Bibliografías temáticas / BUFFERED AMPLIFIER

Literatura académica sobre el tema "BUFFERED AMPLIFIER"

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Publicado: 11 de septiembre de 2023

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Artículos de revistas sobre el tema "BUFFERED AMPLIFIER"

Arora, Tajinder Singh y Udit Rana. "Multifunction Filter Employing Current Differencing Buffered Amplifier". Circuits and Systems 07, n.º 05 (2016): 543–50. http://dx.doi.org/10.4236/cs.2016.75046.

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Gupta, Priyanka y Rajeshwari Pandey. "A low‐power voltage differencing buffered amplifier". International Journal of Circuit Theory and Applications 47, n.º 9 (30 de julio de 2019): 1402–16. http://dx.doi.org/10.1002/cta.2668.

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Lahiri, Abhirup. "Comment on “Voltage-Mode All-Pass Filters Including Minimum Component Count Circuits”". Active and Passive Electronic Components 2009 (2009): 1–4. http://dx.doi.org/10.1155/2009/595324.

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This comment is related to the recently published article “Active and Passive Electronic Components” by S. Maheshwari (2007), which presents single current differencing buffered amplifier (CDBA) and current-controlled current differencing buffered amplifier- (CC-CDBA-) based first-order voltage-mode (VM) all-pass filtering (APF) sections. The paper is reviewed, and additional first-order APF realizations have been proposed.

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Maheshwari, Sudhanshu. "Voltage-Mode All-Pass Filters Including Minimum Component Count Circuits". Active and Passive Electronic Components 2007 (2007): 1–5. http://dx.doi.org/10.1155/2007/79159.

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This paper presents two new first-order voltage-mode all-pass filters using a single-current differencing buffered amplifier and four passive components. Each circuit is compatible to a current-controlled current differencing buffered amplifier with only two passive elements, thus resulting in two more circuits, which employ a capacitor, a resistor, and an active element, thus using a minimum of active and passive component counts. The proposed circuits possess low output impedance, and hence can be easily cascaded for voltage-mode systems. PSPICE simulation results are given to confirm the theory.

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Singroha, Vikas, Bhawna Aggarwal y Shireesh Kumar Rai. "Voltage Differencing Buffered Amplifier (VDBA) Based Grounded Meminductor Emulator". International Journal of Electrical and Electronics Research 10, n.º 3 (30 de septiembre de 2022): 487–91. http://dx.doi.org/10.37391/ijeer.100314.

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A new meminductor emulator using a capacitor, a memristor and a voltage differencing buffered amplifier (VDBA) is proposed in this paper. This reported realization of meminductor is very simple than proposed in literature as it needs only 1 active block. The proposed emulator has been found suitable for low frequency operations with electrical tunability, and multiplier free topology. The characteristics of the proposed emulator have been verified for a frequency range of 1.8Hz to 4.9Hz using the LTspice simulation tool with 180nm CMOS technology parameters. Pinched hysteresis loops observed in flux versus current plane verifies its meminductive behavior. Moreover, the non-volatility test of the proposed emulator proves its memory behavior. The pinched hysteresis loops obtained through simulations show that the lobe area reduces with increase in frequency.

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Maheshwari, Sudhanshu y Iqbal A. Khan. "Current Controlled Current Differencing Buffered Amplifier: Implementation and Applications". Active and Passive Electronic Components 27, n.º 4 (2004): 219–27. http://dx.doi.org/10.1080/08827510310001648924.

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A new four terminal current-controlled active element is introduced, where parasitic resistances at two current input ports are controlled leading to the definition of current-controlled current differencing buffered amplifier. Bipolar implementation and as application current-mode band-pass filter circuits are proposed. Simulation results using real device parameters are included, which show device bandwidth of 35 MHz, low total harmonic distortions, and tuning over a wide current range.

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Cakir, Cem, Shahram Minaei y Oguzhan Cicekoglu. "Low voltage low power CMOS current differencing buffered amplifier". Analog Integrated Circuits and Signal Processing 62, n.º 2 (21 de agosto de 2009): 237–44. http://dx.doi.org/10.1007/s10470-009-9350-6.

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Gupta, Priyanka, Kunal Gupta, Neeta Pandey y Rajeshwari Pandey. "CDBA based current instrumentation amplifier". Journal of Communications Technology, Electronics and Computer Science 4 (16 de febrero de 2016): 11. http://dx.doi.org/10.22385/jctecs.v4i0.62.

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This paper presents a novel method to realize a current mode instrumentation amplifier (CMIA) through CDBA (Current difference Buffered Amplifier). It employs two CDBAs and two resistors to obtain desired functionality. Further, it does not require any resistor matching. The gain can be set according to the resistor values. It offers high differential gain and a bandwidth, which is independent of gain. The working of the circuit is verified through PSPICE simulations using CFOA IC based CDBA realization.

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Nandi, R., S. Das, Mousiki Kar y Sagarika Das. "Active-R tunable integrators using a current differencing buffered amplifier". International Journal of Electronics 97, n.º 2 (febrero de 2010): 129–37. http://dx.doi.org/10.1080/00207210903168835.

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Özcan, S., A. Toker, C. Acar, H. Kuntman y O. Çiçekoģlu. "Single resistance-controlled sinusoidal oscillators employing current differencing buffered amplifier". Microelectronics Journal 31, n.º 3 (marzo de 2000): 169–74. http://dx.doi.org/10.1016/s0026-2692(99)00113-5.

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Tesis sobre el tema "BUFFERED AMPLIFIER"

Pisár, Peter. "Metody návrhu aktivních kmitočtových filtrů na základě pasivního RLC prototypu". Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2009. http://www.nusl.cz/ntk/nusl-218107.

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The aim of this diploma thesis is to design active frequency filters based on passive RLC prototype. Three methods of the design of active filters and active functional blocks of electronic circuits working in current or mixed mode are used to this purpose. These blocks allow to process electrical signals with frequencies up to low tens of megahertz. In addition they feature for instance with high slew rate and low supply voltage power. Active high-pass and low-pass 2nd order filters are designed using simulation of inductor by active subcircuit method. Grounded and subsequently floating synthetic inductor is made with the current conveyors in the first case and with the current operational amplifiers with single input and differential output in the second case. This method advantage is relatively simple design and disadvantage is great quantity of active functional blocks. Active filters based on passive frequency ladder 3rd order filter while only one floating inductor is connected, are designed with circuit equation method. In the first design differential input / output current followers are used and in the second case current-differencing buffered amplifiers are used. This method benefits by smaller active blocks number and disadvantage is more complex design of the active filter. Active filter based on passive prototype of low-pass 3rd order filter with two floating inductors is designed with Bruton transformation method. Final active filter uses current operational amplifiers with single input and differential output which together with other passive elements replace frequency depending negative resistor, which arise after previous Bruton transform. This method usage is advantageous if the design consists of larger quantity of inductors and less number of capacitors. High-pass 2nd order filter is simulated by tolerance and parametrical analyses. Physical realisation utilising current feedback operational amplifier which substitute commercially hardly accessible current conveyors is subsequently made. Measurements of constructed active filter show that additional modifications, which allow better amplitude frequency characteristics conformity, are necessary.

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Foxcroft, Michael. "Design and analysis of a 3.3V, unity-gain, CMOS buffer amplifier". Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1999. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape8/PQDD_0003/MQ42617.pdf.

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Naini, Srikar Reddy. "PING-PONG AUTO-ZERO AMPLIFIER WITH RAIL-TO-RAIL OUTPUT BUFFER". University of Akron / OhioLINK, 2018. http://rave.ohiolink.edu/etdc/view?acc_num=akron1537224512595497.

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Johanssson, Stefan. "Precision Amplifier for Applications in Electrical Metrology". Thesis, Linköping University, Linköping University, Electronics System, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-16896.

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This master's thesis addresses two main problems. The first is how to suppress a common mode voltage that appears for current shunts, and the second how to let a voltage divider work under an unloaded condition to prevent loading errors and thereby a decreased measurement accuracy. Both these problems occurs during calibration of power meters, and verification of current shunts and voltage dividers. To the first problem three alternative solutions are presented; prototype a proposed instrumentation amplifier circuit, evaluate the commercial available instrumentation amplifier Analog Devices AD8130 or let the voltage measuring device suppress the common mode voltage. It is up to the researchers at SP to choose a solution. To address the second problem, a prototype buffer amplifier is built and verified. Measurements of the buffer amplifier show that it performs very well. At 100 kHz, the amplitude error is less than 20 μV/V, the phase error is less than 20 μrad, and the input R_p is over 10 MΩ. This is performance in line with the required to make accurate measurements possible at 100 kHz and over that.

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Dinc, Huseyin. "A high-speed two-step analog-to-digital converter with an open-loop residue amplifier". Diss., Georgia Institute of Technology, 2011. http://hdl.handle.net/1853/39572.

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It is well known that feedback is a very valuable tool for analog designers to improve linearity, and desensitize various parameters affected by process, temperature and supply variations. However, using strong global feedback limits the operation speed of analog circuits due to stability requirements. The circuits and techniques explored in this research avoid the usage of strong-global-feedback circuits to achieve high conversion rates in a two-stage analog-to-digital converter (ADC). A two-step, 9-bit, complementary-metal-oxide-semiconductor (CMOS) ADC utilizing an open-loop residue-amplifier is demonstrated. A background-calibration technique was proposed to generate the reference voltage to be used in the second stage of the ADC. This technique alleviates the gain variation in the residue amplifier, and allows an open-loop residue amplifier topology. Even though the proposed calibration idea can be extended to multistage topologies, this design was limited to two stages. Further, the ADC exploits a high-performance double-switching frontend sample-and-hold amplifier (SHA). The proposed double-switching SHA architecture results in exceptional hold-mode isolation. Therefore, the SHA maintains the desired linearity performance over the entire Nyquist bandwidth.

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Johansson, Jimmy. "Power-Efficient Settling Time Reduction Techniques for a Folded-Cascode Amplifier in 1.8 V, 0.18 um CMOS". Thesis, Linköpings universitet, Elektroniska Kretsar och System, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-138446.

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Testability is crucial in today’s complex industrial system on chips (SoCs), where sensitive on-chip analog voltages need to be measured. In such cases, an operational amplifier (opamp) is required to sufficiently buffer the signals before they can drive the chip pad and probe parasitics. A single-stage opamp offers an attractive choice since it is power efficient and eliminates the need for frequency compensation. However, it has to satisfy demanding specifications on its stability, input common mode range, output swing, settling time, closed-loop gain and offset voltage. In this work, the settling time performance of a conventional folded-cascode (FC) opamp is substantially improved. Settling time of an opamp consists of two major components, namely the slewing period and the linear settling period. In order to reduce the settling time significantly without incurring excessive area and power penalty, a prudent circuit implementation that minimizes both these constituents is essential. In this work, three different slew rate enhancement (SRE) circuits have been evaluated through extensive simulations. The SRE candidate providing robust slew rate improvement was combined with a current recycling folded cascode structure, resulting in lower slewing and linear settling time periods. Exhaustive simulations on a FC cascode amplifier with complementary inputs illustrate the effectiveness of these techniques in settling time reduction over all envisaged operating conditions.

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Rashid, S. M. Shahriar. "Design and Heterogeneous Integration of Single and Dual Band Pulse Modulated Class E RF Power Amplifiers". The Ohio State University, 2018. http://rave.ohiolink.edu/etdc/view?acc_num=osu1543505207173487.

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Thomas, Dylan Buxton. "Silicon-germanium devices and circuits for high temperature applications". Thesis, Georgia Institute of Technology, 2010. http://hdl.handle.net/1853/33949.

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Using bandgap engineering, silicon-germanium (SiGe) BiCMOS technology effectively combines III-V transistor performance with the cost and integration advantages associated with CMOS manufacturing. The suitability of SiGe technology for cryogenic and radiation-intense environments is well known, yet SiGe has been generally overlooked for applications involving extreme high temperature operation. This work is an investigation into the potential capabilities of SiGe technology for operation up to 300°C, including the development of packaging and testing procedures to enable the necessary measurements. At the device level, SiGe heterojunction bipolar transistors (HBTs), field-effect transistors (FETs), and resistors are verified to maintain acceptable functionality across the temperature range, laying the foundation for high temperature circuit design. This work also includes the characterization of existing bandgap references circuits, redesign for high temperature operation, validation, and further optimization recommendations. In addition, the performance of temperature sensor, operational amplifier, and output buffer circuits under extreme high temperature conditions is presented. To the author's knowledge, this work represents the first demonstration of functional circuits from a SiGe technology platform in ambient temperatures up to 300°C; furthermore, the optimized bandgap reference presented in this work is believed to show the best performance recorded across a 500°C range in a bulk-silicon technology platform.

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KAUR, ARSHDEEP. "CURRENT DIFFERENCING DIFFERENTIAL OUTPUT BUFFERED AMPLIFIER (CDDOBA) AND ITS APPLICCTIONS IN SIGNAL PROCESSING". Thesis, 2016. http://dspace.dtu.ac.in:8080/jspui/handle/repository/15508.

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In the present dissertation implementation of new active building block Current differencing differential output buffer amplifier (CDDOBA) using IC AD844 has been presented. CDDOBA is a new active building block with two input p and n terminal and two output, +w and -w terminal. CDDOBA can be well thought-out as a collection of inverting and non inverting current mode and inverting and non inverting voltage mode unity-gain cells. Recent advancements in current mode signal processing and advantages of current mode signal processing over voltage mode are briefly described in the second chapter. In this dissertation detailed description of the architecture of CDDOBA and PSPICE simulation of CDDOBA realized with IC AD844 is presented. General first order filters, voltage mode amplifier and differentiator and integrator circuits have been presented as application examples in order to demonstrate the performance of the CDDOBA. The PSPICE simulation results for frequency response are incorporated to verify the theory. A new Biquad filter, employing one CDDOBA as active element and four resistors and four capacitors is proposed.

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Yu, Jingjing. "Electromagnetic Interference (EMI) Resisting Analog Integrated Circuit Design Tutorial". Thesis, 2012. http://hdl.handle.net/1969.1/ETD-TAMU-2012-08-11687.

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This work introduces fundamental knowledge of EMI, and presents three basic features correlated to EMI susceptibility: nonlinear distortion, asymmetric slew rate (SR) and parasitic capacitance. Different existing EMI-resisting techniques are analyzed and compared to each other in terms of EMI-Induced input offset voltage and other important specifications such as current consumption. In this work, EMI-robust analog circuits are proposed, of which the architecture is based on source-buffered differential pair in the previous publications. The EMI performance of the proposed topologies has been verified within a test IC which was fabricated in NCSU 0.5um CMOS technology. Experimental results are presented when an EMI disturbance signal of 400mV and 800mV amplitude was injected at the input terminals, and compared with a conventional and an existing topology. The tested maximal EMI-induced input offset voltage corresponds to -222mV for the new structure, which is compared to -712mV for the conventional one and -368mV for the one using existing source-buffered technique in literature. Furthermore the overall performances of the circuits such as current consumption or input referred noise are also provided with the corresponding simulation results.

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Más fuentes

Libros sobre el tema "BUFFERED AMPLIFIER"

Rangan, Giri N. K. High speed buffers for op-amp characterization. 1993.

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Capítulos de libros sobre el tema "BUFFERED AMPLIFIER"

Ghosh, Mourina, Bal Chand Nagar y Vishal Tiwari. "Higher Order Low-Pass Filter Using Single Current Differencing Buffered Amplifier". En Advances in Intelligent Systems and Computing, 67–77. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-1501-5_6.

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Borah, Shekhar Suman y Mourina Ghosh. "Interactive and Non-interactive Control-Based Lossless Grounded Negative Inductance Simulator Using Current Differencing Buffered Amplifier". En Lecture Notes in Electrical Engineering, 23–29. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-33-4866-0_4.

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Weik, Martin H. "buffer amplifier". En Computer Science and Communications Dictionary, 150. Boston, MA: Springer US, 2000. http://dx.doi.org/10.1007/1-4020-0613-6_1911.

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Castello, Rinaldo. "CMOS Buffer Amplifiers". En Analog Circuit Design, 113–38. Boston, MA: Springer US, 1993. http://dx.doi.org/10.1007/978-1-4757-2233-8_6.

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Forsdyke, Dale. "Are You A Buffer or An Amplifier?" En The Psychology of Sports Injury, 107–16. Milton Park, Abingdon, Oxon ; New York, NY : Routledge, 2021.: Routledge, 2021. http://dx.doi.org/10.4324/9780429019227-7.

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Rosli, Alia, Zulfiqar Ali Abd Aziz, Shukri Korakkottil Kunhi Mohd, Sofiyah Sal Hamid y Nuha Rhaffor. "8-Bit Hybrid DAC with Rail-to-Rail Buffer Amplifier". En 10th International Conference on Robotics, Vision, Signal Processing and Power Applications, 203–9. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-6447-1_26.

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Abata, Maryam, Moulhime El Bekkali, Said Mazer, Catherine Algani y Mahmoud Mehdi. "Design of a V-Band Buffer Amplifier for WPAN Applications". En Lecture Notes in Electrical Engineering, 29–34. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-30301-7_4.

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Pardhi, Vaibhav, P. P. Bansod, D. K. Mishra y Rupali Jarwal. "Design of Instrumentation Amplifier and Buffer for Biomedical Applications Using 180 nm Technology". En Lecture Notes in Electrical Engineering, 671–79. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-0275-7_54.

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Shukla, Utkarsh, Niraj Singhal, Pronaya Bhattacharya y Rajiv Srivastava. "Bit Error Rate Analysis of Optical Switch Buffer in Presence of Dispersion and Optical Amplifier Noise". En Communications in Computer and Information Science, 155–67. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-76776-1_11.

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Jung, Walt y George Erdi. "Micropower, single supply applications: (1) a self-biased, buffered reference (2) megaohm input impedance difference amplifier". En Analog Circuit Design, 971–72. Elsevier, 2015. http://dx.doi.org/10.1016/b978-0-12-800001-4.00454-3.

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Actas de conferencias sobre el tema "BUFFERED AMPLIFIER"

Sethi, Chirag, Chirayu Garg, Deepanshu Varun y Rajeshwari Pandey. "Adaptive Biased Voltage Differencing Buffered Amplifier". En 2023 3rd International Conference on Intelligent Technologies (CONIT). IEEE, 2023. http://dx.doi.org/10.1109/conit59222.2023.10205574.

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Kaur, Gagandeep y Mohammad Ayoub Khan. "Current differencing buffered amplifier an active element". En the International Conference. New York, New York, USA: ACM Press, 2012. http://dx.doi.org/10.1145/2345396.2345435.

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Tarim, N. y H. Kuntman. "A high performance current differencing buffered amplifier". En ICM'2001 Proceedings. 13th International Conference on Microelectronics. IEEE, 2001. http://dx.doi.org/10.1109/icm.2001.997510.

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Malhotra, Chetna, Varun Ahalawat, V. Venkatesh Kumar, Rajeshwari Pandey y Neeta Pandey. "Voltage differencing buffered amplifier based quadrature oscillator". En 2016 IEEE 1st International Conference on Power Electronics, Intelligent Control and Energy Systems (ICPEICES). IEEE, 2016. http://dx.doi.org/10.1109/icpeices.2016.7853457.

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Prasertsom, Danucha, Worapong Tangsrirat y Wanlop Surakampontorn. "Low-Voltage Digitally Controlled Current Differencing Buffered Amplifier". En APCCAS 2008 - 2008 IEEE Asia Pacific Conference on Circuits and Systems (APCCAS). IEEE, 2008. http://dx.doi.org/10.1109/apccas.2008.4746210.

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Singh, Ankur, Shekhar Suman Borah y Mourina Ghosh. "Current Differencing Buffered Amplifier Based Memristive Quadrature Oscillator". En 2021 International Conference on Electronics, Information, and Communication (ICEIC). IEEE, 2021. http://dx.doi.org/10.1109/iceic51217.2021.9369780.

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Biolek, Dalibor y Viera Biolkova. "Modified buffered transconductance amplifier for analog signal processing". En 2009 19th International Conference Radioelektronika (RADIOELEKTRONIKA). IEEE, 2009. http://dx.doi.org/10.1109/radioelek.2009.5158733.

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Kanjanop, Arnon y Varakorn Kasemsuwan. "Low voltage class AB current differencing buffered amplifier (CDBA)". En 2011 International Symposium on Intelligent Signal Processing and Communications Systems (ISPACS 2011). IEEE, 2011. http://dx.doi.org/10.1109/ispacs.2011.6146107.

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Inchan, Surasak y Ittipong Chaisayun. "A Modified Current Differencing Buffered Amplifier and Its Application". En 2019 34th International Technical Conference on Circuits/Systems, Computers and Communications (ITC-CSCC). IEEE, 2019. http://dx.doi.org/10.1109/itc-cscc.2019.8793392.

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Sawangarom, Visawa, Worapong Tangsrirat y Wanlop Surakampontorn. "NPN-based Current Differencing Buffered Amplifier and Its Application". En 2006 SICE-ICASE International Joint Conference. IEEE, 2006. http://dx.doi.org/10.1109/sice.2006.314673.

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Informes sobre el tema "BUFFERED AMPLIFIER"

Beadle, E. C10 amplifier isolated buffer. Office of Scientific and Technical Information (OSTI), marzo de 1993. http://dx.doi.org/10.2172/1157470.

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Murphy, Brianna y Roger Kaul. High-impedance Buffer Amplifier For Micro-electromechanical System (MEMS) Resonator Measurements. Fort Belvoir, VA: Defense Technical Information Center, septiembre de 2010. http://dx.doi.org/10.21236/ada531283.

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