I am trying to generate picosecond PWM signal using the Spartan 3e board in VHDL (Xilinx ISE+ISim).
library ieee; use ieee.std_logic_1164.all; entity pwm is port(clk : in std_logic; pwm_out : buffer std_logic); end entity; architecture rtl of pwm is begin process (clk) variable count : integer range 0 to 50000; variable duty_cycle : integer range 0 to 50000; variable flag : integer range 0 to 1; begin if (rising_edge(clk)) then count := count+1; if (count = duty_cycle) then pwm_out <= '1'; end if; if (count = 50000) then pwm_out <= '0'; count := 0; if(flag = 0) then duty_cycle := duty_cycle+50; else duty_cycle := duty_cycle-50; end if; if(duty_cycle = 50000) then flag := 1; elsif(duty_cycle = 0) then flag := 0; end if; end if; end if; end process; end rtl;
I am using the embedded 50Mhz for the global clock (C9) but the simulation showed a weird behavior; from 0ps to 1000000ps clk (clock) and pwm_out (output) seems to be HIGH always and there is nothing after 1000000ps both for clk and pwm_out in time domain under ISim.
I am trying to do is to investigate and solve this behavior and then increase the frequency of output (pwm_out). Also I would like to learn about how fast (rise/fall times and in the frequency) can I generate the pulse (physical limitations).
I would appreciate some guidance from experienced users.