J. Semicond. > 2015, Volume 36 > Issue 8 > 085005
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SEMICONDUCTOR INTEGRATED CIRCUITS

A CMOS high resolution, process/temperature variation tolerant RSSI for WIA-PA transceiver

Tao Yang, Yu Jiang, Jie Li, Jiangfei Guo, Hua Chen, Jingyu Han, Guiliang Guo and Yuepeng Yan

+ Author Affiliations

 Corresponding author: Tao Yang, Emailyangtao@ime.ac.cn

DOI: 10.1088/1674-4926/36/8/085005

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Abstract: This paper presents a high resolution, process/temperature variation tolerant received signal strength indicator (RSSI) for wireless networks for industrial automation process automation (WIA-PA) transceiver fabricated in 0.18μm CMOS technology. The active area of the RSSI is 0.24 mm2. Measurement results show that the proposed RSSI has a dynamic range more than 70 dB and the linearity error is within ± 0.5 dB for an input power from -70 to 0 dBm (dBm to 50 Ω ), the corresponding output voltage is from 0.81 to 1.657 V and the RSSI slope is 12.1 mV/dB while consuming all of 2 mA from a 1.8 V power supply. Furthermore, by the help of the integrated compensation circuit, the proposed RSSI shows the temperature error within ± 1.5 dB from -40 to 85 ℃, and process variation error within ± 0.25 dB, which exhibits good temperature-independence and excellent robustness against process variation characteristics.

Key words: limiterRSSIhigh resolutiondynamic rangedetection sensitivityrail-to-rail buffer



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Fig1.  Block diagram of a typical low-IF wireless receiver.

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Fig2.  Output voltage of each branch of the RSSI when (a) $A^{i}V_{\rm I}$ < $V_{\rm s}$ and (b) $A^{i}V_{\rm I}$ $\geqslant$ $V_{\rm s}$ for $i$ $=$ 0,1,$\cdots$,$N$.

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Fig3.  Linear error and power consumption versus gain stage numbers.

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Fig4.  Architecture of the proposed RSSI.

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Fig5.  Circuit diagram of the gain stage with feed-forward offset cancellation and CMFB functions.

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Fig6.  Frequency response of the limiter with offset cancellation circuit.

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Fig7.  Circuit diagram of the proposed full-wave rectifier.

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Fig8.  Proposed LPF and buffer.

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Fig9.  Chip microphotograph of the proposed RSSI.

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Fig10.  Measured RSSI output with temperature variation and process variation. (a) Measured RSSI output data and its error at 27 $\du$. (b) Measured RSSI output data and its error at 85 $\du$. (c) Measured RSSI output data and its error at $-40$ $\du$. (c) Compare the different chips for process variation.

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Table 1.   Comparison of different RSSIs performance.

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    Received: 19 January 2015 Revised: Online: Published: 01 August 2015

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      Article Navigation >  Journal of Semiconductors  > 2015  >  36(8): 085005
      Tao Yang, Yu Jiang, Jie Li, Jiangfei Guo, Hua Chen, Jingyu Han, Guiliang Guo, Yuepeng Yan. A CMOS high resolution, process/temperature variation tolerant RSSI for WIA-PA transceiver[J]. Journal of Semiconductors, 2015, 36(8): 085005. doi: 10.1088/1674-4926/36/8/085005 ****T Yang, Y Jiang, J Li, J F Guo, H Chen, J Y Han, G L Guo, Y P Yan. A CMOS high resolution, process/temperature variation tolerant RSSI for WIA-PA transceiver[J]. J. Semicond., 2015, 36(8): 085005. doi: 10.1088/1674-4926/36/8/085005.
      Citation:
      Tao Yang, Yu Jiang, Jie Li, Jiangfei Guo, Hua Chen, Jingyu Han, Guiliang Guo, Yuepeng Yan. A CMOS high resolution, process/temperature variation tolerant RSSI for WIA-PA transceiver[J]. Journal of Semiconductors, 2015, 36(8): 085005. doi: 10.1088/1674-4926/36/8/085005 ****
      T Yang, Y Jiang, J Li, J F Guo, H Chen, J Y Han, G L Guo, Y P Yan. A CMOS high resolution, process/temperature variation tolerant RSSI for WIA-PA transceiver[J]. J. Semicond., 2015, 36(8): 085005. doi: 10.1088/1674-4926/36/8/085005.
      shu

      A CMOS high resolution, process/temperature variation tolerant RSSI for WIA-PA transceiver

      DOI: 10.1088/1674-4926/36/8/085005

      • Institute of Microelectronics, Chinese Academy of Sciences, Beijing 100029, China

      Funds:

      Project supported by the National High Technology Research and Development Program of China (No. 2011AA040102).

      More Information
      • Corresponding author: Emailyangtao@ime.ac.cn
      • Received Date: 2015-01-19
      • Accepted Date: 2015-02-09
      • Published Date: 2015-01-25

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