PowerMax-USB/RS Sensors
Contents
1. Features e Water cooled T e Spectrally flat from 0 19 um to 11 ym e Noise equivalent 0 2 mW to 1 mW Power e 19 mm and 50 mm apertures amp Energy Meters These compact sensors are ideal in tight spaces but must be water cooled in order to achieve their full power specification during continuous operation They can also be mounted to a heat sink or used standalone for Power f ee Sensors intermittent use without water cooling Tap or distilled cooling water is recommended at a flow rate of 0 2 gallons per minute with these sensors DI water can not be used These sensors are also very useful for air cooled energy measurement of long pulse gt 1 ms lasers using the long pulsed Energy Joules mode See page 31 for RS model power supply accessory Water li Models PM10 19C PM150 19C PM150 50C fittings are included Device Model PM10 19C PM150 19C PM150 50C pean Specifications Wavelength Range um 0 19 ton Power Range water cooled 10 MW to 10W 300 mW to 150W 300 mW to 150W Max Intermittent Power W lt 5 min 5 air cooled 20 air cooled 80 air cooled BEAM Long Pulse Joules J 0 5 to 10 1 tO 150 1 tO 150 DIAGNOSTICS Noise Equivalent Power mW 0 2 1 1 Maxi2. active temperature compensation circuitry and enhanced thermal management techniques Maximum average power is wavelength POWER dependent because absorption changes with wavelength Reference the spectral absorption chart on the previous page for use at SOE wavelengths other than those listed in the table below Maximum average power is inversely proportional to the spectral absorption The 25 mm and 50 mm aperture sensors can accept optional heat sinks that users can install by mounting them on the back Power oT amp Energy of the sensor The heat sinks expand the average power handling capability as outlined below See the Accessories section on Meters page 64 for more information about heat sinks EnergyMax Heat Sink Bee Average Power Model Wavelength nm None Small Medium Large Capabilities J SOMB HE amp LE 1064 10W 24W J 25MB HE amp LE 1064 SW 10W 15W Ener J 10MB HE4 amp LE4 1064 AW 7 e J SOMT 10KHZ 1064 20W 49W J 25MT 10KHZ 1064 10W 20W 31W J 10MT 10KHZ4 1064 1W J SOMB YAG 1064 20W 48W FREH J SOMB IR 1064 2940 15W J 25MB IR3 1064 20W 41W 62W J SOMUV 248 w o Diffuser 248 10W 25W J 5OMUV 248 w Diffuser 248 15W 36W PAAA J SOMUV 193 w o Diffuser 193 10W 30W
3. 10 MW to 30W Features e UV coating is optimized for DUV T e Spectral range 0 15 um to 1 ym e 1 MW to 10 mW resolution Power e 19 mm apertures amp Energy Meters The following sensors are similar to models shown on previous pages except they incorporate a UV coating that is optimized for use at ultraviolet sa wavelengths Spectral compensation allows the sensors to be used from aiak 157 nM to 1064 NM Energy Sensors Model PM2X PM10X PM30X Custom amp OEM Device Model PM2X PM10X PM30X Specifications Wavelength Range um 0 15 to 1 Power Range 10 MW to 2W 10 MW to 10W 100 MW to 30W EA Long Pulse Joules Range J 0 5 to 2 O58 1010 0 5 to 50 Max Intermittent Power lt 5 min W 3 30 50 Resolution mW 1 1 10 Max Power Density 26 kW cm2 PE R Max Energy Density 0 6 J cm 1064 Nnm 10 ns Response Time sec 2 Detector Coating UV Laser Cross Active Area Diameter mm 19 pee Dimensions mm AOxX51 X10 D63 x 36 D101 x 56 Index 1 86 X20 X03 2 4 x 1 4 in 3 9 x 2 2 in Calibration Uncertainty 1 Calibration Wavelength nm 514 apne Cooling Method Air cooled nels Cable Type PM DB 25 Cable Length m 2 Part Number 1098457 1098423 1098498 PM2X PM10x PM30x 10 mm Soin a i ae in Seas O19 mm 19 mm 2 20 in erin fes 0 75 in Oran aa Adjustable 151 221 mm Adjustable 6 42 9 17 in Adjustable 201 271 mm 7 91 10 67 in foe Toll Free 800 343
4. t L 1 Note Detector Su face s 16 mm 0 63 n below front face of aperture plate 178 mm 70in Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 27 w NL A COHERENT PowerMax USB RS Sensors 5 mW to 30W Features POWER Ri ENERGY e Convective air cooled e Spectrally flat from 0 19 um to 11 ym e Noise equivalent power down to 0 2 mW Power amp Energy e 19 mm aperture Meters Power These thermopile sensors are used to measure CW and pulsed lasers from Sensors es 5 mW up to 30W average power output These sensors are able to dissipate heat via convection cooling which makes them convenient to use Energy Sensors Models PM2 PM10 PM30 nee Device Model PM2 PM10 PM30 Specifications Wavelength Range um 0 19 ton Power Range 5 mW to 2W 5 mW to 10W 10 mW to 30W Long Pulse Joules Range J 0 5 to 2 0 5 to10 0 5 to 50 E Max Intermittent Power lt 5 min W 5 30 50 Noise Equivalent Power mW 0 2 0 2 0 5 Maximum Power Density kW cm2 6 Maximum Energy Density mJ cm2 600 10 ns 1064 nm iah Response Time sec 0 to 95 Speed up On 1 9 1 8 23 Speed up Off 3 4 3 4 3 6 fare Detector Coating Broadband Cross Detector Element Thermopile Reference Index Optic None Detector Diameter mm 19 Calibration Uncertainty 2 Model 5 Nome Power Linearity 1 Inde
5. 54 mm 100 mW eee or 2 125 in S aads oem 1 mW 5 28 7 mm 0 31 in Note Light Shield 1 13 in on a __ is removable o 100 pwy a Nae Power t 5 0 IR 6 35 mm ee Min Power cue 0 20 in 0 25 in 1 Ww na a ees inw O o 400 500 600 700 800 900 1000 1100 Threads Per Inch Wavelength nm Superior Reliability amp Performance www Coherent com LMC sales coherent com A COHERENT 100 UW to 2W Features e Thermally stabilized designs T e Spectrally flat from 0 3 um to 11 um e 10 UW resolution Pow e Fiber optic connectors optional see page 51 amp Energy eters The PS10 and PS19 model sensors are thermally stabilized amplified thermopile power sensors with a broad spectral response high sensitivity and a large active area These sensors are ideal for measuring laser diodes HeNe and HeCd lasers and small ion lasers The PS10 model includes a light tube mounted to the front of the housing which minimizes the effects of Power Sensors background radiation The light tube can be removed and replaced by FC or Energy SMA fiber connectors see Accessories page 51 Where optimum stability is ae Models PS19Q P
6. Custom alarm an audio alarm stop data capture reject save a failed amp OEM sample and generation of a TTL trigger pulse output signal EE Ta ie hed A eae eden cakoi mium bec aie of Di Paci a are BEAM DIAGNOSTICS Gat iri T Sing a Peers Ek panel Cog F bap ira CALIBRATION F Sigma Width er amp SERVICE Foul TL ule ETET fc a ee Laser Polar beam wander plot screen araa x Fault Actions cross haiio Dialog Box Cae PP Pama PaT al cheering Remote Control F IR The BeamView Analyzer provides remote control and Hi pi po m data transfer through the host computer s RS 232 and wo pa feo mei T TCP IP with BeamView USB A complete control and data a Index transfer command set is provided to allow users to develop 2 ee G their own remote control application for interfacing with tt Se the BeamView Analyzer software platform The BeamView Calculations Pass Fail test settings USB software package includes a full suite of LabVIEW libraries for remote access to most BeamView features at a host computer running LabVIEW Beam Analysis and Statistics BeamView Analyzer software calculations are compatible with the International Standards Organization ISO guidelines for laser beam measurement e Peak and centroid beam position e Aperture fit and uniformity e Beam ellipticity including angular position and e Total relative power major minor axis information Peak power energy density e Circularity
7. 5 oceans Power Linearity 1 Index Spectral Compensation Accuracy 41 5 Calibration Wavelength nm 10 600 Cooling Method Water apne Cable Type USB and RS Index Cable Length m 2 5 USB 0 3 RS Part Number 1174266 USB 1174268 USB 1174267 RS 1 The damage resistance of the coating is dependent upon the beam size and profile the average power level and the water flow rate Contact Coherent or your local representative for details related to your application 2 Software and water fittings included for both models and post stand included with LM 1000 PM1K 36C LM 1000 USB RS USB 22mm gt Lg 0 86 in 96 mm gamm yk Ean 4X 4 mm 379 n 7mm 7 12mm hl o28in 047 in pen 028 n j Le amp ma e PB He 5VDC 375 n mm 270 n P T ae ar ty E 83 mm 83 mm 5 3 25 in Or 3 25in il Spm o o 4 o o 4 Anm jo i 19 mm 36 mm 936 mm 0 75 in gl m orem 142 n 1 42 in Adjustab e 134 mm to 430 mm 5 27 in to 17 Oin fi asane r 19 mm m 19mm 075in 075in 13 acon m 13mm 58 n 83 mm n 0 53 in se 83 mm 3 25 in 3 25 in D gL D 5 ma
8. Energy Sensors Model PM1K Custom amp OEM Device Specifications BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 44 Features e Water cooled e Spectrally flat from 0 19 um to 11 ym e 1W resolution e 50 mm apertures These water cooled sensors are used to measure lasers over 300W average power output They are excellent choices for measuring CO2 and Nd YAG lasers Larger area versions are available on the next page Tap or distilled cooling water is recommended with these sensors DI water can not be used Flow rates are power dependent and range from 0 5 to 4 gallons per minute pressure depends upon flow rate and ranges from 3 to 40 PSI visit product pages at www Coherent com LMC for more technical details Water fittings are included Model PM1K PM3K PMsK Wavelength Range um 0 19 to 11 Power Range W 100 to 1000 100 to 3000 100 to 5000 Max Intermittent Power lt 5 min W 3000 5000 10000 Resolution W 1 Max Power Density 1 to 10 kW cm 2 Max Energy Density 0 6 J cm2 1064 nm 10 Ns Response Time sec 30 Detector Coating Broadband Active Area Diameter mm 50 Dimensions mm D120 X59 47X23 in Calibration Uncertainty 5 Calibration Wavelength nm 1064 Cooling Method Water cooled Cable Type PM DB 25 Cable Length m 2 Part Number 1098392 1098462 1098454 1 Intermittent
9. Temperature Coefficient C See the chart below to reference the thermal coefficient Wavelength nm at the wavelength of use Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 25 A COHERENT PowerMax USB RS Sensors 10 MW to 25W Features POWER e Ri ENERGY e Thermopile detector element for high ob power measurements St E e e i e Measures beam position on detector surface i REDAT e Noise equivalent power down to 0 4 mW Quad nee Positioning e Large 16 and 19 mm apertures Enabled Thermopile sensors are a great all purpose technology suitable for many Power lasers They are used for measuring CW laser power average power in Sensors pulsed lasers and are often used to integrate the energy of long pulses Thermopiles operate across a wide range of input powers and unlike a photodiode based sensor they will not saturate These unique thermopiles Energy incorporate a quadrant thermopile detector disk that enables them sles to sense the position of the laser beam on the detector surface while Models LM 45 LM 10 LM 3 measuring the laser power Fiber opt
10. e User variable trigger delay eerca Ip linGake e C mount thread for additional accessories Device Model LaserCam HR InGaAs Specifications Sensor Elements pixels 590 256 Pixel Size um 30 X 30 Sensor Active Area mm H x V 9 6 X 7 7 Spectral Range nm 900 to 1700 Beam Diameters mm 0 5 to 6 0 Glassless Sensor Low Distortion Face Plate is removable Low Distortion Face Plate LDFP Laser grade ND filter OD 2 5 at 632 8 nm Electrical Interface USB 2 0 Capture Modes Continuous CW pulsed Variable Exposure Time 20 usec to 25 msec default at 1 msec Pulsed Mode Trigger Methods Trigger In TTL Maximum Frame Rate FPS 25 live video no calculations 15 capture with calculations Saturation CW at 1064 nm 3 5 MW cm2 with LDFP 50 uW cm2 without LDFP CW at 1523 nm 350 W cm with LDFP 30 UW cm2 without LDFP Pulse at 1064 nm 5 uJ cm2 with LDFP 0 08 uJ cm2 without LDFP USB 2 0 Cable 6 ft standard A B cable included Trigger Connector BNC receptacle trigger cable included Part Number 1149002 M6 THD LaserCam HR InGaAs ____683 mm 2 69 in 64 3 mm 2 53 in 59 9 mm 2 36 in 50 0 mm 500mm LDFP Adapter 1 97 in 1 97 in 500mm 1 97 in Image Plane N QP comment 20 3 mm aa 0 80 in 21 5 mm 0 85 in Protective Cap 2X 46 2mm 1 82 in I 1 4 20 UNC 2B THD 2X 250mm 0 98 in Toll Fre
11. A COHERENT Laser Power Meter Features e Hand held laser power meter e Wavelength range 400 to 1064 nm e User selectable spectral compensation e Auto ranging with peak sample and hold POWER amp ENERGY Power amp Energy Meters Power Sensors Device Model LaserCheck Specifications Active Area Diameter mm 8 Spectral Range nm 400 to 1064 Ener Accuracy D sensei Measurement Range without Attenuator 10 UW to10 mW with Attenuator 1mW to 1W Display Power Ranges 9 99 UW to 999 MW pean Minimum Power Resolution uW 0 01 Maximum Peak Power Density without Attenuator 0 5 W cm2 with Attenuator 30 W cm2 BEAM Display 3 digit LCD display with power unit indicator eet ose Compliance CE WEEE ROHS Dimensions H x W x D 168 x 24 x 20 mm 6 6 x 0 9 x 0 7 in Weight 44 g 0 09 Ibs CALIBRATION Part Number ROHS 1098293 SERVICE 1 Power range is wavelength dependent See charts below Ensure peak power density does not exceed limits to avoid localized diode saturation Laser C LaserCheck WAVELENGTH SELECT WAVELENGTH SELECT Serene INCREMENT BUTTON DECREMENT BUTTON Index Model Name Index DETECTOR 3 Dicit LCD WITH POWER WAVELENGTH UNITS INDICATOR DISPLAY SELECT SWITCH ATTENUATOR POSITION SAMPLE HOLD OVER RANGE CONTROL SLIDE BUTTON TONE INDICATOR Measurable Power vs Wavelength Measurable Power v
12. Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 52 A COHERENT EnergyMax Laser Energy Sensors Introduction and Selection Charts Features e Superior damage resistance e High repetition rate operation e Large dynamic range gives each sensor broad coverage e Low noise and excellent linearity for greater accuracy e Large active area EnergyMax Sensors Coherent EnergyMax sensors enable laser pulse energy measurement over a broad range of wavelengths repetition rates pulse energies and beam diameters With their unique combination of superior performance and user friendly convenience EnergyMax sensors are your best choice no matter what your particular laser energy measurement need EnergyMax sensors are highly linear in terms of repetition rate laser pulse width and measured energy They are also accurate across a broad range of wavelengths due to onboard wavelength compensation In addition automatic temperature compensation accounts for Fundamental Principles Unlike all other thermal detectors pyroelectrics measure the rate of change of the detector temperature rather than the temperature value itself As a result the response speed of the pyroelectric is usually limited by its electrical circuit design and the thermal resistance of the absorptive coating In contrast other thermal detectors such as thermopiles and bolometers
13. Features e Si Ge photodiodes e Spectral range 250 nm to 1800 nm e Fiber optic connector optional see page 51 e 1000 1 attenuator for measurement to 5W optional see page 50 These high sensitivity semiconductor sensors are ideal for CW laser measurements in the nW to low mW level They typically saturate in the 10 to 50 mW level depending upon the model For linear operation up to a maximum of 5 Watts an optional 1000 1 attenuator is used Light shield is removable Accessories 1000 1 Attenuator k Fiber Optic Connector Adapters Device Model OP 2 LM 2 UV OP 2 LM 2 VIS OP 2 LM 2 IR Specifications Detector Material Silicon Germanium Wavelength Range um 0 25 tO 0 4 0 4 to 1 06 0 8 to 1 80 0 8 to 1 5 Power Range 10 NW to 30 mW 10 NW to 30 mW 10 NW to 10 mW Resolution nW 1 Active Area Diameter mm 6 7 9 5 Dimensions mm 29 x 54 1 1 Xx 2 1 in Calibration Uncertainty 8 5 4 5 Calibration Wavelength nm Monochromator calibration across wavelength range Cooling Method Air cooled Connector Type OP DB 25 LM DB 25 Cable Length m 1 8 Part Number OP 2 1098401 1098313 1098416 LM 2 1098390 1098298 1098342 1 OP 2 IR and LM 2 IR have different spectral ranges 2 Power range is wavelength dependent See chart below OP 2 UV OP 2 VIS OP 2 IR LM 2 UV LM 2 VIS LM 2 IR Measurable Power vs Wavelength OP 2 VIS and LM 2 VIS
14. Mas VV Coherent has two main types of thermopile sensors The LM Model line utilizes a unique thermopile disk in which the thermocouples are split into four quadrants allowing the sensors to provide beam position information in addition to power measurement The PM Model line incorporates traditional thermopile disks that provide power measurement without beam position information Both types of sensors can be used with the PowerMax USB and PowerMax RS sensors Quad Positioning Enabled Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 21 A COHERENT PowerMax USB RS Sensors Applying Wavelength Compensation Accuracy Overall measurement accuracy is a combination of calibration uncertainty found in the sensor specification tables and the POWER wavelength compensation accuracy found in the Wavelength Compensation Accuracy table below amp ENERGY The combined accuracy is based upon practices outlined in the National Institute of Standards Guidelines for Evaluating and Expressing Uncertainty NIST Technical Note 1297 1994 Edition The combined accuracy of the measurement is calculated by pons using the law of propagation of uncertainty using the root sum of square square root of the sum of squares sometimes ied described as summing in quadrature where Measurement Accuracy 4 U W Power Sensors where U Percent Calibration Uncertainty and W Wavelength
15. 514 532 561 568 FieldMaxll TO PS10 Sapphire 488 HP 488 FieldMaxlI TO PM10 Verdi G2 G5 G7 G8 532 FieldMaxll TO PM10 Verdi V2 V6 V8 532 FieldMaxll TO PM10 Verdi V10 V12 V18 532 FieldMaxll TO PM30 Verdi IR 1064 FieldMaxll TO PM30 Laser Wavelength nm Power Meter Power Sensor Energy Meter Energy Sensor AVIA lt 10W 266 355 FieldMaxll TO PM10X AVIA 10W to 30W 355 532 FieldMaxll TO PM30X AVIA gt 30W 532 FieldMaxll TO PM150 Indigo DUV 193 FieldMaxll TO PS10 LabMax TOP J 10MT 10KHZ Indigo S 193 to 900 FieldMaxll TO PS10 LabMax TOP J 10MT 10KHZ MATRIX 532 1064 532 1064 FieldMaxll TO PM10 MATRIX 355 355 FieldMaxll TO PM10X PRISMA lt 10W 532 1064 FieldMaxll TO PM10 PRISMA gt 10W 532 1064 FieldMaxll TO PM30 Talisker 355 532 1064 FieldMaxl TO PM30 Other Coherent measurement product configurations may be compatible with these lasers Coherent Family Plan pricing may apply see page 103 Contact factory for more details 1 For these lasers the PS10 can be selected for users who are looking for either higher resolution or low power measurements 2 Available in OEM or end user versions Superior Reliability amp Performance www Coherent com LMC sales coherent com A COHERENT Measurement Products for Use with Cc Matrix of Recommendations lon Lasers Laser Wavelength nm Power Meter Power Sensor
16. A COHERENT 2010 2011 Catalog Superior Reliability amp Performance A COHERENT e onerent Ove ola g g Operational Experience You Can Count On For over 40 years Coherent has been supplying you with the best laser measurement and beam diagnostic equipment available We realize that while technical specifications greatly influence your purchasing decisions you also must consider many other important criteria Y In a recent customer survey we found eo that Product Reliability Speed of Na Responsiveness and Technical U Support are the three top criteria when choosing a laser test and measurement supplier That s why we place as much emphasis on Operational Excellence as we do on y technical superiority Operational Excellence means P e Overall product warranty rate lt 1 e Calibration turnaround time lt 5 days Sy e On time delivery for all new orders gt 95 e Shipment of C24 orders within 24 hours For Product Reliability Soeed of Responsiveness and Technical Support make the safe choice you can always count on Coherent The Coherent Laser Measurement Newsletter A a Z Operational Excellence See U 5 e O lt 2 os Technical suppo To keep informed about our latest laser measurement and beam diagnostics product releases product upgrades and special promotions please sign up for our electronic newsletter at www Coherent com LMC We Want You to Know What
17. Adjustable contrast and viewing angle Measurement Analysis Min max mean range std dev dose stability trending tuning beam position Computer Interface GPIB USB and RS 232 USB and RS 232 Pulse Triggering Internal and external selectable Analog Output VDC o to 1 2 or 4 VDC selectable Analog Output Update Rate Up to 1000 Hz for pyroelectric 10 Hz for 10 Hz thermopile and optical Temperature Operating Range Storage Range 5 to 40 C 41 to 104 F 20 to 70 C 68 to 158 F Instrument Power 90 to 260 VAC 50 60 Hz Instrument Batteries 4400 MAH Rechargeable Li ion Pack Compliance CE ROHS WEEE Dimensions H x W x D 152 X 229 X53 mm 6 0 X 9 0 x 2 1in Weight 1 25 kg 2 8 Ibs Front Panel PWR Turn meter on and off ZERO Reset ambient offset for thermal and optical sensors MEASURE Main measure mode including statistics TUNE View tuning features TREND Display measured values over a period of time and log data to file SETUP Setup meter parameters HELP Onboard context sensitive help available from any screen BACKLIGHT Toggle backlight on and off KNOB Turn knob to change settings press the knob to save settings Left Side Panel USB flash drive port USB PC interface port RS 232 PC interface port DB25 sensor port Power jack Rear Panel Analog output External trigger input E GPIB PC interface port Pa
18. C to 40 C 14 F to 104 F Index Relative Humidity Non condensing and lt 80 Shock g lt 4 Power Supply included Universal go to 250 VAC 40 to 72 Hz in 12 VDC out Part Number 33 2650 000 WaveMaster Sampling Probe Wide Acceptance lL o 000000 Q COHERENT Narrow Acceptance 352 mm 5 mm 13 86 in 0 19 in 0 535 40 M6 Thread 12 VDC In RS 232 259 mm 11 06 in 94 Superior Reliability amp Performance www Coherent com LMC sales coherent com WaveMaster Laser Wavelength Meter The WaveMaster measures the wavelength of both CW and pulsed lasers of any repetition rate The wavelength can be displayed in GHz wave numbers or nanometers with vacuum and air readings available The WaveMaster will read the peak wavelength of sources as wide as 2 nm from 380 nm to 1095 nm Bandwidths wider than 2 nm can be accommodated at the longer wavelengths The WaveMaster is easy to use Just turn on the readout and get the beam within 10 degrees of normal incidence to the sampling probe The probe has a 2 meter fiberoptic cable and takes up a minimum of beam path space Most intensity variances are automatically accommodated but for the strongest and weakest signals a front panel attenuator adjustment and intensity readout quickly produce accurate readings No special triggering modes or setups are required for pulse capture User Friendly The WaveMaster is easy to read with front panel adjustments
19. J SOMUV 1937 w Diffuser 193 18W 43W J 25MUV 248 248 SW 10W 16W CALIBRATION J 25MUV 193 193 SW 10W 15W Ayashi 1 Not applicable for Quantum EnergyMax sensors 2 50 mm EnergyMax sensors are compatible with the large heat sink 3 25 mm EnergyMax sensors are compatible with small and medium heat sinks 4 10 mm EnergyMax sensors do not have a heat sink available Laser 5 Average power ratings are based upon testing at the listed wavelength Cross Reference Index Use the following chart to identify sensors that operate within the energy range you intend to measure Selection charts on the following pages of this guide will help you select more exactly the best sensor for your application See page 63 for typical dynamic range curves of Quantum EnergyMax Sensors Maaa Name WIDE DYNAMIC RANGE FOR ALL ENERGYMAX SENSOR CATEGORIES index EnergyMax Model Energy Range 100n 1J 10pJ 100p m 10mJ 100m WV 10J Energy Range J 50MB HE 1mJ to 2J Capabilities CI J 50MB LE 250 uJ to 500 mJ MARAN MANN Maa J 25MB HE 500 pJ to Set J 25MB LE 25 uJ to 50 mJ m J 10MB HE 10 pJ to 20 mJ am J 10MB LE 300 nJ to 600 pJ anil J 50Ml 10KHZ 500 pJ to1J il J 25MT 10KHZ 50 pJ to 100 mJ J 10MT 10KHZ 100 nJ to 200 UJ E J 50MB YAG 1 5 mJ to 3J i AAN J 50MB IR imJ to 3J i AN J 25MB IR 1 5 mJ to 3J See J SOMUV 248 500 yJ toi me J SOMUV 193 125 uJ to 250 mJ manumanu J 25MUV 248 125 uJ to 250 mJ aaa armen J 25MUV 193 50
20. OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 14 A COHERENT FieldMaxlil Meters Laser Power and Energy Meters Device Specifications Model FieldMaxll TOP FieldMaxll TO FieldMaxll P Function Power and energy Power Energy Measurement Resolution 0 1 of full scale Measurement Range Sensor dependent reference sensor specifications Accuracy Digital Meter 1 0 2LSD System Meter accuracy sensor accuracy Analog Output 1 0 Uncertainty 1 0 Power Sampling Rate Hz 10 10 Maximum Pulse Rep Rate Hz 300 300 Display 58 x 73 mm fixed segment LCD with backlight Digital Tuning Indicator 100 msec time constant Statistics Mean max min standard deviation PC Interface USB 1 1 Analog Output o to 1 2 or 5 VDC selectable Internal Trigger 2 to 20 of full scale selectable 2 to 20 of full scale selectable Temperature Operating Range Storage Range 5 to 40 C 41 to 104 F 20 to 70 C 68 to 158 F Instrument Power 100 to 240 VAC 50 60 Hz Instrument Batteries Rechargeable NiMH battery pack Compliance CE ROHS WEEE Dimensions H x W x D 200 X100 X 40 mm 7 87 X 3 94 X 1 57 in Weight 1 0 kg 2 2 Ibs Front Panel PWR Toggle power switch and backlight HZ Display rep rate
21. of contrast and back lighting for the extra large display Parameters that have been set up are clearly displayed in addition to signal intensity and pulse retrieved indicators Configuration settings are maintained in memory and retrieved on start up for convenience Communication with the WaveMaster is also easy with a built in RS 232 port Sophisticated algorithms that monitor the WaveMaster s response maintain calibration Periodically and upon indication from the algorithms the WaveMaster is referenced to the fundamental lines of an internal NE source Pulse or CW Operation The operational mode can be changed from CW to CW with averaging to pulse In CW mode the display is updated at 3 Hz In CW with averaging the display is updated at 3 Hz with an average of the last 10 readings taken at 3 Hz For pulse mode when a valid pulse is received the display will show the wavelength reading of the pulse for 15 seconds or until another valid pulse is received No Warm Up Time When the WaveMaster is first powered on it will perform a self test cycle and then enter the auto calibration mode After 10 seconds the AUTOCAL message is cleared from the display and the WaveMaster is ready to make measurements Toll Free 800 343 4912 Tel 408 764 4042 3 COHERENT Accurate With its self monitoring algorithms and an internal spectral line source the WaveMaster auto calibrates the internal spectrometer to maintai
22. selected and to verify all other beam BEAM DIAENO SICS specifications 5 If more than one ModeMaster PC configuration appears to be needed in order to cover all E required beam parameter ranges optional Scanning Head Modular Components can be ordered to change the configuration of the ee ModeMaster PC system to cover other ranges n VIS for details A PEPITA R see next page for Index Model Name Standard Configuration Index Name UV Low UV High VIS Low VIS High NIR Low NIR High IR High IR Low Divergence Divergence Divergence Divergence Divergence Divergence Divergence Divergence Model MM 1 MM 1S MM 2 MM 2S MM 3 MM 35S MM 4 MM 5 Spectral Range um 0 22 to 0 68 0 34 to 1 00 0 80 to 1 80 1 80 to 15 Detector Type Silicon Germanium Pyrolelectric INPUT BEAM REQUIREMENTS AT TEST WAVELENGTH Test Wavelength 351 NM 514 NM 1 06 um 10 6 um Minimum Power 75 mW 2 5 mW 2 5 mW 400 mW Maximum Power 10W 25W 2 5W 20W Noise lt 2 RMS and lt 5 peak to peak Min Divergence mrad O24 0 46 0 24 0 46 0 255 0 47 2 7 1 3 Max Divergence mrad 1 7 3 2 2 0 3 6 2 7 5 0 14 72 Max Beam Diameter mm 25 12 25 12 25 12 12 25 Part Number 33 1843 000 33 2106 OOO 33 2221 000 33 2239 000 33 2387 000 33 2395 000 33 2429 000 33 2437 000 1 Wavelength dependent quanlities are input power levels and minimum and maximum divergence see Notes 2 5 6 2 Power levels are proportional to the inverse of the spectral response of the detector
23. with the logo shown on the right Custom amp OEM Device Model LM 3 LM 10 LM 45 Specifications Wavelength Range um 0 25 to 10 6 E Power Range 10 MW to 3W 10 MW to 10W 100 MW to 45W Long Pulse Joules Range J 6 5 to 10 Resolution mW l 100 Max Power Density 6 kW cm iah Max Energy Density 0 5 J cm2 1064 nm 10 ns Detector Coating HTD Detector Diameter mm 19 16 19 Laser Dimensions mm 63 X 33 63 X 81 64 X 86 Cross IDAX12 in 2 4 x33in 25X32 iN Reference Index Calibration Uncertainty az Calibration Wavelength um 10 6 Cooling Method Air cooled Model Name Cable Type LM DB 25 Index Cable Length m 1 8 Part Number 1098328 1098304 1098320 LM 3 LM 10 LM 45 1 035 40 TPI 113 mm 4 45 in 81 mia enue ae 19mm F 33 mm 3 19 in gt 86 mm 3 39 in 4 0 75 in RS eS Tami 0 75 in f 2 48 in ee ay e i l l 2 0 in 5 in 16mm Adjustable 6 35 mm Adjustable 0 63 in 6 35 mm Adjustable 6 35 mm 139 198 mm 0 25 in 139 198 mm 0 25 in 140 199 mm 0 25 in 5 47 7 80 in 5 47 7 80 in 5 51 7 83 in PE mini l 97 mm l ar m ra 3 82 in 3 82 in 3 82 in 4 69 in Threads per inch 34 Superior Reliability amp Performance www Coherent com LMC sales coherent com Beam Position Sensing Thermopile Sensc 100 MW to 200W Models LM 100 LM 200 Device Specifications Model COHERENT Features e Spectrall
24. 1 6 in 1 75 in o Po C Mount C Mount Thread 1 97 in 2 76 in Thread Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 83 A COHERENT Beam Diagnostic Accessories Extreme UV Beam Intensity Profiler BIP Optics Features PA e UV operation from 10 nm to 355 nm e Choice of 12 mm or 30 x 40 mm diameter apertures e Operation with BeamView Analyzer Systems P amp Energy 7 Meters These Extreme UV Beam Profiler Optics use UV to visible fluorescence converter face plates to couple the input laser beam to any appropriate Coherent camera Any of our visible wavelength range cameras can be used Saree with the Beam Intensity Profilers Sensors The Beam Intensity Profiler BIP 12F is a compact system accepting beams up to 12 mm in diameter from 10 nm to 355 nm The front of the BIP 12F has a C Mount thread which allows it to be used in conjunction with Energy f Sensors the UV BeamCube when high power attenuation is needed for the BIP 5000Z and BIP 12F attached to a LaserCam HR spectral region 190 nm to 355 nm see Laser Grade Attenuation Optics for Cameras on page 82 The Beam Intensity Profiler BIP 5000Z has a zoom magnification range of 6 1 to 1 1 and accepts beams up to 30 mm by 40 mm Custom amp OEM from 10 nm to 320 nm It comes with the mount shown BIP 5000SPL Beamsplitter When laser beam power or energy density exceeds re
25. 2 Oin L 76mm ____ front face of aperture p ate 3 Oin 1 G ccrerenr Note Detector Surface is 16 63 mm 0 66 in be ow front face of aperture p ate 51 mm 20in 5imm 2 0 in 1mm 76 mm 2 0in 3 0 in 76 mm 30in Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 23 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 24 A COHERENT PowerMax USB RS Sensors 5 UW to 9100 mW Model UV VIS Device Specifications Features e Large 10 mm aperture e High sensitivity Silicon photodiode e Spectral response from 325 nm to 1065 nm e Low power measurements down to 5 pW wavelength dependent The PowerMax USB UV VIS Quantum sensor incorporates a Silicon photo diode for measurement of power from 5 UW to several hundred milliwatts The measureable power varies significantly by wavelength See the chart on the next page A spectrally calibrated ND2 filter is used to attenuate the laser beam thus allowing for a higher average power measurement than is typically pos sible with a photodiode The sensor works with CW continuous wave as well as pulsed sources greater than 100 pps and has a removable nose cone that c
26. 25 to 10 6 Power Range W 100 to 1000 100 to 2500 100 to 5000 EA Resolution W 1 Max Power Density 1 to 2 5 kW cm2 Max Energy Density 0 5 J cm2 1064 Nnm 10 ns Detector Coating H PE R Active Area Diameter mm 35 38 55 Dimensions mm 84 X 84 X 25 4 07X97 69 122 4122 X 69 GIJX Xion l 6x 26x97 in 4 8 X 4 8 X 2 7 in ae Calibration Uncertainty 5 iene ererence Calibration Wavelength um 10 6 Index Cooling Method Water cooled Cable Type LM DB 25 Model Cable Length m 6 tien Part Number 1098427 1098409 1098437 1098421 Index 1 The damage resistance of the coating is dependent upon the beam size and profile the average power level and the water flow rate Contact Coherent or your local representative for details related to your application BeamFinder LM 1000 LM 2500 LM 5000 97 mm 3 82 in om ae ee Ea Tee apes 63 6 mim asin 122 mm on M 3in F 4 80 in vee 7 O38 mm g sex 1 50 in mm 83 8 ee ed 388 mm 2 17 in 3 3 in af 15 28 in 11 4 mm gt e 11 4 mm gt 0 45 in 0 45 in 178 mm gt fe 178 mm 7 0 in 7 00 in Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 37 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 38 A COHERENT 10 NW to 50 mW CW Model OP 2 LM 2
27. 4912 Tel 408 764 4042 Fax 503 454 5727 47 A COHERENT Thermopile Sensors with UV Coating 300 MW to 150W Features PEA e UV coating is optimized for DUV e Spectral Range 0 15 um to 1 ym e 30 MW resolution Power amp Energy e 50 mm apertures Meters Power Sensors 5 Energy Sensors Model PM150X PM150 50XC Custom amp OEM Device Model PM150X PM150 50XC Specifications Wavelength Range um 0 15 to1 BEAM DIAGNOSTICS Power Range 300 MW to 150W Long Pulse Joules Range J 1 to 150 Max Intermittent Power lt 5 min W 300 80 air cooled Resolution mW 30 iah Max Power Density 26 kW cm2 Max Energy Density 0 6 J cm2 1064 NM 10 ns Response Time sec 5 Laser Detector Coating UV Nee aes Active Area Diameter mm 50 Index Dimensions mm 150 X 18 89 x 89 X 32 5 9 X 4 6 in 5 k35X12 in Calibration Uncertainty 1 me Calibration Wavelength nm 514 Le Cooling Method Air cooled Water cooled Cable Type PM DB 25 Cable Length m 2 Part Number 1098455 1098443 1 Water fittings are included with PM150 50XC PM150X PM150 50XC 118 mm Adjustable 189 259 mm 7 44 10 20 in 48 Superior Reliability amp Performance www Coherent com LMC sales coherent com 3 COHERENT Thermopile Sensors with UV Coating 1W to 1 kW Features POWER e UV coating is optimized for DUV amp ENERGY e Spectral Range 0 15 um to 1 um e 100 MW to
28. 4V Applications Pyroelectric triggering can be achieved with an external Software trigger input or an internal trigger that is user adjustable from 2 to 20 percent of full scale range Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 11 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 12 A COHERENT LabMax Meters Laser Power and Energy Meters Device Specifications Model LabMax TOP w GPIB LabMax TOP LabMax TO Measurement Resolution 0 1 of full scale Displayable Resolution 3 or 4 digits pyroelectric 3 4 or 5 digits 3 4 Or 5 digits thermopile and optical user selectable user selectable Measurement Range Sensor dependent reference sensor specifications Accuracy Digital Meter 1 0 2LSD System Meter accuracy sensor accuracy Analog Output 1 0 Uncertainty 1 0 Power Sampling Rate Hz 10 Maximum Repetition Rate Hz 10 000 sampling 1000 Hz every pulse Minimum Positional Resolution mm 0 1 Display 112 x 78 mm backlight graphic LCD 480 x 320 pixels
29. 5 10 16 400 43 25 MaxUV None 248 1110741 J 25MUV 193 0 19 to 2 1 50u 100 mJ 5 10 15 400 43 25 MaxUV None 193 1150146 J 10S HE 0 325too9g 6op 775nJ 60mW 10000 1 10 Silicon ND2 532 1140727 J 10S LE 0 325t00 9 8p B80n 6mW 10000 1 10 Silicon ND2 532 1140408 J 10GE 0 8to17 200pJ4 6oon 15mW 10000 1 10 Germanium ND2 1064 1 Heat Sink 2 Diffuse metallic 3 At 532 NM 4 At 1064 nm Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 57 A COHERENT EnergyMax Sensors MaxBlack Coating Features PA e Unique MaxBlack coating increases damage threshold allows high repetition rate operation and improves mechanical durability Power e Operate over the 190 nm to 12 um range amp Energy Meters e Enable pulse energy measurements from 300 nJ to 2J with high signal to noise characteristics e Measure single shot to 1 kHz repetition rate Power Sensors e Spectral compensation characteristics built into each unit e Onboard sensors provide automatic temperature compensation Energy Sensors J 50MB HE J 25MB HE J 10MB HE These sensors allow measurements over a wide range of wavelengths beam diameters average power levels and repetition rates The MaxBlack coating on
30. Accuracy TN Example Sensors PowerMax USB LM 10 used at 1064 nm ae U 2 stom amp OEM W 1 5 Measurement Accuracy 2241 5 y4 2 3 2 5 BEAM DIAGNOSTICS Coherent uses three primary coatings to capture the incident radiation on our thermal sensors The specifications for each sensor list which coating is used Typical wavelength ranges and response curves for these coatings are shown in the chart below Each sensor contains a spectral curve generated from reflectance measurements taken with spectrometers The rape etl reflectance data are converted into a wavelength compensation look up table that is loaded into the sensor This data is accessed by selecting a wavelength of operation in the software oe Absorption of Thermal Sensor Coating Cross 1 1 Model Name Index Reference Index ia th 1 0 Sivas ston i ae 0 90 Black Coating Black Coating w Quartz Window 0 85 H Broadband Coating Absorption UV Coating 0 80 0 1 1 10 Wavelength ym Wavelength Wavelength Calibration Compensation Compensation Wavelength Accuracy Sensor Accuracy nm All PM model and LM model thermopiles 1 5 10 600 PS model 15 514 UV VIS optical sensor 4 325 nm to 900 nm 514 5 900 nm to 1065 nm 22 Superior Reliability amp Performance www Coherent com LMC sales coherent com A COHERENT PowerMax USB RS Sensors 100 UW to 2W Features e Thermally stabilized des
31. Calibration Uncertainty 5 Calibration Wavelength nm 1064 Cooling Method Water cooled Cable Type PM DB 25 Cable Length m 2 Part Number 1098490 1098506 1098461 1098505 Toll Free 800 343 4912 1 The damage resistance of the coating is dependent upon the beam size and profile the average power level and the water flow rate Contact Coherent or your local representative PM1K 100 PM3K 100 PM5K 100 59 mm 2 32 in 100 mm 3 94 in 170 mm 6 69 in Tel 408 764 4042 for details related to your application PM5K 200 59 mm 2 32 in 1200 miii 7 87 in 283 mm 11 14 in 372 mm 14 65 in Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 45 A COHERENT High Peak Power Thermopile Sensors 10 MW to 30W Features POWER ee ENERGY e Volume absorber e 2J cm2 at 1064 nm Power amp Energy pce These sensors are designed for use with high peak power low repetition rate Q switched Nd YAG lasers A volume absorbing substrate mounted in front of the detector absorbs the bulk of the laser energy rather than all of Power the energy striking the front surface of the detector element This results Sensors in a much h
32. Display rep rate J W Select Joules or Watts mode ZERO Reset ambient offset for thermal and optical sensors Zero stats AUTO Engage auto ranging with power sensors STAT Display statistics mean max min standard deviation AVG Engage display averaging A Enter wavelength and engage wavelength compensation ATTEN Enter attenuation factor and engage attenuation AREA J cm2 fluence W cm2 power density J cm2 fluence W cm power density HOLD Holds displayed values on screen TRIG Select trigger level with Select trigger level with energy sensors energy sensors SETUP LOCAL Set and enter button Takes local control of meter back from PC ARROW KEYS Manually control range Select Stats parameter Select and change numerical values Left Side Panels Power jack USB PC interface port Analog output Right Side Panels DB25 sensor port Part Number 1098580 1098579 1098581 Meter supplied with NiMH rechargeable battery pack power cord AC adapter USB cable 1 8m RCA to BNC analog output adapter user manual installation CD with FieldMaxll PC and drivers soft carrying case and certificate of calibration Superior Reliability amp Performance www Coherent com LMC sales coherent com FieldMate A COHERENT Laser Power Meter FieldMate Power Meter Device Specifications Model Features e Analog needle for tuning e Large digital LCD display e Compatib
33. FieldMaxll TO PM10X FieldMaxll TOP J 25MUV 193 ExciStar XS 200 248 351 FieldMaxll TO PM10X FieldMaxll TOP J 25MUV 248 ExciStar XS 500 157 193 248 351 FieldMaxll TO PM10X LabMax TOP J 25MT 10KHZ IndyStar 193 248 FieldMaxll TO PM30X LabMax TOP J 25MT 10KHZ plus small heat sink LPFpro 205 220 157 FieldMaxll TO PM150 50XC FieldMaxll TOP J SOMUV 193 LPXpro 210 220 305 193 248 308 351 FieldMaxll TO PM150X PM150 50XC Xantos XS 157 193 248 351 FieldMaxll TO PM10X LabMax TOP J 25MT 10KHZ LAMBDA SX Series 248 308 FieldMaxll TO PM300F 50X PM1KX1 Other Coherent measurement product configurations may be compatible with these lasers Coherent Family Plan pricing may apply see page 103 Contact factory for more details Superior Reliability amp Performance www Coherent com LMC sales coherent com Model Name Index Model Name Page Number 1000 1 Attenuator 5O 1 035 40M Adapter Ring 51 Barrell Set 83 BCUBE 83 BeamFinder 37 70 BeamMaster 72 87 BIP 12F 1 1 84 BIP 12F 2 1 84 BIP SOOOSPL 84 BIP 5000Z 84 C VARM 83 EPM2000 53 FC PC Type Connector 51 FieldMate 15 FieldMaxll P 14 FieldMaxll TO 14 FieldMaxll TOP 14 53 Germanium Detector 93 High Divergence Lens Kit IR 93 High Divergence Lens Kit UV 93 High Divergence Lens Kit VIS NIR 93 IR High Divergence 92 IR Low Divergence 92 J oo Energy Sensor 67 J 10MB HE 58 J 10M
34. Number Range um Energy Energy H S H S H S H S Rate pps Width ps Dia mm Coating Wavelength 1110573 J SOMB HE 0 19 to 12 1m 2J 10 24 300 57 50 MaxBlack None 1064 1110576 J SOMB LE 0 19 to 12 250UJ sooms 10 24 300 57 50 MaxBlack None 1064 1110746 J 25MB HE 0 19 to 12 500 pJ 1J 5 10 15 E 1000 17 25 MaxBlack None 1064 1110743 J 25MB LE 0 19 to 12 25 uJ 50 mJ 10 15 1000 17 25 MaxBlack None 1064 1110843 J 10MB HE 0 19 to 12 10 pJ 20 mJ z 1000 17 10 MaxBlack None 1064 1110855 J 10MB LE 0 19 to 12 300nJ 600 WJ 7 1000 17 10 MaxBlack None 1064 110574 J 5OMIT 10KHZ 0 19 to 2 1 500 pJ 1J 20 49 10000 1 7 50 Diff Met None 1064 1110747 J 25MT 10KHZ 0 19 to 2 1 50u 10Mms 10 20 31 10000 1 7 25 Diff Met None 1064 1110856 J 10MT 10KHZ 0 19 to 2 1 100 ns 200 Ud 1 id 10000 1 7 10 Diff Met None 1064 1110744 J 50MB YAG 0 266t0o21 15mJ 3J 20 7 48 50 340 50 MaxBlack YAG 1064 1155722 J SOMB IR 0 5 to 3 1m 3J 15W 30 1000 50 MaxBlack IR 1064 2940 1110577 J 25MB IR 0 532 t0 21 1 5 mJ 3J 20 41 62 20 860 25 MaxBlack IR 1064 1146243 J 5OMUV 248 o19t021 5oO U 1J 10 25 200 86 50 MaxUV None 248 w o Diffuser 1110572 J SOMUV 248 0 19 to 0 266 500 UJ 1J 15 36 200 86 50 MaxUV DUV 248 w Diffuser 1146237 J 5OMUV 193 0 19 to 2 1 125 u 250m 10 30 200 86 50 MaxUV None 193 w o Diffuser 1110575 J SOMUV 193 0 19t00 266 125uJ 250m 18 A3 200 86 5O MaxUV DUV 193 w Diffuser 1110745 J 25MUV 248 0 19 to 2 1 125 UJ 250m
35. PC System VIS Low Divergence 33 2239 000 ModeMaster PC System VIS High Divergence 33 2387 000 ModeMaster PC System NIR Low Divergence 33 2395 000 ModeMaster PC System NIR High Divergence 33 2437 000 ModeMaster PC System IR Low Divergence 33 2429 000 ModeMaster PC System IR High Divergence 33 1710 000 ModeMaster PC Control Interface Console and Software 1 All ModeMaster systems include scan head mount control interface console and software Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 93 A COHERENT WaveMaster Laser Wavelength Meter Features PaA e 380 nm to 1095 nm wavelength range e RS 232 interface e Internal self calibration Power p p amp Energy e Fiber input with sampling probe Meters Power Sensors Energy Sensors Device Model WaveMaster Custom e amp OEM Specifications Wavelength Coverage nm 380 t0 1095 Accuracy nm 0 005 Resolution nm 0 001 Minimum Pulse Rep Rate Single shot BEAM Maximum Pulse Rep Rate CW PA Maximum Signal Bandwidth nm 2 at 400 3 at 600 5 at 1000 Minimum Signal 20 UW CW at 632 nm R 2 mJ pulsed at 1064 nm Maximum Signal 100 MW CW at 632 nm 100 mJ pulsed at 1064 nm Display Update Hz 3 rain Size W x H x D mm 259 X 105 X 352 Reference Storage index Storage Condition 40 Ctos0 C 14 F to 122 F Relative Humidity Non condensing and lt 80 Shock g gt 4 peta Use Conditions 10
36. Part Number 1098329 1097901 1098314 PM2 PM10 PM30 10mm i T sim ree di 3 p in O 19 mm 19 mm 2 20 in atin o 0 75 in raa ea oo Adjustable 151 221 mm Adjustable 6 42 9 17 in Adjustable 201 271 mm 7 91 10 67 in eae 40 Superior Reliability amp Performance www Coherent com LMC sales coherent com Air Cooled Thermopile Sensors 300 mW to 150W Features Models PM150 50 PM150 PM100 19C Device Specifications PM100 19C PM100 19C Adjustable 189 259 mm 7 44 10 20 in Toll Free 800 343 4912 Model e Convective air cooled e 30 MW resolution e 19 mm and 50 mm apertures e Spectrally flat from 0 19 um to 11 ym PM150 A COHERENT PM150 50 Wavelength Range um 0 19 to 11 Power Range 300 MW to 100W 300 mW to 150W Long Pulse Joules Range J 1t0 100 1 t0150 Max Intermittent Power lt 5 min W 100 300 Resolution mW 30 Max Power Density 26 kW cm 2 Max Energy Density 0 6 J cm 1064 nm 10 ns Response Time sec 2 5 Detector Coating Broadband Active Area Diameter mm 19 50 Dimensions mm 89 x 89 X 32 D150 x 118 25X35 x12 in 5 9 x 4 6 in Calibration Uncertainty 1 Calibration Wavelength nm 514 Cooling Method Air cooled Cable Type PM DB 25 Cable Length m 2 Part Number 1098483 1098407 1098398 1 This sensor is designed for intermittent use only PM150 PM150
37. Sensor Technologies Power and Energy Measurement Solutio Coherent offers three different sensor technologies thermopile semiconductor optical and pyroelectric that address a broad POWER range of measurement parameters and laser characteristics amp ENERGY Thermopile Power amp Energy Meters Power Sensors Energy Sensors Custom PM Model Thermopiles amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index LM Model Thermopiles Model Name Index Semiconductor Optical Model OP 2 LM 2 Thermopile sensors are a great all purpose technology suitable for many lasers They are used for measuring CW laser power average power in pulsed lasers and are often used to integrate the energy of long pulses Thermopile sensors absorb incident laser radiation and convert it into heat This heat ultimately flows to a heat sink that is held at ambient temperature by either convection cooling or water cooling The temperature difference between the absorber and the heat sink is converted into an electrical signal by a thermocouple junction Thermopiles operate across a wide range of input powers and unlike a semiconductor sensor they will not saturate The spectral range is dependent upon the coating applied to absorb the laser energy The coating used on many thermopiles is broadband in nature and is relatively flat from the ultraviolet through the infrared These sensors have natural
38. Technologies Pyroelectric POWER amp ENERGY Coherent energy sensors use a pyroelectric element to measure the energy in a laser pulse It does this by producing a large electrical charge for a small change in temperature 2 ower The active sensor circuit takes the current from the sensor element and converts it to a amp Energy voltage that can be measured by a peak detector circuit or a Coherent meter Pyroelectrics Meter can only be used with pulsed lasers Pyroelectric sensors are ideal for measuring the output of pulsed lasers These devices can Power be used at repetition rates to 10 kHz and beyond and can be used to measure laser pulses RE beyond a Joule Energy EnergyMax Laser Energy Sensors Saee Sensor Technology Measurement Range Custom amp OEM The following information can help determine which sensor technology to choose based upon the type of laser used and the type of measurement needed BEAM Laser Type Measurement Needed Power Range Wavelength Range Sensor Type aes CW Laser Average Power 10 NW to 50 mW 250 nm to 1800 nm Optical 100 UW to gt 5 kW 0 19 um to 11 um Thermopile Pulsed Laser Average Power 100 UW to gt 5 kW 0 19 um to11 um Thermopile CALIBRATION Pulsed Laser Energy Per Pulse 100 nJ to gt 10J 0 19 um to 11 um Pyroelectric S SERVISE Long Pulse Laser gt 1 ms Single Pulse 1 mJ to gt 300J 0 19 um to 11 um Thermopile Integrated Energy Laser Cross p R
39. The silicon detector peaks at goo nm and is at half peak sensitivity at 510 nm and 1050 nm The germanium detector peaks at 1500 nm and is at half peak sensitivity at 1100 nm and 1650 nm The pyroelectric detector has a flat spectral response 3 These limits can be reduced by a factor of 10 higher sensitivity by user removal of the light restricting aperture in front of the detector 4 The maximum divergence limit is fixed by the inability to accurately locate the internal waist when the internal beam diameter growth over the span of the drum is too slight Limits shown are for M 1 and test wavelength limits scale as the square root of M test wavelength 5 Minimum divergence in this wavelength range scales as the square root of M test wavelength Diameters are approximate divergence takes precedence in choosing options Refer to nomogram 92 Superior Reliability amp Performance www Coherent com LMC sales coherent com A COHERENT ModeMaster PC Complete Geometric Beam Characterization Along the Laser Beam Path Components for Other Wavelength and Divergence Ranges High Divergence Lens IR Detector The body design of the ModeMaster PC scanning head has D POWER modular lens and detector sets that allow quick changes 3 SEY to other wavelength or divergence ranges to meet your y measurement needs Pa Lens Tube e Power The IR body can onl
40. are limited by slower thermal response speeds typically on the order of seconds Pyroelectrics respond only to changing radiation that is chopped pulsed or otherwise modulated so they ignore steady background radiation that is not changing with time Their combination of wide uniform spectral response sensitivity and high speed makes pyroelectrics ideal choices for a vast number of electro optic applications The EnergyMax sensor line uses a pyroelectric element to measure the energy in a laser pulse It does this by producing a large electrical charge for a small change in temperature The active sensor circuit takes the current from the sensor element and converts it to a voltage that the instrument can measure Superior Reliability amp Performance changes in ambient temperature as well as for heat generated by absorption of the laser energy Temperature compensation also enables the use of user installable heat sinks for even higher average power handling capabilities Coherent EnergyMax sensors are the most linear and accurate on the market The figure below shows the relationship between the current response of the pyroelectric element and the output voltage of the sensor circuit The relationship between the current response and the output voltage response is fixed so that the calibrated peak voltage of the output is the integrated energy of the laser pulse Refer to the User Manual for information on Quantum EnergyMax sen
41. cameras The Continuously Variable Attenuator Modules C VARM and UV C VARM contain two wedge attenuators that are continuously variable and a step attenuator that allows attenuation from 107 1 down to 3000 1 The C VARM and UV C VARM can be finely adjusted to achieve both precise attenuation levels and maximum use of the camera s optical dynamic range The Variable Attenuator Module VARM is a triple wheel filter holder that contains three filters per wheel The filters are made to our exacting specifications for transmission value and material quality The VARM is adjustable in attenuation in 64 discrete steps of approximately 16 reduction each time from 400 000 1 down to 1 1 The VARM can be easily returned to exactly the same attenuation level as previously used The BeamCUBE Fixed Attenuator Modules BCUBE and UV BCUBE provide fixed attenuation and beam pickoff for performing diagnostics on high power laser sources The BCUBE and UV BCUBE utilize the front surface reflection from an uncoated laser mirror to achieve beam samples at 2 to 10 of the incident radiation depending upon beam polarization Multiple BCUBEs can be coupled together for even higher fixed attenuation levels www Coherent com LMC sales coherent com Beam Diagnostic Accessories Attenuation Optics for Cameras BCUBE UV BCUBE VARM C VARM UV C VARM and all other Coherent A COHERENT cameras have female C Mount threading making th
42. channel for applications where timing is critical EPM2000 meters can also be set into ratio mode with the press of a button Specifications Model EPM2000 Measurement Resolution 0 03 of full scale Rep Rate Resolution 0 1 Hz Max Rep Rate pulsed energy measurement 1 000 Hz every pulse 500 Hz every pulse ratio mode Power Sampling Rate 10 Hz Accuracy Digital Meter 1 0 of reading System Meter accuracy sensor accuracy Analog Output 1 0 Display 2 large 4 digit fixed segment LCDs w backlight Statistical Analysis Min max mean and standard deviation Computer Interface RS 232 IEEE 488 GPIB Analog Output 0 00 to 2 00 VDC Internal Trigger 2 to 20 of full scale selectable External Trigger Input Rising falling edge trigger via user control Instrument Power 120 to 220 VAC 50 60 Hz supply internal Size H x W x D 305 X 305 X 14 MM 12 00 X 12 00 X 4 49 in Weight including batteries 2 7 kg 5 9 Ib Part Number EPM2000 0011 5140 EPM2000e 0011 8231 RM EPM Rack Mount Hardware optional 0011 5600 1 Supplied with power cord user manual and certificate of calibration EPM2000 i 305 mm 12 0 in Top View Superior Reliability amp Performance 305 mm 12 0 in 114 mm 4 49 in Gitallal i falialial Ser Gltellellal er Glial al Front View www Coherent com LMC sales coherent com
43. e Percent power within an aperture e D40 diameters and widths Guassian fit including coefficient centroid and roughness of fit The BeamView analyzer system also includes several other analysis features listed in the BeamView Analyzer Software Features Summary on page 80 Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 79 A COHERENT BeamView Analyzer Software BeamView Analyzer Software Features Summary Analysis On Line Pass Fail Tests P e Centroid position wander e Selectable calculation area e Peak intensity position e On line statistical analysis all results e Peak to average intensity Minimum average maximum P Si tandard deviati amp Energy e Beam diameter widths selectable ip ia a a ae Second moment 84 Sigma Pass Fail test with fault action all results Knife edge Ratio Slit Audio visual alarms Power Sensors Aperture diameter Save reject images Effective diameter TTL pulse out Stop dat t e Flat Top analysis new in BeamView USB 4 4 eee a aa Energy Beam uniformity Image averaging Sensors Plateau uniformity e Peak energy power density Flatness factor e Relative energy power Effective irradiation area Custom e Effective area amp OEM Edge steepness Effective average power energy Density e Divergence at energy power e Gaussian fits with BEAM Correlation coefficient DIAGNOSTICS Diameter Centroid Peak inten
44. e Report generation e Variable exposure time e LabVIEW drivers e RS 232 and TCP IP remote communication protocols i Fae Qe oe He MC I LS O CC ed Eee ras he 2 Al E P a g Ei Superior Reliability amp Performance Features e High speed USB 2 0 camera interface BV USB software only e Supports all three LaserCam HR camera types e Remote control interface e Over 30 numerical analysis functions e Multiple image import and export formats e Automatic background noise subtraction e Pass Fail fault settings alarms configurable setups e Easy to use intuitive user interface e BeamView Digital Windows XP only e BeamView USB Windows XP Vista 32 bit Vista 64 bit with LaserCam HR and LaserCam UV cameras only Windows 7 32 bit Windows 7 64 bit with LaserCam HR and LaserCam UV cameras only 64 bit compatibility was released in BeamView 4 4 2 with LaserCamlllD digital cameras BeamView USB 4 4 is included with all LaserCam HR USB 2 0 cameras and provides additional new features Flat Top Beam Analysis Six additional calculations are now available with BeamView USB software for flat top beam analysis These calculations are based on the ISO 13694 2000 standards The six calculations allow greater flexibility for the analysis of applications involving flat top beam shapes They also may assist in the analysis of beam uniformity of excimer and Nd YAG lasers in the near field The six new calculat
45. nm to 100 nm 400 to 1100 nm with LDFP 190 to 355 nm with BIP 12F DUV to 355 nm goo nm to1700 nm e LaserCam HRk UV e LaserCam InGaAs e Large dynamic range Coherent Adaptive Pixel Technology CAPT Digital output through USB 2 0 eliminates the need for an interface card frame grabber e High accuracy beam diameter calculations Excellent beam spatial uniformity e BeamView 4 4 application software Toll Free 800 343 4912 Tel 408 764 4042 Variable camera exposure time Compact size e High speed image capture rates 15 to 25 frames per second e Pass Fail TTL level output e RS 232 and TCP IP communication protocols e Comprehensive LabVIEW library suite for the majority of BeamView USB software functions All LaserCam HR camera systems are ROHS compliant Coherent Adaptive Pixel Technology Coherent tests each LaserCam HR camera through a process called CAPT Coherent Adap tive Pixel Technology This uses a calibrated lightsource and a digital look up table to give pixel to pixel linearity correction In addition any identified hot pixel is corrected by averaging the value of the four directly surrounding pixel intensities Finally the noise levels are carefully monitored through both a background noise subtraction and a user selectable bias noise offset level The CAPT process optimizes the performance of the camera array directly improving beam measurement accuracy especially with beam di
46. numbers that have the following meaning Coating Type Descriptive Suffix Active Area Diameter 10 25 0or50mm MT for Diffuse Metallic LE for Low Energy MB for MaxBlack HE for High Energy MUV for MaxUV 10 KHZ for Max Rep Rate 193 and 248 Calibrated Wavelength J Represents an energy sensor Example J 10MB LE is an energy sensor with a 10 mm active area diameter MaxBlack coating for low energy measurements Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 53 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 54 A COHERENT EnergyMax Laser Energy Sensors Applying Wavelength Compensation Accuracy Overall measurement accuracy is a combination of calibration uncertainty found in the sensor specification tables and the wavelength compensation accuracy found in the Wavelength Compensation Accuracy table below The combined accuracy is based upon practices outlined in the National Institute of Standards Guidelines for Evaluating and Expressing Uncertainty NIST Technical Note 1297 1994 Edition
47. power levels may be sustainable for longer than 5 minutes when used with lasers with large diameter non Gaussian beam profiles Monitor closely for coating damage if used longer than five minutes at higher powers 2 The damage resistance of the coating is dependent upon the beam size and profile the average power level and the water flow rate Contact Coherent or your local representative for details related to your application PM1K PM3K PM5K Superior Reliability amp Performance 50 mm 1 97 in www Coherent com LMC sales coherent com A COHERENT Large Area High Power Water Cooled The 10 MW to 5 kW Features e Water cooled e 100 mm and 200 mm apertures e Spectrally flat from 0 19 um to 11 um These large area water cooled thermopiles are designed to measure large laser diode stacks and arrays and other high power divergent sources Water fittings are included Models PMs5K 200 PM3K 100 Device Model PM1K 100 PM3K 100 PMsK 100 PM5K 200 Specifications Wavelength Range um 0 19 to 11 Power Range W 100 to 1000 100 to 3000 100 to 5000 100 to 5000 Max Intermittent Power lt 5 min W 1500 4000 7500 7500 Resolution W 1 Max Power Density 1 to 10 kW cm2 Max Energy Density 0 6 J cm2 1064 nm 10 Ns Response Time sec AS Detector Coating Broadband Detector Diameter mm 100 200 Dimensions mm 170 X 59 283 x59 6 6 x 2 3 in 11 1 x 2 3 in
48. power supply may be plugged into the 6 mm barrel receptacle or alternatively for custom OEM installations power may be provided on Pin 1 through the DE 9 connector Additional ae information concerning integration of the OEM thermopiles including ied detailed housing drawings can be found below PowerMax RS Information ee PC Interface RS 232 Sensors Connector DE 9 female Cable length 300 mm Use standard RS 232 cable to connect device to PC Communication Pin 2 Receive Data Pin 3 Transmit Data ae Pin 5 Signal Ground saneers Required Power 5 VDC 5 with less than 100 mV RMS noise Models PM150 50C PM150 19C Current draw lt 300 mA Power input connector 6 mm barrel with 2 mm pin center positive Power supply Optional equipment order 1105557 for UL and Custom amp OEM PSE certified power supply with power cord Mounting Hole Locations Alternate OEM power input 5 VDC on Pin 1 Pin 5 Ground PM10 19C PM150 19C shared with Signal Ground DIAGNOST S em i 1 2 in 15 2 mm 0 6 in PM150 50C CALIBRATION PT O 6 32 UNC 2B 1 4 20 UNC 2B E SERVICE 20 2 mm 0 8 in 5 1 mm 0 2 in 12 7 mm 0 5 in 17 8 mm 0 7 in i Deep Mounting Hole Deep Mounting Hole i i BSS Iss 21 2 mm 0 84 in Index 17 8 mm 0 7 in 1 4 20 UNC 2B 6 32 UNC 2B i 7 mm 0 275 in 5 mm 0 2 in Model Deep Mounting Hole Deep Mounting Hole pein 30 5 mm 1 2 in 5 6 mm 0 22 in UC a 41 3 mm 1 63 in _ 4 75 mm
49. second moment diameters directly The ModeMaster PC software also includes conversion algorithms from its knife edge measurements to second moment diameter measurements that are valid for stable resonator modes with M of 1 to 4 covering most commercially available lasers Also included are conversions to D86 and slit diameters to allow comparison to other measurements Real Time Power Density Adjustment In most laser applications it is not laser power that does the work but power density Using the ModeMaster PC the point of maximum power density can be quickly located A convenient power density tuning screen displays power density as a pseudo analog tune bar giving real time feedback as the laser mirrors are adjusted Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 89 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 90 A COHERENT ModeMaster PC M Beam Propagation Analyzer fe feo ee ee g E TERRITI Azimut Erem T Ee M u i l ea a m E Real Time Display Real Time M and Beam Prof
50. software upgrades and perform any needed repairs and recalibrate the Product for a fixed service fee If the Product fails and is returned to the Company within one year following the date of recalibration and recertification service the Company will at its option repair or replace the Product or any component found to be defective Contact Coherent or visit www Coherent com LMC for additional details and warranty limitations Obtaining Warranty Service In order to arrange for warranty service or annual recalibration first contact your closest Coherent service center to obtain a Return Material Authorization RMA number USA Phone 800 343 4912 Fax 503 454 5727 E mail LMC sales coherent com Asia Phone 813 5635 8680 Fax 813 5635 8681 E mail LMC sales coherent com Europe Phone 49 6071 9680 Fax 49 6071 968499 E mail LMWC sales coherent com Detailed instructions for preparing and shipping your instrument can be found below Instructions for Returning Equipment for Service and Calibration To prepare your instrument meter or sensor for return to Coherent attach a tag to the unit that includes the name and address of the owner the contact individual the serial number and the RMA number you received from Customer Service Wrap the product with polyethylene sheeting or equivalent material If the original packing material and carton are not available obtain a corrugated cardboard shipping carton with insi
51. these sensors provides significant damage resistance and Custom sys a amp OEM mechanical durability characteristics compared to the black paint coatings often used on broadband sensors in the past E Device l Model J SOMB HE J 50MB LE J 25MB HE J 25MB LE J 10MB HE J 10MB LE Specifications Energy Range 1mJ 250 pJ 500 yJ 25 uJ 10 pJ 300 nJ to 2J to 500 mJ to 1J to 50 mJ to 20 mJ to 600 UJ Noise Equivalent Energy lt 33 pJ lt 8 uJ lt 16 uJ lt 1 uJ lt 0 5 uJ lt 20 nJ CALIBRATION Wavelength Range um 0 19 to 12 S CELT Active Area Diameter mm 50 50 25 25 10 10 Maximum Average Power W 10 10 5 5 4 4 Maximum Pulse Width us 57 17 Laser oT RS Maximum Repetition Rate pps 300 300 1000 1000 1000 1000 E Maximum Energy Density mJ cm2 500 at 1064 nm 10 ns Detector Coating MaxBlack Diffuser No aa Calibration Wavelength nm 1064 index Calibration Uncertainty 2 Energy Linearity 3 Cable Length m 25 Cable Type J DB 25 Part Number 1110573 1110576 1110746 1110743 1110843 1110855 1 Extend average power range with optional heat sink See page 55 and 64 2 Cable lengths up to 10m possible Contact factory J 25MB HE and LE J SOMB HE and LE J 10MB HE and LE 16 54 mm 16 38 mm 15 75 mm 065in 065 in 0 62 in 40 64 mm 2X 5 08 50 80 mm X 584mm Sa 0 20in 1 6 in 2X 5 08 mm 20in 023in aiu 50 20 mm
52. 0 1400 1600 1800 Wavelength nm Part Number Description 1098318 1000 1 Attenuator for OP 2 and LM 2 Sensors SMA and FC Adapters 50 Superior Reliability amp Performance www Coherent com LMC sales coherent com A COHERENT Power Sensor Accessories Fiber Optic Connector Adapters The following fiber optic adapters can be mounted directly onto the 3 4 32 threads on the front of LM 2 OP 2 LM 3 LM 10 and LM 150FS POWER sensors These fiber adapters can also be used with our 1 035 40M adapter S ENERGY ring to fit on the LM 20 LM 45 LM 100 LM 150 LS and LM 200 sensors Power amp Energy Meters S Power Sensors Part Number Description Sensors 1098589 SMA Type Connector LM 2 OP 2 LM 3 LM 10 LM 150 FS 1098339 FC PC Type Connector LM 2 OP 2 LM 3 LM 10 LM 150 FS TY 33 9432 000 1 035 40M Adapter Ring LM 20 LM 45 LM 100 LM 150 LS LM 200 Sensors SMA and FC Adapters The following fiber adapters can be mounted onto the front of the PS10 arene sensor in place of the removable light tube amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Part Number Description Sensors Laser 0012 3860 PS SMA Type Connector PS10 irae 0012 3863 PS FC Type Connector PS10 Index SMA and FC Adapters Model Name Index Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 51 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors
53. 0 19 in 4 75 mm 0 19 in i ea N AE 23 8 mm 0 94 in 41 3 mm PN 88 9 mm 1 63 in 2 0 in 41 3 mm 1 63 in 3 5 in Square S quare 6 32 UNC 2B 6 32 UNC 2B 5 mm 0 2 in 6 3 mm 0 25 in Deep Mounting Hole Deep Mounting Hole 30 Superior Reliability amp Performance www Coherent com LMC sales coherent com A COHERENT PowerMax USB RS Sensor Accessories Fiber Optic Connector Adapters The following fiber optic adapters can be mounted directly onto the 3 4 32 threads on the front of LM 3 and LM 10 sensors These fiber adapters can also be used with POWER our 1 035 40M adapter ring to fit on the LM 45 sensor S ENERGY E as Part Number Description Sensors R 1098589 SMA Type Connector LM 3 LM 10 Meters 1098339 FC PC Type Connector LM 3 LM 10 33 9A32 O000 1 035 40M Adapter Ring LM 45 Power Sensors SMA and FC Adapters The following fiber adapters can be mounted onto the front of the PS10 sensor in place of the removable light tube Energy Sensors ye Part Number Description Sensors 0012 3860 PS SMA Type Connector PS10 _ 5 0012 3863 PS FC Type Connector PS10 FA BEAM DIAGNOSTICS SMA and FC Adapters CALIBRATION amp SERVICE PowerMax RS Sensor Accessory Laser Cross PowerMax RS Sensor Power Supply Reference Index Part Number Description PowerMax RS Sensor Models eae 1105557 5V External Power Supply PM1K 36C PM10 19C PM150 19C PM150 50C Name Index
54. 0 FS 38 mm 0 75 32 TPI 38 1 mm o raon 1 5 in UN 2B 1 5 in typical gt p 1 27 in 19 mm iddim 0 75 in 50 5 mm 60 3 mm 0 75 in 89 mm 1 99 in 2 37 in 69 9 mm 3 5 in 3 2 75 in 31 75 mm Pipa O mm 3 9 mm S a k i 1 73 to 3 0 in uae ss ete Kany Oa Me 218mm 34 9 mm 1 99 in _ TYP 4 1 035 40 TPI 0 86 in 69 9 mm 76mm UN 2B 2 75 in 3 0 in Threads per inch 36 Superior Reliability amp Performance www Coherent com LMC sales coherent com COHERENT Features e Water cooled MERCY e Spectrally flat from 0 19 um to 11 ym e 1W resolution Power e 35 mm to 55 mm apertures amp Energy Meters These kilowatt thermopile sensors are water cooled for measuring output over 100W and are excellent for use with CO and Nd YAG lasers Use with LabMax see page 10 Power Sensors Tap or distilled cooling water is recommended with these sensors DI Energy water can not be used Flow rates are power dependent and range from li Models LM5000 BeamFinder 0 5 to 4 gallons per minute pressure depends upon flow rate and ranges from 3 to 40 PSI visit product pages at www Coherent com LMC for more technical details Water fittings are included Custom amp OEM Device Model BeamFinder LM 1000 LM 2500 LM 5000 Specifications Wavelength Range um 0 3 to 10 6 0
55. 00 LaserCheck POWER amp ENERGY Page Reference 15 13 13 13 10 10 16 17 Measurement Modes Power CW Power e e amp Energy Meters Avg Power of Pulsed Lasers e Long Pulse Joules e Pulse Energy o o Power Max Rep Rate Hz 300 300 10 000 1000 Sensors Display Types Digital Readout Energy Sensors Analog Needle Tuning Graphical Tuning e o Strip Chart Trending o Custom SOEN Measurement Analysis Supported Beam Position e Statistics e e e BEAM Display Smoothing o e DIAGNOSTICS 2 Channel Ratiometric Correction Factors Supported ALIBRAT p pee el Wavelength Correction e e e Attenuation Factor e e e e Laser PC Interfaces Cross Reference USB Index RS 232 e e GPIB e e Analog Output Index Electrical Power Options Battery rechargeable a Battery non rechargeable AC Powered e e e Meter and Sensor Compatibility Table Power Sensors PM Model e e e e PS Model e e e OP 2 Model e e e e LM Model and Beamfinder gt e o e e e LM 2 Model e e o e Energy Sensors EnergyMax et ot e 1 10 000 Hz sampled 1000 Hz every pulse 4 Our J 50MT 10KHz J 25MT 10KHz and J 10MT 10KHz EnergyMax Sensors are not compatible 2 LabMax TOP w GPIB model only with FieldMaxll TOP meters For legacy senso
56. 02 34 530 214 Fax 39 02 34 934 165 www Coherent it Japan Coherent Japan Inc Toyo MK Building 7 2 14 Toyo Koto ku Tokyo 135 0016 Japan Tel 81 3 5635 8680 Fax 81 3 5635 8701 www Coherent co jp Korea Coherent Korea No 101 Eagle Town 278 20 3 dong Seongsu 2 ga Seongdong gu Seoul 133 832 South Korea Tel 82 2 460 7900 www Coherent com Netherlands Coherent BV Smart Business Park Kanaalweg 18A 3526 KL Utrecht Netherlands Tel 31 30 280 6060 Fax 31 30 280 6077 www Coherent n United Kingdom Coherent UK Ltd St Thomas Place Cambridgeshire Business Park Ely CB7 4EX United Kingdom Tel 44 1353 658 833 Fax 44 1353 659 110 www Coherent com
57. 1 0 10 mW 2W 1 mW 0 5 to2 19 Broadband 514 1 PM DB 25 1098457 PM2X 0 15 tO 1 0 10 mW 2W 1 MW 0 5 to 2 19 UV 514 1 PM DB 25 1097901 PM10 0 19to1 0 10mW 10W 1 mW 0 5 to 10 19 Broadband 514 1 PM DB 25 CALIBRATION 1098423 PM10X 0 15 to 1 0 10 mW 10W 1mW 0 5 to 10 19 UV 514 1 PM DB 25 Sener 1098314 PM30 0 19 to 11 0 100 mW 30W 10 mW 0 5 to 50 19 Broadband 514 1 PM DB 25 1098498 PM30X 0 15 t01 0 100 MW 30W 10 mW 0 5 to 50 19 UV 514 1 PM DB 25 Laser 1098483 PM100 19C o1gtono 300mMW 100W 30 mW 1 t0100 19 Broadband 514 1 PM DB 25 TA 1098407 PM150 0 19 t01 0 300mMW 150W 30 mW 1 t0150 19 Broadband 514 1 PM DB 25 Index 1098398 PMi50 50 o19to1 0 300mW 150W 30 mW 1 t0150 50 Broadband 514 1 PM DB 25 1098455 PM150X 0 15to10 300mMW 150W 30 mW 1t0 150 50 UV 514 1 PM DB 25 Model bile Water Cooled Thermopile Sensors to 300W 1098397 PM10 19C 0 19to1 0 10mW 10W 1 mW 0 5 to 10 19 Broadband 514 1 PM DB 25 1098444 PM150 19C o19tono 300mW 150W 30 mW 1 to 150 19 Broadband 514 1 PM DB 25 1098412 PMi150 5oC o19gtono 300mW 150W 30 mW 1 to 150 50 Broadband 514 1 PM DB 25 1098443 PM150 50XC 0 15t01 0 300mW 150W 30 mW 1 t0150 5O UV 514 1 PM DB 25 1141474 PM300 0 19 to 11 0 1W 300W 0 1W 19 Broadband 514 1 PM DB 25 Fan Cooled Thermopile Sensors to 300W 1098480 PM200F 19 0 19 to 11 0 1W 200W 100 MW 1 t0 200 19 Broadband 514 1 PM DB 25 1098472 PM200F 50 0 19 to 1 0 1W 200W 100 mW 1 t0 200 50 Broadband 514 1 PM DB 25 1113493 PM200F 50X 0 1
58. 1 72 mm 0 86 in 2X 5 84 mm 0 23 in M6 6H THD ry X V5 08 mm 0 20 in and No 1 4 20 UNC 2B THD X V5 08 mm 0 20 in for Mounting Sensor 25 25 mm 0 99 in Adjustable 200 15 mm 7 88 in Max 117 60 mm 4 63 in Min R 20in www Coherent com LMC sales coherent com EnergyMax Sensors MaxUV Coating J SOMUV 248 and J 25MUV 248 Device Specifications J SOMUV 248 and 193 Adjustable 225 55 mm 8 88 in Max 143 00 mm 5 63 in Min Features resistance e Operate over the 190 nm to 2 1 um range e Measure up to 400 Hz repetition rate A COHERENT e Enable pulse energy measurements from 50 pJ to 1J e Spectral compensation characteristics built into each unit e Unique MaxUV coating delivers highest DUV damage threshold and long term UV exposure resistance e Onboard sensors provide automatic temperature compensation MaxUV coated EnergyMax sensors are specifically optimized for use with ArF lasers operating at 193 nm and KrF lasers at 248 nm These sensors feature high accuracy and large active areas up to 50 mm and use a unique coating called MaxUV that delivers superior long term damage Two of the 50 mm diameter models incorporate a DUV quartz diffuser for increased resistance to coating damage Model J S0MUV 248 J 50MUV 248 J 5SOMUV 193 J 5OMUV 193 J 25MUV 248 J 25MUV 193
59. 10 19B PM150 19B PM150 50A 51 mm 38 mm 5 mml 30 mm Heson E 2 01 in 1 50 in 2 01 in 1 50 in O19 mm or in oTe in oe Toll Free 800 343 4912 54 O19 mm 2 01 in 75m Tel 408 764 4042 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 69 A COHERENT OEM Thermopiles 300 MW to1kW Features S ENERGY 300 MW to 1 kW i e Spectrally flat from 0 19 um to 11 ym e Compact designs Power amp Energy Meters e Air cooled or water cooled e Active area diameters from 19 mm to 50 mm e Supplied with water fittings Power BeamFinder Use with penisole LabMax see page 10 Energy Sensors Model PM150 50B PM150 50XB PM1K 36B BeamFinder Custom amp OEM Device Model PM150 50B PM150 50XB PM1K 36B BeamFinder Specifications Wavelength Range um 0 19 to 11 0 15 to 1 0 19 to 11 oz tolob E Resolution mW 30 30 1000 1000 Min Water flow gpm 02 0 2 1 0 1 0 Max Avg Power water cooled W 150 1000 Max Avg Power air cooled 5 min W 80 40 a Responsivity typ 0 4 MV W 0 1 MV W Max Power Density 26 kW cm 2 5 kW cm2 Max Energy Density 0 6 J cm2 0 5 J cm ser 1064 nm 10 NS 1064 nm 10 NS Cross
60. 1037713 BeamMaster PCI Upgrade Kit Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 87 A COHERENT POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 88 ModeMaster PC M Beam Propagation Analyzer Features How Does the ModeMaster PC Work The ModeMaster PC head is a dual knife edge beam profiler integrated with a diffraction limited precision scanning lens which is translated along the beam propagation axis The lens focuses the beam to create an internal beam waist and the two orthogonal knife edges X and Y which are mounted on a rotating drum measure the beam diameter and beam axis location at 256 planes along the beam waist as the lens is translated The powerful ModeMaster PC software then derives the M factor the size and location of the beam waist the far field divergence angle the pointing direction astigmatism and asymmetry and the Rayleigh range e Measurement and display of CW laser divergence M or k and astigmatism e Beam sizes 0 2 mm to 25 mm e Wavelengths from 220 nm to 15 um
61. 1W resolution T Power e 50 mm apertures amp Energy Meters Power Sensors Energy Sensors Model PM200F 50X PM300F 50X PM1KX Custom amp OEM Device Model PM200F 50X PM300F 50X PM1KX Specifications Wavelength Range um 0 15 to1 0 15 to1 Power Range W 1 to 200 1 to 300 100 to 1000 EA Long Pulse Joules Range J 1 to 200 1 to 300 Max Intermittent Power lt 5 min W 300 450 1500 Resolution mW 100 100 1000 Max Power Density 26 kW cm 2 1 to 10 kW cm2 percents Max Energy Density 0 6 J cm 1064 nm 10 ns 0 6 J cm 1064 nm 10 ns Response Time sec 5 30 Detector Coating UV UV Laser Cross Active Area Diameter mm 50 5O pee Dimensions mm 102 X102X114 127 X 127 X 127 D120 xX 59 Index 4 0 X 4 0 X 4 4 in EXIXEN Cirp PELA Calibration Uncertainty 1 5 Calibration Wavelength nm 514 1064 apne Cooling Method Fan cooled Water cooled nels Cable Type PM DB 25 PM DB 25 Cable Length m 2 2 Part Number 1113493 1098481 1115484 1 The damage resistance of the coating is dependent upon the beam size and profile the average power level and the water flow rate Contact Coherent or your local representative for details related to your application 2 Water fittings are included with PM1KX PM200F 50X PM300F 50X PM1KX 127 mm 127 mm 102 mm 114 mm 4 02 in 5 0 in 50 mm 0 75 in 50 mm 1 97 in 50 mm 2 0 in Adjustable
62. 202 272 mm 7 95 10 71 in Adjustable 227 299 mm 8 94 11 77 in Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 49 A COHERENT Power Sensor Accessories Thermal SmartSensor Adapter The Thermal SmartSensor Adapter converts LM model position sensing POWER thermopiles and LM 2 optical sensors for use with FieldMaxtll FieldMate SNEEN and EPM2000 meters Designed for use with multiple sensors this adapter can read the sensor Mitac iis EEPROM contents and program itself when powered up via the meter Meroe connection Note Beam position information is not available when using these meters Power Sensors ETErOy Part Number Description Sensors 1056827 Thermal SmartSensor Adapter Thermal SmartSensor Adapter Custom amp OEM 1000 1 Attenuator BEAM DIAGNOSTICS This attenuator is used with OP 2 VIS LM 2 VIS OP 2 IR and LM 2 IR sensors to allow operation up to 5W in the visible and 3W in the infrared regions The attenuator threads into the sensor in place of the light shield to CALIBRATION F 5 amp SERVICE provide from 1100 1 to 950 1 attenuation Each attenuator is calibrated for 1000 1 5 at 647 nm and is supplied with a calibration certificate The useful spectral range is 400 to 1800 nm Laser Cross Reference Index 1100 1 i AO O a p Model 1000 1 Name Index Attenuation Ration oO O O O O 1000 1 Attenuator 400 600 800 1000 120
63. 248 nm USB 2 0 Cable 6 ft standard A B cable included Trigger Connector BNC receptacle trigger cable included Part Number 1098577 149004 1 Order part number 1086828 for metric mount 272mm 272mm 1 07 in 1 07in LaserCam HR LaserCam HR UV 410mm 161 n 418mm 165 n 68 1mm m 179mm 268 n 07 in NI 743mm 6B 1mm mi 68 1mm 187mm 268 n 074in Nd 743mm 68 1 mm 293in 268 n 2 93 in 268 n 793mm 793mm 3 12 in 3 12in Q conmrant 20 3 mm Q conmrant 11 2 mm 08 n 044 n Image Plane LDFP Adapter Image Plane LDFP Adapter 92mm 99mm 0 36 in 039 in g g 1420 UNC 1420 UNC 14 Superior Reliability amp Performance www Coherent com LMC sales coherent com 3 COHERENT Beam Diagnostic Cameras LaserCam HR InGaAs Features e USB 2 0 large area InGaAs sensor 9 6 mm x 7 7mm e 14 bit digital output providing gt 1000 1 optical dynamic range e Outstanding linearity error of lt 1 e 30 um x 30 um pixel pitch e Compact 50 x 50 x 68 mm package e CW and pulsed operation including external triggering e Coherent Adaptive Pixel Technology CAPT pixel by pixel offset linearity and blemish correction e Variable exposure time 20 psec to 25 msec
64. 5 to 1 0 1W 200W 100 mW 1 t0 200 5O UV 514 1 PM DB 25 1098509 PM300F 19 0 19 to 1 0 1W 300W 100 mW 1 to 300 19 Broadband 514 1 PM DB 25 1098417 PM300F 50 0 19 to 1 0 1W 300W 100 mW 1 to 300 50 Broadband 514 1 PM DB 25 1098481 PM300F 50X 0 15 to 1 0 1W 300W 100 MW 1 t0 300 50 UV z 514 1 PM DB 25 32 Superior Reliability amp Performance www Coherent com LMC sales coherent com Power Sensors Introduction Summary of Specifications A COHERENT Wavelength Power Long Pulse Detector Detector Calibration Calibration Connector Part Range Min Max Resolution Energy Diameter Coating Wavelength Uncertainty Number Description um Range J mm nm T High Power Water Cooled Thermopile Sensors to 5 kW 1098392 PM1K 0 19 t0 11 0 100W 1000W 1W 50 Broadband 1064 5 PM DB 25 Bower 1098462 PM3K 0 19 t011 0 100W 3000W iW 50 Broadband 1064 5 PM DB 25 ervey 1098454 PM5K 0 19 t0 11 0 100W 5000W 1W 50 Broadband 1064 5 PM DB 25 Large Area High Power Water Cooled Thermopile Sensors to 5 kW Power 1098490 PM1K 100 0 19 t0 11 0 100W 1000W 1W 100 Broadband 1064 5 PM DB 25 zon eors 1098506 PM3K 100 0 19 t0 11 0 100W 3000W 1W 100 Broadband 1064 5 PM DB 25 1098461 PM5K 100 0 19 t0 11 0 100W 5000W 1W 100 Broadb
65. 50 118 mm 50 mm 118 mm i z C 150 mm Tel 408 764 4042 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 41 A COHERENT Water Cooled Thermopile Sensors 10 MW to 300W Features PEA e Water cooled but can be used air cooled for short periods of time e Spectrally flat from 0 19 um to 11 ym e 1 MW to 100 mW resolution Power amp Energy e 19 mm and 50 mm apertures Meters These compact sensors are ideal in tight spaces but must be water cooled in order to achieve their full power specification during continuous operation Power They can also be mounted to a heat sink or used standalone for intermittent Sensors E use Tap or distilled cooling water is recommended with these sensors DI water can not be used Flow rates are power dependent and range from 0 5 to 4 gallons per minute pressure depends upon flow rate and ranges from 3 to 40 Energy PSI visit product pages at www Coherent com LMC for more technical details sles Water fittings are included Models PM300 PM150 50C PM150 19C OEM versions of these sensors with passive and amplified outputs can be Custom found on page 69 amp OEM Device Model PM10 19C PM150 19C PM150 50C PM300 Spec
66. Aperture a ei Heist 198in M6 6HTHD Plate M4 X 17 78 mm XW 610mm 07 in THD XV 5 08 mm 0 24 in and 10 5 mm an mm 25 25 mm 0 20 in and i f No 1 4 20 0 41 in 0 18 in and 0 99 in No 1 4 20 UNC 2B THD i UNC 2B THD X 10mm Adjustable No 8 32 UNC 2B Adiustabl XT508 Adjustable 024in f 189 99 mm THD XV 6 35 mm justable 08 mm 225 55 mm 024 in itor 7 48 in Max 025in f 200 15 mm 0 20 in for 8 88 in Max Mounting Sensor 0744mm e 7 88 in Max Mounting Sensor 143 00 mm etia al Mo nting Sensor 117 60 mm 5 63 in Min 4 23 in Min 4 63 in Min Q orman _ 76 20 mm a R 50 80 mm a o 76 20 mm E 50 80 mm A H 762mm k 508mm al 8 0 in em 3 Oin 2 0in 3 0in 20in Note Detector Surface Note Detector Surface Note petedtor ous baie ah ye is 3 81 mm 0 15 in Below Front Fach ot Aperture Plate Below Front Face of Aperture Plate Aperture Plate 58 Superior Reliability amp Performance www Coherent com LMC sales coherent com A COHERENT EnergyMax Sensors Diffuse Metallic Coating J SOMT 10KHZ J 25MT 10KHZ J 1OMT 10KHZ Device Specifications J SOMT 10KHZ Adjustable 22555mm 8 88 in Max 143 00 mm 5 63 in Min conma 30in Note Detector Surface is381 mm 0 15 in Below Front Face of Aperture Plate m 7620mm 76 20 mm 30in 50 20 mm 198in Toll Free 800 343 4912 Model Features e Unique diff
67. B LE 58 J 1I0MT 10KHZ 59 J 10SI LE 62 J 10SI HE 62 J 10GE 62 J 25MB HE 58 J 25MB IR 60 J 25MT 10KHZ 59 J 25MUV 193 w o Diffuser 61 J 25MUV 248 w o Diffuser 61 J SOMB HE 58 J SOMB IR 60 J SOMB LE 58 J SOMB YAG 60 J SOMT 10KHZ 59 J SOMUV 193 w Diffuser 61 J SOMUV 193 w o Diffuser 61 Toll Free 800 343 4912 Tel 408 764 4042 Model Name A COHERENT Page Number J SOMUV 248 w Diffuser 61 J SOMUV 248 w o Diffuser 61 J Power Energy Sensor Adapter 65 LabMax TO 12 LabMax TOP 12 53 LabMax TOP w GPIB 12 Large Heat Sink 64 Lasercam HR InGaAs 75 Lasercam HR UV 74 Lasercam HR 74 LaserCheck 8 LM 10 26 31 LM 100 35 LM 1000 27 LM 150 FS 36 LM 150 LS 36 LM 2 IR 38 LM 2 UV 38 LM 2 VIS 38 LM 20 36 LM 200 35 LM 2500 a7 LM 3 26 34 LM 45 26 34 LM 5000 37 Low Divergence Lens Kit IR 93 Low Divergence Lens Kit UV 93 Low Divergence Lens Kit VIS NIR 93 Medium Heat Sink 64 ModeMaster PC 88 NIR High Divergence 92 NIR Low Divergence 92 OP 2 IR 38 OP 2 UV 38 OP 2 VIS 38 PM10 AO PM100 19C Al PM10 19A 69 PM10 19B 69 PM10 19C 29 PM10V1 46 PM10X 47 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index 101 POWER amp ENERGY Power amp Energy Meters P
68. Cable Type J DB 25 Part Number 1110574 10747 1110856 1 Except J 10MT 10KHZ 2 Optional energy range 50 uJ to 100 mJ available 3 Extend average power range with optional heat sink See page 55 and 64 4 Cable lengths up to 10m possible Contact factory J 25MT 10KHZ J 10MT 10KHZ 1638 mm is 54 im 15 75 mm 2X 508mm 0 20 in 0 24 in and No 1 4 20 UNC 2B THD XV 610 mm 0 24 in for Mounting Sensor Adjustable 200 15 mm 7 88 in Max 11760 mm 4 63 in Min 0 62 in 40 64 mm 50 80 mm X 5 84 mm 1 6 in 2X 5 08 mm 2 0 in 0 23 in 0 2 in Avertur Aperture Bia M6 6H THD Plate M4 X 17 78 mm XW 508mm 0 7 in THD 25 25mm 0 20 in and 105mm XV 4 57 mm 0 99 in No 1 4 20 0 41 in 0 18 in and UNC 2B THD Adjustable No 8 32 UNC 2B xX 508mm 189 99 mm THD XV 6 35 mm 0 25 in for ounting Sensor 0 20 in for Mounting Senso 7 48 in Max 107 44 mm 4 23 in Min L 76 20 mm B 50 80 mm p L 5080 mm L 76 20 mm a L 50 80 mm al 3 0 in 2 0 in 2 0in 3 O in 2 Oin Note Detector Surface Note Detector Surface is 3 81 mm 0 15 in is 3 81 mm 0 15 in Below Front Face of Below Front Face of Aperture Plate Aperture Plate Tel 408 764 4042 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Lase
69. LCD and an intuitive user interface offering button driven control for simple operation The meter Supports onboard analysis of mean min max and standard deviation Statistics It can measure power from nW to kW and pulse energy from nJ to J at up to 300 pps In addition long pulse Joules energy measurements can be made on the FieldMaxll TOP model when using thermopiles The meter includes a USB PC interface as well as an analog output The FieldMaxll PC applications software supports trend charting tuning statistics and logging data to a file A LabVIEW instrument driver with ActiveX control is provided to support custom software developments Features e USB PC Interface e FieldMaxll PC is completely open source so that you can use it to help develop your own customized applications e Multiple meters can be run on a single PC useful for final test and burn in applications e Meters can be operated remotely via host interface and included drivers e Software features Measure Tune Trend displays Statistics e LabVIEW instrument driver and ActiveX DLL server included Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 13 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp
70. LMC sales coherent com Laser Measurement and Control Table of Contents A COHERENT Calibration Warranty and Service 96 97 amp ENERGY Measurement Products for Use with Coherent Lasers 98 100 R Meters Model Name Index 101 102 Power Doing Business with Coherent 103 mee How to Contact Us 104 si Visit the Coherent Website Inside Back Cover cs amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 3 A COHERENT New Products f New to the Catalog PowerMax USB RS Sensors POWER amp ENERGY Features move e PowerMax USB provides direct USB 2 0 connection Meters to PC Power provided via USB connection e PowerMax RS provides RS 232 connectivity Power input provided via 5 VDC input ii e Instrumentation platform is compatible with thermopiles and optical sensors are e Displays beam position with position sensing quadrant Sensors thermopiles with LM model sensors like LM 10 e Complete meter electronics inside connector eon e Power range uW to kW SEM PowerMax USB Sensors BEAM DIAGNOSTICS CALIBRATION Sagan PowerMax PC Software Aes Features Reference Index e Trending Statistics mean minimum maximum and standard deviation and log batch to file aes e Tuning Display beam position on position sensing Index thermopiles and log results to file Histogram e Operat
71. M10 or PS10 LabMax TOP J 10MT 10KHZ lt 1 mJ pump J 10MB HE gt 1 mJ pump TOPAS FieldMaxll TO PM 10 or PS10 LabMax TOP J 10MT 10KHZ lt 1 mJ pump J 10MB HE gt 1 mJ pump Other Coherent measurement product configurations may be compatible with these lasers Coherent Family Plan pricing may apply see page 103 Contact factory for more details 1 With medium heat sink The PS10 is recommended when making higher resolution or low power measurements 3 See above for sensors to measure pump lasers Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 99 A COHERENT POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 100 Measurement Products for Use with Coh Matrix of Recommendations Excimer Lasers Laser Wavelength nm Power Meter Power Sensor Energy Meter Energy Sensor BraggStar 193 248 FieldMaxll TO PM10X LabMax TOP J 25MT 10KHZ COMPexPro F2 157 FieldMaxll TO PM10X FieldMaxll TOP J 25MUV 193 COMPexPro 193 FieldMaxll TO PM150 50XC FieldMaxll TOP J SOMUV 193 50 102 110 201 205 COMPexPro 248 FieldMaxll TO PM150X FieldMaxlI TOP J 50MUV 248 plus 50 102 110 201 205 large heat sink COMPexPro 308 351 FieldMaxll TO PM150X FieldMaxll TOP J SOMB YAG 102 110 201 205 ExciStar XS 200 157 193
72. NC cable Model J100 Wavelength Range um 0 3 to 12 Energy Range 0 4 mJ to 5J Max Avg Power 20 Typical Response Rv VZ 3 Max Rep Rate pps 50 Max Pulse Width us 200 Detector Coating Black Detector Diameter mm 95 Dimensions mm 0153x 65 Calibration Uncertainty 2 Calibration Wavelength nm 1064 Connector lype BNC Cable Length m 1 5 separate Part Number 0011 6100 1 Maximum energy is pulse width dependent J100 Adjustable 253 323 mm 9 96 12 72 in Front View Toll Free 800 343 4912 65 mm 2 56 in Tel 408 764 4042 O95 mm 3 74 in Side View Fax 503 454 5727 3 COHERENT POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 67 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 68 A COHERENT Custom and OEM Products Introduction Complete Laser Measurement and Control Solutions Laser system integrators frequently include laser measurement products in their systems to monitor system performance and status or to provide real time feedback for laser system control In t
73. R Laser Cross Spectral Sensitivity Curves for Quantum EnergyMax Sensors a Model Name Index Energy J 200 400 600 800 1000 1200 1400 1600 1800 Wavelength nm Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 63 A COHERENT EnergyMax Accessories Heat Sinks POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Small Heat Sink Laser 50 80 mm Cross 2 0 in Reference Index Model Name Index 50 80 mm 2 0 in 3 43 mm d 0 14 in EnergyMax Heat Sinks No 8 32 UNC 2A THD SOC HD Cap Screw Medium Heat Sink Features e Extend EnergyMax average power e Easily attach to EnergyMax sensors in the field e Two heat sinks for 25 mm sensors small and medium e One heat sink for 50 mm sensors large These heat sink accessories can be used to extend the energy and repetition rates of EnergyMax sensors by increasing the average power capability Easily installed they are simply theaded onto the back of a sensor housing with a cap screw retained within the heat sink The small and medium models for use with sensors that have a 25 mm diameter aperture increase the average power handling into the 10W to 30W range coating and wavelength dependent The large heat sink for use with 50 mm diameter aperture sensors increases the average power handling into the 20W t
74. Rare Innova lt 1W 200 to 100 FieldMaxll TO PS10 amp ENERGY Innova gt 1W 200 to 100 FieldMaxll TO PM10 O Switched Laser Wavelength nm Power Meter Power Sensor Energy Meter Energy Sensor RN Lasers Evolution lt 30W 527 FieldMaxll TOP PM30 LabMax TOP J 25MT 10KHZ plus Senay medium heat sink Rie Evolution gt 30W 527 FieldMaxll TOP PM150 Ultrafast Laser Power Meter Power Sensor Energy Meter Energy Sensor Power Oscillators Pump Lasers sensors APNE Ana Verdi V2 V5 V6 V8 FieldMaxll TO PM Accessories AAE AA E i l Verdi V10 V12 V18 FieldMaxll TO PM30 nergy Evolution 15 30 FieldMaxll TO PM30 LabMax TOP J 25MT 10KHZ Sensors Evolution HE FieldMaxll TO PM150 Oscillators Micra FieldMaxll TO PM10 or PS10 Custom amp OEM Mira goo FieldMaxll TO PM10 Mira HP FieldMaxll TO PM10 Chameleon FieldMaxll TO PM10 aaa Vitesse FieldMaxll TO PM10 or PS10 DIAGNOSTIES Mantis FieldMaxll TO PM10 or PS10 Oscillator Accessories Mira OPO FieldMaxll TO PS10 E Chameleon Compact OPO FieldMaxll TO PS10 Amplifiers Legend Elite F P USP USX FieldMaxll TO PM10 LabMax TOP J 25MT 10KHZ oe Legend Elite Duo F P USP USX FieldMaxll TO PM30 LabMax TOP J SOMT 10KHZ S Legend Cryo FieldMaxll TO PM10 LabMax TOP J 25MT 10KHZ Libra FieldMaxl TO PM30 LabMax TOP J 25MT 10KHZ Madal RegA 9000 9050 FieldMaxll TO PS10 pene Hidra FieldMaxll TO PM10V1 Field Maxl TOP J SOMT 10KHZ Amplifier Accessories OPerA Solo FieldMaxll TO P
75. Response Time sec 5 10 Reference Index Detector Coating Broadband UV Broadband H Active Area Diameter mm 50 36 35 Dimensions mm 89 x 89 X 32 83 X 83 xX 22 84 X 84 X 25 4 peta e525 x12 in 3 2 x 3 2 x 0 8 in 3 3 x 3 3x1 0 in Index Calibration Uncertainty 1 5 Calibration Wavelength nm 514 1064 10 600 Cooling Method Water cooled Connector Type BNC terminated LM DB 25 Cable Length m 6 Part Number RoHS 1098415 1098441 1098333 1098427 1 BeamFinder incorporates a quadrant thermopile disk that enables the position of the beam to be sensed PM150 50B PM150 50XB PM1K 36B BeamFinder 83 8 mm 89 mm 32 mim ew 3 3 in 3 50 in 1 26 ae 22 mm a T 0 87 in 36 mm 83 8 mm 1 42 in 3 3 in 50 mm aie ane 1 97 in a in 35 6 mm 1 4 in 70 Superior Reliability amp Performance www Coherent com LMC sales coherent com 3 COHERENT Custom and OEM Products Complete Laser Measurement and Control Solutions Additional electrical connection water fitting and mounting details for several of our OEM thermopiles can be found below POWER PM10 19A PM150 19A PM150 50A PM10 19B PM150 19B PM150 50B PM150 50XB PM1K 36B S ENERGY Style Active amplified output Style Passive output Input Output connector 4 pin Molex part no 22 12 2044 Output connector BNC pin 1 10 to 20V power input Output impedance 2500 Ohm are pin 2 Ground Water connec
76. S19 PS10 PM3 required specify the PS10Q or PS19Q which include a wedged quartz window for applications from 0 3 to 2 0 um The quartz window more effectively eliminates thermal background radiation and the effects of air currents Custom amp OEM Device Model PS10 PS100 PS19 PS190 PM3 PM30 Specifications Wavelength Range um 0 193 to 11 0 3 t02 0 193 to 11 0 3 to2 0 193 to 11 0 3 to 2 BEAM Power Range 100 UW to 1W 500 UW to 2W DIAGNOSTICS Resolution uW 10 50 Max Thermal Drift 40 UW 20 UW 400 UW 20 UW 1 mW 500 UW Max Avg Power Density 0 5 kW cm Max Pulse Energy Density 50 mJ cm2 10 ns 1064 nm percents Response Time sec 2 Detector Coating Black Quartz Filter Window No Yes No Yes No Yes Laser Active Area Diameter mm 10 19 19 10 irae Dimensions mm M84 x 49 3 3 X1 9 in 063 x 36 2 4 x1 4 in Index Calibration Uncertainty 1 Calibration Wavelength nm 514 edel Cooling Method Air cooled Name Cable Type PM DB 25 mda Cable Length m 2 Part Number 1098350 1098400 1098413 1098341 1098336 1098419 1 Power stability over 30 minutes in a typical lab environment Light tube supplied with PS10 and PM3 models only 3 190nm to 300 nm operation restricted to lt 100 mW average power and lt 250W cm2 power density PS10 PS100 PS19 PS190 PM3 PM30 1 93 in desim 10 mm E eon 36 mm 0 39 in ey 075m EMS oniy A i KM3 only 248in od i Adjustable Adjustable 22 m l T 39 mm 184 254 mm 184 254 mm NR IPR Lont Tube U Ps
77. System rotational mount shown is an 13 1 mm 0 5 in F gt 15 1 mm 0 6 in 87 mm 3 43 in ae option and is not included Entrance Aperture Removable Filter UV and Si only BeamMaster is a high precision multiple knife edge mm scanning laser beam profiler which can be configured to 1 97 in Sree Sample measure and display cross sectional profiles and PAOR F X O or 2D and 3D image plots in real time up to 5 Hz Selectable T Thread averaging of 1 to 20 samples provides noise reduction and ee lt ena b d 35 2 mm 8 32 3 5mm 8 32 CALIBRATION maximizes measurement accuracy Data can be collected 7 39 in Thread 0 14 in Thread Rice SUICE displayed stored and continuously streamed to the RS 232 port All screen images can be captured and stored or be printed to any Windows supported printer eee Cross Reference BeamMaster can measure focused beam spots as small as Effectively Index 3 um with o 1 um resolution and has an aperture as large as scans g mm with 1 um resolution for larger beams Measurements ges normal 7 can be made from 190 nm to 100 nm Si Enhanced and tie sees J aoa from 800 nm to 1800 nm InGaAs Input powers can Index be as low as 10 UW There is automatic gain control and I i l EEA two internal distortion free optical attenuation filters are Drum included Si Enhanced models Circum Multiple Knife Edges for Greater Resolution and Accuracy BeamMaster is an advancement
78. TION amp SERVICE Laser Cross Reference Index Model Name Index 35 A COHERENT Beam Position Sensing Thermopile Senso 100 MW to 150W Features PEA e Spectrally flat from 0 19 to 11 um e 10 MW to 100 mW resolution e 19 mm apertures Power a par e FC and SMA fiber connectors available as see page 51 Poste Use with LabMax cea The LM 20 is designed for embedded use see page 10 and must be mounted on a heat sink The LM 150 FS and LS sensors are designed 30 4 Energy for intermittent operation Light shield is a m iri removable E Models LM 150LS LM 150FS LM 20 10 4 LM 150 FS and LS Power Duration o Custom 0 50 100 150 200 amp OEM Power W Device Model LM 20 LM 150 LS LM 150 FS Specifications Wavelength Range um 0 25 to 10 6 E Power Range 100 MW to 20W 100 MW to 150W 100 MW to 150W Long Pulse Joules Range J 0 5 to 10 Resolution mW 10 Max Power Density 6 kW cm iah Max Energy Density 0 5 J cm2 1064 Nnm 10 ns Detector Coating HTD Detector Diameter mm 19 Laser Dimensions mm D60 x 32 7O X JO X 36 89 X 38 Cross 2 4 X 1 3 in 2 8 x 2 8 x1 4 in GSXLAIN Reference Index Calibration Uncertainty 3 Calibration Wavelength um 10 6 Cooling Method Conductive cooled Air cooled me Cable Type LM DB 25 Index Cable Length m 1 8 Part Number 1098456 1098452 1098394 LM 20 LM 150 LS LM 15
79. The combined accuracy of the measurement is calculated by using the law of propagation of uncertainty using the root sum of square square root of the sum of squares sometimes described as summing in quadrature where Wavelength Compensation Accuracy Measurement Accuracy U2 W2 where U Percent Calibration Uncertainty and W Wavelength Accuracy Example 1 J 10SI HE used at 355 nm U 3 W 5 Measurement Accuracy 32452 Example 2 J9 25 58 J 10MB LE used at 532 nm U 2 W 2 Measurement Accuracy J22 2 J4 4 28 Wavelength Compensation Accuracy Calibration for wavelengths other than the Wavelength Model calibration wavelength nm All Multipurpose Sensors MaxBlack Coating 2 1064 All High Repetition Rate Sensors Diffuse Metallic Coating 3 1064 J SOMB YAG 2 1064 J SOMB IR 3 1064 2940 J 25MB IR nal 1064 J 25MUV 193 3 193 J 25MUV 248 3 248 J SOMUV 193 4 193 J SOMUV 248 A 248 J 10S1 LE 5 532 J 10SI HE 5 532 J 10GE 5 1064 Superior Reliability amp Performance www Coherent com LMC sales coherent com A COHERENT EnergyMax Laser Energy Sensors Introduction and Selection Charts The next table summarizes the maximum average power rating for each sensor These power levels are achieved by combining
80. Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 31 A COHERENT Power Sensors Introduction Summary of Specifications Wavelength Power Long Pulse Detector Detector Detector Calibration Calibration Connector SOUR es mer D rn Min Max Resolution Energy Diameter Coating Type Wavelength Uncertainty amp ENERGY um Range J mm nm High Sensitivity Semiconductor Sensors to 50 mW Power 1098401 OP 2 UV 0 25 tO 0 4 10 nW 30 mW 1 nW 6 0 Silicon 8 OP DB 25 p 1098313 OP 2 VIS 0 4 to1 064 10 nW 30 mW 1 nW 7 9 Silicon 5 OP DB 25 1098416 OP 2 IR 0 8 to 1 8 10 nW 10 mW 1 nW z 5 0 a Germanium 4 5 OP DB 25 1098390 LM 2 UV 0 25 tO 0 4 10 nW 30 mW 1 nW 6 0 Silicon 8 LM DB 25 Power 1098298 LM 2 VIS 0 4 to1 064 10nW 30 MW 1 nW 7 9 Silicon 5 LM DB 25 penser 1098342 LM 2 IR 08to155 10nW W 10mW 1nW 5 0 Germanium 4 5 LM DB 25 High Sensitivity Thermopile Sensors to 2W S 1098350 PS10 019to1 0 100 UW 1W 10 UW 0 001 to 1 10 Black 514 1 PM DB 25 1098400 PS10Q 0 3t02 0 100 uW 1W 10 UW 0 001 to 1 10 Black 514 1 PM DB 25 1098413 PS19 019 t01 0 100 pW 1W 10 UW 0 001 t0 1 19 Black 514 1 PM DB 25 1098341 PS190 0 3 to 2 0 100 UW 1W 10 UW 0 001 t0 1 19 Black 514 1 PM DB 25 an 1098336 PM3 0 19 t011 0 500 uW 2W 50 uW 19 Black 514 1 PM DB 25 1098419 PM30 0 3t02 0 500 uW 2W 50 uW 10 Black 514 1 PM DB 25 BEAN Air Cooled Thermopile Sensors to 150W DIAGNOSTICS 1098329 PM2 019 t0
81. a only 7 24 10 0 in 7 24 10 0 in 186 mm to 227 mm PMS only 6 81 in to 8 96 in x il GB qeerent 76mm m 30in gt Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 39 A COHERENT Air Cooled Thermopile Sensors 10 MW to 30W Features POWER Ri ENERGY e Convective air cooled 3 e Spectrally flat from 0 19 um to 11 ym e 1 to 10 mW resolution Power amp Energy e 19 mm aperture Meters Lidia These thermopile sensors are used to measure CW and pulsed lasers aaa from 10 mW up to 30W average power output These sensors are able to _ dissipate heat via convection cooling which makes them convenient to use Energy Sensors Models PM2 PM10 PM30 Custom amp OEM Device Model PM2 PM10 PM30 Specifications Wavelength Range um 0 19 to 11 E Power Range 10 MW to 2W 10 MW to 10W 100 MW to 30W Long Pulse Joules Range J OR 10 2 0 5 to 10 0 5 to 50 Max Intermittent Power lt 5 min W 5 30 50 Resolution mW 1 10 iah Max Power Density 26 kW cm2 Max Energy Density 0 6 J cm 1064 Nnm 10 ns Response Time sec 2 Laser Detector Coating Broadband Nee aes Active Area Diameter mm 19 Index Dimensions mm 46 X 51X10 D63 x 36 D101 x 56 1 8 x 2 0 x 0 3 in 2 4 x 1 4 in 20x22 in Calibration Uncertainty 1 peta Calibration Wavelength nm 514 Tiel Cooling Method Air cooled Cable Type PM DB 25 Cable Length m 2
82. air and Calibration At times we may find it necessary to repair the device before the final calibration can take place If any problems are identified or if repairs will result in additional charges you will be contacted by a Customer Service representative Only then will we calibrate and recertify your equipment in our labs Reporting Results Returned equipment is accompanied by a Calibration Certificate including Before and After results for sensors and a data report Superior Reliability amp Performance www Coherent com LMC sales coherent com Calibration and Service A COHERENT Warranty Limited Warranty Coherent Inc warrants to the original purchaser that its laser power and energy meters and sensors are free from defects in materials and workmanship and comply with all specifications active at the time of purchase for a period of twelve 12 months Coherent Inc will at its option repair or replace any product or component found to be defective during the warranty period This warranty applies only to the original purchaser and is not transferable Extended Warranty Coherent Inc offers original purchasers of laser power and energy meters and sensors an extended twelve month warranty program which includes all parts and labor In order to qualify for this warranty a Customer must return the Product to the Company for recalibration and recertification The Company will recertify the Product provide
83. al adjust to set the baseline of the EnergyMax voltage pulse to coincide with a horizontal grid line see Figure 1 This setting becomes the zero for the peak voltage reading Adjust the time base of the scope to show a single EnergyMax pulse and then focus on the leading edge to accurately read the peak voltage see Figure 2 To avoid affecting the calibration of the sensor with a coaxial cable do not lengthen the cable when using the sensor with the oscilloscope Al 873m a simy E Coupling L timp ance EE E D AE o I GND W zoomv 4 ML0008 A Chl sr tFamv fi 23 00 m Sa i imes i i in a a i Fine Scale a Prule Coupling invert Banik Posli lori Diir be on 2oMie 200m goomdi agony tu sdi E Figure 2 www Coherent com LMC sales coherent com Miscellaneous Energy Sensors J100 Energy Sensor J100 Device Specifications Features e Large area 95 mm diameter e Broad spectral response 0 3 to 12 um e Wide dynamic range of 0 4 mJ to 5J e High average power to 20W e JSA BNC adapter 1098306 needed for use with FieldMaxll TOP and LabMax TOP The J100 is a pyroelectric energy sensor with a flat broad spectral response calibrated at 1064 nm The 95 mm diameter active area is ideal for divergent sources and pulsed lasers used in applications such as laser range finding The sensor output is through a BNC connector and the product ships with a1 5 m B
84. ameter calculations Multiple channel camera support of different Lasercam HR camera models is available for all three LaserCam HR camera types UV visible and InGaAs Variable camera exposure time available with the entire LaserCam HR camera family allows imaging of higher repetition rate sources and lets the user decrease increase the signal inten sity levels using exposure time instead of exter nal attenuation This feature is especially suited for the LaserCam Hk InGaAs with its impressive Spatial uniformity characteristics Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 73 A COHERENT Beam Diagnostic Cameras LaserCam HR and LaserCam HR UV Features PA e USB 2 0 10 bit digital output e Large area CMOS array 8 5 x 6 8 mm e Compact 68 x 68 x 34 mm package Power amp Energy e Coherent Adaptive Pixel Technology CAPT pixel by pixel offset nok linearity and blemish correction e CW and pulsed operation including external triggering Power e Variable exposure time Sensors e User variable trigger delay LaserCam HR LaserCam HR UV e Long term UV sensor stability with the LaserCam HR UV camera Energy e C mount thread for additional accessories Sensors Device Model LaserCam HR LaserCam HR UV Specific
85. an be used to reduce stray light which is helpful when measuring on the low end of the power range Model UV VIS Wavelength Range nm 325 to 1065 Power Range 5 UW to gt 100 mW wavelength dependent see chart on page 7 Noise Equivalent Power nW 100 Maximum Power Density W cm 20 Response Time sec Speed up On Speed up Off 0 to 100 0 1 Detector Element Silicon photodiode Optic ND2 Detector Diameter mm 10 Calibration Uncertainty 2 Power Linearity 1 Spectral Compensation Accuracy 4 325 to 900 nm 5 900 to 1065 nm e The 51 mm ae m 76 mm 3 0 in Superior Reliability amp Performance Note Detector Surface is 3 56 mm 0 14 in below 2 0 in front face of aperture plate Calibration Wavelength nm 514 Cooling Method Air Cable Type USB Cable Length m 25 Part Number 1168337 1 Software and post stand included 43 mm UV VIS Quantum ee 20 mm i 0 81 in 51 mm Note Light shield 2 0 in is removable Adjustable 165 mm to 220 mm 6 5 in to 8 66 in a SIMM www Coherent com LMC sales coherent com A COHERENT PowerMax USB RS Sensors UV VIS Quantum Overview We incorporate spectral compensation in the PowerMax USB UV VIS sensor to provide accurate measurements across the 325 to 1065 nm spectrum Because the spectral respon
86. and 1064 5 PM DB 25 1098505 PM5K 200 0 19 t0 11 0 100W 5000W 1W 200 Broadband 1064 5 PM DB 25 TERI Position Sensing Air Cooled Thermopile Sensors to 200W 1098328 LM 3 0 25 t010 6 10 mW 3W 1 mW 0 5 to 10 19 HTD 10600 2 LM DB 25 1098304 LM 10 0 25 t010 6 10 mW 10W 1 mW 0 5 to 10 16 HTD 10600 2 LM DB 25 Parent 1098456 LM 20 0 25 t010 6 100 MW 20W 10 mW 0 5 to 10 19 HTD 10600 2 LM DB 25 1098320 LM 45 0 25 t0 10 6 100 MW 45W 10 mW 0 5 to 10 19 HTD 10600 2 LM DB 25 1098346 LM 100 0 25 t0 10 6 100 MW 100W 10 mW 0 5 to 10 19 HTD 10600 2 LM DB 25 BEAM 1098394 LM 150FS 0 25t010 6 100mW 150W 10 mW 0 5 to 10 19 HTD 10600 2 LM DB 25 DIAGNOSTICS 1098452 LM 150 LS 0 25 t0 10 6 100 MW 150W 10 mW 0 5 tO 10 19 HTD 10600 2 LM DB 25 1098450 LM 200220V 0 25t010 6 100 MW 200W 10 mW 0 5 to 100 19 HTD 10600 5 LM DB 25 1098440 LM 200110V 0 25t010 6 100 mW 200W 10 mW 0 5 t0 100 19 HTD 10600 5 LM DB 25 CALIBRATION amp SERVICE Position Sensing Water Cooled Thermopile Sensors to 5 kW 1098409 LM 1000 0 25to10 6 100W 1000W 1W 38 Broadband 10600 5 LM DB 25 Laser 1098437 LM 2500 0 25to10 6 100W 2500W 1W 55 Broadband 10600 5 LM DB 25 FAREN 1098421 LM 5000 0 25 t010 6 100W 5oooW 1W 55 Broadband 10600 5 LM DB 25 Index High Peak Power Thermopile Sensors to 30W Model 1098338 PM10V1 0 25 t0 3 0 10 mW 10W 1 mW 19 Volume Absorber 514 1 PM DB 25 pene 1098429 PM30V1 0 25 t03 0 100 mW 30W 10 mW 19 Volume Absorber 514 1 PM DB 25 Off the Shelf OEM Power Sensors to 1
87. as high as 100 kHz Custom Measurement Products Sometimes a completely custom product is required for a particular application Our research and development teams of electrical mechanical and software engineers physicists chemists and materials scientists can provide measurement systems to meet the most complex challenges By involving Coherent early in your design phase we can provide the very best solution e Custom detectors and sensors Interface modules with unique communication protocols e Extremely low energy and or high repetition rate energy measurement Modified Standard Products Sometimes a slight modification to a standard catalog product is all that is needed to enable a special application Mechanical e Longer or shorter cable Different type of connector e Slight mechanical change Calibration e Different calibration wavelength www Coherent com e LMC sales coherent com OEM Thermopiles 10 MW to 150W Models PM10 19A PM10 19B PM150 50A 3 COHERENT Features e 10 MW to 150W e Spectrally flat from 0 19 um to 11 ym e Compact designs e Air cooled or water cooled e Active area diameters from 19 mm to 50 mm The sensors on the next two pages are small compact OEM thermopiles designed for use in embedded applications Power ratings are provided for water cooled and air cooled installations see page 18 for additional air cooled ratings for various exposure times For conductively cooled ins
88. asers Diode Lasers Diode Pumped Solid State Lasers CW Diode Pumped Solid State Lasers Pulsed Laser Wavelength um Power Meter Power Sensor C 30 10 6 FieldMaxll TO PM30 C 40 C 55 C 7o 10 6 FieldMaxll TO PM150 G 100 G 150 10 2 tO 10 7 FieldMaxll TO PM150 G 100i 9 4 0 3 FieldMaxll TO PM150 K 250 K 225i K 300 10 4 to 10 8 FieldMaxll TO PM300F 19 E 400 K 500 10 2 to 10 8 FieldMaxll TO PM1K Laser Wavelength nm Power Meter Power Sensor CUBE 375 to 785 FieldMaxll TO PS10 Radius 375 to 635 FieldMaxll TO PS10 All Laser Diode Modules FieldMaxll TO PS10 FAP 780 to 840 LabMax TOP LM 150FS SMA adapter HighLight FAP 785 to 820 LabMax TOP LM 150FS SMA adapter Quattro FAP 790 to 980 LabMax TOP LM 150FS SMA adapter HighLight 4000L 805 to 940 FieldMaxll TO PMs5K 100 HighLight 1000F 975 FieldMaxll TO PM1K Laser Wavelength nm Power Meter Power Sensor Azure 266 FieldMaxll TO PM10X or PS10 Compass 115M 215M 315M 532 FieldMaxll TO PS10 Compass 561 561 FieldMaxll TO PS10 Genesis CX STM 355 460 480 488 532 577 FieldMaxll TO PM10 Genesis MX STM 460 480 488 532 561 577 FieldMaxll TO PM10 Genesis Taipan 460 480 488 532 561 577 FieldMaxll TO PM10 MBD 200 455 to 1070 FieldMaxl TO PS10 MBD 266 266 FieldMaxll TO PM10X or PS10 Paladin 355 355 FieldMaxll TO PM10X Sapphire LP Family A458 460 488
89. ation storage with password protection e Image data file formats in binary bin ASCII img bmp jpg png tif e Far field optic focal length e Camera pixel size horiz and vert analog only e Power energy calibration factor e On off axis simultaneous display of Position cursor Cross section profiles Gaussian fit profiles Reference profiles Aperture overlay for e Beam uniformity e energy power Rotatable color 3D isometric plot 360 90 rotate tilt Hidden transparent wire Selectable wire density Solid or single color Auto rotate mode Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 81 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 82 A COHERENT Beam Diagnostic Accessories Laser Grade Attenuation Optics for Cameras Features Attenuation Optics and Accessories Most cameras are too sensitive for direct viewing of laser beams For example a typical diagnostics camera saturates at only 0 5 UW cm2 power density at 633 nm or at 9 nJ cm2 at 1064 nm pulsed energy density If the camera has an electronic sh
90. ations Sensor Elements pixels 1280 X 1024 Custom Effective Pixel Resolution um 20X20 SOEN Pixel Size um 6 7 xX 6 7 Sensor Active Area mm H x V 8 5 x 6 8 2 3 inch format Spectral Range nm 300 to 100 without LDFP 190 to 355 ar 400 to 1100 with LDFP included DIAGNOSTICS 190 to 355 with BIP 12F accessory Beam Diameters mm 0 2 to 6 0 0 5 to 6 0 Glassless Sensor Low Distortion Face Plate is removable Low Distortion Face Plate Laser grade ND filter UV grade ND filter CALIBRATION LDFP LDFP UV OD 2 5 at 632 8 nm OD 3 0 at 248 nm a Electrical Interface USB 2 0 Capture Modes Continuous CW pulsed Continuous CW pulsed Variable Exposure Time 1 msec to 1 sec default at 10 msec TR Pulsed Mode Trigger Methods Trigger In TTL Reference Maximum Pulse Trigger in Rate Hz 100 without averaging adjacent pulses Index Maximum Frame Rate FPS Live video no calculations 15 20 wanes Capture with calculations 10 15 Namie Damage Threshold 32 mJ cm2 without LDFP at 1064 nm 200 J cm without LDFP UV at 248 nm Index CW Saturation 40 MW cm2 with LDFP at 633 nm 90 MW cm2 with LDFP UV at 248 nm 16 uUW cm without LDFP at 633 nm 90 UW cm2 without LDFP UV at 248 nm 800 MW cm2 with LDFP at 1064 nm 320 UW cm2 without LDFP at 1064 nm Pulsed Saturation 8 mJ cm2 with LDFP at 1064 nm 5 mJ cm2 with LDFP at 248 nm 3 2 J cm without LDFP at 1064 nm 5 W cm without LDFP at
91. ave your measurement system serviced and recertified once a year Extended use of laser power and energy meters as well as local environmental factors can have an adverse effect on accuracy and also result in wear and damage to parts critical to optimum performance Recertify Once a Year To optimize performance and longevity and to remain compliant with ISO requirements Coherent recommends that power energy meters and sensors be recertified at least once a year We Provide Certification Our investment in service and calibration facilities and personnel is ongoing and we strive to maintain our unique technological edge Our Quality Management System is registered to ISO 9001 2000 our products are NIST traceable and our calibration labs meet the requirements of ANSI Z540 Our Calibration Lab has a full spectrum of light sources from 193 nm to 10 600 nm with powers ranging from nanowatts to kilowatts By duplicating the actual environment of the user we can calibrate verify and certify all laser power energy meters Obtaining Warranty Service In order to arrange for warranty service or annual recalibration contact your closest Coherent service center to obtain a Return Material Authorization RMA number see next page Initial Evaluation When you return equipment to Coherent for calibration each device is given a thorough initial evaluation to determine if it can be calibrated adequately in its As Received condition Rep
92. chment of any C Mount threaded optical accessory such as a BCUBE high power attenuator pickoff optic see the Beam Diagnostics Accessories section on page 82 BeamMaster Specifications Measurement Rate Hz 5 Wavelength Range nm 190 to 100 BM 7 Si Enhanced BM 3 Si Enhanced 800 to 1800 BM 7 InGaAs 3 or 5 mm BM 3 InGaAs 3 mm Sensor Aperture 9 mm square BM 7 Si Enhanced 5 mm circular BM 3 Si Enhanced 3 mm circular BM 3 and BM InGaAs optional BM 7 InGaAs 5 mm available Minimum Beam Size um 15 BM 7 all models 3 BM 3 all models Beam Size Resolution 1 um for beams gt 100 um in size 0 1 um for beams lt 100 um in size Position Measurement Resolution um 1 Position Measurement Accuracy um 15 Beam Width Measurement Accuracy 2 Beam Power Range 10 UW to1W with supplied internal filters saturation 0 1 W cm without filter 20W cm2 with NGo filter BM 7 BM 3 Si Enhanced 10 uW to 5 mW no filters provided saturation 0 1 W cm2 BM 3 InGaAs BM 7 InGaAs Relative Power Measurement 0 1 UW resolution Sensor Head Weight g 56g Part Number 1037702 BeamMaster BM 7 Si Enhanced 1037699 BeamMaster BM 3 Si Enhanced 1037710 BeamMaster Bm 7 InGaAs 3 mm 1037712 BeamMaster BM 7 InGaAs 5 mm 1037708 BeamMaster BM 3 InGaAs 3 mm 1038024 BeamMaster Rotation Mount 33 7147 000 BeamMaster C Mount Adapter Plate
93. commended ranges E EA this beamsplitter provides additional high power attenuation capability for the BIP 5000Z It provides a right angle pick off function and attaches to BIP 5000SPL the entrance aperture of the BIP 5000Z Beamsplitter CALIBRATION amp SERVICE Device Model BIP 12F 2 1 BIP 12F 1 1 BIP 5000Z BIP 5000SPL Specifications Wavelength nm 10 to 355 10 to 320 10 to 320 ane Aperture mm 12 30 X AO 50 tome Resolution camera dependent um 20 70 Saturation at 193 to 248 nm 10 mJ cm 30 mJ cm2 Model at 308 nm 50 mJ cm2 50 mJ cm2 ee Sensitivity 5 uJ cm 5 W cm Damage Threshold CW 5W cm2 1 5W cm2 10W cm2 Pulsed 500 mJ cm2 600 mJ cm2 50 J cm2 Uniformity Over Aperture 5 Image Persistence 500 ns 5 US fluorescence lifetime Image Magnification 24 ie 6 1 Zoom to 1 1 Part Number 33 3468 000 1053418 33 3484 000 33 3492 000 BIP 5000Z BIP 12F Oo Z 103 90 samm 4 1 ind 3 5 in 1 77 in L 394 mm 15 5 in 93 mm 3 66 in 84 Superior Reliability amp Performance www Coherent com LMC sales coherent com A COHERENT BeamMaster Knife Edge Beam Profiler Features e CW laser beam shape power and position measurements T e Beam sizes from 3 um to 9 mm with 0 1 um resolution and high dynamic range e Real time Windows display analysis and data logging system R Meters e Wavelengths from 190 nm to 1800 nm Power Sensors Energy Sensors z BM 3 BM 7 Custom BeamMaster
94. corporates a Germanium photodiode All three models i contain large 10 mm clear apertures and operate at repetition rates from single pulse up to 10 kHz Power amp Energy Meters The main difference between Quantum EnergyMax sensors and other Coherent EnergyMax sensors is their sensitivity Quantum EnergyMax sensors are capable of measuring considerably smaller signals than the Beat rest of the EnergyMax sensor line They do this by utilizing a photodiode Sensors rather than a pyroelectric element Due to the quantum nature of their response photodiode sensors are inherently more sensitive than pyroelectric sensors which are thermal based One consequence of this extra sensitivity is the possibility of LabMax TOP and J 10SI LE measurement error or noise from stray modulated light sources for example stray reflections or room lights in a laboratory environment Energy Sensors Custom For this reason Quantum EnergyMax sensors are designed for use with amp OEM a small integrated input beam tube which limits the field of view of the sensor aperture This tube is removable for alignment purposes and custom applications BEAM o DIAGNOSTICS The following chart plots the minimum and maximum measurable energy of each sensor across all wavelengths This chart can be used to determine the measurable energy range for wavelengths other than those in the j j CALIBRATION specifications table 1064 nm and 532 nm e
95. d by Microsoft adapted into a PowerMax USB cable that can be integrated l _ l to most Coherent power sensors providing accurate power PowerMax RS provides RS 232 connectivity Power input measurements of all types of CW and pulsed sources from provided via 5 VDC input the UV to Far IR Instrumentation platform is compatible with thermopiles and optical sensors This measurement platform can also be used to measure the energy in a long laser pulse typically greater than 1 millisecond in pulse width by integrating the output of a thermopile sensor Displays beam position with position sensing quadrant thermopiles with LM model sensors like LM 10 High resolution 24 bit A D converter supports measurement accuracy equivalent to that found in The PowerMax RS sensors incorporate the same circuitry Coherent s top of the line LabMax meter inside an RS 232 connector to provide a convenient platform for integrating power measurement inside laser processing systems that often incorporate RS 232 inputs instead of USB Four digits of measurement resolution Sensors include spectral compensation for accurate use at wavelengths that differ from the calibration wavelength Each device receives a unique spectral compensation curve specific to the absorption of its specific element as well as transmission characterization of any associated optics Thermopile sensors include a speed up algorithm that speeds up the natural response of the
96. de dimensions that are at least 6 in 15 cm taller wider and deeper than the product The shipping carton must be constructed of cardboard with a minimum 375 Ibs 170 kg test strength Cushion the instrument unit in the shipping carton using 3 in 7 5 cm of packing material or urethane foam on all sides top bottom and between the carton and the instrument or sensor Seal the shipping carton with shipping tape or an industrial stapler Shipping addresses for our repair and calibration facilities are given below USA Europe Coherent Laser Measurement and Control Service Center Attn your RMA number 27650 SW 95th Avenue Wilsonville OR 97070 USA Dieselstr 5b Germany Toll Free 800 343 4912 Coherent Deutschland GmbH D 64807 Dieburg Tel 408 764 4042 Asia Coherent Japan Toyo MK Building 7 2 14 Toyo Koto Ku Tokyo 135 0016 Japan Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 97 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 98 A COHERENT Measurement Products for Use with Cc Matrix of Recommendations CO2 DIAMOND L
97. e 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 15 A COHERENT POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 16 BeamView Analyzer Software Introduction to BeamView USB Software To monitor analyze and archive laser beam images BeamView Analyzer software is recognized as the leading laser beam profiling software It has been designed to provide the maximum flexibility speed and user friendliness Coherent offers two BeamView Analyzer software packages for maximum flexibility BeamView Digital 3 2 is provided along BeamView USB Analyzer Software BeamView USB Analyzer Software The latest release of the BeamView USB 4 4 software includes several new features that extend the analytic capabilities of the LaserCam HR laser beam diagnostic systems These new features not available with Analog or Digital BeamView Analyzer Software include e Supports both 10 bit and 14 bit LaserCam HR camera types e Multiple LaserCam HR camera types can be connected to a single system e Flat top beam analysis Adjustable trigger delay
98. e Determination of waist location and diameters including D40 diameter and Rayleigh range e Angular and translational beam pointing stability Measurements also include ISO D40 second moment knife edge slit and D86 beam diameters The entire measuring process occurs in less than 30 seconds The ModeMaster PC also provides special weighting functions to help eliminate effects on measurement accuracy due to intermittent beam noise vignetting or other transients during the focus scan Real time displays allow laser peaking or adjustment for minimum M divergence maximum power density far field pinhole profiles and pointing angle Complete Geometric Beam Characterization Along the Laser Beam Path Servo Driven Lens Pinholes Edges Beam propagation is concerned with the energy distribution in a beam and the change of that distribution along the beam path The ModeMaster Beam Propagation Analyzer established a new laser beam quality parameter M2 which Superior Reliability amp Performance e Beam Quality M e Beam Diameter e Waist Diameter amp Location e Divergence Angle e Rayleigh Range e Pointing Stability e Power Density e Beam Profiles e Second Moment Diameters e Astigmatism e Waist Asymmetry e Divergence Asymmetry has now become an ISO measurement standard M describes how close to perfect Gaussian a laser beam is and can be used to predict the beam size beam shape and the small
99. e free from defects and to work in the manner specified for a period of 12 months from date of shipment See page 97 for further warranty details Specifications Specifications are current at the time of publication but Coherent reserves the right to change these specifications at any time Refer to www Coherent com for the most current product specifications Terms and Conditions of Sale Terms and Conditions of Sale are specific to each country in which Coherent operates They are supplied with all quotations and invoices and can be sent by fax or mail on request Nothing in the foregoing statements modifies the Terms and Conditions in effect for each country of operation RoHS Compliance The majority of products in this catalog are RoHS compliant For more information on specific products please contact a Coherent Sales Office or Representative 103 A COHERENT How to Conte Contact Us by Phone Coherent Inc 800 343 4912 or 408 764 4042 Benelux 31 30 280 6060 China 86 10 6280 0209 France 33 0 1 6985 5145 Germany 49 6071 968333 Italy 39 02 34 530 214 Japan 81 3 5635 8680 Korea 82 2 460 7900 United Kingdom 44 0 1353 658833 Contact Us by Email Laser Products tech sales coherent com Laser Measurement Imc sales coherent com Service product support coherent com All Coherent product names are trademarks of Coherent Inc 104 All products indicated by an asterisk are r
100. e multiple devices simultaneously e Perform synchronized ratiometery A B analysis e Trend and log results to file PowerMax PC Software 4 Superior Reliability amp Performance www Coherent com LMC sales coherent com 3 COHERENT New Products New to the Catalog J Quantum EnergyMax Sensors POWER amp ENERGY Features e Pulse enegy measurement down to 8 pJ Power A E E amp Energy within line model dependent Meters e Average power measurement of pulsed sources from nW to mW level signal to noise ower characteristics Sensors e Measures single pulses to 10 000 Hz e Accurate spectral compensation Energy 325 nm to 900 nm for Silicon Sensors 800 nm to 1700 nm for Germanium e Robust and reliable construction Custom J 10SI LE amp OEM BEAM DIAGNOSTICS CALIBRATION J 50MB IR EnergyMax Sensor yer Features eae Reference e Very high energy and peak power handling capabilities Index e Operate at Nd YAG fundamental and harmonics and throughout the IR Noma Index e Enable pulse energy measurements from 1 mJ to 3J e Spectral compensation characteristics built into each unit e Onboard sensors provide automatic temperature compensation e No need to either change diffusers during use or perform your own spectral calibrations e Ideal for medical applications J 50MB IR and J 25MB IR Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 5 A COHERENT
101. e suite of LabVIEW libraries e Multiple trigger modes External asynchronous trigger input Autotrigger to a selected level Synchronous trigger output BeamView Digital and Analog software only e 3 resolution modes with BeamVlew USB 4 4 with the LaserCam HR and LaserCam HR UV cameras 1280 X 1024 X 10 640 X 512 X 10 640 X 512 X 8 Calibration Functions e Fully automatic background map correction pixel by pixel with bias offset e Automatic background monitor and warning e Automatic A D offset gain set analog only e Optical scale factor magnification reduction Standard Graphics Feature e Contour map with profiles aperture overlay 3 plot types contour 2D 3D Polar 4 scaling levels fixed scale to peak low intensity high intensity 4 style settings gray smooth sharp shaded bands e Live video mode e Calculation inclusion area display e Profile peak centroid position cursor e Graphic zoom e Auto scale 2D or profile intensity e Polar beam wander plot Toll Free 800 343 4912 Tel 408 764 4042 e 1 resolution mode with BeamView USB 4 4 with the LaserCam HR InGaAs camera 320 X 256 X 14 e 3 resolution modes with BeamView Digital Frame 752 x 480 pixels Full Field 376 x 240 pixels Half Field 188 x 120 pixels e Various capture modes Continuous Time interval On command keypress e High speed sample mode capture e Profile storage e Configur
102. each camera a laser grade neutral density filter made of glass specified and polished specifically for laser diagnostic analysis The LDFP filter is mounted in a standard C Mount ring and provides attenuation of ambient room light so that the camera can be used with normal room lights Coherent offers three families of cameras Lasercam Il and LaserCam IIID cameras use analog and digital interfacing respectively The latest edition Lasercam HR is based on USB technology USB 2 0 Beam Diagnostic Camera Family Coherent pioneered the ease of use of digital USB 2 0 bus powered high resolution large area cameras requiring only a single cable for both video transfer and camera power The LaserCam HR family of beam diagnostic cameras now includes the LaserCam HR UV and the LaserCam HR InGaAs models extending the measurement spectrum from the deep ultraviolet to the near infrared wavelengths The same features performance and convenience previously available only for wavelengths covered by the LaserCam HR are now available to users of excimer lasers telecommunication sources and military laser systems With a broad spectral range covering 190 nm to 1700 nm there is a LaserCam HR camera profiler system ideally suited for nearly any demanding laser mea Surement application Important Considerations e Ease of use connectivity e High speed USB 2 0 Interface e USB bus powered low voltage operation e Broad spectral range e LaserCam HkR 300
103. eased to accept orders online at www Coherent com or by phone fax e mail or mail When confirming an order that has been placed please indicate confirming on the order Pricing Prices are FOB Portland OR and do not include freight duty or any applicable taxes Please consult your local Sales Office or Distributor for export prices Coherent Family Plan Customers who have purchased a Coherent laser valued at greater than US 5 0K within the past 12 months are entitled to a 20 discount on Coherent laser measurement products Terms of Payment Acceptable terms of payment for domestic orders include cash with order major credit card C O D or Net 30 with prior approval of credit Export terms are strictly letter of credit cash in advance or major credit card Shipping Shipment means are at the discretion of Coherent but we will attempt to meet your special requests We do not take responsibility for any delays or damage caused by the shipper Returns Returns are accepted only after a return authorization number has been obtained from Coherent and credit will be allowed for items returned under authorization in good condition Order Cancellation Cancellation of orders will incur a termination charge of not less than 10 of the order value and Coherent reserves the right to charge for all costs incurred in support of any cancelled order A COHERENT with Coheren Warranty Goods are warranted to b
104. eference The spectral range of these sensor technologies and absorbing coatings are shown in the table below After identifying a sensor Index type and coating the detailed specifications in this catalog see pages 32 through 67 can be used to select a specific sensor model for your lication odel for your applicatio thea Name WAVELENGTH nm aa ae Model Wavelength nm 100 1000 10 000 Thermal Sensors PowerMax UV Coating 150 to 1000 cores PowerMax Broadband Coating 190 to 11 000 er Volume Absorber 250 to 3000 Semiconductor UV 200 to 400 Sensors VIS 400 to 1064 IR 800 to 1800 Ea Energy Sensors MaxBlack Coating 190 NM 12 000 mama m a aa a MaxUV Coating 190 tO 2100 e Diffuse Metallic Coating 190 to 2100 After selecting a sensor model the final step is to identify a meter to measure display and analyze the sensor output The information on the next page summarizes the capabilities and features of our meters and lists their compatibility with different sensors Visit www Coherent com LMC and use our Product Finder to assist you in making your sensor and meter selections Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 7 A COHERENT Meter Features Summary Table FieldMate FieldMaxll FieldMaxll FieldMaxll LabMax LabMax TOP TO P TOP TO EPM20
105. egistered trademarks of their respective companies A COHERENT Visit the Coherent Website for more information about how Coherent can enable your laser measurement application www Coherent com LMC Use the Product and Application Finders below to quickly get more helpful details Comprehensive Meter and Sensor Finder Applications Software and Drivers Frequently Asked Questions Enhanced Application Finder Brochures Tech Notes Technical Illustrations Videos Data Sheets A COHERENT Coherent Inc Corporate Headquarters 5100 Patrick Henry Drive Santa Clara CA 95054 United States Coherent Inc Portland 27650 SW gsth Avenue Wilsonville OR 97070 United States Toll Free 1 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 www Coherent com China Coherent Inc Beijing Room 215 Yin Gu Building No 9 Beisihuan Xi Road Haidian District Beijing 100080 China Tel 86 10 6280 0209 Fax 86 10 6280 0129 www Coherent com cn France Coherent France Domaine Technologique de Saclay Batiment Azur 4 Rue Ren Razel 91892 Orsay Cedex France Tel 33 1 69 85 51 45 Fax 33 1 60 19 40 00 www Coherent fr Printed in the U S A MC 010 09 xM1110Rev C Copyright 2010 Coherent Inc Germany Coherent GmbH DieselstralSe 5b D 64807 Dieburg Germany Tel 49 6071 968 333 Fax 49 6071 968 499 www Coherent de Italy Coherent Italia Via Borgese 14 Milano 20154 Italy Tel 39
106. el 408 764 4042 76 20 mm 3 O in Fax 503 454 5727 r 50 80 mm 2 0 in POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 61 A COHERENT EnergyMax Sensors Quantum Series Features POWER eL le ENERGY e Pulse enegy measurement down to 8 pJ within line model dependent e Average power measurement of pulsed sources from nW to mW level signal to noise characteristics Power amp Energy e Measures single pulses to 10 000 Hz Meters j e Accurate spectral compensation 325 nm to 900 nm for Silicon 800 nm to 1700 nm for Germanium Power Sensors e Robust and reliable construction Energy Sensors J 10SI LE Quantum EnergyMax sensors enable low energy pulse measurements down to the 8 pJ level as well as average power of pulsed systems from the nW to mW level across a broad range of wavelengths These sensors Custom amp OEM have a removable light shield on the front used to block stray light BEAM agree Device Model J 10SI LE J 10S1 HE J 10GE Specifications Energy Range 8 pJ to 80 nJ 532 nm 60 pJ to 775 nJ 532nm 200p to 600 nJ 1064 nm Noise Equivalent Energy lt 0 8 pJ 532 nm lt 6 pJ 532 nm lt 8 pJ 1064 nm CALIBRATION Wavelength Ra
107. em easy to connect POWER with the male C Mount connection flange provided with each attenuator SE Also all attenuators have 1 4 20 tapped holes for independent post or plate mounting Power The C Mount flanges threaded rings also have a female RMS microscope Tee thread This allows a microscope objective to be coupled to the attenuators and extension barrels in order to create a flexible close up imaging system for analysis of small focused beams fiber optics laser diodes or LEDs oe i Sensors Avoiding Multi Filter Beam Distortion gt The wavefront distortion through a number of optical filters can be i calculated by taking the square root of the sum of the squares of the aoe wavefront distortion of the individual components For example if the Sensors individual optics are made to A 10 specifications and six are used a total VARM LaserCam HR InGaAs C VARM BCUBE C Mount A 4 RMS wavefront distortion will be introduced to the beam Flanges and Barrel 0 12 0 1 0 1 0 1 0 1 0 1 0 25 Attenuator Selection ROEM Attenuation is selected on the basis of power density in In general a camera cannot sense less than A 4 total W cm or energy density in J cm2 The attenuation from distortion in the beam so if a series of filters is used they the camera s Low Distortion Face Plate LDFP will allow an must be made to very exacting laser grade specifications average power density of up to 1 2 mW cm2 There are then Se
108. ents Using a LabMax power energy meter or a PowerMax USB RS sensor expands the range of long pulse Joule measurements down into the low millijoule level when used with thermopiles such as the PS10 PS10Q PS19 and PS190 sensors Long pulse measurements are limited to single pulses in order to achieve the most accurate measurements Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 19 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 20 A COHERENT PowerMax USB RS Sensors Product Overview Models LM 45 LM 10 and LM 3 Coherent PowerMax USB sensors provide plug and play Features laser power measurement directly on a PC without the need PowerMax USB provides direct USB 2 0 connection to PC for es Sie ele ne anal ie Ee Power provided via USB connection Software and driver is Se GE ne oa en ere Gna vance Miler MAS en compatible with Microsoft XP Vista 32 bit and 64 bit and reduced in size to the extent that it can now fit inside a Windows 7 32 bit and 64 bit The driver is qualified and USB connector The circuitry and USB connector have been signe
109. ery high peak fluences Model J 50MB YAG J 50MB IR J 25MB IR Energy Range 1 5 mJ to 3J 1 0 mJ to 3J 1 5 MJ to 3J Noise Equivalent Energy uJ lt 50 lt 100 lt 50 Wavelength Range um 0 266 to 2 1 0 5 to 3 0 0532 70 22 Maximum Beam Size mm 35 30 12 5 Maximum Average Power W 20 15 20 Maximum Pulse Width us 340 1000 860 Maximum Repetition Rate pps 50 30 20 3 0in m 76 20 mm Maximum Energy Density J cm 14 0 at 1064 nm 10 ns gt 100 at 2940 nmM 100 us 5 0 at 1064 nm 10 ns 2 8 at 532 nm 10 ns 0 75 at 355 nm 10 ns 1 0 at 266 nm 10 ns Detector Coating MaxBlack MaxBlack MaxBlack Diffuser YAG IR IR Calibration Wavelength nm 1064 1064 2940 1064 Calibration Uncertainty 2 2 3 Energy Linearity 3 3 5 E Cable Length m 3 2 5 2 5 2 5 Cable Type J DB 25 J DB 25 J DB 25 Part Number 1110744 1155722 1110577 1 Modifed sensors with higher repetition rate energy range and or pulse width are available Contact factory 2 Extend average power range with optional heat sink See page 55 and 64 3 Cable lengths up to 10m possible Contact factory 76 20 mm 30in 27 91 mm 110in 2X 5 08 mm 0 20in 51 00 mm 201 in Superior Reliability amp Performance M6 6H THD X V6 10 mm 024in and No 1 4 20 UNC 2B THD X V6 10 mm 0 24 in for Mounting Sensor J 25MB IR 50 80 mm 2 0in 2
110. es when beam parameter limits are exceeded Upgrading to the ModeMaster PC All previous versions of the ModeMaster systems can be upgraded to the ModeMaster PC The original console unit and the LabMaster display are simply replaced with the ModeMaster PC Control Interface Module and Software installed in a user supplied compatible PC computer All original ModeMaster scan heads are fully compatible and can be plugged into the ModeMaster PC Control Interface Module which can be ordered separately with the software RS 232 Interface The ModeMaster PC can provide measured beam data analysis results and focus scan control through the RS 232 interface for remote data logging results monitoring and measurement control Pure Astigmatism Zox Loy Wox Woy Pure Asymmetry Zox Loy Wox Woy LMC sales coherent com www Coherent com COHERENT ModeMaster PC Laser Beam Quality The closer an actual laser beam is to diffraction limited the Real Normalizing more tightly it can be focused the greater its depth of field cape and the smaller the diameter of the beam optics can be to transmit the beam M is the ratio of the divergence of the actual beam to that of a theoretical diffraction limited beam of the same waist size in the TEMo9 mode Thus the angular size of the beam in the far field will be M larger than calculated for a perfect Gaussian beam pN my M2
111. est spot that can be created from the beam further downrange www Coherent com LMC sales coherent com A COHERENT ModeMaster PC M Beam Propagation Analyzer Coherent pioneered M beam propagation analysis with the ModeMaster system a decade ago Now the new ModeMaster PC Laser Beam Propagation Analyzer combines all the IsO compliant accuracy and powerful features needed for measuring M and other beam propagation analysis functions for CW lasers It also provides the added flexibility and value of a personal computer to provide optimum user control data processing storage and results display The ModeMaster PC includes a Universal Serial Bus USB control interface console and Windows software for operation with Windows 2000 or XP The ModeMaster PC is also compatible with all existing ModeMaster systems allowing legacy ModeMaster system users to easily upgrade their systems for use on a supported PC computer mai Pi as iimis a a a Bam bh barm ds dam ba a Beam Propagation Display Easy Beam Alignment The precision 5 axis head mount and beam position display of the ModeMaster PC provide easy angular alignment and translational centering of the lens and scan axis to the beam propagation path Second Moment Diameters Beam diameter is a critical parameter in beam propagation measurements Second moment diameters D40 give the best theoretical answers for beam propagation calculations The ModeMaster PC measures
112. est slides are coated with the same absorbing coating as the pyroelectric sensors If coating damage is visible then attenuation is required before measuring the beam Part Number Description 0011 4311 Pyroelectric Test Slide Black Coating used with legacy sensors 1129175 Pyroelectric Test Slide Diffuse Metallic Coating 0011 4313 Pyroelectric Test Slide MUV Coating 0011 4314 Pyroelectric Test Slide MB Coating Tel 408 764 4042 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 65 A COHERENT POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 66 EnergyMax Laser Energy Sensors Measuring Energy with an Oscilloscope To measure the energy of very high repetition rate and or low energy lasers an oscilloscope can be used to monitor the output of an EnergyMax sensor This page presents a step by step procedure for setting up an oscilloscope and using a pyroelectric EnergyMax sensor to accurately read a peak voltage output 1 To assure the accuracy of a pulse energy measurement make sure the oscilloscope is calibrated proper
113. hese instances custom measurement solutions or modifications to our existing products may be necessary due to size or performance constraints Coherent is well positioned to provide custom and modified measurement products Following are some examples of services and products Coherent offers OEM Power and Energy Sensors We provide an extensive line of OEM thermopile and energy sensors Usually a standard or existing modified standard product will fit your application Power Sensors Compact thermopile power sensors Water cooled and air cooled options e BNC and 4 pin Molex signal output options e Thermopile disks for integrating into heat sinked applications e Any standard thermopile with a cable can be integrated with an off the shelf interface module Energy Sensors BNC terminated energy sensors e Compact designs to fit in tight locations Acustomer supplied peak detection module or a Coherent meter or custom signal conditioning board is required Off the Shelf Interface Modules Several off the shelf electronic modules provide signal conditioning measurement and communication outputs Power Modules Amplification for very low power applications e Noise filtering e Analog output e PC interfacing e Beam position monitoring Superior Reliability amp Performance Energy Modules Baseline and peak detection capabilities Noise filtering for greater peak detection accuracy e Repetition rates
114. ic adapters are available on page 31 nee Device Model LM 3 LM 10 LM 45 Specifications Wavelength Range um 0 25 to 10 6 Power Range 10 MW to 3W 10 MW to 10W 100 MW to 25W Max Intermittent Power W lt 5 min 10 12 AS E Long Pulse Joules J 0 5 to 10 0 5 t010 0 5 to 50 Noise Equivalent Power mW 0 4 0 4 2 Maximum Power Density kW cm2 6 Maximum Energy Density mJ cm2 600 10 ns 1064 nm iah Response Time sec 0 to 95 Speed up On 1 6 1 6 2 6 Speed up Off 3 5 3 5 3 9 fare Detector Coating Broadband Cross Detector Element Thermopile Reference Index Optic None Detector Diameter mm 19 16 19 Calibration Uncertainty 2 peta Power Linearity 1 Index Spectral Compensation Accuracy H5 Long Pulse Joules Accuracy i Calibration Wavelength nm 10 600 Cooling Method Air Cable Type USB Cable Length m Ds Part Number 1168339 1168340 1168342 1 Software and post stand included LM 3 LM 10 LM 45 _ 8mm 89mm _ 3 38 in 3 52 in 81 mm 19 mm ORAS 3 17 in eee 075 n l h 13in i 13in 51 mm 64 mm 1 99 in 25 in 63 mm 63 mm in 2 48 in 2 48 in Adjustable 171 mm to 226 mm 673 in to8 Qin 18mm 16mm 0 72 in 0 62 in Adjustable Adjustable 93in to 906 6 93 in 10 9 06in i rs O n t caren H eon 4 Note Detector Surface Eg eon H eon Lt Note Detector Surface a eon Bi gam Note Detector Surface BOM a ___76 mm___ front face of aperture pia __76 mm___ fon
115. ifications Wavelength Range um 0 19 to 11 E Power Range water cooled 10 MW to 10W 300 MW to 150W 1 W to 300W Max Intermittent Power lt 5 min W SANV 20W SOW 450W Long Pulse Joules Range J 0 5 to10 1to 150 Resolution mW 1 30 100 rape etl Max Power Density 26 kW cm2 Max Energy Density 0 6 J cm 1064 nm 10 ns Response Time sec 2 5 Laser Detector Coating Broadband Nee aes Active Area Diameter mm 19 50 19 Index Dimensions mm Bi XSi x 30 89 x 89 x 32 76 x 56 20X20 Xi1in 3 5 X 3 5 X 1 2 in 2 9 x 2 2 in Calibration Uncertainty 1 peta Calibration Wavelength nm 514 Index Cooling Method Water cooled Cable Type PM DB 25 Cable Length m 2 Part Number 1098397 1098444 1098412 1141474 1 This intermittent power rating is for when the sensor is used without water cooling 2 This intermittent power rating is for when the sensor is used with water cooling PM10 19C PM150 19C PM150 50C PM300 30 aan OEN T 0 75 in 2 20 in 19 mm 0 75 in Adjustable 151 221 mm Adjustable 2 i 189 259 ee 7 44 10 20 in Fase 6 93 9 69 in 42 Superior Reliability amp Performance www Coherent com LMC sales coherent com A COHERENT Fan Cooled Thermopile Sensors 1W to 300W Features Models PM200F 50 PM300F 50 e Fan cooled e Spectrally flat from 0 19 um to 11 ym e 100 MW resolution e 19 mm and 50 mm apertures Fan cooled sensors are an excellent choice for measuring high power laser
116. igher damage threshold approaching 2 J cmz2 at relatively low repetition rates of approximately 10 pps For damage thresholds approaching 5 J cm2 the PM30V10 uses an additional quartz diffuser to Energy help scatter the beam before it hits the absorber surface A removable ue front aperture allows easy replacement of the volume absorbing substrate Models PM30V1 PM10V1 should it be damaged replacement absorbers may be ordered using part number 0011 8935 PMV1 KIT Custom amp OEM Device Model PM10V1 PM30V1 Specifications Wavelength Range um 0 25 tO 3 E Power Range 10 MW to 10W 100 MW to 30W Max Intermittent Power lt 5 min W 15 50 Resolution mW 1 10 Max Power Density 50 W cm iah Max Energy Density 2 licm tob nm ons Response Time sec 3 Detector Coating Volume Absorbing Laser Active Area Diameter mm 19 TA Dimensions mm 63 x 36 101 x 56 Index 2 4 x 1 4 in 3 9 x22 in Calibration Uncertainty 1 Calibration Wavelength nm 514 peta Cooling Method Air cooled Tiel Cable Type PM DB 25 Cable Length m 2 Part Number 1098338 1098429 1 Diffuser transmission calibrated at 266 nm 355 nm 532 nm and 1064 nm PM10V1 PM30V1 PM30V10 36 mm 1 42 in TO 19 mm 0 75 in pian 2 20 in 0 75 in Adjustable 163 233 mm 6 42 9 17 in oe 7 91 10 67 in 46 Superior Reliability amp Performance www Coherent com LMC sales coherent com 3 COHERENT Thermopile Sensors with UV Coating
117. ign for low power sensitivity T e Noise equivalent power down to 3 yW e Spectrally flat good for broadband light sources EA The PS10 and PS19 model sensors are thermally stabilized amplified KELE thermopile power sensors with a broad spectral response high sensitivity and a large active area These sensors are ideal for measuring laser diodes HeNe and HeCd lasers and small ion lasers The PS10 model includes a light Power tube mounted to the front of the housing which minimizes the effects of ai background radiation The light tube can be removed and replaced by FC or SMA fiber connectors see Accessories page 31 Where optimum stability is required specify the PS19Q which include a wedged quartz window Energy for applications from 0 3 to 2 1 um The quartz window more effectively Zain Models PS10 PS19Q PM3 eliminates thermal background radiation and the effects of air currents Device Model PS10 PS190 PS19 PM3 pean Specifications Wavelength Range nm 1903 to 1 000 300 to 2100 1903to 1 000 190 to 1 000 Power Range 100 UW to 1W 100 UW to 1W 100 UW to1W 500 UW to 2W Max Intermittent Power W lt 5 min 3 Long pulse Joules J 0 001 to1 EA Noise Equivalent Power uW 3 3 5 20 Maximum Thermal Drift uW 40 25 400 1000 Maximum Power Density W cm2 500 Maximum Energy Density mJ cm2 50 10 ns 1064 nm percents Response Time sec 0 to 95 Speed u
118. iles The ModeMaster PC provides real time measurement and display for fine tuning M and many other beam propagation parameters as well as the near field or far field pinhole intensity beam profiles Beam Pointing and Translational Stability ModeMaster is able to measure and display both translational parallel to the beam axis or angular from a pivot point beam movement over a period of 2 minutes to 24 hours The angular pivot point of the beam axis often a single optical surface can be located along the beam path Statistical analysis of the beam axis location and angle are displayed for both the X and Y axes Three levels of filtering reduce noise and increase the sensitivity of pointing stability measurements Beam Astigmatism and Asymmetry Changes in the shape of a propagating beam can be astigmatic asymmetric or both The beam shown at the near right has pure astigmatism the waists Wo in the horizontal and vertical directions are the same size but occur at different propagation distances Zo In asymmetric beams far right the two waists occur together but are of different diameters The ModeMaster PC provides complete analysis of these beam characteristics Superior Reliability amp Performance a a te Lag Duration 2 mins alll e baim ja a a a Pointing Stability Display Expanded Online Help The ModeMaster PC provides complete online help Help messages also suggest corrective measur
119. ions are e Plateau Uniformity e Flatness Factor Edge Steepness e Beam Uniformity Effective Irradiation Area Effective Average Power Energy Density Image of dialog box for flat top calculations www Coherent com LMC sales coherent com A COHERENT BeamView Analyzer Software BeamView Analyzer Software Features Adjustable Trigger Delay A new adjustable Trigger Delay feature in the BeamView USB 4 4 software lets POWER users add default trigger delay to the LaserCam HR camera This assists by S ay providing additional flexibility when firing the camera from an external trigger source such as the SYNC Output of a laser Power Adjustable Exposure Time ey The camera exposure time is adjustable through the camera settings menu for all LaserCam HR camera models Power Report Generation Sensors BeamView USB includes a single page report that can be sent directly to a printer Screen shot of Capture Trigger dialog box saved to a file txt or converted to an Adobe pdf file by using a pdf file converter showing Trigger Delay setting A simple screen print option is available from the same friendly dialog box used to Energy generate a report Sensors BeamView System Performance Optimization EM All BeamView Analyzer software provides several functions subtracts individual pixel noise levels from all subsequent that optimize the optical dynamic range available in the laser images prior to analysis The system al
120. kW 1098334 PM10 19A 0 19 t0 11 0 100 mW 10W 10 mW 19 Broadband 514 1 4 pin connector 1098343 PM10 19B 0 19 t0 11 0 100 mW 10W 10 mW 19 Broadband 514 1 BNC terminated 1098418 PM150 19A 0 19 t0 11 0 300 mW 150W 30 mW 19 Broadband 514 1 4 pin connector 1098321 PM150 19B 0 19 t0 11 0 300 mW 150W 30 mW 19 Broadband 514 1 BNC terminated 1098510 PM150 50A 019t01 0 300 mW 150W 30 mW 50 Broadband 514 1 4 pin connector 1098415 PM150 50B 0 19 t011 0 300 mW 150W 30 mW 50 Broadband 514 1 BNC terminated 1098441 PM150 50XB 0 15 to10 300 mW 150W 30 mW 50 UV 514 1 BNC terminated 1098333 PM1K 36B 0 19 to 11 0 100W 1000W 1W 5 36 Broadband 1064 5 BNC terminated 1098427 BeamFinder 0 25t010 6 100W 1000W 1W 35 Broadband 10600 5 LM DB 25 Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 33 A COHERENT 10 MW to 45W Features PEA e Spectrally flat from 0 19 to 11 um e 10 MW to 100 mW resolution e 16 mm to 19 mm apertures Power amp Energy e FC and SMA fiber connectors available Meters see page 51 Power Use with LabMax em These unique thermopiles incorporate a quadrant see page 10 thermopile disk that enables them to sense the position of the beam on the detector surface Energy This information is displayed by meters such as played by ue LabMax All Coherent products which incorporate Models LM 3 LM 10 LM 45 this position sensing technology are identified
121. le with thermopile and optical sensors e Wavelength compensation e Analog output e Compact and portable e AC and battery power e Auto ranging FieldMate combines a digital display and analog meter with sophisticated digital processing to enable rapid sensitive laser adjustment This meter also offers an economical way of measuring laser power when advanced data analysis is not necessary FieldMate Power Resolution 0 1 of full scale for all ranges in the 10s scale 0 3 of full scale for all ranges in the 3s scale Measurement Range Sensor dependent reference sensor specifications Accuracy Digital Meter 1 0 2LSD System Meter accuracy sensor accuracy Analog Meter 3 0 Analog Output 1 0 Uncertainty 1 0 Power Sampling Rate 20 Hz thermopile and optical Display 26 x 89 mm custom fixed segment LCD Analog Needle Scale o to 10 100 divisions o to 3 60 divisions Response 80 ms time constant Analog Output Voltage o to 2 VDC Update Rate 20 times sec Temperature Operating Range Storage Range 5 to 40 C 41 to 104 F 20 to 70 C 68 to 158 F Instrument Power 100 to 240 VAC 50 60 Hz Instrument Batteries Two OV alkaline batteries Compliance CE ROHS WEEE Dimensions H x W x D 193 X 117 X 46 mm 7 6 x 4 6 X 1 8 in Weight 0 8 kg 1 8 Ibs Front Panel PWR Toggle power ZERO Ambient offset AUTO Engage auto ranging A Ente
122. ly Also check the date for when the oscilloscope is due for recalibration N Select a scope that has a sensitivity of at least 2 mV and a bandwidth of at least 20 MHz 3 To connect an EnergyMax sensor to an oscilloscope you will need a J POWER DB25 to BNC accessory available from Coherent 4 Use the 1 Mohm input impedance of the oscilloscope when connecting any EnergyMax sensor Set up the scope as follows e Bandwidth to 20 MHz e DC coupling Trigger on slope and internal source or use the laser sync output and external source Ww 6 Estimate the approximate EnergyMax sensor voltage output expected based on the Rv V J of the sensor available on both the calibration certificate and the calibration sticker attached to the sensor cable and the typical laser pulse energy 1 chi Coupling amp impedance MI 200my M inops A ChI Fo tativ 0 ioe jim 50 Coupling invert manetwictery a Position Orset irad WE aii a Mite tal Minmily o 000 py 4 ee e Figure 1 Superior Reliability amp Performance If you know your expected laser pulse repetition rate set the scope time base to show 2 pulses on the screen This helps set the trigger and allows observation of the true baseline of the pulse For example for a laser running at 10 pps set the scope time base to 20 msec division Once proper triggering occurs use the vertic
123. mum Power Density kW cm2 6 Maximum Energy Density mJ cm2 600 10 ns 1064 nm Response Time sec 0 to 95 percents Speed up On 1 7 2 1 2 9 Speed up Off 3 4 32 11 9 Detector Coating Broadband a Detector Element Thermopile Cross Reference Optic None Index Detector Diameter mm 19 19 50 Calibration Uncertainty 2 a TO Model Power Linearity 1 Rae Spectral Compensation Accuracy 15 Index Long Pulse Joules Accuracy 3 Calibration Wavelength nm 10 600 Cooling Method Water Air intermittent Cable Type USB and RS Cable Length m 2 5 USB 0 3 RS Part Number 1168344 USB 1168346 USB 1168348 USB 1168345 RS 1168347 RS 1168349 RS PM10 19C PM150 19C shown with PowerMax RS cable PM150 50C shown with PowerMax RS cable 19 mm Boyer t 0 75 in ee a 71 Aye 187m esn LJ Baer ii n i i eon 89 mm i 35in 4 A Adjustable Adjustable Smear 5 ena fencer TEOR gpeg Seo E 17 ESR yn pars T CO T a 7 6MM___ front face of aperture p ate 76mm __ front face of aperture pla e 3 0 in 30 n Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 29 A COHERENT PowerMax USB RS Sensors OEM Thermopiles Overview Unlike the PowerMax USB that is powered through a PCs USB 2 0 POWER connection the PowerMax RS sensors must powered externally with a SNEEN 5 VDC power source An external
124. n e 41 3 mm 1 63 in lt 23 8 mm 0 94 in 12 7 mm 0 5 in 88 9 mm 23 8 mm 63 5 mm 3 5 in 0 94 in 2 5 in Square 88 9 mm 41 3 mm 1 63 in 3 5 in i Square 6 32 UNC 2B 6 3 mm 0 25 in Deep Mounting Hole 6 32 UNC 2B 6 3 mm 0 25 in Deep Mounting Hole Requires 15 VDC power input Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 n POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 12 A COHERENT Beam Diagnostics Introduction Introduction to Laser Beam Diagnostics In today s fast paced photonics market it is important to understand the technical specifications of highly complex laser systems and their applications As well as analyzing the power or energy it is also useful to understand the shape intensity profile and propagation of a laser beam For over 25 years Coherent has developed precision instruments that measure bw we OTE EE F FWP As a laser beam propagates changes in the laser cavity as well as changes in divergence and interactions with optical elements cause the width and spatial intensity of the beam to change in space and time Spatial intensity distribution is a fundamental parameter for indicating how a laser beam will behave in a
125. n accuracy Easy Set Up Feedback from the WaveMaster is straightforward Once the signal is applied to the probe the unit begins sampling to simplify set up In CW mode the WaveMaster will auto range to adjust the sensor integration time to match the incoming signal This allows the quickest set up and greatest versatility Selected Display Units The wavelength readings can be displayed in nanometers in air at standard temperature and pressure STP or shown as a calculated conversion from STP to nanometers in a vacuum or displayed as wave numbers cm7 or as frequency GHz Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 95 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 96 A COHERENT Calibration and Service Certification Calibrate Equipment to Maximize Longevity Laser power and energy meters from Coherent are precision instruments capable of delivering very accurate measurements during many years of useful service To maintain this high level of performance and to ensure compliance with your ISO certification it is important to h
126. n be rotated and viewed from different tilt angles Choice of 3D and 2D images BeamView Analyzer display with 3D image and ISO compatible results www Coherent com LMC sales coherent com A COHERENT BeamView Analyzer Software BeamView Analyzer Software Features Beam Stability The continuous on line statistical analysis display shows d ai a nE POWER results of all or a combination of functions and pass fail e F T E S ENERGY parameters for all captured samples and accumulated ra ne im results The user can scroll through the analysis results of st a Ti individual images and also view the minimum maximum pargi a jaa Power ane bi isi m amip ii Bii iiy amp Energy and sigma standard deviation values This makes m I k me Meters comparing individual samples to the time dependent imi siu are ra tie se ie statistical data easy Thus the jitter and stability of oe one i hans parameters such as power energy pointing direction shad i imm itia eet ellipticity and beam size etc can be analyzed a ir ASRI rT Bii Sensors simultaneously with a polar beam wander plot Continuous on line statistical analysis display Pass Fail Analysis nergy Pass Tfail analysis allows simultaneous real time monitoring Sensors of all or any one of the analysis results against user specified minimum maximum limits Any combination of or all the fault actions can be activated to signal a test failure initiate a visual
127. ndex Model Name Index 10 A COHERENT LabMax Meters Laser Power and Energy Meters Features e Measure power and energy e Ergonomic design enhances user experience e Directly compatible with PM Model and LM Model thermopiles e Display beam position with LM Model thermopiles e Log data to internal memory directly onto USB flash drive or to PC e USB RS 232 and GPIB PC interfaces e Software LabMax PC applications software LabVIEW instrument driver and ActiveX control LabMax TOP Power and Energy Meter Models e LabMax TOP is compatible with thermopile optical and pyroelectric power amp energy e LabMax TOP w GPIB adds IEEE 488 GPIB PC interface cable included e LabMax TO is compatible with thermopile and optical power and long pulse Joules LabMax is a versatile meter suitable for anyone who needs to analyze laser output It analyzes and monitors laser output via onboard data logging It also supports logging data directly to a USB flash drive provides enhanced data analysis and statistics as well as a form factor that allows flexible positioning and viewing angles so it can be used in areas with limited bench space These meters provide direct compatibility with LM Model and PM Model sensors with no need for adapters Sensor Compatibility LabMax displays beam position for quick and accurate setup and is directly compatible with most Coherent thermal pyroelectric and semiconductor sen
128. net Attenuating optics from Coherent are manufactured to better than a A 10 surface specification so at least six optics in series can be used Calculate the Low Distortion Face only two more steps to attenuation selection 1 Choose either the VARM or the C VARM for up to 1W cm2 Plate LDFP and each BCUBE as one optic and the VARM or 2 In addition or alternatively use a BCUBE beamsplitter pre C VARM as three optics each module to pick off between 2 and 10 of the beam depending on polarization and wavelength Laser Cross Device Model VARM C VARM UV C VARM BCUBE UV BCUBE BARREL SET S Specifications Barrels 3 C Mount Flanges Wavelength Model Min nm 380 380 190 380 190 Name Max nm 2200 2200 1100 2200 2200 index Attenuation From 4 X 102 1 107 1 107 1 50 1 50 1 To 1 1 3000 1 300 1 10 1 10 1 Aperture mm 19 17 17 19 19 Max Power Density W cm iM il d 2 0 X 109 2 0 X 109 Max Energy Density J cm onl 0 1 0 008 50 50 Damage Limit W cm2 5 X10 5 x10 2 5 X 109 2 5 X109 J cm2 10 10 0 008 50 50 Beam Offset mm 4 0 4 0 Part Number 33 3328 000 33 3336 000 33 6859 000 1098403 1098466 1098426 The maximum power and energy density listed are the levels at which thermal lensing occurs C VARM and UV C VARM VARM BCUBE and UV BCUBE 79 4 mm 3 13 in lt 61 mm 2 4 in gt lt 46mm Jesmem p m Pa 45 7 mm 40 6 mm 44 5 mm Bin
129. ng beam size position and power can be continuously displayed in analog digital and strip chart forms on the computer screen Data can also be logged to a data file in real time for later processing or test report generation Pass Fail testing can be performed on measured results for acceptance within specific tolerances Files can be transferred to another computer with an RS 232 link or data can be transferred in real time All screen images also can be captured and stored as BMP or JPG files or can be printed to any Windows printer 2D and 3D Intensity Plots The projection function provides either a 2D or 3D view of the beam intensity profile The projection is created using reconstructive tomography The same method is used to produce 3D images with X ray systems The more knife edges the greater the level of detail that can be obtained For a beam distribution that is significantly non Gaussian such as that from a diode laser the standard seven knife edge system can reconstruct a plot that closely matches the real beam When examining near Gaussian beams the three knife edge system gives an accurate intensity distribution BeamMaster 2D Intensity Plot 86 Superior Reliability amp Performance www Coherent com LMC sales coherent com BeamMaster A COHERENT BeamMaster Accessories The 2D contour maps and the 3D isometric plots can be displayed with or without scan axis and grids and the isometric plots can be rota
130. ng for limited amounts of time neh The following chart outlines how much power can be measured over a range of exposure times Note Water cooled sensors are Reference power rated in air cooled mode in this chart Index Model EXPOSURE LIMIT VS POWER Name Index 180 an De ee ee Gs GO O woh S l T TT wll IN a E a E E S a a a a O NANS fT ft PMis0 50 100 PM150 50C 0 AERIS i E pais B Power W w PM10 19B PM2 60 40 20 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 Time minutes 18 Superior Reliability amp Performance www Coherent com LMC sales coherent com 3 COHERENT Power Sensors Introduction Long Pulse Energy Measurement with a Thermopile Models PM10 19C PM150 50C and PM150 50XC Application Example 1 Laser Pulse Width 50 MS Maximum Energy 10J Solution Choose a PM10 Application Example 2 Laser Pulse Width 300 MS Maximum Energy 80 Solution Choose a PM150 or PM150 50C Specific sensor choice depends upon aperture and mechanical constraints Toll Free 800 343 4912 Tel 408 764 4042 Thermopile sensors are most commonly used for average power measurements on pulsed and CW lasers Thermopiles are also capable of integrating long pulse widths This allows the thermopile to measure the energy of single pulses between 1 millisecond and 10 seconds in length and with energies from millijoules to hundred
131. nge nm 325 to 900 325 to 900 800 to 1700 amp SERVICE Active Area Diameter mm 10 10 10 Max Avg Power mW 6 60 15 sae Max Pulse Width us 1 1 1 Cross Max Rep Rate pps 10 000 10 000 10 000 Reference oi a k dey Sensor Silicon Silicon Germanium Diffuser ND2 ND2 ND2 Calibration Wavelength nm 532 532 1064 peta Calibration Uncertainty 3 3 3 Index Linearity 3 3 5 Cable Length m 3 3 3 Cable Type J DB 25 J DB 25 J DB 25 Part Number 1140727 1150146 1140408 1 Cable lengths up to 10m possible Contact factory J 10SI LE and HE J10GE 4285mm 1 69 in J 20 45 mm 50 8 mm 081in 1 2 28 UNEF 2B 20in m 2X 4 57 mm Aperture agin Plate M6 6H THD V 508 mm 02in 5 08 and NO 1 4 20 UNC 2B THD 100mm Adjustable lt r 0 39 in 200 15 mm 7 88 in Max 117 6 mm 4 63 in Min V 508 mm 0 2 in for Mounting Sensor commen a 762mm 508mm ba 30in 20in Note Diffuser Surface is 3 56 mm 0 14 in Below Front Surface of Aperture Plate 62 Superior Reliability amp Performance www Coherent com LMC sales coherent com 3 COHERENT EnergyMax Sensors Quantum Series The Quantum EnergyMax series consists of three different models that provide very low pulse energy measurement down to 20 pJ Two of the POWER models J 10SI LE and J 10SI HE incorporate a Silicon photodiode and one m Soe model J 10GE in
132. nsor Summary Specifications 57 EnergyMax Sensors 58 63 EnergyMax Heat Sinks 64 EnergyMax Accessories 65 Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index A COHERENT Laser Measurement and Control Table of Contents Energy Sensors cont POWER ENR Measuring Energy with an Oscilloscope 66 J100 Energy Sensor 67 Power amp Energy Meters Custom and OEM Custom and OEM Products Introduction 68 Power aes OEM Thermopiles 10 mW to 1 kW 69 70 OEM Thermopile Detailed Drawings 71 Energy Sensors Beam Diagnostics Pree Introduction to Laser Beam Diagnostics 72 73 amp OEM Beam Diagnostic Cameras METE Lasercam HR 14 LaserCam Hk UV 7A LaserCam Hk InGaAs 75 CALIBRATION amp SERVICE BeamView USB Analyzer Software eee BeamView USB 76 81 Index Model Beam Diagnostic Accessories Name oa Laser Grade Attenuation Optics for Cameras 82 Attenuation Optics for Cameras 83 Extreme UV Beam Intensity Profile Optics 84 BeamMaster Knife Edge Based Beam Proflilers 85 87 ModeMaster PC M Beam Propagation Analyzer 88 93 WaveMaster Laser Wavelength Meter 94 95 2 Superior Reliability amp Performance www Coherent com
133. ny application And while theory can sometimes predict the behavior of a beam tolerance ranges in mirrors and lenses as well as ambient conditions affecting the laser cavity and beam delivery system necessitate verification Two types of beam profilers are available those that use special cameras as the beam detectors these are excellent for fast and detailed analyses of the intensity profile of pulsed and CW lasers and systems that use moving knife edges these have a large dynamic range and can accurately measure small and focused beams Coherent has both of these types available the camera based LaserCam HR on pages 74 to 75 and an advanced knife edge system BeamMaster on pages 85 to 87 ws GEE EE EF oF P Vote The Coherent ModeMaster beam propagation analyzer established an entirely new laser beam quality parameter that is now an ISO standard M is recognized as describing both how close to perfect Gaussian a beam is and also how well the beam can be focused at its intended target Wavelength Meter For many high performance tunable laser systems or those using laser diodes it is important to measure the wavelength The WaveMaster laser wavelength meter accurately measures the wavelength of both CW and pulsed lasers of any repetition rate to an accuracy of 5 picometers See page 94 for additional specifications for the WaveMaster Summary of Model BeamView Analyzer BeamMaster ModeMaste
134. o 4oW range coating and wavelength dependent See Average Power Capability table on page 55 for sensor specifications Large Heat Sink 76 20 mm 50 80 mm 3 0 in 2 0 in 77 98 mm 73 15 Sora 2 88 in 644 4 No 8 32 UNC 2A THD 4 06 mm 1 No 8 32 UNC 2A THD SOC HD Cap Screw 0 16 in SOC HD Cap Screw Part Number Description 1123430 Small Heat Sink 1123431 Medium Heat Sink 1123432 Large Heat Sink www Coherent com LMC sales coherent com Superior Reliability amp Performance A COHERENT EnergyMax Accessories J Power Energy Sensor DB 25 to BNC Adapter J Power The J Power is a compact sensor adapter that powers the EnergyMax active sensor circuit and passes the raw output voltage of the sensor di rectly to the BNC connector The peak voltage of the output as referenced from baseline voltage can then be measured using an oscilloscope or other analog to digital input device The cali brated peak voltage represents the integrated energy of the laser pulse Part Number Description 1132205 J Power Energy Sensor Adapter Pyroelectric Sensor Test Slides Test Slides Toll Free 800 343 4912 25 pin connector For direct analog measurement of EnergyMax sensors use J Power with a scope cL For protection of your sensor when measuring unknown beams the test slide is inserted into the beam and then examined for damage These t
135. ofile can be overlaid on any chosen measured profile and the fit and correlation parameters can be displayed Energy Sensors To obtain the maximum profile detail the system automatically centers the profile and zooms to display 3 times the beam width and the profile intensity data is autoscaled optional to fit the display height Added detail can be obtained in a special high setae resolution mode This mode is very useful for analyzing beams that are either far from amp OEM Gaussian in shape or smaller than 100 um Beam Position and Ellipticity The beam centroid position can be continuously monitored relative to the center of the Bienes sensor area along with the beam shape ellipticity major and minor axes and angular orientation A zoom function is available and the user can choose the clip level and strip chart the position X and Y data to monitor short term or long term time dependent stability or drift CALIBRATION amp SERVICE Power Measurement The beam power can be displayed either as a digital readout or in combination with an ee analog needle Units can be chosen as UW mW or dBm and the user can offset the Cross zero and zoom in on any part of the power range Attenuator filter files can be selected Reference spj Index and a test range can be selected and displayed to monitor beam power within specific limits with optional audio alarms Ne Data Collecting and QA Testing Index Data regardi
136. or statistical data are displayed but if Run is activated the image is stored and can be analyzed later 2D and 3D Intensity Plots The Run command switches the BeamView Analyzer from the Stop or Live Video mode to continuous operation which provides capture analysis and display of beam image data The view area of the computer monitor provides a choice of 2D or 3D images The 2D contour maps and the 3D isometric plots display laser beam intensity profiles in a choice of color and gray scale styles fixed and autoscaling to a peak and sizes te bi fe ee ee jap j z 5 allj ala E S ar A een ise iii oe 1 rae a ages fsi J id mi iii reece a TH ha P eRe ee B Superior Reliability amp Performance BeamView Analyzer Software Additional Features The following BeamView Analyzer features are common among both BeamView software platforms e More than 25 different numerical analysis functions e Several different profile views e Multiple image import and export formats e Import and export of results data and profile data e Pass Fail settings and user selectable fault actions The Live Video mode continuous zoom and pan control The 2D maps can be shown with or without profiles and Gaussian fit reference position variable aperture and rotatable crosshairs with auto peak and auto centroid location The 3D isometric plots can be displayed with transparent hidden or solid wires and ca
137. over the more common types of beam profilers which use two orthogonal knife edges or slits to scan the beam profile The BeamMaster model BM 7 uses seven individual knife edges on a rotating drum to scan the beam through seven different axes in a single rotation This provides more accurate measurements of the true beam shape and dimensions by tomographically combining the data from all seven scans to reconstruct a profile of the beam This technique also makes locating the angular orientation of elliptical beam major minor axes much easier than searching by rotating the sensor head around the optical beam axis For applications with circular or near Gaussian beams the lower cost BM 3 with only three knife edges is also available Inter changeable Filter Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 85 A COHERENT BeamMaster Knife Edge Beam Profiler Beam Profiles and Widths POWER On each rotation of the drum BeamMaster SNE captures and processes the data from the passage of the seven knife edges across the beam three knife edges with BM 3 as Near power position and profile information This Meters information can be displayed every rotation be strip charted and be sent to file or to the RS 232 port Two orthogonal profiles can be displayed Space and the beam widths can be digitally displayed Sensors for any three user chosen clip levels A Gaussian fit pr
138. ower Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index 102 A COHERENT Model Name Index Model Name Page Number PM150 Al PM150 19A 69 PM150 19B 69 PM150 19C A2 PM150 50 Al PM150 50A 69 PM150 50B 7O PM150 50C 20 42 PM150 50XB 7O PM150 50XC 48 PM150X 48 PM1K 44 PM1K 100 45 PM1K 36B 70 PM1K 36C 27 PM1KX 49 PM2 AO PM200F 19 A3 PM200F 50 43 PM200F 50X 49 PM2X 47 PM3 23 39 PM30 40 PM300 A2 PM300F 19 A3 PM300F 50 A3 PM300F 50X AQ PM30V1 46 PM30X 47 PM3K 44 PM3K 100 45 PM3Q 39 PM5K 44 PM5K 100 45 PM5K 200 45 P510 23 PS100 23 39 PS19 23 39 PS19Q 39 PS FC Type Connector 51 PS SMA Type Connector 51 P TM7 1 2 61 Superior Reliability amp Performance Model Name Page Number Pyroelectric Detector 79 Pyroelectric Test Slide Black Coating 65 Pyroelectric Test Slide Diffuse Metallic Coating 65 Pyroelectric Test Slide MB Coating 65 Pyroelectric Test Slide MUV Coating 65 Silicon Detector 93 Small Heat Sink 64 SMA Type Connector 51 Thermal SmartSensor Adapter 50 UV BCUBE 83 UV High Divergence 92 UV Low Divergence 92 UV C VARM 83 VARM 83 VIS High Divergence 92 VIS Low Divergence 92 WaveMaster 12 94 UV VIS 24 www Coherent com LMC sales coherent com Doing Busine Ordering We are pl
139. p On 1 7 1 6 1 6 1 9 Speed up Off 3 6 3 0 3 0 4 1 ae Detector Coating Black Cross Reference Detector Element Thermopile Index Optic None Quartz None None Detector Diameter mm 10 19 19 19 Calibration Uncertainty i2 eos Power Linearity 1 Index Spectral Compensation Accuracy 41 5 Long pulse Joules Accuracy 3 Calibration Wavelength nm 514 514 514 10 600 Cooling Method Air Cable Type USB Cable Length m 25 Part Number 1174260 1168343 1174261 1174263 1 Power stability over 30 minutes in typical lab environment Software and post stand included 3 190 nm to 300 nm operation restricted to lt 100 mW average power and lt 250 W cm2 power density Ll 76MM 301in PS10 i PS190 PS19 PM3 Jarm o 48mm Light Tube 191 in 36mm I 1 41 in 19 mm I 0 76 in O 84 mm 3 3in Q 63 mm 84 mm 3 30 in 2 48 in Adjustable 197 mm to 252 mm a L i 775 in to 9 93 in i 5 Adjustable 198 mm to 252 mm 779 in to 9 97 in Adjustable 186 mm to 227 mm 6 81 in to 8 96 in i E 1 contenant LJ 51 mm L Simm L Note Detector Surface 2 0in Note Detector Surface 2 0in is 11 mm 044 in below 51mm is 16 63 mm 0 66 in be ow front face of aperture plate
140. pJ to 100 mJ Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 55 A COHERENT POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 56 EnergyMax Laser Energy Sensors Introduction and Selection Charts The next selection chart shows the range of wavelengths that can be measured with each sensor This characteristic is coating dependent so sensors with diffusers may have a narrower spectral range than similar sensors without diffusers The spectral compensation of each sensor is unique to that serial number and is based upon spectral scans performed on each sensor disk and on each optic if the sensor has a diffuser The spectral compensation provides greater measurement accuracy for wavelengths that differ from the optical calibration wavelength EnergyMax Wavelength Capabilities WAVELENGTH ym Model Wavelength m 1 10 J 10SI HE amp LE 0 325 t0 0 9 J 10GE 0 8 to 1 7 J SOMB HE amp LE 0 19 to 12 0 J 25MB HE amp LE 0 19 to 12 0 PES A E E E EE oe a J 10MB HE amp LE 0 19 tO 12 0 ee a J SOMT 10KHZ 0 19 to 2 1 aan J 25MT 10KHZ 0 19 to 2 1 Ga J I0OMT 10KHZ 0 19 to 2 1 aan J SOMB YAG 0 266 to 2 1 aan J SOMB IR 0 5 to 3 0 mman J 25MB IR 0 532 tO 2 1 _ J SOMUV 248 w o Diff
141. r Cross Reference Index Model Name Index 59 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 60 A COHERENT EnergyMax Sensors MaxBlack Coating and Diffusers Device Specifications J 50MB YAG and IR Adjustable 255 55 mm 8 88 i 143 00 mm 56 J SOMB YAG and J 25MB IR Features e High energy and peak power to 14 J cm2 e Operate at Nd YAG fundamental and harmonics and throughout the IR e Enable pulse energy measurements from 1 mJ to 15J e Spectral compensation characteristics built into each unit e Onboard sensors provide automatic temperature compensation e No need to either change diffusers during use or perform your own spectral calibrations These sensors are specifically designed for high energy and high peak power lasers operating at relatively low repetition rates such as those based on Nd YAG Ruby Ho YAG and Erbium The J SoMB YAG sensor can be used with beams up to 35 mm in diameter and can work at 1064 NM 532 NM 355 nm and 266 nm without the need to change or self calibrate diffusers or any other accessories Both sensors combine a MaxBlack coating and a diffuser to produce superior damage resistance characteristics This combination enables operation with lasers that produce either very high energy per pulse or v
142. r WaveMaster Product Primary Wavelength CW Pulsed Measurement Power Energy z CW Capabilities Beam Position CW Pulsed CW CW Propagation M2 CW Beam Profiles 2D CW Pulsed CW CW 3D CW Pulsed CW Page Number 76 85 88 94 Superior Reliability amp Performance www Coherent com LMC sales coherent com LaserCam HR A COHERENT Introduction to Camera Based Beam Diagnostics Coherent BeamView Analyzer systems are the recognized leader in soft ware hardware and optical components for laser beam analysis Constant product improvement based on customer feedback and innovation from beam analysis experts have made BeamView Analyzer products the first choice for laboratory factory and field measurements The key elements of a typical camera based beam profiling system are the camera itself Coherent Beamview analysis software running on an appropri ate computer and when necessary beam attenuation optics The key choice to make is matching the appropriate camera technology to your application Coherent beam diagnostic cameras are specifically designed or modified for laser analysis They provide low noise maximum linearity and uniformi ty of response needed for maximum measurement accuracy All of these diagnostic cameras accept C Mount optical accessories and are delivered without a cover glass plastic window over the sensor array Instead a LDFP Low Distortion Face Plate filter is supplied with
143. r models not listed please contact Coherent or 3 Compatible when used with Thermal SmartSensor Adapter 1056827 your local representative for assistance 8 Superior Reliability amp Performance www Coherent com LMC sales coherent com A COHERENT Power and Energy Measurement Ov Compatibility Chart for Our Most Popular Meters and Sensors POWER POWER amp ENERGY Meters Sensors FieldMate Power amp Energy Meters PM amp PS Model Thermopile Sensors OP 2 Model Optical Sensors Beat Sensors E E OWE E m SE ma Custom amp OEM Thermal B nnn a SmartSensor Adapter sary a DIAGNOSTICS j 7 3 CALIBRATION I amp SERVICE i EE E E i l Laser l Cross Reference La EEP Index p 2S s Model j ty Name i Ind Power meters compatible with PM amp PS Model J pice Thermopile Sensors m on Power meter compatible with LM Model Thermopile Sensors LM Model Thermopile Sensors Power meters need the Thermal SmartSensor LM 2 Model Optical Sensors Adapter to use LM Model Thermopile Sensors ENERGY Meters Sensors FieldMaxll TOP and P LabMaxll TOP EnergyMax Pyroelectric Energy sensors Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 9 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference I
144. r wavelength compensation ARROW KEYS Manually control range select and change numerical values Left Side Panel Power jack Analog output DB 25 sensor port Part Number 1098297 Meter supplied with two alkaline 9V batteries power cord AC power adapter RCA to BNC analog output adapter user manual and certificate of calibration Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 15 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 16 A COHERENT EPM2000 Dual Channel Power and Energy Meter Features The EPM2000 meter is a versatile high performance dual channel instrument Each of the EPM2000 s channels can be configured as an energy meter or a power meter regardless of the other channel s setting Each channel has Device e Measures power and energy Repetition rate to 1000 pps e Dual channel with ratio measurement External trigger input e RS 232 and GPIB computer interfaces e Analog output e LabVIEW driver an independent trigger circuit but it can also be slaved to the other
145. rence Index Model Name Index 91 A COHERENT ModeMaster PC Selecting a ModeMaster PC System Configuration ModeMaster PC systems are available in eight standard configurations all include scanning head 5 axis mount USB control POWER interface console cables PC software and manual All configurations provide measurements in four wavelength ranges with EINE two divergence ranges high divergence and low divergence within each wavelength range Use the following steps along with the Selection Nomogram Chart and Configuration Table below to select a ModeMaster PC configuration pons EEES 1 Choose between the four spectral ranges Meee ee ge E UV 220 to 680 nm VIS 340 to 1000 nm A NIR 800 to 1800 nm and IR 1800 to ivergence 15 000 nm High Power Divergence Sensors 2 Determine the approximate divergence of your laser beam and use the Selection Nomogram Divergence vs Wavelength Chart to select the ey _ low divergence or high divergence configuration Sensors E 8 3 Confirm that your beam size is lt 25 mm S Low diameter for the low divergence configuration L Divergence Eni or lt 12 mm for the high divergence configuration ustom amp OEM E 4 Use the table below to determine the part Divergence number of the ModeMaster PC configuration
146. response times on the order of several seconds for a low power sensor and up to one minute for a kilowatt sensor When combined with a Coherent meter a speed up algorithm provides a much faster response on the order of seconds for most sensors Coherent has two lines of thermopile sensors The LM Model line utilizes a unique thermopile disk in which the thermocouples are split into four quadrants allowing the sensors to provide beam position information in addition to power measurement LM Model sensors can be found on pages 34 to 37 The PM Model K line incorporates traditional thermopile disks that provide power ouda a measurement found on pages 39 to 49 Positioning Enabled Semiconductor sensors convert incident photons into current that can be measured by our instruments The photodiodes used in these types of sensors offer high sensitivity and low noise enabling them to detect very low light levels They saturate above approximately 1W cm so attenuating filters must be used when operating above the milliwatt level Photodiodes also have a fast response time so they are convenient for tuning and peaking lasers The spectral range is more limited than our other sensor technologies These devices are also referred to as optical sensors Semiconductor optical sensors are limited to measuring CW laser power 6 Superior Reliability amp Performance www Coherent com LMC sales coherent com A COHERENT Sensor
147. rt Number 1104620 1104022 1104619 Meter supplied with 4400 mAH Li ion battery AC power adapter power cord 1 8 meter USB cable RS 232 adapter USB flash drive RCA to BNC adapters user manual software and driver CD soft carrying case and certificate of calibration LabMax TOP w GPIB also includes a GPIB cable Superior Reliability amp Performance www Coherent com LMC sales coherent com FieldMaxll Meters 3 COHERENT Laser Power and Energy Meters FieldMaxll TO Power Meter FieldMaxll PC Application Toll Free 800 343 4912 Tel 408 764 4042 Features e Measure energy of pulsed lasers up to 300 pps e Large backlight LCD display e Compatible with thermopile optical and pyroelectric sensors e Simulated analog like movement for laser tuning e USB interface with FieldMaxll PC applications software LabVIEW instrument driver and ActiveX control e Area function for density measurements J cm2 or W cm Models e FieldMaxll TOP is compatible with thermopile optical and pyroelectric sensors power amp energy e FieldMaxll TO is compatible with thermopile and optical power only e FieldMaxIl P is compatible with pyroelectric energy only FieldMaxll is an affordable versatile easy to use digital power and energy meter platform designed for a variety of applications ranging from field service to production test applications FieldMaxll features a large easy to read backlit
148. s Wavelength LaserCheck without Attenuator LaserCheck with Attenuator 1 E 02 1 E 00 1 E 01 5 1 E 03 5 5 m 1 E 02 Max Power 1 E 04 gt Min Power 2 1 E 03 1 E 05 o 1 E 06 1 E 05 400 500 600 700 800 900 1000 1100 400 500 600 700 800 900 1000 1100 Wavelength nm Wavelength nm Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 17 A COHERENT Power Sensors Introduction Introduction and Selection Charts Coherent uses three primary coatings to capture the incident radiation on our thermal sensors The specifications for each POWER sensor list which coating is used Typical wavelength ranges and response curves for these coatings are shown in the chart SINE below Each sensor contains a spectral curve generated from reflectance measurements taken with spectrometers The reflectance data are converted into a wavelength compensation look up table that is loaded into the sensor This data is accessed by selecting a wavelength of operation in the meters Power amp Energy Meters Ry SPECTRAL CORRECTION FOR THERMAL SENSORS NORMALIZED TO 514 nm Power ue Sensors S O Black Coating Le 405 Broadband amp HTD Coatings c ENerey iS UV Coating Sensors 5 1 00 O Custom amp OEM 5 0 95 O 0 gt BEAM DIAGNOSTICS 0 90 0 1 1 10 Wavelength ym CALIBRATION amp SERVICE Many of our thermal sensors can measure power at levels greater than the maximum power rati
149. s when water cooling is not possible A compact power supply provides the 12 VDC required to power the fan Device Model PM200F 19 PM200F 50 PM300F 19 PM300F 50 Specifications Wavelength Range um 0 19 to 11 Power Range W 1 to 200 1 to 300 Long Pulse Joules Range J 1 to 200 1 to 300 Max Intermittent Power lt 5 min W 300 450 Resolution mW 100 Max Power Density 26 kW cm 2 Max Energy Density 0 6 J cm 1064 nm 10 ns Response Time sec 2 5 2 5 Detector Coating Broadband Active Area Diameter mm 19 50 19 50 Dimensions mm 102 X102 X14 127X127 X127 4 0x4 0Xx4 4in 5x5x5 in Calibration Uncertainty 1 Calibration Wavelength nm 514 Cooling Method Fan cooled Cable Type PM DB 25 Cable Length m 2 Part Number 1098480 1098472 1098509 1098417 PM200F 19 PM200F 50 PM300F 19 PM300F 50 127 mm 127 mm 102 mm 114mm 5 0 in 4 02 in 219mm 19 mm 0 75 in 0 75 in 250 mm oon Re aaa Adjustable 7 95 10 71 in aa Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 43 A COHERENT Water Cooled Thermopile Sensors 100W to 5 kW POWER amp ENERGY Power amp Energy Meters Power Sensors
150. s New New Mailing Address New Phone Number Phone 800 343 4912 or 408 764 4042 Coherent Inc Portland 27650 SW 95th Avenue Wilsonville OR 97070 New Fax Number Fax a Online 503 454 5727 www Coherent com Laser Measurement and Control Table of Contents New Products A COHERENT New Products 4 5 Power and Energy Meters Power and Energy Measurement Solutions 6 7 Power and Energy Meter Quick Reference Guide 8 Compatibility Chart for Our Most Popular Meters and Sensors 9 LabMax Meters 10 12 FieldMaxll Meters 13 14 FieldMate 15 EPM2000 16 Power Sensors Introduction and Selection Charts 18 Long Pulse Energy Measurement with a Thermopile 19 PowerMax USB RS Sensors Product Overview 20 22 PowerMax USB RS Sensors 23 30 PowerMax USB RS Sensor Accessories 31 Power Sensor Summary Specifications standard DB25 LM and PM models 32 33 LM Model Beam Position Sensing Thermopile Sensors 10 mW to 5 kW 34 37 High Sensitivity Optical Power Sensors 10 nW to 50 mW 38 PM Model Thermopile Sensors 100 uW to 5 kW 39 44 PM Model Large Area High Power Water Cooled Thermopile Sensors 100W to 5 kW 45 PM Model High Peak Power Thermopile Sensors 10 mW to 30W 46 PM Model Thermopile Sensors with UV Coating 10 mW to 1 kW 47 49 Power Sensor Accessories 50 51 Energy Sensors EnergyMax Introduction and Selection Charts 52 56 Energy Se
151. s of Joules Long pulse measurement is only possible when the thermopiles are used in conjunction with LabMax TOP LabMax TO or FieldMaxll TOP meters or when using a PowerMax USB RS sensor This ability to integrate relatively long laser pulses with a thermopile is necessary when the laser pulse width exceeds the maximum pulse width rating of pyroelectric sensors Pyroelectric sensors are typically limited to maximum pulse widths in the millisecond range When the pulse width exceeds milliseconds a thermopile is a good solution A good rule of thumb for using a thermopile for this type of measurement is to compare the maximum pulse energy you need to measure with the maximum power rating of a sensor maximum power ratings can be found in the Power Sensor Summary Specifications on pages 32 to 33 or in the detailed product specifications contained on pages 34 to 44 Common applications for this type of measurement are in the medical field especially skin resurfacing and hair removal and in material processing applications such as laser welding These laser systems often utilize high energy diode lasers that have large beam sizes and relatively long pulses A detector like the PM150 50C is ideal for these measurements It features a large 50 mm aperture size can handle pulse energies up to 150J and can be used air cooled for single pulse energy measurements a PM150 50C will normally need to be water cooled for continuous power measurem
152. se of the ND filter and photodiode varies significantly across this wave POWER length range it is important to check the maximum measureable power at the wavelength of use to make sure the sensor is SR not being saturated The following curve plots the maximum measurable power which is the saturation level of the photodiode as well as the Power W amp Ener minimum recommended power level by wavelength Meter Saturation and Minimum Power UV VIS Sensors Over Wavelength Power Sensors 1W 100 mW See 10 mW Custom cord amp OEM S 5 1 mW A BEAM DIAGNOSTICS 100 uW 10 uW EE 1 uW Gee 0 200 400 600 800 1000 1200 a Wavelength nm Model flee Measurement Linearity Like all silicon photodiodes the UV VIS Quantum sensor has Photo Sensitivity Temperature Characteristic temperature sensitivity in the infrared region At 1064 nm for example it has a 0 5 C thermal coefficient Measurement error of up to 2 are present at 1064 nm after a 10 minute warm up time due to the electronics inside the sensor and additional error can be present if the ambient measurement environment differs from the calibration wavelength listed on the calibration certificate In practice wavelengths shorter than 1000 nm have insignificant effects due to temperature
153. sity ERN Fit roughness e Ellipticity at intensity slice Major and minor axis diameter Laser z Cross Circularity major minor Reference l l index Axis orientation rotation Auto align profiles to axis ene e Aperture analysis for circular square rectangular Name and elliptical beams Index o power energy in aperture Uniformity in aperture Aperture diameter tracking Interactive Display Functions e On line help e Control of cursors profiles aperture e Report generation new in BeamView USB 4 4 position rotation and size Report pdf Live video on off BeamView window screen capture e 7 zoom levels e Stored image paging e Image and profile autoscale modes e Reference profile select e Auto peak centroid locate e Reference coordinate set e A D converter control analog only e Background subtraction e Hot function keys e Run stop data analysis 80 Superior Reliability amp Performance www Coherent com LMC sales coherent com BeamView Analyzer Software A COHERENT BeamView Analyzer Software Features Summary Image Capture and Storage e Pulsed or CW continuous analysis e Multi channel not simultaneous camera input e Support for multiple camera types new in BeamView USB 4 4 e Adjustable camera exposure time new in BeamView USB 4 4 e Image storage to PC RAM drive PC hard drive e RS 232 and TCP IP communication protocols e Comprehensiv
154. so automatically BEAM camera to achieve maximum measurement accuracy The monitors the background noise level to warn of changes that eee Automatic Background subtraction feature measures and may effect measurement accuracy stores the background noise image and automatically CALIBRATION amp SERVICE BeamView USB 4 4 0 Report Laser Cross Reference Index Model Name Index Screen shot of Print Screen dialog box and actual report ee re W Peper feb fre jan Geet yG ET Rec TAr Pease eho Sees at e Pii m Hebe op Fim ee Pe fa iaia Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 T1 A COHERENT POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index 18 BeamView Analyzer Software BeamView Analyzer Software Features Sia Sie a L Real Time Laser Monitoring and Alignment The Live Video mode provides a continuously updated image of the beam 20 Hz to 25 Hz depending on the speed of the processor displayed in shades of gray or pseudo color This mode is ideal for monitoring the laser and observing changes in the form and structure of the beam as it is adjusted It also allows for real time tuning to achieve optimum beam profile quality and laser cavity alignment While operating in this mode no beam
155. sors 8 7 253 Oo 203 a gt a 5 3 F 4 153 5 g 7 Voltage a Current 103 2 53 1 0 1 3 2000 2400 2800 3200 3600 4000 Time us www Coherent com LMC sales coherent com 3 COHERENT EnergyMax Laser Energy Sensors Introduction and Selection Charts All pyroelectric EnergyMax sensors incorporate a diffuse coating to minimize specular reflections and eliminate spurious beams that can re enter the laser cavity In addition all EnergyMax sensors include onboard electronics that contain built in wavelength compensation factors When using the sensor with a meter such as LabMax or FieldMaxll enter the wavelength of the laser being measured into the meter and this will automatically compensate for the sensor output The chart below plots the typical absorption percentage of each coating J 25MT 10KHZ J 50MT 10KHZ Absorpt on 0 1 1 10 20 Wavelength um J 25MT 10KHZ with Medium Heat Sink Meter LabMax TOP FieldMaxll TOP amp P EPM2000 Compatibility All J 10MB J 25MB J SOMB J 25MUV J SOMUV Chart EnergyMax Models J 10M1 10KHZ J 25MT 10KHZ J SOMT 10KHZ EnergyMax Models J 10Sl and J 10GE Quantum EnegyMax Models Explanation of Part Numbers EnergyMax part numbers are Smart part
156. sors These sensors offer wavelength coverage from 190 nm to 12 um measure from nW to kW from nJ to J and from single shot to 10 kHz Beam Positioning The position of the laser beam on the sensor can be displayed by LabMax when using an LM Model thermopile sensor This makes it easier to align the laser beam during setup especially for infrared laser beams There is also a trending feature to monitor the position of the beam over time and the position data can be logged to a file Beam position sensors are on pages 34 to 37 LM 45 HTD sensor with beam position Superior Reliability amp Performance Data Logging Data logging of unlimited size can be performed directly to a USB flash drive and additionally over 400 000 points can be retained onboard the meter itself in flash memory The meter has a file management system that allows naming and renaming files auto increments file names for repetitive logging events folder creation and renaming and transferring files and folders from the meter storage to a USB flash drive Data can also be logged to a file with the LabMax PC applications software 15 52 mw atl elenath 633 nm aK TARGET E ane E i Er LabMax beam position display www Coherent com LMC sales coherent com A COHERENT LabMax Meters Laser Power and Energy Meters Ergonomic Design LabMax features a large backlit graphical display with an ergonomic interface with easil
157. t face of heatsink 76mm ___ front tace of aperture plate 3 0 in 3 0 in 3 0 in 26 Superior Reliability amp Performance www Coherent com LMC sales coherent com 3 COHERENT PowerMax USB RS Sensors 1W to 1 kW Features e Water cooled Be T e Spectrally flat from 0 25 um to 10 6 um p Hie e LM 1000 measures beam position A Power e 36 mm to 38 mm apertures Quad Positioning say Enabled LM 1000 only These kilowatt thermopile sensors are water cooled for measuring laser output up to 1 kW and are excellent for use with CO gt and Nd YAG lasers fewer Tap or distilled cooling water is recommended with these sensors DI water can not be used Flow rates are power dependent and range from 0 5 to 4 gallons per minute pressure depends upon flow rate and ranges Energy from 3 to 40 PSI visit product pages at www Coherent com LMC for more ae Models LM 1000 PM1K 36C technical details See page 31 for RS model power supply accessory Device Model PM1K 36C LM 1000 Parent Specifications Wavelength Range um 0 25 to 10 6 0 25 to 10 6 Power Range W 1to 1000 1to 1000 Noise Equivalent Power mW 20 Maximum Power Density kW cm 1to 2 5 O Maximum Energy Density mJ cm2 500 Response Time sec 0 to 95 Speed up On 2 3 25 Speed up Off 6 0 6 1 E Detector Coating Broadband Detector Element Thermopile Detector Diameter mm 36 38 eee Calibration Uncertainty
158. t the laser beam will not damage the sensor coating The damage threshold is also wavelength dependent and maximum energy density thresholds are listed for common laser wavelengths in the table below At other wavelengths it is safe to interpolate between the listed values EnergyMax Damage Threshold Capabilities Damage Threshold mJ cm Model 193 nm 248 nm 266 nm 355 nm 532 nm 1064 nm J SOMB HE AO 170 170 140 250 500 J SOMB LE AO 170 170 140 250 500 J 25MB HE AO 170 170 140 250 500 J 25MB LE AO 170 170 140 250 500 J 10MB HE AO 170 170 140 250 500 J 10MB LE AO 170 170 140 250 500 J SOMIT 10KHZ 150 200 200 390 500 500 J 25MT 10KHZ 150 200 200 390 500 500 J 10MT 10KHZ AO AO AO 5O 50 50 J SOMB YAG 1000 750 2800 14 000 J 25MB IR 1500 5000 J SOMUV 248 w o Diffuser 200 260 260 300 375 375 J SOMUV 248 w Diffuser 400 520 520 J 50MUV 193 w o Diffuser 200 260 260 300 375 375 J SOMUV 193 w Diffuser 400 520 520 J 25MUV 248 200 260 260 300 375 375 J 25MUV 193 200 260 260 300 375 375 1 Not applicable for Quantum EnergyMax sensors The table below shows the key specifications for each sensor Additional specifications can be found on pages 58 to 62 Max Average Power W Part Description Wavelength Min Max No Small Med Large Max Rep Max Pulse Active Area Detector Diffuser Calibration
159. tallations a good approximation is that doubling the surface area of the sensor housing doubles the air cooled rating Models that end with A are amplified sensors with a 4 pin connector They must be supplied with 15 VDC and draw less than 20 mA Models that end with B are passive sensors with a BNC output Models with DB25 cables that are compatible with our instruments end with a C and can be found on page 29 Device Model PM10 19A PM10 19B PM150 19A PM150 19B PM150 50A Specifications Wavelength Range um 0 19 to 11 Resolution mW 1 1 30 30 30 Min Water flow gpm 0 02 0 02 0 2 0 2 0 2 Max Avg Power water cooled W 10 150 Max Avg Power air cooled 5 min W 5 20 80 Responsivity typ 1V W 1 MV W 40 mV W 0 4 mV W 40 mV W Max Power Density 26 kW cm 2 Max Energy Density 0 6 J cm 1064 NM 10 ns Response Time sec 1 2 1 2 1 Detector Coating Broadband Active Area Diameter mm 19 Dimensions mm 51X51 X 38 Bix Si X20 51X 51X 38 Bix Six 30 89 x 89 x38 20 X20 X1 A in BOX 2 014 In 20 X20 X14in 2 0 2 0 11in 35X35 X14in Calibration Uncertainty 1 Calibration Wavelength nm 514 Cooling Method Water cooled Connector Type 4 pin Molex BNC 4 pin Molex BNC 4 pin Molex 22 12 2044 terminated 22 12 2044 terminated 22 12 2044 Cable Length m Part Number ROHS 1098334 1098343 1098418 1098321 1098510 PM10 19A PM150 19A PM
160. ted for easier viewing of the detailed structure BeamMaster System Components Each BeamMaster system consists of a sensor head complete with a 1 8 m cable a 1 2 length 187 mm 32 bit PCI card to plug into a PC computer complete Windows software on a CD ROM disk a printed instruction manual a 0 5 mounting post threaded 8 32 and optical filters for Si Enhanced Optical Filters The BM 7 and BM 3 Si Enhanced heads come with two neutral density filters NG4 and NGg filters complete with transmission curves are provided to extend the power range of the heads from 5 mW to1W in the 400 nm to 100 nm range The NG4 filter comes pre installed and provides 10 transmission at 633 nm The NGo filter is in a protective filter case and provides 0 5 transmission at 633 nm There is no filter in the BeamMaster InGaAs head configurations Computer Requirements The user provides a Pentium PC 586 or higher 233 MHz operating Windows 2000 or XP with a free PCI card slot The system should have 32 megabytes of RAM a CD ROM drive 20 megabytes of free hard disk memory and a display resolution of 800 x 600 or higher Device Model z Psi a4 ee ih EFA BeamMaster 2D Intensity Plot BeamMaster Accessories An optional mount is available to enable rotation of the BeamMaster sensor head about the optical axis This mount has a 360 degree calibrated scale with a locking screw An optional C Mount Adapter Plate allows the atta
161. thermopile detector without overshoot e LED status indicators inside USB and RS 232 connectors provide health and status information e Long pulse joules capability using thermopile sensors PowerMax USB Connector Superior Reliability amp Performance www Coherent com LMC sales coherent com A COHERENT PowerMax USB RS Sensors Product Overview Software Features PowerMax PC applications software is supplied free with T sensor and includes the following features e Trending tuning histogram e Statistics mean minimum maximum and standard R deviation and log batch to file Meters e Display beam position on position sensing thermopiles and log results to file Power e Operate multiple devices simultaneously and perform PowerMax PC i Sensors synchronized ratiometery A B analysis Trend and log operating SS oe lUc cr sensors pane m ee Energy For system integration and for implementations involving customer written software the sensors provide an in depth pont command set that is easy to access e DLL driver supports simple ASCII host commands for remote interfacing using both USB and RS 232 sensors Custom e National Instruments LabVIEW drivers are supplied for easy LabVIEW integration amp OEM gt Pcie PE PEO PowerMax PC in synchronized ar E arden ratiometric trending mode DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Reference Index Model Name Index
162. tions 1 8 NPT Mere pin 3 10 to 20V power input pin 4 Output signal Current draw Approx 8 mA at 15 V Approx 18 mA at 15 V Bead Output impedance 100 Ohm Sensors Water connections 1 8 NPT PM10 19A 30 5 mm PM10 19B 30 5 mm Energy aaa Sensors PM150 19A 1 2 in PM150 19B 1 2 in j a 15 2 mm 0 6 in a a 1 15 2 mm 0 6 in 11 9 0 47 in 16 0 mm 0 63 in Capri AO 20 2 mm 0 8 in Custom 17 8 mm 0 7 in amp OEM 17 8 mm 0 7 in 1 4 20 UNC 2B 6 32 UNC 2B 1 4 20 UNC 2B 6 32 UNC 2B BEAM 7 mm 0 275 in 5 mm 0 2 in 7 mm 0 275 in 5 mm 0 2 in DIAGNOSTICS Deep Mounting Hole Deep Mounting Hole Deep Mounting Hole Deep Mounting Hole 4 75 mm f 0 19 in 41 3 mm 1 63 in 4 75mm 0 19 in 4 75 mm 0 19 in 4 75 mm 0 19 in CALIBRATION amp SERVICE 50 8 mm 50 8 mm Laser 2 0 in 2 0 in Cross Square Square Reference Index Model 6 32 UNC 2B 6 32 UNC 2B Name 5 mm 0 2 in 5 mm 0 2 in Index Deep Mounting Hole Deep Mounting Hole PM150 50A 1 4 20 UNC 2B PM150 50B 6 32 UNC 2B 1 4 20 UNC 2B 12 7 mm 0 5 in 7 5 1 mm 0 2 in 12 7 mm 0 5 in Deep Mounting Hole PM150 50XB Deep Mounting Hole Deep Mounting Hole 25 4 mm i Ei 17 8 mm 0 7 in 638 5mm_ 30 5 mm 1 2 in s 1 L 5 6 mm 0 22 in 12 7 mm 0 5 in i 21 2 mm 0 84 i
163. use metallic coating delivers increased damage threshold allows high repetition rate operation and reduces specular reflectance e Operate over the entire 190 nm to 2 1 um range Enable pulse energy measurements from 100 nJ to 1J with high signal to noise characteristics e Measure up to 10 kHz repetition rate Spectral compensation characteristics built into each unit e Onboard sensors provide automatic temperature compensation These sensors use a diffuse metallic coating that enables measurements at high and low repetition rates across a wide range of energies wavelengths and beam sizes The damage resistance at 532 nm and shorter wavelengths is even greater than the MaxBlack coating These are great all purpose sen sors for the 190 nm to 2 1 um region and offer the lowest energy range of our EnergyMax line J 50MT 10KHZ J 25MT 10KHZ J 10MT 10KHZ Energy Range 500 UJ to 1 50 uJ to 100 mJ 100 nJ to 200 J Noise Equivalent Energy lt 16 uJ lt 2 uj lt 10 nJ Wavelength Range um 0 19 to 2 1 Active Area Diameter mm 50 25 10 Maximum Average Power W 20 10 1 Maximum Pulse Width us 17 Maximum Repetition Rate pps 10 000 Maximum Energy Density mJ cm2 500 at 1064 nm 10 ns 50 at 1064 nm 10 ns Detector Coating Diffuse Metallic Diffuser No Calibration Wavelength nm 1064 Calibration Uncertainty 3 Energy Linearity 3 Cable Length m 4 25
164. user 0 19 to 2 1 J SOMUV 248 w Diffuser 0 19 to 0 266 ail J SOMUV 193 w o Diffuser 0 19 tO 2 1 J SOMUV 193 w Diffuser 0 19 to 0 266 F J 25MUV 248 0 19 to 2 1 J 25MUV 193 0 19 to 2 1 imal EnergyMax sensors are based upon pyroelectric technology and can therefore measure lasers at high repetition rates The maximum repetition rate is primarily dependent upon the thermal resistance of the coating and the maximum pulse width the sensor is designed to measure Refer to the summary table on page 8 for maximum laser pulse width limitations EnergyMax Repetition Rate Capabilities REPETITION RATE pps Model Rep Rate pps 1000 10 000 J 10SI HE amp LE up to 10 000 l J 10GE Up to 10 000 J SOMB HE amp LE up to 300 J 25MB HE amp LE up to 1000 J 1OMB HE amp LE up to 1000 J 50MT 10KHZ up to 10 000 J 25MT 10KHZ Up to 10 000 J 10MT 10KHZ up to 10 000 J SOMB YAG up to 50 J SOMB IR up to 30 J 25MB IR up to 20 J SOMUV 248 up to 200 J SOMUV 193 up to 200 J 25MUV 248 up to 400 J 25MUV 193 up to 400 Superior Reliability amp Performance www Coherent com LMC sal es coherent com EnergyMax Laser Energy Sensors Energy Sensor Summary Specifications A COHERENT Before using a sensor it is important to ensure tha
165. utter it can be used for some CW beam attenuation but there is more flexibility in using optical attenuation Any attenuation optics introduced in the beam path must be manufactured to exacting specifications The optics must be laser grade substrate and use the proper flatness and wedge to avoid etaloning and fringing so that the beam is not distorted by the introduction of the attenuation We offer attenuation optics that are designed to these specifications and packaged for use with our cameras Typical attenuations are 1 1 to 400 000 1 but even larger attenuations are possible All Coherent diagnostic cameras accept C Mount optics and accessories and are delivered without a standard window in front of the sensor array Such windows are liable to distort the optical beam However a LDFP Low Distortion Face Plate filter is supplied with each camera purchased from Coherent The LDFP is a laser grade optic specified and polished for diagnostics use It is mounted in a housing with C Mount threads and provides attenuation of room light so that the camera can be used with the lights on For operation below 400 nm the LDFP must be removed Superior Reliability amp Performance e Laser grade attenuation optics e Compatible with all Coherent beam diagnostic cameras e Virtually undistorted and interference free attenuation e Variable and fixed attenuation for beams up to 2000W cm2 or 50J cm2 e C Mount threads couple directly to
166. w o Diffuser w Diffuser w o Diffuser w Diffuser w o Diffuser w o Diffuser Energy Range 500 pJ to 500 uJ to 125 uJ to 125 uJ to 125 uJ to 50 uJ to 1J 1J 250 mJ 250 mJ 250 mJ 100 mJ Noise Equivalent Energy uJ lt 16 lt 16 lt 4 lt 4 lt 4 lt 2 Wavelength Range um 0 19 to 2 1 0 19 to 0 266 0 19 to 2 1 0 19 to 0 266 0 19 to 2 1 0 19 to 2 1 Active Area Diameter mm 50 50 50 50 25 25 Max Average Power W 10 15 10 18 5 5 Max Pulse Width us 86 86 86 86 43 43 Max Rep Rate pps 200 200 200 200 400 400 Max Energy Density 260 520 200 400 260 200 mJ cm2 at 248 nm at 248 nm at 193 NM at 193 NM at 248 nm at 193 NM 10 ns 10 ns 10 ns 10 ns 10 ns 10 ns Detector Coating MaxUV Diffuser No DUV No DUV No No Calibration Wavelength nm 248 248 193 193 248 193 Calibration Uncertainty 3 Energy Linearity 3 Cable Length m pas Cable Type J DB 25 Part Number 1146243 1110572 1146237 1110575 1110745 1110741 1 Extend average power range with optional heat sink See page 55 and 64 2 Cable lengths up to 10m possible Contact factory J 25MUV 248 and 193 21 56 mm 78 20 mm 0 85 in rae 50 80 mm k x a om eee M ine wooo ranman AE Ee Note Detector Surface for Mounting Sensor 51 00 mm 2 01 in Toll Free 800 343 4912 30in Adjustable j 200 15 mm 7 88 in Max 117 60 mm 4 63 in Min is 381 mm 0 15 in Below Front Face of Aperture Plate T
167. x 21 nWo FOR A BEAM WAIST DIAMETER 2Wo Device Model ModeMaster PC Specifications Accuracies Waist Diameter 2 Waist Location 8 of input beam Rayleigh Range Beam Quality M2 t5 Divergence 5 Beam Translation Pointing Angle 5 of waist diameter 0 1 mm 5 of divergence 0 04 mrad Azimuth Angle Readout 2 10 to 200 Knife Edge Clip Levels User adjustable 0 to 100 in 1 5 steps ModeMaster PC Control Interface Module Update Rate lt 8 Hz M divergence power density waist diameter profiles Analog Outputs Detector signal output o to 13V maximum A D control signal out o to 5V pulse Trigger syncs to drum rotation o to 5V pulse Digital Outputs RS 232 interface Front and back knife edge widths and pinhole profiles available in digitized form via RS 232 Power 100 to 240 VAC 47 to 63 Hz 40W maximum Scan Head and Precision Mount Control Interface Console fi ei J ann 360 mm 14 2 in 4 45 mm 1 8 in ae 5 o 299 mm 11 8 in w IMM 310 mm 12 2 in gt 305 mm 12 0 in UV VIS NIR 358 mm 14 1 in IR High Divergence 409 mm 16 1 in IR Low Divergence Toll Free 800 343 4912 Tel 408 764 4042 Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRATION amp SERVICE Laser Cross Refe
168. x Spectral Compensation Accuracy H5 Long Pulse Joules Accuracy i Calibration Wavelength nm 10 600 Cooling Method Air Cable Type USB Cable Length m 25 Part Number 1174264 1174262 1174257 1 Software and post stand included PM2 PM10 PM30 19 mm 22n E 51MM 14MM e pe mm 075in 2 il 0 53 in 919 mm au i e I i 63 mm 180i in 2 48 in 101 mm 3 96 in 2 i 1 U Adjustable E3 Adjustable 160 mm to 214 mm o am Adjustable 186 mm to 240 mm e 6 29 in to 8 44 in 168 mm to 220 mm 7 30 in to 947 in 6 58 in to 875 in i L 1 if Q corferenr 1 Q cduerenr i 1 EdHerent T l l Note Detector Surface 51 No e Detec or Surface 4 51 mm is10mm 041in beow _ 5imm he o o n is 16 mm 0 63 n below _ 51mm L 5imm h Nore Dae Surface 2 0in Simi front face of aperture plate 20in front face of aperture plate 20in 20in front face of aperture plate 76mm 2 0in La 76mm ___ 76 mm 3 Oin 3 O in i mia Goin 28 Superior Reliability amp Performance www Coherent com LMC sales coherent com 3 COHERENT PowerMax USB RS Sensors 10 MW to 150W
169. y accessible buttons for all features and modes The Measure Tune and Trend modes are directly accessible via front panel buttons Measurement Analysis LabMax meters contain several advanced analysis capabilities including Onboard statistics mean minimum maximum standard deviation range three stability parameters as well as missed pulses Users can also select which statistical parameters to display up to six at a time mo 5 Trend charting trend chart with statistical display and the ability to log data to a file Digital tuning indicators horizontal bar and trend chart formats with peak indicators Front panel buttons Flexible Positioning The LabMax display and meter can be positioned at many different angles within the limited bench space typically available in a laser lab while still making the display easy to view i awalan ath 635 nm G OFF Srrick Ji Mac ON jEW Strip RANGE VERT oe Chart 40 mW Fe RESE LabMax Tune Chart PC Interfacing and Applications Software Data can also be analyzed directly on a PC through USB RS 232 or GPIB connections or by logging data to a USB flash drive attached directly to the meter Installable applications software and LabVIEW drivers are provided to support PC interfacing Additional Inputs Outputs In addition to PC interfacing LabMax also includes an analog LabMax PC output with user selectable voltages of o to 1V 2V or
170. y be used with the IR pyroelectric pyro Ic al ey detector and either the low divergence or high divergence IR St aa heads The UV VIS NIR body however can be used in any of the tL tow Divergence Lens IR UV VIS or NIR spectral regions with the appropriate detector PE silicon Si for the UV and VIS germanium Ge for the NIR and High Divergence Lens Detector Sensors low or high divergence lenses The UV lens can be used with the silicon detector and the VIS NIR lens can be used with UV or VIS NIR either the silicon or germanium detector A nergy N Visible Sensors Lens Tube M Low Divergence Lens Custom UV or VIS NIR amp OEM Part Number Description Spectral Region s Scan Head Body E A 33 2072 000 Silicon Detector 0 22 to 1 0 um UV VIS UV VIS NIR 33 2080 000 Germanium Detector 0 8 to 1 8 um NIR UV VIS NIR 33 2098 000 Pyroelectric Detector 1 8 to 20 um IR IR 33 2114 000 High Divergence Lens Kit UV UV VIS NIR E iy 33 2130 000 Low Divergence Lens Kit UV UV VIS NIR 33 2122 000 High Divergence Lens Kit VIS NIR UV VIS NIR 33 2148 000 Low Divergence Lens Kit VIS NIR UV VIS NIR eee 33 2155 O000 High Divergence Lens Kit IR IR Cross Reference 33 21606 000 Low Divergence Lens Kit IR IR dex ModeMaster PC M2 Beam Propagation Analyzer standard system configuration Name Part Number Description Spectral Range 33 1843 000 ModeMaster PC System UV Low Divergence 33 2106 000 ModeMaster PC System UV High Divergence 33 2221 O00 ModeMaster
171. y flat from 0 19 to 11 um e 10 MW resolution e 19 mm apertures e FC and SMA fiber connectors available see page 51 Use with LabMax see page 10 The LM 100 sensor is convectively cooled for powers up to 100W The LM 200 sensor is fan cooled and is available in 110 VAC and 220 VAC configurations Water fittings are included LM 100 LM 200 Wavelength Range um 0 25 to 10 6 Power Range water cooled 100 MW to 100W 100 MW to 200W Long Pulse Joules Range J 0 5 t010 Resolution mW 10 Max Power Density 6 kW cm2 Max Energy Density 0 5 J cm2 1064 nm 10 ns Detector Coating HTD Detector Diameter mm 19 Dimensions mm D152 x 142 185 X94 X109 5 9 x 5 5 in 7 3 X 3 7 X 4 3 in Calibration Uncertainty 2 5 Calibration Wavelength um 10 6 Cooling Method Air cooled Fan cooled Cable Type LM DB 25 Cable Length m 1 8 Part Number 1098346 1098440 110VAC 1098450 220 VAC LM 100 LM 200 1 035 40 TPI 219 mm r ak 0 75 in z 2 a 3 8 13 27 in Viel mm yf 7 24 in 198 mm PA 7 78 in Threads per inch Toll Free 800 343 4912 Tel 408 764 4042 COHERENT 19 mm 0 75 in 1 035 40 TPI 11 4 mm 0 45 in UN a Fax 503 454 5727 POWER amp ENERGY Power amp Energy Meters Power Sensors Energy Sensors Custom amp OEM BEAM DIAGNOSTICS CALIBRA
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