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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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