I am trying to create a state machine in vhdl for UA(R)T (Only the sending portion).
I am having an issue with the flow of the program. I know the buad rate portion does not work at the moment. I am trying to get it working with just a clock at the moment, and then will implement the baud rate divider.
When I run it through my test bench (nothing complicated, just assign a couple of initial values reset = 1 for x time, din = z, baud = y, etc), nothing happens. My output txd stays at the initial '1' value that is set in the reset stage and if I set it to '0' it will stay like that for the cycles.
My issue that I had when designing the state machine is the it has two values that it will transition on BUT not in ever state.
Basically, what it is supposed to do is: reset: txd = 1, count = 1, busy = 0, we = 0 idle: when busy = 1 set shift = init values wait: transition on next clock signal trans: if count < 9, txd = shift(0), and shift shift if count = 9, busy = 0, count = 0 and back to idle
I think my issue is somehow related to the busy signal not being properly set.
-- Universal Asynch Receiver Transmitter --------------------- library ieee; use ieee.std_logic_1164.all; entity eds_uart is generic (width : positive := 16); port ( clk,reset: in std_logic ; din_wen: buffer std_logic; -- state machine sets value thus buffer needed brd : in std_logic_vector(23 downto 0); -- buad rate dividor din : in std_logic_vector(7 downto 0); -- input value txd: out std_logic; -- sent data bit tx_busy : buffer std_logic -- sent data bit active ); end entity eds_uart; architecture behaviour of eds_uart is type state_type is (idle_s, wait_s, transmit_s); -- three possible states of uat signal current_s: state_type; signal tick: std_logic; -- baud rate clock signal count: integer := 0; -- count number of characters sent signal shift: std_logic_vector(9 downto 0); -- intermediate vector to be shifted begin -- assign tick value based on baud rate -- need to implement divisor process(clk, brd) begin tick <= clk; end process; process(tick, reset, din) begin if (reset = '1') then current_s <= idle_s; -- default state count <= 0; -- reset character counter txd <= '1'; tx_busy <= '0'; din_wen <= '0'; -- able to start sending elsif (current_s = idle_s and din_wen = '1') then -- transition when write enable is high current_s <= wait_s; -- transition tx_busy <= '1'; shift <= '1' & din & '0'; -- init shift value elsif (current_s = wait_s and rising_edge(tick)) then -- transition on clock signal current_s <= transmit_s; elsif (current_s = transmit_s and rising_edge(tick)) then -- test transition on clock signal if (count < 9) then txd <= shift(0); -- output value shift <= '0' & shift(9 downto 1); -- shift to next value count <= count + 1; -- increment counter current_s <= transmit_s; -- dont change state elsif (count = 9) then txd <= shift(0); -- send last element count <= 0; tx_busy <= '0'; -- reset busy signal current_s <= idle_s; -- start process again end if; end if; end process; end architecture behaviour ;