PASS, a Manual - Pangolin Laser Systems Inc.
Contents
1. 8 PASS Installation and User Manual Scanner Position Signal moniforing PASS monitors the X and Y position signals and derives Euclidian vector velocity as well as effect size If the vector velocity is found to be below the Minimum Velocity the minimum speed that the beam is required to sweep in X and or Y in order to be considered to be safe and found to remain there for a period longer than the Dwell Time the time that a beam may remain at or below the minimum velocity see page PASS will blank pull to zero volts all color signals and the intensity signal PASS will only do this for the period of time that the beam is below the Minimum Velocity As soon as the beam speeds back up or the beam enters a non protected area i e above the horizon if enabled PASS will allow the color signals to flow from the Input to the Output The Effect Size has a similar result and this is included in PASS as a measure of redundancy If there is an effect that is scanning very quickly and which would satisfy the Minimum Velocity but if this is a very small effect PASS will blank the color and intensity signals until the Effect Size resumes a safe level The Effect Size is not adjustable on this version of PASS Note that during momentary interruptions of color and blanking signals PASS does not affect the Shutter output Control Panel Signals A control panel may optionally be used with PASS The control panel may have a ESTOP swi2. control panel that is connected to PASS Below is a description of the control panel connections When PASS is not connected to an external control panel then PASS will automatically reset into a ready state shortly after power up When PASS is connected to an external control panel then PASS will not power up in a ready state and instead will wait for the Manual Reset from the control panel Note that some jurisdictions including the U S A require a manual reset in order to activate the projector after power up The PASS control panel connector may be used to help facilitate this feature Also note that the signals presented to this connector are generally connected directly to PASS logic circuits The signals are not protected from ESD or other electrical faults For that reason it is recommended that any external signals that are connected to this connector be short i e don t connect a 30 meter long cable from the external box to the PASS board Pin is the active input that corresponds to an external Emergency Stop ESTOP switch such as a pushbutton or red mushroom type switch When this pin is connected to Pin 2 ground ESTOP is activated When Pin 1 is left floating then ESTOP is inactive and the projector will be allowed to operate normally Pin 3 is the active input that corresponds to a Manual Reset This may be connected to pin 4 ground through a momentary pushbutton switch or a key swit
3. 27 brightness you should increase the brightness level setting to around 28 This should output a power level a bit higher than the maximum determined in the step above Next enable the light sensor by moving PASS Switch 4 to the Light sensor is used setting switch moved to the right Next slowly turn the Maximum Safe Power potentiometer counterclockwise until PASS trips Basically what you are doing in this adjustment is bringing the threshold down to the point where PASS will trip if it detects more beam power than was determined to be safe above Once PASS has tripped it will need to be reset either using the Manual Reset pins on the control panel connector or by cycling power to the projector Before resetting PASS using control panel pins or cycling power to the projector reduce the brightness level setting in the software back to the level determined above for example 27 28 PASS Installation and User Manual Once the projector is running again you can verify the trip level by adjusting the brightness level upward until it trips We also recommend that you run a number of test patterns and show program material with the brightness set to the maximum safe power determined above i e 27 If the projector occasionally trips then you might want to examine any filter or combiners used to flatten the spectral response curve of the light detector used in your projector If PASS trips rep
4. is detected by PASS when the laser is off You can adjust the Maximum Safe Beam Power and Minimum Power adjustments by looking at D208 Light Sensor State bi color LED on the PASS board Also note that the Maximum Safe Beam Power and Minimum Power adjustments are ignored if the switch 4 is turned on see switches on page 20 24 PASS Installation and User Manual PASS Adjustment Procedure NOTE The information contained in this section must be understood and followed very carefully in order to ensure that PASS operates correctly and to minimize the risk of an unsafe laser exposure Since the procedure described below involves projecting patterns into an area that an audience will eventually occupy and since the light levels experienced during adjustment procedure may exceed the MPE under some circumstances it is highly recommended that you perform the procedure below when the venue is only occupied by trained technical staff and communicate very clearly when the laser will be turned on so that staff will know how to react To avoid the possibility of illuminating people who may not understand the technology or potential risks that a laser projector may present the adjustments and procedures described below should preferably be done in a laboratory environment not in the venue where personnel for example waitresses etc may be walking around before the venue opens Step 1 Adjust the Horizon
5. not working And finally PASS will measure the Beam Power against a Maximum Safe Beam Power adjustment and if it is exceeded PASS will take the same critical action forcibly blanking the color and intensity signals closing the shutter and opening the projector interlock Any of these conditions requires the power to be recycled or a Manual Reset Under normal circumstances this will never occur There should always be congruence between commanded power and actual light coming from the projector And light coming out of the projector above the Maximum Safe Beam Power level is of course also a sign of trouble See the section on Using PASS with a light sensor below for additional information PASS Logic System monitor The PASS circuitry is implemented almost entirely in analog circuitry There are logic circuits within PASS but these logic circuits are entirely combinatorial in nature This means that the logic is made up of simple AND and OR statements which can be easily understood by peers in the safety community There are no sequential logic circuits within PASS nor are there any microprocessors which could not be fully validated In addition to the logic used by PASS to implement the basic safety features PASS also includes a separate layer or logic that actually watches the first logic layer and verifies sanity If there is a problem within the PASS logic the color and intensity signals are blanked the shu
6. often not used by modern RGB laser projectors and thus can be left unconnected If they are used they should be connected to the YELLOW input on a PCAOM driver or directly to a laser diode driver Pins 19 and 20 correspond to Cyan and Cyan color signals respectively These are most often not used by modern RGB laser projectors and thus can be left unconnected If they are used they should be connected to the CYAN input on a PCAOM driver or directly to a laser diode driver Note that for the color signals above ideally any Laser Diode Driver should have differential input and you should connect both the and color signals from the PASS board directly to those drivers Pins 21 and 22 correspond to the Z and Z signals respectively In most cases laser projectors do not use these signals directly and 13 in fact when used with certain pieces of Pangolin software these signals correspond to a Safety Coordinate System It is recommended that these be left unconnected Pin 23 is connected to the ILDA input connector pin 12 This signal is reserved by ILDA for a light sensor output but it is essentially unused by all manufacturers It is recommended that this pin be left unconnected Pin 24 is connected to the ground connection of PASS It is recommended that this only be used as a ground reference for the shutter driver and nothing else Pin 25 is the main Shutter output Under normal circumstances the state of thi
7. on the control panel as to the disposition of the velocity Pin 15 is an output which corresponds to the light detector within PASS If this signal is LOW it indicates that the light that is detected by PASS is above the Maximum Safe Laser Power threshold setting If this signal is HIGH approximately 4 volts it indicates that the light detected is below the Maximum Safe Laser Power threshold setting Under ordinary circumstances this will never be LOW This signal may be routed through a resistor to an LED or pair of LEDs bi color pair to give an indication on the control panel as to the disposition of the light detected by the light sensor Pin 17 is an output which corresponds to whether or not PASS is ready Once PASS has given a armed indication on Pin 19 and then once the Manual Reset is activated by connecting Pin 3 to Pin 4 this signal will go HIGH indicating that PASS will allow color signals to flow through the PASS board to the internal laser projector components This signal will remain HIGH as long 16 PASS Installation and User Manual as there are no major faults detected such as a Power Supply fault Light Detector fault other detectable major fault or ESTOP being activated This signal may be routed through a resistor to an LED or pair of LEDs bi color pair to give an indication on the control panel as to whether or not PASS is active Pin 19 is an output which corresponds to
8. the Abstract Generator Just go to SFX Abstract Generator and click OK The size of the circle should be such that it scans within the area where the audience will reside As with some of the tests above during these tests it is important to use the lowest amount of laser power possible This will avoid overloading the photodiode and also reduce the chance of illuminating personnel who might be in the room during these tests 29 Move the tripod and photodetector such that the circle scans across the 7m aperture AT THE CLOSEST POINT OF AUDIENCE ACCESS and look at the output on the oscilloscope Preferably the photodiode is positioned roughly in the center of the beam path as it scans past the detector This should also be the brightest part of the beam You should be careful and be aware that photodiodes have shiny surfaces which can create murror like back reflections Therefore you must be very careful while placing the photodiode into the beam path that the reflected stray beam will not accidentally wind up targeting personnel or an undesired location Adjust the voltage input and time setting on the oscilloscope so that you can measure the height i e maximum voltage of the pulses During this part of the test it is very important to make sure that the photodiode is not overloaded with light and merely delivering a saturated maximum voltage to the oscilloscope as this will artificially lengthen the pulse width Th
9. the laser projector to increase divergence to help ensure audience safety Finally the audience scanning variance must include documentation on how the projector is setup how measurements are performed and verified and how the projector is used at each event in ways that ensure audience safety For the most part an audience scanning variance application covers the same things that a more ordinary variance application covers but it covers them in a more rigorous way While drafting variances for audience scanning and for general knowledge of what PASS does and how it works some people have found it handy to refer to the Patents on PASS The issued US patent can be found on the USPTO web site or on Google Patents It is called Laser projector safety monitoring system and is covered by US Patent number 7 756 174 In Europe the patent application can be found at the World Intellectual Property Organization web site It is called Laser projector for audience scanning and is covered by number EP20060733773 In Australia the issued patent can be on the IP Australia web site It is called Laser projector for audience scanning and is covered by Australia Patent number 2006206400 For those who do not have a lot of skill with filling out US Government paperwork we recommend a laser safety consultant such as Greg Makhov Casey Stack or Jay Parkinson Within Europe and the United Kingdom we recommend James Stewart 35 Ensuring th
10. PASS Professional Audience Safety System User Manual for PASS version 1 5 March 2015 Pangolin Laser Systems 2 PASS Installation and User Manual Contents Important Information and Introduction Brief Theory of Operation Power Supply monitor and critical fault response Scanner Position Signal monitoring Control Panel Signals Beam Power Monitor PASS Logic System monifor Layout and connectors J801 Projector Signal Inpuf J802 Projector Signal Oufpuf 10 77 77 4 PASS Installation and User Manual J803 Scanner Position Signal and Light Defector Inputs J804 Control Panel Signals Status LED signals on the Control Panel Connector PASS Power and X Y Position Signal Connections PASS Switches PASS Adjustment Potentiometers PASS Adjustment Procedure Using PASS with a light sensor Application of this product within the Unifed States Ensuring the safe operation of laser projectors Board layout and Status LEDs Dimensions and Mounting Holes License Agreement and Limifed Warranty 13 14 17 18 20 22 24 37 33 35 37 38 39 Important Information PLEASE READ THIS ENTIRE MANUAL VERY CAREFULLY INCLUDING THE LICENSE AGREEMENT AND LIMITED WARRANTY FOUND IN THE BACK OF THIS MANUAL FAILURE TO FOLLOW THESE INSTRUCTIONS VERY CAREFULLY COULD LEAD TO AN INCREASED RISK OF AN UNSAFE LASER EXPOSURE This manual contains important information on how to install PASS i
11. PASS is designed to maintain safety even in the face of several simultaneous failures Although the PASS hardware circuit board itself is designed with redundant circuitry some of the redundancy of the entire system is provided by external elements such as the shutter light sensor and projector interlock This is why these additional items are very important and mandatory for most uses of PASS This manual discusses how to install connect and adjust PASS You must read and fully understand this manual before installing and using PASS Pangolin also conducts private training sessions that integrators must attend before Pangolin will sell the PASS hardware NOTICE Pangolin will only guarantee the proper operation of PASS when it is used in conjunction with Pangolin software and control hardware i e QM2000 FB3 or FB4 In addition Pangolin strongly recommends the use of only ScannerMAX series of scanners and servo drivers or alternatively Cambridge model 6210 or 6215 scanners with associated servo drivers made by Cambridge Technology Brief Theory of Operation Ideally the PASS circuit is installed inside the projector rather than externally PASS may be inserted into the ILDA analog signal signal stream or alternatively inserted into the signal stream after your own projector electronics such as differential color receivers or scanner invert switches but before the scanner servo drivers and laser modulators or drivers Given
12. an 1 watt but could be more depending on the distance of the projector to the audience and other factors Under the most ideal circumstance the photodiode should be amplified with a logarithmic amplifier also called log amp because when this is done the voltage output from the amplifier will correspond to light power i e watts not just light intensity However a simple op amp amplifier may be used as long as it has enough dynamic range that a few milliwatts of power delivers a detectable voltage level and can satisfy the MINIMUM POWER adjustment and also maximum safe light level is reached before around 4 volts Presently the only ready made product that is readily available on the market which has a silicon detector with the spectral flattening filter attached and logarithmic amplifier board is the model SEL033 detector with model F flat response filer and model A430 amplifier all available from International Light Technologies corporation Note that these components are generally not stocked items and normally they have to be pre ordered from the company Also note that these are large and bulky so they may not be appropriate for compact projectors And finally the combination of these parts does not constitute a complete light sensor ready to be used in a laser projector The sampling window and mounting hardware are additional items that need to be fashioned within the projector to create a whole light sensor pa
13. aser industry best practices generally assume that the irradiance will be no greater than 10 milliwatts per square centimeter for a 1 millisecond pulse width described below 27 Now that you have determined the maximum brightness level that the software can output to accomplish the desired irradiance you should write this down on a piece of paper or otherwise record it For example this might be a brightness level of 27 This means that you will need to paint a brightness level of 27 into the Beam Attenuation Map or use other software features to ensure that the beam power never exceeds the maximum safe power level determined in this step Step 3 Enable the light sensor and adjust the Maximum Beam Power potentiometer Adjust the Maximum Beam Power potentiometer on PASS many turns clockwise The idea is to set this to a level that won t immediately trip once you enable it using Switch 4 Now go to the Abstract Generator and increase the size to project a circle Any other pattern may be projected but it s best to keep the pattern simple If you have done everything correctly and followed the instructions carefully at this point you should see a circle or pattern projected at what is essentially the maximum power that it will ever be in the audience Next using the brightness level setting in the software increase it a one percent past the level determined above For example if the maximum safe power was determined to be
14. ce so that it can be reviewed later if needed If any of the tests mentioned above provoke unexpected results the projection system should not be used for the laser show performance until the entire projection system has been examined and any problem discovered has been remedied Board layout and Status LEDs Control Panel Connector if used Green Position Overhead Red Position within Audience Green Velocity Safe Red Velocity Unsafe Green Allow Laser Out Red Prevent Laser Out Green System Ready Red System Not Ready Green Armed Red Running Minimum Velocity Dwell Time gema EEEE on O oe EEEE jamma Ae eaa BEEEEEEE BEBEERE J Projector Signal Input ai ae R503 R60 A E 50 ra as R506 d e 2 i ol v 35 55 rojector Signal Output fa a BEBE BE Ezs9 3 37 Power supply fault 24V Present 15V Present 5V Present 15V Present 24V Present Size is Insufficient Position within audience Laser is commanded on by computer Light sensor state Green no ligh powe light detected Red too much light 38 PASS Installation and User Manual holes ng fi d mount mensions an D 175 1950 75 PASS 1 50 DIMENSIONS AND MOUNTING HOLES 4050 ALL DIMENSIONS ARE IN MILS 0 001 39 License Agreement and Limited Warranty THIS IS A LEGAL AGREEMENT the Agreement between you and Pangol
15. ch 15 Pin 5 is an active input that indicates that a control panel is being used Pin 5 must be connected to Pin 6 when a control panel is used If Pin 5 is not connected to Pin 6 then PASS will not wait for a manual reset when power is first applied Pins 7 and 8 provide 5V to the control panel These may be used in conjunction with LEDs on the control panel Pins 9 and 10 correspond to Ground These may also be used in conjunction with LEDs on the control panel Pin 11 is an output which corresponds to the horizon detector within PASS If this signal is LOW it indicates that the Y position is below the horizon within the audience area If this signal is HIGH approximately 4 volts it indicates that the Y position is above the horizon This signal may be routed through a resistor to an LED or pair of LEDs bi color pair to give an indication on the control panel as to where the beam is within the Y space Pin 13 is an output which corresponds to the velocity detector within PASS If this signal is LOW it indicates that the beam velocity is OK and that PASS will not actively suppress laser output because of velocity PASS may suppress laser output for other reasons however If this signal is HIGH approximately 4 volts it indicates that the beam velocity is too slow and that PASS will actively suppress laser output This signal may be routed through a resistor to an LED or pair of LEDs bi color pair to give an indication
16. ckage 33 Using a light sensor with PASS can be tricky When you enable the light sensor feature in PASS everything must be at least ready to operate correctly Otherwise PASS will detect problems and trip forcibly shutting the projector down requiring either a manual reset i e by briefly shorting pin 3 to pin 4 on the Control Panel Connector or the power being re cycled PASS will forcibly shut the projector down under the following critical circumstances e A voltage level less than the MINIMUM POWER adjustment indicates being detected when the software via the color lines on the ILDA connector commands light to be coming from the projector e A voltage level greater than the MINIMUM POWER adjustment indicates being detected when the software through the color and intensity lines indicates that the output is supposed to be blanked e A voltage level greater than the MAXIMUM SAFE POWER being detected when the beam is projected within an audience area Of course the audience area may be the entire projected area or only the lower portion of the scan field depending on the PROTECTED AREA switch setting Using the light sensor with PASS affords the maximum level of protection because if the laser power is increased above the MAXIMUM SAFE POWER within the designated audience area i e the entire scan field or only below the horizon depending on a switch setting PASS will immediately shut down the laser p
17. e PDAI00A photodiode has an attenuator dial on the side to adjust the gain Make sure that this gain setting is adjusted properly so that the photodiode is not overloaded Step 5 Adjust the Minimum Velocity potentiometer Once you have a reliable voltage measurement the pulse width is determined at the full width at half maximum points on the waveform For example if the voltage waveform slopes from 0 volts upward to 4 volts and then downward to 0 volts essentially this means that the pulse width is the amount of time that the pulse is greater than 2 volts Since laser industry best practices are that audience scanning shows are done using the assumption of a 1 millisecond maximum pulse width you should compare this against the pulse width seen on the oscilloscope If the pulse width is shorter than 1 millisecond then you will need to slow down the function generator or Pangolin software abstract generator until you get to a pulse width of 1 millisecond Generally PASS should be adjusted to extinguish the laser beam for pulse widths greater than 1 millisecond If you are able to slow down the function generator to obtain longer pulses then this means that the MINIMUM VELOCITY adjustment on PASS must be increased turned clockwise Step 6 Adjust the Maximum Dwell Time potentiometer Now that the Minimum Velocity adjustment has been setup you can move to the next part of the test which ensures that the Maximum Dwell Time
18. e continued safe operation of projectors Although PASS monitors the real time activity of the laser projector power supply scanner velocity optional laser output power and optional control panel signals PASS by itself cannot ensure the safety of a laser show Divergence modifying elements such as the SafetyScan lens are actually more critical to audience safety than is PASS This is because under normal circumstances i e when everything is working properly and you are using proper divergence and show presentation techniques PASS plays only a secondary and passive role in audience scanning safety whereas a divergence increasing lens and proper show performance techniques play a primary and continuous role in audience scanning safety And although the PASS hardware has been designed to be self testing and employs redundant circuitry it is ultimately an electronic circuit and it is conceivable that under certain rare circumstances the PASS circuitry could fail in such a way that it would not prevent an unsafe laser exposure This is why the Professional Audience Safety System is not considered to be only the PASS hardware circuit board by itself but rather an entire safety system which includes the external light sensor external shutter and projector interlock It is only when all of these things are used together and properly adjusted that there will be sufficient redundancy and monitoring to reduce the risk of an unsafe laser expo
19. eatedly you may need to reduce the brightness level determined above for example to 26 or so Step 4 Set PASS Switch 3 to the desired position If it is your intention for PASS to protect the entire scan field then now would be the time to move Switch 3 Protect entire scanfield position to the right Otherwise you can simply leave the switch where it is Preparing to perform further measurements and adjustments At this point you will be adjusting the velocity detector and dwell timers inside PASS To do this connect a fast photodiode to an oscilloscope The photodiode should be the amplified type so that the oscilloscope will show voltage as a result of light entering the detector The Thor Labs model PDA100A is a good choice for an amplified photodiode A 7mm aperture must be placed in front of the photodiode entrance aperture This might be done by cutting a 7mm hole in a piece of Black Wrap foil and then placing this over the entrance aperture The 7mm pupil allows the photodiode to measure the pulse width as a scanning beam crosses a 7mm dilated pupil The photodiode should be placed on a tripod so that it can be moved into the beam path to perform safety related measurements Once the photodiode is prepared as described above use a function generator or software s built in ability to project a circle The circle should preferably be continuous and non modulated In LD2000 this is easily accomplished using
20. emain in the latched state until a Manual Reset occurs This allows you to determine the cause of any detected faults The Status LED signals may be routed through a resistor to an LED on the control panel to give an indication of any faults that have been detected 18 PASS Installation and User Manual PASS Power and X Y position signal connections X AXIS SCANNER AMP POSITION aR AXIS LE SCANNER AMP POSITION SEA PASS monitors the power supplies that feed the scanner amplifiers This voltage can be between 20 volts and 30 volts The manor in which you connect PASS to the power supply and to the scanner amplifiers depends heavily upon whether you are using two separate single axis scanner amplifiers or one dual axis scanner amplifier If you are using two separate single axis scanner amplifiers the recommended connections are shown below Note that each scanner amplifier as well as the PASS circuit board itself must each have their own power wires going back to the power supply These wires should all meet at the power supply itself If you have two power supplies one for 24V and the other for 24V then these power supplies should establish a central connection where all wires meet This is called a single point grounding scheme Wiring the power supply in any other way will cause a ground loop which may cause distorted images during projection 19 Also note that when using two separate s
21. ement with respect to the use of PASS and supersedes all prior or contemporaneous understandings or agreements written or oral regarding such subject matter NO REPRESENTATIVE EMPLOYEE OR DEALER SHALL CREATE A WARRANTY OR IN ANY WAY INCREASE THE SCOPE OF THE WARRANTIES PROVIDED HEREIN No amendment to or modification of this Agreement shall be binding unless in writing and signed by Pangolin Laser Systems Inc 42 PASS Installation and User Manual 2008 2015 Pangolin Laser Systems Inc All rights reserved Due to our policy of continuous product improvement information in this manual is subject to change without notice NOTICE The electronic circuit design of PASS as well as concepts embodied within it are protected by U S and Australia patents Due to our policy of continued product development in the area of laser safety other patents may also be pending
22. he signals and recommended connections are discussed below Note that since this is an IDC connector the pin numbers do not correspond to the ILDA pin out on a DB 25 HOWEVER if you crimp a DB 25 connector onto the output ribbon cable then the pins will correspond directly to the ILDA pin out This is because the pin designations of a DB connector are in line while the pin designations of an IDC connector are even and odd Pins 1 and 2 correspond to the X and X signal respectively These should be connected to the X and X input on the X axis scanner amplifier Pins 3 and 4 correspond to the Y and Y signals respectively These should be connected to the Y and Y input on the Y axis scanner amplifier Note There should NOT be a connection to the signal ground of any scanner amplifier The only ground connection to the scanner amplifier or amplifiers should be from the power supply itself Connecting to the signal ground on a scanner amplifier will introduce a ground loop which may cause distorted images See the Power and X Y Position Signal Connections on the following pages Pins 5 and 6 correspond to the Intensity Blanking and Intensity Blanking signals respectively These may be used for a single color projector or projectors that use a PCAOM for color 12 PASS Installation and User Manual Pins 7 and 8 correspond to the Projector Interlock loop pins 4 and 17 from the ILDA co
23. hen it is possible that the Horizon potentiometer is set so far in one direction that PASS thinks the entire scan field is above the horizon In such a case turn the Horizon potentiometer several turns clockwise and then several turns counterclockwise until you see that there is an area where the beam is blanked If you never reach a point where the beam is not extinguished then stop right there and make sure PASS is wired correctly particularly with respect to the scanner position signals Next adjust the Horizon potentiometer clockwise and counter clockwise to position the area horizon such that the beam is extinguished when it is in the audience area Once this is done with the slow moving circle COLLAPSE the Y axis change Y size to zero in the software which will project essentially a slow moving horizontal beam centered on the Y axis You will want to make sure that the beam is extinguished in this configuration because it is important when the projector has no scanning input i e X and Y projector inputs at zero that no light will come out of the projector Now adjust the Y position control in the software upward to the point where the beam becomes visible again You want this to be at least 2 upward If the beam becomes visible at 1 upward position on Y adjust the Horizon control again to extinguish the beam Once the Horizon is verified above return the Y position control in the software to 0 Step 2 De
24. in Laser Systems Inc Pangolin as manufacturer and licensor of the Professional Audience Safety System PASS This Agreement provides you with the authorization to use PASS subject to the terms and conditions herein If you do not agree to all the terms and conditions of this Agreement do not use PASS If you proceed to use PASS you thereby signify that you have agreed to all of the terms and conditions set forth below 1 TERMS AND SCOPE Your access to PASS comes with certain restrictions Specifically Pangolin grants you only a limited non exclusive right to use the PASS Hardware in accordance with the terms and conditions of this Agreement 2 ONE YEAR HARDWARE WARRANTY Pangolin warrants that PASS will perform substantially in accordance with the specifications and behavior described in this manual under normal use for a period of one 1 year from the date of purchase 3 LIMITATION OF LIABILITY PANGOLIN SHALL NOT BE RESPONSIBLE FOR DAMAGES FOR LOSS OF USE OR OTHER DIRECT INDIRECT INCIDENTAL CONSEQUENTIAL OR OTHER COSTS EXPENSES OR DAMAGES INCLUDING LASER SAFETY RELATED DAMAGES RESULTING FROM USING PASS IN A MANOR THAT IS NOT IN STRICT ACCORDANCE TO PANGOLIN S INSTRUCTIONS even if Pangolin has been advised of the possibility of such damages You and not Pangolin assume the entire cost of all necessary servicing repairs safety measures or corrections In no event shall Pangolin s total liability to you for all da
25. ingle axis scanner amplifiers you run only the POSITION signal to the PASS position input DO NOT connect any additional ground wire from each scanner amplifier to the PASS board Doing so would introduce a ground loop which may cause distorted images POWER DUAL AXIS SUPPLY SCANNER AMP If you are using a one dual axis scanner amplifier the recommended connections are shown below Since there is only one scanner amplifier in this case the scanner amplifier is connected directly to the power supply If you have two separate power supplies one for 24V and one for 24V these can be connected at the scanner amplifier itself The PASS board is also connected at the scanner amplifier itself Note that in this case it is permitted to connect a separate position signal ground from the scanner amplifier to the PASS board if you wish 20 PASS Installation and User Manual PASS Switches PASS includes a number of switches that must be configured to customize operation to a particular projector or projection scenario Below you will see the PASS board and location of the switches The operation of each switch is described below SWITCH 4 LIGHT SENSOR LIGHT SENSOR IS NOT USED LIGHT SENSOR IS USED SWITCH 3 PROTECTED AREA PROTECT ONLY BOTTOM PORTION PROTECT ENTIRE SCAN FIELD allow bright static beams above ignore the horizon adjustment SWITCH 2 S COORDINATE IGNORE THE S COORDINATE USE THE S COORDINATE s
26. is adjusted properly To do this change the test pattern 30 PASS Installation and User Manual from a circle to a Quadrature Squarewave A Quadrature Squarewave is a pattern where the beam stops in four places and jumps very quickly from place to place The Abstract Generator in LD2000 has a drop down list box where you can select the waveform that will be used Move the photodiode and tripod into one of the corners of the quadrature squarewave taking all of the precautions mentioned above Adjust the voltage level on the oscilloscope and adjust the attenuator dial on the photodiode to ensure that you have a reliable voltage measurement As described above determine the pulse width at the full width half maximum points on the waveform If the pulse width exceeds 1 millisecond adjust the MAXIMUM DWELL TIME potentiometer counterclockwise 3 Using PASS with a light sensor When PASS is used with the LIGHT SENSOR USED switch setting then a light sensor must be connected to J803 Pin 1 Pin2 and Pin 3 When a light sensor is not used J803 Pin 2 should be connected to Pin 1 Note it should be understood that using PASS without a light sensor should only be allowed if you are using the PASS hardware as a simple scan fail safeguard AND if the laser power is low enough to justify this AND if you implement additional safety related systems down stream from the PASS hardware Contact Pangolin for more information if you are in
27. just this yourself by using a calibration procedure such as the one described below Turning this control counter clockwise reduces the Dwell Time and turning this control clockwise increases it The Dwell Time can be adjusted between approximately 100 microseconds and 10 milliseconds The Horizon adjusts the Protected Area if Switch 3 is moved to the on position At the factory Pangolin sets this control to approximately the center of the vertical scan field but this may be adjusted clockwise or counter clockwise to set the horizon of the protected area as desired Note that this control is very sensitive to rotation You will not need to turn this control very much to explore the entire vertical area Also note that the horizon adjustment is completely ignored if Switch 3 is turned off See the section about PASS Switches for more information The Maximum Safe Beam Power adjustment controls the maximum power that can be allowed into the Protected Area For example if the beam is scanning within the audience area PASS will monitor the beam power and make sure that this beam power is not exceeded If the beam is not scanning within the Protected Area for example above the horizon then this control is ignored and full power beams can be projected overhead The Minimum Power adjustment controls the minimum light level that is detectable by the light sensor Generally this is adjusted so that no light
28. m This switch controls where PASS gets the light sensor signal ILDA pin 12 is defined by the ILDA standard as possibly providing feedback from a light sensor However since the vast majority of projectors do not use this part of the ILDA standard we recommend that this switch be moved to the right off 22 PASS Installation and User Manual PASS Adjustment Potentiometers As was the case with the switches PASS includes five potentiometers that must be adjusted to customize the operation of PASS to a particular projector or projection scenario Below you will see the PASS board and location of the five adjustment potentiometers The operation of each potentiometer is described below 1 Mi MINIMUM DWELL HORIZON MAXIMUM MINIMUM VELOCITY TIME SAFE POWER POWER The Minimum Velocity controls the minimum speed that the beam is required to sweep in X and or Y in order to be considered to be safe At the factory Pangolin sets this to around 5 radians per second Note that the scale of this control in radians per second depends on the actual position scale factor of the scanner amplifier being used Turning this control clockwise increases the minimum velocity requiring faster scanning in order to be considered safe 23 The Dwell Time controls the time that a beam may remain at or below the minimum velocity before PASS extinguishes the beam At the factory Pangolin sets this to around 1 5 milliseconds but you must ad
29. mages losses and causes of action whether in contract tort including negligence or otherwise exceed the amount paid by you for PASS 3a LEGAL RIGHTS Some states provinces or other jurisdictions do not allow the limitation or exclusion of liability for incidental or consequential damages so the above limitations or exclusions may not apply to you This warranty gives you specific legal rights and you may also have other rights that vary from state to state or by province or other jurisdiction 3b INDEMNIFICATION You agree at your own expense to defend indemnify and hold harmless Pangolin including its officers directors employees and agents from and against any third party 40 PASS Installation and User Manual liabilities claims demands or suits asserting a claim or claims against Pangolin as a result of injury caused by your use of the PASS in a manner that is not in strict accordance with Pangolin s instructions or documentation including this Agreement and you agree to pay all damages awarded or agreed to under a settlement of such claim provided however you may not enter into any settlement that imposes a financial obligation or admission of liability on Pangolin without Pangolin s prior written consent 4 AGREEMENT LENGTH AND TERMINATION PROCEDURE This Agreement is effective until terminated You may terminate this Agreement at any time by sending written notice to Pangolin Laser Systems Inc If you fail
30. me visible after a substantial upward movement of Y Position then adjust the brightness level upward until a beam is seen Now using a laser power meter that has a 1 square centimeter or approximately 11mm round detector place the detector of the power meter into the stationary beam AT THE CLOSEST POINT OF AUDIENCE ACCESS It might be handy to mount the detector head of the power meter onto a tripod stand so that it can be held into the stationary beam The laser beam should be larger than the 1 square centimeter power meter detector area If it is not then you will need to increase the divergence of the laser beam for example using one of Pangolin s SafetyScan lenses A beam smaller than 11mm round in the audience will certainly not be safe unless the power is around 10 milliwats When the laser beam is larger than the 1 square centimeter active area on the power meter then the power meter will read in terms of Watts Per Square Centimeter also known as irradiance instead of Watts also known as radiant power This is an important concept that must be understood The laser safety standards are based on irradiance not radiant power Using the software brightness control increase the beam power upward and upward and upward until the laser power meter reads the desired level of irradiance according to the MPE that you are trying to accomplish Although PASS allows for a large degree of adjustment l
31. n a laser projector how to perform adjustments and how to make sure that the show remains safe including a requirement to test your laser projectors before each show and log the test results Introduction Congratulations on selecting Pangolin s Professional Audience Safety System an important step toward helping to keep your audiences safe from the potential hazards that laser projection systems may pose You have purchased a powerful and patented laser projector safety monitoring system for laser light show usage This manual serves as a brief introduction to PASS so you can install it and get started Pangolin provides you with the PASS hardware H board connection cables and this manual You must provide a laser projector including laser scanners shutter and power supply T You must also use a light sensor to ensure xo maximum protection An optional control panel may also be used for maximum flexibility PASS is a sophisticated system which when properly integrated into a laser projector and used with the proper show presentation techniques and Pangolin software can assist in maintaining the safety of Audience Scanning laser shows PASS is barely bigger than a credit card and yet it includes a set of very sophisticated and complete protection systems PASS Installation and User Manual PASS hardware is designed with multiple levels of redundancy and with circuitry that is designed to fail safe In fact
32. nnector Note that PASS will interrupt this interlock signal loop in the event of a critical fault and when power is insufficient therefore it is MANDATORY that projector manufacturers implement an interlock scheme that makes use of these signals Ideally this interlock loop should interrupt power to the lasers themselves thus in the event of a major problem PASS can interrupt power to the lasers Alternatively the interlock loop may be routed to a SEPARATE shutter placed just before the X Y scanners and after the PASS light sensor Pins 9 and 10 correspond to Red and Red color signals respectively These should be connected to the RED input on a PCAOM driver or directly to a laser diode driver Pins 11 and 12 correspond to Green and Green color signals respectively These should be connected to the GREEN input on a PCAOM driver or directly to a laser diode driver Pins 13 and 14 correspond to Blue and Blue color signals respectively These should be connected to the BLUE input on a PCAOM driver or directly to a laser diode driver Pins 15 and 16 correspond to Deep Blue and Deep Blue color signals respectively These are most often not used by modern RGB laser projectors and thus can be left unconnected If they are used they should be connected to the DEEP BLUE input on a PCAOM driver or directly to a laser diode driver Pins 17 and 18 correspond to Yellow and Yellow color signals respectively These are most
33. ployment franchise or agency between the parties Unless expressly authorized to do so under this Agreement no party will have the power to bind any other party or incur obligations on any other party s behalf without that party s prior written consent 8 THIRD PARTY BENEFICIARIES No provision of this Agreement is intended or shall be construed to provide or create any third party beneficiary right or any other right of any kind in any 4 person or entity other than the parties and their successors and assigns 9 WAIVER No failure of a party to exercise or enforce any of its rights under this Agreement will act as a waiver of such rights 10 NOTICES Any notice to be provided under this Agreement shall be provided in writing and delivered by personal service which shall include delivery by delivery service and overnight delivery service sent via e mail but only if receipt of the email is confirmed by the receiving part or mailed by United States certified mail as follows For Pangolin Pangolin Laser Systems Inc 9501 Satellite Boulevard Suite 109 Orlando FL 32837 USA For you the shipping address provided for shipment of PASS Such communications shall be effective on receipt when personally delivered or confirmed via email and effective three 3 business days following deposit with the mail carrier for all other allowable forms of notice 11 ENTIRE AGREEMENT This Agreement constitutes the entire agre
34. ressively These tend to be specialized filters generally matched to a particular photodiode and therefore we have not found a place that sells just the filter by itself An alternative to using a single sensor in the combined beam path would be to put individual light sensors after each separate wavelength laser and sum the output of all of the light sensors so that 32 PASS Installation and User Manual the total output voltage sent to PASS corresponds linearly with wattage i e delivers the same amount of voltage for the same amount of power from each separate wavelength The output of silicon photodiodes cannot be directly connected to PASS Instead the photodiode output must be amplified and turned into a zero to 5 volt analog signal where zero volts represents no light being detected and 5 volts represents the maximum voltage delivered to PASS Note that PASS provides a connector with 5 volts so this is where the light sensor and amplifier can get its power Since PASS has adjustments for MINIMUM POWER and MAXIMUM SAFE POWER see page 22 the output of the sensor does not need to reach all the way to 5 volts when maximum light is coming out of the projector Likewise the sensor may deliver 5 volts even before the maximum light power level is reached Any maximum light output scale factor can be used as long as around 4 volts or less represents the maximum safe light level for audience scanning which would generally be lower th
35. rojector Therefore Pangolin considers it to be mandatory that a light sensor be used in safety critical situations Because setting up PASS with a light sensor can be tricky and may be frustrating to get it working perfectly we recommend clients work closely and directly with Pangolin during this phase of projector integration 34 PASS Installation and User Manual Application of this product within the United States The mere act of putting PASS inside a laser projector will not instantly and automatically allow it to be used within the United States for audience scanning For that to occur both the projector and the show will need a variance in exactly the same way that both the projector and show would need a variance if it were not used for audience scanning However obtaining a variance for an audience scanning projector and even an audience scanning show takes quite a bit of time and skill on the part of the variance applicant In recent years PASS has become a well known name brand product and the decades long employees founding fathers if you will of the US Center for Devices and Radiological Health know PASS by name Nevertheless simply mentioning PASS by name in your variance application should not be expected to quickly open any doors An audience scanning variance application must describe what PASS does along with the other projector features for example no doubt including a lens installed either inside or outside
36. s signal will correspond directly to pin 13 on an ILDA input connector However in the event of a major fault PASS will forcibly close the shutter using this signal It is therefore MANDATORY that this be connected to a shutter driver For maximum safety the shutter should be a fast type of shutter and one that also will fail safe This means that in the event of a mechanical or electrical failure of the shutter it will remain closed due to the mechanical design of the shutter Pangolin highly recommends shutters manufactured by the company called nm Laser Products http www nmlaser com J803 Scanner Position and Light Defector Inputs Pin 1 provides 5V output which should only be connected to the PASS light sensor Pin 2 is the PASS light sensor input which ranges from OV to 5V Pin 3 and Pin 5 correspond to the Signal Ground connection of PASS Pin 3 should be connected to the PASS light sensor Pin 5 may or may not be connected to the scanner amplifier depending on circumstances described below Pin 4 corresponds to the X Position Signal This should be connected to the X axis scanner amplifier Pin 6 corresponds to the Y Position Signal This should be connected to the Y axis scanner amplifier 14 PASS Installation and User Manual J804 Control Panel Signals POSITION H COMMANDED e POWER SUPPLY VELOCITY wt 9 E INTE NSITY READY ARM EFA PASS may be controlled by and may illuminate LEDs on an external
37. sure Of course the adjustments on PASS must be configured properly for the scanning velocity and dwell time as well as the projection horizon if used Moreover the light sensor related adjustments on PASS must be configured to monitor the minimum beam power of the laser to ensure proper light sensor and laser diode driver operation as well as the maximum beam power of the laser to ensure that exceeding a safe power level will be detected by PASS And finally it is clear that in order to ensure continued and repeated safe performance tests of the entire projection system must be conducted before each show performance for example nightly to make sure all elements of the projector and computer system feeding the projector as well as the PASS hardware itself are all working as expected At a minimum these tests should involve the projection of test patterns specifically designed to demonstrate that PASS and other safety features are working properly both inside the audience area and outside and that PASS will properly extinguish the laser beam when needed as well as properly disabling the projector i e 36 PASS Installation and User Manual tripping if the Maximum Beam Power is exceeded Please contact Pangolin if you need assistance in the creation of such test patterns The performance of these tests along with any measurable analytical results should be logged and the log should be permanently kept in a safe pla
38. tch i e mushroom emergency stop switch as well as a manual reset button which may be embodied as a keyswitch or push button When a control panel is used with PASS a Manual Reset is required in order to activate PASS and thus start projector operation In most cases this is a simple keyswitch action but could also be a simple momentary push button And when a Control Panel is used PASS continually monitors the ESTOP button If the ESTOP is pressed PASS will immediately terminate all color and intensity signals and forcibly close the shutter PASS will also open the projector interlock signal path ILDA pins 4 and 17 Beam Power Monitor The Beam Power Monitor is perhaps the most unique and important aspect of PASS The Beam Power Monitor is able to make sure that the light coming out of the projector conforms to what is expected When PASS commands that no light should be emitted from the projector PASS will verify that this is so by observing the Beam Power Monitor If light is coming out of the projector when it is not supposed to be PASS will forcibly blank the color and intensity signals close the shutter and open the projector interlock signal path PASS does this because this would be considered a critical problem Likewise if PASS detects that light is commanded from the computer but is not coming out of the projector PASS will take this same kind of critical action because this could be a sign that the light sensor is
39. terested in using PASS without a light sensor When used a light sensor must be installed within the beam path of the projector Generally we recommend that the light sensor be placed before the final shutter but it may also be placed after as long as the final shutter opens faster than around 1 20th of a second Generally the light sensor is fashioned as a glass window that is used to sample the outgoing laser beam at a 45 degree or so angle and direct a small portion of the laser beam to light sensitive material The light sensor used with PASS must be a relatively fast sensor one that is able to react as quickly as the light can be modulated Generally this means that the light sensor must be based on silicon photodiode or silicon PIN photodiode type technology If the projector is a multi wavelength projector e g an RGB projector and a single light sensor is used in the combined beam path then the light sensor must have an additional spectral flattening filter to make the light sensor provide the same output for all wavelengths This is because the safety standards treat all visible wavelengths the same Since silicon detectors have a peak response in the near infrared and since their response tends to trail off toward the visible blue spectrum this filter appears to the naked eye as a bluish piece of glass allowing light in the blue end of the spectrum to pass freely while attenuating longer wavelengths more prog
40. termine the Maximum Beam Power allowable in the audience area Now that the PASS horizon has been adjusted it can be used to aid in preparing to evaluate the maximum laser power that will be allowed in the audience At this point it will be necessary to configure the software to output a stationary non modulated laser beam In LD2000 this can be done by going to the Abstract Generator menu SFX Abstract Generator and then reducing the size of the default abstract to zero and then pressing OK If you have adjusted the horizon properly you should see NOTHING coming out of the laser projector Otherwise go back and repeat the 26 PASS Installation and User Manual steps above ensuring that the Horizon potentiometer is adjusted properly Since the point is to determine the maximum amount of laser power that will be safe in the audience this should be done with any projector based power level adjustments defeated For example if the projector has potentiometers or digital adjustments accessible from the rear that can be used to reduce the beam power these adjustments should be set all the way at maximum so that the power level coming out of the laser projector is entirely controlled by the software input Now in the Projector Settings dialog box make sure that the brightness level is turned down perhaps to 10 Slowly move the Y Position control upward until the beam hopefully becomes visible If the beam does not beco
41. thin PASS itself are also within their acceptable ranges If this signal is LOW it indicates that there is a power supply problem of some kind This signal may be routed through a resistor to an LED or pair of LEDs bi color pair to give an indication of the state of the power supplies Status LED signals on fhe Control Panel connector Pin 16 is a Status LED number 1 If this signal is LOW it indicates that a power supply fault has been detected Pin 18 is a Status LED number 2 If this signal is LOW it indicates that the PASS light sensor detected a light level that exceeded the Maximum Safe Light Level while the Y position was below the horizon Pin 20 is a Status LED number 3 If this signal is LOW it indicates that PASS tried to extinguish light from coming out of the projector but that the PASS light detector still detected light output This would occur if a PCAOM or Laser Diode Driver continued to output light after being told not to This would also occur if the Minimum light level adjustment of PASS is not set correctly And finally this might also occur if PASS did not detect light coming out of the computer even though the computer commanded light output This would indicate either a laser failure or light detector failure Note that unlike the other LED outputs on the control panel connector the Status LED outputs will latch in the event that a fault is detected They will r
42. this location within the signal path PASS is able to interrupt the flow of the color signals as well as forcibly close the shutter and open the projector Interlock circuit if necessary PASS monitors the following projector health related properties Scanner power supply and internal PASS power supplies Scanner position signals to derive o Scanning velocity o Effect size o Horizon Protected Area PASS logic system Beam Power during both blanked and non blanked periods Control Panel signals including ESTOP and Manual Reset optional Power Supply monitor and critical fault response When power is not applied to PASS or when PASS detects that the power supply is not sufficient to properly operate the laser projector PASS will crowbar short circuit the color signal inputs and forcibly close the shutter and intensity outputs PASS will also open the projector interlock signal path ILDA pins 4 and 17 As long as a fast shutter is located within the beam path and as long as the interlock signal path is used within the projector this dual action will prevent light from being emitted from the projector under all circumstances Since the shutter is closed and projector interlock are opened during critical fault conditions these two external elements are able to work in a redundant fashion incase either of these were to fail individually Because of this PASS requires the use of both the shutter and projector interlock
43. to comply with any provisions of this Agreement the Agreement will terminate immediately without notice from Pangolin Upon termination whether by you voluntarily or by Pangolin due to Agreement violations you must A return the PASS Hardware to Pangolin and B send a certified or traceable e g FedEx letter to Pangolin signed by you attesting to your compliance with this termination provision 5 GOVERNING LAW AND SEVERABILITY This Agreement shall be governed and construed in accordance with the laws of the United States and the State of Florida without regard to any jurisdiction s conflicts of law rules If for any reason a court of competent jurisdiction finds any provision of this Agreement to be unenforceable that provision of the Agreement shall be enforced to the maximum extent permissible so as to give effect to the intent of the parties and the remainder of the Agreement shall continue in full force and effect Venue and jurisdiction for any legal action shall be in the state or federal courts for Orange County Florida 6 ATTORNEYS FEES AND COSTS In connection with any litigation including appellate proceedings arising out of or under this Agreement Pangolin shall be entitled to recover reasonable out of pocket costs and reasonable attorneys fees 7 INDEPENDENT CONTRACTORS The parties to this Agreement are independent contractors and this Agreement does not give rise to any partnership joint venture em
44. tter is closed and the projector interlock signal path is opened The system will remain in that state until power is recycled or until a Manual Reset is performed 10 PASS Installation and User Manual Layouf and Connections Projector Signal Input from computer Power connections 24 GND 24 Projector Signal Output to projector components Control Panel Scanner Position Signals if used and Light Detector Signal The general layout of PASS is shown above with connectors identified Pangolin includes connectorized ribbon cables with PASS These ribbon cables can be used directly allowing minimal effort to integrate PASS within a projector When ribbon cables have a red stripe on one side the red stripe indicates the side of the cable associated with pin 1 J801 Projector Signal Input The Projector Signal Input to PASS may come directly from the DB 25 input on the projector or may come after projector internal electronics that condition the color signals for example allow adjustment of intensity for each color or scanner axis inversion and rotation When PASS is used for direct projector input a simple crimp on DB 25 connector may be used and crimped onto the Projector Signal Input ribbon cable provided with PASS J802 Projector Signal Outpuf The Projector Signal Output connector on the PASS board should be parsed out into pairs of signals and then directed to various components within the projector T
45. whether or not PASS is ready to be activated armed If this signal is HIGH it indicates that the power supply is OK ESTOP is not activated and light is not detected and thus PASS may be activated by performing a Manual Reset This signal may be routed through a resistor to an LED or pair of LEDs bi color pair to give an indication on the control panel as to whether or not a Manual Reset can be performed If used this LED should ideally be placed near the Manual Reset push button or keyswitch Pin 12 is an output which corresponds to whether or not the computer feeding the ILDA input has commanded that light come out of the laser projector or not If this signal is HIGH it indicates that the light that PASS has detected that the computer has requested more than approximately 50 beam power from the computer If this signal is LOW it indicates that the computer is commanding 50 or less beam power from the computer This signal may be routed through a resistor to an LED or pair of LEDs bi color pair to give an indication on the control panel as to whether or not the computer has commanded light to come out of the projector Pin 14 is an output which corresponds to the condition of the power supply both within PASS and supplying the scanner amplifiers If this signal is HIGH it indicates that the power supply feeding the scanner amplifiers is 19 volts or higher It also indicates that all of the power supplies wi
46. whether you will ultimately use it or not During this first test it is important to use the lowest amount of laser power possible This will reduce the chance of illuminating personnel that might be in the room during these tests For the next few tests and adjustments the beam power is best reduced by using the software brightness level setting rather than potentiometers that might reside on the back of a laser projector First set PASS Switch 3 to Protect only the bottom portion switch moved to the left if the board is physically oriented as shown on Page 20 Also set Switch 4 to Light sensor not used switch moved to the left These switch positions are necessary for the next few adjustments Next output a slow moving circle for example somewhere in the 1Hz to 5Hz range using a function generator or abstract generator feature of the software The circle should be somewhere between 50 and 100 size for this test Note that while doing this and if PASS is not set correctly the laser beam will probably be allowed to enter the audience area Therefore it is once again important to make sure there are no untrained or non technical personnel present in the room during this setup 25 At this point and with this kind of pattern being projected you should see that while the beam is above the audience area it is visible and while the beam is within the audience area it is extinguished If you do not see this t
47. witch must be in this position SWITCH 1 ILDA PIN 12 IS LIGHT SENSOR DERIVE LIGHT SENSOR FROM PIN 12 gt USE NORMAL PASS CONNECTOR switch should be in this position 21 With the PASS board in the physical orientation shown above Switch 4 is at the top When this switch is moved to the left on the light sensor input is ignored You should move the switch to this position only during the setup operation described below or in those rare circumstances that PASS could legitimately be used without a light sensor When this switch is moved to the right off the light sensor input is monitored and the maximum level of safety is provided With the PASS board in the physical orientation shown above Switch 3 is next in line When this switch is moved to the left on the Horizon control is monitored and PASS will only allow static or slow beams above the horizon If there is a slow moving or non moving beam below the horizon it will be extinguished by PASS When this switch is moved to the right off the Horizon control is ignored and PASS will not allow a slow moving or non moving beam anywhere within the entire scan field With the PASS board in this orientation Switch 2 is next in line This switch controls the interpretation of an advanced feature of PASS called the S coordinate At this time we recommend this switch be placed in the left position on With the PASS board in this orientation Switch 1 is on the botto
Download Pdf Manuals
Related Search