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[/] [neorv32/] [trunk/] [rtl/] [core/] [neorv32_pwm.vhd] - Rev 72
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-- ################################################################################################# -- # << NEORV32 - Pulse Width Modulation Controller (PWM) >> # -- # ********************************************************************************************* # -- # Simple PWM controller with 8 bit resolution for the duty cycle and programmable base # -- # frequency. The controller supports up to 60 PWM channels. # -- # ********************************************************************************************* # -- # BSD 3-Clause License # -- # # -- # Copyright (c) 2021, Stephan Nolting. All rights reserved. # -- # # -- # Redistribution and use in source and binary forms, with or without modification, are # -- # permitted provided that the following conditions are met: # -- # # -- # 1. Redistributions of source code must retain the above copyright notice, this list of # -- # conditions and the following disclaimer. # -- # # -- # 2. Redistributions in binary form must reproduce the above copyright notice, this list of # -- # conditions and the following disclaimer in the documentation and/or other materials # -- # provided with the distribution. # -- # # -- # 3. Neither the name of the copyright holder nor the names of its contributors may be used to # -- # endorse or promote products derived from this software without specific prior written # -- # permission. # -- # # -- # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS # -- # OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF # -- # MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE # -- # COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, # -- # EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE # -- # GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED # -- # AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING # -- # NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED # -- # OF THE POSSIBILITY OF SUCH DAMAGE. # -- # ********************************************************************************************* # -- # The NEORV32 Processor - https://github.com/stnolting/neorv32 (c) Stephan Nolting # -- ################################################################################################# library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library neorv32; use neorv32.neorv32_package.all; entity neorv32_pwm is generic ( NUM_CHANNELS : natural -- number of PWM channels (0..60) ); port ( -- host access -- clk_i : in std_ulogic; -- global clock line addr_i : in std_ulogic_vector(31 downto 0); -- address rden_i : in std_ulogic; -- read enable wren_i : in std_ulogic; -- write enable data_i : in std_ulogic_vector(31 downto 0); -- data in data_o : out std_ulogic_vector(31 downto 0); -- data out ack_o : out std_ulogic; -- transfer acknowledge -- clock generator -- clkgen_en_o : out std_ulogic; -- enable clock generator clkgen_i : in std_ulogic_vector(07 downto 0); -- pwm output channels -- pwm_o : out std_ulogic_vector(59 downto 0) ); end neorv32_pwm; architecture neorv32_pwm_rtl of neorv32_pwm is -- IO space: module base address -- constant hi_abb_c : natural := index_size_f(io_size_c)-1; -- high address boundary bit constant lo_abb_c : natural := index_size_f(pwm_size_c); -- low address boundary bit -- Control register bits -- constant ctrl_enable_c : natural := 0; -- r/w: PWM enable constant ctrl_prsc0_bit_c : natural := 1; -- r/w: prescaler select bit 0 constant ctrl_prsc1_bit_c : natural := 2; -- r/w: prescaler select bit 1 constant ctrl_prsc2_bit_c : natural := 3; -- r/w: prescaler select bit 2 -- access control -- signal acc_en : std_ulogic; -- module access enable signal addr : std_ulogic_vector(31 downto 0); -- access address signal wren : std_ulogic; -- write enable signal rden : std_ulogic; -- read enable -- accessible regs -- type pwm_ch_t is array (0 to NUM_CHANNELS-1) of std_ulogic_vector(7 downto 0); signal pwm_ch : pwm_ch_t; -- duty cycle (r/w) signal enable : std_ulogic; -- enable unit (r/w) signal prsc : std_ulogic_vector(2 downto 0); -- clock prescaler (r/w) type pwm_ch_rd_t is array (0 to 60-1) of std_ulogic_vector(7 downto 0); signal pwm_ch_rd : pwm_ch_rd_t; -- duty cycle read-back -- prescaler clock generator -- signal prsc_tick : std_ulogic; -- pwm core counter -- signal pwm_cnt : std_ulogic_vector(7 downto 0); begin -- Sanity Checks -------------------------------------------------------------------------- -- ------------------------------------------------------------------------------------------- assert not (NUM_CHANNELS > 60) report "NEORV32 PROCESSOR CONFIG ERROR! <IO.PWM> invalid number of channels! Has to be 0..60.!" severity error; -- Access Control ------------------------------------------------------------------------- -- ------------------------------------------------------------------------------------------- acc_en <= '1' when (addr_i(hi_abb_c downto lo_abb_c) = pwm_base_c(hi_abb_c downto lo_abb_c)) else '0'; addr <= pwm_base_c(31 downto lo_abb_c) & addr_i(lo_abb_c-1 downto 2) & "00"; -- word aligned rden <= acc_en and rden_i; wren <= acc_en and wren_i; -- Write access --------------------------------------------------------------------------- -- ------------------------------------------------------------------------------------------- wr_access: process(clk_i) begin if rising_edge(clk_i) then ack_o <= rden or wren; -- write access -- if (wren = '1') then -- control register -- if (addr = pwm_ctrl_addr_c) then enable <= data_i(ctrl_enable_c); prsc <= data_i(ctrl_prsc2_bit_c downto ctrl_prsc0_bit_c); end if; -- duty cycle registers -- for i in 0 to NUM_CHANNELS-1 loop -- channel loop if (addr(5 downto 2) = std_ulogic_vector(to_unsigned((i/4)+1, 4))) then -- 4 channels per register; add ctrl reg offset pwm_ch(i) <= data_i((i mod 4)*8+7 downto (i mod 4)*8+0); end if; end loop; end if; -- read access -- data_o <= (others => '0'); if (rden = '1') then case addr(5 downto 2) is when x"0" => data_o(ctrl_enable_c) <= enable; data_o(ctrl_prsc2_bit_c downto ctrl_prsc0_bit_c) <= prsc; when x"1" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(3) & pwm_ch_rd(2) & pwm_ch_rd(1) & pwm_ch_rd(0); else NULL; end if; when x"2" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(7) & pwm_ch_rd(6) & pwm_ch_rd(5) & pwm_ch_rd(4); else NULL; end if; when x"3" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(11) & pwm_ch_rd(10) & pwm_ch_rd(9) & pwm_ch_rd(8); else NULL; end if; when x"4" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(15) & pwm_ch_rd(14) & pwm_ch_rd(13) & pwm_ch_rd(12); else NULL; end if; when x"5" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(19) & pwm_ch_rd(18) & pwm_ch_rd(17) & pwm_ch_rd(16); else NULL; end if; when x"6" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(23) & pwm_ch_rd(22) & pwm_ch_rd(21) & pwm_ch_rd(20); else NULL; end if; when x"7" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(27) & pwm_ch_rd(26) & pwm_ch_rd(25) & pwm_ch_rd(24); else NULL; end if; when x"8" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(31) & pwm_ch_rd(30) & pwm_ch_rd(29) & pwm_ch_rd(28); else NULL; end if; when x"9" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(35) & pwm_ch_rd(34) & pwm_ch_rd(33) & pwm_ch_rd(32); else NULL; end if; when x"a" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(39) & pwm_ch_rd(38) & pwm_ch_rd(37) & pwm_ch_rd(36); else NULL; end if; when x"b" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(43) & pwm_ch_rd(42) & pwm_ch_rd(41) & pwm_ch_rd(40); else NULL; end if; when x"c" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(47) & pwm_ch_rd(46) & pwm_ch_rd(45) & pwm_ch_rd(44); else NULL; end if; when x"d" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(51) & pwm_ch_rd(50) & pwm_ch_rd(49) & pwm_ch_rd(48); else NULL; end if; when x"e" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(55) & pwm_ch_rd(54) & pwm_ch_rd(53) & pwm_ch_rd(52); else NULL; end if; when x"f" => if (NUM_CHANNELS > 0) then data_o <= pwm_ch_rd(59) & pwm_ch_rd(58) & pwm_ch_rd(57) & pwm_ch_rd(56); else NULL; end if; when others => NULL; end case; end if; end if; end process wr_access; -- duty cycle read-back -- pwm_dc_rd_gen: process(pwm_ch) begin pwm_ch_rd <= (others => (others => '0')); for i in 0 to NUM_CHANNELS-1 loop pwm_ch_rd(i) <= pwm_ch(i); end loop; end process pwm_dc_rd_gen; -- PWM clock select -- clkgen_en_o <= enable; -- enable clock generator prsc_tick <= clkgen_i(to_integer(unsigned(prsc))); -- PWM Core ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------------------- pwm_core: process(clk_i) begin if rising_edge(clk_i) then -- pwm base counter -- if (enable = '0') then pwm_cnt <= (others => '0'); elsif (prsc_tick = '1') then pwm_cnt <= std_ulogic_vector(unsigned(pwm_cnt) + 1); end if; -- channels -- pwm_o <= (others => '0'); for i in 0 to NUM_CHANNELS-1 loop if (unsigned(pwm_cnt) >= unsigned(pwm_ch(i))) or (enable = '0') then pwm_o(i) <= '0'; else pwm_o(i) <= '1'; end if; end loop; end if; end process pwm_core; end neorv32_pwm_rtl;
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