Multisim软件在信号与系统课程实验教学中的应用
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摘要
针对信号与系统课程学习中存在的"教难学更难"的现状,系统研究了如何将Multisim虚拟仿真软件应用于该课程实验预习、实物实验、实验总结、实验创新等环节.利用该虚拟仿真软件可以从电路级别很好地模拟实物实验系统,真正将理论教学与实物实验教学融为一体,将抽象的信号与系统学习与面向实际应用的电路类课程学习紧密联系起来.实践证明, Multisim虚拟仿真软件的应用大大提升了学生的学习兴趣,培养了学生的自学能力、理论联系实践能力以及自主创新能力.
In view of the current situation of "hard to teach and harder to learn" in the teaching of "signal and system", the application of the virtual simulation software Multisim in experimental preparation, physical experiment, experimental summary and experimental innovation was systematically researched in this paper. By using this virtual simulation software, the physical experiment system can be well simulated, which can really integrate theoretical teaching with physical experiments and link closely the abstract learning of "signal and system" to circuit-oriented courses for practical applications. It has been proved by practice that the application of the virtual simulation software Multisim can widely promote the interest of students' study and cultivate their ability of self-learning, connection between theory and practice and independent innovation.
In view of the current situation of "hard to teach and harder to learn" in the teaching of "signal and system", the application of the virtual simulation software Multisim in experimental preparation, physical experiment, experimental summary and experimental innovation was systematically researched in this paper. By using this virtual simulation software, the physical experiment system can be well simulated, which can really integrate theoretical teaching with physical experiments and link closely the abstract learning of "signal and system" to circuit-oriented courses for practical applications. It has been proved by practice that the application of the virtual simulation software Multisim can widely promote the interest of students' study and cultivate their ability of self-learning, connection between theory and practice and independent innovation.
引文
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[6]郑宾. Multisim仿真在模拟电路实验教学中的应用[J].实验室研究与探索, 2013, 32(02):103~105, 122
[7]付扬. Multisim仿真在电工电子实验中的应用[J].实验室研究与探索, 2011, 30(04):120~122, 126
[8]付扬.基于Multisim技术的电子电路综合设计改革[J].实验技术与管理, 2017, 34(04):112~114, 198
[9]谷爱昱,罗志伟,彭峰,等.基于NI myDAQ的电路实验教学设计与应用[J].实验室科学, 2018, 21(02):88~90, 93
[10]黄建清,李婉萍,王立辉,等. Multisim在模拟电子技术课程设计中的应用[J].教育现代化, 2017, 4(14):168~170
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[13]张耀,赵光宙,黄忠慧.一种高精度失真度测量仪的研制[J].仪器仪表学报, 2007, 28(05):837~842
[14]马月辉,石彦丛,王颜芳.基于FFT的低频谐波失真度测试仪[J].自动化与仪器仪表, 2001(06):32~34
[2]赵琰.信号与系统实验教学改革初探[J].实验室科学, 2010, 13(04):32~34
[3]杜世民,杨润萍.基于Matlab GUI的“信号与系统”教学仿真平台开发[J].实验技术与管理, 2012, 29(03):87~90
[4]罗朝明,李文,李延平,等.基于Matlab和VB的《信号与系统》虚拟实验系统[J].湖南理工学院学报(自然科学版), 2007, 20(01):59~61
[5]罗朝明,吴祥营,陶扬威,等.虚拟实验在《信号与系统》教学中的应用[J].电子技术, 2014, 43(01):61~63
[6]郑宾. Multisim仿真在模拟电路实验教学中的应用[J].实验室研究与探索, 2013, 32(02):103~105, 122
[7]付扬. Multisim仿真在电工电子实验中的应用[J].实验室研究与探索, 2011, 30(04):120~122, 126
[8]付扬.基于Multisim技术的电子电路综合设计改革[J].实验技术与管理, 2017, 34(04):112~114, 198
[9]谷爱昱,罗志伟,彭峰,等.基于NI myDAQ的电路实验教学设计与应用[J].实验室科学, 2018, 21(02):88~90, 93
[10]黄建清,李婉萍,王立辉,等. Multisim在模拟电子技术课程设计中的应用[J].教育现代化, 2017, 4(14):168~170
[11]康华光,陈大钦,张林.模拟电子技术基础[M].第5版.北京:高等教育出版社, 2006
[12]罗杰,谢自美.电子线路设计·实验·测试[M].第4版.北京:电子工业出版社, 2008
[13]张耀,赵光宙,黄忠慧.一种高精度失真度测量仪的研制[J].仪器仪表学报, 2007, 28(05):837~842
[14]马月辉,石彦丛,王颜芳.基于FFT的低频谐波失真度测试仪[J].自动化与仪器仪表, 2001(06):32~34
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