文件名称:13-45
介绍说明--下载内容均来自于网络,请自行研究使用
本程序能够完成的功能是,自动或手动测温,读取配置寄存器,温度下限寄存器,温度上限寄存器,设定温度上限及下限,当温度到达预定的温度的时候报警。所有的读取操作都可以在数码管上显示。其中,温度的上限通过计算机用串口通信协议传输给FPGA内部寄存器然后按动开关写入。同时,本程序还驱动了一个直流电机,温度高的时候电机转速高,温度低的时候转速降低直至停转。数码管可以实时显示电机转速,2秒刷新一次。数码管的显示可以在显示的温度、寄存器值和直流电机转速间切换,切换通过串口进行,计算机发00H时切换到温度及寄存器值显示,发FFH时切换到转速显示。-IIC bus control LM75A temperature sensor, an 8-bit digital display temperature, and read the other three registers, you can also write the other three registers
(系统自动生成,下载前可以参看下载内容)
下载文件列表
COMP2 last\altpll0.bsf
..........\altpll0.cmp
..........\altpll0.ppf
..........\altpll0.qip
..........\altpll0.vhd
..........\altpll0_wave0.jpg
..........\altpll0_waveforms.html
..........\auto_mux.bsf
..........\auto_mux.vhd
..........\auto_mux.vhd.bak
..........\baudfreq.bsf
..........\baudfreq.vhd
..........\baudfreq.vhd.bak
..........\bcd_seg.bsf
..........\bcd_seg.vhd
..........\BCD_SEG_ARRAY.bdf
..........\BCD_SEG_ARRAY.bsf
..........\bcd_seg_dot.bsf
..........\bcd_seg_dot.vhd
..........\DENOM.bsf
..........\DENOM.vhd
..........\DENOM.vhd.bak
..........\disp01.bsf
..........\disp01.vhd
..........\dispfull.bsf
..........\dispfull.vhd
..........\divide.bdf
..........\divide.bsf
..........\freq.bsf
..........\freq.vhd
..........\freq.vhd.bak
..........\lm75.bsf
..........\lm75.vhd
..........\lm75.vhd.bak
..........\lpm_constant0.bsf
..........\lpm_constant0.cmp
..........\lpm_constant0.qip
..........\lpm_constant0.vhd
..........\lpm_constant1.bsf
..........\lpm_constant1.cmp
..........\lpm_constant1.qip
..........\lpm_constant1.vhd
..........\lpm_constant2.bsf
..........\lpm_constant2.cmp
..........\lpm_constant2.qip
..........\lpm_constant2.vhd
..........\lpm_constant3.bsf
..........\lpm_constant3.cmp
..........\lpm_constant3.qip
..........\lpm_constant3.vhd
..........\lpm_constant4.bsf
..........\lpm_constant4.cmp
..........\lpm_constant4.qip
..........\lpm_constant4.vhd
..........\lpm_constant5.bsf
..........\lpm_constant5.cmp
..........\lpm_constant5.qip
..........\lpm_constant5.vhd
..........\lpm_constant6.bsf
..........\lpm_constant6.cmp
..........\lpm_constant6.qip
..........\lpm_constant6.vhd
..........\lpm_divide0.bsf
..........\lpm_divide0.cmp
..........\lpm_divide0.qip
..........\lpm_divide0.vhd
..........\lpm_divide1.bsf
..........\lpm_divide1.cmp
..........\lpm_divide1.qip
..........\lpm_divide1.vhd
..........\lpm_divide2.bsf
..........\lpm_divide2.cmp
..........\lpm_divide2.qip
..........\lpm_divide2.vhd
..........\pwm_logic.bsf
..........\main.bdf
..........\main.done
..........\main.dpf
..........\pwm_logic.v
..........\main.fit.smsg
..........\main.fit.summary
..........\minus.vhd
..........\minus.bsf
..........\main.jdi
..........\main.map.rpt
..........\main.map.summary
..........\main.pin
..........\main.pof
..........\main.qpf
..........\main.qsf
..........\speed.vhd
..........\main.sim.rpt
..........\main.sof
..........\main.flow.rpt
..........\main.tan.summary
..........\mux0.bsf
..........\mux0.vhd
..........\mux0.vhd.bak
..........\read_2.bsf
..........\pwm_logic.v.bak
..........\altpll0.cmp
..........\altpll0.ppf
..........\altpll0.qip
..........\altpll0.vhd
..........\altpll0_wave0.jpg
..........\altpll0_waveforms.html
..........\auto_mux.bsf
..........\auto_mux.vhd
..........\auto_mux.vhd.bak
..........\baudfreq.bsf
..........\baudfreq.vhd
..........\baudfreq.vhd.bak
..........\bcd_seg.bsf
..........\bcd_seg.vhd
..........\BCD_SEG_ARRAY.bdf
..........\BCD_SEG_ARRAY.bsf
..........\bcd_seg_dot.bsf
..........\bcd_seg_dot.vhd
..........\DENOM.bsf
..........\DENOM.vhd
..........\DENOM.vhd.bak
..........\disp01.bsf
..........\disp01.vhd
..........\dispfull.bsf
..........\dispfull.vhd
..........\divide.bdf
..........\divide.bsf
..........\freq.bsf
..........\freq.vhd
..........\freq.vhd.bak
..........\lm75.bsf
..........\lm75.vhd
..........\lm75.vhd.bak
..........\lpm_constant0.bsf
..........\lpm_constant0.cmp
..........\lpm_constant0.qip
..........\lpm_constant0.vhd
..........\lpm_constant1.bsf
..........\lpm_constant1.cmp
..........\lpm_constant1.qip
..........\lpm_constant1.vhd
..........\lpm_constant2.bsf
..........\lpm_constant2.cmp
..........\lpm_constant2.qip
..........\lpm_constant2.vhd
..........\lpm_constant3.bsf
..........\lpm_constant3.cmp
..........\lpm_constant3.qip
..........\lpm_constant3.vhd
..........\lpm_constant4.bsf
..........\lpm_constant4.cmp
..........\lpm_constant4.qip
..........\lpm_constant4.vhd
..........\lpm_constant5.bsf
..........\lpm_constant5.cmp
..........\lpm_constant5.qip
..........\lpm_constant5.vhd
..........\lpm_constant6.bsf
..........\lpm_constant6.cmp
..........\lpm_constant6.qip
..........\lpm_constant6.vhd
..........\lpm_divide0.bsf
..........\lpm_divide0.cmp
..........\lpm_divide0.qip
..........\lpm_divide0.vhd
..........\lpm_divide1.bsf
..........\lpm_divide1.cmp
..........\lpm_divide1.qip
..........\lpm_divide1.vhd
..........\lpm_divide2.bsf
..........\lpm_divide2.cmp
..........\lpm_divide2.qip
..........\lpm_divide2.vhd
..........\pwm_logic.bsf
..........\main.bdf
..........\main.done
..........\main.dpf
..........\pwm_logic.v
..........\main.fit.smsg
..........\main.fit.summary
..........\minus.vhd
..........\minus.bsf
..........\main.jdi
..........\main.map.rpt
..........\main.map.summary
..........\main.pin
..........\main.pof
..........\main.qpf
..........\main.qsf
..........\speed.vhd
..........\main.sim.rpt
..........\main.sof
..........\main.flow.rpt
..........\main.tan.summary
..........\mux0.bsf
..........\mux0.vhd
..........\mux0.vhd.bak
..........\read_2.bsf
..........\pwm_logic.v.bak