文件名称:CaiDeng
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设计一个控制电路来实现8路彩灯按照一定的次序和时间间隔闪烁。具体要求如下:
1、当控制开关为0时,灯全灭;当控制开关为1时,从第一盏开始,依次点亮,时间间隔为1秒。期间一直保持只有一盏灯亮、其他灯全灭的状态。
2、8盏灯依次亮完后,从第8盏开始依次灭,期间一直保持只有一盏灯灭、其他灯全亮的状态。
3、当8盏灯依次灭完后,8盏灯同时亮同时灭,其时间间隔为0.5秒,并重复4次。
4、只要控制开关为1,上述亮灯次序不断重复。-Designing a control circuit to achieve 8 lights follow a certain sequence and time interval flashes. Specific requirements are as follows: 1, when the control switch is 0, the lights all off When the control switch is 1:00, beginning from the first light, turn light, the time interval is 1 second. During remains only a lamp lit, the other lights all off state. 2,8 lights turn bright finished, sequentially from the first eight off, only one lamp remains off period, other lights all bright state. 3, when the lights turn off after eight, eight lights lit simultaneously while off, the time interval of 0.5 seconds, and repeat four times. 4, as long as a control switch, said light sequence is repeated.
1、当控制开关为0时,灯全灭;当控制开关为1时,从第一盏开始,依次点亮,时间间隔为1秒。期间一直保持只有一盏灯亮、其他灯全灭的状态。
2、8盏灯依次亮完后,从第8盏开始依次灭,期间一直保持只有一盏灯灭、其他灯全亮的状态。
3、当8盏灯依次灭完后,8盏灯同时亮同时灭,其时间间隔为0.5秒,并重复4次。
4、只要控制开关为1,上述亮灯次序不断重复。-Designing a control circuit to achieve 8 lights follow a certain sequence and time interval flashes. Specific requirements are as follows: 1, when the control switch is 0, the lights all off When the control switch is 1:00, beginning from the first light, turn light, the time interval is 1 second. During remains only a lamp lit, the other lights all off state. 2,8 lights turn bright finished, sequentially from the first eight off, only one lamp remains off period, other lights all bright state. 3, when the lights turn off after eight, eight lights lit simultaneously while off, the time interval of 0.5 seconds, and repeat four times. 4, as long as a control switch, said light sequence is repeated.
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下载文件列表
CaiDeng\BACK.asm.rpt
.......\BACK.bsf
.......\BACK.done
.......\BACK.fit.rpt
.......\BACK.fit.summary
.......\BACK.flow.rpt
.......\BACK.map.rpt
.......\BACK.map.summary
.......\BACK.pin
.......\BACK.pof
.......\BACK.qpf
.......\BACK.qsf
.......\BACK.qws
.......\BACK.sim.rpt
.......\BACK.sof
.......\BACK.tan.rpt
.......\BACK.tan.summary
.......\BACK.vhd
.......\BACK.vhd.bak
.......\BACK.vwf
.......\Caideng.asm.rpt
.......\Caideng.bdf
.......\Caideng.done
.......\Caideng.dpf
.......\Caideng.fit.rpt
.......\Caideng.fit.summary
.......\Caideng.flow.rpt
.......\Caideng.map.rpt
.......\Caideng.map.summary
.......\Caideng.pin
.......\Caideng.pof
.......\Caideng.qpf
.......\Caideng.qsf
.......\Caideng.qws
.......\Caideng.sim.rpt
.......\Caideng.sof
.......\Caideng.tan.rpt
.......\Caideng.tan.summary
.......\Caideng.vwf
.......\CNT1.asm.rpt
.......\CNT1.bsf
.......\CNT1.done
.......\CNT1.fit.rpt
.......\CNT1.fit.summary
.......\CNT1.flow.rpt
.......\CNT1.map.rpt
.......\CNT1.map.summary
.......\CNT1.pin
.......\CNT1.pof
.......\CNT1.qpf
.......\CNT1.qsf
.......\CNT1.qws
.......\CNT1.sim.rpt
.......\CNT1.sof
.......\CNT1.tan.rpt
.......\CNT1.tan.summary
.......\CNT1.vhd
.......\CNT1.vhd.bak
.......\CNT1.vwf
.......\CNT5.asm.rpt
.......\CNT5.bsf
.......\CNT5.done
.......\CNT5.fit.rpt
.......\CNT5.fit.summary
.......\CNT5.flow.rpt
.......\CNT5.map.rpt
.......\CNT5.map.summary
.......\CNT5.pin
.......\CNT5.pof
.......\CNT5.qpf
.......\CNT5.qsf
.......\CNT5.qws
.......\CNT5.sim.rpt
.......\CNT5.sof
.......\CNT5.tan.rpt
.......\CNT5.tan.summary
.......\CNT5.vhd
.......\CNT5.vhd.bak
.......\CNT5.vwf
.......\db\BACK.asm.qmsg
.......\..\BACK.cbx.xml
.......\..\BACK.cmp.cdb
.......\..\BACK.cmp.hdb
.......\..\BACK.cmp.logdb
.......\..\BACK.cmp.rdb
.......\..\BACK.cmp.tdb
.......\..\BACK.cmp0.ddb
.......\..\BACK.db_info
.......\..\BACK.eco.cdb
.......\..\BACK.eds_overflow
.......\..\BACK.fit.qmsg
.......\..\BACK.hier_info
.......\..\BACK.hif
.......\..\BACK.lpc.html
.......\..\BACK.lpc.rdb
.......\..\BACK.lpc.txt
.......\..\BACK.map.cdb
.......\..\BACK.map.hdb
.......\..\BACK.map.logdb
.......\..\BACK.map.qmsg