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Accurate Small-Signal Equivalent Circuit Modeling of Resonant Tunneling Diodes to 110 GHz

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Abstract:

This article presents a novel, on-wafer deembedding technique for the accurate small-signal equivalent circuit modeling of resonant tunneling diodes (RTDs). The approach ...Show More

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Abstract:

This article presents a novel, on-wafer deembedding technique for the accurate small-signal equivalent circuit modeling of resonant tunneling diodes (RTDs). The approach is applicable to stabilized RTDs, and so enables the modeling of the negative differential resistance (NDR) region of the device's current-voltage (I-V) characteristics. Furthermore, a novel quasi-analytical procedure to determine all the equivalent circuit elements from the deembedded S-parameter data is developed. Extraction results of a 10 μm × 10 μm stabilized, low-current density RTD at different bias points show excellent fits between modeled and measured S-parameters up to 110 GHz.

Published in: IEEE Transactions on Microwave Theory and Techniques ( Volume: 67, Issue: 11, November 2019)

Page(s): 4332 - 4340

Date of Publication: 17 September 2019

ISSN Information:

DOI: 10.1109/TMTT.2019.2939321

Funding Agency:

Citations are not available for this document.

Contents

I. Introduction

Over the last few decades, terahertz (THz) radiation, which has an electromagnetic spectrum that lies between millimeter-wave and infrared regions, has become a primary research interest in the fields of medical diagnostics, security imaging, and wireless communications [1]. The resonant tunneling diode (RTD) is a quantum-well structure, which exhibits a negative differential resistance (NDR) that extends to the THz range, thus making it one of the target candidates for such applications. There is intense on-going research on this device technology to realize compact and coherent THz sources [2]–[5]. Fundamental frequency oscillations at around 2 THz have recently been obtained from RTD oscillators [6]. Compared to other electronic device technologies that may be used in the 0.1–1 THz band such as transistors, Gunn diodes, etc., the RTD exhibits the largest bandwidth (for a given device size), requires simple circuitry, is compact, and consumes low power [7]. Recently, high-performance RTD-based THz short range multi-gigabit wireless links [8]–[10] and imaging applications have been demonstrated [11]. Thus, the accurate modeling of RTDs to support a reliable THz circuit design is of paramount importance.

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Cites in Papers - IEEE (8)

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Kirill V. Cherkasov, Sergey A. Meshkov, Mstislav O. Makeev, "Research of the Spacer Layers' Material Variation Impact on the Resonant-Tunneling Diode's Current-Voltage Characteristic", 2024 International Ural Conference on Electrical Power Engineering (UralCon), pp.750-754, 2024.

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Davide Cimbri, Razvan Morariu, Afesomeh Ofiare, Edward Wasige, "In0.53Ga0.47As/AlAs Double-Barrier Resonant Tunnelling Diodes With High-Power Performance in the Low-Terahertz Band", 2022 Fifth International Workshop on Mobile Terahertz Systems (IWMTS), pp.1-5, 2022.

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Qusay Al-Taai, Razvan Morariu, Jue Wang, Abdullah Al-Khalidi, Ali Al-Moathin, Bruno Romeira, José Figueiredo, Edward Wasige, "Towards an Excitable Microwave Spike Generator for Future Neuromorphic Computing", 2021 16th European Microwave Integrated Circuits Conference (EuMIC), pp.386-389, 2022.

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Davide Cimbri, Jue Wang, Abdullah Al-Khalidi, Edward Wasige, "Resonant Tunneling Diodes High-Speed Terahertz Wireless Communications - A Review", IEEE Transactions on Terahertz Science and Technology, vol.12, no.3, pp.226-244, 2022.

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Cites in Papers - Other Publishers (4)

Alberto Tibaldi, Michele Goano, Francesco Bertazzi, "Small-Signal Modeling of Dissipative Carrier Transport in Nanodevices with Nonequilibrium Green’s Functions", Physical Review Applied, vol.19, no.6, 2023.

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A. V. Bondarev, V. N. Efanov, "Investigation of the Robustness of Nanoelectronic Structures Based on Resonant Tunneling Elements", Russian Microelectronics, vol.51, no.7, pp.552, 2022.

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Carlos F. Destefani, Matteo Villani, Xavier Cartoixa, Michael Feiginov, Xavier Oriols, "Resonant tunneling diodes in semiconductor microcavities: Modeling polaritonic features in the terahertz displacement current", Physical Review B, vol.106, no.20, 2022.

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Goon Weng Wong, Norhayati Soin, "Optimization of On-Chip Meander Line Resistor by Using DOE Method", IETE Journal of Research, pp.1, 2022.

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Accurate Small-Signal Equivalent Circuit Modeling of Resonant Tunneling Diodes to 110 GHz

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I. Introduction

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Cites in Papers - IEEE (8)

Cites in Papers - Other Publishers (4)

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Accurate Small-Signal Equivalent Circuit Modeling of Resonant Tunneling Diodes to 110 GHz

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Abstract:

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Abstract:

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I. Introduction

Cites in Papers - IEEE (8) | Other Publishers (4)

Cites in Papers - IEEE (8)

Cites in Papers - Other Publishers (4)

References

Cites in Papers - |