No changes between revisions
| /Designs/Measuring_instruments/RMDS02A/HDL/gtime/src/gtime.vhd |
|---|
| 0,0 → 1,365 |
| ---------------------------------------------------------------------------------- |
| -- Company: www.mlab.cz |
| -- Based on code written by MIHO. |
| -- |
| -- HW Design Name: S3AN01A |
| -- Project Name: gtime |
| -- Target Devices: XC3S50AN-4 |
| -- Tool versions: ISE 13.3 |
| -- Description: Time and frequency synchronisation for RDMS01A. |
| -- |
| -- Dependencies: CLKGEN01B, GPS01A, STM32F10xRxT01A |
| -- |
| -- Version: $Id$ |
| -- |
| ---------------------------------------------------------------------------------- |
| library IEEE; |
| use IEEE.STD_LOGIC_1164.ALL; |
| use IEEE.numeric_std.ALL; |
| library UNISIM; |
| use UNISIM.vcomponents.all; |
| entity gtime is |
| generic ( |
| -- Top Value for 100MHz Clock Counter |
| MAXCOUNT: integer := 10_000; -- Maximum for the first counter |
| MUXCOUNT: integer := 100_000 -- LED Display Multiplex Clock Divider |
| ); |
| port ( |
| -- Clock on PCB |
| CLK100MHz: in std_logic; |
| -- Mode Signals (usualy not used) |
| M: in std_logic_vector(2 downto 0); |
| VS: in std_logic_vector(2 downto 0); |
| -- Dipswitch Inputs |
| DIPSW: in std_logic_vector(7 downto 0); |
| -- Push Buttons |
| PB: in std_logic_vector(3 downto 0); |
| -- LED Bar Outputs |
| LED: out std_logic_vector(7 downto 0); |
| -- LED Display (8 digit with 7 segments and ddecimal point) |
| LD_A_n: out std_logic; |
| LD_B_n: out std_logic; |
| LD_C_n: out std_logic; |
| LD_D_n: out std_logic; |
| LD_E_n: out std_logic; |
| LD_F_n: out std_logic; |
| LD_G_n: out std_logic; |
| LD_DP_n: out std_logic; |
| LD_0_n: out std_logic; |
| LD_1_n: out std_logic; |
| LD_2_n: out std_logic; |
| LD_3_n: out std_logic; |
| LD_4_n: out std_logic; |
| LD_5_n: out std_logic; |
| LD_6_n: out std_logic; |
| LD_7_n: out std_logic; |
| -- VGA Video Out Port |
| VGA_R: out std_logic_vector(1 downto 0); |
| VGA_G: out std_logic_vector(1 downto 0); |
| VGA_B: out std_logic_vector(1 downto 0); |
| VGA_VS: out std_logic; |
| VGA_HS: out std_logic; |
| -- Bank 1 Pins - Inputs for this Test |
| B: inout std_logic_vector(24 downto 0); |
| -- PS/2 Bidirectional Port (open collector, J31 and J32) |
| PS2_CLK1: inout std_logic; |
| PS2_DATA1: inout std_logic; |
| PS2_CLK2: inout std_logic; |
| PS2_DATA2: inout std_logic; |
| -- Diferencial Signals on 4 pin header (J7) |
| DIF1P: inout std_logic; |
| DIF1N: inout std_logic; |
| DIF2P: inout std_logic; |
| DIF2N: inout std_logic; |
| -- I2C Signals (on connector J30) |
| I2C_SCL: inout std_logic; |
| I2C_SDA: inout std_logic; |
| -- Diferencial Signals on SATA like connectors (not SATA capable, J28 and J29) |
| SD1AP: inout std_logic; |
| SD1AN: inout std_logic; |
| SD1BP: inout std_logic; |
| SD1BN: inout std_logic; |
| SD2AP: inout std_logic; |
| SD2AN: inout std_logic; |
| SD2BP: inout std_logic; |
| SD2BN: inout std_logic; |
| -- Analog In Out |
| ANA_OUTD: out std_logic; |
| ANA_REFD: out std_logic; |
| ANA_IND: in std_logic; |
| -- SPI Memory Interface |
| SPI_CS_n: inout std_logic; |
| SPI_DO: inout std_logic; |
| SPI_DI: inout std_logic; |
| SPI_CLK: inout std_logic; |
| SPI_WP_n: inout std_logic |
| ); |
| end entity gtime; |
| architecture gtime_a of gtime is |
| -- Counter |
| -- ---------------- |
| signal Counter: unsigned(31 downto 0) := X"00000000"; -- Main Counter 2 Hz (binary) |
| -- LED Display |
| -- ----------- |
| signal Number: std_logic_vector(31 downto 0) := X"00000000"; -- LED Display Input |
| signal Freq: std_logic_vector(31 downto 0) := X"00000000"; -- Measured Frequency |
| signal MuxCounter: unsigned(31 downto 0) := (others => '0'); -- LED Multiplex - Multiplex Clock Divider |
| signal Enable: std_logic; |
| signal Digits: std_logic_vector(7 downto 0) := X"01"; -- LED Multiplex - Digit Counter - LED Digit Output |
| signal Segments: std_logic_vector(0 to 7); -- LED Segment Output |
| signal Code: std_logic_vector(3 downto 0); -- BCD to 7 Segment Decoder Output |
| -- signal LO_CLOCK: std_logic; -- Frequency divided by 2 |
| signal EXT_CLOCK: std_logic; -- Input Frequency |
| signal Decko: std_logic; -- D flip-flop |
| signal State: unsigned(2 downto 0) := (others => '0'); -- Inner states of automata |
| signal SCLK: std_logic; |
| signal SCLK2: std_logic; |
| begin |
| -- Counter |
| process (EXT_CLOCK) |
| begin |
| if rising_edge(EXT_CLOCK) then |
| if (State = 2) or (State = 0) then |
| Counter <= Counter + 1; |
| end if; |
| if (State = 1) then |
| Freq(31 downto 0) <= std_logic_vector(Counter); |
| Counter <= (others => '0'); |
| end if; |
| end if; |
| end process; |
| -- Sampling 1PPS signal |
| process (EXT_CLOCK) |
| begin |
| if rising_edge(EXT_CLOCK) then |
| Decko <= B(22); |
| end if; |
| end process; |
| -- Automata for controlling the Counter |
| process (EXT_CLOCK) |
| begin |
| if rising_edge(EXT_CLOCK) then |
| if (Decko = '1') then |
| if (State < 2) then |
| State <= State + 1; |
| end if; |
| else |
| State <= (others => '0'); |
| end if; |
| end if; |
| end process; |
| process (Decko) |
| begin |
| if Decko = '0' then |
| LED(6) <= '1'; |
| else |
| LED(6) <= '0'; |
| end if; |
| end process; |
| SCLK <= B(0); |
| -- Output Shift Register |
| process (Decko,SCLK) |
| begin |
| if (Decko = '0') then |
| Number(31 downto 0) <= Freq(31 downto 0); |
| else |
| if rising_edge(SCLK) then |
| Number(30 downto 0) <= Number(31 downto 1); |
| end if; |
| end if; |
| end process; |
| B(1) <= Number(0); |
| B(2) <= Decko; |
| LED(7) <= Decko; -- Display 1PPS pulse on LEDbar |
| LED(5 downto 0) <= (others => '0'); |
| -- LED Display (multiplexed) |
| -- ========================= |
| -- Connect LED Display Output Ports (negative outputs) |
| LD_A_n <= not (Segments(0) and Enable); |
| LD_B_n <= not (Segments(1) and Enable); |
| LD_C_n <= not (Segments(2) and Enable); |
| LD_D_n <= not (Segments(3) and Enable); |
| LD_E_n <= not (Segments(4) and Enable); |
| LD_F_n <= not (Segments(5) and Enable); |
| LD_G_n <= not (Segments(6) and Enable); |
| LD_DP_n <= not (Segments(7) and Enable); |
| LD_0_n <= not Digits(0); |
| LD_1_n <= not Digits(1); |
| LD_2_n <= not Digits(2); |
| LD_3_n <= not Digits(3); |
| LD_4_n <= not Digits(4); |
| LD_5_n <= not Digits(5); |
| LD_6_n <= not Digits(6); |
| LD_7_n <= not Digits(7); |
| -- Time Multiplex |
| process (CLK100MHz) |
| begin |
| if rising_edge(CLK100MHz) then |
| if MuxCounter < MUXCOUNT-1 then |
| MuxCounter <= MuxCounter + 1; |
| else |
| MuxCounter <= (others => '0'); |
| Digits(7 downto 0) <= Digits(6 downto 0) & Digits(7); -- Rotate Left |
| Enable <= '0'; |
| end if; |
| if MuxCounter > (MUXCOUNT-4) then |
| Enable <= '1'; |
| end if; |
| end if; |
| end process; |
| -- HEX to 7 Segmet Decoder |
| -- -- A |
| -- | | F B |
| -- -- G |
| -- | | E C |
| -- -- D H |
| -- ABCDEFGH |
| Segments <= "11111100" when Code="0000" else -- Digit 0 |
| "01100000" when Code="0001" else -- Digit 1 |
| "11011010" when Code="0010" else -- Digit 2 |
| "11110010" when Code="0011" else -- Digit 3 |
| "01100110" when Code="0100" else -- Digit 4 |
| "10110110" when Code="0101" else -- Digit 5 |
| "10111110" when Code="0110" else -- Digit 6 |
| "11100000" when Code="0111" else -- Digit 7 |
| "11111110" when Code="1000" else -- Digit 8 |
| "11110110" when Code="1001" else -- Digit 9 |
| "11101110" when Code="1010" else -- Digit A |
| "00111110" when Code="1011" else -- Digit b |
| "10011100" when Code="1100" else -- Digit C |
| "01111010" when Code="1101" else -- Digit d |
| "10011110" when Code="1110" else -- Digit E |
| "10001110" when Code="1111" else -- Digit F |
| "00000000"; |
| Code <= Number( 3 downto 0) when Digits="00000001" else |
| Number( 7 downto 4) when Digits="00000010" else |
| Number(11 downto 8) when Digits="00000100" else |
| Number(15 downto 12) when Digits="00001000" else |
| Number(19 downto 16) when Digits="00010000" else |
| Number(23 downto 20) when Digits="00100000" else |
| Number(27 downto 24) when Digits="01000000" else |
| Number(31 downto 28) when Digits="10000000" else |
| "0000"; |
| -- Diferencial In/Outs |
| -- ======================== |
| DIFbuffer1 : IBUFGDS |
| generic map ( |
| DIFF_TERM => FALSE, -- Differential Termination |
| IBUF_DELAY_VALUE => "0", -- Specify the amount of added input delay for buffer, |
| -- "0"-"16" |
| IOSTANDARD => "LVPECL_33") |
| port map ( |
| I => SD1AP, -- Diff_p buffer input (connect directly to top-level port) |
| IB => SD1AN, -- Diff_n buffer input (connect directly to top-level port) |
| O => EXT_CLOCK -- Buffer output - Counter INPUT |
| ); |
| OBUFDS_inst : OBUFDS |
| generic map ( |
| IOSTANDARD => "LVDS_33") |
| port map ( |
| O => SD2AP, -- Diff_p output (connect directly to top-level port) |
| OB => SD2AN, -- Diff_n output (connect directly to top-level port) |
| I => EXT_CLOCK -- Buffer input are connected directly to IBUFGDS |
| ); |
| -- Output Signal on SATA Connector |
| -- SD1AP <= 'Z'; -- Counter INPUT |
| -- SD1AN <= 'Z'; |
| SD1BP <= 'Z'; |
| SD1BN <= 'Z'; |
| -- Input Here via SATA Cable |
| -- SD2AP <= 'Z'; -- Counter OUTPUT |
| -- SD2AN <= 'Z'; |
| SD2BP <= 'Z'; |
| SD2BN <= 'Z'; |
| -- Unused Signals |
| -- ============== |
| -- Differential inputs onn header |
| DIF1N <= 'Z'; |
| DIF1P <= 'Z'; |
| DIF2N <= 'Z'; |
| DIF2P <= 'Z'; |
| -- I2C Signals (on connector J30) |
| I2C_SCL <= 'Z'; |
| I2C_SDA <= 'Z'; |
| -- SPI Memory Interface |
| SPI_CS_n <= 'Z'; |
| SPI_DO <= 'Z'; |
| SPI_DI <= 'Z'; |
| SPI_CLK <= 'Z'; |
| SPI_WP_n <= 'Z'; |
| -- A/D |
| ANA_OUTD <= 'Z'; |
| ANA_REFD <= 'Z'; |
| -- VGA |
| VGA_R <= "ZZ"; |
| VGA_G <= "ZZ"; |
| VGA_B <= "ZZ"; |
| VGA_VS <= 'Z'; |
| VGA_HS <= 'Z'; |
| -- PS2 |
| PS2_DATA2 <= 'Z'; |
| PS2_CLK2 <='Z'; |
| end architecture gtime_a; |
| Property changes: |
| Added: svn:keywords |
| +Id |
| \ No newline at end of property |