USER`S MANUAL DPSS LASER SERIES 3500
Contents
1. DPSS User s Manual 3500 SMPS 13 of 13 Created on 02 11 03 5 25 PM 780 023 Rev A SHUTDOWN PROCEDURE 1 Press the Q SWITCH Button The DISABLE light will illuminate and the ENABLE light will extinguish 2 Press the STANDBY Button The amber STANDBY light will illuminate and the READY light will extinguish 3 Turn the key switch counter clockwise to the OFF position to turn the power supply off 4 Turn off the Cooling system Note To extinguish the pulsed output beam for short periods of time the system can be set to the DISABLE mode by pressing the QSWITCH button The system can later be returned tothe pulsed output state by again pressing the QSWITCH button and entering the ENABLE mode Note extinguish the pulsed output beam for long periods of time several days the laser can either be switched off or set to the STANDBY mode by pressing the STANDBY button To restart the laser follow the turn on procedure above Note Atany time complete laser extinction can be achieved either by pressing the STANDBY button switching the key switch to the OFF position or unplugging the AC line cord Additionally any fault detected by the system will immediately extinguish all laser radiation REMOTE OPERATION See Appendix III for more details The DPSS laser is equipped with a connector that can be used to operate the laser remotely A connector labeled is located on the b2. at 5V and can be momentarily brought LO grounded to toggle between ENABLE and DISABLE The minimum duration of the trigger waveform that the system can accept is 10 Pin 2 LASER ON Toggle This pin is normally at 5V and can be momentarily brought LO grounded to bring the system from the STANDBY mode to the WARM UP countdown sequence WARM UP Light illuminated The minimum duration of the trigger waveform that the system can accept is 10 Pin 3 STANDBY Toggle This pin is normally at 5V and can be momentarily brought LO grounded to bring the system back to the STANDBY mode STANDBY Light illuminated The minimum duration of the trigger waveform that the system can accept is 1Ous Pin 4 5V max current 150mA Pin 5 Ground Reference Pin 6 12V max current 150mA Pin 7 RUN This pin is active HI The pin is normally LO grounded and must be brought to 5V to enable the laser to q switch When installed the JUMPER connects this pin to 5V The JUMPER can be removed and a user interface connected to modulate the pulse train output Pin 8 12V max current 150mA Pin 9 PULSE The default setting for this pin is a pulse synchronization output A TTL pulse train appears at this pin to synchronize external equipment with the repetition rate of the Q switch The pin is normally and will go when a pulse is
3. mode or resets the system when a fault occurs It is preferable to press this button and return the laser to the STANDBY mode before turning off the key switch on a system that is emitting laser output a STANDBY Amber Light Laser isin the STANDBY mode The laser diode is off and the Q Switch is in the DISABLE mode b FAULT Red Light The laser has experienced a fault These include i Safety interlock open i Cables J2 and J3 interchanged at power supply or head iil No water flow iv Baseplate temperature over limit v Diode current over limit vi Diode temperature over limit vii Power supply temperature over limit 4 LASER ON Button When pressed the WARM UP light will illuminate indicating that the warm up countdown sequence has begun After 60 seconds the WARM UP light will turn off and the READY light will illuminate indicating that the laser is ready to produce laser output once the Q SWITCH is enabled If the STANDBY button is pressed while either the READY or WARM UP lights are illuminated the system will immediately revert to the STANDBY mode and the WARM UP countdown sequence will be reset a READY White Light Laser is ready to produce laser output b WARM UP Amber Light Laser is in the 60 second count down sequence 5 Q SWITCH Button This button toggles the Q switch between ENABLE and DISABLE mode It will
4. are rigidly attached to the mounting surface the laser will not move Do not attempt to mount the laser by the base itself or some manner other than with the feet or other DPSS Lasers Inc approved mounting device If screw access from the bottom is not available intermediate mounting plates can be used POWER REQUIREMENTS DPSS User s Manual 3500 SMPS 7 of 7 Created on 02 11 03 5 25 PM 780 023 Rev A laser power supply and cooling system universal input devices They will operate at any standard AC line voltage worldwide 90 240 VAC All models operate at 50Hz or 60Hz input DPSS User s Manual 3500 SMPS 8 of 8 Created on 02 11 03 5 25 PM 780 023 Rev A SYSTEM CONTROLS Before attempting to operate the laser familiarize yourself with its various controls LASER OUTPUT SHUTTER The mechanical laser output shutter is located on the front bezel of the laser head Open the output shutter on the laser head by lifting up on the tab POWER SUPPLY CONTROL BUTTONS REFER TO FIGURE 3 The following is a description of the control buttons found on the power supply 1 Key Switch Enables all the control devices within the power supply to turn on a O OFF position b I ON position 2 Large Green POWER ON Light Indicates whether line voltage is present a Notilluminated No AC line voltage present b Illuminated AC line voltage present 3 STANDBY Button Places the laser in a STANDBY
5. damage should be directed to the carrier Call DPSS Lasers Inc Customer Service for further instructions CAUTION THE USE OF CONTROLS ADJUSTMENTS OR PERFORMANCE OF PROCEDURES OTHER THAN THOSE SPECIFICED HEREIN MAY RESULT IN HAZARDOUS RADIATION EXPOSURE Note DO NOT remove any covers or panels unless specified VENTILATION Provide adequate ventilation so that the ambient temperature of the air is in the range of 20 30 C This is the preferred operating temperature range for the laser The lasers will operate satisfactorily over a greater range 10 35 C but some power loss may be experienced It is important that air inlets on the back and sides of the laser power supply and cooling unit are not obstructed and that the exited hot air is not allowed to recirculate into the air inlets MOUNTING The laser head is designed to be mounted in any attitude For testing purposes the laser can simply stand on a table on its feet For permanent installation the laser should be bolted to the user s system or optical bench The dimensions of the mounting feet are shown in the outline drawings in the Product Description chapter see Figure 1 The mounting feet are designed to provide mechanical isolation between the laser resonator structure and the mounting surface This feature prevents any lack of flatness of the mounting surface bending of the surface or differential thermal expansion from affecting the laser mirror alignment When all three feet
6. generated The laser pulse will be generated after the rising edge of this TTL pulse Alternately this pin can be factory set to accept a 0 to 10V input signal for power control Coarse power adjustments be made by providing an input voltage from OV to 10V OV corresponds to 0 output and 10V corresponds to 100 output Note Pin 7 can be used to gate the output of the laser However a gate shorter than a single period of the factory set repetition rate will not generate a pulse Also for very short gate durations the pulses will be subject to First Pulse Suppression the first pulse from the laser is suppressed and subsequent pulses experience a ramp DPSS User s Manual 3500 SMPS 21 of 21 Created on 02 11 03 5 25 PM 780 023 Rev A FIGURE 5 REMOTE CONNECTOR WAVEFORM FUNCTIONS SMPS NOTES Pins 1 2 and 3 are identical in operation as buttons on front of power e Laser output shows output for system set up in CW mode for stereolithography well as output for First e Suppressed standard PINI GEW PIN2 LASER ON ov 5V PIN3 STANDBY PIN9 OUTPUT 100 LASER OUTPUT PULSES 0 100 LASER OUTPUT PULSES 0 Alternate output for system set up with First Pulse DPSS User s Manual 3500 SMPS 22 of 22 Created on 02 11 03 5 25 PM 780 023 Rev A APPENDIX STORING YOUR LASER DPSS Lasers Inc has designed the Series 3500 DPSS laser for maximumreliability and flexib
7. the power supply end The red 4 pin connector will connect to the Interlock location at the power supply With the Cooling system switch in the OFF position connect one end of an AC power cable into the Cooling system and then into a suitable AC power outlet With the key switch in the OFF position key removed from the lock switch connect the AC power cable into the rear of the power supply and then into a suitable AC power outlet TURNING ON THE LASER SYSTEM FOR THE FIRST TIME Refer to Fi 3 1 Turn on the Cooling system Verify that the cooling system is circulating water and fill the reservoir as necessary Allow the system to run for two minutes to ensure that all air has been purged from the hoses Check the system for any water leaks Note The Cooling system temperature is factory set to 23 5 C No further adjustment of the set temperature is recommended or required If provided turn on the master power switch at the rear of the power supply The large green power indicator light at the front on the power supply should be illuminated Turn the key switch to the ON position Make sure the power switch on the cooling system is in the ON position and note that the cooling system turns on and the water in the reservoir begins circulating Press the STANDBY button at the front of the power supply to clear any initial faults If the FAULT light remains on please turn to the troubleshooting section of this manual for instructi
8. ITNESS AND MERCHANTABILITY DPSS Lasers Inc SHALL NOT BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY NATURE OR KIND WITH RESPECT TO ANY PRODUCTS OR SERVICES SOLD OR RENDERED HEREUNDER AND UNDER NO CIRCUMSTANCES WILL DPSS Lasers Inc s LIABILITY EXCEED THE COST OF REPAIR OR REPLACEMENT OF THE DEFECTIVE ITEM OF EQUIPMENT DPSS Lasers Inc NEITHER ASSUMES NOR HAS AUTHORIZED ANY OTHER PERSON TO ASSUME FOR IT ANY OTHER LIABILITY DPSS User s Manual 3500 SMPS 4of 4 Created on 02 11 03 5 25 PM 780 023 Rev A PRODUCT DESCRIPTION The DPSS Lasers Inc Series 3500 DPSS Laser The Series 3500 DPSS laser patent 6 002 695 is a high repetition rate Q switched Diode pumped Nd Vanadate system employing intra cavity doubling and tripling for efficient ultra violet generation With specified average powers of one tenth watt 0 1W to five watts 5 0W at 355nm and at repetition rates from 30 kHz to 100 kHz the DPSS laser is specifically designed to meet the needs of the OEM system designer Combining the power conversion efficiency of diode pumped solid state technology with proprietary laser cavity design and a hermetically sealed housing the Series 3500 is ideally suited to industrial environments The laser requires only regular household electrical power no external water cooling and operates at or near room temperature Thermoelectric coolers transfer heat to the cast aluminum base while a closed cycle cooling system transfers the heat to th
9. RADIATION AVOID DIRECT EXPOSURE TO THE BEAM DO NOT STARE AT SCATTERED OR REFLECTED LIGHT STRICT OBSERVANCE OF THE FOLLOWING WARNING LABELS IS ADVISED This label is affixed to the laser head cover next to the laser emission indicator This laser has a maximum output of 4W at 355nm This label is displayed on the side of the laser head This label is attached next to the Laser output port shutter This Serial Number Model number label is located on the back of the laser head affixed to power supply and cooling system DPSS User s Manual 3500 SMPS 3 Created on 02 11 03 5 25 PM 780 023 Rev A LIMITED WARRANTY All mechanical electrical and optical parts and assemblies when operated under normal conditions and in accordance with the product instructions are warranted to be free from defects in workmanship and materials for the first full year following delivery of the equipment The following warranty conditions shall apply to all laser systems unless amended in writing by DPSS Lasers Inc ADJUSTMENT No electrical mechanical or optical adjustments to the laser system are permitted unless expressly authorized by DPSS Lasers Inc PARTS AND LABOR New or factory built replacements for defective parts will be supplied for one 1 year from date of delivery of the equipment Replacement parts are warranted for the remaining portion of the original warranty period There will be no charg
10. ack of the power supply The individual pin functions of the REMOTE connector are as follows PN INOUTPUT FUNCTION USE Toggles STANDBY button 6 Power AV Supply 150mA O 9 _ Electronic Pulse Sync 0 10V Pwr Ctrl Ext Sync Power Control New laser systems are shipped with a JUMPER connector that should be connected at the REMOTE connector on the power supply when the remote function is not in use The jumper enables PIN 7 of the REMOTE connector and allows pulsed laser output under normal operating conditions If the jumper is removed pulsed laser output is suspended regardless of the state of any other control functions As such PIN 7 of the REMOTE connector can be used to modulate the pulse train duration Note The laser must be in the LASER ON mode and Q switch ENABLE mode in order to modulate the pulse train duration using PIN 7 see appendix III for more information on remote operation DPSS User s Manual 3500 SMPS 14 of 14 Created on 02 11 03 5 25 PM 780 023 Rev A Note Caution WARNING TROUBLESHOOTING The information in this section is intended to be used as an aid to the user in assessing problems with the operation of the laser and as a guide to assist experienced users in resolving routine problems If there is any question about the procedures contained in this section or associated hazards call DPSS Las
11. ak powers The resulting output is near infrared 1064nm light in the form of a pulse about 40 nanoseconds long 0 000000040 seconds Once the energy is depleted from the Vanadate the Q switch is closed and the gain is allowed to build up in the Vanadate for the next pulse The rate at which the Q switch opens and closes determines the repetition rate of the laser For the DPSS laser this is typically 30 kilohertz 30 000 pulses second Although the near infrared 1064nm light is useful for some applications it is often preferable to convert this light to shorter wavelengths using harmonic conversion In the case of the DPSS laser crystals are placed within the resonator to combine photons of light to produce different wavelengths The first process is to convert some of the 1064nm infrared light into 532nm green light using a crystal commonly known as a doubler Notice that two times 532nm is 1064nm This crystal has special properties in terms of its index of refraction and is placed within the resonator such that 1064nm light passing through it will resonate the atoms in the crystal lattice at twice the frequency of the passing 1064nm light These resonating atoms in turn generate a new beam at 532nm In essence the doubler crystal combines two photons of 1064nm to form one photon of 532nm light Exiting the crystal are two superimposed beams one at 1064nm and one at 532nm These two beams enter a second crystal in the cavity ca
12. ci DPSS Lasers USER S MANUAL DPSS LASER SERIES 3500 SMPS Covers Models 35xx yyy DPSS User s Manual 3500 SMPS lof 1 Created on 02 11 03 5 25 PM 780 023 Rev A TABLE CONTENTS PAGE Laser Safety 3 Warranty Information 4 Product Description Dimensions 5 Utility Requirements and System Installation 7 System Controls 8 Daily Operation of the Laser System 10 Troubleshooting 14 Appendix I Common Laser Beam Terms 16 Appendix II DPSS Laser Theory 17 Appendix III Controlling the Laser Externally 19 Appendix IV Storing Your Laser 21 Contacting DPSS Lasers Inc 22 Final Test Documentation Attached DPSS User s Manual 3500 SMPS 2 of 2 Created on 02 11 03 5 25 PM 780 023 Rev A LASER SAFETY Before operating this equipment users should refer to ANSI Standard Z136 1 that outlines precautions for safe operation of laser equipment and specifically recommends that Users should have initial eye examinations prior to operating laser equipment followed by periodic re examinations 2 Users should use appropriate eye protection when operating laser equipment The standard is available from the Laser Institute of America LIA telephone number 407 380 1553 This equipment is powered by a high voltage power supply capable of high current output There are no user serviceable components in this system These lasers comply with DREW radiation performance standards 21CFR subchapter J BEWARE OF HAZARDOUS LASER
13. e for repair of products under warranty where the repair work is done by DPSS Lasers Inc However DPSS Lasers Inc shall not be responsible for any shipping or transportation charges which shall be the sole responsibility of the customer NOT COVERED Damage due to abuse improper installation or application alteration accident negligence in use improper storage transportation or handling is not covered by this warranty This warranty shall not apply where the original equipment identifications have been removed defaced or altered DAMAGE IN SHIPMENT Your laser product should be inspected and tested as soon as itis received The product is packaged for safe delivery If the product is damaged in any way you should immediately file a claim with the carrier or if insured separately with the insurance company DPSS Lasers Inc will not be responsible for damage sustained in shipment CLAIMS ASSISTANCE Call DPSS Lasers Inc Customer Service or your local distributor for assistance Give our representative the full details of the problem Helpful information or shipping instructions will be provided If requested estimates of the charges for non warranty or other service work will be supplied before work begins Products being returned for repair must be shipped in their original shipping cartons to avoid damage DISCLAIMER THIS WARRANTY SHALL BE IN LIEU OF ALL OTHER WARRANTIES EXPRESS OR IMPLIED AND SHALL BE IN LIEU OF ALL WARRANTIES OF F
14. e room air A proprietary mechanical design utilizing stress relieved components eliminates cavity alignment for the life of the laser The laser output is vertically polarized and the mode is TEMoo The Series 3500 DPSS laser has been designed for materials working applications including metals organics and inorganics Specific applications include micromachining ablating of various metallic and non metallic materials polymerization of photopolymers such as those used in Rapid Prototyping and bio fluorescence STANDARD SPECIFICATIONS SERIES 3500 DPSS LASER Nd YVO4 Frequency Tripled Q switched Laser OPTICAL variations based on model number e Wavelength 354 7 nm e Average power 0 1 5 0 W e Pulse length 20 60 e Repetition rate factory set 30 100 kHz Mode M lt 1 25 TEMoo Beam diameter 1 e 1 5 mm e Beam divergence full angle lt 0 5 mrad Polarization linear vertical 100 1 e Beam pointing stability at constant temp lt 50 e Power stability over eight hours 5 e First pulse suppression Yes ELECTRICAL e voltage 90 240 VAC e Power consumption maximum 500 W e Ambient operating temperature non condensing 10 35 C PHYSICAL e Laser head dimensions in inches LWH 20 0 x 7 5 x 6 5 e Laser head weight 30 Ibs e Laser power supply dimensions in inches LWH 122x13 5x54 e Laser power supply weight 11 165 e Cooling system dimensions in inches LWH 11 3 x 8 8 x 153 e Cooling syste
15. ents and deliver useful power The 808nm laser diode emits light in a continuous mode That is the light is emitted as long as the electrical power to the diode is maintained The Vanadate and laser resonator convert the continuous wave output of the diode into a more useful output for the end user The generated 1064nm light from the resonator will be continuous as well and therefore low in peak power In order to form a more useful output with higher peak powers an acousto optical Q switch is placed in the resonator In this case stands for the quality of the resonator The quality of the resonator determines how well the cavity will generate light or more precisely the threshold level at which the laser will operate for a given gain in the gain medium In short the Q switch is an electronically controlled light valve within the resonator It stops the operation of the resonator by briefly spoiling its quality with the Q switch When the resonator is not lasing the Vanadate gain medium continues to receive energy from the continuous wave laser diode and a buildup of energy in the Vanadate occurs in the form of an electron state population inversion Once the Vanadate has absorbed as much of the 808nm energy that it can the Q switch is electronically opened and lasing is allowed in the resonator As a result of the high amount of stored energy in the Vanadate the resonator at this point generates light very rapidly and at high pe
16. ers Repetition Rate Defined as the number of optical pulses emitted from the laser per second Pulse Length The interval duration of each pulse from the laser The pulse length is the measured length in time at half of the maximum amplitude of the pulse FWHM Average Power The product of the energy per pulse joule and the repetition rate pulse frequency in hertz expressed in watts Spatial Profile In the case of the DPSS laser the output beam is close to Gaussian or TEMoo in shape The beam is circular in cross section and the amplitude is E 0 exp t w where is the distance from the beam center and w is the radius at which the amplitude is 1 e of its value on the axis w is called the beam width Sometimes the Spatial Profile of the laser is referred to as the Mode of the laser Beam Diameter As the beam in the DPSS laser is approximately TEMoo the beam diameter is defined as the calculated distance between two exactly opposed points on the beam where the energy has dropped to 1 e 2 of its peak center energy It can also be viewed as the diameter of a circular aperture through which 86 of the total energy of the beam will pass Divergence The change in beam diameter with distance of an initially collimated beam It is expressed as an angle in milliradians mrad Polarization The direction of the electric field vector in the laser beam The polarization vector is always in the plane at ri
17. ers Inc Customer Service These procedures could result in exposure to hazardous laser radiation or bright light sources Procedures should be performed only by persons who are familiar with the hazards involved and with the use of appropriate safety equipment Do not remove any covers from the laser unless specified 1 Unauthorized removal of covers from the laser will void all warranties 2 There no user serviceable components within the laser head or power supply 3 Inexperienced handling of the components in the laser can cause severe damage TROUBLE SHOOTING GUIDE PROBLEM POSSIBLE CAUSES SOLUTION Power On light not on Key switch on but no status LED s on Fault light on at first turn on DPSS User s Manual 3500 SMPS 780 023 Rev A Line cord not connected Main power switch at rear of power supply not on Cables not connected between power supply and laser head Cables J2 amp J3 interchanged at head or power supply Interlock open Cooling system not turned on System recently turned on and water water cooled units only has not started flowing yet Flow switch interlock connector water cooled units only not plugged in at power supply or laser head Water hoses interchanged at Cooling system water cooled units only Cooling system pump malfunction water cooled units only Laser head over temperature Power supply over temperature 15 of 15 Connect line cord to power supply and su
18. ght angles to the direction of the beam In the case of the DPSS laser the polarization is vertical The value given to polarization is expressed as a ratio of the amount of vertically polarized to horizontally polarized light present in the beam Beam Pointing Stability The full angle through which the far field beam moves measured in microradians DPSS User s Manual 3500 SMPS 18 of 18 Created on 02 11 03 5 25 PM 780 023 Rev A APPENDIX II DPSS LASER THEORY A laser is an optical device that amplifies light by means of stimulated emission of radiation The output of a laser is electromagnetic radiation light By placing a gain medium between two mirrors to form a light amplifier or resonator laser light is generated The light bounces back and forth between the two mirrors of the resonator extracting energy from the gain medium on each of its passes In the case of the DPSS Diode Pumped Solid State laser Vanadate crystal gain is used as the gain medium and is supplied energy or pumped by an 808nm laser diode Refer to Figure 4 This 808nm light is absorbed by the gain medium and converted to light of approximately 1064nm in wavelength The generated wavelength is defined by an atomic transition of the Neodymium ions present in the host Vanadate medium The Vanadate gain medium provides adequate amplification to overcome the losses in the laser resonator from the mirrors gain medium and other optical elem
19. ility However if you plan to store your laser for an extended period of time there are a few steps that you can take to assure that your laser will always turn on at peak operating performance Unplug the system Disconnect the cables from between the laser head and power supply Disconnect the hoses and drain the water from the laser Wrap the units in their plastic bags and pack them in their original shipping container Store the system in a cool dry place preferably free from dirt and contamination AP WNP Following the above procedure will insure outstanding performance from your laser even after long periods of storage If you have any questions regarding this procedure or the care of your laser during prolonged storage please call DPSS Lasers Inc Customer Service DPSS User s Manual 3500 SMPS 780 023 Rev A N o e N o Created on 02 11 03 5 25 PM CONTACTING DPSS Lasers Inc CORPORATE OFFICES DPSS Lasers Inc 1355 Vander Way San Jose CA 95112 TEL 408 298 7755 FAX 408 298 7722 WEB www DPSS Lasers com WORLDWIDE DISTRIBUTORS WEB www DPSS Lasers com distributors htm CUSTOMER SERVICE TEL 408 298 7755 Techsupport DPSS Lasers com DPSS User s Manual 3500 SMPS 24 of 24 Created on 02 11 03 5 25 PM 780 023 Rev A
20. itable AC power source Turn on main power switch at read of power supply Connect all cables between power supply and laser head Verify that all cables are well seated and there are no bent pins in the connectors Verify that J2 amp J3 are correctly connected Check all user installed interlocks for proper operation Turn on Cooling system Wait 30 seconds and press STANDBY button to clear fault Open Cooling system reservoir water cooled units only and verify that water is bubbling Verify that the flow switch interlock cable red twisted pair is connected at power supply and laser head Reverse water hose connections at Cooling system water cooled units only Touch laser baseplate to verify that it is close to room temperature Touch power supply enclosure and verify that it is close to room temperature Ensure that ambient cooling air is not recirculating through power supply or Cooling System Created on 02 11 03 5 25 PM Fault light on after laser is Interlock open Check all user installed interlocks operating Cooling system water not Open Cooling system reservoir flowing water cooled units and verify bubbling action of only water Laser head over temperature Verify that laser baseplate is at or Power supply over near room temperature temperature Verify that the power supply chassis is at or near room temperature Ensure that there is adequate ventilation for the Cooling system and the power supply No pul
21. lled a tripler and through a similar process a photon of residual 1064nm and a photon of 532nm light are combined to form a new photon of 355nm light The three beams residual 1064nm residual 532nm and useful output 355nm exit the tripler crystal superimposed A prism is used to physically separate the beams and the 355nm beam is directed to the output port of the laser with a pair of mirrors The 532nm beam is dumped and the 1064nm beam stays within the resonator to continue extracting energy from the Vanadate Finally the 355nm output beam may be optically manipulated with lenses and prisms to give the correct beam shape and size for the application DPSS User s Manual 3500 SMPS 19 of 19 Created on 02 11 03 5 25 PM 780 023 Rev A FIGURE 4 Aquiessy 2510 Created on 02 11 03 5 25 PM 20 of 20 DPSS User s Manual 3500 SMPS 780 023 Rev A APPENDIX III CONTROLLING THE LASER EXTERNALLY The connector on the power supply labeled REMOTE can be used to externally control the laser through TTL level signals Refer to Figure 5 Pins one two and three mimic the buttons of the control panel on the front of the power supply If you are uncertain of the function of these buttons refer to the Power Supply Control Buttons section of the System Controls Chapter The following is a summary of the functions of the pins on the REMOTE connector Pin 1 Q SWITCH Toggle This pin is normally
22. m weight 20 Ibs DPSS User s Manual 3500 SMPS 5 of 5 Created on 02 11 03 5 25 PM 780 023 Rev A FRONT VIEW 3500 5 5 A lt E am ca Un 3 un 7 DPSS User s Manual 3500 SMPS 6 of 6 Created on 02 11 03 5 25 PM 780 023 Rev A UTILITY REQUIREMENTS AND SYSTEM INSTALLATION INCOMING INSPECTION Immediately upon receipt the laser should be unpacked and inspected for shipping damage If none is evident test for satisfactory operation REQUIRED TOOLS FOR INSTALLATION Large flat screw driver or wrecking bar Use Opening the shipping crate Water 0 5 gallon distilled Use Laser coolant Isopropyl alcohol 1 cup Use Laser coolant additive Safety glasses for all persons present OD gt 9 355nm and OD gt 5 532 nm Use Laser eye safety Calibrated laser power meter Coherent Lasermate LD10 or equivalent Use Verifying laser performance fluorescent card or business card Matte surface Use Beam diagnostics and alignment 3 16 Allen driver optional Use Attaching the laser to the work surface if needed UNPACKING Open the crate by removing the metal clips on the crate Inspect the packing list and verify that all materials are present Note Retain all packing materials After unpacking inspect the crate and all components of the laser for damage If any damage is found contact the carrier for immediate on site inspection All claims for
23. ons The laser system is now ready for operation To turn on the laser press the LASERON button The STANDBY light will extinguish the WARMUP light will illuminate and the laser diode will be energized After 60 seconds the WARMUP light will extinguish and the READY light will illuminate This indicates that the system is ready to output pulsed laser radiation Note Under normal conditions some approximately 1mW light will be emitted from the output aperture when the laser is on and the q switch is disabled To initiate pulsed laser radiation press the QSWITCH button The indicator will change from DISABLE to ENABLE and pulsed laser radiation will be emitted from the output aperture at the specified repetition rate Note After running the system for 20 minutes with laser output touch the underside of the laser head with your hand and note the temperature It should be close to room temperature If the laser base appears to be getting warmer or is significantly hotter than room temperature it is possible that the cooling system is not circulating Contact DPSS Lasers Inc Customer Service DPSS User s Manual 3500 SMPS 10 of 10 Created on 02 11 03 5 25 PM 780 023 Rev A DAILY OPERATION OF THE LASER SYSTEM WARNING Install a power meter or beam block in front of the output of the laser before turning on the laser Place the power meter or beam block approximately one foot from the laser output aperture to avoid contaminating the out
24. operate only when READY green light is illuminated a ENABLE White Light The Q switch is enabled laser emitting pulsed radiation b DISABLE Amber Light The Q switch is disabled laser emitting CW radiation CONNECTING THE COOLING SYSTEM R TO FIGURE 2 Padthe side of the laser head and very gently turn it on its side There are two water hoses one hose is marked SUPPLY and the other is marked RETURN Connect SUPPLY hose to the corresponding labeled connections on the laser head and cooling system Then connect RETURN hose to its corresponding labeled connections on the laser head and cooling system 3 Remove plastic filler cap for the water reservoir on the Cooling system 4 the reservoir with 1 cup Isopropyl Alcohol and top off with distilled water Note water level will drop when the unit is eventually turned on and the reservoir will need to be topped off with distilled water DPSS User s Manual 3500 SMPS 9 of 9 Created on 02 11 03 5 25 PM 780 023 Rev A CONNECTING THE LASER CABLES REFER FIGURE 2 1 2 Place the laser head on a table Open the shutter Find the end of the cable bundle marked Laser Head and connect each cable connector to it s corresponding mate indicated by the following labels Diode Scanner RF J2 J3 and finally connect the two pin red interlock cable to its mating connector on the water hose Repeat the above step with the free end of the cable bundle at
25. put window with ablated material WARNING If the laser beam strikes any semi glossy or reflective surfaces dangerous and potentially blinding reflections or scatter can result Never work around the laser or enter a room where the laser is operating without wearing laser safety glasses 1 The laser beam can be tracked by briefly placing a matte finish business card in the beam path Move the card continuously to prevent burning the card Do not place the card in the beam any closer than one foot from the output aperture of the laser 2 When performing a cold start the first ten minutes of operation may exhibit slight power fluctuations while the laser reaches 90 output Over the next hour laser power should rise from 90 to 100 of specified power After this period the laser output should be stable and ready to use 3 DPSS Lasers Inc Series 3500 laser system is designed to operate continuously for the lifetime of the laser with very little maintenance DPSS User s Manual 3500 SMPS ll of 11 Created on 02 11 03 5 25 PM 780 023 Rev A 5 PM 42 uv FIGURE 2 SKLAR N S 5 LASER HEAD LASER HEAD 2 gt gt KOS 25202052 gt SIDE VIEW TO WALL OUTLET El 5 T E N ne m TO WALL OUTLET CHILLER Created on 02 1 1 02 12 of 12 3500 SMPS DPSS User s Manual FIGURE 3 0000000000000000000000000 0000 4 5
26. sed laser output after 5 Shutter not open Open shutter on laser head minutes assumes no faults REMOTE connector not Verify that either JUMPER or detected and system running connected alternate control is connected to with laser READY and q RF BNC cable not connected REMOTE connector switch ENABLE at power supply or laser Verify that RF BNC cable is head connected at power supply and laser head Low output power after one Beam path partially blocked Verify that shutter is fully open hour warm up Ambient temperature too Verify that ambient temperature is high within acceptable operating limits Cooling system not Verify that Cooling system is functioning properly maintaining set temperature Laser misaligned Refer to Service Appendix for Damaged or contaminated laser alignment procedure optics internal to the laser head Power oscillation after turn on It is normal for the laser Allow laser to warm up for one output power to oscillate hour prior to use slightly during the first hour of operation Power oscillation after several Ambient temperature Verify that ambient temperature hours of operation changing dramatically remains within acceptable Cables J2 or J3 not seated operating limits well Verify that cables J2 and J3 are Cooling system malfunction well connected at power supply and laser head Verify that Cooling system is maintaining set temperature Poor beam quality Contaminated or damaged Check optics in optical path for optics external to
27. the laser contamination or damage head Turn of laser system and clean Contamination or damage to laser output window according to laser output window cleaning instruction in Service Appendix Scattered green emission with It is normal for some green If necessary an aperture can be UV output light to be emitted with the placed one foot away from the UV output laser head to block this green emission Strong UV emission when q e Electronic malfunction e Contact DPSS Service switch is DISABLE Representative DPSS User s Manual 3500 SMPS 16 of 16 Created on 02 11 03 5 25 PM 780 023 Rev A If the problem experienced cannot be resolved by this troubleshooting guide please contact a DPSS Lasers Inc Customer Service Representative at either your local distributor or directly through the DPSS Lasers Inc Customer Service Department For contact information please refer to the Contacts page of this manual DPSS User s Manual 3500 SMPS 17 of 17 Created on 02 11 03 5 25 PM 780 023 Rev A APPENDIX I COMMON LASER BEAM TERMS The following is a list of the parameters that characterize the laser beam emitted from a DPSS laser 1 2 3 4 5 7 8 9 Wavelength Electromagnetic energy is transmitted in the form of a sinusoidal wave The wavelength is the physical distance covered by one cycle of this wave it is inversely proportional to frequency In the case of the DPSS laser the wavelength is expressed in nanomet
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