Faculty Publications
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Item A wideband, 25/40dBm high I/O power GaN HEMT ultra-low noise amplifier using even-odd mode techniques(Elsevier Ltd, 2022) Gupta, M.P.; Gorre, P.; Kumar, S.; Nulu, V.This paper presents a performance analysis of the low noise amplifier (LNA) for the first time using even-odd mode matching techniques in Gallium Nitride (GaN) HEMT Technology for marine communication. The proposed GaN LNA circuit consists of broadband stage I, main amplifier, and inverted broadband stage II, which provides a high input/output power, and ultra-low noise over wide bandwidth ranging from 0.5 GHz to 2.7 GHz with fractional impedance bandwidth of 138%. Broadband Stage I and Inverted broadband stage II are employed to provide input/output impedance matching transformation. The proposed LNA circuit with the incorporation of input/output broadband stages relax a 50Ω matching constraints and achieved high input and output power with good stability. The GaN HEMT LNA is analyzed and simulated using the RF simulator (ADS tool). The proposed GaN HEMT LNA is fabricated on RT Duroid substrate using Microwave Integrated Circuit (MIC) technology. The proposed LNA achieves a measured gain of 16 dB, while the simulated one is 17 dB with good insertion loss. An ultra-low noise figure of 0.6 dB flat is achieved over a wide bandwidth. In addition, the high output power is achieved 40dBm while input power is 25dBm which could overcome weak signal strength received by RF receiver for marine communication. A stability factor greater than one is achieved over a broad band ranging from 0.5 GHz to 2.7 GHz. The fabricated GaN HEMT LNA circuit has consumed power of 120 mW under a supply of 28 V. The area of the fabricated RF GaN HEMT LNA is 32 × 26 mm2. © 2022 Elsevier LtdItem A 0.15 μm GaN HEMT device to circuit approach towards dual-band ultra-low noise amplifier using defected ground bias technique(Elsevier GmbH, 2023) Gupta, M.P.; Kumar, S.; Elizabeth Caroline, B.; Song, H.; Kumar, V.; Gorre, P.This work presents a GaN HEMT device to circuit approach towards low noise amplifier (LNA) using defective ground bias (DGB) technique. This is the first MMIC GaN HEMT LNA design to offer dual-band of operation in both L and S-bands to the author's best knowledge. The proposed 0.15-μm GaN HEMT device fabrication achieves a high output power of 20 W using slot radiation phenomenon. The proposed DGB technique consists of gate and drain biasing topologies which achieves a dual-band of operation using microwave approach. The DGB technique is incorporated into GaN HEMT LNA which achieves high input and output power with good stability. To achieve an optimal noise, high I/O power, and almost flat gain at both L and S-bands, the defective ground structure of bias topologies is modeled and optimized. An artificial ground defect is created to offer resonant properties for the DGS of a microstrip line, which utilizes frequency-selective properties to improve the performance of the LNA circuit by suppressing the harmonics and scaling the size. The dedicated LNA shows the benefits of compact size, extremely low noise figure of 0.74/1.6 dB, high output power of 44 dBm and nearly flat gain of 14/11 dB at 1.17/2.49 GHz with the unique methodologies suggested. The compact GaN HEMT LNA could overcome the weak signal strength received by RF receiver for smart rail transport system. © 2023 Elsevier GmbHItem A new design approach of Rat-Race coupler based compact GaN HEMT power amplifier towards flat high efficiency over broadband(Elsevier GmbH, 2024) Gupta, M.P.; Kumar, S.; Naik Jatoth, D.; Gorre, P.; Song, H.This paper presents a high efficiency Rat-Race Coupler based compact GaN HEMT power amplifier (PA) design over broadband for high power transmitter in wireless communication. The rat-race coupler integrated PA Compact design is proposed for the first time as per author best knowledge. The design methodology used a higher order two open stubs and a rat-race coupler (RRC) at input/output sections to control harmonics impedances. The RRC is used to enhance the i/o power, and efficiency over broadband, which provides a good insertion loss, and consumes the least power and non-crucial impedance bandwidth for the normalized frequency band of interest. As a proof of concept, a PA is fabricated using a monolithic microwave integrated circuit (MMIC) 0.15 µm gallium nitride high electron mobility transistor (GaN HEMT) process. The measured result shows that the designed PA achieves a flat power added efficiency (PAE) of 65 % − 74 %, output power (Pout) of 44.8 dBm − 46 dBm, and drain efficiency (DE) of 72 % − 85 %, over a record wide frequency of 1.8 GHz − 3.6 GHz, which is the highest one among all reported harmonic tuned PAs. © 2024 Elsevier GmbH