

confidence: 99%

See 1 more Smart Citation

A 56‐GBaud lumped linear push–pull driver for Mach–Zehnder modulator in 130‐nm SiGe technology

Fan,

Chen,

Yan

et al. 2024

Micro & Optical Tech Letters

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A fully differential lumped linear driver for Mach–Zehnder modulator has been presented and assessed in 130‐nm SiGe BiCMOS technology. Multitopology peaking techniques, especially T‐coil peaking method, have been employed to flatten the frequency response and increase the bandwidth. Degeneration resistors have been used to enhance circuit linearity. Simultaneously, improvements have been made to the output stage of the conventional single emitter follower push–pull) circuit to enhance the output eye diagram quality at higher transmission rates. The fabricated driver achieved a differential gain of 16.2 dB with a bandwidth of over 50 GHz, corresponding to a fixed output swing of over 3.2 Vppd within the automatic gain control loop. Time domain measurements, limited in speed by the measurement setup, reported a data rate up to 56 Gb/s none return to zero and 40‐GBaud 4‐levels pulse amplitude modulation with a bit error rate less than 10−12.

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Section: Circuit Designmentioning

confidence: 99%

Section: Circuit Designmentioning

confidence: 99%

A 56‐GBaud lumped linear push–pull driver for Mach–Zehnder modulator in 130‐nm SiGe technology

Fan,

Chen,

Yan

et al. 2024

Micro & Optical Tech Letters

Self Cite

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Design of a 9-bit SAR ADC for Quad-channel VCSEL Transmitters

Chen,

Fan

et al. 2023

2023 8th International Conference on Integrated Circuits and Microsystems (ICICM)

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A High Efficiency 14–28 Gb/s Tunable Receiver Analog Front-End in 65 nm CMOS Technology

Li,

Chu,

Zhu

et al. 2023

J CIRCUIT SYST COMP

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This work presents a tunable receiver analog front-end (AFE) circuit, capable of achieving data rates between 14 Gb/s and 28 Gb/s. The circuit is implemented using the TSMC 65 nm CMOS technology. The circuit incorporates a continuous-time linear equalizer (CTLE), a transimpedance amplifier (TIA) and an output buffer. A [Formula: see text]-boosted technique is employed within the CTLE for bandwidth and gain enhancement, while the TIA leverages a super source follower (SSF) structure to combat parasitic output node issues. By adjusting the tunable structures in the circuit, the proposed AFE can achieve variable DC gain at 14 GHz. Simulation results reveal that the AFE can compensate for the channel loss at the 14 GHz Nyquist frequency, delivering eye diagram spreads of approximately 0.85 UI and 0.78 UI at 14 Gb/s and 28 Gb/s, respectively. The complete post-simulation layout area is only 0.0026[Formula: see text]mm2. Operating with a power consumption of 10.5[Formula: see text]mW, the AFE exhibits an exceptional FoM of 11.8 pJ/bit/dB.

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4 × 25 Gb/s PAM4 optical transmitter for micro‐ring modulator with thermal control

Cited by 4 publications

References 8 publications

A 56‐GBaud lumped linear push–pull driver for Mach–Zehnder modulator in 130‐nm SiGe technology

A 56‐GBaud lumped linear push–pull driver for Mach–Zehnder modulator in 130‐nm SiGe technology

Design of a 9-bit SAR ADC for Quad-channel VCSEL Transmitters

A High Efficiency 14–28 Gb/s Tunable Receiver Analog Front-End in 65 nm CMOS Technology

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