Artículos de revistas: "Ultra-Miniaturized"

1

Chang, The-Nan y Shih-Yen Cheng. "Ultra Wide Miniaturized Printed Antenna". Electromagnetics 37, n.º 5 (19 de junio de 2017): 345–54. http://dx.doi.org/10.1080/02726343.2017.1330590.

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Ahmed Jamal, Abdullah Al-Gburi, Ibrahim Imran Mohd y Zakaria Zahriladha. "An Ultra-Miniaturized MCPM Antenna for Ultra-Wideband Applications". Journal of Nano- and Electronic Physics 13, n.º 5 (2021): 05012–1. http://dx.doi.org/10.21272/jnep.13(5).05012.

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Jung, E., A. Ostmann, D. Wojakowski, C. Landesberger, R. Aschenbrenner y H. Reichl. "Ultra thin chips for miniaturized products". Microsystem Technologies 9, n.º 6-7 (1 de septiembre de 2003): 449–52. http://dx.doi.org/10.1007/s00542-002-0264-9.

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4

Ding, Wen y Gaofeng Wang. "Miniaturized band-notched ultra-wideband antenna". Microwave and Optical Technology Letters 58, n.º 11 (29 de agosto de 2016): 2780–86. http://dx.doi.org/10.1002/mop.30141.

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5

Guo, Lu, Ming Min, Wenquan Che y Wanchen Yang. "A Novel Miniaturized Planar Ultra-Wideband Antenna". IEEE Access 7 (2019): 2769–73. http://dx.doi.org/10.1109/access.2018.2886799.

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6

Ye, Xin, Chao Shao, Zhijing Zhang, Jun Gao y Yang Yu. "An air-filled microgripper in microassembly system with coaxial alignment function". Assembly Automation 34, n.º 4 (9 de septiembre de 2014): 333–41. http://dx.doi.org/10.1108/aa-02-2014-019.

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Purpose – The purpose of this paper is to design a microgripper that can achieve nondestructive gripping of a miniaturized ultra-thin-walled cylindrical part. Design/methodology/approach – The microgripper is mainly made of an inflatable silica gel gasbag, which can minimize the damage to the part in the gripping process. This paper introduces the design principle of a flexible air-filled microgripper, which is applied in an in-house microassembly system with coaxial alignment function. Its parameters and performance specifications have been obtained by simulation, experiment demarcating. The results show that the microgripper is able to grasp an ultra-thin-walled part non-destructively. Findings – For the microgripper, finite element simulations and experiments were carried out, and both results indicate that the microgripper can achieve nondestructive gripping of a miniaturized ultra-thin-walled cylindrical part, with good stability, great grasping force and high repeat positioning accuracy. Originality/value – Gripping the ultra-thin-walled part may lead to deformation and destruction easily. It has been a big bottleneck hindering successful assembly. This article introduces a novel microgripper using an inflatable sac. The work is interesting from an industrial point of view for a specific category of assembly applications. It provides a theoretical guidance and technical support to design a microgripper for a miniaturized ultra-thin-walled part of different sizes.

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7

Mishra, N. y S. Beg. "A Miniaturized Microstrip Antenna for Ultra-wideband Applications". Advanced Electromagnetics 11, n.º 2 (12 de junio de 2022): 54–60. http://dx.doi.org/10.7716/aem.v11i2.1948.

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In this paper, the authors present an ultra-wideband (UWB) planar antenna with defected ground structure (DGS) for various wireless applications. The operating frequency of the proposed geometry is in the range of 3.1 to 10.6 GHz. The proposed compact geometry antenna is applicable for the UWB applications. In order to optimize the dimensions of the antenna, a parametric analysis has been performed. The measured S11 magnitude is less than -10 dB over the band, and it has an impedance bandwidth of 10.60 GHz. The designed UWB antenna gives maximum radiation efficiency and gain of 96.5% and 3.30 dBi, respectively. Also, it gives good time-domain characteristics over the entire resonating band. The designed UWB antenna is simple geometry, and it is applicable for numerous wireless applications.

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8

Rahman, MuhibUr y Muhammad Imran. "CPW Fed Miniaturized Tri-Notched Ultra-Wideband Antenna". Advanced Engineering Technology and Application 6, n.º 1 (1 de enero de 2017): 1–5. http://dx.doi.org/10.18576/aeta/060101.

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9

Wang, Z., A. Syed, S. Bhattacharya, X. Chen, U. Buttner, G. Iordache, K. Salama et al. "Ultra miniaturized InterDigitated electrodes platform for sensing applications". Microelectronic Engineering 225 (marzo de 2020): 111253. http://dx.doi.org/10.1016/j.mee.2020.111253.

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10

Yousaf, Muhammad, Ismail Ben Mabrouk, Muhammad Zada, Adeel Akram, Yasar Amin, Mourad Nedil y Hyoungsuk Yoo. "An Ultra-Miniaturized Antenna With Ultra-Wide Bandwidth Characteristics for Medical Implant Systems". IEEE Access 9 (2021): 40086–97. http://dx.doi.org/10.1109/access.2021.3064307.

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11

Lavery, Patrick, Murray J. B. Brown y Andrew J. Pope. "Simple Absorbance-Based Assays for Ultra-High Throughput Screening". Journal of Biomolecular Screening 6, n.º 1 (febrero de 2001): 3–9. http://dx.doi.org/10.1177/108705710100600102.

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In order to accommodate the predicted increase in screening required of successful pharmaceutical companies, miniaturized, high-speed HTS formats are necessary. Much emphasis has been placed on sensitive fluorescence techniques, but some systems, particularly enzymes interconverting small substrates, are likely to be refractory to such approaches. We show here that simple absorbance-based assays can be miniaturized to 10-,.d volumes in 1536- well microplates compatible with the requirements for ultra-high throughput screening. We demonstrate that, with low-cost hardware, assay performance is wholly predictable from the 2-fold decrease in pathlength for fully filled 1536-well plates compared to 96- and 384-well microplates. A number of enzyme systems are shown to work in this high-density format, and the inhibition parameters determined are comparable with those in standard assay formats. We also demonstrate the utility of kinetics measurements in miniaturized format with improvements in assay quality and the ability to extract detailed mechanistic information about inhibitors.

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12

Pla, D., M. Salleras, A. Morata, I. Garbayo, M. Gerbolés, N. Sabaté, N. J. Divins, A. Casanovas, J. Llorca y A. Tarancón. "Standalone ethanol micro-reformer integrated on silicon technology for onboard production of hydrogen-rich gas". Lab on a Chip 16, n.º 15 (2016): 2900–2910. http://dx.doi.org/10.1039/c6lc00583g.

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Ultra-compact miniaturized ethanol micro-reformers based on highly packed vertically-aligned silicon-through micro-channels were fabricated by mainstream micro technology for on board generation of hydrogen-rich fuel.

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13

Guo, Xueying, Yunsheng Xu y Weidong Wang. "Miniaturized Planar Ultra-Wideband Bandpass Filter with Notched Band". Journal of Computer and Communications 03, n.º 03 (2015): 100–105. http://dx.doi.org/10.4236/jcc.2015.33017.

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14

Alhawari, Adam Reda Hasan, Alyani Ismail, Mohamad Adzir Mahdi y Raja Syamsul Azmir Raja Abdullah. "Miniaturized Ultra-Wideband Antenna Using Microstrip Negative Index Metamaterial". Electromagnetics 31, n.º 6 (agosto de 2011): 404–18. http://dx.doi.org/10.1080/02726343.2011.590961.

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15

Fang, Wei-Ting, Tze-Hao Tseng y Yo-Shen Lin. "Miniaturized Ultra-Wideband Bandpass Filter Using Bridged-T Coil". IEEE Microwave and Wireless Components Letters 24, n.º 6 (junio de 2014): 367–69. http://dx.doi.org/10.1109/lmwc.2014.2310472.

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16

Annakamatchi, M., S. Arthireena y V. Keral Shalini. "Miniaturized Micro strip patch Antenna for Ultra Wideband Applications". Indian Journal of Science and Technology 11, n.º 20 (1 de mayo de 2018): 1–4. http://dx.doi.org/10.17485/ijst/2018/v11i20/123752.

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17

Yan, Mingbao, Shaobo Qu, Jiafu Wang, Hua Ma, Jieqiu Zhang, Wenjie Wang, Lin Zheng y Hangying Yuan. "A single layer ultra-miniaturized FSS operating in VHF". Photonics and Nanostructures - Fundamentals and Applications 17 (noviembre de 2015): 1–9. http://dx.doi.org/10.1016/j.photonics.2015.08.002.

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18

Dweiri, Yazan M., Thomas Eggers, Grant McCallum y Dominique M. Durand. "Ultra-low noise miniaturized neural amplifier with hardware averaging". Journal of Neural Engineering 12, n.º 4 (17 de junio de 2015): 046024. http://dx.doi.org/10.1088/1741-2560/12/4/046024.

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19

Qiao, Wei, Xi Gao, Xingyang Yu, Si Min Li, Yan-Nan Jiang y Hui-Feng Ma. "ULTRA-COMPACT MICROSTRIP ANTENNA ARRAY AND MINIATURIZED FEEDING NETWORK". Progress In Electromagnetics Research C 71 (2017): 111–22. http://dx.doi.org/10.2528/pierc16110602.

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20

Geng, Dongdong, Deqiang Yang, Hua Xiao, Yongpin Chen y Jin Pan. "A NOVEL MINIATURIZED VIVALDI ANTENNA FOR ULTRA-WIDEBAND APPLICATIONS". Progress In Electromagnetics Research C 77 (2017): 123–31. http://dx.doi.org/10.2528/pierc17071605.

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21

Baradaran Ghasemi, Amir H. y Hamid Latifi. "Miniaturized ultra-low loss subwavelength waveguide at terahertz frequency". Journal of Physics D: Applied Physics 49, n.º 15 (15 de marzo de 2016): 155104. http://dx.doi.org/10.1088/0022-3727/49/15/155104.

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22

Packiaraj, D., K. J. Vinoy, M. Ramesh y A. T. Kalghatgi. "Miniaturized ultra wide band filter with extended stop band". Microwave and Optical Technology Letters 55, n.º 4 (27 de febrero de 2013): 703–5. http://dx.doi.org/10.1002/mop.27462.

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23

Hu, Diwei, Huiqing Zhai, Longhua Liu, Junhao Shi, Zhenghang Nie, Sucheng Li y Yuanfang Shang. "A new miniaturized ultra‐wideband planar equiangular spiral antenna". Microwave and Optical Technology Letters 61, n.º 6 (27 de febrero de 2019): 1602–6. http://dx.doi.org/10.1002/mop.31774.

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24

Wu, Guojie, Haie Li, Hongxin Ye, Zhenfeng Gong, Junsheng Ma, Min Guo, Ke Chen, Wei Peng, Qingxu Yu y Liang Mei. "Ultra-High-Sensitivity, Miniaturized Fabry-Perot Interferometric Fiber-Optic Microphone for Weak Acoustic Signals Detection". Sensors 22, n.º 18 (14 de septiembre de 2022): 6948. http://dx.doi.org/10.3390/s22186948.

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An ultra-high-sensitivity, miniaturized Fabry-Perot interferometric (FPI) fiber-optic microphone (FOM) has been developed, utilizing a silicon cantilever as an acoustic transducer. The volumes of the cavity and the FOM are determined to be 60 microliters and 102 cubic millimeters, respectively. The FOM has acoustic pressure sensitivities of 1506 nm/Pa at 2500 Hz and 26,773 nm/Pa at 3233 Hz. The minimum detectable pressure (MDP) and signal-to-noise ratio (SNR) of the designed FOM are 0.93 μPa/Hz1/2 and 70.14 dB, respectively, at an acoustic pressure of 0.003 Pa. The designed FOM has the characteristics of ultra-high sensitivity, low MDP, and small size, which makes it suitable for the detection of weak acoustic signals, especially in the field of miniaturized all-optical photoacoustic spectroscopy.

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25

Slimani, Abdellatif, Saad Dosse Bennani, Ali El Alami y Jaouad Terhzaz. "Ultra Wideband Planar Microstrip Array Antennas for C-Band Aircraft Weather Radar Applications". International Journal of Antennas and Propagation 2017 (2017): 1–8. http://dx.doi.org/10.1155/2017/2346068.

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A miniaturized ultra wideband (UWB) planar array antennas for C-band aircraft weather RADAR applications is presented. Firstly, the effect of the ground plane is studied. Later, the realization and experimental validation of the geometry that has an UWB characteristic are discussed. This array antennas is composed of a twenty-four radiating element that is etched onto FR-4 substrate with an overall size of 162×100×1.58 mm3 and a dielectric constant of εr=4.4. The results show that this miniaturized array antennas gives us a bandwidth which is about 115% and a gain greater than 13 dB which are required in aircraft weather radar applications.

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26

Yang, Qingzhi, Kang Wang y Yufa Sun. "QUAD-PORT MINIATURIZED ULTRA-WIDEBAND MIMO ANTENNA WITH METAL VIAS". Progress In Electromagnetics Research Letters 97 (2021): 95–103. http://dx.doi.org/10.2528/pierl21020604.

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27

Abushakra, Feras, Nathan Jeong, Deepak N. Elluru, Abhishek K. Awasthi, Shriniwas Kolpuke, Tuan Luong, Omid Reyhanigalangashi, Drew Taylor y S. Prasad Gogineni. "A Miniaturized Ultra-Wideband Radar for UAV Remote Sensing Applications". IEEE Microwave and Wireless Components Letters 32, n.º 3 (marzo de 2022): 198–201. http://dx.doi.org/10.1109/lmwc.2021.3129153.

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28

Zhou, Liguo, Zhihe Long, Hui Li, Hang Wu, Tianliang Zhang y Man Qiao. "DESIGN OF ULTRA-NARROWBAND MINIATURIZED HIGH TEMPERATURE SUPERCONDUCTING BANDPASS FILTER". Progress In Electromagnetics Research Letters 76 (2018): 105–11. http://dx.doi.org/10.2528/pierl18021004.

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29

Abu, Maisarah, Nurul Hafiza Izahar, Najimiah Radiah Mohamad, Adib Othman, N. A. M. Aris, Nur Afiqah Aziz y Teng Hwang Tan. "Miniaturized Implantable Ultra-Wideband Antenna with Bio-Compatible Substrate Material". Applied Mechanics and Materials 850 (agosto de 2016): 71–76. http://dx.doi.org/10.4028/www.scientific.net/amm.850.71.

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Ultra-wideband (UWB) technology was nowadays increased in interest for various applications due to its distinctive characteristics where it able to carry signals passes through obstacles unlikely narrow-band frequency that tends to reflect the signal. Through this paper, a design of miniaturized implantable UWB antenna utilizing various bio-compatible materials is studied. These materials are to be compared and determined the best material to be used for the design in terms of its return loss, center frequency, bandwidth, antenna gain and total efficiency. The antenna is designed in a structure of circular-ring with slit patch antenna using CPW profile with dimension of 10×10 mm2. As for the materials used in this study are Silicon, PDMS and Teflon PTFE. Each of this substrate has a thickness of 0.5 mm, 2.5 mm, and 1.5 mm correspondingly. After comparing these three materials, the one that gives the best result is Teflon PTFE with return loss at 11.91 GHz and 5.58 GHz bandwidth that covers from 9.16 GHz to 17.74 GHz frequency range. The antenna gives out total gain and efficiency of 2.54 dB and 86.5% respectively.

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30

Yang, Deqiang, Sihao Liu y Dongdong Geng. "A Miniaturized Ultra-Wideband Vivaldi Antenna With Low Cross Polarization". IEEE Access 5 (2017): 23352–57. http://dx.doi.org/10.1109/access.2017.2766184.

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31

Sghir, Elmahjouby, Ahmed Errkik, Jamal Zbitou, Otman Oulhaj, Ahmed Lakhssassi y Mohamed Latrach. "Miniaturized ultra-wideband coplanarwaveguide lowpass filter with extended stop band". Indonesian Journal of Electrical Engineering and Computer Science 19, n.º 3 (1 de septiembre de 2020): 1415. http://dx.doi.org/10.11591/ijeecs.v19.i3.pp1415-1419.

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<p class="Default">In this article, we propose a novel design of large rejected band of miniaturized ultra wide band (UWB) of a planar CPW low pass filter “LPF” based on the use of periodic elements of ‘e’ slots. The goal of this work is to develop a new structure of Low Pass Filter with the following criterion: Miniature, Compact and Easy for Fabrication. The Miniaturization of this structure is achieved by entering the 'e' slot in etching area in the ground of CPW line, to save the standard gap of the adapted coplanar line. The designed coplanar LPF is a compact filter having a large band pass and extended stop band, with the possibility to associate easily with others RF and microwave planar circuits. The entire area of the proposed structure of CPW LPF is 14.3x20 mm<sup>2</sup>.</p>

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32

Shrestha, Bhanu y Changho Seo. "ULTRA-MINIATURIZED MICROSTRIP RESONATOR BANDPASS FILTER FOR Ku-BAND APPLICATIONS". Far East Journal of Electronics and Communications 17, n.º 4 (28 de junio de 2017): 775–80. http://dx.doi.org/10.17654/ec017040775.

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33

Yin, Weiyang, Hou Zhang, Tao Zhong y Xueliang Min. "Ultra-Miniaturized Low-Profile Angularly-Stable Frequency Selective Surface Design". IEEE Transactions on Electromagnetic Compatibility 61, n.º 4 (agosto de 2019): 1234–38. http://dx.doi.org/10.1109/temc.2018.2881161.

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34

Sen, Gobinda, Amartya Banerjee, S. Nurul Islam y Santanu Das. "Ultra-thin miniaturized metamaterial perfect absorber for X-band application". Microwave and Optical Technology Letters 58, n.º 10 (27 de julio de 2016): 2367–70. http://dx.doi.org/10.1002/mop.30048.

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35

Chen, Gengliang, Cong Guo, Jincheng Xue, Zhuopeng Wang y Mingxiang Pang. "Miniaturized Metamaterial Ultra-wideband Antenna for WLAN and Bluetooth Applications". Progress In Electromagnetics Research C 132 (2023): 117–27. http://dx.doi.org/10.2528/pierc23030603.

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36

Wang, Yang, Xiao-Yu Zhang, Fu-Xing Liu, Chun-He Quan y Jong-Chul Lee. "A miniaturized rat-race coupler with ultra-wideband harmonic suppression". Microwave and Optical Technology Letters 60, n.º 8 (15 de junio de 2018): 1960–63. http://dx.doi.org/10.1002/mop.31283.

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37

Choi, Se-Hwan, Ho-Jun Lee y Jong-Kyu Kim. "Design of miniaturized ultra-wideband antennas with band notch characteristic". Microwave and Optical Technology Letters 51, n.º 3 (marzo de 2009): 717–20. http://dx.doi.org/10.1002/mop.24190.

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38

Wang, Haochuan, Qian Ma, Keming Chen, Hanqing Zhang, Yinyan Yang, Nenggan Zheng y Hui Hong. "An Ultra-Low-Noise, Low Power and Miniaturized Dual-Channel Wireless Neural Recording Microsystem". Biosensors 12, n.º 8 (8 de agosto de 2022): 613. http://dx.doi.org/10.3390/bios12080613.

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As the basic tools for neuroscience research, invasive neural recording devices can obtain high-resolution neuronal activity signals through electrodes connected to the subject’s brain. Existing wireless neural recording devices are large in size or need external large-scale equipment for wireless power supply, which limits their application. Here, we developed an ultra-low-noise, low power and miniaturized dual-channel wireless neural recording microsystem. With the full-differential front-end structure of the dual operational amplifiers (op-amps), the noise level and power consumption are notably reduced. The hierarchical microassembly technology, which integrates wafer-level packaged op-amps and the miniaturized Bluetooth module, dramatically reduces the size of the wireless neural recording microsystem. The microsystem shows a less than 100 nV/Hz ultra-low noise level, about 10 mW low power consumption, and 9 × 7 × 5 mm3 small size. The neural recording ability was then demonstrated in saline and a chronic rat model. Because of its miniaturization, it can be applied to freely behaving small animals, such as rats. Its features of ultra-low noise and high bandwidth are conducive to low-amplitude neural signal recording, which may help advance neuroscientific discovery.

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39

Chang, Tae-Soon y Sang-Won Kang. "Study on miniaturization of planar monopole antenna with parabolic edge shape with a notch slot". International Journal of Microwave and Wireless Technologies 9, n.º 3 (17 de febrero de 2016): 607–11. http://dx.doi.org/10.1017/s1759078716000064.

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This paper proposes a planar monopole antenna with a parabolic edge shape. This antenna, which has notch characteristics in the wireless local area network (WLAN) band, can be miniaturized. To obtain the notch characteristics in the WLAN band, a slot with a parabolic edge shape identical to that of the monopole structure was implemented. Because the planar monopole antenna with a parabolic edge shape possesses characteristics similar to those in self-complementary structure conditions, it can be miniaturized by reducing the antenna components at the same proportion. For the antenna fabrication, an FR4 dielectric substrate with a dielectric constant of 4.7 was used. The size of the miniaturized antenna that satisfies the ultra-wide band requirement was 15.6 × 18.6 mm2, and the 10-dB band was 3.013–12.515 GHz. At each frequency, the radiation pattern was similar to that of a dipole antenna.

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40

Chen, Biao, Bian Wu, Yu-Tong Zhao, Tao Su y Yi-Feng Fan. "Via-based miniaturized rasorber using graphene films". Journal of Applied Physics 131, n.º 21 (7 de junio de 2022): 214504. http://dx.doi.org/10.1063/5.0091654.

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In this work, we present a miniaturized wideband rasorber with good angular stability using via-based metal–graphene structure. The rasorber consists of a compact lossy layer, a frequency-selective surface layer, and an air spacer in the middle. The metal–graphene structure in the lossy layer achieves a tiny period due to multiple metal vias connected with meander lines and open stubs. The graphene resistive films printed on the surface by screen-printing technology realize omnidirectional planar resistors for broadband absorption. The 1-dB transmission band of the rasorber is from 7.27 to 8.01 GHz and the 10-dB reflection band is from 2.54 to 8.58 GHz. Due to its miniaturized unit cell, both the transmission and absorption performance is stable with a large-angle incident wave. The ultra-miniaturized rasorber is fabricated and measured, which demonstrates a wide bandwidth of 108.6% and a small period of 0.05[Formula: see text] with great angular stability, making it a good candidate for bi-station stealth radome applications.

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41

Dunn, D., M. Orlowski, P. McCoy, F. Gastgeb, K. Appell, L. Ozgur, M. Webb y J. Burbaum. "Ultra-High Throughput Screen of Two-Million-Member Combinatorial Compound Collection in a Miniaturized, 1536-Well Assay Format". Journal of Biomolecular Screening 5, n.º 3 (junio de 2000): 177–87. http://dx.doi.org/10.1177/108705710000500310.

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Results of a complete survey of the more than 2-million-member Pharmacopeia compound collection in a 1536-well microvolume screening assay format are reported. A complete technology platform, enabling the performance of ultra-high throughput screening in a miniaturized 1536-well assay format, has been assembled and utilized. The platform consists of tools for performing microvolume assays, including assay plates, liquid handlers, optical imagers, and data management software. A fluorogenic screening assay for inhibition of a protease enzyme target was designed and developed using this platform. The assay was used to perform a survey screen of the Pharmacopeia compound collection for active inhibitors of the target enzyme. The results from the survey demonstrate the successful implementation of the ultra-high throughout platform for routine screening purposes. Performance of the assay in the miniaturized format is equivalent to that of a standard 96-well assay, showing the same dependence on kinetic parameters and ability to measure enzyme inhibition. The survey screen identified an active class of compounds within the Pharmacopeia compound collection. These results were confirmed using a standard 96-well assay.

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42

Shukla, Rishi, Neev Kiran, Rui Wang, Jeremy Gummeson y Sunghoon Ivan Lee. "Enabling Batteryless Wearable Devices by Transferring Power Through The Human Body". GetMobile: Mobile Computing and Communications 24, n.º 3 (22 de enero de 2021): 30–34. http://dx.doi.org/10.1145/3447853.3447863.

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Over the past few decades, we have witnessed tremendous advancements in semiconductor and MEMS technologies, leading to the proliferation of ultra-miniaturized and ultra-low-power (in micro-watt ranges) wearable devices for wellness and healthcare [1]. Most of these wearable sensors are battery powered for their operation. The use of an on-device battery as the primary energy source poses a number of challenges that serve as the key barrier to the development of novel wearable applications and the widespread use of numerous, seamless wearable sensors [5].

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43

Yeo, Junho y Jong-Ig Lee. "Miniaturized Wideband Loop Antenna Using a Multiple Half-Circular-Ring-Based Loop Structure and Horizontal Slits for Terrestrial DTV and UHD TV Applications". Sensors 21, n.º 9 (21 de abril de 2021): 2916. http://dx.doi.org/10.3390/s21092916.

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A miniaturized wideband loop antenna for terrestrial digital television (DTV) and ultra-high definition (UHD) TV applications is proposed. The original wideband loop antenna consists of a square loop, two circular sectors to connect the loop with central feed points, and a 75 ohm coplanar waveguide (CPW) feed line inserted in the lower circular sector. The straight side of the square loop is replaced with a multiple half-circular-ring-based loop structure. Horizontal slits are appended to the two circular sectors in order to further reduce the antenna size. A tapered CPW feed line is also employed in order to improve impedance matching. The experiment results show that the proposed miniaturized loop antenna operates in the 460.7–806.2 MHz frequency band for a voltage standing wave ratio less than two, which fully covers the DTV and UHD TV bands (470–771 MHz). The proposed miniaturized wideband loop antenna has a length reduction of 21.43%, compared to the original loop antenna.

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44

Nagaraju, V., R. Rajeswari, L. FranklinTelfer, A. Karunakaran y B. R. TapasBapu. "Design of miniaturized directional ultra wide band antenna for cancer detection". International Journal of RF Technologies 10, n.º 3-4 (5 de diciembre de 2019): 105–13. http://dx.doi.org/10.3233/rft-190206.

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45

Fujimoto, Masayuki. "Development of Ultra-miniaturized Multilayer Ceramic Chip Components and Multilayer Module." Journal of the Japan Society of Powder and Powder Metallurgy 49, n.º 3 (2002): 203–10. http://dx.doi.org/10.2497/jjspm.49.203.

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Zhang, Liang, Shijie Huang, Zhi-Xiang Huang, Changqing Liu, Chao Wang, Zhiwei Wang, Xingchuan Yu y Xian-Liang Wu. "MINIATURIZED NOTCHED ULTRA-WIDEBAND ANTENNA BASED ON EBG ELECTROMAGNETIC BANDGAP STRUCTURE". Progress In Electromagnetics Research Letters 91 (2020): 99–107. http://dx.doi.org/10.2528/pierl20041005.

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Hitzemann, Moritz, Ansgar T. Kirk, Martin Lippmann, Alexander Bohnhorst y Stefan Zimmermann. "Miniaturized Drift Tube Ion Mobility Spectrometer with Ultra-Fast Polarity Switching". Analytical Chemistry 94, n.º 2 (5 de enero de 2022): 777–86. http://dx.doi.org/10.1021/acs.analchem.1c03268.

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Fakharzadeh, M., O. M. Ramahi, S. Safavi-Naeini y S. K. Chaudhuri. "Design and Analysis of Ultra-Miniaturized Meandering Photonic Crystals Delay Lines". IEEE Transactions on Advanced Packaging 31, n.º 2 (mayo de 2008): 311–19. http://dx.doi.org/10.1109/tadvp.2008.916284.

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Kim, Min Suk, Markondeya Raj Pulugurtha, Youngwoo Kim, Gapyeol Park, Kyungjun Cho, Vanessa Smet, Venky Sundaram, Joungho Kim y Rao Tummala. "Miniaturized and high-performance RF packages with ultra-thin glass substrates". Microelectronics Journal 77 (julio de 2018): 66–72. http://dx.doi.org/10.1016/j.mejo.2018.05.002.

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Karimi, Gh, A. Golestanifar, A. Ghaderi y N. Salimpour. "Ultra Sharp Transition-Band LPF with Miniaturized Size for GSM Applications". Radioengineering 27, n.º 2 (15 de junio de 2018): 425–30. http://dx.doi.org/10.13164/re.2018.0425.

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