I'm working on a project in which I need a bidirectional tri-state buffer. I've developed a VHDL code based on my searches in this community and some other websites. But it doesn't work as it should. Below is the VHDL code.
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity Inter_Con_Mod is generic(WL: integer := 8); port(In1: in signed(WL-1 downto 0); RW: in std_logic; Data_IO1: inout signed(WL-1 downto 0); Out1: out signed(WL-1 downto 0)); end Inter_Con_Mod; architecture Behav of Inter_Con_Mod is begin Data_IO1 <= In1 when RW = '1' else (others => 'Z'); Out1 <= Data_IO1; end Behav;
This is the testbench code:
LIBRARY ieee; USE ieee.std_logic_1164.ALL; USE ieee.numeric_std.ALL; ENTITY InterCon_test IS END InterCon_test; ARCHITECTURE behavior OF InterCon_test IS -- Component Declaration for the Unit Under Test (UUT) COMPONENT Inter_Con_Mod PORT( In1 : IN signed(7 downto 0); RW : IN std_logic; Data_IO1 : INOUT signed(7 downto 0); Out1 : OUT signed(7 downto 0) ); END COMPONENT; --Inputs signal In1 : signed(7 downto 0) := (others => '0'); signal RW : std_logic := '0'; --BiDirs signal Data_IO1 : signed(7 downto 0); --Outputs signal Out1 : signed(7 downto 0); -- No clocks detected in port list. Replace <clock> below with -- appropriate port name --constant <clock>_period : time := 10 ns; BEGIN -- Instantiate the Unit Under Test (UUT) uut: Inter_Con_Mod PORT MAP ( In1 => In1, RW => RW, Data_IO1 => Data_IO1, Out1 => Out1 ); -- Clock process definitions -- Stimulus process stim_proc: process begin -- hold reset state for 100 ns. wait for 5 ns; In1 <= "01111111"; wait for 5 ns; RW <= '1'; wait for 5 ns; RW <= '0'; wait for 20 ns; Data_IO1 <= "00101010"; wait; end process; END;
But look what happens in the simulation Result:
I don't get why it ignores the test bench stimulation I've provided before setting RW to 0.
Thanks in advance.