Design of 2MHz OOK transmitter/receiver for inductive power and data transmission for biomedical implant

Boutahiri, Abdelali El; Ouremchi, Mounir; Rahali, Ahmed; Alaoui, Mustapha El; Farah, Fouad; Khadiri, Karim El; Tahiri, Ahmed; Qjidaa, Hassan

doi:10.11591/ijece.v9i4.pp2779-2787

Cited by 3 publications

(2 citation statements)

References 16 publications

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“…The basic topology of a voltage regulator is shown in Figure 8. It consists of on OTA, tow regulation resistances and a voltage reference to generate a regulated voltage [10].…”

Section: Regulatormentioning

confidence: 99%

Design of new power generating circuit for passive UHF RFID tag

Boutahiri¹,

Ouremchi²,

Rahali³

et al. 2019

IJPEDS

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In this paper, we propose a new power generating circuit for passive ultra high frequency (UHF) RFID tag. The proposed power generating circuit consists of a RF limiter, a high power efficiency and high sensitivity full wave radio frequency (RF) wave rectifier and a low-power regulator with NMOS diodes work like a DC-limiter. The design method proposed in this study use one low drop out (LDO) regulator to provide tow output stable supply voltages vdd1 of value 1V for the digital section supply, and vdd2 of value 0.5V for the analog front-end section power supply. The proposed power generating circuit is optimized in terms of power consumption of RFID tag system to have a high operating range under conditions of 50 Ohm antenna, -24 dBm input RF power, 900MHz and 1 M DC, with low power dissipation and 29.15% large power conversion efficiency. The power generating circuit was designed, simulated and layouted in Cadence using TSMC 180 nm technology. The final design occupies approximately 0.25mm<sup>2</sup>.

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“…The basic topology of a voltage regulator is shown in Figure 8. It consists of on OTA, tow regulation resistances and a voltage reference to generate a regulated voltage [10].…”

Section: Regulatormentioning

confidence: 99%

Design of new power generating circuit for passive UHF RFID tag

Boutahiri¹,

Ouremchi²,

Rahali³

et al. 2019

IJPEDS

Self Cite

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“…The whole concept is to recharge the battery of the robot while it's in motion using WPT system. The robot will navigate in a preplanned path, the power supply is fed to the multiple transmitter coils that are present in the track [20]- [23]. There is rectifier circuit present on the robot which converts and it uses the source to charge a battery, while the other battery powers the robot.…”

Section: Introductionmentioning

confidence: 99%

Wireless power transmission of mobile robot for target tracking

Krithika

Nandhini

Subramani

et al. 2022

IJPEDS

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<span lang="EN-US">The system is novel approach to combine wireless power transmission system (WPT) and automated guided vehicle (AGV). The wireless power transfer for charging the mobile robot is implemented using inductive coupling method. The system setup consists of transmitter coils whose switching action is controlled through transistors, receiver coil connected to full ridge rectifier and mobile robot. The track consists of number of transmitter coil which transmits power in form of electromagnetic waves. The receivers in the robot, which receives these waves and converts it back to electric power to charge the battery. The robot tracks its target destination based on the user command from the smart phone through Bluetooth. Very few theoretical researches are available on this field. A prototype was developed and tested based on the researches. The system achieves good range but falls short in efficiency to charge a battery, charging of battery takes longer time than regular charging time. Further research and extensive exploration can bring this technology from theory to practice.</span>

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