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[/] [System09/] [trunk/] [rtl/] [VHDL/] [spi-master.vhd] - Rev 120
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--===========================================================================-- -- -- -- Synthesizable Serial Peripheral Interface Master -- -- -- --===========================================================================-- -- -- File name : spi-master.vhd -- -- Entity name : spi-master -- -- Purpose : Implements a SPI Master Controller -- -- Dependencies : ieee.std_logic_1164 -- ieee.std_logic_unsigned -- -- Author : Hans Huebner -- -- Email : hans@huebner.org -- -- Web : http://opencores.org/project,system09 -- -- Description : This core implements a SPI master interface. -- Transfer size is 4, 8, 12 or 16 bits. -- The SPI clock is 0 when idle, sampled on -- the rising edge of the SPI clock. -- The SPI clock is derived from the bus clock input -- divided by 2, 4, 8 or 16. -- -- clk, reset, cs, rw, addr, data_in, data_out and irq -- represent the System09 bus interface. -- spi_clk, spi_mosi, spi_miso and spi_cs_n are the -- standard SPI signals meant to be routed off-chip. -- -- The SPI core provides for four register addresses -- that the CPU can read or writen to: -- -- Base + $00 -> DL: Data Low LSB -- Base + $01 -> DH: Data High MSB -- Base + $02 -> CS: Command/Status -- Base + $03 -> CO: Config -- -- CS: Write bits: -- -- CS[0] START : Start transfer -- CS[1] END : Deselect device after transfer -- (or immediately if START = '0') -- CS[2] IRQEN : Generate IRQ at end of transfer -- CS[6:4] SPIAD : SPI device address -- -- CS: Read bits -- -- CS[0] BUSY : Currently transmitting data -- -- CO: Write bits -- -- CO[1:0] DIVIDE: SPI clock divisor, -- 00=clk/2, -- 01=clk/4, -- 10=clk/8, -- 11=clk/16 -- CO[3:2] LENGTH: Transfer length, -- 00= 4 bits, -- 01= 8 bits, -- 10=12 bits, -- 11=16 bits -- -- Copyright (C) 2009 - 2010 Hans Huebner -- -- This program is free software: you can redistribute it and/or modify -- it under the terms of the GNU General Public License as published by -- the Free Software Foundation, either version 3 of the License, or -- (at your option) any later version. -- -- This program is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -- GNU General Public License for more details. -- -- You should have received a copy of the GNU General Public License -- along with this program. If not, see <http://www.gnu.org/licenses/>. -- -- --===========================================================================-- -- -- -- Revision History -- -- -- --===========================================================================-- -- -- Version Author Date Description -- -- 0.1 Hans Huebner 23 February 2009 SPI bus master for System09 -- 0.2 John Kent 16 June 2010 Added GPL notice -- -- library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; entity spi_master is port ( -- -- CPU Interface Signals -- clk : in std_logic; reset : in std_logic; cs : in std_logic; rw : in std_logic; addr : in std_logic_vector(1 downto 0); data_in : in std_logic_vector(7 downto 0); data_out : out std_logic_vector(7 downto 0); irq : out std_logic; -- -- SPI Interface Signals -- spi_miso : in std_logic; spi_mosi : out std_logic; spi_clk : out std_logic; spi_cs_n : out std_logic_vector(7 downto 0) ); end; architecture rtl of spi_master is -- State type of the SPI transfer state machine type state_type is (s_idle, s_running); signal state : state_type; -- Shift register signal shift_reg : std_logic_vector(15 downto 0); -- Buffer to hold data to be sent signal spi_data_buf : std_logic_vector(15 downto 0); -- Start transmission flag signal start : std_logic; -- Number of bits transfered signal count : std_logic_vector(3 downto 0); -- Buffered SPI clock signal spi_clk_buf : std_logic; -- Buffered SPI clock output signal spi_clk_out : std_logic; -- Previous SPI clock state signal prev_spi_clk : std_logic; -- Number of clk cycles-1 in this SPI clock period signal spi_clk_count : std_logic_vector(2 downto 0); -- SPI clock divisor signal spi_clk_divide : std_logic_vector(1 downto 0); -- SPI transfer length signal transfer_length : std_logic_vector(1 downto 0); -- Flag to indicate that the SPI slave should be deselected after the current -- transfer signal deselect : std_logic; -- Flag to indicate that an IRQ should be generated at the end of a transfer signal irq_enable : std_logic; -- Internal chip select signal, will be demultiplexed through the cs_mux signal spi_cs : std_logic; -- Current SPI device address signal spi_addr : std_logic_vector(2 downto 0); begin -- Read CPU bus into internal registers cpu_write : process(clk, reset) begin if reset = '1' then deselect <= '0'; irq_enable <= '0'; start <= '0'; spi_clk_divide <= "11"; transfer_length <= "11"; spi_data_buf <= (others => '0'); elsif falling_edge(clk) then start <= '0'; if cs = '1' and rw = '0' then case addr is when "00" => spi_data_buf(7 downto 0) <= data_in; when "01" => spi_data_buf(15 downto 8) <= data_in; when "10" => start <= data_in(0); deselect <= data_in(1); irq_enable <= data_in(2); spi_addr <= data_in(6 downto 4); when "11" => spi_clk_divide <= data_in(1 downto 0); transfer_length <= data_in(3 downto 2); when others => null; end case; end if; end if; end process; -- Provide data for the CPU to read cpu_read : process(shift_reg, addr, state, deselect, start) begin data_out <= (others => '0'); case addr is when "00" => data_out <= shift_reg(7 downto 0); when "01" => data_out <= shift_reg(15 downto 8); when "10" => if state = s_idle then data_out(0) <= '0'; else data_out(0) <= '1'; end if; data_out(1) <= deselect; when others => null; end case; end process; spi_cs_n <= "11111110" when spi_addr = "000" and spi_cs = '1' else "11111101" when spi_addr = "001" and spi_cs = '1' else "11111011" when spi_addr = "010" and spi_cs = '1' else "11110111" when spi_addr = "011" and spi_cs = '1' else "11101111" when spi_addr = "100" and spi_cs = '1' else "11011111" when spi_addr = "101" and spi_cs = '1' else "10111111" when spi_addr = "110" and spi_cs = '1' else "01111111" when spi_addr = "111" and spi_cs = '1' else "11111111"; -- SPI transfer state machine spi_proc : process(clk, reset) begin if reset = '1' then count <= (others => '0'); shift_reg <= (others => '0'); prev_spi_clk <= '0'; spi_clk_out <= '0'; spi_cs <= '0'; state <= s_idle; irq <= 'Z'; elsif falling_edge(clk) then prev_spi_clk <= spi_clk_buf; irq <= 'Z'; case state is when s_idle => if start = '1' then count <= (others => '0'); shift_reg <= spi_data_buf; spi_cs <= '1'; state <= s_running; elsif deselect = '1' then spi_cs <= '0'; end if; when s_running => if prev_spi_clk = '1' and spi_clk_buf = '0' then spi_clk_out <= '0'; count <= count + "0001"; shift_reg <= shift_reg(14 downto 0) & spi_miso; if ((count = "0011" and transfer_length = "00") or (count = "0111" and transfer_length = "01") or (count = "1011" and transfer_length = "10") or (count = "1111" and transfer_length = "11")) then if deselect = '1' then spi_cs <= '0'; end if; if irq_enable = '1' then irq <= '1'; end if; state <= s_idle; end if; elsif prev_spi_clk = '0' and spi_clk_buf = '1' then spi_clk_out <= '1'; end if; when others => null; end case; end if; end process; -- Generate SPI clock spi_clock_gen : process(clk, reset) begin if reset = '1' then spi_clk_count <= (others => '0'); spi_clk_buf <= '0'; elsif falling_edge(clk) then if state = s_running then if ((spi_clk_divide = "00") or (spi_clk_divide = "01" and spi_clk_count = "001") or (spi_clk_divide = "10" and spi_clk_count = "011") or (spi_clk_divide = "11" and spi_clk_count = "111")) then spi_clk_buf <= not spi_clk_buf; spi_clk_count <= (others => '0'); else spi_clk_count <= spi_clk_count + "001"; end if; else spi_clk_buf <= '0'; end if; end if; end process; spi_mosi_mux : process(shift_reg, transfer_length) begin case transfer_length is when "00" => spi_mosi <= shift_reg(3); when "01" => spi_mosi <= shift_reg(7); when "10" => spi_mosi <= shift_reg(11); when "11" => spi_mosi <= shift_reg(15); when others => null; end case; end process; spi_clk <= spi_clk_out; end rtl;
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