Using programs of the MicroCap family to study and designing digital components and circuits
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Abstract
Functional possibilities of the programs of family MicroCap are considered for a study and design of digital components, circuits and systems in courses for digital to circuit technique. General principles design is expounded for all digital objects and features of modeling digital objects of combinative type
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References
M. Z. Zgurovs’kij, Bolons'kij process: golovnі principi ta shlyahi strukturnogo reformuvannya vishchoї osvіti Ukraїni [The Bologna process: the main principle and the path of structural reform in Ukraine], Kiev: NTTU «KPІ», 2006, p. 544.
Bojko . V. І., Gurzhіj A. M., and V. Y. ZHujkov, Skhemotekhnіka elektronnih sistem: U 3 kn. Kn. 2. Cifrova skhemotekhnіka: Pіdruchnik, 2-ge vid., dopov. і pererobl [Circuitry of electronic systems: U 3 kn. Book. 2. Digital circuitry: Pidruchnik, 2nd type.], 2nd ed. Kiev: Vishcha shkola.
V. I. Zubchuk, V. P. Sigorskij, and A. N. SHkuro, Spravochnik po cifrovoj skhemotekhnike [Digital Circuitry Reference], Kiev: Tekhnika, 1990, p. 448.
V. M. Ryaben’kij, V. Y. ZHujkov, and V. D. Gulij, Cifrova skhemotekhnіka: Navchal'nij Posіbnik [Digital circuitry: Navchalny Posibnik], Lviv: «Novij Svіt-2000», 2009, p. 736.
E. P. Ugryumov, Cifrovaya skhemotekhnika [Digital circuitry], BHV – Petersburg, 2004, p. 528.
K. Frike, Vvodnyj kurs cifrovoj elektroniki [Introductory course in digital electronics], Moscow: Tekhnosfera, 2004, p. 432.
N. P. Babich and I. A. ZHukov, Komp'yuternaya skhemotekhnika. Metody postroeniya i proektirovaniya: Uchebnoe posobie [Computer circuitry. Build and Design Techniques: A Tutorial], Kiev: «MK–Press», 2004, p. 576.
Y. I. Yakymenko, T. O. Tereshchenko, Y. I. Sokol, V. I. Zhuikov, Y. S. Peterheria, and T. O. Tereshchenko, Mikroprotsesorna tekhnika: Pidruchnyk [Microprocessor technology: Textbook], Kiev: Vydavnytstvo «Politekhnik», 2003, p. 440.
V. Trampert, AVR-RISC mikrokontrollery: Per. s nem. [AVR-RISC microcontrollers], Kiev: «MK-Press», 2006, p. 464.
R. I. Grushvickij, A. H. Mursiev, and E. P. Ugryumov, Proektirovanie sistem na mikroskhemah programmiruemoj logiki [Design of systems based on programmable logic microcircuits], SPB: BHV – Petersburg, 2002, p. 608.
E. V. Avdeev, I. P. Eryomin, and M. I. Norenkov, Peskov Sistemy avtomatizirovannogo proektirovaniya v radioelektronike: Spravochnik [Computer-aided design systems in electronics: Handbook], Moscow: Radio i svyazi, 1986, p. 368.
A. I. Petrenko, Kiev: Tekhnika, Osnovy avtomatizacii proektirovaniya [Basics of design automation], 1982, p. 295.
A. I. Petrenko, O. F. Curin, and G. D. Kiselyov, Avtomatizaciya proektirovaniya cifrovyh skhem [Digital circuit design automation], Kiev: Vishcha shkola, 1978, p. 150.
V. D. Razevig, Sistema modelirovaniya Micro–Cap 6 [Modeling system Micro-Cap 6], Moscow: Goryachaya liniya–Telekom, 2001, p. 344.
V. I. Karlashchuk, Elektronnaya laboratoriya na IBM PC. Programma Electronics Workbench i eyo primenenie, 2-e izd., dop. i pererab [Electronic laboratory on IBM PC. Electronics Workbench software and its applications], Moscow: Solon–R, 2001, p. 726.
V. D. Razevig, Sistema proektirovaniya OrCAD 9.2 [OrCAD 9.2 design system], Moscow: Solon–R., 2001, p. 519.
