dds_new.vwf

来自「驱动时钟加入了PLL,使得DDS的驱动时钟可变.32位的NCO使得DDS的分辨率」· VWF 代码 · 共 3,316 行 · 第 1/4 页
VWF
3,316 行
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[18]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[17]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[16]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[15]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[14]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[13]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[12]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[11]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[10]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[9]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[8]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[7]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[6]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[5]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[4]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[3]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[2]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[1]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("phase[0]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "phase";
}

SIGNAL("sinout")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = BUS;
	WIDTH = 12;
	LSB_INDEX = 0;
	DIRECTION = OUTPUT;
	PARENT = "";
}

SIGNAL("sinout[11]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = OUTPUT;
	PARENT = "sinout";
}

SIGNAL("sinout[10]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = OUTPUT;
	PARENT = "sinout";
}

SIGNAL("sinout[9]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = OUTPUT;
	PARENT = "sinout";
}

SIGNAL("sinout[8]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = OUTPUT;
	PARENT = "sinout";
}

SIGNAL("sinout[7]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = OUTPUT;
	PARENT = "sinout";
}

SIGNAL("sinout[6]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = OUTPUT;
	PARENT = "sinout";
}

SIGNAL("sinout[5]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = OUTPUT;
	PARENT = "sinout";
}

SIGNAL("sinout[4]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = OUTPUT;
	PARENT = "sinout";
}

SIGNAL("sinout[3]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = OUTPUT;
	PARENT = "sinout";
}

SIGNAL("sinout[2]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = OUTPUT;
	PARENT = "sinout";
}

SIGNAL("sinout[1]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = OUTPUT;
	PARENT = "sinout";
}

SIGNAL("sinout[0]")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = OUTPUT;
	PARENT = "sinout";
}

SIGNAL("aclr")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "";
}

SIGNAL("clk20")
{
	VALUE_TYPE = NINE_LEVEL_BIT;
	SIGNAL_TYPE = SINGLE_BIT;
	WIDTH = 1;
	LSB_INDEX = -1;
	DIRECTION = INPUT;
	PARENT = "";
}

TRANSITION_LIST("A[31]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[30]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[29]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[28]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[27]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[26]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[25]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[24]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[23]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[22]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[21]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[20]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[19]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[18]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[17]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[16]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[15]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[14]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[13]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[12]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[11]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[10]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[9]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[8]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[7]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[6]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[5]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[4]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[3]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[2]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[1]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("A[0]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL X FOR 10000.0;
	}
}

TRANSITION_LIST("freq[31]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[30]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[29]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[28]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[27]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[26]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[25]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[24]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[23]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[22]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[21]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[20]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[19]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[18]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[17]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[16]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[15]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 1 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[14]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[13]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[12]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[11]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
}

TRANSITION_LIST("freq[10]")
{
	NODE
	{
		REPEAT = 1;
		LEVEL 0 FOR 10000.0;
	}
dds_new.vwf - 源码说明

本页面展示了「驱动时钟加入了PLL,使得DDS的驱动时钟可变.32位的NCO使得DDS的分辨率可以做到Hz量级」中的 dds_new.vwf 源码文件，采用 VWF 编程语言编写，共 3,316 行代码。您可以在线阅读完整代码内容，也可以返回资源详情页下载完整源码包进行本地学习和开发。
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