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Journal articles on the topic 'Voltage follower'

Author: Grafiati
Published: 4 June 2021
Last updated: 10 February 2022

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1

Bhautik D. Pandya, Bhautik D. Pandya. "High Speed Voltage Followers- Flipped & Translinear Voltage Follower." IOSR journal of VLSI and Signal Processing 2, no. 2 (2013): 47–51. http://dx.doi.org/10.9790/4200-0224751.

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2

Sharma, Susheel, L. k. Mangotra, S. S. Rajput, and S. S. Jamuar. "Improved FGMOS-Based Low-Voltage Voltage Follower." IETE Journal of Research 51, no. 4 (July 2005): 321–25. http://dx.doi.org/10.1080/03772063.2005.11416410.

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3

Vlassis, S., and G. Raikos. "Bulk-driven differential voltage follower." Electronics Letters 45, no. 25 (2009): 1276. http://dx.doi.org/10.1049/el.2009.1551.

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4

SAKUL, CHAIWAT, and KOBCHAI DEJHAN. "FLIPPED VOLTAGE FOLLOWER ANALOG NONLINEAR CIRCUITS." Journal of Circuits, Systems and Computers 21, no. 03 (May 2012): 1250024. http://dx.doi.org/10.1142/s0218126612500247.

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This paper describes squaring and square-rooting circuits operable on low voltage supplies, with their application proposed hereby as vector-summation and four-quadrant multiplier circuits. These circuits make use of a flipped voltage follower (FVF) as fundamental circuit. A detail classification of basic topologies derived from the FVF is given. The proposed circuits have simple structure, wide input range and low power consumption as well as small number of devices. All circuits are also examined and supported by a set of simulations with PSpice program. The circuits can operate at power supply of ±0.7 volts, the input voltage range of the squaring circuit is ±0.8 volts with 1.59% relative error and 1.78 μW power dispersion, the input current of the square-rooting circuit is about 50 μA with 0.55% relative error and 1.4 μW power dispersion and the vector-summation circuit have linearity error of 0.23% and 2.92 μW power dispersion. As in four-quadrant multiplier circuit, the total harmonic distortion of the multiplier is less than 1.2% for 0.8 VP-P input signal at 1 MHz fundamental frequency. Experimental result is carried out to confirm the operation by using commercial CMOS transistor arrays (CD4007). These circuits are highly expected to be effective in further application of the low voltage analog signal processing.
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5

Su, W. J., and F. J. Lidgey. "New architecture high performance voltage follower." Electronics Letters 30, no. 22 (October 27, 1994): 1826–27. http://dx.doi.org/10.1049/el:19941270.

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6

Kadanka, P., and A. Rozsypal. "Rail-to-rail voltage follower without feedback." Electronics Letters 36, no. 2 (2000): 104. http://dx.doi.org/10.1049/el:20000182.

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7

Padilla-Cantoya, Ivan, Paul M. Furth, Jesus E. Molinar-Solis, and Alejandro Diaz-Sanchez. "Low-voltage differential voltage follower for WTA and fully differential applications." IEICE Electronics Express 9, no. 6 (2012): 491–95. http://dx.doi.org/10.1587/elex.9.491.

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8

Thanapitak, Surachoke, Prajuab Pawarangkoon, and Chutham Sawigun. "A Flipped Voltage Follower Second-Order Bandpass Filter." Journal of Circuits, Systems and Computers 26, no. 07 (March 17, 2017): 1750112. http://dx.doi.org/10.1142/s0218126617501122.

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This paper presents a compact second-order bandpass filter developed by combining the well-known flipped voltage follower circuit as a transconductance network with two capacitors. Operated in the subthreshold region, the filter’s center frequency can be adjusted linearly by varying the bias current. Post-layout simulation using a 0.35-[Formula: see text]m CMOS process confirms the suitability of the proposed filter in low-voltage, low-power environment.
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9

Tanno, K., H. Matsumoto, O. Ishizuka, and Zheng Tang. "Simple CMOS voltage follower with resistive-load drivability." IEEE Transactions on Circuits and Systems II: Analog and Digital Signal Processing 46, no. 2 (1999): 172–77. http://dx.doi.org/10.1109/82.752947.

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10

Barthelemy, H., and E. Kussener. "High speed voltage follower for standard BiCMOS technology." IEEE Transactions on Circuits and Systems II: Analog and Digital Signal Processing 48, no. 7 (July 2001): 727–32. http://dx.doi.org/10.1109/82.958343.

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11

Kasemsuwan, Varakorn, and Weerachai Nakhlo. "A simple rail‐to‐rail CMOS voltage follower." Microelectronics International 26, no. 1 (January 23, 2009): 17–21. http://dx.doi.org/10.1108/13565360910923124.

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12

Horng, Jiun-Wei. "Voltage-mode multifunction filter using one current feedback amplifier and one voltage follower." International Journal of Electronics 88, no. 2 (February 2001): 153–57. http://dx.doi.org/10.1080/00207210010001673.

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13

Shrivastava, Abhishek, Rishikesh Pandey, and Caffey Jindal. "Low-Voltage Flipped Voltage Follower Cell Based Current Mirrors for High Frequency Applications." Wireless Personal Communications 111, no. 1 (October 31, 2019): 143–61. http://dx.doi.org/10.1007/s11277-019-06849-2.

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14

Wang, Yan, Tao Jing, Jimei Wu, and Min Xie. "Stability of Axially Moving Piezolaminated Viscoelastic Plate Subjected to Follower Force." Advances in Materials Science and Engineering 2015 (2015): 1–12. http://dx.doi.org/10.1155/2015/758472.

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The stability of the moving viscoelastic plate with the piezoelectric layer subjected to uniformly distributed tangential follower force is investigated. The force excited by the piezoelectric layer due to external voltage is modeled as the follower tensile force. The differential equation of the axially moving viscoelastic rectangular plate with piezoelectric layer subjected to uniformly distributed tangential follower force is formulated on the basis of the Kirchhoff thin plate theory and the two-dimensional viscoelastic differential constitutive relation. The complex eigenvalue equations are established by the differential quadrature method. Via numerical calculation, the curves of real parts and imaginary parts of dimensionless complex frequencies versus uniformly distributed tangential follower force and dimensionless moving speed are obtained. The effects of nonconservative force, dimensionless axially moving speed, and dimensionless applied voltages on the stability of axially moving nonconservative viscoelastic plate with piezoelectric layer are analyzed.
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15

Achigui, Hugues J., Christian Fayomi, Daniel Massicotte, and Mounir Boukadoum. "Low-voltage, high-speed CMOS analog latched voltage comparator using the “flipped voltage follower” as input stage." Microelectronics Journal 42, no. 5 (May 2011): 785–89. http://dx.doi.org/10.1016/j.mejo.2011.01.006.

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16

Mizuno, Shunta, Fumiya Naito, and Makoto Nakamura. "Bandwidth enhancement technique for TIA using flipped voltage follower." IEICE Electronics Express 14, no. 10 (2017): 20170310. http://dx.doi.org/10.1587/elex.14.20170310.

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17

Chen, Ching-Mei, Khaled Hayatleh, Bryan Hart, and John Lidgey. "Flipped Voltage Follower Ddesign Technique for Maximised Linear Operation." Engineering 02, no. 08 (2010): 665–67. http://dx.doi.org/10.4236/eng.2010.28085.

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18

Zia, Ehsan, Ali Jalali, and Meysam Akbari. "Indirect frequency compensation technique using flipped voltage follower cell." International Journal of Electronics Letters 5, no. 2 (January 28, 2016): 189–98. http://dx.doi.org/10.1080/21681724.2016.1138510.

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19

Carvajal, R. G., J. Ramirez-Angulo, A. J. Lopez-Martin, A. Torralba, J. A. G. Galan, A. Carlosena, and F. M. Chavero. "The flipped voltage follower: a useful cell for low-voltage low-power circuit design." IEEE Transactions on Circuits and Systems I: Regular Papers 52, no. 7 (July 2005): 1276–91. http://dx.doi.org/10.1109/tcsi.2005.851387.

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20

Ocampo-Hidalgo, Juan Jesus, Iván Vázquez-Álvarez, Sergio Sandoval-Perez, Rodolfo Garcia-Lozano, Marco Gurrola-Navarro, and Jesus Ezequiel Molinar-Solis. "A CMOS Micro-power, Class-AB “Flipped” Voltage Follower using the quasi floating-gate technique." Ingeniería e Investigación 37, no. 2 (May 1, 2017): 82–88. http://dx.doi.org/10.15446/ing.investig.v37n2.62625.

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This paper presents the design and characterization of a new analog voltage follower for low-voltage applications. The main idea is based on the “Flipped” Voltage Follower and the use of the quasi-floating gate technique for achieving class AB operation. A test cell was simulated and fabricated using a 0,5 μm CMOS technology. When the proposed circuit is supplied with VDD = 1,5 V, it presents a power consumption of only 413 μW. Measurement and experimental results show a gain bandwidth product of 10 MHz and a total harmonic distortion of 1,12 % at 1 MHz.
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21

Putra, Ricky Irawan, Sunardi Sunardi, and Riky Dwi Puriyanto. "Monitoring Tegangan Baterai Lithium Polymer pada Robot Line Follower Secara Nirkabel." Buletin Ilmiah Sarjana Teknik Elektro 1, no. 2 (September 5, 2019): 73. http://dx.doi.org/10.12928/biste.v1i2.907.

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Dalam penelitian ini dirancang suatu sistem pemantauan kondisi tegangan baterai secara otomatis dengan tujuan dapat mempermudah pengguna dalam mengetahui tegangan baterai. Sistem yang dibangun dalam penelitian ini dibagi menjadi 2 bagian yaitu sistem pembacaan data dan sistem komunikasi nirkabel. Dalam sistem pembacaan data menggunakan sensor tegangan dan Arduino Uno sebagai pengolah data, lalu modul Bluetooth HC-05 sebagai media pengirim data ke smartphone. Pada sistem komunikasi nirkabel memanfaatkan Bluetooth serta smartphone Android sebagai media penampil data hasil pembacaan. Sistem pemantauan tegangan baterai lithium polymer menampilkan informasi tentang kondisi tegangan baterai yang dapat dilihat pada smartphone Android. Sistem pemantauan tegangan telah berhasil mendeteksi tegangan pada baterai dengan variasi nilai PWM dengan motor DC sebagai beban. Nilai error tegangan pada PWM 50, PWM 150 dan PWM 255 adalah 0,134; 0,338; dan 0,326. Sementara nilai standar deviasi adalah 0,180555; 0,183848; 0,115758. Hal tersebut menunjukkan alat dapat bekerja dengan baik dan memiliki tingkat akurasi pembacaan yang baik di bawah 0,4 volt.In this study, a battery voltage condition pemantauan system was designed automatically with the aim of making it easier for users to find out the battery voltage. The system built in this study is divided into 2 parts, namely the data reading system and the wireless communication system. In the data reading system uses a voltage sensor and Arduino Uno as a data processor, then the Bluetooth HC-05 module as a data sender to the smartphone. In a wireless communication system utilizing Bluetooth and Android smartphones as a media viewer of reading data. Lithium polymer battery voltage pemantauan system displays information about battery voltage conditions that can be seen on an Android smartphone. The voltage pemantauan system has succeeded in detecting the voltage on the battery with a variation of the PWM value with a DC motor as a load. The voltage error values at PWM 50, PWM 150 and PWM 255 are 0.134; 0.338; and 0.326. While the standard deviation is 0.180555; 0.183848; .115758. This shows the tool can work well and has a good reading accuracy level below 0.4 volts.
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22

ARSLAN, EMRE, SHAHRAM MINAEI, and AVNI MORGUL. "ON THE REALIZATION OF HIGH PERFORMANCE CURRENT CONVEYORS AND THEIR APPLICATIONS." Journal of Circuits, Systems and Computers 22, no. 03 (March 2013): 1350015. http://dx.doi.org/10.1142/s0218126613500151.

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In this work, a wideband and high-performance CMOS implementation of 2nd-generation current conveyor (CCII) is proposed. The proposed circuit is composed of a high performance voltage follower stage which is based on differential pairs to provide high voltage swings on input and output ports and a current follower stage. It is shown that the proposed voltage follower stage can be used to implement high performance 1st and 3rd-generation current conveyors (CCI and CCIII, respectively) that have very small equivalent impedances on ports X, high equivalent impedances on ports Y and Z and also high-valued voltage and current transfer bandwidths. 2nd and 3rd order filter circuits as well as a half-wave rectifier circuit are given to show the performance and usefulness of the proposed current conveyor circuits. The simulation and experimental results are given to verify the theoretical analyses.
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23

Ocampo-Hidalgo, J. J., J. Alducín-Castillo, I. Vázquez-Álvarez, L. N. Oliva-Moreno, and J. E. Molinar-Solís. "A CMOS Low-Voltage Super Follower Using Quasi-Floating Gate Techniques." Journal of Circuits, Systems and Computers 27, no. 07 (March 26, 2018): 1850111. http://dx.doi.org/10.1142/s0218126618501116.

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A quasi-floating gate (QFG) “super-follower” is presented. The high resistance used by the QFG transistor is constructed by two diodes connected back-to-back, leading to a simple-, temperature-stable- and small-area solution. Expressions for the behavior of the follower are introduced and verified by circuit simulations in LTSPICE using 0.5[Formula: see text][Formula: see text]m CMOS process models, which show an improved performance of the proposed circuit with respect to the original super-follower. To prove the principle, a test cell was fabricated in the same 0.5[Formula: see text][Formula: see text]m CMOS technology and characterized. Measurement results show a gain-bandwidth product of 10[Formula: see text]MHz and power consumption of 120[Formula: see text][Formula: see text]W with a 1.5[Formula: see text]V single supply.
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24

Zhang, Lei, and Zhong Ming Pan. "Dual-Mode Quadrature Oscillator Using Current Follower Transconductance Amplifiers for GMI Sensors." Advanced Materials Research 712-715 (June 2013): 1886–90. http://dx.doi.org/10.4028/www.scientific.net/amr.712-715.1886.

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For designing GMI sensors, realization of current/voltage-mode (dual-mode) quadrature sinusoidal oscillator with the employment of current follower transconductance amplifier (CFTA) as the active component is presented. The proposed circuit configuration comprising two CFTAs, one grounded resistor and two grounded capacitors can simultaneously provide two explicit quadrature output currents and two quadrature output voltages. Moreover, the proposed circuit topology enjoys the advantage of independent control of the condition of oscillation and frequency of oscillation and good active and passive sensitivity performances. The functionality of the proposed quadrature oscillators has been verified by PSPICE simulations.
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25

Ajayan, K. R., and Navakanta Bhat. "Linear transconductor with flipped voltage follower in 130 nm CMOS." Analog Integrated Circuits and Signal Processing 63, no. 2 (October 13, 2009): 321–27. http://dx.doi.org/10.1007/s10470-009-9396-5.

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26

Molinar‐Solis, J. E., M. A. Gurrola‐Navarro, I. Padilla, J. J. Ocampo, and C. Muñiz. "Free class‐AB flipped voltage follower using bulk‐driven technique." Electronics Letters 51, no. 18 (September 2015): 1411–13. http://dx.doi.org/10.1049/el.2015.0768.

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27

moaf, Mona Khanjani, Milad Piri, and Parviz Amiri. "Two High Slew Rate Buffers Based on Flipped Voltage Follower." International Journal on Electrical Engineering and Informatics 8, no. 2 (June 30, 2016): 451–60. http://dx.doi.org/10.15676/ijeei.2016.8.2.15.

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28

Singh, Urvashi, and Maneesha Gupta. "High frequency flipped voltage follower with improved performance and its application." Microelectronics Journal 44, no. 12 (December 2013): 1175–92. http://dx.doi.org/10.1016/j.mejo.2013.08.002.

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29

Yang, Yintang, Liang Zhang, Zhangming Zhu, and Ruixue Ding. "A low-distortion CMOS analogue voltage follower for high-speed ADCs." Microelectronics Journal 54 (August 2016): 67–71. http://dx.doi.org/10.1016/j.mejo.2016.05.011.

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30

Gupta, Sonam, Rajesh Mehra, and Surbhi Sharma. "Design and Analysis of Flipped Voltage Follower for Different Aspect Ratio." International Journal of Computer Applications 143, no. 13 (June 17, 2016): 29–32. http://dx.doi.org/10.5120/ijca2016910513.

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31

Wong, M. J., M. Ho, and K. N. Leung. "High slew-rate voltage follower based on double-sided dynamic biasing." Electronics Letters 46, no. 12 (2010): 824. http://dx.doi.org/10.1049/el.2010.0426.

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32

Wu, D. S., Y. P. Wu, Y. S. Hwang, and S. I. Liu. "New multifunction filter using an inverting CCII and a voltage follower." Electronics Letters 30, no. 7 (March 31, 1994): 551–52. http://dx.doi.org/10.1049/el:19940376.

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33

Elwan, H. O., and M. Ismail. "Digitally controlled CMOS current follower for low voltage low power applications." Electronics Letters 34, no. 24 (1998): 2297. http://dx.doi.org/10.1049/el:19981591.

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34

Blakiewicz, G. "Output-capacitorless low-dropout regulator using a cascoded flipped voltage follower." IET Circuits, Devices & Systems 5, no. 5 (2011): 418. http://dx.doi.org/10.1049/iet-cds.2010.0431.

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35

Achtenberg, Krzysztof, Janusz Mikołajczyk, Carmine Ciofi, Graziella Scandurra, and Zbigniew Bielecki. "Low-Noise Programmable Voltage Source." Electronics 9, no. 8 (August 2, 2020): 1245. http://dx.doi.org/10.3390/electronics9081245.

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This paper presents the design and testing of a low-noise programmable voltage source. Such a piece of instrumentation is often required as part of the measurement setup needed to test electronic devices without introducing noise from the power supply (such as photodetectors, resistors or transistors). Although its construction is based on known configurations, here the discussion is focused on the characterization and the minimization of the output noise, especially at very low frequencies. The design relies on a digital-to-analog converter, proper lowpass filters, and a low-noise Junction Field-Effect Transistors (JFET) based voltage follower. Because of the very low level of output noise, in some cases we had to resort to cross-correlation in order to reduce the background noise of the amplifiers used for the characterization of the programmable source. Indeed, when two paralleled IF9030 JFETs are used in the voltage follower, the output noise can be as low as 3 nV/√Hz, 0.6 nV/√Hz and 0.4 nV/√Hz at 1 Hz, 10 Hz and 100 Hz, respectively. The output voltage drift was also characterized and a stability of ±25 µV over 3 h was obtained. In order to better appreciate the performance of the low-noise voltage source that we have designed, its noise performances were compared with those of a set-up based on one of the best low-noise solid-state voltage regulators available on the market. Actual measurements of the current noise in a type-II superlattice photodetector are reported in which the programmable source was used to provide the voltage bias to the device.
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36

Padilla-Cantoya, Ivan, and Paul M. Furth. "High performance voltage follower with very low output resistance for WTA applications." IEICE Electronics Express 11, no. 17 (2014): 20140629. http://dx.doi.org/10.1587/elex.11.20140629.

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37

Zhang, Qi, Houpeng Chen, Yu Lei, Xiaoyun Li, Jie Miao, Qian Wang, and Zhitang Song. "Capacitor-less LDR based on flipped voltage follower with dual-feedback loops." IEICE Electronics Express 14, no. 12 (2017): 20170496. http://dx.doi.org/10.1587/elex.14.20170496.

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38

Gupta, Maneesha, and Urvashi Singh. "A new flipped voltage follower with enhanced bandwidth and low output impedance." Analog Integrated Circuits and Signal Processing 72, no. 1 (May 9, 2012): 279–88. http://dx.doi.org/10.1007/s10470-012-9864-1.

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39

Sebastian, J., J. A. Martinez, J. M. Alonso, and J. A. Cobos. "Voltage-follower control in zero-current-switched quasi-resonant power factor preregulators." IEEE Transactions on Power Electronics 13, no. 4 (July 1998): 727–38. http://dx.doi.org/10.1109/63.704146.

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40

Chen, Hua, and Ka Nang Leung. "A transient-improved low-dropout regulator with nested flipped voltage follower structure." International Journal of Circuit Theory and Applications 41, no. 10 (April 10, 2012): 1016–26. http://dx.doi.org/10.1002/cta.1812.

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41

One, Toshio. "Two-phase controlled switched-capacitor impedance simulation circuits using one voltage follower." Electronics and Communications in Japan (Part III: Fundamental Electronic Science) 79, no. 1 (1996): 1–11. http://dx.doi.org/10.1002/ecjc.4430790101.

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42

Jindal, Caffey, and Rishikesh Pandey. "Class‐AB level shifted flipped voltage follower cell using bulk‐driven technique." IET Circuits, Devices & Systems 12, no. 3 (February 6, 2018): 286–94. http://dx.doi.org/10.1049/iet-cds.2017.0305.

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43

Manikandan, P., and B. Bindu. "Dual-summed flipped voltage follower LDO regulator with active feed-forward compensation." AEU - International Journal of Electronics and Communications 123 (August 2020): 153314. http://dx.doi.org/10.1016/j.aeue.2020.153314.

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44

Wang, Xing, Lin Hua Piao, and Quan Gang Yu. "Research on Fluidic Gyroscope Signal Processing Circuit." Advanced Materials Research 542-543 (June 2012): 924–27. http://dx.doi.org/10.4028/www.scientific.net/amr.542-543.924.

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The fluidic gyroscope signal processing circuit was researched. This paper aims at the circuit problem for lots of electronic components and output signal instability, the adjustable voltage regulator circuit was used and realized the different voltage signal output, the stabilivolt and voltage follower were used and realized the temperature compensation for the voltage signal. The experiment results show that compared with the existing voltage regulator circuit, the PCB area reduces 16% and output signal’s temperature drift decreases 10% in the improved voltage circuit. This signal processing circuit is easy to apply and available for the others gyroscopes, whose repeatability precision is enough high.
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45

Caffey and Rishikesh Pandey. "High Performance CMOS Current Mirror Using Class-AB Level Shifted Bulk Driven Flipped Voltage Follower Cell." Journal of Circuits, Systems and Computers 28, no. 08 (July 2019): 1950140. http://dx.doi.org/10.1142/s0218126619501408.

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This paper presents a novel current mirror structure based on level shifted class-AB flipped voltage follower cell, which operates at the supply voltage of 1.2[Formula: see text]V. The level shifted class-AB flipped voltage follower cell and regulated cascode structure are used at the input and the output stages to achieve low input resistance and very high output resistance, respectively. A comparison of performance parameters of the proposed current mirror with existing structures shows that the proposed current mirror has a very less current tracking error of 0.99%, high output resistance of 18.7[Formula: see text]M[Formula: see text], wide bandwidth of 239.245[Formula: see text]MHz and low power dissipation of 104[Formula: see text][Formula: see text]W. The proposed circuit has been simulated in Cadence virtuoso analog design environment and layout of the proposed circuit has been designed in Cadence virtuoso layout XL editor using BSIM3V3 180[Formula: see text]nm CMOS technology. The post-layout simulation results have also been presented to demonstrate the effectiveness of the proposed circuit.
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46

Zamora-Mejia, Gregorio, Dario Edwin Gomez-Garcia, Huber Giron-Nieto, Jaime Martinez-Castillo, Luis Armando Moreno-Coria, Jose Miguel Rocha-Perez, and Alejandro Diaz-Sanchez. "A 0.18 μm CMOS capacitor-less Low-Drop Out Voltage Regulator Compensated via the Bootstrap Flipped-Voltage Follower." Microelectronics Journal 101 (July 2020): 104809. http://dx.doi.org/10.1016/j.mejo.2020.104809.

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47

Chang, C. M., and M. S. Lee. "Universal voltage-mode filter with three inputs and one output using three current conveyors and one voltage follower." Electronics Letters 30, no. 25 (December 8, 1994): 2112–13. http://dx.doi.org/10.1049/el:19941463.

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48

Nurhikmah, Nurhikmah, Iwan Sugriwan, and Ade Agung Harnawan. "Pembuatan Sistem Akuisisi Gas Karbon Monoksida Berbasis ATMega8535." Jurnal Fisika FLUX 1, no. 1 (January 5, 2019): 13. http://dx.doi.org/10.20527/flux.v1i1.6142.

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ATMega8535 microcontroller based data acquisition system for measure carbon monoxide gas with TGS 2600 carbon monoxide sensor has been realized. The equation of sensor characteristic is obtained by compared the value of carbon monoxide gases with voltage signal from TGS 2600 carbon monoxide sensor. The value of carbon monoxide gases concentration measured by Sanfix. The equation of sensor characteristic gave formula V = 0,1266 ln(x) + 0,0049, which V in voltage (volt) and x in part per million (ppm). The voltage signal as a product of sensor conditioned by voltage follower that applying OP07. the output signal from voltage follower connected with port A0, analog input in ATMega8535 microcontroller. Port A0 in ATMega8535 microcontroller has analog to digital converter (ADC) internally. The measurement data is displayed on the LCD character 16x2 and laptop via serial communication with Delphi interface program that it could noted the data in real time and could store the measurement data onto file in the form .xlsx. the system also used XAMPP program to store measurement data onto the form database. The range measurement of measuring instrument made is 6 to 80 ppm.
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49

Herencsár, Norbert, Kamil Vrba, Jaroslav Koton, and Abhirup Lahiri. "Realisations of single-resistance-controlled quadrature oscillators using a generalised current follower transconductance amplifier and a unity-gain voltage-follower." International Journal of Electronics 97, no. 8 (August 2010): 897–906. http://dx.doi.org/10.1080/00207211003733320.

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50

Langhammer, Lukas, Roman Sotner, Jan Dvorak, and Tomas Dostal. "Dual-Mode Multifunctional Reconnection-Less Reconfigurable Filter." Elektronika ir Elektrotechnika 26, no. 3 (June 26, 2020): 36–41. http://dx.doi.org/10.5755/j01.eie.26.3.25856.

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A novel solution of a reconnection-less reconfigurable filter is being presented. The filter works in the current mode, voltage mode, and mixed mode (voltage tocurrent) offering sixteen transfer functions in total. The structure utilizes a voltage differencing transconductance amplifier, current follower and voltage, and current amplifiers. The designed structure offers the control of the pole frequency and quality factor and the adjustment of the band-stop/band-pass area of available functions. The proposed design is supported by the PSpice simulations using available simulation models.
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