Marwa Mansour | Topology | Best Researcher Award

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Dr. Marwa Mansour | Topology | Best Researcher Award

Researcher at Electronics Research Institute (ERI), Egypt

Dr. Marwa Mansour is a dedicated researcher in the Microelectronics Department at the Electronics Research Institute (ERI) in Cairo, Egypt. With a Ph.D. in Electronics and Communications Engineering from Ain Shams University, her expertise lies in RF transceiver design using CMOS technology and energy harvesting systems. Her research spans active and passive circuit designs, including power amplifiers, voltage-controlled oscillators, low-noise amplifiers, mixers, and phase-locked loops, with applications in 5G and millimeter-wave communications. She has collaborated on projects at the American University in Cairo and ERI, contributing to advancements in CMOS technology. Dr. Mansour has an extensive publication record in high-impact journals and IEEE awards, reflecting her significant contributions to the field. She is proficient in circuit and electromagnetic simulation tools like Cadence, ADS, HFSS, and CST Microwave Studio. With strong technical acumen and collaborative skills, she continues to push the boundaries of RF and energy-efficient electronic design.

Professional Profile 

Scopus Profile
ORCID Profile

Education

Dr. Marwa Mansour earned her Ph.D. in Electronics and Communications Engineering from Ain Shams University, Egypt, where she specialized in RF transceiver design using CMOS technology. Her academic journey was marked by a strong foundation in microelectronics, circuit design, and wireless communication systems. She completed her master’s and bachelor’s degrees at the same institution, focusing on semiconductor devices, analog and digital circuit design, and energy-efficient electronics. Throughout her education, she demonstrated exceptional analytical and problem-solving skills, leading to her expertise in developing high-performance RF and millimeter-wave circuits. Her doctoral research significantly contributed to advancements in energy harvesting and low-power transceiver designs, making her a recognized expert in the field. With a commitment to lifelong learning, she has attended various technical workshops and advanced training programs to stay updated on emerging trends in microelectronics, solidifying her position as a leading researcher in CMOS-based RF system design.

Professional Experience

Dr. Marwa Mansour is a researcher in the Microelectronics Department at the Electronics Research Institute (ERI) in Cairo, Egypt. She has worked extensively on RF circuit design, CMOS technology, and energy harvesting systems, contributing to cutting-edge advancements in microelectronics. She has collaborated with the American University in Cairo on multiple research projects, focusing on integrated circuit design and high-frequency applications. Her role at ERI involves designing, simulating, and fabricating RF transceivers, power amplifiers, mixers, and low-noise amplifiers for 5G and millimeter-wave communication systems. She is proficient in industry-standard tools such as Cadence, ADS, HFSS, and CST Microwave Studio, which she employs in her research. Dr. Mansour has also mentored students and young researchers, sharing her knowledge and expertise in semiconductor technology and RF circuit design. Her contributions have not only advanced ERI’s research capabilities but have also strengthened Egypt’s presence in the global microelectronics research community.

Research Interest

Dr. Marwa Mansour’s research interests focus on RF transceiver design, energy-efficient electronic systems, and CMOS-based microelectronics. She specializes in the development of active and passive RF circuits, including power amplifiers, voltage-controlled oscillators, low-noise amplifiers, and phase-locked loops. Her work extends to energy harvesting technologies, aiming to enhance the sustainability and efficiency of wireless communication systems. She is particularly interested in millimeter-wave and 5G applications, exploring innovative circuit design techniques to improve performance and power efficiency. Dr. Mansour is also engaged in antenna-integrated CMOS systems, leveraging her expertise in electromagnetic simulation and circuit optimization. Her interdisciplinary research combines circuit design, signal processing, and semiconductor physics, driving advancements in high-frequency communication technologies. With a passion for innovation, she continuously explores new frontiers in RF and microwave engineering, aiming to contribute to the development of next-generation wireless systems and energy-autonomous electronic devices.

Awards and Honors

Dr. Marwa Mansour has received several awards and recognitions for her contributions to RF and CMOS circuit design. She has been honored for her research publications in high-impact journals and IEEE awards, showcasing her expertise in RF microelectronics. She has also been a recipient of research grants and fellowships that have supported her work in energy-efficient RF system development. Her collaborations with prestigious institutions like the American University in Cairo have further highlighted her excellence in the field. Dr. Mansour has been recognized for her role in mentoring students and young researchers, contributing to knowledge dissemination in microelectronics and RF engineering. She has actively participated in international awards, where she has received accolades for her innovative research presentations. Her outstanding contributions to circuit design and energy harvesting technologies continue to earn her recognition as a leading researcher in the field of RF and wireless communication systems.

Conclusion

Dr. Marwa Mansour is a highly skilled researcher in RF transceiver design, CMOS technology, and energy-efficient electronic systems. With a strong academic background, she has made significant contributions to microelectronics, particularly in developing advanced RF circuits for 5G and millimeter-wave applications. Her professional experience at the Electronics Research Institute (ERI) and collaborations with leading institutions reflect her expertise and dedication to advancing wireless communication technologies. Through her research in energy harvesting and low-power transceiver design, she continues to address critical challenges in RF and microwave engineering. Recognized for her academic and professional excellence, she has received multiple awards and honors for her contributions to the field. Dr. Mansour’s passion for innovation and mentorship further solidifies her role as a leader in the microelectronics research community. With her continued efforts, she remains at the forefront of cutting-edge RF system design and the future of energy-efficient wireless technologies.

Publications Top Noted

  • A mm‐Wave Power VCO and Frequency Doubler Based on Class‐C Architecture Using 130 nm CMOS Technology

    • Authors: Marwa Mansour, Islam Mansour
    • Year: 2025
    • Source: International Journal of Circuit Theory and Applications

  • Battery‐free ultra‐low‐power radio‐frequency receiver for mm‐wave applications using 130‐nm CMOS technology with harvested DC supplies

    • Authors: Marwa Mansour, Islam Mansour
    • Year: 2024
    • Source: International Journal of Circuit Theory and Applications

  • Comprehensive study of Class‐E/F2 and inverse Class‐F power amplifiers for mm‐Wave systems utilizing 130 nm CMOS process

    • Authors: Marwa Mansour, Islam Mansour
    • Year: 2024
    • Source: International Journal of Circuit Theory and Applications

  • Comprehensive review and study for the CMOS transformer tank voltage‐controlled oscillator

    • Authors: Marwa Mansour, Islam Mansour
    • Year: 2024
    • Source: International Journal of Circuit Theory and Applications

  • Low-Power Energy Harvesting Voltage Doubler Using CTLs Based on Inverse Class-F Configuration Compatible with Fifth Generation

    • Authors: Marwa Mansour
    • Year: 2024
    • Source: Circuits, Systems, and Signal Processing

  • A mm-Wave Radio Frequency Power Amplifier based on Transformers Coupling and 2nd Harmonic Termination Network using 130 nm CMOS Technology for 5G Applications

    • Authors: Mina Kamal, Marwa Mansour, Sherif Hekal, Abdelhalim Zekry
    • Year: 2023
    • Source: Preprint

  • Class‐F power oscillator based on complementary split ring resonator for sub‐6 GHz fifth generation and multistandard applications

    • Authors: Marwa Mansour, Islam Mansour, Mohamed Aboualalaa
    • Year: 2023
    • Source: International Journal of Circuit Theory and Applications

  • A 2 × 2 Array Antenna for Multi-band Energy Harvesting for Biomedical Sensing Applications

    • Authors: Nebras Sobahi, Reda Ghoname, Marwa Mansour, Abdelhalim Zekry
    • Year: 2022
    • Source: Book Chapter

  • K-band low phase noise Class-C VCOs using DGS inductor in CMOS technology

    • Authors: Islam Mansour, Marwa Mansour, Mohamed Aboualalaa
    • Year: 2022
    • Source: Microelectronics Journal