文件名称:wave
介绍说明--下载内容均来自于网络,请自行研究使用
当设计文件加载到目标器件后,按下按键开关模块的S8按键,在输出观测模块通过示波器可能观测到一个频率约为1KHZ、占空比为50 的矩形波。按下S1键或者S2键,这个矩形波的频率会发生相应的增加或者减少。按下S3键或者S4键,这个矩形波的占空比会相应的增加或减少。-Wenn die Design-Datei in das Zielgerä t geladen ist, drücken Sie die Taste-Switch-Modul S8 Tasten, unter Berücksichtigung der Ausgabe-Modul über das Oszilloskop und einer Frequenz von etwa 1 kHz, 50 Einschaltdauer Rechtecksignal beobachtet werden kann. Drücken Sie S1 oder S2-Taste drücken, kö nnen das Rechtecksignal Frequenz zu erhö hen oder verringern sich entsprechend. S3 oder S4-Taste gedrückt Taste drücken, wird das Tastverhä ltnis Rechtecksignal erhö hen oder verringern sich entsprechend.
(系统自动生成,下载前可以参看下载内容)
下载文件列表
wave\db\wave.asm.qmsg
....\..\wave.cbx.xml
....\..\wave.cmp.cdb
....\..\wave.cmp.hdb
....\..\wave.cmp.qrpt
....\..\wave.cmp.rdb
....\..\wave.cmp.tdb
....\..\wave.cmp0.ddb
....\..\wave.dbp
....\..\wave.db_info
....\..\wave.eco.cdb
....\..\wave.eda.qmsg
....\..\wave.fit.qmsg
....\..\wave.hier_info
....\..\wave.hif
....\..\wave.map.cdb
....\..\wave.map.hdb
....\..\wave.map.qmsg
....\..\wave.pre_map.cdb
....\..\wave.pre_map.hdb
....\..\wave.psp
....\..\wave.rtlv.hdb
....\..\wave.rtlv_sg.cdb
....\..\wave.rtlv_sg_swap.cdb
....\..\wave.sgdiff.cdb
....\..\wave.sgdiff.hdb
....\..\wave.signalprobe.cdb
....\..\wave.sld_design_entry.sci
....\..\wave.sld_design_entry_dsc.sci
....\..\wave.syn_hier_info
....\..\wave.tan.qmsg
....\simulation\modelsim\wave.vho
....\..........\........\wave_modelsim.xrf
....\..........\........\wave_vhd.sdo
....\timing\primetime\wave.vho
....\......\.........\wave_pt_vhd.tcl
....\......\.........\wave_vhd.sdo
....\wave.asm.rpt
....\wave.cdf
....\wave.done
....\wave.eda.rpt
....\wave.fit.eqn
....\wave.fit.rpt
....\wave.fit.summary
....\wave.flow.rpt
....\wave.map.eqn
....\wave.map.rpt
....\wave.map.summary
....\wave.pin
....\wave.pof
....\wave.qpf
....\wave.qsf
....\wave.qws
....\wave.sof
....\wave.tan.rpt
....\wave.tan.summary
....\wave.vhd
....\simulation\modelsim
....\timing\primetime
....\db
....\simulation
....\timing
wave
....\..\wave.cbx.xml
....\..\wave.cmp.cdb
....\..\wave.cmp.hdb
....\..\wave.cmp.qrpt
....\..\wave.cmp.rdb
....\..\wave.cmp.tdb
....\..\wave.cmp0.ddb
....\..\wave.dbp
....\..\wave.db_info
....\..\wave.eco.cdb
....\..\wave.eda.qmsg
....\..\wave.fit.qmsg
....\..\wave.hier_info
....\..\wave.hif
....\..\wave.map.cdb
....\..\wave.map.hdb
....\..\wave.map.qmsg
....\..\wave.pre_map.cdb
....\..\wave.pre_map.hdb
....\..\wave.psp
....\..\wave.rtlv.hdb
....\..\wave.rtlv_sg.cdb
....\..\wave.rtlv_sg_swap.cdb
....\..\wave.sgdiff.cdb
....\..\wave.sgdiff.hdb
....\..\wave.signalprobe.cdb
....\..\wave.sld_design_entry.sci
....\..\wave.sld_design_entry_dsc.sci
....\..\wave.syn_hier_info
....\..\wave.tan.qmsg
....\simulation\modelsim\wave.vho
....\..........\........\wave_modelsim.xrf
....\..........\........\wave_vhd.sdo
....\timing\primetime\wave.vho
....\......\.........\wave_pt_vhd.tcl
....\......\.........\wave_vhd.sdo
....\wave.asm.rpt
....\wave.cdf
....\wave.done
....\wave.eda.rpt
....\wave.fit.eqn
....\wave.fit.rpt
....\wave.fit.summary
....\wave.flow.rpt
....\wave.map.eqn
....\wave.map.rpt
....\wave.map.summary
....\wave.pin
....\wave.pof
....\wave.qpf
....\wave.qsf
....\wave.qws
....\wave.sof
....\wave.tan.rpt
....\wave.tan.summary
....\wave.vhd
....\simulation\modelsim
....\timing\primetime
....\db
....\simulation
....\timing
wave