Difference between revisions of "IOP16 UART"
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=== Read character from UART === | === Read character from UART === | ||
+ | * Blocks until character is received | ||
* Returns character in Reg1 | * Returns character in Reg1 | ||
− | |||
− | |||
<pre> | <pre> | ||
− | RDUART JSR WTUARTRXRDY WAIT FOR UART RX CHAR | + | RDUART JSR WTUARTRXRDY WAIT FOR UART RX CHAR |
− | IOR 0X01 0X09 READ UART CHAR | + | IOR 0X01 0X09 READ UART CHAR |
− | RTS | + | RTS RETURN KBD DATA IN REG1 |
− | WTUARTRXRDY IOR | + | WTUARTRXRDY IOR 0X01 0X08 READ UART STATUS |
− | ARI | + | ARI 0X01 0X01 RX RDY BIT |
− | BEZ WTUARTRXRDY LOOP UNTIL CHAR PRESENT | + | BEZ WTUARTRXRDY LOOP UNTIL CHAR PRESENT |
RTS | RTS | ||
</pre> | </pre> | ||
Line 55: | Line 54: | ||
=== Write character to UART === | === Write character to UART === | ||
− | * Pass character to write in | + | * Pass character to write in Reg1 |
− | * Destroys | + | * Destroys Reg0 |
* Blocks until character can be written | * Blocks until character can be written | ||
+ | ** UART has a FIFO | ||
<pre> | <pre> |
Latest revision as of 17:55, 16 April 2022
Contents
UART and Baud Rate Generator
UART Programming Interface
- Interface mimics ACIA software interface address/control/status contents
- Two addresses, Control/status and data access
Status Register (Read)
- Register Select = 0
- Bits
d0 = RDRF = Receive Data Register Full (1 = data is ready to read) d1 = TDRE = Transmit Data Register Empty (1 = transmit is ready to send out data) d2 = DCD = Data Carrier Detect (0 = carrier present - hardwired) d3 = CTS = Clear to Send (0 = Clear to Send - ready to accept data - hardwired) d7 = IRQ = Interrupt Request (1 = Interrupt present)
Control Register (Write)
- Register Select = 0
- Bits
d1,d0 = Control (11 = Master Reset) d6,d5 = TC = Transmitter Control (RTS = Transmitter Interrupt Enable/Disable) d7 = Interrupt Enable (1=enable interrupts)
Data Register (Read/Write)
- Register Select = 1
- Read = Read data from the data register (not implemented due to kbd removal)
- Write = Write data to the data register
Example Code
Read character from UART
- Blocks until character is received
- Returns character in Reg1
RDUART JSR WTUARTRXRDY WAIT FOR UART RX CHAR IOR 0X01 0X09 READ UART CHAR RTS RETURN KBD DATA IN REG1 WTUARTRXRDY IOR 0X01 0X08 READ UART STATUS ARI 0X01 0X01 RX RDY BIT BEZ WTUARTRXRDY LOOP UNTIL CHAR PRESENT RTS
Write character to UART
- Pass character to write in Reg1
- Destroys Reg0
- Blocks until character can be written
- UART has a FIFO
WRUART JSR WTUARTTXBSY WRITE REG1 TO THE UART TX IOW 0X01 0X09 RTS WTUARTTXBSY IOR 0X00 0X08 WRITE REG1 OUT UART ARI 0X00 0X02 TX EMPTY BIT BEZ WTUARTTXBSY LOOP WHILE NOT EMPTY RTS
Baud Rate Generator for buffered UART
- Assumes 50 MHz clock
- Pass Baud Rate in BAUD_RATE generic as integer value (300, 9600, 115,200)
- Legal values are 115200, 38400, 19200, 9600, 4800, 2400, 1200, 600, 300
UART and Baud Rate Generator VHDL Entities
- Code to add UART to the IOP16 top file
Pins
- Add to top level entity
-- UART rxd1 : in std_logic := '1'; -- Hardware Handshake needed txd1 : out std_logic; cts1 : in std_logic := '1'; rts1 : out std_logic; serSelect : in std_logic := '1'; -- Jumper with pullup in FPGA for selecting serial between ACIA (installed) and VDU (removed)
Signals
- Add signals to architecture section
-- Decodes/Strobes ... signal w_wrUart : std_logic; signal w_rdUart : std_logic; -- Interfaces .. signal w_UartDataOut : std_logic_vector(7 downto 0); -- Serial clock enable signal W_serialEn : std_logic; -- 16x baud rate clock
UART Entity
-- 6850 style UART UART: entity work.bufferedUART port map ( clk => i_clk, -- Strobes n_wr => not w_wrUart, n_rd => not w_rdUart, -- CPU regSel => w_periphAdr(0), dataIn => w_periphOut, dataOut => w_UartDataOut, -- Clock strobes rxClkEn => serialEn, txClkEn => serialEn, -- Serial I/F rxd => rxd1, txd => txd1, n_rts => rts1, n_cts => cts1 );
Baud Rate Generator Entity
-- ____________________________________________________________________________________ -- Baud Rate Generator as an entity with passed baud rate -- Legal BAUD_RATE values are 115200, 38400, 19200, 9600, 4800, 2400, 1200, 600, 300 BaudRateGen : entity work.BaudRate6850 GENERIC map ( BAUD_RATE => 115200 ) PORT map ( i_CLOCK_50 => i_clk, o_serialEn => w_serialEn );
Add Code
-- Peripheral bus read mux w_periphIn <= ... ... w_UartDataOut when w_periphAdr(7 downto 1) = "0000100" else --- -- Strobes/Selects ... w_wrUart <= '1' when ((w_periphAdr(7 downto 1)="0000100") and (w_periphWr = '1')) else '0'; w_rdUart <= '1' when ((w_periphAdr(7 downto 1)="0000100") and (w_periphRd = '1')) else '0';
FPGA Resources (EP4CE15)
- UART
- Logic Cells: 183
- Registers: 94
- Memory Bits: 128
- M9Ks: 1
- Baud Rate Generator
- Logic Cells: 14
- Registers: 13
- Memory Bits: 0
- M9Ks: 0