2021
DOI: 10.1002/cta.3070
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Planar circuit analysis of ultra‐wideband millimeter‐wave inductor using transmission line sections

Abstract: Regarding the capacitive nature of input/output impedances of millimeterwave amplifiers, it is necessary to utilize wideband inductive elements for the design of input/output impedance matching circuits. In this paper, the design and optimization of an ultra-wideband transmission line inductor with an inductance of less than 100 pH are introduced for using at frequencies above 50 GHz. The reason of using this inductor is its superior performance compared to that of a spiral inductor and single-coil inductor. T… Show more

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Cited by 2 publications
(10 citation statements)
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“…According to extracted data from simulation, compared with SPL TIA, a lower 𝑔 𝑚1 is obtained for the AIL TIA with higher 𝑔 𝑑𝑠1 . This reduction in 𝐴 1 leads to lower voltage gain 𝐴, eventually lowering TIA gain and bandwidth according to Equations ( 11), ( 14) and (15). However, a reduction in the input referred noise current and power consumption do occur.…”
Section: Ail Tiamentioning
confidence: 99%
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“…According to extracted data from simulation, compared with SPL TIA, a lower 𝑔 𝑚1 is obtained for the AIL TIA with higher 𝑔 𝑑𝑠1 . This reduction in 𝐴 1 leads to lower voltage gain 𝐴, eventually lowering TIA gain and bandwidth according to Equations ( 11), ( 14) and (15). However, a reduction in the input referred noise current and power consumption do occur.…”
Section: Ail Tiamentioning
confidence: 99%
“…A modification to previous literature [9] is worked out based on short channel effects literature [15] regarding mean square induced gate noise voltage (spectral density) for transistor M1 as follows:…”
Section: Noise Analysis Of Spl Tiamentioning
confidence: 99%
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“…In this paper, after the proper design of Pi-shaped wideband input/output and inter-stage impedance matching networks with minimum lumped elements and their implementation with microstrip lines, to achieve a wider bandwidth, the ultra-wideband inductor [26] is used instead of the usual transmission line stub [3], [12], [23], [27] or spiral inductor [15], which were used in most previous articles. Then, using the planar circuit analysis approach based on the planar waveguide model and SDSMs, the overall impedance matrix of matching networks is analytically calculated with high accuracy and minimum computation time.…”
Section: Introductionmentioning
confidence: 99%
“…Then, using the planar circuit analysis approach based on the planar waveguide model and SDSMs, the overall impedance matrix of matching networks is analytically calculated with high accuracy and minimum computation time. Finally, by optimizing the effective parameters in the impedance matrix of matching networks such as, length and characteristic impedance of each rectangular segment by an intelligent optimization algorithm in MATLAB [26], we were able to achieve the main goal of this paper, which is to design an amplifier with a gain of more than 30 dB (S21max = 30.5dB) in the frequency range of 57 to 64 GHz, and as well excellent input impedance matching (S11min = -25.3dB) and output impedance matching (S22min = -20.6). It should also be noted that the 57 to 64 GHz bandwidth is an IEEE 802.11 wireless networking standard for WiGig networks.…”
Section: Introductionmentioning
confidence: 99%