Literatura científica selecionada sobre o tema "Sinusoidal signal generator"
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Artigos de revistas sobre o assunto "Sinusoidal signal generator"
Babichev, Michael M., e Daniil A. Grigoriev. "Formation of a stepped signal with minimum levels of the third harmonic". Digital technology security, n.º 1 (29 de março de 2023): 9–25. http://dx.doi.org/10.17212/2782-2230-2023-1-9-25.
Texto completo da fonteRustamaji, Rustamaji, Kania Sawitri e Ray Hapri Sitepu. "Pembangkit Sinyal ELT pada Frekuensi 121,5 MHz". Jurnal Teknik Elektro 11, n.º 1 (1 de julho de 2019): 9–15. http://dx.doi.org/10.15294/jte.v11i1.19201.
Texto completo da fonteSun, Guo Dong, Ming Xin Song, Shan Shan Wang e Yu Zhao. "The Design of the Sinusoidal Signal Generator". Advanced Materials Research 981 (julho de 2014): 116–20. http://dx.doi.org/10.4028/www.scientific.net/amr.981.116.
Texto completo da fonteKhac, Tung Nguyen, Sergey M. Vlasov e Anton A. Pyrkin. "Parameters estimation of multi-sinusoidal signal in finite-time". Cybernetics and Physics, Volume 11, 2022, Number 2 (30 de setembro de 2022): 74–81. http://dx.doi.org/10.35470/2226-4116-2022-11-2-74-81.
Texto completo da fonteCarotenuto, Gianfranco. "A New Method to Detect Zeolite Breath Sensor Response Based on Low-Power Square-Wave Sources". European Journal of Engineering Research and Science 4, n.º 10 (28 de outubro de 2019): 152–54. http://dx.doi.org/10.24018/ejers.2019.4.10.1594.
Texto completo da fonteCarotenuto, Gianfranco. "New Method to Detect Zeolite Breath Sensor Response Based on Low-Power Square-Wave Sources". European Journal of Engineering and Technology Research 4, n.º 10 (28 de outubro de 2019): 152–54. http://dx.doi.org/10.24018/ejeng.2019.4.10.1594.
Texto completo da fonteKILIÇ, RECAI. "SC-CNN BASED MULTIFUNCTION SIGNAL GENERATOR". International Journal of Bifurcation and Chaos 17, n.º 12 (dezembro de 2007): 4387–93. http://dx.doi.org/10.1142/s0218127407020038.
Texto completo da fonteTing, Hsin-Wen, Cheng-Wu Lin, Bin-Da Liu e Soon-Jyh Chang. "Oscillator-Based Reconfigurable Sinusoidal Signal Generator for ADC BIST". Journal of Electronic Testing 23, n.º 6 (10 de outubro de 2007): 549–58. http://dx.doi.org/10.1007/s10836-007-5010-x.
Texto completo da fonteZhidong, Liu, Wang Shixu, Mao Qun, Xu Zilin, Yang Kuo e Liang Pan. "A Controlled Sinusoidal Signal Generator Based On Direct Digital Synthesize". International Journal of Education and Management Engineering 1, n.º 5 (29 de novembro de 2011): 32–37. http://dx.doi.org/10.5815/ijeme.2011.05.05.
Texto completo da fonteChangyou, Fu. "Design of Sinusoidal Signal Generator Based on Two-wire Transmitter". IERI Procedia 3 (2012): 213–19. http://dx.doi.org/10.1016/j.ieri.2012.09.035.
Texto completo da fonteTeses / dissertações sobre o assunto "Sinusoidal signal generator"
Mamgain, Ankush. "Génération sur puce de signaux sinusoïdaux à hautes fréquences en utilisant des techniques d'annulation d'harmoniques". Electronic Thesis or Diss., Université Grenoble Alpes, 2024. http://www.theses.fr/2024GRALT024.
Texto completo da fonteBuilt-in self-test (BIST) techniques play an important role in Analog, Mixed-signal, and RF (AMS-RF) circuits so that the yield in advanced nanometric processes can be improved. These circuits replace highly sophisticated and expensive AMS-RF testers. The stimuli generator is one of the important blocks in AMS-RF BIST circuits. In particular, many analog-RF tests require a high-quality sinusoidal signal as test stimuli. The focus of this thesis is to understand the challenges of generating a sinusoidal signal in GHz range and mitigating these challenges using the harmonic cancellation principle. In harmonic cancellation principle, a set of time-shifted periodic signals are scaled and added. In this process, harmonics of the periodic signal are cancelled and the fundamental frequency is retained at the output. Particularly in this case, a signal generator that can cancel the harmonics below the 11th harmonic. Despite its efficiency, this technique is highly susceptible to performance degradation due to mismatch and process variations. These variations affect time-shift and the duty cycle (also called timing inaccuracies) of the signal, particularly in high-frequency applications where precise control becomes increasingly challenging. To address this, a novel calibration architecture employs a coarse-fine delay cell mechanism, which effectively mitigates the impact of timing inaccuracies. One of the proposed solutions was fabricated using ST 28-nm FDSOI technology and validated. The measurement results show an SFDR greater than 60dBc for frequencies greater than 1 GHz after optimization, illustrating the potential of our architecture in enhancing the reliability and effectiveness of on-chip sinusoidal signal generation for AMS-RF integrated circuits
Amorosi, Davide. "Analog signal generation with Raspberry Pi boards for short-range communications". Master's thesis, Alma Mater Studiorum - Università di Bologna, 2020.
Encontre o texto completo da fontePatel, Pallavi. "Generation of Sinusoidal Pulse Width Modulated Signal using Arduino Microcontroller". Thesis, 2015. http://ethesis.nitrkl.ac.in/7781/1/2015_Generation_Patel.pdf.
Texto completo da fonteKanchan, Rahul Sudam. "Investigations On PWM Signal Generation And Common Mode Voltage Elimination Schemes For Multi-Level Inverter Fed Induction Motor Drives". Thesis, 2005. https://etd.iisc.ac.in/handle/2005/1405.
Texto completo da fonteKanchan, Rahul Sudam. "Investigations On PWM Signal Generation And Common Mode Voltage Elimination Schemes For Multi-Level Inverter Fed Induction Motor Drives". Thesis, 2005. http://etd.iisc.ernet.in/handle/2005/1405.
Texto completo da fonteΚωστούλας, Στέφανος. "Μεταφορά εξομοιωμένου συστήματος ελέγχου σε μικροεπεξεργαστή για τροφοδότηση φορτίου από φωτοβολταϊκή γεννήτρια". Thesis, 2012. http://hdl.handle.net/10889/5737.
Texto completo da fonteThe objective of this thesis is the power supply of a variable RL load, by the use of a photovoltaic generator as our energy source, aiming to a load voltage with constant rms value and frequency. To achieve this objective, involves the use of several devices, in order to create an experimental system on which we will develop our application. Thus, our total system, other than the source (photovoltaic generator) and the load, is composed of a three-phase voltage source inverter (VSI), a three-phase transformer, a low pass LC filter, a device that electronically chooses the value of the load and a microprocessor which implements the necessary control system. The first part of the control system refers to the generation of the signals that control the switching elements of the three-phase voltage source inverter. With the help of the microprocessor we achieve the implementation of the appropriate pulse generator circuit using a method called sinusoidal pulse width modulation (SPWM). In the second part of the control system we implement a PI controller which, in collaboration with the above circuit, ensures the stabilization of the voltage on the load, therefore the uninterrupted power supply. Making step load changes, we record the variation of those parameters that confirm the operation and efficiency of the entire control system. Of great importance is the way we produce the code that implements the control circuit, when executed by the microprocessor. The procedure begins with the modeling of the circuit in Simulink, followed by the use of the appropriate development tools that result in an automatic process of production of the desired code. The thesis is organized in the following way: In Chapter 1 we give a brief reference to the importance of the renewable energy sources, regarding the present and future needs of the electricity sector. We continue with a summary of the photovoltaic technology and it’s means of exploitation. In Chapter 2 we make a thorough description of the method called sinusoidal pulse width modulation and we discuss it’s use for the DC/AC converter (inverter), both single-leg and three-phase. We give a full presentation on the characteristics of the method and the manner to be implemented in digital systems. In Chapter 3 we make the description and analysis of our experimental system. By separating the overall system to two individual parts, the power circuit and the control circuit, we describe each device separately and analyze the relevant theory. In particular, with respect to the control circuit, we summarize the theory of PI controller, to the necessary extent for our application. In Chapter 4 we introduce the system eZdspTM F28335. This system includes the digital signal processor F28335, which undertakes the implementation of the control circuit. Reference is made to the overall capabilities of the system and especially to the peripherals used in this application. In Chapter 5 we give the analysis of the Simulink model which implements the control circuit. Initially, we outline the procedure of rapid prototyping and describe the way in which we achieve the automatic production of our executable code through the Simulink models. Then we describe in detail the blocks that form the model of our application. In Chapter 6 we present the results obtained during the experimental phase. In particular there are listed measurements and graphs that aim to highlight the function of the control system and the manner in which it influences our system. In Chapter 7 we present our final conclusions and possible future prospects of the application.
Capítulos de livros sobre o assunto "Sinusoidal signal generator"
Pan, Ming. "A Novel Three-Phase Sinusoidal Signal Generator FPGA Design and Implementation". In 2011 International Conference in Electrics, Communication and Automatic Control Proceedings, 1031–37. New York, NY: Springer New York, 2011. http://dx.doi.org/10.1007/978-1-4419-8849-2_131.
Texto completo da fonteKadyrov, Ishembek, Nurzat Karaeva, Zheenbek Andarbekov e Kyyal Kadyrkulova. "Features of Designing a Variable-Frequency Electric Drive Control System with a Microprocessor-Based Sinusoidal Signal Generator". In Communications in Computer and Information Science, 201–17. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-66895-2_13.
Texto completo da fonteHamida, Mohamed Lamine, Arezki Fekik, Hakim Denoun, Aghiles Ardjal e Aicha Aissa Bokhtache. "Flying Capacitor Inverter Integration in a Renewable Energy System". In Advances in Environmental Engineering and Green Technologies, 287–306. IGI Global, 2022. http://dx.doi.org/10.4018/978-1-7998-7447-8.ch011.
Texto completo da fonteTrabalhos de conferências sobre o assunto "Sinusoidal signal generator"
Ting, Hsin-wen, Cheng-wu Lin, Bin-da Liu e Soon-jyh Chang. "Reconstructive Oscillator Based Sinusoidal Signal Generator for ADC BIST". In 2005 IEEE Asian Solid-State Circuits Conference. IEEE, 2005. http://dx.doi.org/10.1109/asscc.2005.251808.
Texto completo da fonteNawito, Moustafa, Harald Richter e Joachim N. Burghartz. "Compact wide-range sinusoidal signal generator for in vivo Impedance Spectroscopy". In 2015 Conference on Design of Circuits and Integrated Systems (DCIS). IEEE, 2015. http://dx.doi.org/10.1109/dcis.2015.7388593.
Texto completo da fonteRibeiro, Ricardo M., Vinicius N. H. Silva, Andres P. L. Barbero, Murilo B. Carvalho, Frederic Lucarz e Bruno Fracasso. "An optical pulse generator from a sinusoidal optical signal using Sagnac loop - Self-sampling". In 2013 IEEE Latin-America Conference on Communications (LATINCOM). IEEE, 2013. http://dx.doi.org/10.1109/latincom.2013.6759813.
Texto completo da fonteHaihong Xiao e Tao Chen. "The design of Reference Sinusoidal Signal Generator Circuit for Photovoltaic Grid Based on CPLD". In 2011 Second International Conference on Mechanic Automation and Control Engineering (MACE). IEEE, 2011. http://dx.doi.org/10.1109/mace.2011.5988207.
Texto completo da fonteSato, Keno, Takayuki Nakatani, Takashi Ishida, Toshiyuki Okamoto, Tamotsu Ichikawa, Shogo Katayama, Daiske Iimori et al. "Low Distortion Sinusoidal Signal Generator with Harmonics Cancellation Using Two Types of Digital Predistortion". In 2023 IEEE International Test Conference (ITC). IEEE, 2023. http://dx.doi.org/10.1109/itc51656.2023.00015.
Texto completo da fonteRaditya, Murry, Purwadi Agus Darwito, Arviandi Cikadiarta, Halimatus Sa'diyah, Aditya Wimansyah e Effran Rajagukguk. "Design Of Sinusoidal Signal Generator Using Pipelined CORDIC Architecture Based On Altera Cyclone II FPGA". In 2019 International Conference on Advanced Mechatronics, Intelligent Manufacture and Industrial Automation (ICAMIMIA). IEEE, 2019. http://dx.doi.org/10.1109/icamimia47173.2019.9223410.
Texto completo da fonteDzulfiqar, Fatih, Nacep Suryana, Mahfudz Al Huda, Hotmatua Daulay e Ratno Nuryadi. "180-Degree phase different sinusoidal signal generator using direct digital synthesizer and coupled op-amps". In THE 4TH INTERNATIONAL CONFERENCE ON NUCLEAR ENERGY TECHNOLOGIES AND SCIENCES (ICoNETS) 2021. AIP Publishing, 2022. http://dx.doi.org/10.1063/5.0095522.
Texto completo da fonteMalloug, Hani, Manuel J. Barragan e Salvador Mir. "A 52 dB-SFDR 166 MHz sinusoidal signal generator for mixed-signal BIST applications in 28 nm FDSOI technology". In 2019 IEEE European Test Symposium (ETS). IEEE, 2019. http://dx.doi.org/10.1109/ets.2019.8791532.
Texto completo da fonteMalloug, Hani, Manuel J. Barragan, Salvador Mir, Laurent Basteres e Herve Le Gall. "Design of a sinusoidal signal generator with calibrated harmonic cancellation for mixed-signal BIST in a 28 nm FDSOI technology". In 2017 22nd IEEE European Test Symposium (ETS). IEEE, 2017. http://dx.doi.org/10.1109/ets.2017.7968214.
Texto completo da fonteKweon, Soon-Jae, Sung-Hun Jo, Ji-Hoon Suh, Minkyu Je e Hyung-Joun Yoo. "A Sinusoidal Signal Generator Using a Constant Gain Finite Impulse Response (FIR) Filter for Electrical Bioimpedance Spectroscopy". In 2018 IEEE International Symposium on Circuits and Systems (ISCAS). IEEE, 2018. http://dx.doi.org/10.1109/iscas.2018.8351219.
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