Difference between revisions of "PWM"
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end PWM_arch; | end PWM_arch; | ||
− | Ok, let's go further, let's target 2.5v using only 0v and 5v, with a stupid slow clock, you result in a sequence like this : 05050505050505v. It is a bad border effect : it a noise ! 2.5v normaly doesn't produce sound | + | Ok, let's go further, let's target 2.5v using only 0v and 5v, with a stupid slow clock, you result in a sequence like this : 05050505050505v. It is a bad border effect : it a noise ! 2.5v normaly doesn't produce sound by here, but using this simple PWM it does. |
This problem is solved here : this is an original homemade PWM component enabling Arkanoid not producing noises instead of silents, don't ask me how I solved it two years ago but it does : | This problem is solved here : this is an original homemade PWM component enabling Arkanoid not producing noises instead of silents, don't ask me how I solved it two years ago but it does : | ||
Revision as of 07:46, 5 March 2017
Pulse Width Modulation, is a DAC (Digital Analog Convertor) Using a entry clock, you output a signal 0v or 5v in order to result an average fix value between 0v and 5v, for sample 2.3v. Changing like it the speed of a small electric motor as you want but using at input only two values : 0v or 5v. Using a quicker clock, you can generate analog signal, like sound music.
pwm.vhd
library IEEE; use IEEE.STD_LOGIC_1164.all; use IEEE.STD_LOGIC_UNSIGNED.ALL; -- http://www.fpga4fun.com/PWM_DAC.html entity PWM is port ( clk : in std_logic; PWM_in : in std_logic_vector (7 downto 0) := "00000000"; PWM_out : out std_logic ); end PWM; architecture PWM_arch of PWM is signal PWM_Accumulator : std_logic_vector(8 downto 0):=(others=>'0'); -- sim XXXXXXXXX begin process begin wait until rising_edge(clk); PWM_Accumulator <= ("0" & PWM_Accumulator(7 downto 0)) + ("0" & PWM_in); end process; PWM_out <= PWM_Accumulator(8); end PWM_arch;
Ok, let's go further, let's target 2.5v using only 0v and 5v, with a stupid slow clock, you result in a sequence like this : 05050505050505v. It is a bad border effect : it a noise ! 2.5v normaly doesn't produce sound by here, but using this simple PWM it does. This problem is solved here : this is an original homemade PWM component enabling Arkanoid not producing noises instead of silents, don't ask me how I solved it two years ago but it does :
pwm.vhd
-- {@{@{@{@{@{@ -- {@{@{@{@{@{@{@{@ This code is covered by CoreAmstrad synthesis r004 -- {@ {@{@ {@ A core of Amstrad CPC 6128 running on MiST-board platform -- {@{@{@{@{@{@{@{@ -- {@ {@{@{@{@ {@ CoreAmstrad is implementation of FPGAmstrad on MiST-board -- {@{@ {@{@ Contact : renaudhelias@gmail.com -- {@{@{@{@{@{@{@{@ @see https://github.com/mist-devel/mist-board/wiki -- {@{@{@{@{@{@ @see FPGAmstrad at CPCWiki -- -- -------------------------------------------------------------------------------- -- FPGAmstrad_amstrad_motherboard.PWM patched for luxurious output quality -- clk : a big clock, upper than dog sound frequency, here 17MHz -- clk_ref : clock matching with PWM_in data, here YM2149.CLK (Yamaha chip clock) -------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.all; use IEEE.STD_LOGIC_UNSIGNED.ALL; -- http://www.fpga4fun.com/PWM_DAC.html entity PWM is port ( clk : in std_logic; clk_ref : in std_logic; PWM_in : in std_logic_vector (7 downto 0) := "00000000"; PWM_out : out std_logic ); end PWM; architecture PWM_arch of PWM is signal PWM_Accumulator : std_logic_vector(8 downto 0):=(others=>'0'); -- sim XXXXXXXXX signal PWM_iRef:std_logic_vector(7 downto 0); signal PWM_i:std_logic_vector(7 downto 0); begin process(clk_ref) variable PWM_mem : std_logic_vector(7 downto 0):=x"00"; begin if rising_edge(clk_ref) then PWM_mem:=PWM_in; PWM_iRef<=PWM_mem; end if; end process; process(clk) variable PWM_mem : std_logic_vector(7 downto 0):=x"00"; begin if rising_edge(clk) then PWM_mem:=PWM_iRef; PWM_i<=PWM_mem; end if; end process; process(clk) begin if rising_edge(clk) then PWM_Accumulator <= ("0" & PWM_Accumulator(7 downto 0)) + ("0" & PWM_i); end if; end process; PWM_out <= PWM_Accumulator(8); end PWM_arch;