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LAOS configuration file » History » Version 18

peteruithoven, 2013-05-29 18:31

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h1. LAOS configuration file
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The LAOS Mainboard looks for a "config.txt" file on the MBED, to obtain some essential settings on power-up. It can be set up and modified my plugging the MBED into USB, which will cause it to appear as a USB drive with that config.txt file on it. 
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The proper settings will depend on your configuration, attached is a file which works with the [[HPC LS3020]], [[LAOS mainboard v0.3]], and the July 7th release of the [[LAOS firmware]].
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h3. Location
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The configuration file is located on the MBED USB partition and is named *config.txt*. When a *config.txt* file is found  on your SD card, this will take precedence over the file on the MBED.
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h3. Sample configurations
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Sample configuration files can be found at the end of this page. Copy it and edit it to match your needs. If you configure LAOS for a new machine, please add your configuration file to this page.
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h3. Updating the configuration file
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You can update the file by connecting the MBED to a PC with the USB connector. It should be visible as a small (2Mbyte) USB disk (label: MBED). Copy the configuration file to the root of this disk and eject the disk, using the appropriate method for your operating system (unmount, eject, save remove, etc.). You need to reset the laser to read the new configuration file. Use the reset button on the MBED or power down the system.
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h3. Format
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The general format is:
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<pre>
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name value
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</pre>
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Each value is a single word, without spaces.
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h4. Comments
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Comments can be included with a semicolon (";") character. All characters after the semicolon (up to a newline) are
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ignored. Multiple Whitespace and newlines are ignored. 
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h4. Sections
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The file contains various sections that configure different parts of the system.
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The exact location of these sections (and ordering of their parameters) is not significant. Each parameter has a default value that
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is used if the parameter is not found in the configuration file, so they can be omitted if the defaults suit you. It is advised to
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include all parameters in the file, because the defaults may change in the future, causing your system to fail when you update the 
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firmware.
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h4. Network
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The network parameters define the network configuration. The minimal network configuration is '''net.dhcp 1'''. In this case, the laser will request a IP address from a DHCP server in the network, and is accessible via port 2000. You may need to instruct your DHCP server to hand out a fixed IP address, or assign a DNS entry to the laser, otherwise it may be difficult to 'find' the laser in the network.
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<pre>
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net.dhcp 0                    ; Enable DHCP for IP address [0/1], if enabled, the other network settings (except port number) are not used
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net.port 2000                 ; Communication socket port number []
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net.ip 192.168.0.111          ; IP address [xxx.xxx.xxx.xxx] 
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net.netmask 255.255.255.0     ; netmask [xxx.xxx.xxx.xxx] 
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net.gateway 192.168.0.1       ; gateway
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net.dns 192.168.0.1           ; DNS server
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net.port 69                   ; Port the TFTP server is available on
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</pre>
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h4. System
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This section defines the behavior of the system.
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<pre>
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sys.autohome 0                ; Enable automatic homing at startup [1/0] or wait for cover to close (you need a cover sensor)
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sys.autozhome 0               ; Enable automatic homing of Z axis at startup [1/0] or wait for cover to close (you need a cover sensor)
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sys.nodisplay 0               ; Disable the I2C display [1/0]
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sys.i2cbaud 100000            ; I2C display baudrate [Hz]
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sys.cleandir 1                ; Clean out directory on startup
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</pre>
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Note: Enabling the display, while no display is connected can lead to continuous reboots of the firmware during startup. It is than difficult to change back this setting. 
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Hold the button on the mbed and keep it pressed while inserting the MBED USB connection. Now update the config file.
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h4. Laser
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The properties of the laser are described here.  To invert the laser polarity, switch round the values in laser.pwm.min and laser.pwm.max
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<pre>
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laser.enable 0                ; Laser enable signal polarity [0/1]
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laser.on 1                    ; Laser on signal polarity [0/1]
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laser.pwm.min 0               ; minimum pwm value [%]
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laser.pwm.max 100             ; maximum pwm value [%]
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laser.pwm.freq 20000          ; pwm frequency [Hz]
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</pre>
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h4. Motion
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The motion section defines the overall motion properties. 
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<pre>
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motion.enable  0              ; Enable signal state to enable motors [0/1] 
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motion.homespeed 100          ; Homing speed [microsecond/step]
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motion.speed  400             ; max linear speed [millimeter/sec]
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motion.accel  1000            ; linear acceleration [millimeter/sec2]
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motion.tolerance  50          ; tolerance for cornering [micrometer] (larger is faster, but less accurate corners) 
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</pre>
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Note: the homepseed is specified as microseconds/step: a LOWER value means FASTER homing. Depending on your microstep resolution, values from 50 to 5000 are typical.
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The motion.speed is the speed that corresponds to 100% speed setting in your drawing.
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h4. Axis
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The various axis are configured with their respective values. An axis definition may exist for up to four axis (x,y,z,e).
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At least two should be configured (x and y).
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<pre>
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; Next values are valid for axis x,y,z and e
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x.pol 0                       ; home/limit sensor polarity [1/0]. Inverts the input of the switch, so it can be a N.O. or N.C. switch.
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x.homedir 0                   ; state of the direction signal when homing (axis should move towards home-sensor) [1/0]
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x.home 320000                 ; home positions [micrometer], this is the position we assume the home switch to be located 
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x.scale -136986               ; axis scaling [steps/meter], use negative number to invert direction signal 
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x.invert  1                   ; Invert signal polarity for step signal [1/0]
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x.min 0                       ; minimal position [micrometer]. The axis is not allowed to move beyond this position 
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x.max 320000                  ; maximum position [micrometer]. The axis is not allowed to move beyond this position 
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x.rest 310000                 ; rest position [micrometer]. The position the axis assumes before/after a job
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x.speed 1000                  ; maximum speed [millimeter/sec]. The maximum speed this axis is allowed to move at
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</pre>
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Note: Currently the _min_/_max_ and _speed_ setting are not used. They can be left at the default value. During homing the axis is moved at a constant speed (as defined in the system configuration) and jogging via the LCD is done at a fixed speed.
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The procedure to configure this section correctly: 
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# Use the pol setting to determine what's the mode is of the endswitches when they are pushed in. You could turn the lasercutter off, disconnect the x and y motor cables, turn it on and see if you can get past the homing step by pressing the switches. When it passes the homing step without you need to switch the value. 
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# Make sure the lasercutter moves towards the home switches using the homedir setting. You could first connect one of the axis, config it's homedir and, restart and then configure the other. Make sure to press the off switch when the lasercutter moves away from the endswitches. 
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# Set the coordinate of the home position in the home setting (in micrometers). This is relative to the bottom left corner. So when the endswitches are positioned top right _x.home_ should the max horizontal range of your lasercutter and _y.home_ should be the vertical range. It's best to have the lasercutter only touch the endswitches when homing, because the position that they switch can slightly differ. When your x endswitch is on the right side this should be the max horizontal range, but the _x.rest_ should be a few millimeters less. When the x endswitch is on the left you could set _x.home_ to -10 and _x.rest_ to 0. you can also use this to position the start point of the lasercutter princely above the honeycomb. 
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# Set the number of steps per meter in the scale parameter. The wiring of the motors influences it's direction, when it's moving into the wrong direction you can turn this into a negative number. When your cutting out mirrored this might be the reason. I tweaked this until my 10x10mm square was actually cut out 10x10mm, better methods are welcome. 
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# The rest position if configured with a position to move the axis out of the way after a job (so you can remove the workpiece) Also relative from the bottom left. This doesn't influence the 0,0 point of the lasercutter. 
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VisiCut's position system is different than LAOS. VisiCut's 0,0 is top left, while the 0,0 of the LAOS laser is bottom left. To compensate for this there are _flipXaxis_ and _flipYaxis_ settings in the device settings xml. The _flipYaxis_ for LAOS is set by default to true (and the _flipXaxis_ false).