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Cursor/Cursor_test/hdl/cursor_tester_test.vhd

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VHDL
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2021-11-24 09:50:51 +00:00
ARCHITECTURE test OF cursor_tester IS
constant clockFrequency: real := 66.0E6;
constant clockPeriod: time := 1.0/clockFrequency * 1 sec;
signal sClock: std_uLogic := '1';
signal testMode_int: std_uLogic;
constant buttonsPulseWidth : time := 100 us;
constant pulsesPerTurn: integer := 2000;
constant pwmReadBitNb: positive :=8;
constant pwmLowpassAddBitNb: positive :=8;
constant voltageToSpeedBitNb: positive := 8;
signal side1Acc: unsigned(pwmReadBitNb+pwmLowpassAddBitNb-1 downto 0) := (others => '0');
signal side2Acc: unsigned(pwmReadBitNb+pwmLowpassAddBitNb-1 downto 0) := (others => '0');
signal side1M: unsigned(pwmReadBitNb-1 downto 0);
signal side2M: unsigned(pwmReadBitNb-1 downto 0);
signal position: signed(pwmReadBitNb+voltageToSpeedBitNb-1 downto 0) := (others => '0');
signal stepCount: unsigned(1 downto 0);
BEGIN
------------------------------------------------------------------------------
-- clock and reset
--
reset <= '1', '0' after 2*clockPeriod;
sClock <= not sClock after clockPeriod/2;
clock <= transport sClock after clockPeriod*9/10;
------------------------------------------------------------------------------
-- test sequence
--
process
begin
testMode_int <= '1';
restart <= '0';
go1 <= '0';
go2 <= '0';
button4 <= '0';
sensor1 <= '0';
sensor2 <= '0';
wait for 0.1 ms;
----------------------------------------------------------------------------
-- restart
restart <= '1', '0' after buttonsPulseWidth;
wait for 0.25 ms;
sensor1 <= '1', '0' after buttonsPulseWidth;
wait for 0.25 ms;
----------------------------------------------------------------------------
-- advance to first stop point
go1 <= '1', '0' after buttonsPulseWidth;
wait for 2 ms;
----------------------------------------------------------------------------
-- advance to second stop point
go2 <= '1', '0' after buttonsPulseWidth;
wait for 2 ms;
----------------------------------------------------------------------------
-- go back to first stop point
go1 <= '1', '0' after buttonsPulseWidth;
wait for 2 ms;
----------------------------------------------------------------------------
-- back to start with sensor reset
restart <= '1', '0' after buttonsPulseWidth;
wait for 0.5 ms;
sensor1 <= '1', '0' after buttonsPulseWidth;
wait for 0.5 ms;
----------------------------------------------------------------------------
-- advance to second stop point
go2 <= '1', '0' after buttonsPulseWidth;
wait for 3 ms;
----------------------------------------------------------------------------
-- back to start with counter stop
restart <= '1', '0' after buttonsPulseWidth;
wait for 2 ms;
sensor1 <= '1', '0' after buttonsPulseWidth;
wait for 1 ms;
----------------------------------------------------------------------------
-- quit test mode
testMode_int <= '0';
----------------------------------------------------------------------------
-- advance to first stop point
go1 <= '1', '0' after buttonsPulseWidth;
wait for 2 ms;
wait;
end process;
testMode <= testMode_int;
------------------------------------------------------------------------------
-- PWM lowpass
--
process(sClock)
begin
if rising_edge(sClock) then
if side1 = '1' then
side1Acc <= side1Acc + 2**pwmReadBitNb-1 - shift_right(side1Acc, pwmLowpassAddBitNb);
else
side1Acc <= side1Acc - shift_right(side1Acc, pwmLowpassAddBitNb);
end if;
if side2 = '1' then
side2Acc <= side2Acc + 2**pwmReadBitNb-1 - shift_right(side2Acc, pwmLowpassAddBitNb);
else
side2Acc <= side2Acc - shift_right(side2Acc, pwmLowpassAddBitNb);
end if;
end if;
end process;
side1M <= resize(shift_right(side1Acc, pwmLowpassAddBitNb), side1M'length);
side2M <= resize(shift_right(side2Acc, pwmLowpassAddBitNb), side2M'length);
------------------------------------------------------------------------------
-- motor feedback
--
count: process (sClock)
begin
if motorOn = '1' then
if testMode_int = '0' then
position <= position + to_integer(side1M) - to_integer(side2M);
else
position <= position + (to_integer(side1M) - to_integer(side2M)) * 5;
end if;
end if;
end process count;
stepCount <= resize(shift_right(unsigned(position), position'length-stepCount'length), stepCount'length);
encoderA <= stepCount(1);
encoderB <= not stepCount(1) xor stepCount(0);
encoderI <= '1' when stepCount = pulsesPerTurn-1 else '0';
END ARCHITECTURE test;