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[/] [open8_urisc/] [trunk/] [VHDL/] [async_ser_rx.vhd] - Rev 304
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-- Copyright (c)2006, 2016, 2019 Jeremy Seth Henry -- All rights reserved. -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions are met: -- * Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- * 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, -- where applicable (as part of a user interface, debugging port, etc.) -- -- THIS SOFTWARE IS PROVIDED BY JEREMY SETH HENRY ``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 JEREMY SETH HENRY 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. -- -- VHDL Units : async_ser_rx -- Description: Asynchronous receiver wired for 8[N/E/O]1 data. Parity mode -- and bit rate are set with generics. -- -- Note: The baud rate generator will produce an approximate frequency. The -- final bit rate should be within +/- 1% of the true bit rate to -- ensure the receiver can successfully receive. With a sufficiently -- high core clock, this is generally achievable for common PC serial -- data rates. -- -- Revision History -- Author Date Change ------------------ -------- --------------------------------------------------- -- Seth Henry 04/14/20 Code cleanup and revision section added library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; use ieee.std_logic_arith.all; use ieee.std_logic_misc.all; entity async_ser_rx is generic( Reset_Level : std_logic; Enable_Parity : boolean; Parity_Odd_Even_n : std_logic; Clock_Divider : integer ); port( Clock : in std_logic; Reset : in std_logic; -- Rx_In : in std_logic; -- Rx_Data : out std_logic_vector(7 downto 0); Rx_Valid : out std_logic; Rx_PErr : out std_logic ); end entity; architecture behave of async_ser_rx is -- The ceil_log2 function returns the minimum register width required to -- hold the supplied integer. function ceil_log2 (x : in natural) return natural is variable retval : natural; begin retval := 1; while ((2**retval) - 1) < x loop retval := retval + 1; end loop; return retval; end ceil_log2; -- Period of each bit in sub-clocks (subtract one to account for zero) constant Half_Per_i : integer := (Clock_Divider / 2) - 1; constant Full_Per_i : integer := Clock_Divider - 1; constant Baud_Bits : integer := ceil_log2(Full_Per_i); constant HALF_PERIOD : std_logic_vector(Baud_Bits - 1 downto 0) := conv_std_logic_vector(Half_Per_i, Baud_Bits); constant FULL_PERIOD : std_logic_vector(Baud_Bits - 1 downto 0) := conv_std_logic_vector(Full_Per_i, Baud_Bits); signal Rx_Baud_Cntr : std_logic_vector(Baud_Bits - 1 downto 0) := (others => '0'); signal Rx_In_SR : std_logic_vector(3 downto 0) := x"0"; alias Rx_In_Q is Rx_In_SR(3); signal Rx_Buffer : std_logic_vector(7 downto 0) := x"00"; signal Rx_Parity : std_logic := '0'; signal Rx_PErr_int : std_logic := '0'; signal Rx_State : std_logic_vector(3 downto 0) := x"0"; alias Rx_Bit_Sel is Rx_State(2 downto 0); -- State machine definitions constant IO_RSV0 : std_logic_vector(3 downto 0) := "1011"; -- B constant IO_RSV1 : std_logic_vector(3 downto 0) := "1100"; -- C constant IO_STRT : std_logic_vector(3 downto 0) := "1101"; -- D constant IO_IDLE : std_logic_vector(3 downto 0) := "1110"; -- E constant IO_SYNC : std_logic_vector(3 downto 0) := "1111"; -- F constant IO_BIT0 : std_logic_vector(3 downto 0) := "0000"; -- 0 constant IO_BIT1 : std_logic_vector(3 downto 0) := "0001"; -- 1 constant IO_BIT2 : std_logic_vector(3 downto 0) := "0010"; -- 2 constant IO_BIT3 : std_logic_vector(3 downto 0) := "0011"; -- 3 constant IO_BIT4 : std_logic_vector(3 downto 0) := "0100"; -- 4 constant IO_BIT5 : std_logic_vector(3 downto 0) := "0101"; -- 5 constant IO_BIT6 : std_logic_vector(3 downto 0) := "0110"; -- 6 constant IO_BIT7 : std_logic_vector(3 downto 0) := "0111"; -- 7 constant IO_PARI : std_logic_vector(3 downto 0) := "1000"; -- 8 constant IO_STOP : std_logic_vector(3 downto 0) := "1001"; -- 9 constant IO_DONE : std_logic_vector(3 downto 0) := "1010"; -- A begin Rx_Perr <= Rx_PErr_int; UART_Regs: process( Clock, Reset ) begin if( Reset = Reset_Level )then Rx_In_SR <= (others => '0'); Rx_State <= IO_IDLE; Rx_Baud_Cntr <= (others => '0'); Rx_Buffer <= (others => '0'); Rx_Parity <= '0'; Rx_Data <= (others => '0'); Rx_Valid <= '0'; Rx_PErr_int <= '0'; elsif( rising_edge(Clock) )then Rx_In_SR <= Rx_In_SR(2 downto 0) & Rx_In; Rx_Valid <= '0'; case( Rx_State )is when IO_STRT => if( Rx_In_Q = '1' )then Rx_State <= Rx_State + 1; end if; when IO_IDLE => Rx_Baud_Cntr <= HALF_PERIOD; Rx_Parity <= Parity_Odd_Even_n; if( Rx_In_Q = '0' )then Rx_State <= Rx_State + 1; end if; when IO_SYNC => Rx_Baud_Cntr <= Rx_Baud_Cntr - 1; if( Rx_Baud_Cntr = 0)then Rx_Baud_Cntr <= FULL_PERIOD; Rx_State <= Rx_State + 1; if( Rx_In_Q = '1' )then -- RxD going low was spurious Rx_State <= IO_IDLE; end if; end if; when IO_BIT0 | IO_BIT1 | IO_BIT2 | IO_BIT3 | IO_BIT4 | IO_BIT5 | IO_BIT6 | IO_BIT7 => Rx_Baud_Cntr <= Rx_Baud_Cntr - 1; if( Rx_Baud_Cntr = 0 )then Rx_Baud_Cntr <= FULL_PERIOD; Rx_Buffer(conv_integer(Rx_Bit_Sel)) <= Rx_In_Q; if( Enable_Parity )then Rx_Parity <= Rx_Parity xor Rx_In_Q; Rx_State <= Rx_State + 1; else Rx_PErr_int <= '0'; Rx_State <= Rx_State + 2; end if; end if; when IO_PARI => Rx_Baud_Cntr <= Rx_Baud_Cntr - 1; if( Rx_Baud_Cntr = 0 )then Rx_Baud_Cntr <= FULL_PERIOD; Rx_PErr_int <= Rx_Parity xor Rx_In_Q; Rx_State <= Rx_State + 1; end if; when IO_STOP => Rx_Baud_Cntr <= Rx_Baud_Cntr - 1; if( Rx_Baud_Cntr = 0 )then Rx_State <= Rx_State + 1; end if; when IO_DONE => Rx_Data <= Rx_Buffer; Rx_Valid <= not Rx_PErr_int; Rx_State <= Rx_State + 1; when others => Rx_State <= IO_IDLE; end case; end if; end process; end architecture;
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