Relevant bibliographies by topics / LTspice

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'LTspice'

Author: Grafiati
Published: 4 June 2021
Last updated: 16 January 2024

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Journal articles on the topic "LTspice"

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Linggarjati, J. "DC Motor Simulation using LTSpice." IOP Conference Series: Earth and Environmental Science 426 (March 13, 2020): 012137. http://dx.doi.org/10.1088/1755-1315/426/1/012137.

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Mladenov, Valeri. "A Unified and Open LTSPICE Memristor Model Library." Electronics 10, no. 13 (July 2, 2021): 1594. http://dx.doi.org/10.3390/electronics10131594.

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In this paper, a unified and open linear technology simulation program with integrated circuit emphasis (LTSPICE) memristor library is proposed. It is suitable for the analysis, design, and comparison of the basic memristors and memristor-based circuits. The library could be freely used and expanded with new LTSPICE memristor models. The main existing standard memristor models and several enhanced and modified models based on transition metal oxides such as titanium dioxide, hafnium dioxide, and tantalum oxide are included in the library. LTSPICE is one of the best software for analysis and design of electronic schemes. It is an easy to use, widespread, and free product with very good convergence. Memristors have been under intensive analysis in recent years due to their nano-dimensions, low power consumption, high switching speed, and good compatibility with traditional complementary metal oxide semiconductor (CMOS) technology. In this work, their behavior and potential applications in artificial neural networks, reconfigurable schemes, and memory crossbars are investigated using the considered memristor models in the proposed LTSPICE library. Furthermore, a detailed comparison of the presented LTSPICE memristor model library is conducted and related to specific criteria, such as switching speed, operating frequencies, nonlinear ionic drift representation, boundary effects, switching modes, and others.
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Negri, Cesar A., Saeed Daneshvar Dehnavi, and Michael G. Giesselmann. "Universal Model of Pulsed Alternators Using LTspice." IEEE Transactions on Plasma Science 48, no. 10 (October 2020): 3435–42. http://dx.doi.org/10.1109/tps.2020.3017177.

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Abu Samah, Nur Liyana Mardhiah, Khuan Y. Lee, and Roziah Jarmin. "H $${^{+}}$$ + -ion-sensitive FET macromodel in LTSPICE IV." Journal of Computational Electronics 15, no. 4 (October 27, 2016): 1407–15. http://dx.doi.org/10.1007/s10825-016-0919-x.

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Mukhamejanova, A., D. Baigarashev, V. Bautin, S. Bulanova, T. Enik, Y. Kambar, E. Kuznetsova, et al. "Straw signal modeling using Garfield++ interface to LTSPICE." Journal of Physics: Conference Series 2642, no. 1 (November 1, 2023): 012005. http://dx.doi.org/10.1088/1742-6596/2642/1/012005.

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Abstract The aim of this work is to describe method of modeling straw signal using Garfield++ interface to LTspice. Straw Tube Trackers will be use in the SPD experiment. When designing such large scale and complex detector it is of extreme importance to run precise simulations. The physical task of this research is to reliably predict drift time and shape signal, which is important for further modeling of electronics for SPD Straw Trackers
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Hay, Robert, Ranajoy Bhattacharya, Winston Chern, Girish Rughoobur, Akintunde I. Akinwande, and Jim Browning. "Simulation Modelling of Silicon Gated Field Emitter Based Electronic Circuits." Applied Sciences 13, no. 23 (November 29, 2023): 12807. http://dx.doi.org/10.3390/app132312807.

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Vacuum transistors (VTs) are promising candidates in electronics due to their fast response and ability to function in harsh environments. In this study, several oscillator and logic gate circuit simulations using VTs are demonstrated. Silicon-gated field emitter arrays (Si-GFEAs) with 1000 × 1000 arrays were used experimentally to create a VT model. First, transfer and output characteristics sweeps were measured, and based on those data, an LTspice vacuum transistor (VT) model was developed. Then, the model was used to develop Wein and Ring oscillator circuits. The circuits were analytically simulated using LTspice, where the collector bias voltage was 200 V DC, and the gate bias voltage was 30–40 V DC. The Wein oscillator circuit produced a frequency of 102 kHz with a magnitude of 26 Vpp. The Ring oscillator produced a frequency of 1.14 MHz with a magnitude of 4 Vpp. Furthermore, two logic circuits, NOR and NAND gates, were also demonstrated using LTspice modeling. These simulation results illustrate the feasibility of integrating VTs into functional integrated circuits and provide a design approach for future on-chip vacuum transistors applied in logic or radio-frequency (RF) devices.
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K, Sudarshan Adiga. "Simulation of Wireless Mobile Charging Model in LTSpice Software." International Journal for Research in Applied Science and Engineering Technology 8, no. 6 (June 30, 2020): 118–23. http://dx.doi.org/10.22214/ijraset.2020.6018.

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Giesselmann, Michael, and Vishwajit Roy. "Modeling of power supplies for power modulators with LTspice." IEEE Transactions on Dielectrics and Electrical Insulation 26, no. 2 (April 2019): 508–14. http://dx.doi.org/10.1109/tdei.2019.007721.

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Pitrėnas, Aurelijus. "DEAD-TIME GENERATION IN SIX-PHASE FREQUENCY INVERTER / TRANZISTORIŲ VALDYMO SIGNALŲ VĖLINIMO GRANDINĖS ŠEŠIAFAZIAME DAŽNIO KEITIKLYJE." Mokslas – Lietuvos ateitis 8, no. 3 (June 29, 2016): 345–50. http://dx.doi.org/10.3846/mla.2016.938.

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In this paper control of multi-phase induction drives is discussed. Structure of six-phase frequency inverter is examined. The article deals with dead-time generation circuits in six-phase frequency inverter for transistor control signals. Computer models of dead-time circuits is created using LTspice software package. Simulation results are compared with experimental results of the tested dead-time circuits. Parameters obtained in simulation results are close to the parameters obtained in experimental results. Šiame straipsnyje atskleistas daugiafazių asinchroninių pavarų valdymas, išnagrinėta šešiafazio dažnio keitiklio sandara. Straipsnyje nagrinėjama šešiafazio dažnio keitiklio inverterio tranzistorių valdymo signalų vėlinimo grandinės. Sudaryti jų kompiuteriniai modeliai, naudojant LTspice programinį paketą gauti grandinių imitaciniai rezultatai, kurie palyginti su eksperimentiniais šių grandinių tyrimo rezultatais. Gaunamos imitacinių rezultatų parametrų vertės yra artimos eksperimentinių tyrimų rezultatams.
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V.Mouliraj, Ramesh Kumar Yadav, and N.Balachandar. "Pressure sensor diaphragm modelling and deformation analysis." International Journal of Scientific Methods in Engineering and Management 01, no. 03 (2023): 01–08. http://dx.doi.org/10.58599/ijsmem.2023.1301.

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This paper develops Micro-electromechanical Systems-based pressure sensor diaphragms (MEMS). This paper aims to build, model, and test a MEMS-based diaphragm that uses numerous structures of the same area and material to sense differential pressure. Similar goals: Diaphragm deflection and sensitivity were studied using COMSOL multiphysics software. LTspice is a high-performance SPICE simulator with a graphical schematic capture interface. The diaphragm bends when pressure changes, affecting the substrate-diaphragm displacement in COMSOL and the voltage output in LTspice via changing the resistances of three sensors. Voltage output changes with diaphragm bending. Changing voltage and displacement indicate environmental pressure. This method improves instrument response. In this work, a circular diaphragm-based pressure sensor has higher displacement, sensitivity, and stress output responses than a square or rectangular one.
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Dissertations / Theses on the topic "LTspice"

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Pakaslahti, M. (Marko). "Akun mallintaminen LTspice-piirisimulaattorilla." Bachelor's thesis, University of Oulu, 2017. http://urn.fi/URN:NBN:fi:oulu-201712213386.

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Kandidaatintyössä mallinnetaan Li-Ion- ja NiMH-akun sähköiset ominaisuudet LTspice-piirisimulaattorilla. Mallinnus toteutettiin kahdella piirillä. Ensimmäinen piiri ohjaa varaustason tilaa akun kapasiteetin mukaan. Toinen piiri mallintaa akun I-V-ominaisuuksia vastuksilla ja kondensaattoreilla. Nämä komponentit mallinnettiin ohjattujen virta- ja jännitelähteiden avulla, koska niihin oli mahdollista rakentaa haluttu taulukkopohjainen epälineaarisuus. Ohjattujen lähteiden arvo riippuu kahdesta ohjauksesta: ensimmäisen piirin kehittämästä varaustasosta ja purkuvirran suuruudesta. Tulokset olivat kohtuullisen tarkkoja ja realistisia. Simuloinneissa otettiin myös huomioon akkujen lämpötilat ja latauskerrat. Lopuksi voitiin todeta, että LTspice-malli oli tarkka, nopea käyttää ja kaikkien saatavilla
In this Bachelor’s thesis, the Li-Ion and the NiMH batteries were modeled with the analog circuit simulator LTspice. Modeling was carried through with two circuits. The first circuit calculates the state of charge with a capacity of the battery. Second circuit models the battery’s I-V-characteristics with table-defined resistors and capacitors. These components were modeled with the help of arbitrary behavioral voltage and current sources, because those can be defined as tables. Behavioral voltage sources were depending the first circuit state of charge and value of discharge current. The results were reasonable accurate and realistic. Batteries temperatures and charging cycles were also simulated. In conclusion, it can be stated that the LTspice model was accurate, fast to use and available for everybody
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Retianza, Darian Verdy. "Design and Implementation of 4-Stroke Topology in Electric Drives." Thesis, KTH, Skolan för elektroteknik och datavetenskap (EECS), 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-232188.

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The 4-Stroke inverter topology is investigated and implemented in thisthesis as a method to damp the oscillation at the MOSFET drain-sourcevoltage when reverse recovery occurs. The aim is lower ElectromagneticInterference source level from the power inverter. The designprocess is coming from analyzing the appropriate inductor, making asimulation in LTSPICE and making a high-performance six-layer PCBfor the high current application. Finally, the prototype is tested in differentcontrol timing, radiated emission test and conducted emissiontest.
4-taktsomvandlarens topologi undersöks och implementeras i dennaavhandling som en metod för att dämpa oscillation när reverse recoverysker i slutstegets MOSFET. Syftet är att dämpa elektromagnetiskstörning från kraftomvandlaren. Designprocessen är att analyseralämplig induktans, göra en simulering i LTSPICE och designa ett högpresterande6-lager PCB för kraftiga strömmar. Slutligen testas prototypenmed olika kontrolltider, elektromagnetisk emission och elektromagnetiskkonduktion.
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Campioli, Serena. "Analisi e progettazione del sistema di generazione e gestione di potenza per CubeSat." Bachelor's thesis, Alma Mater Studiorum - Università di Bologna, 2018.

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Un CubeSat appartiene alla classe di nanosatelliti, regolamentata dal CubeSat Standard che ne identifica dimensioni e peso. In ogni CubeSat sono presenti differenti sottosistemi che devono collaborare per poter operare al meglio ed evitare il fallimento della missione. Il sottosistema in esame in questo elaborato è quello di generazione e gestione della potenza elettrica. Tale sistema è vitale per la missione, poiché deve garantire tensione, corrente e potenza adeguata ad ogni carico presente a bordo (i sottosistemi stessi) e compensare alle eventuali perdite e ad eventuali assorbimenti eccessivi o fluttuazioni. L'analisi approfondita dei componenti e dei collegamenti circuitali interni di tale sistema, unita allo studio della principale problematica di ricerca del punto di massima potenza, sono essenziali per comprendere al meglio il funzionamento del sottosistema stesso. Dopo aver elaborato un power budget della missione e individuato i componenti (pannelli solari, accumulatori e circuiti integrati), è utile implementare sia il circuito equivalente della cella solare sia il circuito dell'intero sistema su programmi di analisi circuitale, come LTspice XVII. Tali schematizzazioni sono importanti per comprendere a fondo il comportamento e attuare analisi circuitali. Il dimensionamento deve essere effettuato in modo tale da soddisfare le richieste di potenze, tensione e corrente dei carichi da alimentare.
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Karlsson, Mattias. "COMPARISON AND EVALUATION OF HARDWARE MODELLING AND SIMULATION TOOLS." Thesis, Tekniska Högskolan, Högskolan i Jönköping, JTH, Data- och elektroteknik, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:hj:diva-16734.

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Avionics Division of Saab AB develops advanced electronics that need to be robust and work in harsh environments with for example extreme temperatures and cosmic radiation without any failure. To succeed with this the electronics need to be simulated and tested. Therefore this thesis work is done to strengthen the Avionics Division’s knowledge of hardware modelling and simulation by evaluating the simulation tools LTSpice, PSpice and SystemVision, their functions and capabilities. In this thesis a survey is carried out with help of a questionnaire to study the Avionics Division’s needs for simulation. The survey is underlying an analysis of the analyses that can be performed by the simulation tools for example Sensitivity analysis, Worst Case analysis, Monte Carlo analysis and Parametric Sweep analysis. The different analyses are discussed in the thesis. The questionnaire is also underlying an analysis of the tools LTSpice, PSpice and SystemVision. The result of the analysis is summarized in Table 1. A case study of a circuit simulation in SystemVision, based on an existing circuit used by Avionics Division, is also done within this thesis work. The study is done to evaluate the tool’s usability, to see if it is easy to perform a simulation and if it is easy to find and use suitable models from the model library. The case study describes how a simulation is performed in SystemVision and how an AC analysis of a Butterworth filter is done. A stability and reliability check of the tool is performed as well as a robustness simulation. The analyses were easy to do and the overall impression is that SystemVision is reliable and user friendly structured. In order to check and compare the results of the AC analysis the same analysis is performed using LTSpice. The comparison shows that the results differ. This depending on that the models of the circuit were some what different in LTSpice and SystemVision. The final conclusion is that SystemVision would fit within Avionics Division’s workflow. Using SystemVision demands education of the engineers to secure maximum use of all the advantages of SystemVision.
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Mirabella, Michele. "Digitally Adjustable Step Up Converter." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2021.

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DC-DC converters are electronic devices used to change DC electrical power efficiently from one voltage level to another. Complex systems like an industrial printer require accurate high voltage levels to let the print head nozzles spit out the ink in the proper way, according to the pattern to be printed. Creadigit, product of System S.p.a, is a high precision printing system used in decorations for ceramic products. It is actually powered by a couple of rack mounted AC-DC converters, which offer simple powering solution at low cost. Nevertheless, the total system efficiency can be sensibly increased with the introduction of a DC-DC Step UP converter in place of the AC-DC supply. This thesis is focused on the analysis, modeling, design and implementation of a Boost converter for such application. One project goal is to provide the converter the ability to digitally adjust the output voltage according to the requirements of each printing head, thus leading to a consistent power saving of the entire system. The work structure is so arranged: first of all, it is explained the architecture of the printing system and the inkjet printing mechanism so as to understand why high voltage supplies are required. Secondly, the power amplifier system is analyzed through simulation in LTSpice environment. During these simulations, there will be an analysis of potential power savings introduced by the adoption of the adjustable DC-DC converter. It follows the Boost converter theory, necessary to understand the operation of the key element of this project. Moreover, a detailed study of the complex world of capacitors is developed. In fact, the output capacitor selection is one of the trickiest part in the design of a switching DC-DC converter. In this thesis, a short theoretical study about EMC in SMPS converters is accompanied by simulations that could anticipate the results of in-field studies. In the end, some results of a first DC-DC converter prototype will be presented.
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Schroeder, Wade Anthony. "Conductivity Sensor Circuit." University of Dayton / OhioLINK, 2015. http://rave.ohiolink.edu/etdc/view?acc_num=dayton1429537491.

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Rakk, Adrian. "Automatically measuring the resistive loss of a transformer : A project in cooperation with Alstom Power Sweden." Thesis, Blekinge Tekniska Högskola, Institutionen för tillämpad signalbehandling, 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-10791.

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In order to develop more economical and ecologically friendly transformers it is necessary to know the losses throughout the product development process. There are several losses related to transformers, but in this particular case the focus will be on the resistive loss of the transformer. In order to measure this loss first the resonant frequency of the transformer is determined. Since at resonance the secondary side of the transformer is considered to be purely resistive. The aim of this paper is to design and build a closed loop measurement system that is able to perform this task.
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Talarico, Andrea. "Analisi di un inverter implementato mendiante tecnologie ad ampio bandgap." Bachelor's thesis, Alma Mater Studiorum - Università di Bologna, 2022. http://amslaurea.unibo.it/25393/.

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Studio e simulazioni un inverter con diverse topologie e modulazioni PWM, impiegando 3 diverse tecnologie: MOSFET al Silicio, transistore al Nitruro di Gallio e MOSFET al Carburo di Silicio. Le topologie prese in esame sono: Full-Bridge e HERIC. Le modulazioni PWM prese in esame sono: bipolare, unipolare, semi-onda, ibrida.
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Engstrand, Johan, Niklas Kavathatzopoulos, and Jonathan Nordenholm. "Simulation and Construction of a Half-Bridge Class D Audio Amplifier." Thesis, Uppsala universitet, Fasta tillståndets elektronik, 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-353789.

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Usage of class D audio amplifiers has become increasingly widespread in recent years, mainly due to their high efficiency, which can reach almost 100 %. Class D amplifiers can also be compact, making them suitable for mobile applications. In contrast, the most efficient conventional amplifiers such as class B can reach a maximum efficiency of 78.5 %. The high efficiency of class D amplifiers can be attributed to the switching stage, which in the case of a half-bridge design consists of two amplifying MOSFETs. These MOSFETs are never on at the same time, which minimizes the quiescent current and thereby the power losses. The goal of this project was to design, simulate and construct a half-bridge class D audio amplifier. A working amplifier with 80 % efficiency was built, with power losses occuring mainly in the voltage regulators. Simulations of the amplifier corresponded well with the constructed amplifier apart from issues originating from the aforementioned voltage regulation as well as the triangle wave generator. The goal of the project was achieved and the finished amplifier possessed good sound quality and little unwanted noise. To further improve on the design, better voltage regulation, a full-bridge configuration and a feedback loop could be utilized.
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Black, Travis Glenn. "Resilience of Microgrid during Catastrophic Events." Thesis, University of North Texas, 2018. https://digital.library.unt.edu/ark:/67531/metadc1157603/.

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Today, there is a growing number of buildings in a neighborhood and business parks that are utilizing renewable energy generation, to reduce their electric bill and carbon footprint. The most current way of implementing a renewable energy generation is to use solar panels or a windmill to generate power; then use a charge controller connected to a battery bank to store power. Once stored, the user can then access a clean source of power from these batteries instead of the main power grid. This type of power structure is utilizing a single module system in respect of one building. As the industry of renewable power generation continues to increase, we start to see a new way of implementing the infrastructure of the power system. Instead of having just individual buildings generating power, storing power, using power, and selling power there is a fifth step that can be added, sharing power. The idea of multiple buildings connected to each other to share power has been named a microgrid by the power community. With this ability to share power in a microgrid system, a catastrophic event which cause shutdowns of power production can be better managed. This paper then discusses the data from simulations and a built physical model of a resilient microgrid utilizing these principles.
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Books on the topic "LTspice"

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Asadi, Farzin. Essential Circuit Analysis using LTspice®. Cham: Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-09853-6.

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May, Colin. Passive Circuit Analysis with LTspice®. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-38304-6.

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González, Mónica Liliana. LTspice. Editorial de la Universidad Nacional de La Plata (EDULP), 2018. http://dx.doi.org/10.35537/10915/69818.

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El propósito de este texto es presentar al simulador LTspice XVII (LTspice IV, en versión anterior) como herramienta para el análisis y simulación de dispositivos y circuitos eléctricos y electrónicos. Si bien, como veremos a continuación, se encuentra una amplia variedad de programas similares, la elección de LTspice XVII reside en su facilidad de uso y, fundamentalmente, por ser de versión completa y de acceso libre. Actualmente, la utilización de algún programa de simulación acompaña al estudio tanto de los dispositivos electrónicos como del análisis de cualquier circuito. El enfoque del texto está orientado a obtener un uso básico del programa analizando al mismo tiempo características de dispositivos electrónicos, dejando al lector profundizar en el conocimiento del programa según sus necesidades.
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LTspice for Linear Circuits. Wiley & Sons, Incorporated, John, 2023.

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LTspice® for Linear Circuits. Wiley & Sons, Limited, John, 2023.

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Essential Circuit Analysis Using LTspice®. Springer International Publishing AG, 2022.

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Electronic Circuit Analysis Using Ltspice XVII Simulator. Taylor & Francis Group, 2021.

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CMOS Integrated Circuit Simulation with LTspice IV. Bookboon.com, 2013.

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Brocard, Gilles. The LTSpice IV Simulator: Manual, methods and applications. Swiridoff Verlag, 2013.

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May, Colin. Passive Circuit Analysis with LTspice®: An Interactive Approach. Springer International Publishing AG, 2021.

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Book chapters on the topic "LTspice"

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May, Colin. "LTspice Essentials." In Passive Circuit Analysis with LTspice®, 1–40. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-38304-6_1.

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Gräßer, Andreas. "Crashkurs LTspice." In Analyse linearer und nichtlinearer elektrischer Schaltungen, 119–40. Wiesbaden: Springer Fachmedien Wiesbaden, 2023. http://dx.doi.org/10.1007/978-3-658-41009-4_10.

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Mohindru, Pooja, and Pankaj Mohindru. "Introducing LTspice XVII Circuit Simulator." In Electronic Circuit Analysis using LTspice XVII Simulator, 1–30. Boca Raton: CRC Press, 2021. http://dx.doi.org/10.1201/9781003199489-1-1.

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Asadi, Farzin. "Simulation of Electric Circuits with LTspice®." In Essential Circuit Analysis using LTspice®, 1–175. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-09853-6_1.

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Asadi, Farzin. "Simulation of Digital Circuits with LTspice®." In Essential Circuit Analysis using LTspice®, 365–90. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-09853-6_3.

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Asadi, Farzin. "Simulation of Electronic Circuits with LTspice®." In Essential Circuit Analysis using LTspice®, 177–364. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-09853-6_2.

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Asadi, Farzin. "Simulation of Power Electronics Circuits with LTspice®." In Essential Circuit Analysis using LTspice®, 391–543. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-09853-6_4.

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May, Colin. "Transmission Lines." In Passive Circuit Analysis with LTspice®, 417–44. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-38304-6_10.

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May, Colin. "Inductors and Transformers." In Passive Circuit Analysis with LTspice®, 445–500. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-38304-6_11.

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May, Colin. "LR and LCR Circuits." In Passive Circuit Analysis with LTspice®, 501–52. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-38304-6_12.

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Conference papers on the topic "LTspice"

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Jose, Anjali Pavarattykaran, and Ying-Khai Teh. "Ferroelectric Capacitor Modelling in LTSpice." In 2022 IEEE 15th Dallas Circuit And System Conference (DCAS). IEEE, 2022. http://dx.doi.org/10.1109/dcas53974.2022.9845649.

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Lutovac, Miroslav, and Vladimir Mladenović. "Contemporary Electronics with LTSpice and Mathematica." In Synthesis 2015. Belgrade, Serbia: Singidunum University, 2015. http://dx.doi.org/10.15308/synthesis-2015-134-138.

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Negri, Cesar, Saeed Daneshvardehnavi, and Michael Giesselmann. "Dynamic Modeling of Pulsed Alternators Using Ltspice." In 2019 IEEE Pulsed Power & Plasma Science (PPPS). IEEE, 2019. http://dx.doi.org/10.1109/ppps34859.2019.9009899.

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Kubov, V. I., Y. Y. Dymytrov, and R. M. Kubova. "LTspice-model of thermoelectric Peltier-Seebeck element." In 2016 IEEE 36th International Conference on Electronics and Nanotechnology (ELNANO). IEEE, 2016. http://dx.doi.org/10.1109/elnano.2016.7493007.

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5

Shin, Jong-Won, and Joonho Shin. "Simulating Wide Bandgap FET Models in LTspice." In 2022 International Power Electronics Conference (IPEC-Himeji 2022- ECCE Asia). IEEE, 2022. http://dx.doi.org/10.23919/ipec-himeji2022-ecce53331.2022.9806913.

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6

Giesselmann, Michael, and Vishwajit Roy. "Modeling Power Factor Correction Circuits with LTspice." In 2018 IEEE International Power Modulator and High Voltage Conference (IPMHVC). IEEE, 2018. http://dx.doi.org/10.1109/ipmhvc.2018.8936816.

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7

Gadjeva, Elissaveta, Ilona Iatcheva, and Nikolina Petkova. "Stability Analysis of Electronic Circuits Using LTSPICE." In 2023 International Scientific Conference on Computer Science (COMSCI). IEEE, 2023. http://dx.doi.org/10.1109/comsci59259.2023.10315842.

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8

Moumouni, Yacouba, and R. Jacob Baker. "LTspice model of a solar thermoelectric generation system." In 2016 Clemson University Power Systems Conference (PSC). IEEE, 2016. http://dx.doi.org/10.1109/psc.2016.7462848.

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9

Wirasapta, Andicho Haryus, Prapto Nugroho, and Sigit Basuki Wibowo. "Designing QPSK Modulator Using LTspice-Based Discrete Components." In 2022 IEEE International Conference on Communication, Networks and Satellite (COMNETSAT). IEEE, 2022. http://dx.doi.org/10.1109/comnetsat56033.2022.9994317.

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10

Khairkar, Khushboo, Prasad Khandekar, Khambete Uday P, and Jatana. "Design of FPGA Building Blocks Using LTspice®." In 2021 4th International Conference on Recent Developments in Control, Automation & Power Engineering (RDCAPE). IEEE, 2021. http://dx.doi.org/10.1109/rdcape52977.2021.9633520.

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