📄 rxunit.vhd
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--===========================================================================--
--
-- S Y N T H E Z I A B L E miniUART C O R E
--
-- www.OpenCores.Org - January 2000
-- This core adheres to the GNU public license
--
-- Design units : miniUART core for the OCRP-1
--
-- File name : RxUnit.vhd
--
-- Purpose : Implements an miniUART device for communication purposes
-- between the OR1K processor and the Host computer through
-- an RS-232 communication protocol.
--
-- Library : uart_lib.vhd
--
-- Dependencies : IEEE.Std_Logic_1164
--
--===========================================================================--
-------------------------------------------------------------------------------
-- Revision list
-- Version Author Date Changes
--
-- 0.1 Ovidiu Lupas 15 January 2000 New model
-- 2.0 Ovidiu Lupas 17 April 2000 samples counter cleared for bit 0
-- olupas@opencores.org
-------------------------------------------------------------------------------
-- Description : Implements the receive unit of the miniUART core. Samples
-- 16 times the RxD line and retain the value in the middle of
-- the time interval.
-------------------------------------------------------------------------------
-- Entity for Receive Unit - 9600 baudrate --
-------------------------------------------------------------------------------
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library work;
use work.UART_Def.all;
-------------------------------------------------------------------------------
-- Receive unit
-------------------------------------------------------------------------------
entity RxUnit is
port (
Clk : in Std_Logic; -- system clock signal
Reset : in Std_Logic; -- Reset input
Enable : in Std_Logic; -- Enable input
RxD : in Std_Logic; -- RS-232 data input
RD : in Std_Logic; -- Read data signal
FErr : out Std_Logic; -- Status signal
OErr : out Std_Logic; -- Status signal
DRdy : out Std_Logic; -- Status signal
DataIn : out Std_Logic_Vector(7 downto 0));
end entity; --================== End of entity ==============================--
-------------------------------------------------------------------------------
-- Architecture for receive Unit
-------------------------------------------------------------------------------
architecture Behaviour of RxUnit is
-----------------------------------------------------------------------------
-- Signals
-----------------------------------------------------------------------------
signal Start : Std_Logic; -- Syncro signal
signal tmpRxD : Std_Logic; -- RxD buffer
signal tmpDRdy : Std_Logic; -- Data ready buffer
signal outErr : Std_Logic; --
signal frameErr : Std_Logic; --
signal BitCnt : Unsigned(3 downto 0); --
signal SampleCnt : Unsigned(3 downto 0); -- samples on one bit counter
signal ShtReg : Std_Logic_Vector(7 downto 0); --
signal DOut : Std_Logic_Vector(7 downto 0); --
begin
---------------------------------------------------------------------
-- Receiver process
---------------------------------------------------------------------
RcvProc : process(Clk,Reset,Enable,RxD)
variable tmpBitCnt : Integer range 0 to 15;
variable tmpSampleCnt : Integer range 0 to 15;
constant CntOne : Unsigned(3 downto 0):="0001";
begin
if Rising_Edge(Clk) then
tmpBitCnt := ToInteger(BitCnt);
tmpSampleCnt := ToInteger(SampleCnt);
if Reset = '0' then
BitCnt <= "0000";
SampleCnt <= "0000";
Start <= '0';
tmpDRdy <= '0';
frameErr <= '0';
outErr <= '0';
ShtReg <= "00000000"; --
DOut <= "00000000"; --
else
if RD = '1' then
tmpDRdy <= '0'; -- Data was read
end if;
if Enable = '1' then
if Start = '0' then
if RxD = '0' then -- Start bit,
SampleCnt <= SampleCnt + CntOne;
Start <= '1';
end if;
else
if tmpSampleCnt = 8 then -- reads the RxD line
tmpRxD <= RxD;
SampleCnt <= SampleCnt + CntOne;
elsif tmpSampleCnt = 15 then
case tmpBitCnt is
when 0 =>
if tmpRxD = '1' then -- Start Bit
Start <= '0';
else
BitCnt <= BitCnt + CntOne;
end if;
SampleCnt <= SampleCnt + CntOne;
when 1|2|3|4|5|6|7|8 =>
BitCnt <= BitCnt + CntOne;
SampleCnt <= SampleCnt + CntOne;
ShtReg <= tmpRxD & ShtReg(7 downto 1);
when 9 =>
if tmpRxD = '0' then -- stop bit expected
frameErr <= '1';
else
frameErr <= '0';
end if;
if tmpDRdy = '1' then --
outErr <= '1';
else
outErr <= '0';
end if;
tmpDRdy <= '1';
DOut <= ShtReg;
BitCnt <= "0000";
Start <= '0';
when others =>
null;
end case;
else
SampleCnt <= SampleCnt + CntOne;
end if;
end if;
end if;
end if;
end if;
end process;
DRdy <= tmpDRdy;
DataIn <= DOut;
FErr <= frameErr;
OErr <= outErr;
end Behaviour; --==================== End of architecture ====================--⌨️ 快捷键说明
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