use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use work.util.all;
+use work.qcounter.all;
entity rpi_mc_simple_dc is
- port (
- gpio2: in std_logic; -- SDA
- gpio3: in std_logic; -- SCL
- gpio4: in std_logic; -- CLK
- gpio14: in std_logic; -- Tx
- gpio15: in std_logic; -- Rx
- gpio17: in std_logic; -- RTS
- gpio18: in std_logic; -- PWM0/PCMCLK
- gpio27: in std_logic; -- SD1DAT3
- gpio22: in std_logic; -- SD1CLK
- gpio23: out std_logic; -- SD1CMD
- gpio24: out std_logic; -- SD1DAT0
- gpio10: in std_logic; -- SPI0MOSI
- gpio9: in std_logic; -- SPI0MISO
- gpio25: in std_logic; -- SD1DAT1
- gpio11: in std_logic; -- SPI0SCLK
- gpio8: out std_logic; -- SPI0CE0
- gpio7: out std_logic; -- SPI0CE1
- gpio5: in std_logic; -- GPCLK1
- gpio6: in std_logic; -- GPCLK2
- gpio12: in std_logic; -- PWM0
- gpio13: in std_logic; -- PWM1
- gpio19: in std_logic; -- PWM1/SPI1MISO/PCMFS
- gpio16: in std_logic; -- SPI1CE2
- gpio26: in std_logic; -- SD1DAT2
- gpio20: in std_logic; -- SPI1MOSI/PCMDIN/GPCLK0
- gpio21: in std_logic; -- SPI1SCLK/PCMDOUT/GPCLK1
- --
- -- PWM
- -- Each PWM signal has cooresponding shutdown
- pwm: out std_logic_vector (1 to 3);
- shdn: out std_logic_vector (1 to 3);
- -- Fault/power stage status
- stat: in std_logic_vector (1 to 3);
- -- HAL inputs
- hal_in: in std_logic_vector (1 to 3);
- -- IRC inputs
- irc_a: in std_logic;
- irc_b: in std_logic;
- irc_i: in std_logic;
- -- Power status
- power_stat: in std_logic;
- -- ADC for current
- adc_miso: in std_logic;
- adc_mosi: in std_logic;
- adc_sclk: in std_logic;
- adc_scs: in std_logic;
- -- Extarnal SPI
- ext_miso: in std_logic;
- ext_mosi: in std_logic;
- ext_sclk: in std_logic;
- ext_scs0: in std_logic;
- ext_scs1: in std_logic;
- ext_scs2: in std_logic;
- -- RS-485 Transceiver
- rs485_rxd: in std_logic;
- rs485_txd: out std_logic;
- rs485_dir: out std_logic;
- -- CAN Transceiver
- can_rx: in std_logic;
- can_tx: in std_logic;
- -- DIP switch
- dip_sw: in std_logic_vector (1 to 3);
- -- Unused terminal to keep design tools silent
- dummy_unused : out std_logic
- );
+port (
+ gpio2: in std_logic; -- SDA
+ gpio3: in std_logic; -- SCL
+ gpio4: in std_logic; -- CLK
+ gpio14: in std_logic; -- Tx
+ gpio15: in std_logic; -- Rx
+ gpio17: out std_logic; -- RTS
+ gpio18: out std_logic; -- PWM0/PCMCLK
+ gpio27: out std_logic; -- SD1DAT3
+ gpio22: out std_logic; -- SD1CLK
+ gpio23: out std_logic; -- SD1CMD
+ gpio24: out std_logic; -- SD1DAT0
+ gpio10: in std_logic; -- SPI0MOSI
+ gpio9: out std_logic; -- SPI0MISO
+ gpio25: out std_logic; -- SD1DAT1
+ gpio11: in std_logic; -- SPI0SCLK
+ gpio8: in std_logic; -- SPI0CE0
+ gpio7: in std_logic; -- SPI0CE1
+ gpio5: in std_logic; -- GPCLK1
+ gpio6: in std_logic; -- GPCLK2
+ gpio12: in std_logic; -- PWM0
+ gpio13: in std_logic; -- PWM1
+ gpio19: in std_logic; -- PWM1/SPI1MISO/PCMFS
+ gpio16: in std_logic; -- SPI1CE2
+ gpio26: in std_logic; -- SD1DAT2
+ gpio20: in std_logic; -- SPI1MOSI/PCMDIN/GPCLK0
+ gpio21: in std_logic; -- SPI1SCLK/PCMDOUT/GPCLK1
+ --
+ -- PWM
+ -- Each PWM signal has cooresponding shutdown
+ pwm: out std_logic_vector (1 to 3);
+ shdn: out std_logic_vector (1 to 3);
+ -- Fault/power stage status
+ stat: in std_logic_vector (1 to 3);
+ -- HAL inputs
+ hal_in: in std_logic_vector (1 to 3);
+ -- IRC inputs
+ irc_a: in std_logic;
+ irc_b: in std_logic;
+ irc_i: in std_logic;
+ -- Power status
+ power_stat: in std_logic;
+ -- ADC for current
+ adc_miso: in std_logic;
+ adc_mosi: in std_logic;
+ adc_sclk: in std_logic;
+ adc_scs: in std_logic;
+ -- Extarnal SPI
+ ext_miso: in std_logic; --master in slave out
+ ext_mosi: in std_logic; --master out slave in
+ ext_sclk: in std_logic;
+ ext_scs0: in std_logic;
+ ext_scs1: in std_logic;
+ ext_scs2: in std_logic;
+ -- RS-485 Transceiver
+ rs485_rxd: in std_logic;
+ rs485_txd: out std_logic;
+ rs485_dir: out std_logic;
+ -- CAN Transceiver
+ can_rx: in std_logic;
+ can_tx: in std_logic;
+ -- DIP switch
+ dip_sw: in std_logic_vector (1 to 3); --na desce je prohozene cislovanni
+ -- Unused terminal to keep design tools silent
+ dummy_unused : out std_logic
+);
end rpi_mc_simple_dc;
+
architecture behavioral of rpi_mc_simple_dc is
-attribute syn_noprune :boolean;
-attribute syn_preserve :boolean;
-attribute syn_keep :boolean;
-attribute syn_hier :boolean;
- -- Actel lib
- -- component pll50to200
- -- port (
- -- powerdown, clka: in std_logic;
- -- lock, gla: out std_logic
- -- );
- -- end component;
- -- component CLKINT
- -- port (A: in std_logic; Y: out std_logic);
- -- end component;
- --
- signal pwm_in, pwm_dir_in: std_logic;
+ attribute syn_noprune :boolean;
+ attribute syn_preserve :boolean;
+ attribute syn_keep :boolean;
+ attribute syn_hier :boolean;
+ -- Actel lib
+ -- component pll50to200
+ -- port (
+ -- powerdown, clka: in std_logic;
+ -- lock, gla: out std_logic
+ -- );
+ -- end component;
+
+ component CLKINT
+ port (A: in std_logic; Y: out std_logic);
+ end component;
+
+ signal spiclk_old_lvl: std_logic :='0'; --pro detekci hrany SPI hodin
+ signal pwm_in, pwm_dir_in: std_logic;
+ signal spi_clk: std_logic;
+ signal gpio_clk: std_logic;
+ signal dat_reg : STD_LOGIC_VECTOR (7 downto 0):=(others=>'0'); --registr pro SPI
--- attribute syn_noprune of gpio2 : signal is true;
--- attribute syn_preserve of gpio2 : signal is true;
--- attribute syn_keep of gpio2 : signal is true;
--- attribute syn_hier of gpio2 : signal is true;
+ -- attribute syn_noprune of gpio2 : signal is true;
+ -- attribute syn_preserve of gpio2 : signal is true;
+ -- attribute syn_keep of gpio2 : signal is true;
+ -- attribute syn_hier of gpio2 : signal is true;
begin
--- PLL as a reset generator
--- copyclk: CLKINT
--- port map (
--- a => clkm,
--- y => pll_clkin);
--- pll: pll50to200
--- port map (
--- powerdown => '1',
--- clka => pll_clkin,
--- gla => pll_clkout,
--- lock => pll_lock);
--- -- reset <= not pll_lock;
--- reset <= '0'; -- TODO: apply reset for good failsafe
+ -- PLL as a reset generator
+
+ --zesileni signalu hodin SPI - bez zesileni nelze syntetizovat
+ copyclk: CLKINT
+ port map (
+ a => gpio11,
+ y => spi_clk
+ );
+
+ --zesileni signalu GPIO CLK
+ copyclk2: CLKINT
+ port map (
+ a => gpio4,
+ y => gpio_clk
+ );
+
+ -- pll: pll50to200
+ -- port map (
+ -- powerdown => '1',
+ -- clka => pll_clkin,
+ -- gla => pll_clkout,
+ -- lock => pll_lock);
+ -- -- reset <= not pll_lock;
+ -- reset <= '0'; -- TODO: apply reset for good failsafe
-- upon power-on
--- clock <= clkm;
-
- dummy_unused <= gpio2 and gpio3 and gpio4 and
- gpio5 and gpio6 and gpio9 and
- gpio10 and gpio11 and gpio12 and gpio13 and gpio14 and
- gpio15 and gpio16 and gpio17 and gpio19 and
- gpio20 and gpio21 and
- gpio25 and gpio26 and gpio27 and
- stat(1) and stat(2) and stat(3) and
- hal_in(1) and hal_in(2) and hal_in(3) and
- irc_i and power_stat and adc_miso and adc_mosi and adc_sclk and adc_scs and
- ext_miso and ext_mosi and ext_sclk and ext_scs0 and ext_scs1 and ext_scs2 and
- rs485_rxd and
- can_rx and can_tx and
- dip_sw(1) and dip_sw(2) and dip_sw(3);
-
- rs485_txd <= '1';
- rs485_dir <= '0';
+ -- clock <= clkm;
- gpio23 <= irc_a;
- gpio24 <= irc_a;
+ dummy_unused <= gpio2 and gpio3 and gpio4 and
+ gpio5 and gpio6 and
+ gpio12 and gpio13 and gpio14 and
+ gpio15 and gpio16 and gpio19 and
+ gpio20 and gpio21 and gpio26 and
+ stat(1) and stat(2) and stat(3) and
+ hal_in(1) and hal_in(2) and hal_in(3) and
+ irc_i and power_stat and
+ adc_miso and adc_mosi and adc_sclk and adc_scs and
+ rs485_rxd and
+ can_rx and can_tx and
+ dip_sw(1) and dip_sw(2) and dip_sw(3) and
+ irc_a and irc_b and
+ -- gpio17 and gpio18 and gpio27 and gpio22 and
+ gpio8 and gpio11 and gpio7 and gpio10 and
+ ext_scs1 and ext_scs2 and ext_miso and ext_mosi and ext_sclk and ext_scs0;
+
+ rs485_txd <= '1';
+ rs485_dir <= '0';
- gpio7 <= irc_b;
- gpio8 <= irc_b;
+
+ --gpio24 <= dip_sw(1); --na desce je prohozene cislovani
- pwm_in <= gpio18;
- pwm_dir_in <= gpio22;
+ shdn(1) <= '0';
+ shdn(2) <= '0';
+ shdn(3) <= '1';
- shdn(1) <= '0';
- shdn(2) <= '0';
- shdn(3) <= '1';
+ pwm(1) <= '0';
+ pwm(2) <= '0';
+ pwm(3) <= '0';
- pwm(1) <= pwm_in and not pwm_dir_in;
- pwm(2) <= pwm_in and pwm_dir_in;
- pwm(3) <= '0';
+
+ process (gpio_clk)
+ begin
+ --if (gpio11'event and gpio11 = '1') then -- rising edge of SCK
+ if ((spi_clk = '1') and (spiclk_old_lvl = '0') ) then
+ if (gpio7 = '0') then -- SPI CS must be selected
+ -- shift serial data into dat_reg on each rising edge
+ -- of SCK, MSB first
+ dat_reg(7 downto 0) <= dat_reg(6 downto 0) & gpio10;
+ spiclk_old_lvl <= '1';
+
+ end if;
+ elsif ((spi_clk = '0') and (spiclk_old_lvl = '1')) then
+ if (gpio7 = '0') then
+ gpio9 <= dat_reg(7); --zapisujeme nejdriv MSB
+ spiclk_old_lvl <= '0';
+ end if;
+ end if;
+ end process;
end behavioral;