Th a number of the finest outcomes obtainable in the current literature. As pointed out

April 18, 2022

Th a number of the finest outcomes obtainable in the current literature. As pointed out in the introduction, discussing absolute raw efficiency was not the object of this paper. When thinking of the FAR as a stand-alone rectifier solution, the energy efficiency was equivalent to Switch-only, which was a lot reduce than the SSHI or SSHC systems referenced within the table. Therefore, the PIC was decrease compared to the state-of-the-art. Nonetheless, the FAR operated with an open circuit VOC of only 1 V whilst the newest systems usually possess a bigger VOC . Consequently, in comparison to a conventional diode-based FBR, the output energy ratio of FAR was substantially larger, and above all, helped hold energy efficiency as the load constraint elevated.Table 2. FAR performance in comparison with the state-of-the-art architectures.Reference CMOS procedure Power Harvesting Approach PT model C peh f ex ^ VOC PIC(a)JSSC [3] 0.35 SSHC Mide V21BL 45 nF 92 Hz two.five V 161.8 two.7.(a)ISSCC [2] 0.18 SPFCR Mide PPA1021 22 nF 200 Hz 1.6 V 64 9.ISSCC [31] 40 nm SECE Mide PPA1011 43 nF 75.four Hz two.85 V 82.six three.JSCC [17] 0.35 SSHI Mide V22B 18 nF 225 Hz two.four V 56This Operate 0.35 SSHC Dansyl Technical Information S118-J12S-1808YB 100 nF one hundred Hz 1V 19.1 11.MOPIRPIC: maximum output Energy on the Interface Circuit.4. Conclusions This paper reported on a uncomplicated concept of voltage flip enhancement for piezoelectric energy harvesting. A thorough evaluation in the energy overall performance revealed that, in addition to the enhance impact around the voltage flip, the FAR principle also helped boost the energy efficiency of your PEH, particularly because the load constraint increased. The FAR could be utilized as a totally integrated standalone rectifier remedy, and is specifically well suited for low-voltage operation. Yet, it may also be regarded as an further boost remedy to enhance theElectronics 2021, 10,17 ofperformance of far more a complex PEH architecture like SSHI or SSHC. Experimental benefits performed on a CMOS prototype confirmed that, under load constraint, the FAR principle achieved improved performance when compared with Switch-only, and is far more robust against circuit non-idealities. These conclusive benefits opened fascinating analysis perspectives that we’re at the moment functioning on, consisting of combining the FAR principle with SSHI or SSHC to improve each voltage flip and power efficiency.Author Contributions: Conceptualization, V.F., L.W.; methodology, V.F., E.J.; sources, V.F., L.W., E.J.; writing–original draft, V.F.; writing–review and editing, V.F., E.J. All authors have study and agreed to the published version of your manuscript. Funding: This investigation was funded by the Agence Nationale de la Recherche: ANR-18-CE09-0033. Conflicts of Interest: The authors declare no conflict of interest.
electronicsArticleA Novel Inductor for Stabilizing the DC Link of Adjustable Speed DriveQian Wang 1 , Bingyang Luo two, , Jun Wang three , Zhe Kong 2 and Feng Liu1Department of Energy, Aalborg University, 9220 Aalborg, Denmark; [email protected] College of Automation, Wuhan University of Technology, Wuhan 430000, China; [email protected] (Z.K.); [email protected] (F.L.) Wuhan Branch of China Classification Society (CCS), Wuhan 430000, China; Saracatinib Protocol [email protected] Correspondence: [email protected]: Wang, Q.; Luo, B.; Wang, J.; Kong, Z.; Liu, F. A Novel Inductor for Stabilizing the DC Hyperlink of Adjustable Speed Drive. Electronics 2021, ten, 2401. https://doi.org/10.3390/ electronics10192401 Academic Editor: M. Tariq Iqbal Received: 20 September 2021 Accepted: 28 September 2021.