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1. 27 Rod Removaland Replacement ee 27 TS 29 Chapter 7 Return for Repair 30 30 DEN A ER 30 Bic SR Suan E E N dba amisudsbSuansdebitieah 30 GE 31 iv SI Unlts The following System International SD units abbreviations and prefixes are in Cutting Edge Optronics CEO manuals Quantity Unit Abbr Length Hz rey nn Power Watt W EkcicCurem Ampere A een Charge HecscPommal Wok V Resistance v ndene NEM Prefixes centi zZ mir 09 p pio A p La 99 a Tz 4o vi ACGIH ANSI AR AO CDRH CEO CFR CW DC EO ESD FET FDA FWHM GaAlAs GPM HR HV IR KTP LBO MCC Nd YAG NGST NIR OSHA PRE PSI SHG TTL VAC Acronyms The following acronyms are used in this manual American Council of Government Industrial Hygienists American National Standards Institute Anti Reflective Acusto Optical type of Q switch Center for Devices and Radiological Health U S Food and Drug Administration Cutting Edge Optronics Incorporated Code of Federal Regulations Continuous Wave Direct Current Hlectro Optical type of Q switch Hlectro Static Discharge Field Effect Transistor U S Food and Drug Administration Full Width Half Max Gallium Aluminum Arsenide Gallons Per Minute High Reflector High Voltage Infrared Potassium Titanyl Phosphate Lithium Triborate Meters Concave Neodymium doped Yttri
2. Always use proper ESD control devices when handling the module CAUTION Do not open sealed package until package has normalized to room temperature Condensation can seriously damage the diode arrays in the laser module and may void warranty Inspect the unit as you unpack it looking for dents scratches or other evidence of damage If you discover any damage immediately file a claim against the carrier and notify your NGST Cutting Edge Optronics representative NGST CEO will arrange for repair without waiting for settlement of your claim Keep the shipping container If you file a damage claim you may need it to demonstrate that the damage occurred as a result of shipping If you need to return the unit for service the specially designed carton assures adequate protection A manual and a final test report should accompany each unit shipped A manual and a final test report should accompany each unit shipped RE Series Module Proper storage of the RE Series module involves three steps 1 Remove all water from module by blowing dry air through it for 20 minutes 2 Place a shorting connector across the module electrical contacts 3 Store module in a clean dry atmosphere relative humidity less than 30 If necessary place module in a sealed bag with some form of desiccant The approximate diode bias voltage for the different models of RE Series module can be found in the Specifications table at the end of chapter one The
3. 29 5 1 9 78 13 9 185 221 25 1 27 7 300 321 340 36 28 3 0 4 95 15 7 202 23 9 270 296 320 341 36 0 38 27 1 1 1 111 174 220 25 7 289 316 339 361 38 0 40 26 0 2 6 12 7 191 238 276 30 7 33 359 38 0 40 0 Figure 16 Table of Air Condensation Temperature at Given Ambient Air Temperature C and Relative Humidity If required to operate a laser system in conditions near to the condensation temperature take precautions to keep the RB module dry The module should be operated inside an area that is purged with gaseous N or encased in a sealed enclosure with a desiccant 18 Chapter 4 Installation and Operation When NGST CEO sells diode drive electronics with the RE Series module we sell our eDrive diode driver When NGST CEO sells a closed loop water chiller with the RE Series module we provide a Polyscience chiller see Chapter 1 for chiller capacities The following chapter contains step by step procedures detailing the installation and operation of the RE Series module with these peripherals CAUTION The module is susceptible to damage due to electro static discharge ESD Always use proper ESD control devices when handling the module RE Series Laser Module Assembly and Connections Power Supply Input Terminals 1 Check to make sure the AC power switch located on the rear panel of the eDrive Laser Diode Controller is in the OFF position 2 Connect D sub on the base of the RE Series to the Laser Drive Output lo
4. 3 Switch the main AC power switch on the external power supply located on the front panel to the OFF position 4 Press the main AC power switch of the eDrive located on the front panel Hold down for approximately 5 seconds until the eDrive shuts down 5 Allow chiller to run for a couple of minutes 1 2 minutes 6 Switch the closed loop chiller to the OFF position 7 Turn off the key switch 8 Remove the key Do not leave the laser accessible to people who are untrained in laser safety or operation WARNING Hazardous voltages are present in this system during normal operation Before removing the cover always disconnect the power cord to the power supplies and drivers Allow at least five 5 minutes for all electronics to discharge before touching or grounding of electrical connections 24 Chapter 5 Maintenance Rod Cleaning CAUTION Ensure gloves or finger cots are worn during this procedure and that it is carried out in a clean environment preferably under a laminar flow hood First blow optical surface with dry nitrogen Then use either hemostats and lens tissue or a tight wrapped cotton tipped applicator lightly wetted with acetone or methanol to wipe the rod face The wipe pattern should be in a circular motion from center towards edge Inspect the rod for cleanliness Repeat if necessary Adjusting the Operating Current The specification for laser module optical output 1s provided in the final
5. 1 A then attempting to fire the laser with the chiller off In case interlock does not function correctly be prepared to manually turn off laser By testing the interlock with a minimal current the risk to the laser diodes is minimized CAUTION Do not operate coolant system below air condensation temperature dew point at laser head Condensation on the diode arrays can seriously damage the laser head and may void warranty Consult a CEO field service engineer if you have any questions The air condensation temperature dew point 1s the highest temperature a surface can be at to cause water to form on the surface from the ambient air vapor The air condensation temperature is dependent on the surrounding air temperature and relative humidity If a surface such as a laser diode is cooled at or below the condensation temperature water may collect on that surface A formula for calculating dew point 1s given below along with a calculated table All temperatures are given in Celsius _ 237 7xa T RH I3 2 4 XT RH T ln 17 27 a T RH wll RH 2 100 T is the ambient air temperature in Celsius 0 lt T lt 60 RH is the relative humidity 0 01 lt RH lt 1 0 and T is the air condensation temperature For example if the chiller is running at 22 C then look at the curve labeled 22 C Suppose the ambient air near the laser 1s at 28 C 82 F look where the grid line for air temperature of 28
6. C intersects the curve for diode temperature of 22 C At a relative humidity of 70 ot greater condensation will form on the laser diodes 16 Relative Humidity RYAN A NN LT I OAR AAA ANNANNNANNNNN ET Ne NN NN RL I TVA LAR AANA NANSNNNNNANNNN NNNNNNNNNNNNI NNNNNNNNNNC NNNNNNNNC YAAK AROS CANNAAN SNS SIT IS VII SES O O1 v O e N o Ol eo Jg N m I C1 3 N I NI 7777 NN E J N ado o coc oco I CD CD O1 6 C 13 16 19 22 25 28 31 34 37 40 Temperature C ELUTE ELT Pep A ee TLE Ads yy Figure 15 Constant Dew Point Lines for Ambient Temperature a nd Relative Humidity 17 Temperature Relative Humidity 1 10 20 30 40 50 60 70 80 90 100 101 43 9 20 2 11 9 68 3 0 0 26 48 6 7 6 4 10 0 12 42 6 18 7 10 3 50 12 19 4 5 6 7 6 7 10 4 12 0 14 41 4 17 1 8 6 3 3 0 6 3 7 6 4 8 6 10 6 12 4 14 0 161 40 2 15 6 7 0 16 24 5 6 6 2 10 5 125 144 16 0 18 390 14 1 53 02 4 2 7 4 10 1 124 145 163 18 0 201 37 8 12 5 3 6 1 9 6 0 9 3 12 0 144 164 18 3 20 0 22 36 6 11 0 20 3 6 1 8 11 1 139 163 184 203 220 241 35 4 9 5 04 5 3 9 6 129 15 7 18 2 203 223 24 0 261 342 80 1 3 ri 11 3 148 176 20 1 223 242 26 0 281 33 0 6 5 2 9 8 8 13 1 166 195 220 242 26 2 28 0 30 31 8 49 46 10 5 149 154 214 239 26 2 28 2 30 0 321 30 6 34 02 12 2 16 7 20 3 23 2 258 261 ALL 32 0 34
7. flow is one gallon per minute See final test report for optimum flow rate which should be 2 gallons per minute 21 7 Verify the temperature located on the front panel of the chiller reads appropriately Optimum temperature is listed on the final test report but will be between 20 35 C CAUTION Do not allow chiller to fill the filter housing as air can become trapped within the system 8 Connect water flow switch to coolant interlock on rear of eDrive diode driver When connecting the water flow switch make sure that it is connected to the return line of the chiller and the arrow located on the top of the switch is pointing in the direction of water flow Starting the Laser System Pre start Conditions 1 Wear laser safety goggles which protect user from1064 nm fundamental and 808 nm radiation 2 Position the RE Series module in a laser cavity such the output will be directed toward a safe target 3 Verify that the system is correctly assembled 4 Verify that the rod faces are clean and not capped or covered 5 Verify that the filter on the closed loop chiller is connected to the inlet hose batb 6 Switch the Closed Loop Chiller to the ON position Verify water flow from chiller CAUTION Do not operate coolant system below air condensation temperature dew point at laser head Condensation on the diode arrays can seriously damage the laser head and may void warranty Consult a CEO field service engineer if yo
8. laser We recommend the use of protective eyewear at all times selection depends on the energy and wavelength of the laser beam as well as operating conditions Consult ANSI ACGIH or OSHA standards for guidance WARNING specified herein may result in hazardous radiation exposure WARNING At all times during installation operation maintenance or service of your laser avoid exposure to laser or collateral radiation exceeding the accessible emission limits listed in Performance Standards for Laser Products United States Code of Federal Regulations 21 CFR 1040 10 d ESD CAUTION The laser diodes in the RE Series are sensitive to Electro Static Discharge ESD Never handle the RE Series module without being properly grounded through the use of properly installed and maintained grounding wrist straps or other ESD control devices Subjecting the RE Series to static shock can seriously damage or destroy the diode bats and will void the product warranty ELECTRICAL WARNING The voltages in this system can be harmful or even lethal Whenever handling ot servicing the laser always disconnect the power cord to the power supplies and drivers Allow at least five 5 minutes for all electronics to discharge before touching or grounding of electrical connections Precautions for Safe Operation of Class IV Lasers Never look directly into the laser beam or at specular reflection even with protective eye weat on Always wear l
9. 3 shows the percentage of pump light of different wavelengths absorbed by two passes through a 6 35 mm thick rod of 0 6 doped Nd YAG In CEO modules the laser diode center wavelength under normal operating conditions is near the absorption peak of the laser medium The operating temperature of closed loop chiller is carefully chosen to shift the diode temperature so that the wavelength matches the absorption peak The final test report included with each module indicates the optimum operation temperature for that module Modeled Pump Light Absorption vs Pump Array Center Wavelength 1 0 9 c 0 8 4 Spectral Width of 5 0 7 Pump Array a mm 2 nm fwhm lt E 0 6 mm 4 nm fwhm T a 0 5 3 ou 6 35 mm z 0 4 diameter rod 0 6 Nd YAG 2 pass absorption 790 795 800 805 810 815 820 Pump Array Center Wavelength nm Figure 3 Pump Light Absorption vs Pump Array Center Wavelength RE Series Description The RE Series module utilizes a radial transverse pump geometry to excite the solid state laser medium see Figure 4 This pump geometry results in excellent gain uniformity and lensing performance The reflector directs the divergent diode light back to the laser medium which is kept in a flow tube for coolant circulation The laser medium is a rod of neodymium doped yttrium aluminum garnet Nd YAG Both ends of the rod are optically polished and include anti reflection coatings at the lasing waveleneth The ends o
10. I Flow switch connected to driver coolant interlock RETURNO 4 1 4 nut attaches TO barbs to 1 cap screw on module SUPPLY O 1 N i 3 8 COOLANT 3 8 reinforced reinforced Purelase 180 hose 6 CEO Part Number FRERE n RSS adi D AM alho 1955516993 460 Purelase180 SKK EEE Filter assembly with lt 5 micron replaceable filter Se D XX XX SES PS Ly 7 Ly ENT D CUIR ACC P umm CIAZA SAR AZ 2 ZX xX XY SFT AZ X KZ T CN SAZA SZ SCA S S S 7 MN NEN NL NN N ee Figure 19 Chiller Assembly Drawing 20 Closed Loop Water Chiller Assembly 1 Place the chiller on the floor near the RE Series laser module Refer to the chiller instruction manual for power requirements settings and instructions on how to set up the chiller 2 Attach the cooling lines included with the plumbing accessory kit to the hose barb fittings on the chiller and on the RE Series laser module Remember to attach the water filter between the chiller and the laser head The filter may be attached to the back of the chiller or to some other stable mounting point 1 e wall The standard plumbing arrangement for a typical closed loop chiller including hose diameters is shown in Figure 19 The input output water connections on the RE Series are not polarized Either hose barb on the RE Series laser module can be arbitrarily chosen as the coolant inlet Water flow direction is not im
11. Module first in coolant loop e Heat Capacity gt Power Consumption Fig 5 e Flow sensor connected to coolant interlock on drive electronics 1 Clean coolant is important to keeping coolant lines from clogging Untreated tap water is not an acceptable coolant and may cause damage Purelase 180 is the recommended coolant It is made from DI water with additives to control the pH By using DI water in the solution scale will not form in the cooling 14 loop It contains biocide to prevent algae growth and corrosion inhibitors to protect yellow metals and aluminum Purelase 180 1s available through NG CEO 2 If Purelase 180 is not available CEO recommends distilled water and the combined algaecide and corrosion inhibitor Optishield Plus from Opti Temp Inc Traverse City MI phone number 231 946 2931 3 The filter should be capable of removing particles 5 um or larger The filter should be changed at a minimum of every six months The filter should be changed more frequently if the chiller manufacturer recommends a shorter interval 4 Every six months or when ever the filter is changed the coolant should be drained The chiller should then be cleaned Finally clean coolant should be circulated 5 This ensures the cleanest coolest coolant passes through the diodes the most expensive component of most lasers 6 When not using CEO drive electronics verify that flow sensor interrupts current to diodes less than 500 millise
12. RE Series Diode Pumped Nd YAG Rod Laser Modules GRUMMAN no per e Cutting Edge Optronics Models RE 50 RE 63 amp RE 70 User Manual NORTHROP GRUMMAN ii RE Sereis Diode Pumped Nd YAG Rod Laser Module Instruction Manual NORTHROP GRUMMAN Cutting Edge Optronics 20 Point West Boulevard Saint Charles MO 63301 CEO UMAN 0006 Rev Q October 2007 Preface This manual describes the installation operation and service of the RE Series module The RE Series module emits laser radiation that can permanently damage eyes and skin ignite fires and vaporize substances The Laser Safety section Chapter 2 contains information and guidance about these hazards To minimize the risk of injury or expensive repairs carefully follow these instructions The Service and Repair section 1s intended to help guide you to the source of problems Do not attempt repairs while the unit is under warranty instead report all problems to Northrop Grumman Space Technology Cutting Edge Optronics NGST CEO for warranty repair We welcome your comments on the content and style of this manual The last page is a form to aid in bringing your thoughts to our attention Thank you for your purchase of NGST Cutting Edge Optronics components Do not open the factory packaging before carefully reading this complete operation and maintenance manual If you have any questions on the product which have not been discussed sufficiently wit
13. ainer nut and O rings from stray laser radiation Rod Removal and Replacement CAUTION The module is susceptible to damage due to electro static discharge ESD Always use proper ESD control devices when handling the module CAUTION Ensure gloves or finger cots are worn during this procedure and that it is carried out in a clean environment preferably under a laminar flow hood 1 Remove four fasteners releasing Macor shields 2 Remove the two retainer nuts from the ends of the module using the CEO spanner wrench 60 590 1 CAUTION Use extreme caution during the remaining steps of this procedure to insure that the rod faces and or coatings are not damaged Never use a tool that can scratch the rod on the O rings 3 Extract one of the O rings that hold the rod in place using a dental pick or other similar tool Stick the sharp end of the dental pick into the O ring and pull away from the pump module New O rings will be used during the installation of the new rod Be very careful not to damage the rod ends or barrel with the extraction tool 4 Remove the rod by applying slight pressure in order to break the O ring seal on the opposite end Partial extraction of the O ring on the opposite end may PA be needed If necessary loosen the O ring with the dental pick Once again be careful not to damage the rod ends or barrel YAG Rod Macor Sheild Retainer Nut Viton O ring Figure 20 Rod Replacement Dr
14. are made in a safe manner Where possible position equipment so that electrical connections are shielded from accidental touch No smoking eating ot drinking should be allowed in laser areas Never leave an operating laser unattended INVISIBLE LASER RADIATION AVOID EYE OR SKIN EXPOSURE TO DIRECT OR SCATTERED RADIATION Wavelength Power 808 nm 50W 1064 nm 750W CLASS IV Figure 7 Standard Safety Warning Sign Center for Devices and Radiological Health CDRH OEM Product The RE Series module is considered a component according to the Food and Drug Administration Code of Federal Regulations Title 21 Section 1002 1 b for use in an end system and therefore does not fully comply with all the requirements of the Code of Federal Regulations for laser based systems The RE Series module is capable of emitting Class IV radiation and extreme care must be exercised in its installation and operation Only persons familiar with the safety precautions and practices in this manual should operate the laser product Aperture Label 2x Identifiaction amp No User Servicable Certification Label Parts Label High Voltage Label BeO Label Patent No Label Warranty Viod Label Figure 8 Radiation Control Drawing Te Gea Cutting Edge Optronics Inc Cuming Diga Drames 20 Point West Blvd St Charles MO 63301 PRODUCT MODEL NO ur C AVOID EXPOSURE EM following Patents This la
15. aser safety eye wear that is appropriate for the output power at the wavelengths of operation 808 nm pump light and 1064 nm fundamental e Set aside a controlled access area for laser operation limit access to those trained in the principles of laser safety Post readily readable warning signs in prominent locations near the laser Operation area Use safety interlocks on all entryways All NGST CEO laser system control electronics are provided with interlock inputs to preclude operation with an open safety door NOTE when multiple interlocks are used they must be connected in SERIES for proper function Restrict access to laser areas to those who have been instructed in the necessary safety precautions Enclose beam paths wherever possible e Set up experiments so the laser beam is below eye level Work in an area that is well lit to avoid dilation of pupils e Set up a target for the beam e Set up shields to prevent reflected beams from escaping the laser operation area The Q switched output power of the laser emits extremely high peak optical powers powers that can severely damage a wide array of optical components and detectors Know the limits of your components before exposing them to the Q switched beam View an infrared laser beam with a protected image converter at an oblique angle reflecting from a diffuse surface Do not use phosphorus cards in the Q switched beam Insure that all electrical connections
16. awing 5 Clean threads on endcaps and retainer nuts with a Q tip This should ensure that the parts are free of debris 6 Unwrap the new rod and inspect the end faces 7 Obtain two 010 white Viton O rings when using a 6 35mm diameter rod 8 Place one of the corresponding O rings over one end of the rod Position the O ring approximately 10mm from the end of the rod 9 Insert the opposite end of the rod into the corresponding hole in one end of the module until it protrudes from the hole in the opposite end The rod is vety fragile Be careful not to chip or scratch the rod while inserting it 10 Inspect the rod end with o ring for cleanliness If needed clean the end of the rod with methanol and cotton swabs 11 Place one of the retainer nuts over the end of the rod with the O ring Thread the retainer nut in until it is finger tight 12 Place the second white O ring over the opposite end of the rod 13 Inspect this rod end for cleanliness If needed clean the end of the rod with methanol and cotton swabs 14 Thread the second retainer nut into the pump module 15 Using the retainer nut carefully push the o ring into the groove Seat O ting into groove 16 Position the rod equidistant from each end of the pump module using the soft end of a cotton swab 28 Leak Test Procedure 17 Tighten the retainer nuts with the spanner wrench just enough to compress the O rings Do not over tighten Over tightening may cause unwan
17. cated on the rear of the eDrive 3 Connect the lab door interlock switch or other interlock used to the Interlock connector on the rear of the eDrive If multiple interlocks are needed be sure all interlocks are connected in SERIES to this port If no remote interlocks are used short the connection to allow for normal laser operation 4 If an external power supply is used check to make sure the AC power switch located on the front of the external power supply is in the OFF O position Then connect the output of the supply to the input power lugs of the eDrive located at the upper left of the rear panel 5 Verify the eDrive has clear space in rear and on each side of unit to allow proper air flow 6 Plug the eDrive and external power supply if used cords into the appropriate facility power The eDrive diode driver is equipped with universal power circuitry accepting voltages ranging from 100 260 VAC and a frequency range of 47 63 Hz Array Drive AC Power Remote Output Terminals Input Interlock 20000000000000 Hm Im 19 Figure 17 eDrive Rear Panel Host Computer Used only if aptional external computer control is implemented RS XXX or CAN BUS External Power Laser Facility Power or Module Power Supply Chiller Figure 18 System Connections is 3 8 reinforced f d i i n d male A emale reinforce CH ILLEH barb hose 18 barb hose 6 La u AIRI aii ILRI OIO I
18. conds after a low flow condition occurs Avoid with chillers e Untreated De ionized water e ron or Aluminum parts in plumbing loop e Operation below air condensation temperature 1 CEO recommends chiller water have a resistivity of less than 1 0 MQ Deionized water can be used if the resistivity is closely monitored and the coolant loop does not have iron or aluminum patts If you ever notice water in the immediate vicinity of the module shut the laser down immediately Check to see if the water is coming from the module If so then return the module for repair If not repair leak and allow the module to dry thoroughly before resuming lasing The RE Series module has a coolant loop to prevent thermal damage to the laser diodes The diodes should be kept at approximately 20 35 C See the final test report for optimum temperature and flow rate settings Operating the laser diodes for even a short period of time less than 1 second without coolant will cause permanent damage To help prevent this all NGST CEO drive electronics are equipped with a coolant interlock This interlock interrupts drive current to the diodes when coolant flow rate drops below set point For this to function properly a flow sensor must be used in the coolant loop It is a good idea to test the function of the flow sensor before firing when first setting up the 15 laser system This can be accomplished by setting the drive current to a very low level
19. e bias protection diodes The driver should be able to detect the shorted condition because with a short across the array the full power supply voltage will suddenly be impressed across the driver control FETs For drivers which have a fixed power supply voltage a much larger voltage across the drive FETs will increase the heat load and cause a dramatic rise in their temperature For third party drivers which have the capability to servo the voltage to produce the necessary current a sudden decrease in output voltage should cause a corresponding large decrease in the voltage required internally within the driver which could be detected and reported If any of the conditions are detected the driver should suspend diode drive current and send the operator an error message CAUTION Do not operate module without cooling Inadequate heat dissipation will seriously damage the laser diodes and will void warranty The single most common cause of laser module return for repair involves customer damage More than one third of all customer damaged laser modules involve cooling problems Coolant problems almost always require the replacement of the diode arrays the single most expensive component in NGST CEO laser modules Read the following section carefully to avoid damaging arrays Chiller requirements e Purclase 180 coolant e Coolant circulated at 50 pst e Filter connected between chiller and inlet on module e
20. e temperature will not need adjustment It is possible however that this adjustment may be recommended by your Cutting Edge Optronics field service engineer during the later part of the laser diodes lifetime and after several current increases 25 Increasing the diode drive current increases the heat load on the diode resulting in a shift in diode wavelength In order to compensate for this shift a slight adjustment most likely colder of the temperature set point on the recirculation water chiller may be required Changing the temperature set point will change the output wavelength of the laser diode this adjustment should be done in one degree Celsius increments Look for an increase in optical output power on an external power meter Wait a few minutes between each adjustment allowing the chiller to stabilize Continue until you obtain the maximum possible power CAUTION Do not operate coolant system below air condensation temperature dew point at laser head Condensation on the diode arrays can seriously damage the laser head Cleaning the Chiller Every six months the chiller should be drained and cleaned The filter should be replaced and new clean coolant should be used in the chiller The recommended procedure for cleaning a chiller is detailed below 1 Drain chiller completely 2 Remove filter from housing 3 Add the 460 CCL2567 cleaning solution to the cooling system till full 4 Circulate the cleaner
21. electrical system should deliver approximately 10 more volts depending on the FET used The final test report shipped with the RE Series module indicates the beginning of life current required to obtain the module s rated output power in a short cavity test NGST CEO recommends users not exceed the listed current as overdriving the module reduces diode lifetime 10 The RE Series module connects to a diode driver in one of three ways a D sub connector Positronics 7W2 see Figure 12 on the base of the pumphead module Figure 10 a D sub connector on wire from the base of the module Figure 11 or Anderson connectors on wire from the base of the module see Figure 12 Figure 10 RE Series with Pin D Sub Connector Figure 11 RE Series with Socket D Sub Connector 11 HV Figure 13 RE Series with Pin D Sub Connector Some users have experienced a problem with modules with Anderson connectors The wire to the Anderson connector is designed to bend but the connector itself should be kept straight When the connectors are stressed e g twisted pulled pinched the electrical connection can be weakened The inefficient connection causes resistance which causes waste heat to be dumped into the plastic connector The connector then melts and must be replaced RE Series module output is a result of the optical pump power from the continuous wave laser diodes These continuous wave diodes are sensitive to thermal shock from
22. f the Nd YAG rod may be curved to compensate for thermal lensing depending on module configuration Diode array Heat Exchange Flow Tube Nd YAG Rod Diode Array Figure 4 Radial Pump Geometry The five diode arrays that radially pump the rod can each have one or two parallel lines of diode bars The single line version is called the 1C2 in CEO literature while the double bar version is called the 2C2 Naturally the double bar 2C2 version requires twice the diode bias voltage and twice the input power of the single bar version of the pumphead The laser medium is a 146 mm long rod of neodymium doped yttrium aluminum garnet Nd YAG The rod is 5 mm diameter for RE 50 6 35 mm for RE 63 and 7 mm in RE 70 Both ends of the rod are optically polished and include anti reflection coatings at the lasing wavelength The Nd YAG rod ends are cutved to compensate for thermal lensing unless otherwise requested Closed Loop Re circulating Chiller Specifications Coolant flow direction 1s polarized on the RE Series pump module Inlet and Outlet hose barbs are marked on the pumphead Be sure to connect the coolant filter for the selected chiller on the Inlet connection so only clean coolant from the filter flows through the pumphead Dirty coolant deposits dirt on the Nd Y AG rod which results in low output powet The module coolant loop is designed for an operating pressure of 50 psi Chillers which deliver the required flow rate at
23. for a minimum of 30 minutes 5 Drain system completely 6 Refill system with cleanest water available preferably distilled demineralized or reverse osmosis 7 Circulate rinse water for 20 minutes 8 Drain system completely 9 Refill system with cleanest water available preferably distilled demineralized or reverse osmosis 10 Circulate second rinse water for 10 minutes 11 Drain system completely 12 Install new 5 micron filter into housing 13 Record cleaning date on sticker with a six month reminder to drain amp clean the system Affix sticker to chiller or cabinet 14 Refill chiller coolant reservoir with Purelase 180 coolant 15 Chiller ready to use 26 Chapter 6 Service The only user serviceable part in the RE Series module is the Nd Y AG rod which can be replaced by the user YAG rods rarely break frequent replacement may be a sign of another problem in the RE Series module Contact Cutting Edge Optronics if you have any further questions Rod Cleaning CAUTION carried out in a clean environment preferably under a laminar flow hood 1 Remove four fasteners releasing Macor shields 2 Using hemostats and lens tissue wetted with acetone or methanol wipe the rod face in a circular motion from the center of the rod to the edges 3 Inspect the rod for cleanliness 4 Reinstall Macor shields Ensure that the gap is minimal between Macor shield and laser rod The Macor shields protect the ret
24. hin the manual contact the manufacturer for complete instructions Failure to heed this warning may result in the destruction or serious damage to the device and will void the product warranty iii Table of Contents Fe SN meer li TADIC OF COD telis seeds pasa a IV SUN c M vi ACROSS a ee ean vii Chapter 1 Introduction pp 1 CO OL OP ton ee Roe ee ttre EN tut bred enn UAI ADM LESE AURI emp rer Tuone ot Laser Tolo teri e eo cct mme ean tert D DUE Stu Rut da nS eer eae RE ee Closed Loop Reireag Chillen ee Se Chapter 2 Sa 6 CO Precautions Tof Sale Operation of Class IV Teaser een Center for Devices and Radiological Health CDRH OEM Product eene Rey Go Radiation Control NG Dares Device ie Chapter 3 We 10 URpa 100 00 OU 10 10 ss 14 Chapter 4 Installation and Operation 19 RE Series Laser Module Assembly and Connections ee 19 Close Loop Water Chiller Assembly RE 21 Starine N Er S Dy SCS II nn a mnt me ten dr en Ga he ENOO 22 DPSS CAC OT MOINS od sue RS A An di tar dt be 22 Turning On Vie last Sy Stel cesar ee Re Re IE E en 22 Powetine the RE Seres Module is ne Inc ubuntu m M E E 23 Standby GOROLIIOPG uota NEN 23 24 Chapter 5 Maintenance pp 25 his HON jd E 25 a usting che Operatine C EPECBID a dose aut bier redde idis te rer ttre net dns DG te en nn 25 20 Chapter 6 Service pp 27 isa I
25. ing a flat HR and flat 70 reflective output coupler 3 At end of life Operating current x Diode voltage x 130 4 The Continuous Wave CW diode arrays are sensitive to excessive thermal cycling Current should not be turned off completely and then restored to full operating current more than 6 times per day Current should be gradually 1A s ramped up when operating current restoted See chapter 3 for mote details 5 CEO recommends Purelase 180 coolant 6 CEO modules are leak tested to 60 psi with Nitrogen gas CEO recommends 50 psi of chiller water fot actual operation Chapter 2 Laser Safety Please read this section carefully before installing or operating your RE Series module We recommend that all service and repair operations be performed by a NGST Cutting Edge Optronics service engineer If you do plan to service your laser module please follow the procedures in the Service section of this manual Caution amp Warning Statements WARNING The NGST Cutting Edge Optronics RE Series component when used as a laser oscillator is a Class IV High Power Laser whose beam is by definition a safety hazard Avoid eye or skin exposure to direct or scattered laser radiation Avoid direct viewing of the beam or its specular reflection When energized a large amount of high power invisible laser radiation is emitted from the laser module Follow instructions contained in this manual for proper installation and safe operation of your
26. lesser pressure do not provide adequate cooling The selected chiller must have a heat capacity of greater than the power consumption for the specific model of RE Series module CEO recommends different model of chiller depending on the number of diode bars in a module and the local electricity which will power the chiller The following table figure 5 gives the CEO recommendations 60 Hz Electrical Outlets EOL Waste Polyscience Chiller Model Current Heat Chiller No Capacity REXX 1C2 2304 W 6160T11CE30D 2900 W 6860T56CE70D 5200 W 50 Hz Electrical Outlets EOL Waste Polyscience Chiller DRAIN Current Heat Chiller No Capacity RIO 2304 W 6150T21CE30E 2407 W E 202 DCA206D1FF 5810 W Figure 5 CEO Recommended Chiller Table RE Series modules are tested to exceed the following specifications The standard production test configuration consists of a 280 5 mm cavity utilizing a flat high reflector and a flat 70 reflective output coupler RE63 RE70 827 1 262 102 1202 Output Power W 200 450 200 450 Rod Diameter mm 6 35 635 Diode Bias Voltage 27 70 72 144 72 144 A VAC Power Consumption W 2810 2810 5600 2810 5600 All RE Series Models Type CW Diode Pumped Nd YAG Rod Standard Dopant 0 6 1064 am Figure 6 RE Series Specifications Tables 1 Specifications subject to change without notice 2 Output power from the production test cavity 280 mm 5 mm cavity utiliz
27. mately 4 second delay the eDrive begins to drive the array 4 Slowly begin to adjust the current amplitude setting until the desired current level is achieved Rate f increase in current should not exceed 3A s For initial operation see final test report for current 5 Using an infra red viewer or phosphor card continue increasing the current checking for output at the laser threshold current indicated on the final test report 6 Continue increasing the current until the desired output is obtained or until the current reaches approximately 5 greater than the current used that last time an acceptable laser output was achieved For beginning of life operation see final test report for current 7 If you cannot achieve desired output within 5 contact CEO for assistance Standby Condition If you are finished using the module but want to use it again within the next hour it is best to go to standby To go to standby from a lasing condition press the EMISSION button on the eDrive Laser Controller In this condition the drive current to the laser diode shuts off but the closed loop chiller maintains the optimum diode temperature To resume lasing press the EMISSION button on the eDrive laser controller Again an audible warning will sound for approximately 4 seconds prior to firing the laser 23 Turning Off the System 1 Press the EMISSION button to turn off drive current 2 Close shutter if installed
28. nic Information Products SJ T11364 2006 for Measures for the Administration on Pollution Control of Electronic Information Products No 39 Order of the Ministry of Information Industry of the Peoples Republic of China NGST CEO includes the following information about our laser modules The translation document below is according to clause 6 2 of SJ T 11364 2006 s mu Er ii Northrop Grumman Cutting Edge Optronics A Ab BE 20 Pointe West Blvd St Charles MO 83301 USA ae ES Laser Modules RBxx xxx xxx xxxx or RBxx XXXxxxx Xxx xxxx RBAXxx xxx xxx xxxx or RBAXX Xxxxxx xxx XXxx RDxx XXXx XXXx Xxxx RExx xxx xxx XXXX RAR AREER HRUSEIHETE npepe zr SARE BAER H R E mmm En tHe Cr VI FRE _ PEDE mm mmm m nen mem o amp n DEO RUE ee CR merme mm mn m CES CRE US um ee S Uo Weak em UE ol PUR Sr SNS EM H mH8 m PS xm Y RTE CUT P HERE PERIERE HS HE SJ T 11363 2006 WERE Figure 22 ROHS Declaration Table 31 Northrop Grumman Space Technology Cutting Edge Optronics 20 Point West Boulevard Saint Charles MO 63301 USA 636 916 4900 phone 636 916 4994 fax 32
29. portant as long as the water passes through the filter before entering the RE Series laser module CAUTION Do not use de ionized DI water in the closed loop chiller based system If you must use DI water monitor the resistivity less than 1 0 MQ closely and avoid iron or aluminum parts in the coolant loop 3 Fill the chiller reservoir and filter housing manually with Purelase 180 coolant part number 460 Purelase180 Purelase 180 is made from DI water with additives to control the PH By using Purelase 180 scale will not form in the cooling loop Purelase 180 contains biocide to prevent algae growth and corrosion inhibitors to protect yellow metals and aluminum CAUTION Do not allow chiller to fill the filter housing as air can become trapped within the system 4 Turn ON the chiller 5 Make sure no air remains trapped in the lines resulting in a positive back pressure when chiller is turned off Positive back pressure can hold the flow switch closed even though flow is not being supplied to the laser module Air is trapped in the lines if water level drops when chiller is turned on and then rises when turned off Failure to heed this warning may result in the destruction or serious damage to the device and will void the product warranty 6 Verify the pressure gauge located on the front panel of the chiller reads approximately 50 psi If it does not adjust the bypass valve on the rear of the chiller Minimum water
30. re the single most expensive component of a RE Series module so customer should be careful to connect diode drive current correctly In order to provide the RE Series modules with some protection against reverse biasing all RE Series modules are equipped with a reverse protection diode This is another diode usually located in the module which forms a circuit across the laser diode arrays in the opposite flow direction Figure 14 In the event of the laser diode drive current being reversed the reverse bias protection diode will act like a short circuit allowing the electricity to flow for a brief time with no resistance However the reverse bias protection diode is not able to withstand the high currents that laser diodes require The protection diode will burn out after a brief time and the drive current will be sent through the laser diodes in reverse f nn VL ww NS AN E M M nw hu N e N Me N a on M N gt gt CJ C gt Pas ni ut bu Pa Ps a a T EF i Ps P d d a a s d T d Pd P d T ad Pd a Reverse Protection Diode Terminals Figure 14 Reverse Bias Protection Diode Circuit 13 Closed Loop Chiller NGST CEO drive electronics are designed to detect the shorted reverse protection diode and suspend drive current before damaging the laser diodes Customers who use third party manufactured drive electronics must configure them for use with NGST CEOs revers
31. repeatedly applying and removing drive current Diodes should not be cycled on off more than 6 times a day When initially applying power to the module the current should be gradually increased 3 A s until the normal operating current is achieved see final test report for initial recommended operating current This ramping process reduces thermal shock and helps prolong diode lifetime If the RE module is going to be installed in a system where quick transitions between lasing and non lasing are repeatedly required then drive current to the diodes should be maintained at 3 below normal operating current when the system is not lasing This simmer current will keep the diodes at close to the operating lasing temperature and thereby reduce thermal shock 12 The diode arrays within the RE Series module are aligned and sealed at the factoty Other than the laser rod there are no user setviceable parts within the module Contact a NGST CEO field service engineer for repairs Before lasing the operator should verify that rod faces are clean If necessaty the rod faces can be cleaned by using lens tissue wetted with acetone ot methanol to wipe the rod face Reverse Bias Protection Diodes are polarized with respect to electrical flow forward biased diode readily conducts while a reverse biased diode blocks conduction If sufficient voltage is applied in the reverse direction the diode is permanently damaged Laser diodes a
32. ser componant does not include all of tha safety faaturas as required by CDRH It ls sold solely to qualified manufacturers Beryllium Oxide BeO Alert who in their end product will supply all interlocks indicators and This product contains BaO insulators BeO dust can have INVISIBLE LASER RADIATION IS EMITTED FROM THIS APERTURE Service by qualified Warranty Void personnel only PARTS WITHIN 5 898 211 5 985 684 813 108 HIGH VOLTAGE Lm Patents Pending will comply fully with the provisions 21 CFR subchapter JL toxic effects when inhaled Do not disassemble this unit without appropriate training and precautions Figure 9 Warning Labels Key to Radiation Control Drawing Description Identification Label w OEM Component Warranty Void Label No Serviceable Parts Label Patent Number Label BeO Beryllium Oxide Alert Safety Device Checklist 1 Verify that all labels are securely affixed 2 Verify that the safety interlock system 1s working properly 3 Locate the module so that operation of laser and or adjustment of control electronics do not require exposure to laser radiation Chapter 3 Operation Unpacking your Module Your NGST Cutting Edge Optronics Model RE Series module was carefully packed for shipment If the carton appears to have been damaged in transit have the shipper s agent present when you unpack CAUTION The module is susceptible to damage due to electro static discharge ESD
33. structure Exterior components and connections are shown in Figure 1 Coolant Port Electrical Contact Hour Counter Figure 1 Exterior Components and Connections Temperature Tuning of Laser Diodes The laser diodes are located within the RE Series module and tuned wavelength matched via the closed loop chiller For maximum efficiency the diode output wavelength must match the laser medium absorption characteristics see Figure 2 The output spectrum of a conventional pump source for Nd Y AG operation the xenon arc lamp and 808 nm diode array is also shown Laser Diode Pump Wavelength 0 808 nm Xenon flash tube 1700 A cm EP WU LU M Absorption spectrum 04 05 06 07 of Nd YAG 300 K Wavelength um Figure 2 Nd YAG Absorption Characteristics A single GaAlAs laser diode bar has a 2 nm FWHM distribution of output wavelengths However the process used in the manufacture of GaAlAs laser diodes results in a peak output wavelength for each diode that fits within a 10 nm distribution of wavelengths from 800 810 nm To match the diode output to an absorption peak of the laser medium diodes are selected with similar peak output wavelengths within the manufacturing range Temperature tuning is possible because GaAlAs diode characteristics are such that 0 25 nm of wavelength shift occurs for every 1 C change in temperature of the diode junction Cooling shortens the wavelength and heating lengthens it Figure
34. ted strain ot possibly damage the rod Tighten the retainer nuts approximately a quartet turn past finger tight 18 Reinstall Macor shields Ensure that the gap is minimal between Macor shield and laser rod The Macor shields protect the retainer nut and O rings from stray laser radiation 19 Inspect both rod ends for cleanliness Due to the abrasive nature of threading two metal parts together metallic dust particles may have found there way onto the rod ends If necessary clean the ends of the rod with a puff of dry nitrogen of moisture free canned air 20 Leak test according to the following procedure Alternately turn on the chiller and allow coolant to flow for approximately 20 minutes Examine pump module for leaks 21 If pumphead leaked first fix the leak then test again for leaks finally allow module to dty thoroughly before lasing Firing wet diodes will permanently damage them Laser diodes are vety sensitive to water damage If you have access to pressurized nitrogen and a pressure gage you can test for leaks without exposing the diodes to watet Test Article Water Ports Pressure Nitrogen Regulator Source Gauge Figure 21 Nitrogen Leak Test Layout 1 Attach a nitrogen source to one of the water ports on the module being tested test article and attach the termination valve to the other water port on the test article 2 Close the termination valve 3 Open the inlet valve and adj
35. test report delivered with the system During its early lifetime the laser diodes will deliver this specified power at ot below 25 of current Due to the high average powers of the diode bars used in your NGST Cutting Edge Optronics laser module it is reasonable to expect the diode array to gradually degrade with use Determining when the current limit requires adjustment Make sure the temperature 1s at the correct set point If the temperature is incorrect low output power can result leading to unnecessary current increases Check to make sure the rod faces are clean If the rod faces are dirty low output powet will result leading to unnecessary current increases Check to make sure the coolant and filter are clean If the coolant is dirty deposits accumulate on the Nd Y AG rod which prevents absorption of diode light This results in low output powet leading to unnecessary current increases If the temperature is correct and the rod faces and coolant are clean yet the output power 1s still low the operating current may need to be slightly raised Contact your NGST Cutting Edge Optronics field service engineer if you have any doubts CAUTION Raising the current limit before it becomes necessary can severely shorten diode lifetime Adjusting the Temperature Set Point for the Re circulating Water Chiller The temperature set point for the water chiller was determined at NGST CEO and indicated on the Final Test Report Normally th
36. u have any questions Turning On The Laser System _ 1 Switch the Closed Loop Chiller to the ON position Verify water flow from chiller 2 Verify coolant temperature and flow rate are correct 3 Turn power switch on external power supply to ON position 4 Turn the AC power switch on rear of the eDrive to the ON position 5 Turn the Key switch to the ON position 6 Before applying current to diodes shut off chiller to verify that the Coolant Fault interlock comes on 7 Restart the chiller Press clear and verify the error display is no longer present 22 WARNING The output beam and fluorescence of the RE Series module is a safety hazard Avoid direct viewing of the beam or its specular reflection Powering the RE Series Module 1 Form main menu select Channel Setup P Channel 1 gt Set Current Limit Use the selection knob to set your maximum current amplitude to a value considered safe for the intended module The eDrive will not allow the current amplitude to be set higher than the limit RE Series modules should never be run with more than 32 Amps however to prevent premature diode degradation you may wish to set this limit at the beginning of module life to 5 Amps greater than the recommended operating current 2 From the main menu select Channel Setup gt Channel 1 gt Set Current Use the selector knob to select a low current level of approximately 10A 3 Press EMISSION After a few warning beeps approxi
37. ugh it for 20 minutes prior to packaging for shipment Place a shorting connector across the electrical connector Place module in a sealed bag inside shipping container Place some form of desiccant in bag with module Special NGST Cutting Edge Optronics packing boxes designed to securely hold instruments during shipment should be used If shipping boxes have been lost or destroyed we recommend that you obtain a new one for a nominal charge from NGST CEO WARNING Residual water damage due to condensation or expansion when tightly sealed can catastrophically damage the diode arrays or laser rod Such damage is excluded from warranty coverage Warranty NGST CEO sends the applicable warranty to the prospective purchaser with each quote Contact NGST CEO Sales and Marketing personnel for additional copies of to answer any warranty questions Disposal In accordance with WEEE Directive 2002 96 EC of the European Parliament and of the Council of 27 January 2003 on waste electrical and electronic equipment Cutting Edge Optronics accepts the return of our products for disposal Please package the products as directed for a return for repair Contact NGST CEO or your local distributor for shipping instructions and indicate inform them of a return for disposal Forward the instrument prepaid to the destination indicated ROC ROHS Declaration In accordance with the Clause 6 2 of Marking for Control of Pollution Caused by Electro
38. um Aluminum Garnet Northrop Grumman Space Technology Near Infrared Occupational Safety and Health Administration Pulse Repetition Frequency Pounds per Square Inch Second Harmonic Generator Transistor Transistor Logic Volts Alternating Current Chapter 1 Introduction The RE Series module was designed for use as a building block engine in the development or production of medium power rod laser systems or as a drop in replacement for arc lamp pump chambers in industrial lasers It is well suited for medium power applications such as laser marking and can provide high stability and beam quality for mote precise micro machining and scientific applications Theory of Operation Northrop Grumman Space Technology Cutting Edge Optronics NGST CEO diode pumped solid state lasers and pump modules use temperature tuned GaAlAs laser diodes These diodes replace arc lamps or incandescent light sources as the optical pump source The principal advantages of this approach include Longer lifetime More compact size More efficient operation The RE Series module uses arrays of solid state laser diodes to optically pump a neodymium doped yttrium aluminum garnet Nd YAG lasing medium The diode optical output power is radially coupled into the laser rod The Nd YAG laser rod has an anti reflection coating chosen for the highest gain wavelength of this material 1064 nm The RE Series module is constructed within a durable and rigid
39. ust the regulator to obtain 80 psi on the pressure gauge 4 Close the inlet valve Wait 5 Return after 30 minutes and record pressure on the gauge Subtract this pressure from starting pressure of 80 psi to get the pressure drop over 30 minutes 6 Pass Fail requirements if the pressure drop is greater than 3 psi FAIL if the pressure drop is less than 3 psi PASS 29 Chapter 7 Return for Repair At NGST Cutting Edge Optronics we are proud of the durability of our products Our manufacturing and quality control processes emphasize consistency ruggedness and high performance nevertheless even the finest instruments break down occasionally We believe that the reliability record of our instruments compates favorably with that of our competition and we hope to demonstrate that we provide superior service by providing dependable instruments and if the need arises service facilities that can restore your instrument to peak performance without delay When calling for service inside the United States dial 636 916 4900 To phone for service in other countries contact your sales agent Return of the Instrument for Repair Contact NGST Cutting Edge Optronics or your local distributor for shipping instructions and forward the instrument prepaid to the destination indicated WARNING Failure to obtain proper shipping instructions may result in damage to the instrument Remove all water from module by blowing dry air thro

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