Single Stage Low Noise Inductor-Less TIA for RF Over Fiber Communication

Kumar, Vijay; Saravanan, G. Sai; Duraiswamy, Punithavathi; Selvaraja, Shankar Kumar

doi:10.1109/access.2021.3119962

Cited by 6 publications

(2 citation statements)

References 35 publications

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“…A vertical eye-opening of 20 mV with a width of 0.1 UI at a BER of 1E-6 is achieved. Finally, Table III compares performance of the proposed TIA with the state-of-the-art inductorless TIAs [35][36][37][38]. Reference [10] employs inductors and transformers to improve the GBP without sacrificing the power consumption.…”

Section: Implementation Of Negative Capacitance Generation Circuitmentioning

confidence: 99%

An Inductorless Optical Receiver Front-End Employing a High Gain-BW Product Differential Transimpedance Amplifier in 16-nm FinFET Process

Kashani

Shakiba

Sheikholeslami

2023

IEEE Open J. Circuits Syst.

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In this paper, a fully-differential transimpedance amplifier (TIA) providing a high gain-BW product (GBP) is introduced. In the proposed architecture, a cascode cross-coupled structure is employed to double the effective transconductance of the cascode devices, improving the BW of the TIA. Moreover, a differential architecture is implemented using an RC highpass filter along with a buffer stage requiring smaller capacitance and resistance. Furthermore, a single-ended negative capacitance generation (NCG) circuit is employed at the input of the TIA to partially compensate for the input parasitic capacitances. A TIA including the proposed techniques, designed and laid out in a 16-nm FinFET process, demonstrates 57% and 79% better figure-of-merit compared to cascode and conventional TIAs designed along with the proposed TIA for a fair comparison, respectively. Post-layout simulations in companion with statistical analysis are employed to verify the effectiveness of the proposed architecture. From simulation results, the optical receiver achieves a peak transimpedance gain of 58.5 dBΩ, a BW of 14.8 GHz, an input-referred noise of 33.6 pA/√Hz, and an eye-opening of 30 mV at a data-rate of 56 Gbps PAM4 and at a bit-error-rate (BER) of 1E-6. The whole circuit consume 49 mW and occupies an active area of 0.0076 mm 2 .

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Section: Implementation Of Negative Capacitance Generation Circuitmentioning

confidence: 99%

An Inductorless Optical Receiver Front-End Employing a High Gain-BW Product Differential Transimpedance Amplifier in 16-nm FinFET Process

Kashani

Shakiba

Sheikholeslami

2023

IEEE Open J. Circuits Syst.

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“…In addition, the equivalent spectral density of the input referred noise current of the TIA is expressed as follows [25][26][27][28][29]:…”

Section: Trans-impedance Amplifiermentioning

confidence: 99%

Design of an Integrated Near-Infrared Spectroscopy Module for Sugar Content Estimation of Apples

Byun

2022

Micromachines

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An integrated near-infrared (NIR) spectroscopy prototype module for sugar content estimation of apples is presented. Since this is the first attempt to design an integrated NIR spectroscopy module, we followed the design process as follows. First, we estimated the sugar content of apples using a tungsten halogen light source and a 700 nm–1000 nm NIR spectrometer with a 10 nm wavelength resolution and a 16b analog-to-digital converter (ADC) resolution. Second, we determined the most effective wavelengths among 31 evenly distributed wavelengths while observing the correlation coefficient, R2, and then we reduced the ADC resolution 1b by 1b starting from 16b while also observing the R2. Lastly, we designed an integrated NIR spectroscopy module with the selected eight wavelengths and a 13 ADC resolution. The module implemented in a 0.18 μm 1P6M CMOS process occupies a die area of 0.84 mm2. By utilizing this module with eight off-chip light emitting diodes (LED) and one photo diode (PD), the measured R2 and the standard error of calibration (SEC) were 0.365 and 0.686 brix, respectively.

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A CMOS transimpedance amplifier with broad-band and high gain based on negative Miller capacitance

Zhang

zhuo

2023

Integration

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Single Stage Low Noise Inductor-Less TIA for RF Over Fiber Communication

Cited by 6 publications

References 35 publications

An Inductorless Optical Receiver Front-End Employing a High Gain-BW Product Differential Transimpedance Amplifier in 16-nm FinFET Process

An Inductorless Optical Receiver Front-End Employing a High Gain-BW Product Differential Transimpedance Amplifier in 16-nm FinFET Process

Design of an Integrated Near-Infrared Spectroscopy Module for Sugar Content Estimation of Apples

A CMOS transimpedance amplifier with broad-band and high gain based on negative Miller capacitance

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