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--===========================================================================--
--
--  S Y N T H E Z I A B L E    ACIA 6850   C O R E
--
--  www.OpenCores.Org - January 2007
--  This core adheres to the GNU public license  
--
-- Design units   : 6850 ACIA core
--
-- File name      : ACIA6850.vhd
--
-- Purpose        : Implements an RS232 Asynchronous serial communications device 
--                  
-- Dependencies   : ieee.std_logic_1164
--                  ieee.numeric_std
--                  unisim.vcomponents
--
--===========================================================================--
-------------------------------------------------------------------------------
-- Revision list
-- Version   Author                 Date           Changes
--
-- 0.1      Ovidiu Lupas     15 January 2000       New model
-- 1.0      Ovidiu Lupas     January  2000         Synthesis optimizations
-- 2.0      Ovidiu Lupas     April    2000         Bugs removed - RSBusCtrl
--          the RSBusCtrl did not process all possible situations
--
--        olupas@opencores.org
--
-- 3.0      John Kent        October  2002         Changed Status bits to match mc6805
--                                                 Added CTS, RTS, Baud rate control
--                                                 & Software Reset
-- 3.1      John Kent        5 January 2003        Added Word Format control a'la mc6850
-- 3.2      John Kent        19 July 2003          Latched Data input to UART
-- 3.3      John Kent        16 January 2004       Integrated clkunit in rxunit & txunit
--                                                 Now has external TX 7 RX Baud Clock
--                                                 inputs like the MC6850... 
--                                                 also supports x1 clock and DCD. 
-- 3.4		John Kent			13 September 2005		Removed LoadCS signal. 
--																	Fixed ReadCS and Read in "if" in
--																	miniuart_DCD_Init process
-- 3.5      John Kent         28 November 2006     Cleaned up code.
--
-- 4.0      John Kent         3 February 2007      renamed ACIA6850
-- 4.1      John Kent         6 February 2007      Made software reset synchronous
--	4.2      John Kent         25 February 2007     Changed sensitivity lists
--                                                 Rearranged Reset process.
--        dilbert57@opencores.org
--
library ieee;
   use ieee.std_logic_1164.all;
   use ieee.numeric_std.all;
--library unisim;
--	use unisim.vcomponents.all;
 
-----------------------------------------------------------------------
-- Entity for ACIA_6850                                              --
-----------------------------------------------------------------------
 
entity ACIA_6850 is
  port (
     --
	  -- CPU signals
	  --
     clk      : in  Std_Logic;  -- System Clock
     rst      : in  Std_Logic;  -- Reset input (active high)
     cs       : in  Std_Logic;  -- miniUART Chip Select
     rw       : in  Std_Logic;  -- Read / Not Write
     irq      : out Std_Logic;  -- Interrupt
     Addr     : in  Std_Logic;  -- Register Select
     DataIn   : in  Std_Logic_Vector(7 downto 0); -- Data Bus In 
     DataOut  : out Std_Logic_Vector(7 downto 0); -- Data Bus Out
     --
	  -- Uart Signals
	  --
     RxC      : in  Std_Logic;  -- Receive Baud Clock
     TxC      : in  Std_Logic;  -- Transmit Baud Clock
     RxD      : in  Std_Logic;  -- Receive Data
     TxD      : out Std_Logic;  -- Transmit Data
	  DCD_n    : in  Std_Logic;  -- Data Carrier Detect
     CTS_n    : in  Std_Logic;  -- Clear To Send
     RTS_n    : out Std_Logic );  -- Request To send
end ACIA_6850; --================== End of entity ==============================--
 
-------------------------------------------------------------------------------
-- Architecture for ACIA_6850 Interface registees
-------------------------------------------------------------------------------
 
architecture rtl of ACIA_6850 is
 
  type DCD_State_Type is ( DCD_State_Idle, DCD_State_Int, DCD_State_Reset );
 
  -----------------------------------------------------------------------------
  -- Signals
  -----------------------------------------------------------------------------
 
  ----------------------------------------------------------------------
  --  Status Register: StatReg 
  ----------------------------------------------------------------------
  --
  -- IO address + 0 Read
  --
  -----------+--------+-------+--------+--------+--------+--------+--------+
  --  Irq    | PErr   | OErr  | FErr   |  CTS   |  DCD   |  TxBE  |  RxDR  |
  -----------+--------+-------+--------+--------+--------+--------+--------+
  -- Irq  - Bit[7] - Interrupt request
  -- PErr - Bit[6] - Receive Parity error (parity bit does not match)
  -- OErr - Bit[5] - Receive Overrun error (new character received before last read)
  -- FErr - Bit[4] - Receive Framing Error (bad stop bit)
  -- CTS  - Bit[3] - Clear To Send level
  -- DCD  - Bit[2] - Data Carrier Detect (lost modem carrier)
  -- TxBE - Bit[1] - Transmit Buffer Empty (ready to accept next transmit character)
  -- RxDR - Bit[0] - Receive Data Ready (character received)
  -- 
  signal StatReg : Std_Logic_Vector(7 downto 0) := (others => '0'); -- status register
 
  ----------------------------------------------------------------------
  --  Control Register: CtrlReg
  ----------------------------------------------------------------------
  --
  -- IO address + 0 Write
  --
  -----------+--------+--------+--------+--------+--------+--------+--------+
  --  RxIEnb |TxCtl(1)|TxCtl(0)|WdFmt(2)|WdFmt(1)|WdFmt(0)|BdCtl(1)|BdCtl(0)|
  -----------+--------+--------+--------+--------+--------+--------+--------+
  -- RxIEnb - Bit[7]
  -- 0       - Rx Interrupt disabled
  -- 1       - Rx Interrupt enabled
  -- TxCtl - Bits[6..5]
  -- 0 1     - Tx Interrupt Enable
  -- 1 0     - RTS high
  -- WdFmt - Bits[4..2]
  -- 0 0 0   - 7 data, even parity, 2 stop
  -- 0 0 1   - 7 data, odd  parity, 2 stop
  -- 0 1 0   - 7 data, even parity, 1 stop
  -- 0 1 1   - 7 data, odd  parity, 1 stop
  -- 1 0 0   - 8 data, no   parity, 2 stop
  -- 1 0 1   - 8 data, no   parity, 1 stop
  -- 1 1 0   - 8 data, even parity, 1 stop
  -- 1 1 1   - 8 data, odd  parity, 1 stop
  -- BdCtl - Bits[1..0]
  -- 0 0     - Baud Clk divide by 1
  -- 0 1     - Baud Clk divide by 16
  -- 1 0     - Baud Clk divide by 64
  -- 1 1     - reset
  signal CtrlReg : Std_Logic_Vector(7 downto 0) := (others => '0'); -- control register
 
  ----------------------------------------------------------------------
  -- Receive Register
  ----------------------------------------------------------------------
  --
  -- IO address + 1	Read
  --
  signal RecvReg : Std_Logic_Vector(7 downto 0) := (others => '0');
  ----------------------------------------------------------------------
  -- Transmit Register
  ----------------------------------------------------------------------
  --
  -- IO address + 1	Write
  --
  signal TranReg : Std_Logic_Vector(7 downto 0) := (others => '0');
 
  signal Reset    : Std_Logic;  -- Reset (Software & Hardware)
  signal RxRst    : Std_Logic;  -- Receive Reset (Software & Hardware)
  signal TxRst    : Std_Logic;  -- Transmit Reset (Software & Hardware)
  signal TxDbit   : Std_Logic;  -- Transmit data bit
  signal RxDR     : Std_Logic := '0';  -- Receive Data ready
  signal TxBE     : Std_Logic := '0';  -- Transmit buffer empty
 
  signal FErr     : Std_Logic := '0';  -- Frame error
  signal OErr     : Std_Logic := '0';  -- Output error
  signal PErr     : Std_Logic := '0';  -- Parity Error
 
  signal TxIEnb   : Std_Logic := '0';  -- Transmit interrupt enable
  signal RxIEnb   : Std_Logic := '0';  -- Receive interrupt enable
 
  signal ReadRR   : Std_Logic := '0';  -- Read receive buffer
  signal WriteTR  : Std_Logic := '0';  -- Write transmit buffer
  signal ReadSR   : Std_Logic := '0';  -- Read Status register
 
  signal DCDState : DCD_State_Type;    -- DCD Reset state sequencer
  signal DCDDel   : Std_Logic := '0';  -- Delayed DCD_n
  signal DCDEdge  : Std_Logic := '0';  -- Rising DCD_N Edge Pulse
  signal DCDInt   : Std_Logic := '0';  -- DCD Interrupt
 
  -----------------------------------------------------------------------------
  -- ACIA Receiver
  -----------------------------------------------------------------------------
  component ACIA_RX
  port (
     Clk     : in  Std_Logic;                    -- Bus Clock signal
     RxRst   : in  Std_Logic;                    -- Reset input
     RxRd    : in  Std_Logic;                    -- Read data strobe
     WdFmt   : in  Std_Logic_Vector(2 downto 0); -- word format
     BdFmt   : in  Std_Logic_Vector(1 downto 0); -- baud format
     RxClk   : in  Std_Logic;                    -- Receive clock input
     RxDat   : in  Std_Logic;                    -- Receive data bit input
     RxFErr  : out Std_Logic;                    -- Framing Error Status signal
     RxOErr  : out Std_Logic;                    -- Overrun Error Status signal
	  RxPErr  : out Std_logic;                    -- Parity Error Status signal
     RxRdy   : out Std_Logic;                    -- Data Ready Status signal
     RxDout  : out Std_Logic_Vector(7 downto 0));-- Receive data bus output
  end component;
 
  -----------------------------------------------------------------------------
  -- ACIA Transmitter
  -----------------------------------------------------------------------------
  component ACIA_TX
  port (
     Clk    : in  Std_Logic;                    -- Bus Clock signal
     TxRst  : in  Std_Logic;                    -- Reset input
     TxWr   : in  Std_Logic;                    -- Load transmit data strobe
     TxDin  : in  Std_Logic_Vector(7 downto 0); -- Transmit data bus input
     WdFmt  : in  Std_Logic_Vector(2 downto 0); -- Word format Control signal
     BdFmt  : in  Std_Logic_Vector(1 downto 0); -- Baud format Control signal
     TxClk  : in  Std_Logic;                    -- Transmit clock input
     TxDat  : out Std_Logic;                    -- Transmit data bit output
     TxEmp  : out Std_Logic );                  -- Tx buffer empty status signal
  end component;
 
begin
  -----------------------------------------------------------------------------
  -- Instantiation of internal components
  -----------------------------------------------------------------------------
 
  RxDev   : ACIA_RX  port map (
                Clk      => clk,
					 RxRst    => RxRst,
					 RxRd     => ReadRR,
					 WdFmt    => CtrlReg(4 downto 2),
					 BdFmt    => CtrlReg(1 downto 0),
					 RxClk    => RxC,
					 RxDat    => RxD,
					 RxFErr   => FErr,
					 RxOErr   => OErr,
					 RxPErr   => PErr,
					 RxRdy    => RxDR,
					 RxDout   => RecvReg
					 );
 
 
  TxDev   : ACIA_TX  port map (
                Clk      => clk,
					 TxRst    => TxRst,
					 TxWr     => WriteTR,
					 TxDin    => TranReg,
					 WdFmt    => CtrlReg(4 downto 2),
					 BdFmt    => CtrlReg(1 downto 0),
					 TxClk    => TxC,
					 TxDat    => TxDbit,
					 TxEmp    => TxBE
					 );
 
---------------------------------------------------------------
-- ACIA Reset may be hardware or software
---------------------------------------------------------------
ACIA_Reset : process( clk, rst, Reset, DCD_n )
begin
    -- Asynchronous External reset
    if rst = '1' then
	   Reset <= '1';
    elsif clk'Event and clk = '0' then
	   -- Synchronous Software reset
	   Reset <= CtrlReg(1) and CtrlReg(0);
  	 end if;	  	 
	 -- Transmitter reset
	 TxRst <= Reset;
	 -- Receiver reset
	 RxRst <= Reset or DCD_n;
 
end process;
 
  -----------------------------------------------------------------------------
  -- ACIA Status Register
  -----------------------------------------------------------------------------
--
--ACIA_Status : process(clk,  Reset, TxIEnb, RxIEnb,
--                          RxDR, TxBE,  DCD_n, CTS_n, DCDInt,
--                          FErr, OErr,  PErr )
ACIA_Status : process(Reset, clk )
  begin
    if Reset = '1' then
       StatReg <= (others => '0');
    elsif clk'event and clk='0' then
		 StatReg(0) <= RxDR;   -- Receive Data Ready
       StatReg(1) <= TxBE and (not CTS_n); -- Transmit Buffer Empty
	    StatReg(2) <= DCDInt; -- Data Carrier Detect
		 StatReg(3) <= CTS_n;  -- Clear To Send
       StatReg(4) <= FErr;   -- Framing error
       StatReg(5) <= OErr;   -- Overrun error
       StatReg(6) <= PErr;   -- Parity error
		 StatReg(7) <= (RxIEnb and RxDR)   or
		               (RxIEnb and DCDInt) or
		               (TxIEnb and TxBE);
    end if;
  end process;
 
 
-----------------------------------------------------------------------------
-- ACIA Transmit Control
-----------------------------------------------------------------------------
 
ACIA_Control : process( CtrlReg, TxDbit )
begin
    case CtrlReg(6 downto 5) is
	 when "00" => -- Disable TX Interrupts, Assert RTS
	   RTS_n  <= '0';
		TxD    <= TxDbit;
		TxIEnb <= '0';
    when "01" => -- Enable TX interrupts, Assert RTS
	   RTS_n  <= '0';
		TxD    <= TxDbit;
		TxIEnb <= '1';
    when "10" => -- Disable Tx Interrupts, Clear RTS
	   RTS_n  <= '1';
		TxD    <= TxDbit;
		TxIEnb <= '0';
    when "11" => -- Disable Tx interrupts, Assert RTS, send break
	   RTS_n  <= '0';
		TxD    <= '0';
		TxIEnb <= '0';
    when others =>
	   null;
	 end case;
 
	 RxIEnb <= CtrlReg(7);
 
end process;
 
-----------------------------------------------------------------------------
-- Generate Read / Write strobes.
-----------------------------------------------------------------------------
 
--ACIA_Read_Write:  process(clk, Reset, cs, rw, Addr, DataIn )
ACIA_Read_Write:  process(clk, Reset )
begin
  if reset = '1' then
	    CtrlReg <= (others => '0');
		 TranReg <= (others => '0');
		 ReadRR  <= '0';
		 WriteTR <= '0';
		 ReadSR	<= '0';
	elsif clk'event and clk='0' then
       ReadRR  <= '0';
       WriteTR <= '0';
       ReadSR  <= '0';
	    if cs = '1' then
	      if Addr = '0' then	-- Control / Status register
		     if rw = '0' then   -- write control register
			    CtrlReg <= DataIn;
			  else               -- read status register
			    ReadSR	<= '1';
			  end if;
	      else					   -- Data Register
		     if rw = '0' then   -- write transmiter register
             TranReg <= DataIn;
	          WriteTR <= '1';
  	        else               -- read receiver register
             ReadRR  <= '1';
			  end if; -- rw
		   end if; -- Addr
	    end if;  -- cs
   end if; -- clk / reset
end process;
 
---------------------------------------------------------------
-- Set Data Output Multiplexer
--------------------------------------------------------------
 
ACIA_Data_Mux: process(Addr, StatReg, RecvReg)
begin
	 if Addr = '1' then
		 DataOut <= RecvReg;   -- read receiver register
	 else
		 DataOut <= StatReg;   -- read status register
	 end if; -- Addr
    irq <= StatReg(7);
end process;
 
 
---------------------------------------------------------------
-- Data Carrier Detect Edge rising edge detect
---------------------------------------------------------------
--ACIA_DCD_edge : process( reset, clk, DCD_n, DCDDel	)
ACIA_DCD_edge : process( reset, clk	)
begin
   if reset = '1' then
	   DCDEdge <= '0';
		DCDDel  <= '0';
   elsif clk'event and clk = '0' then
	   DCDDel <= DCD_n;
		DCDEdge <= DCD_n and (not DCDDel);
   end if;
end process;
 
 
---------------------------------------------------------------
-- Data Carrier Detect Interrupt
---------------------------------------------------------------
-- If Data Carrier is lost, an interrupt is generated
-- To clear the interrupt, first read the status register
--	then read the data receive register
--
--ACIA_DCD_Int : process( reset, clk, DCDState, DCDEdge, ReadRR, ReadSR )
ACIA_DCD_Int : process( reset, clk )
begin
   if reset = '1' then
	   DCDInt   <= '0';
		DCDState <= DCD_State_Idle;
   elsif clk'event and clk = '0' then
	   case DCDState is
		when DCD_State_Idle =>
		   -- DCD Edge activates interrupt
		   if DCDEdge = '1' then
		      DCDInt     <= '1';
			   DCDState   <= DCD_State_Int;
		   end if;
	   when DCD_State_Int =>
		   -- To reset DCD interrupt, 
			-- First read status
		   if ReadSR = '1' then
			   DCDState <= DCD_State_Reset;
		   end if;
		when DCD_State_Reset =>
		   -- Then read receive register
		   if ReadRR = '1' then
				DCDInt   <= '0';
				DCDState <= DCD_State_Idle;
         end if;
      when others =>
         null;
      end case;			
   end if; -- clk / reset
end process;
 
end rtl; --===================== End of architecture =======================--
 
 

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