文件名称:LabVIEWemp
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labview编程实例+软件说明书,初学老手都看看啦-labview examples+ software programming instructions, beginners have to see啦veteran
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下载文件列表
【实例集锦】LabVIEW在控制系统中的应用\【实例集锦】LabVIEW在控制系统中的应用.pdf
.....................................\程序使用说明.pdf
.....................................\第11章--8.2\例11-1\MIMO型传递函数模型.vi
.....................................\...........\......\RLC电路的传递函数模型.vi
.....................................\...........\......\电容(竖).ctl
.....................................\...........\......\电感(横).ctl
.....................................\...........\......\电阻(横).ctl
.....................................\...........\......\符号化变量的传递函数模型.vi
.....................................\...........\......0\Nyquist图的绘制及判断系统稳定性.vi
.....................................\...........\......1\系统稳定裕量的计算.vi
.....................................\...........\......2\系统的可控性和可观性判定.vi
.....................................\...........\......3\系统的可控性和可观性阶梯型结构分解.vi
.....................................\...........\......4\系统的规范实现.vi
.....................................\...........\.....2\RLC电路的零极点增益模型.vi
.....................................\...........\.....3\RLC电路的状态空间模型.vi
.....................................\...........\.....4\各种形式模型之间的转化.vi
.....................................\...........\.....5\复杂模型的组合.vi
.....................................\...........\.....6\二阶连续系统的多种响应曲线.vi
.....................................\...........\.....7\附加零点对二阶连续系统阶跃响应曲线的影响.vi
.....................................\...........\.....8\连续系统与离散系统根轨迹图的绘制.vi
.....................................\...........\.....9\阻尼系数对二阶连续系统Bode图的影响.vi
.....................................\..........5\例11-1\MIMO型传递函数模型.vi
.....................................\...........\......\RLC电路的传递函数模型.vi
.....................................\...........\......\电容(竖).ctl
.....................................\...........\......\电感(横).ctl
.....................................\...........\......\电阻(横).ctl
.....................................\...........\......\符号化变量的传递函数模型.vi
.....................................\...........\......0\Nyquist图的绘制及判断系统稳定性.vi
.....................................\...........\......1\系统稳定裕量的计算.vi
.....................................\...........\......2\系统的可控性和可观性判定.vi
.....................................\...........\......3\系统的可控性和可观性阶梯型结构分解.vi
.....................................\...........\......4\系统的规范实现.vi
.....................................\...........\.....2\RLC电路的零极点增益模型.vi
.....................................\...........\.....3\RLC电路的状态空间模型.vi
.....................................\...........\.....4\各种形式模型之间的转化.vi
.....................................\...........\.....5\复杂模型的组合.vi
.....................................\...........\.....6\二阶连续系统的多种响应曲线.vi
.....................................\...........\.....7\附加零点对二阶连续系统阶跃响应曲线的影响.vi
.....................................\...........\.....8\连续系统与离散系统根轨迹图的绘制.vi
.....................................\...........\.....9\阻尼系数对二阶连续系统Bode图的影响.vi
.....................................\..........2\例11-1
.....................................\...........\例11-10
.....................................\...........\例11-11
.....................................\...........\例11-12
.....................................\...........\例11-13
.....................................\...........\例11-14
.....................................\...........\例11-2
.....................................\...........\例11-3
.....................................\...........\例11-4
.....................................\...........\例11-5
.....................................\...........\例11-6
.....................................\...........\例11-7
.....................................\...........\例11-8
.............................
.....................................\程序使用说明.pdf
.....................................\第11章--8.2\例11-1\MIMO型传递函数模型.vi
.....................................\...........\......\RLC电路的传递函数模型.vi
.....................................\...........\......\电容(竖).ctl
.....................................\...........\......\电感(横).ctl
.....................................\...........\......\电阻(横).ctl
.....................................\...........\......\符号化变量的传递函数模型.vi
.....................................\...........\......0\Nyquist图的绘制及判断系统稳定性.vi
.....................................\...........\......1\系统稳定裕量的计算.vi
.....................................\...........\......2\系统的可控性和可观性判定.vi
.....................................\...........\......3\系统的可控性和可观性阶梯型结构分解.vi
.....................................\...........\......4\系统的规范实现.vi
.....................................\...........\.....2\RLC电路的零极点增益模型.vi
.....................................\...........\.....3\RLC电路的状态空间模型.vi
.....................................\...........\.....4\各种形式模型之间的转化.vi
.....................................\...........\.....5\复杂模型的组合.vi
.....................................\...........\.....6\二阶连续系统的多种响应曲线.vi
.....................................\...........\.....7\附加零点对二阶连续系统阶跃响应曲线的影响.vi
.....................................\...........\.....8\连续系统与离散系统根轨迹图的绘制.vi
.....................................\...........\.....9\阻尼系数对二阶连续系统Bode图的影响.vi
.....................................\..........5\例11-1\MIMO型传递函数模型.vi
.....................................\...........\......\RLC电路的传递函数模型.vi
.....................................\...........\......\电容(竖).ctl
.....................................\...........\......\电感(横).ctl
.....................................\...........\......\电阻(横).ctl
.....................................\...........\......\符号化变量的传递函数模型.vi
.....................................\...........\......0\Nyquist图的绘制及判断系统稳定性.vi
.....................................\...........\......1\系统稳定裕量的计算.vi
.....................................\...........\......2\系统的可控性和可观性判定.vi
.....................................\...........\......3\系统的可控性和可观性阶梯型结构分解.vi
.....................................\...........\......4\系统的规范实现.vi
.....................................\...........\.....2\RLC电路的零极点增益模型.vi
.....................................\...........\.....3\RLC电路的状态空间模型.vi
.....................................\...........\.....4\各种形式模型之间的转化.vi
.....................................\...........\.....5\复杂模型的组合.vi
.....................................\...........\.....6\二阶连续系统的多种响应曲线.vi
.....................................\...........\.....7\附加零点对二阶连续系统阶跃响应曲线的影响.vi
.....................................\...........\.....8\连续系统与离散系统根轨迹图的绘制.vi
.....................................\...........\.....9\阻尼系数对二阶连续系统Bode图的影响.vi
.....................................\..........2\例11-1
.....................................\...........\例11-10
.....................................\...........\例11-11
.....................................\...........\例11-12
.....................................\...........\例11-13
.....................................\...........\例11-14
.....................................\...........\例11-2
.....................................\...........\例11-3
.....................................\...........\例11-4
.....................................\...........\例11-5
.....................................\...........\例11-6
.....................................\...........\例11-7
.....................................\...........\例11-8
.............................