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Cursor/Libs/Lcd/hdl/lcdSerializer_RTL.vhd
2021-11-24 10:50:51 +01:00

144 lines
4.4 KiB
VHDL

library Common;
use Common.CommonLib.all;
ARCHITECTURE RTL OF lcdSerializer IS
------------------------------------------------------------------------------
-- The clock-pulse rate of the SCL line can be up to 20 MHz @3.3V
-- The clock frequency is divided by generic value "baudRateDivide"
-- The corresponding "sclEn" is further divided by 2 to generate SCL
--
signal sclCounter: unsigned(requiredBitNb(baudRateDivide-1)-1 downto 0);
signal sclEn: std_ulogic;
signal scl_int: std_ulogic;
------------------------------------------------------------------------------
-- The minimal reset pulse width is 1 us
-- "sclEn" at 40 MHz has to be divided by 40 to generate the 1 us delay
--
constant resetCount : natural := 40;
signal resetCounter: unsigned(requiredBitNb(2*resetCount-1)-1 downto 0);
signal resetDone: std_ulogic;
------------------------------------------------------------------------------
-- Serial data bits have to be stable at the rising edge of SCL
-- Data bits will be updated at the falling edge of SCL
--
-- Data in comprises 9 bits: A0 (as MSB) and 8 row pixels or command bits
-- A0 selects between command data (A0 = 0) and pixel data (A0 = 1)
--
constant pixelsPerColumn : positive := data'length-1;
signal dataSampled : std_ulogic_vector(data'range);
signal chipSelect : std_ulogic;
signal updateData: std_ulogic;
signal dataCounter: unsigned(requiredBitNb(pixelsPerColumn+1)-1 downto 0);
BEGIN
------------------------------------------------------------------------------
-- clock divider for SCL
divideClock: process(reset, clock)
begin
if reset='1' then
scl_int <= '0';
sclCounter <= (others => '0');
elsif rising_edge(clock) then
if sclEn = '1' then
sclCounter <= (others => '0');
scl_int <= not scl_int;
else
sclCounter <= sclCounter + 1;
end if;
end if;
end process divideClock;
sclEn <= '1' when sclCounter = baudRateDivide-1
else '0';
------------------------------------------------------------------------------
-- LCD reset
process(clock,reset)
variable i : natural;
begin
if reset = '1' then
resetCounter <= (others => '0');
elsif rising_edge(clock) then
if sclEn = '1' then
if resetDone = '0' then
resetCounter <= resetCounter + 1;
end if;
end if;
end if;
end process;
resetDone <= '1' when resetCounter >= 2*resetCount-1
else '0';
RST_n <= '1' when resetCounter >= resetCount-1
else '0';
------------------------------------------------------------------------------
-- sample input data
process (reset, clock)
begin
if reset = '1' then
dataSampled <= (others => '0');
elsif rising_edge(clock) then
if send = '1' then
dataSampled <= data;
end if;
end if;
end process;
------------------------------------------------------------------------------
-- A0
A0 <= dataSampled(data'high);
------------------------------------------------------------------------------
-- serialize data
updateData <= sclEn and scl_int;
process (reset, clock)
begin
if reset = '1' then
dataCounter <= (others => '0');
elsif rising_edge(clock) then
if resetDone = '1' then
if dataCounter = 0 then
if send = '1' then
dataCounter <= to_unsigned(pixelsPerColumn+1, dataCounter'length);
end if;
else
if updateData = '1' then
dataCounter <= dataCounter - 1;
end if;
end if;
end if;
end if;
end process;
busy <= '1' when (resetDone = '0') or (dataCounter > 0)
else '0';
chipSelect <= '1' when (dataCounter > 0) and (dataCounter < pixelsPerColumn+1)
else '0';
sampleData: process (reset, clock)
begin
if reset = '1' then
CS_n <= '1';
SCL <= '1';
SI <= '1';
elsif rising_edge(clock) then
if chipSelect = '1' then
CS_n <= '0';
SCL <= scl_int or not(chipSelect);
SI <= dataSampled(to_integer(dataCounter-1));
else
CS_n <= '1';
SCL <= '1';
SI <= '1';
end if;
end if;
end process sampleData;
END ARCHITECTURE RTL;