Towards ultra-low power transceivers for Pico-IoT
This article provides a comprehensive review of ultra-low power receivers for Pico-IoT applications. The application scenarios and specification requirements of the receivers used in IoT systems are introduced. In addition, the evolution of the receiver's architecture and the key techniques are...
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sg-ntu-dr.10356-1781422024-06-05T02:28:42Z Towards ultra-low power transceivers for Pico-IoT Yang, Chuanshi Wei, Zhengzhe Gao, Hao Heng, Chun Huat Zheng, Yuanjin School of Electrical and Electronic Engineering VIRTUS, IC Design Centre of Excellence Engineering Current-reuse LNA Passive gain This article provides a comprehensive review of ultra-low power receivers for Pico-IoT applications. The application scenarios and specification requirements of the receivers used in IoT systems are introduced. In addition, the evolution of the receiver's architecture and the key techniques are presented in the article. The advantages of different topologies are analyzed. Specifically, the receiver based on micro-electromechanical systems (MEMS) are presented. The challenges and bottleneck of the receivers for pico-IoT are illustrated. This article aims to reveal the significance and future trends of the ultra-low power transceivers. In addition, a low-power and high sensitivity wake up receiver (WuRX) working in ISM band is designed and fabricated in this work. A high-Q MEMS resonator is employed to improve the selectivity and interference rejection. The MEMS is co-designed with the low noise amplifier (LNA) for resonant noise matching (RNM) technique which provides passive gain to reduce the input-referred noise of the receiver. Furthermore, an energy super-regenerative (ESR) receiver is proposed which reduced the power consumption through replacing the power-hungry oscillator in traditional super-regenerative receiver with an ESR loop. The proposed MEMS-based receiver is implemented in a TSMC 65nm CMOS technology. The measurement results show that the receiver achieves -70dBm sensitivity at 10-3 BER while consuming only 2.83 ÂμW power consumption at 1-V power supply. In addition, -20-dB SIR is obtained at 2-MHz offset from the center frequency. Agency for Science, Technology and Research (A*STAR) This work was supported by the Agency for Science, Technology and Research (A*STAR) Science & Engineering Research Council (SERC) Advanced Manufacturing and Engineering (AME) Program Nano-Systems at the Edge under Grant A18A4b0055. 2024-06-05T02:28:42Z 2024-06-05T02:28:42Z 2024 Journal Article Yang, C., Wei, Z., Gao, H., Heng, C. H. & Zheng, Y. (2024). Towards ultra-low power transceivers for Pico-IoT. IEEE Nanotechnology Magazine, 18(1), 34-43. https://dx.doi.org/10.1109/MNANO.2023.3340391 1932-4510 https://hdl.handle.net/10356/178142 10.1109/MNANO.2023.3340391 2-s2.0-85182349496 1 18 34 43 en A18A4b0055 IEEE Nanotechnology Magazine © 2024 IEEE. All rights reserved. |
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Engineering Current-reuse LNA Passive gain |
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Engineering Current-reuse LNA Passive gain Yang, Chuanshi Wei, Zhengzhe Gao, Hao Heng, Chun Huat Zheng, Yuanjin Towards ultra-low power transceivers for Pico-IoT |
| description |
This article provides a comprehensive review of ultra-low power receivers for Pico-IoT applications. The application scenarios and specification requirements of the receivers used in IoT systems are introduced. In addition, the evolution of the receiver's architecture and the key techniques are presented in the article. The advantages of different topologies are analyzed. Specifically, the receiver based on micro-electromechanical systems (MEMS) are presented. The challenges and bottleneck of the receivers for pico-IoT are illustrated. This article aims to reveal the significance and future trends of the ultra-low power transceivers. In addition, a low-power and high sensitivity wake up receiver (WuRX) working in ISM band is designed and fabricated in this work. A high-Q MEMS resonator is employed to improve the selectivity and interference rejection. The MEMS is co-designed with the low noise amplifier (LNA) for resonant noise matching (RNM) technique which provides passive gain to reduce the input-referred noise of the receiver. Furthermore, an energy super-regenerative (ESR) receiver is proposed which reduced the power consumption through replacing the power-hungry oscillator in traditional super-regenerative receiver with an ESR loop. The proposed MEMS-based receiver is implemented in a TSMC 65nm CMOS technology. The measurement results show that the receiver achieves -70dBm sensitivity at 10-3 BER while consuming only 2.83 ÂμW power consumption at 1-V power supply. In addition, -20-dB SIR is obtained at 2-MHz offset from the center frequency. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Yang, Chuanshi Wei, Zhengzhe Gao, Hao Heng, Chun Huat Zheng, Yuanjin |
| format |
Article |
| author |
Yang, Chuanshi Wei, Zhengzhe Gao, Hao Heng, Chun Huat Zheng, Yuanjin |
| author_sort |
Yang, Chuanshi |
| title |
Towards ultra-low power transceivers for Pico-IoT |
| title_short |
Towards ultra-low power transceivers for Pico-IoT |
| title_full |
Towards ultra-low power transceivers for Pico-IoT |
| title_fullStr |
Towards ultra-low power transceivers for Pico-IoT |
| title_full_unstemmed |
Towards ultra-low power transceivers for Pico-IoT |
| title_sort |
towards ultra-low power transceivers for pico-iot |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/178142 |
| _version_ |
1814047069354065920 |