I hope you can help me!
I'm writing a program for a Spartan 3E prototype board which will calculate the frequency of a sinusoidal input signal. Due to issues with the ADC I'd chosen to use, I decided to generate this signal internally, simulating the input from the ADC. My problem now lies in the module responsible for retrieving the data from the simulated ADC.
The full system simulates as expected, however, on synthesis a large number of warnings are generated. These were all traced back my chip select signal, which is supposed to be driven low at roughly 16KHz. The odd thing was that the synthesis tools did not generate a warning, only an info for the fact that the chip select is constantly high.
This is the info that is generated on synthesis:
Xst:2679 - Register <int_CS> in unit <DataRetrieval> has a constant value of 1 during circuit operation. The register is replaced by logic.
This is the module in question:
library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.ALL; entity DataRetrieval is Port ( Reset : in STD_LOGIC; C16MHz : in STD_LOGIC; D_in : in STD_LOGIC; CS : out STD_LOGIC; D_clk : out STD_LOGIC; Sample : out STD_LOGIC_VECTOR(7 downto 0)); end DataRetrieval; architecture Behavioral of DataRetrieval is signal bit_counter : Integer range 0 to 15; signal D_reg : STD_LOGIC_VECTOR(15 downto 0); signal clkDivide : Integer range 1 to 500; signal int_CS : STD_LOGIC; signal int_D_clk : STD_LOGIC; signal edgeBit : STD_LOGIC; begin process (Reset, C16MHz, D_in, bit_counter, clkDivide, int_CS, edgeBit, int_D_clk) begin if Reset = '1' then clkDivide <= 1; bit_counter <= 15; D_reg <= (others => '0'); Sample <= (others => '0'); int_CS <= '1'; edgeBit <= '0'; int_D_clk <= '0'; elsif rising_edge(C16MHz) then clkDivide <= clkDivide + 1; int_D_clk <= not int_D_clk;--8MHz data clock if clkDivide = 1000 then D_reg <= (others => '0'); bit_counter <= 15; clkDivide <= 1; int_CS <= '0'; -- CS driven low here in order to allow time for conversion else if int_CS = '0' then if bit_counter = 0 then D_reg(bit_counter) <= D_in; int_CS <= '1';--disables ADC Sample <= D_reg(11 downto 4); else if edgeBit = '0' then edgeBit <= '1'; D_reg(bit_counter) <= D_in; bit_counter <= bit_counter - 1; else edgeBit <= '0'; end if; end if; end if; end if; end if; end process; CS <= int_CS; D_clk <= int_D_clk; end Behavioral;
The module uses the 16MHz clock to get data from the simulated ADC, by generating a data clock at 8MHz. The clock divide signal is a counter which decreses the clock speed to 16KHz, which drives the chip select low at the end of each count, then high once all the data has been retrieved for one sample.
According to the synthesis tools, CS is never driven low and is therefore trimmed, which means none of the rest of the system functions. The module does not synthesise correctly on its own, but it does simulate.
Any input on this issue would be greatly appreciated.