/elec/quadcopter

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11 by Tim Marston
added pulse-width reading test program that reads all 8 channels
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//
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// main.ino
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//
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// Testing to see if we can read all 8 channels, multiplexed together on to two
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// interrupts (odd channels on one, and even on the other).  We read the
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// channels by measuring the pulse width.
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//
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// Ideally, it would be nice if we could read the raw PPM stream from the
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// receiver.  Sometimes you can open up your receiver and get to this stream,
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// but we have been unable.  And since this isn't guaranteed to ever be
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// available, reading the analogue outputs is certainly more portable.  So, we
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// are multiplexing the separate channels to two streams of pulses, like this:
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//
12 by Tim Marston
updated 8-channel pulse width reading test program's comments
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//                  ch1  ch3  ch5  ch7  ch2  ch4  ch6  ch8
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//                   |    |    |    |    |    |    |    |
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//                   ▼    ▼    ▼    ▼    ▼    ▼    ▼    ▼
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//                   ¯    ¯    ¯    ¯    ¯    ¯    ¯    ¯
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//            ___    |    |    |    |    |    |    |    |     ___
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//    GND ---|___|---+----+----+----+    +----+----+----+----|___|--- GND
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//             R                    |    |                     R
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//             ____________________ | __ | _____________________
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//                                  |    |
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//                  (int. 0) pin 2  o    o  pin 3 (int. 1)
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//
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// The two resistors in the circuit are pull-down resistors.  Without them, the
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// Arduino is unable to read the pulse wave (I guess because of the diodes --
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// it's fine without them!).
11 by Tim Marston
added pulse-width reading test program that reads all 8 channels
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//
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// (Note that on our receiver, and contrary to the above diagram, the channels
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// are not actually sent in order.  Channels 2 and 3 are reversed.  To this end,
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// the order that channels are received can be adjusted below.)
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#include <limits.h>
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// minimum pulse width (in ms), used to weed out crappy signals
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#define MIN_PULSE_WIDTH 1000UL
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// maximum pulse width (in ms), used to weed out crappy signals
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#define MAX_PULSE_WIDTH 2000UL
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// number of channels
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#define NUM_CHANNELS 8
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// minimum frame gap time (in ms), used to check that the frame gap is where we
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// expect it to be and that we have read the channels properly
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#define MIN_FRAME_GAP_WIDTH ( 4000UL + MIN_PULSE_WIDTH )
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// the width of the display of a single channel (in chars)
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#define GRAPH_SIZE 7
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// the channel's expected range for use in drawing (should be similar to
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// {MAX,MIN}_PULSE_WIDTH values)
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#define GRAPH_MIN 1000
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#define GRAPH_MAX 2000
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// channel sequence order
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const int channel_order_[] = { 1, 3, 2, 4, 5, 6, 7, 8 };
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// set to the time of the last pulse edges
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static unsigned long new_pulse_up_[2] = { 0, 0 };
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static unsigned long new_pulse_down_ = 0;
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static char new_pulse_interrupt_;
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// ISR to handle the PPM signals
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inline void signal_handler( int interrupt, int pin )
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{
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	// record rising/falling edge
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	if( digitalRead( pin ) )
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		new_pulse_up_[ interrupt ] = micros();
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	else {
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		new_pulse_down_ = micros();
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		// record which interrupt just had a falling edge
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		new_pulse_interrupt_ = interrupt;
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	}
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}
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void signal_handler_0()
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{
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	signal_handler( 0, 2 );
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}
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void signal_handler_1()
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{
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	signal_handler( 1, 3 );
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}
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void setup()
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{
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	// set up an interrupts
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	attachInterrupt( 0, signal_handler_0, CHANGE );
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	attachInterrupt( 1, signal_handler_1, CHANGE );
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	digitalWrite( 2, LOW );
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	digitalWrite( 3, LOW );
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	Serial.begin( 9600 );
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}
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unsigned long calculate_duration( unsigned long then, unsigned long now )
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{
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	return now - then;
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	if( now < then )
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		return now + ( ULONG_MAX - then );
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	else
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		return now - then;
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}
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static int count_ = 0, good_ = 0;
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bool read_channels( unsigned long channel_values[] )
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{
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	static unsigned long last_pulse_down = 0;
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	static int next_channel = 0;
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	// capture pulse values atomically
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	noInterrupts();
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	unsigned long pulse_up = new_pulse_up_[ new_pulse_interrupt_ ];
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	unsigned long pulse_down = new_pulse_down_;
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	char new_pulse_interrupt = new_pulse_interrupt_;
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	interrupts();
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	// if the amount of time that has passed since the last falling edge is
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	// greater than the frame gap, reset the next channel so that we can start
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	// reading them again
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	if( next_channel &&
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		new_pulse_interrupt == 1 &&
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		calculate_duration( pulse_down, micros() ) > MIN_FRAME_GAP_WIDTH )
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	{
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		// reset the next channel (which restarts reading them)
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		next_channel = 0;
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	}
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	// check for a new complete pulse
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	if( pulse_down != last_pulse_down )
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	{
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		// are there still pulses to read?
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		if( next_channel < NUM_CHANNELS )
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		{
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			unsigned long duration =
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				calculate_duration( pulse_up, pulse_down );
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			// does this pulse look ok?
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			if( duration >= MIN_PULSE_WIDTH &&
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				duration <= MAX_PULSE_WIDTH )
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			{
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				// store channel value
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				int channel = channel_order_[ next_channel ] - 1;
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				channel_values[ channel ] = duration;
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				// we got a channel
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				next_channel++;
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			}
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			else {
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				// set invalid channel number (to indicate error)
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				next_channel = NUM_CHANNELS + 1;
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			}
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		}
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		last_pulse_down = pulse_down;
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	}
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	// if we've read a frame, invalidate the frame (so we don't report it a
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	// second time) and return true
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	if( next_channel == NUM_CHANNELS ) {
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		next_channel++;
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		return true;
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	}
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	return false;
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}
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void draw_graph( unsigned long channel_values[] )
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{
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	// init graph
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	static char graph[ GRAPH_SIZE + 2 ];
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	static char inited_graph = false;
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	if( !inited_graph ) {
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		for( int a = 1; a < GRAPH_SIZE + 1; a++ )
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			graph[ a ] = '_';
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		graph[ 0 ] = '|';
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		graph[ GRAPH_SIZE + 1 ] = 0;
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		inited_graph = true;
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	}
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	// draw channels
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	for( int a = 0; a < NUM_CHANNELS; a++ ) {
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		unsigned long value = max( 0,
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			min( channel_values[ a ], GRAPH_MAX ) - GRAPH_MIN );
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		int pos = ( GRAPH_SIZE ) * value / ( GRAPH_MAX - GRAPH_MIN );
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		graph[ pos + 1 ] = '^';
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		Serial.print( graph );
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		graph[ pos + 1 ] = '_';
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	}
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	Serial.println( "|" );
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}
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void loop()
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{
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	unsigned long channel_values[ NUM_CHANNELS ];
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	while( true )
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	{
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		if( read_channels( channel_values ) )
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			draw_graph( channel_values );
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	}
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}