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Journal articles on the topic 'Low-power application'

Author: Grafiati
Published: 4 June 2021
Last updated: 6 February 2022

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1

Sakellariou, Panagiotis, and Vassilis Paliouras. "Application-Specific Low-Power Multipliers." IEEE Transactions on Computers 65, no. 10 (October 1, 2016): 2973–85. http://dx.doi.org/10.1109/tc.2016.2516016.

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2

De, S., D. Banerjee, K. Siva kumar, K. Gopakumar, R. Ramchand, and C. Patel. "Multilevel inverters for low-power application." IET Power Electronics 4, no. 4 (2011): 384. http://dx.doi.org/10.1049/iet-pel.2010.0027.

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3

Cai, Wei, Cheng Li, and Heng Gu. "LOW POWER SI-BASED POWER AMPLIFIER FOR HEALTHCARE APPLICATION." International Journal of Pharmacy and Pharmaceutical Sciences 8, no. 9 (September 1, 2016): 307. http://dx.doi.org/10.22159/ijpps.2016v8i9.12141.

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<p><strong>Objective: </strong>The objective of this research was to design a 2.4 GHz class B Power Amplifier (PA), with 0.18um Semiconductor Manufacturing International Corporation (SMIC) CMOS technology by using Cadence software, for health care applications. The ultimate goal for such application is to minimize the trade-offs between performance and cost, and between performance and low power consumption design.</p><p><strong>Methods: </strong>This paper introduces the design of a 2.4GHz class B power amplifier designed as dual gate topology. This class B power amplifier could transmit 26dBm output power to a 50Ω load. The power added efficiency was 60% minimum and the power gain was 90dB, the total power consumption was 6.9 mW.</p><p><strong>Results:</strong> Besides, accurate device modeling, is needed, due to the leakage and process variations.</p><p><strong>Conclusion</strong>:<strong> </strong>The performance of the power amplifier meets the specification requirements of the desired.</p>
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4

Sonthong, Patawee, Natthaphon Phokhaphan, Parnhatai Buasri, and Krit Choeisai. "Single Phase Low-Cost Inverter for Low Power Application." Advanced Materials Research 931-932 (May 2014): 899–903. http://dx.doi.org/10.4028/www.scientific.net/amr.931-932.899.

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This paper presents a full-bridge MOSFETs driver circuit which can be operated in PWM mode. The proposed circuit consists of capacitors, resistors and, diodes. The input signals for the proposed driver do not need external dead-time generator circuit because the dead-time generator is already integrated into the proposed full-bridge driver. The experimental results show that the proposed full-bridge driver circuit can be operated at 4 kHz sinusoidal PWM at 315 volt DC link. The power output of prototype inverter is 45 watt.
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Więcek, Bogusław, and Sebastian Urbaś. "Development of Low-Resolution, Low-Power and Low-Cost Infrared System." Pomiary Automatyka Robotyka 25, no. 2 (June 30, 2021): 47–52. http://dx.doi.org/10.14313/par_240/47.

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The article presents the construction of a thermal imaging camera with low power consumption. The 80 × 80 Micro80Gen2 microbolometric array of detectors records infrared radiation in the LWIR spectral range (long infrared wave, 8–12 µm). The entire digital part of the electronic circuit has been integrated within the reprogrammable FPGA chip from the Spartan 6 family. In order to read and display thermograms, an application for the .NetFremework 3.1 platform, which implements non-uniformity correction (NUC) and image processing, is written. Due to its low cost, small size and weight, the camera can be used in various applications, e.g. in unmanned aerial vehicles (UAV) known as drones.
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6

Sinyakin, V. Yu, M. O. Makeev, and S. A. Meshkov. "RTD application in low power UHF rectifiers." Journal of Physics: Conference Series 741 (August 2016): 012160. http://dx.doi.org/10.1088/1742-6596/741/1/012160.

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7

Wang, P. F., K. Hilsenbeck, Th Nirschl, M. Oswald, Ch Stepper, M. Weis, D. Schmitt-Landsiedel, and W. Hansch. "Complementary tunneling transistor for low power application." Solid-State Electronics 48, no. 12 (December 2004): 2281–86. http://dx.doi.org/10.1016/j.sse.2004.04.006.

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8

., Santosh K. Verma. "DESIGN OF TRANSFORMER LESS POWER SUPPLY FOR LOW POWER APPLICATION." International Journal of Research in Engineering and Technology 04, no. 04 (April 25, 2015): 278–82. http://dx.doi.org/10.15623/ijret.2015.0404047.

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9

Mijovic, Stefan, Andrea Stajkic, Riccardo Cavallari, and Chiara Buratti. "Low Power Listening in BAN." International Journal of E-Health and Medical Communications 5, no. 4 (October 2014): 52–66. http://dx.doi.org/10.4018/ijehmc.2014100104.

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This paper presents an implementation of a Low Power Listening-based (LPL) Medium Access Control (MAC) protocol on a platform for Body Area Network (BAN) applications. LPL exploits the transmission of a burst of short packets, called preambles, to synchronize the transmitter and the receiver. In this way, devices are able to spend most of the time in sleeping mode, providing longer lifetime and energy saving. Experiments on the field have been conducted by considering different scenarios and results, in terms of average energy consumed per packet transmitted/received, packet loss rate, average delay and network throughput, have been investigated. Conclusions regarding the proper parameters setting depending on the application requirements were derived. This work has been performed in the framework of the FP7 Integrated Project, WiserBAN.
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10

Wu, Xiang, and Fang Ming Deng. "A Capacitive Humidity Sensor for Low-Cost Low-Power Application." Applied Mechanics and Materials 556-562 (May 2014): 1847–51. http://dx.doi.org/10.4028/www.scientific.net/amm.556-562.1847.

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This paper presents a capacitive humidity sensor in CMOS technology. The humidity sensor element is implemented in standard CMOS technology without any further post-processing, which results in low fabrication cost. The sensor interface employs a fully-digital architecture based on phase locked loop, which results in low pow dissipation. The proposed humidity sensor is fabricated in TSMC 0.18μm CMOS process and the chip occupies an area of 0.05mm2. The measurement result shows that the sensor value exhibits good linearity within the range of 10-90%RH and the interface circuit consumes only 1.05μW at 0.5V supply voltage.
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11

Upadhyay, Veena, Puran Gour, and Braj Bihari. "Low Power Consumption Low Noise Amplifier for 1-10GHz Application." International Journal of Computer Applications 124, no. 2 (August 18, 2015): 31–34. http://dx.doi.org/10.5120/ijca2015905388.

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12

Hong, Sangjin, Suhwan Kim, and Wayne E. Stark. "Low-power Application-specific Parallel Array Multiplier Design for DSP Applications." VLSI Design 14, no. 3 (January 1, 2002): 287–98. http://dx.doi.org/10.1080/10655140290011087.

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Digital Signal Processing (DSP) often involves multiplications with a fixed set of coefficients. This paper presents a novel multiplier design methodology for performing these coefficient multiplications with very low power dissipation. Given bounds on the throughput and the quantization error of the computation, our approach scales the original coefficients to enable the partitioning of each multiplication into a collection of smaller multiplications with shorter critical paths. Significant energy savings are achieved by performing these multiplications in parallel with a scaled supply voltage. Dissipation is further reduced when conventional array multiplier is modified disabling the multiplier rows that do not affect the multiplication's outcome. We have used our methodology to design low-power parallel array multipliers for the Fast Fourier Transform (FFT). Simulation results show that our approach can result in significant up to 76% power savings over conventional array multipliers on 64-coefficient FFT computation.
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13

Tanneru, Hemanth Kumar, Kiran Kuruvinashetti, Pragasen Pillay, Raghunathan Rengaswamy, and Muthukumaran Packirisamy. "Feasibility Studies of Micro Photosynthetic Power Cells as a Competitor of Photovoltaic Cells for Low and Ultra-Low Power IoT Applications." Energies 12, no. 9 (April 26, 2019): 1595. http://dx.doi.org/10.3390/en12091595.

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In this work, we provide a cost comparison of micro-photosynthetic power cells (µPSC) with the well-established photovoltaic (PV) cells for ultra-low power and low power applications. We also suggest avenues for the performance improvement of µPSC. To perform cost comparison, we considered two case studies, which are development of energy systems for: (i) A typical mobile-phone battery charging (low power application) and (ii) powering a humidity sensor (ultra-low power application). For both the cases, we have elucidated the steps in designing energy systems based on PV and µPSC technologies. Based on the design, we have considered the components needed and their costs to obtain total cost for developing energy systems using both PV and µPSC technologies. Currently, µPSCs based energy systems are costlier compared to their PV counterparts. We have provided the avenues for improving µPSC performance, niche application areas, and aspects in which µPSCs are comparable to PV cells. With a huge potential to develop low-cost and high performing technologies, this emerging technology can share the demand on PV technologies for ultra-low power applications.
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14

Habibi, Mehdi, and Sonia Ghanbari. "Application of class D power amplifiers in low power potentiostat circuits." International Journal of Circuit Theory and Applications 45, no. 6 (July 25, 2016): 790–810. http://dx.doi.org/10.1002/cta.2240.

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15

INOUE, Kazuhiko, Junji CHIBA, Toshihiko HASHIMOTO, and Chiaki SEKINE. "Application of low power laser for Orthopedic surgery." JOURNAL OF JAPAN SOCIETY FOR LASER SURGERY AND MEDICINE 22, no. 1 (2001): 31–39. http://dx.doi.org/10.2530/jslsm1980.22.1_31.

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16

SHOJI, Akinobu. "Application of low power laser for atopic dermatitis." JOURNAL OF JAPAN SOCIETY FOR LASER SURGERY AND MEDICINE 24, no. 1 (2003): 15–23. http://dx.doi.org/10.2530/jslsm1980.24.1_15.

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17

Kumar, V. Vinod, and M. Meenakshi. "Tunable Low Power UWB Transmitter for WBAN Application." Journal of Circuits, Systems and Computers 24, no. 03 (February 10, 2015): 1550040. http://dx.doi.org/10.1142/s0218126615500401.

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This paper presents the design and simulation results for a Federal Communication Committee (FCC) complaint current starved delay line based Ultra Wide Band (UWB) Gaussian pulse transmitter, which is designed for operating in the 3.1–10.6 GHz range. The wavelet is a mono cycle Gaussian impulse wave, which is practically well suited for low cost, low power, low data rate wireless data transfer such as in wireless body area network (WBAN) applications. The transmitter operating frequency and bandwidth (BW) is controlled using a dc voltage provided at the input stage of a voltage controlled delay line (VCDL) and this aspect can be exploited for increasing the communication coverage area without compromising on the power consumption. A Gaussian wave shaping is performed for FCC compliance and the simulation has been carried out with 130 nm technology. The simulation of our design suggests an average dynamic power consumption of 1.11 mw for an energy efficiency of 14.2 pJ/pulse. The proposed IR-UWB transmitter design though a bit inferior in terms of the power efficiency, can claim superior performance with respect to tuning the BW, which is very relevant in a cognitive wireless networking scenario with other interfering signals.
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18

Yang, Guangyao. "Design and application of low power switch IC." Journal of Physics: Conference Series 1617 (August 2020): 012053. http://dx.doi.org/10.1088/1742-6596/1617/1/012053.

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19

Park, Young Sam, Yong Seok Choi, Sung Taeg Kang, Jeong Uk Han, Seung Beom Yoon, Chil Hee Chung, Sung Min Yoon, Sang Ouk Ryu, and Byoung Gon Yu. "Highly Reliable Flash Cell for Low Power Application." Japanese Journal of Applied Physics 44, no. 11 (November 9, 2005): 7816–19. http://dx.doi.org/10.1143/jjap.44.7816.

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20

Taki, Kazuo, and Bu-Yeol Lee. "Low power pass-transistor logic and application examples." Electronics and Communications in Japan (Part III: Fundamental Electronic Science) 81, no. 9 (September 1998): 54–66. http://dx.doi.org/10.1002/(sici)1520-6440(199809)81:9<54::aid-ecjc7>3.0.co;2-z.

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21

Ortiz-Ortega, E., M. P. Gurrola, L. G. Arriaga, and J. Ledesma-García. "A bendable and compactdevice for low-power application." Journal of Physics: Conference Series 660 (December 10, 2015): 012054. http://dx.doi.org/10.1088/1742-6596/660/1/012054.

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22

SCHUMACHER, BURGHARD, OLAF EICK, FRED WITTKAMPF, CAROLIN PEZOLD, JURGEN TEBBENJOHANNS, WERNER JUNG, and BERNDT LUDERITZ. "Temperature Response Following Nontraumatic Low Power Radiofrequency Application." Pacing and Clinical Electrophysiology 22, no. 2 (February 1999): 339–43. http://dx.doi.org/10.1111/j.1540-8159.1999.tb00448.x.

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23

Pitkänen, Teemu Oskari, and Jarmo Takala. "Low-Power Application-Specific Processor for FFT Computations." Journal of Signal Processing Systems 63, no. 1 (September 17, 2010): 165–76. http://dx.doi.org/10.1007/s11265-010-0528-z.

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24

Zhang, Jin-Yong, Lei Wang, and Bin Li. "Design of low-offset low-power CMOS amplifier for biosensor application." Journal of Biomedical Science and Engineering 02, no. 07 (2009): 538–42. http://dx.doi.org/10.4236/jbise.2009.27078.

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25

Fu, Yu Yun, and Ke Ma. "Application of Low Low Temperature ESP Technology in Thermal Power Plant." Advanced Materials Research 1070-1072 (December 2014): 1481–85. http://dx.doi.org/10.4028/www.scientific.net/amr.1070-1072.1481.

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With the environmental situation becoming more and more serious, the dust removal technology in thermal power plant needs to be continually improved. Developed in recent years, the low cryogenic ESP technology can not only remove dust and most SO3 in flue gas, but also meet the needs of emission reduction and energy saving in coal-fired power plant, which means it is worthwhile to promote this kind of technology.
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26

TANAKA, H., K. TANNO, H. TAMURA, and K. MURAO. "Design of CMOS OTAs for Low-Voltage and Low-Power Application." IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences E91-A, no. 11 (November 1, 2008): 3385–88. http://dx.doi.org/10.1093/ietfec/e91-a.11.3385.

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27

Wu, Chenjian, Zhiqun Li, and Ge Sun. "A low voltage low power up-conversion mixer for WSN application." Journal of Semiconductors 35, no. 4 (April 2014): 045006. http://dx.doi.org/10.1088/1674-4926/35/4/045006.

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28

Song, Hai Hui, Jian Jun Wang, Zhi Hua Hu, and Jin Zhou. "Research on Low-Wind-Speed Wind Power." Applied Mechanics and Materials 448-453 (October 2013): 1811–14. http://dx.doi.org/10.4028/www.scientific.net/amm.448-453.1811.

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For high-wind-speed wind power development and problems, propose development and application of low-wind-speed wind power (LWSP). Analysis of the characteristics of LWSP , advantages and necessity of development and application of it. Research the key technologies of LWSP development. It ultimately lay the foundation for research, development and application of LWSP technologies.
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29

Halkhams, Imane, Mahmoud Mehdi, Said Mazer, Moulhime El Bekkali, and Wafae El Hamdani. "Improved Fully Differential Low Power Active Filter." International Journal of Power Electronics and Drive Systems (IJPEDS) 8, no. 2 (June 1, 2017): 747. http://dx.doi.org/10.11591/ijpeds.v8.i2.pp747-754.

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This paper relates the new topology and simulations of a fully differential CMOS active filter for mm wave band applications. The advantages of the differential topology over the single ended one are discussed and the quality factor is tuned to insure application requirements, including narrow bandwidth and high selectivity due to a differential negative resistance that reuses the filter’s current. Using this topology enables independent tuning of the quality factor and low power consumption while compensating the resistive loss of the filter. Very high filter performance was obtained with the simulated active inductor based active filter that was designed using CMOS 0.35 µm technology from AMS foundry and that resonates at 30 GHz with a high quality factor of Q &gt; 500.
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30

Liang, Lee Chu, and Roslina Mohd Sidek. "Self-Reduction Quiescent Current Low Power Low Dropout Regulator for SoC Application." Advanced Materials Research 591-593 (November 2012): 2632–35. http://dx.doi.org/10.4028/www.scientific.net/amr.591-593.2632.

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A low power low-dropout (LDO) voltage regulator with self-reduction quiescent current is proposed in this paper. This proposed capacitorless LDO for Silicon-on-Chip (SoC) application has introduced a self-adjustable low-impedance circuitry at the output of LDO to attain stability critically during low output load current (less than a few hundred of micro-ampere). When the LDO load current increases, it reduces the LDO output impedance and moved the pole towards higher frequency away from the dominant pole and improving the system stability. When this happen, less amount of quiescent current is needed for the low-impedance circuitry to sustain the low output impedance. In this proposed LDO, the quiescent current that been used to sustain the low output impedance will be self-reduced when the output load current increases. Thus, the reduction of quiescent current at low output load current has tremendously improved the efficiency. The simulation results have shown a promising stability at low load current 0~1mA. The dropout voltage for this LDO is only 100mV at 1.2V supply. The proposed LDO is validated using Silterra 0.13μm CMOS process model and designed with high efficiency at low output load current.
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31

UPATHAMKUEKOOL, CHAIRAT, AMORN JIRASEREE-AMORNKUN, and JIRAYUTH MAHATTANAKUL. "DESIGN OF LOW-VOLTAGE LOW-POWER COMPLEX ACTIVE-RC FILTERS." Journal of Circuits, Systems and Computers 22, no. 09 (October 2013): 1340003. http://dx.doi.org/10.1142/s0218126613400033.

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In this paper, novel realization of low-voltage low-power active-RC complex filters is presented. The previously proposed method to compensate for opamp non-idealities in real active-RC filter design, which is suitable for low-power low-voltage application, is extended such that it can be used in the case of complex filter design. Subsequently, fifth-order Chebyshev complex filter with 1-MHz center frequency, bandwidth and 0.5-dB bandpass ripple has been designed for Bluetooth application. Simulation results show that the designed complex filter consumes about 1 mW under 1-V single supply. Its image rejection ratio (IRR) and out-of-band third-order input intercept point (IIP3) are about 80 dB and 37.5 dBV p respectively.
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32

Barth, St, F. Kastner, M. Rößler, R. Wentorp, J. Töpfer, and Th Bartnitzek. "Low firing functional materials for application in power electronics." Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT) 2012, CICMT (September 1, 2012): 000664–69. http://dx.doi.org/10.4071/cicmt-2012-tha46.

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In the past significant effort has been obtained on the miniaturization of electronic devices, for example in the field of cellular phones or other portables devices. Mainspring of this process is the huge success that has been obtained with giant integration densities on chip level. In contrast passive components are actually the most important bottlenecks in the upcoming miniaturization process, first of all for applications in power electronics. Especially in the field of electric mobility and innovative lighting technologies an increasing demand arises for miniaturized transformers and converters. Miniaturization of power electronic devices concentrates however the dissipation heat in a smaller volume, leading in most cases to higher operation temperatures. LTCC (Low-Temperature-Cofiring-Ceramic) as a ceramic multilayer interconnection technology has been employed for the development of 3D-high integrated electronic modules, marked by an excellent thermal robustness. Actual integration of inductors or capacitors in LTCC-boards is restricted to SMD's, limiting further miniaturization in an important manner. Hence the monolithic integration of inductors and capacitors into ceramic multilayer circuit boards is a straightforward approach to gain higher integration levels in power electronics. We report on the preparation and processing of low sintering materials for the implementation of ferrite cores into LTCC multilayer boards. Different semi-finished products based on ferrite powders have been elaborated. Sintering behavior of these materials has been studied and material compatibility with different standard LTCC materials was tested.
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33

Kumar, Manoj. "VCO Design using NAND Gate for Low Power Application." JSTS:Journal of Semiconductor Technology and Science 16, no. 5 (October 30, 2016): 650–56. http://dx.doi.org/10.5573/jsts.2016.16.5.650.

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34

Jian, Wenxiang, Gang Jin, Na Yan, Zhongyu Bi, Hao Min, Yinyin Lin, Ryan Huang, Qingtian Zou, and Jingang Wu. "Variation-tolerant CuxSiyO-based RRAM for low power application." IEICE Electronics Express 9, no. 21 (2012): 1654–59. http://dx.doi.org/10.1587/elex.9.1654.

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35

Nishiue, Yoshinori. "Ultra-Low Power MEMS Gas Sensor Technology and Application." Proceedings 14, no. 1 (June 19, 2019): 9. http://dx.doi.org/10.3390/proceedings2019014009.

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36

Hasan, Md Nazibul, Debabrata Acharjee, Dhiraj Kumar, Arvind Kumar, and Santanu Maity. "Simulation of Low Power Heater for Gas Sensing Application." Procedia Computer Science 92 (2016): 213–21. http://dx.doi.org/10.1016/j.procs.2016.07.348.

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37

周, 清军. "Low Power Design of TP RAM and Its Application." Open Journal of Circuits and Systems 06, no. 01 (2017): 1–7. http://dx.doi.org/10.12677/ojcs.2017.61001.

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38

XIA, XIAO XIN, and TENG TIOW TAY. "INTRA-APPLICATION ENERGY REDUCTION FOR MICROPROCESSOR LOW-POWER DESIGN." Journal of Circuits, Systems and Computers 18, no. 01 (February 2009): 181–98. http://dx.doi.org/10.1142/s0218126609005010.

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Energy consumption is one of the most important design constraints for modern microprocessors, and designers have proposed many energy-saving techniques. Looking beyond the traditional hardware low-power designs, software optimization is becoming a significant strategy for the microprocessor to lower its energy consumption. This paper describes an intra-application identification and reconfiguration mechanism for microprocessor energy reduction. Our mechanism employs a statistical sampling method during training runs to identify code sections among application that have appropriate IPC (Instructions per Cycle) values and could make contributions to program runtime energy reduction, and then profiles them to dynamically scale the voltage and frequency of the microprocessor at appropriate points during execution. In our simulation, our approach achieves energy savings by an average of 39% with minor performance degradation, compared to a processor running at a fixed voltage and speed.
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39

Vaiarello, Yannick, William Tatinian, Yves Leduc, Nicolas Veau, and Gilles Jacquemod. "Ultra-Low-Power Radio Microphone for Cochlear Implant Application." IEEE Journal on Emerging and Selected Topics in Circuits and Systems 1, no. 4 (December 2011): 622–30. http://dx.doi.org/10.1109/jetcas.2011.2177930.

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40

Bai-Sun Kong, Joo-Sun Choi, Seog-Jun Lee, and Kwyro Lee. "Charge recycling differential logic (CRDL) for low power application." IEEE Journal of Solid-State Circuits 31, no. 9 (1996): 1267–76. http://dx.doi.org/10.1109/4.535410.

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41

Jong-Woo Park, Yun-Gi Kim, Il-Kwon Kim, Kyu-Charn Park, Kyu-Chan Lee, and Tae-Sung Jung. "Performance characteristics of SOI DRAM for low-power application." IEEE Journal of Solid-State Circuits 34, no. 11 (1999): 1446–53. http://dx.doi.org/10.1109/4.799849.

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42

Rao, Nitu, VimalKumar Mishra, and R. K. Chauhan. "Review On SOI MOSFET For Low Power Digital Application." i-manager's Journal on Electronics Engineering 5, no. 1 (November 15, 2014): 6–12. http://dx.doi.org/10.26634/jele.5.1.3317.

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43

Hong, Samuel Siong Boon, Rosdiazli B. Ibrahim, Mohd Haris Md Khir, Mohammad Azman Bin Zakariya, and Hanita Daud. "WI-FI ENERGY HARVESTER FOR LOW POWER RFID APPLICATION." Progress In Electromagnetics Research C 40 (2013): 69–81. http://dx.doi.org/10.2528/pierc13041608.

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44

Wang, Tsang-Hong, Kuang Liu, Yi-Yo Dai, Cy Yeh, WR Chen, Chien-Jen Chen, Chief Tsao, Yu-Hsuan Li, Li-Wei Shih, and JJ Lih. "P-171: Ultra Low Power AMOLED for Wearable Application." SID Symposium Digest of Technical Papers 48, no. 1 (May 2017): 1919–21. http://dx.doi.org/10.1002/sdtp.12005.

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45

Lin, Chih-Lung, Chun-Da Tu, Chia-En Wu, Chia-Che Hung, Kwang-Jow Gan, and Kuan-Wen Chou. "Low-Power Gate Driver Circuit for TFT-LCD Application." IEEE Transactions on Electron Devices 59, no. 5 (May 2012): 1410–15. http://dx.doi.org/10.1109/ted.2012.2186966.

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46

Behammer, D., J. N. Albers, U. König, D. Temmler, and D. Knoll. "Si/SiGe HBTs for application in low power ICs." Solid-State Electronics 39, no. 4 (April 1996): 471–80. http://dx.doi.org/10.1016/0038-1101(95)00165-4.

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47

Prajesh, Rahul, Nishit Jain, and Ajay Agarwal. "Low power highly sensitive platform for gas sensing application." Microsystem Technologies 22, no. 9 (July 1, 2015): 2185–92. http://dx.doi.org/10.1007/s00542-015-2609-1.

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48

Sacco, Adriano, Lidia Rolle, Luciano Scaltrito, Elena Tresso, and Candido Fabrizio Pirri. "Characterization of photovoltaic modules for low-power indoor application." Applied Energy 102 (February 2013): 1295–302. http://dx.doi.org/10.1016/j.apenergy.2012.07.001.

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49

Karthi, S. P., K. Kavitha, Ganesh Babu, J. R. Dinesh Kumar, C. Visvesvaran, and N. Girinath. "Ultra-Low Power Memory Circuit Unit for Space Application." IOP Conference Series: Materials Science and Engineering 1084, no. 1 (March 1, 2021): 012059. http://dx.doi.org/10.1088/1757-899x/1084/1/012059.

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50

Tarighat, Asieh Parhizkar. "Ultra-low power inductorless differential LNA for WSN application." Analog Integrated Circuits and Signal Processing 108, no. 2 (June 7, 2021): 409–19. http://dx.doi.org/10.1007/s10470-021-01892-1.

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