tripswitch - configure tripswitches for axes

        tripswitch [port] [mask] [test] [0]   # (all values in HEX!)

        tripswitch 0000 00 00 0      # disable all trip switch detection
        tripswitch 03bd 40 00 0      # LPT1 pin 10, HI bit detects condition
        tripswitch 03bd 40 40 0      # LPT1 pin 10, LO bit detects condition

	Tripswitches are set up to stop motion control moves (FEED, GO, etc)
	if an axis is about to go off its track. When a trip occurs, the 
	software will stop the motors and indicate a trip error:
                ** TRIP SWITCH ERROR - AXIS WENT TOO FAR **
                RETURN to continue,  or SPACEBAR to ABORT:

	Sensors should be wired so that a light by the trip switch indicates
	which trip switch was activated, so the problem can be corrected.

	A trip condition will occur only when any switch changes from
	its normal state to its trip state. A trip condition will NOT occur
	when the switch changes back to its normal state. This allows the
	operator to back the motor off after a trip occurred, without
	causing reoccuring trip errors.

	    [port] is the  port number. If [port] is 0000, no trip
	    switch checking is done.

	    [mask] is applied to the value received from the port 
	    whenever the software is checking for a trip switch condition.
	    This is applied before comparing to [test].

	    [test] is compared to the value read from the port after
	    [mask] is applied. If the result is the same as [test], a trip
	    condition will occur.

	    [0] is always zero.

	You can find the base port value for the parallel ports from the
	operating system using the DOS 'debug' utility:

	C>debug                               # run 'debug'
	-d40:8 f                              # enter this (not the '-')
	0040:0008  BC 03 78 03 00 00 00 00    # debug spits this out
	-q         ----- -----                # type 'q' to quit debug
		     |     |
		     |	   LPT #2's  port base address
		     LPT #1's  port base address

	Your machine may show different values. In the case above, 03BC
	is the base port value for LPT1..note the bytes are in reverse
	order in typical LSB/MSB fashion.

	See the PARALLEL() man page which shows the pin out and port addresses
	of the IBM PC's parallel ports.

	It is recommended you use a separate, dedicated 5 volt power supply 
	wired through the switches in such a way that when the sensing switch
	is tripped, +5 volts is passed to the computer.

	Such a supply can be a store-bought 12 VDC transformer, with an added
	7805 5 volt regulator. Note that if you use an unregulated supply (ie.
	a transformer without the 7805), the voltage output can vary according 
	to the AC power from the wall, which normally varies plus or minus
	10 percent, causing a wide margin of possible voltages to the 
	computer's sensing input, which really wants either +5 or ground, and
	nothing else.

	As with any signal going to the sensing input on a computer, the
	signal should never be open..the signal must pull either 5 volts 
	or ground for a TRUE or FALSE condition. An open input is more like
	a radio antenna that will register both TRUE AND FALSE 
	conditions randomly, causing spurious sensing errors.

	To further prevent noise problems, use sheilded wire for the sensing
	signals, and ground the shield ONLY at the power supply end. Do NOT 
	use the sheild as a ground return for the computer..use a separate 
	conductor for signal ground. Keep wire lengths as short as possible.

	The following shows an example of how to wire the trip switches.

	    Using a shielded 2 conductor cable, wire the dark conductor
	    to the computer's parallel port input bit. Then run a 400 ohm
	    resistor from the input pin to one of the GND pins (a pull down

	    Wire the light conductor to the +5 volt supply. Ground the shield
	    AND the +5 volt supply's ground to all of the parallel port's
	    ground pins (18-25).

	    Throughout the wire, you can drop in single pole dual terminal
	    micro switches. Wire the switch's Normally Open (NO) terminal
	    to the dark conductor that goes to the computer. Wire the switch's
	    Common (C) to the light conductor (+5). Wire an LED such that the 
	    negative input is to the Normally Closed (NC) terminal, and the 
	    positive input is connected to C terminal along with the light
	    conductor (+5). Now tie a 400 ohm resistor from the NC terminal
	    to the shield (ground).

	Once wired, the input to the computer will be normally grounded 
	(through the 400 ohm resistor at the connector). All the LEDs will
	be dark, because they are seeing 5 volts across their terminals, and
	5 volts will leak through the associated 400 ohm resistor.

	If a switch is tripped, 5 volts is brought to the computer's input.
	The switch's LED will light because now ground is supplied to its
	negative terminal through the 400 ohm resistor, since NC is no 
	longer shorted to +5 by the switch.

	Set up the OPCSDEFS.OPC file to contain a tripswitch command with the
	appropriate port and bit information. Then enter the software and
	run one of the positional axes.

	If a trip condition occurs only when the switch is RELEASED (instead
	of pressed), you dont have to change the wiring of the switches..just
	change the [test] value. EXAMPLE:

	    tripswitch 03bd 40 40 0     # If this doesn't work...
	    tripswitch 03bd 40 00 0     # Try this, or vice-versa.

	If you find that it does not matter whether a switch is pressed or not,
	then the port and/or mask bits may be wrong. You can use the 
	'PARALLEL.EXE' utility to monitor a parallel port's pins, so you can
	see which bit is actually changing when you press a trip switch. When
	executing 'parallel' from DOS, you can specify which port you want
	to monitor:
		parallel 1    # This will monitor LPT1
		parallel 2    # This will monitor LPT2

SEE ALSO DEENERGIZE(OPCSDEFS) - define port/bit to deenergize motors ALLSTOP(OPDSDEFS) - define port/bit to detect the allstop key BUCKLE(OPCSDEFS) - define port/bit to detect film buckles VIEWER(OPCSDEFS) - define port/bit to detect viewer open TRIPSWITCH(OPCSDEFS) - define port/bit to detect trip switches SETBIT(OPCSDEFS) - set bit(s) on a port CLRBIT(OPCSDEFS) - clear bit(s) on a port XORBIT(OPCSDEFS) - invert bit(s) on a port PARALLEL(BIOS) - parallel port pinout with port/bit masks ORIGIN Gregory Ercolano, Los Feliz California 10/11/90
© Copyright 1997 Greg Ercolano. All rights reserved.