Improving the voltage modulation depth and RF power generated on Nonlinear Transmission lines

Neto, L. P. Silva; Rossi, J.O.; Barroso, Joaquim J.; Rangel, Elizete G. L.; Schamiloglu, E.

doi:10.1109/ipmhvc.2018.8936795

Cited by 3 publications

(1 citation statement)

References 6 publications

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“…1 it is shown a NLTL composed 30 sections with each one using an inductor of 2.7 µH and a varactor diode model MV209. The resistances RL and RC represent the loss in the terminals of inductors and capacitors respectively [2]. The radiofrequency oscillations obtained in the output of these lines have a low voltage modulation depth (VMD) of the order of 10.7 V using a load of 47 Ω.…”

Section: Introductionmentioning

confidence: 99%

Development of an RF circuit amplifier fed by a low power nonlinear transmission line

Neto

Moraes

Rossi

et al. 2019

2019 IEEE Pulsed Power &Amp; Plasma Science (PPPS)

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Lumped nonlinear transmission lines have been studied for the generation of radio frequency signals in the range of the order of tens of MHz up to a few hundreds of MHz depending on the nonlinear element used in the LC line. The oscillations obtained at the output of these lines are applied in defense mobile platforms and communications systems. Low power nonlinear transmission lines use varactor diodes as nonlinear elements, which show a strong nonlinear effect with capacitance variation of the order of 90% at their P-N junction with the applied voltage, which is an excellent performance to obtain oscillations at the line output. However, these semiconductor devices operate at low voltage, producing small voltage modulation depth, low power, and consequently reduced signal range. Looking for increasing the voltage modulation depth of the signal generated with nonlinear transmission lines, this work developed a radiofrequency amplifier using a Metal Oxide Semiconductor Field Effect Transistor -MOSFET model RD06HVF1. A 30-section line using varactor diodes MV209 as nonlinear elements can work as an RF source to obtain oscillations with a frequency of 33.3 MHz at the line output. By means of SPICE simulations, it has been demonstrated that an amplifier circuit connected to the output of this varactor diode transmission line can produce an increase of the voltage modulation depth produced at line output from 10.7 V to 40 V approximately, thus allowing higher level power to electromagnetic wave propagation and consequently higher signal range. Experimental comparison using a PCB prototype with the corresponding simulation will be also shown.

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Section: Introductionmentioning

confidence: 99%