文件名称:wodewenjian
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基于FPGA的电梯控制系统的设计
将电梯的运行状态划分为开门,一层,二层,三层,四层五个状态,设一层开门为电梯的初始状态,up1,up2,up3分别作为一层,二层,三层的上升请求,四层没有上升请求;down2,down3,down4分别作为二层,三层,四层的下降请求,同理一层是没有下降请求的;s1,s2,s3,s4分别作为一层,二层,三层,四层的停站请求;x1,x2,x3,x4分别作为一层,二层,三层,四层的停站请求显示;door作为门的状态,“0”表示关,“1”表示开;mode作为电梯的运行模式,这里可以用一个seg模块将楼层的显示转换为数码管显示。 -The elevator control system based on FPGA design
Will lift operation into a layer, the second door, and three layers, four layers, one of five layers of the elevator opened for the initial state, respectively, up2 up3 up1, as a layer 2 and layer 3, the rise and rise no request for four layers, Down2 down3 down4, respectively, as a second, third, fourth floor request, a drop down the request is not, S1, s2, s3, respectively, as a layer s4 2, 3, 4 stops, Clamps its x1, x2, respectively, as a x4 x3 layer 2 and layer 3, 4, stop that request, As the door, held "0", "1" say, Mode of operation mode, as the elevator here can use a seg module will be converted to digital display floor pipe display.
将电梯的运行状态划分为开门,一层,二层,三层,四层五个状态,设一层开门为电梯的初始状态,up1,up2,up3分别作为一层,二层,三层的上升请求,四层没有上升请求;down2,down3,down4分别作为二层,三层,四层的下降请求,同理一层是没有下降请求的;s1,s2,s3,s4分别作为一层,二层,三层,四层的停站请求;x1,x2,x3,x4分别作为一层,二层,三层,四层的停站请求显示;door作为门的状态,“0”表示关,“1”表示开;mode作为电梯的运行模式,这里可以用一个seg模块将楼层的显示转换为数码管显示。 -The elevator control system based on FPGA design
Will lift operation into a layer, the second door, and three layers, four layers, one of five layers of the elevator opened for the initial state, respectively, up2 up3 up1, as a layer 2 and layer 3, the rise and rise no request for four layers, Down2 down3 down4, respectively, as a second, third, fourth floor request, a drop down the request is not, S1, s2, s3, respectively, as a layer s4 2, 3, 4 stops, Clamps its x1, x2, respectively, as a x4 x3 layer 2 and layer 3, 4, stop that request, As the door, held "0", "1" say, Mode of operation mode, as the elevator here can use a seg module will be converted to digital display floor pipe display.
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