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Copy pathTransmitter_TX.vhd
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Transmitter_TX.vhd
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library IEEE;
use IEEE.STD_LOGIC_1164.ALL;
entity Transmitter_TX is
port(
RESET_ALL_TX:in std_logic;
CLK: in std_logic;
START: in std_logic;
CTS: in std_logic;
B_IN: in std_logic_vector(0 to 6);--osservare
AVAILABLE:out std_logic;
TX_OUT: out std_logic);
end Transmitter_TX;
architecture rtl of Transmitter_TX is
signal RESET_START_MNG: std_logic;
signal WORKING:std_logic;
signal LOAD_CONTROLLER:std_logic;
signal PRESET_PISO:std_logic;
signal ENABLE_PISO:std_logic;
signal STOP_BIT:std_logic;
signal START_BIT:std_logic;
constant thisN : integer := 9;
signal BIT_COUNTER_RST:std_logic;
signal BIT_COUNTER_ENABLE:std_logic;
signal BIT_COUNTER_OUT:std_logic_vector(0 to 3);
signal FINISHED:std_logic;--contato fino a 10
signal ENTRY_A_MUX:std_logic;
signal ENTRI_B_MUX:std_logic;
signal SELECT_MUX:std_logic;
signal RESET_PARITY_BIT_GEN:std_logic;
signal PRESET_PARITY_BIT_GEN:std_logic;
signal ENABLE_PARITY_BIT_GEN:std_logic;
signal TICK:std_logic;--Baudrate
signal PRESET_JOHNSON:std_logic;
signal ENABLE_JOHNSON:std_logic;
signal L_RESET_START:std_logic;
component START_MANAGEMENT is
port(
CLOCK_MNG0: in std_logic;
CLOCK_MNG1: in std_logic;
CTS_MNG: in std_logic;
START_MNG: in std_logic;
RST_MNG: in std_logic;
RESET_START: in std_logic;
FF_OUT_START: out std_logic;
LOAD_CONTROL: out std_logic
);
end component;
component PISO is
generic(
N: integer
);
port(
CLK: in std_logic;
RESET: in std_logic;
LOAD: in std_logic;
PRESET: in std_logic;
ENABLE: in std_logic;
XP: in std_logic_vector(0 to N-1);
Y: out std_logic);
end component;
component Bit_Counter is
generic(
N: integer
);
port(
tick: in std_logic;
reset: in std_logic;
enable: in std_logic;
count: out std_logic_vector(N-1 downto 0)
);
end component;
component Parity_Bit_Generator is
port(
d_in: in std_logic;
tick: in std_logic;
reset: in std_logic;
preset: in std_logic;
enable: in std_logic;
even_p: out std_logic
);
end component;
component MUX_2_1 is
port( SEL: in std_logic;
A, B: in std_logic;
Y: out std_logic
);
end component;
component Tick_Counter is
generic(
N : integer:= 16
);
port(
clock: in std_logic;
preset: in std_logic;
enable: in std_logic;
tick: out std_logic;
m_tick: out std_logic
);
end component;
begin
U1: START_MANAGEMENT
port map(
CLOCK_MNG0=>CLK,
CLOCK_MNG1=>TICK,
CTS_MNG=>CTS,
START_MNG=>START,
RESET_START=>L_RESET_START,
RST_MNG=>RESET_START_MNG,--Da far resettare al finire ff
FF_OUT_START=>WORKING,
LOAD_CONTROL=>LOAD_CONTROLLER
);
U2: PISO
generic map(N=>thisN)
port map(
CLK=>TICK,--Cambiare con clock lento
RESET=>'0',
PRESET=>PRESET_PISO,
ENABLE=>ENABLE_PISO,
Y=>ENTRY_A_MUX,
XP(1 to thisN-2) => B_IN(0 to 6),
XP(0) => STOP_BIT,
XP(thisN-1) => START_BIT,
LOAD=>LOAD_CONTROLLER
);
STOP_BIT<='1';
START_BIT<='0';
ENABLE_PISO<=WORKING;
PRESET_PISO<='0' when WORKING='1' else
'1';
U3: Bit_Counter
generic map(
N=>4
)
port map(
tick=>TICK,
reset=>BIT_COUNTER_RST,
enable=>BIT_COUNTER_ENABLE,
count=>BIT_COUNTER_OUT
);
BIT_COUNTER_ENABLE<=WORKING;
FINISHED<='1' when BIT_COUNTER_OUT(3)='1' and BIT_COUNTER_OUT(2)='0' and BIT_COUNTER_OUT(1)='0' and BIT_COUNTER_OUT(0)='1' else
'0';--se faccio 3 downo to 0 sarebbe standard
RESET_START_MNG<= '1' when FINISHED='1' and RESET_ALL_TX='0' else
'1' when FINISHED='0' and RESET_ALL_TX='1' else
'1' when FINISHED='1' and RESET_ALL_TX='1' else
'0';
L_RESET_START<='1' when RESET_ALL_TX='1' else
'1' when CTS='0' and START='0' and WORKING='1' and FINISHED='1' else
'1' when CTS='1' and START='0' and WORKING='1' and FINISHED='1' else
'1' when CTS='0' and START='1' and WORKING='1' and FINISHED='1' else
'0';
BIT_COUNTER_RST<= '1' when LOAD_CONTROLLER='0' and RESET_ALL_TX='1' else
'1' when LOAD_CONTROLLER='1' else
'1' when WORKING='0' and LOAD_CONTROLLER='0' else
'0';
U4: MUX_2_1
port map(
A=>ENTRY_A_MUX,
B=>ENTRI_B_MUX,
SEL =>SELECT_MUX,
Y=>TX_OUT
);
SELECT_MUX<='1' when BIT_COUNTER_OUT(3)='0' and BIT_COUNTER_OUT(2)='0' and BIT_COUNTER_OUT(1)='0' and BIT_COUNTER_OUT(0)='1' else
'0';
U5: Parity_Bit_Generator
port map(
d_in=>ENTRY_A_MUX,
tick=>TICK,
reset=> RESET_PARITY_BIT_GEN,
preset=>PRESET_PARITY_BIT_GEN,
enable=>ENABLE_PARITY_BIT_GEN,
even_p=>ENTRI_B_MUX
);
RESET_PARITY_BIT_GEN<='1' when LOAD_CONTROLLER='1' else
'0';
ENABLE_PARITY_BIT_GEN<=WORKING;
U6:Tick_Counter
port map(
clock=>CLK,
tick=> TICK,
preset=>PRESET_JOHNSON,
enable=>ENABLE_JOHNSON
);
ENABLE_JOHNSON<=WORKING;
PRESET_JOHNSON<='0' when WORKING='1' else
'1';
AVAILABLE<=CTS;
end rtl;