AD5620的VHDL控制程序 12bits AD芯片
--基于AD56XX的VHDL控制程序
--设计者 eeleader
library ieee;
use ieee.std_logic_1164.all;
use ieee.std_logic_arith.all;
use ieee.std_logic_unsigned.all;
entity Wr_Ad56XX is
port
(
clk: in std_logic;------20MHZ
rst: in std_logic;------低电平有效
ctl_data:in std_logic_vector(11 downto 0);
sclk:out std_logic;
sync_n: out std_logic;
dout : out std_logic
);
end Wr_Ad56XX;
--设计者 eeleader
library ieee;
use ieee.std_logic_1164.all;
use ieee.std_logic_arith.all;
use ieee.std_logic_unsigned.all;
entity Wr_Ad56XX is
port
(
clk: in std_logic;------20MHZ
rst: in std_logic;------低电平有效
ctl_data:in std_logic_vector(11 downto 0);
sclk:out std_logic;
sync_n: out std_logic;
dout : out std_logic
);
end Wr_Ad56XX;
architecture arch_Wr_Ad56XX of Wr_Ad56XX is
signal tran_data: std_logic_vector(15 downto 0);
signal cnt:integer range 0 to 31;
signal temp: std_logic_vector(7 downto 0);
signal ctl_data_reg: std_logic_vector(11 downto 0);
signal tran_data: std_logic_vector(15 downto 0);
signal cnt:integer range 0 to 31;
signal temp: std_logic_vector(7 downto 0);
signal ctl_data_reg: std_logic_vector(11 downto 0);
begin
process(clk,rst)
begin
if (rst='1') then
sclk<='0';
sync_n<='1';
dout<='1';
temp<=x"00";
ctl_data_reg<=(others=>'0');
tran_data<=(others=>'0'); ----默认DAC为正常工作模式
elsif clk'event and clk='1' then
if (temp=x"00") then
if(ctl_data_reg /=ctl_data) then ------判断输入数据是否变化
tran_data(13 downto 2)<=ctl_data;
ctl_data_reg<=ctl_data;
temp<=x"01";
end if;
sclk<='1';
sync_n<='1';
elsif (temp="01") then
sclk<='0'; ------初始化,送入DAC sync_n 为高;
cnt<=0;
temp<=x"02";
elsif (temp=x"02") then
sync_n<='0';
sclk<='1'; ------
temp<=x"03";
elsif (temp=x"03") then ------循环16次扇入数据到DAC的数据寄存器
sclk<='0'; ------
dout<=tran_data(0);
tran_data<='0' & tran_data(15 downto 1);
if(cnt=15) then
temp<=x"04";
cnt<=0;
else
cnt<=cnt+1;
temp<=x"02";
end if;
elsif (temp=x"04") then
sync_n<='0'; ----延迟50ns ,保证转换时间
temp<=x"05";
elsif (temp=x"05") then
sync_n<='1';
temp<=x"00";
else
temp<=x"00";
end if;
end if;
end process;
end arch_Wr_Ad56XX;
process(clk,rst)
begin
if (rst='1') then
sclk<='0';
sync_n<='1';
dout<='1';
temp<=x"00";
ctl_data_reg<=(others=>'0');
tran_data<=(others=>'0'); ----默认DAC为正常工作模式
elsif clk'event and clk='1' then
if (temp=x"00") then
if(ctl_data_reg /=ctl_data) then ------判断输入数据是否变化
tran_data(13 downto 2)<=ctl_data;
ctl_data_reg<=ctl_data;
temp<=x"01";
end if;
sclk<='1';
sync_n<='1';
elsif (temp="01") then
sclk<='0'; ------初始化,送入DAC sync_n 为高;
cnt<=0;
temp<=x"02";
elsif (temp=x"02") then
sync_n<='0';
sclk<='1'; ------
temp<=x"03";
elsif (temp=x"03") then ------循环16次扇入数据到DAC的数据寄存器
sclk<='0'; ------
dout<=tran_data(0);
tran_data<='0' & tran_data(15 downto 1);
if(cnt=15) then
temp<=x"04";
cnt<=0;
else
cnt<=cnt+1;
temp<=x"02";
end if;
elsif (temp=x"04") then
sync_n<='0'; ----延迟50ns ,保证转换时间
temp<=x"05";
elsif (temp=x"05") then
sync_n<='1';
temp<=x"00";
else
temp<=x"00";
end if;
end if;
end process;
end arch_Wr_Ad56XX;
仿真时序图: