source: firmware/FTU/test_firmware/FTU_test2/FTU_test2.vhd@ 12559

----------------------------------------------------------------------------------
-- Company:        ETH Zurich, Institute for Particle Physics
-- Engineer:       P. Vogler, Q. Weitzel
-- 
-- Create Date:    05/07/2010 
-- Design Name:    
-- Module Name:    FTU_test2 - Behavioral 
-- Project Name: 
-- Target Devices: 
-- Tool versions: 
-- Description:    Test firmware for FTU board, set thresholds to some value                                                                            
--
-- Dependencies: 
--
-- Revision: 
-- Revision 0.01 - File Created
-- Additional Comments: 
--
----------------------------------------------------------------------------------
library IEEE;
use IEEE.STD_LOGIC_1164.ALL;
use IEEE.STD_LOGIC_ARITH.ALL;
use IEEE.STD_LOGIC_UNSIGNED.ALL;

---- Uncomment the following library declaration if instantiating
---- any Xilinx primitives in this code.
--library UNISIM;
--use UNISIM.VComponents.all;


entity FTU_test2 is
  port(
    -- global control 
    ext_clk   : IN  STD_LOGIC;                      -- external clock from FTU board
    brd_add   : IN  STD_LOGIC_VECTOR(5 downto 0);   -- geographic board/slot address
    brd_id    : in  STD_LOGIC_VECTOR(7 downto 0);   -- local solder-programmable board ID

    -- rate counters LVDS inputs
    -- use IBUFDS differential input buffer
    patch_A_p     : IN  STD_LOGIC;                  -- logic signal from first trigger patch
    patch_A_n     : IN  STD_LOGIC;           
    patch_B_p     : IN  STD_LOGIC;                  -- logic signal from second trigger patch
    patch_B_n     : IN  STD_LOGIC;
    patch_C_p     : IN  STD_LOGIC;                  -- logic signal from third trigger patch
    patch_C_n     : IN  STD_LOGIC;
    patch_D_p     : IN  STD_LOGIC;                  -- logic signal from fourth trigger patch
    patch_D_n     : IN  STD_LOGIC;
    trig_prim_p   : IN  STD_LOGIC;                  -- logic signal from n-out-of-4 circuit
    trig_prim_n   : IN  STD_LOGIC;
    
    -- DAC interface
    sck           : OUT STD_LOGIC;                  -- serial clock to DAC
    mosi          : OUT STD_LOGIC;                  -- serial data to DAC, master-out-slave-in
    clr           : OUT STD_LOGIC;                  -- clear signal to DAC
    cs_ld         : OUT STD_LOGIC;                  -- chip select or load to DAC
    
    -- RS-485 interface to FTM
    rx            : IN  STD_LOGIC;                  -- serial data from FTM
    tx            : OUT STD_LOGIC;                  -- serial data to FTM
    rx_en         : OUT STD_LOGIC;                  -- enable RS-485 receiver
    tx_en         : OUT STD_LOGIC;                  -- enable RS-485 transmitter

    -- analog buffer enable
    enables_A   : OUT STD_LOGIC_VECTOR(8 downto 0);  -- individual enables for analog inputs
    enables_B   : OUT STD_LOGIC_VECTOR(8 downto 0);  -- individual enables for analog inputs
    enables_C   : OUT STD_LOGIC_VECTOR(8 downto 0);  -- individual enables for analog inputs
    enables_D   : OUT STD_LOGIC_VECTOR(8 downto 0);  -- individual enables for analog inputs

    -- testpoints
    TP_A        : out STD_LOGIC_VECTOR(11 downto 0)   -- testpoints    
  );
end FTU_test2;


architecture Behavioral of FTU_test2 is

  component FTU_test2_dac_dcm
    port(
      CLKIN_IN        : IN  STD_LOGIC; 
      RST_IN          : IN  STD_LOGIC; 
      CLKFX_OUT       : OUT STD_LOGIC; 
      CLKIN_IBUFG_OUT : OUT STD_LOGIC; 
      LOCKED_OUT      : OUT STD_LOGIC
    );
  end component;
  
  component FTU_test2_dac_control
    port(
      clk      : IN  STD_LOGIC;
      reset    : IN  STD_LOGIC;
      clr      : OUT STD_LOGIC;
      mosi     : OUT STD_LOGIC;
      sck      : OUT STD_LOGIC;
      cs_ld    : OUT STD_LOGIC;
      enable1  : out STD_LOGIC;
      enable2  : out STD_LOGIC;
      enable3  : out STD_LOGIC
    );
  end component;

  signal reset_sig : STD_LOGIC := '0';  -- initialize reset to 0 at power up 
  signal clk_50M_sig : STD_LOGIC;

  type FTU_test2_StateType is (Running);
  signal FTU_test2_State, FTU_test2_NextState: FTU_test2_StateType;
  
begin

  Inst_FTU_test2_dac_dcm : FTU_test2_dac_dcm
    port map(
      CLKIN_IN => ext_clk,
      RST_IN => reset_sig,
      CLKFX_OUT => clk_50M_sig,
      CLKIN_IBUFG_OUT => open,
      LOCKED_OUT => open
    );
  
  Inst_FTU_test2_dac_control : FTU_test2_dac_control
    port map(
      clk     => clk_50M_sig,
      reset   => reset_sig,
      clr     => clr,
      mosi    => mosi,
      sck     => sck,
      cs_ld   => cs_ld,
      enable1 => enables_A(1),
      enable2 => enables_A(2),
      enable3 => enables_A(3)
    );

  --FTU main state machine (two-process implementation)

  FTU_test2_Registers: process (ext_clk)
  begin
    if Rising_edge(ext_clk) then
      FTU_test2_State <= FTU_test2_NextState;
    end if;
  end process FTU_test2_Registers;

  FTU_test2_C_logic: process (FTU_test2_State)
  begin
    FTU_test2_NextState <= FTU_test2_State;
    case FTU_test2_State is
      when Running =>
        reset_sig <= '0';
        enables_A(0) <= '1';
    end case;
  end process FTU_test2_C_logic;
  
end Behavioral;