研究目的
To discuss the advancement of TIAs in data communication and instrumentation based on different design architectures and performances, serving as a comparative study and reference for designing fully integrated CMOS TIA for future optical receivers.
研究成果
The article demonstrates the advancement in CMOS TIA architectures with their design concerns and improvements in performance. TIA designs mainly focus on high data rate for data communication applications and high accuracy measurement for sensor applications. Several techniques have been implemented to meet receiver requirements, achieving low power consumption and low noise. The review serves as a reference for designing low-cost, low-power, small-size solutions for optical receivers.
研究不足
The paper is a review and does not present new experimental data; it relies on existing literature, which may have inherent limitations in the original studies. It focuses on CMOS-based TIAs and may not cover all possible technologies or recent advancements beyond the publication date.
1:Experimental Design and Method Selection:
The paper is a review article, not an experimental study, so it does not involve a specific experimental design or method selection. It synthesizes and compares existing TIA architectures and performances from various sources.
2:Sample Selection and Data Sources:
The review is based on existing literature and studies on CMOS TIA designs, including various topologies such as common-gate, common-drain, regulated cascode, common-source, voltage amplifier-based, resistive feedback, and capacitive feedback topologies. Data sources include published papers and conference proceedings.
3:List of Experimental Equipment and Materials:
Not applicable as it is a review paper; no specific equipment or materials are used in experiments.
4:Experimental Procedures and Operational Workflow:
Not applicable; the paper reviews and compares existing designs without conducting new experiments.
5:Data Analysis Methods:
The analysis involves comparing performance parameters such as transimpedance gain, bandwidth, power consumption, input-referred noise, and CMOS technology nodes from various studies, presented in tables and discussions.
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