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Thermal imaging camerasfor Automation & SafetyMachine VisionProcess MonitoringQuality ControlFire DetectionCritical Equipment Monitoring
FLIR Systems: the world leaderfor thermal imaging camerasFLIR Systems is the world leader in the design,manufacturing and marketing of thermal imagingsystems for a wide variety of commercial,industrial and government applications.FLIR Systems’ thermal imaging systems use stateof-the-art infrared imaging technology that detectsinfrared radiation - or heat. Based on detectedtemperature differences, thermal imaging camerascan create a crisp image. Complicated algorithmsmake it also possible to read correct temperaturevalues from this image. We design and manu facture all of the critical technologies inside ourproducts, including detectors, electronics, andspecial lenses ourselves.FLIR Systems, StockholmFLIR Systems, PortlandFLIR Systems, BostonFLIR Systems Santa BarbaraRapidly emerging markets and organizationInterest for thermal imaging has grown considerablyover the last few years in a large variety of markets.To face this increased demand, FLIR Systems hasexpanded its organization drastically. Today we employmore than 1,900 people. Together, these infraredspecialists realize a consolidated annual turnoverof more than 1 billion US dollars. This makes FLIRSystems the largest manufacturer of commercialthermal imaging cameras in the world.Manufacturing capabilitiesFLIR Systems currently operates 6 manufacturingplants: three in the USA (Portland, Boston and SantaBarbara, California) one in Stockholm, Sweden, one inEstonia and one in Paris, France.Thermal imaging: more than building a cameraThere is more to the world of thermal imaging thanbuilding a camera. FLIR Systems is not only committedto providing you with the best camera, we are also ableto offer you the best software, service and training tosuit your thermal imaging needs.3
INFRARED:more than meets the eyeInfrared - part of theelectromagnetic spectrumOur eyes are detectors that aredesigned to detect visible light (orvisible radiation). There are otherforms of light (or radiation) thatwe cannot see. The human eye canonly see a very small part of theelectromagnetic spectrum. At oneend of the spectrum we cannot seeultraviolet light, while at the otherend our eyes cannot see infrared.Infrared radiation lies between thevisible and microwave portions ofthe electromagnetic spectrum. Theprimary source of infrared radiation isheat or thermal radiation.Any object that has a temperatureabove absolute zero (-273.15 degreesCelsius or 0 Kelvin) emits radiation inthe infrared region. Even objects thatwe think of as being very cold, suchas ice cubes, emit infrared radiation.We experience infrared radiationevery day. The heat that we feel fromsunlight, a fire or a radiator is allinfrared. Although our eyes cannot seeit, the nerves in our skin can feel it asheat. The warmer the object, the moreinfrared radiation it adioInfraredUHFVisibleVHFInfraredSW2The infrared cameraInfrared energy (A) coming froman object is focused by the optics(B) onto an infrared detector (C).The detector sends the informationto sensor electronics (D) for imageprocessing. The electronics translatethe data coming from the detector intoan image (E) that can be viewed inthe viewfinder or on a standard videomonitor or LCD screen.LW512 micrometers8Infrared thermography is the art oftransforming an infrared image intoa radiometric one, which allowstemperature values to be read fromthe image. In order to do this, complexalgorithms are incorporated into theinfrared camera.EABCDE4Visit www.flir.com
Why use thermal imaging cameras?Why would you choose a FLIR thermal imaging camera? There are other technologiesavailable to help you measure temperatures in a non-contact mode. Infrared thermometersfor example.Infrared thermometers vs thermal imaging camerasInfrared (IR) thermometers are reliable and very useful for single-spot temperaturereadings, but for scanning large areas or components, it’s easy to miss critical componentsthat may be near failure and need repair.A FLIR thermal imaging camera can scan entire motors, components, or panels at once never missing any overheating hazards, no matter how small.Use thousands of infrared thermometers at the same timeWith an infrared thermometer you are able to measure the temperature at one singlespot. FLIR thermal imaging cameras can measure temperatures on the entire image. Thei5 has an image resolution of 80 x 80 pixels. This means that it is equal to using 6,400 IRthermometers at the same time. If we look at the FLIR P660, our top model, which has animage resolution of 640 x 480 pixels, this means 307,200 pixels or using 307,200 infraredthermometers at the same time.IR thermometer, temperature measurementin one spotFLIR i5, temperature in 6,400 spotsFind problems faster and easier withextreme accuracy.It’s easy to miss critical problems with a spotIR thermometer. A FLIR thermal imagingcamera scans entire components giving youinstant diagnostic insights showing the fullextent of problems.What an IR Thermometersees.What a thermal imagingcamera sees.What an IR Thermometersees.What a thermal imagingcamera sees.What an IR Thermometersees.What a thermal imagingcamera sees.5
Thermal imaging cameras for automationand safetyProduction engineers and technicians are faced by the demand for higher productionoutput at a constant quality and at lower cost. The FLIR A-series infrared cameras arethe most effective tool available for Infrared Machine Vision, Closed loop Processcontrol and Quality Assurance imaging, helping you to validate and increase productquality and throughput and thereby give your products a competitive edge andincreased profitability.The FLIR A-Series thermal imaging cameras are also great tools for safety applications.Safety applications exist in any industry where protection of lives and assets is ofimportance and where an early warning of a potential critical condition is of utmostimportance.AutomationProblems can occur at any time in a production process. In mostcases, it will not be possible to see the problem with the naked eye orto quickly spot potentially harmful temperature variations.For many applications, such as the production of parts andcomponents for the automotive or electronics industry, thermal dataare critical.Inspection of car windscreen defrosting.While machine vision can see a production problem, it cannotdetect thermal irregularities. Infrared imagery provides much moreinformation to production specialists and decision makers. Indeed,for non-contact precision temperature measurement there is nothingto equal infrared. It adds a new dimension to machine vision and isthe perfect solution for applications involving non-contact precisiontemperature measurement and non-destructive testing.SafetySafety applications can be found in many industries. Just afew examples are oil and gas production, power generation ordistribution, steel manufacturing, or any industry which has sometype of storage area where goods or material is kept that can selfcombust. Examples on this is storage of splint wood, batteries, waste,coal and more. All these applications have in common that there is afundamental need to detect hot spots and then prevent that this turnsin to a fire or a costly break down.Coal pile monitoring.Thermal imaging camerasAdvanced thermal imaging cameras allow you to monitor whatyou can’t see, providing quality assurance and safety in the fastestand easiest way possible. They can be installed almost anywhereto monitor the efficiency and safety of your production process bydetecting and measuring temperature differences.Thermal imaging cameras have proven to be an invaluable toolfor safety monitoring and to improve production quality.6Visit www.flir.com
The advantages of infraredthermography at a glance! Sees the heat producedCan trigger alarmsNon-contact, quick and easy to usePerforms inspections when systemsare in productionIdentifies and locates the problemMeasures the temperatureStores the informationSaves you valuable time and moneyAutomationFunction test and quality assessment of carwindows and seatsDue to the high quality demands of the automobileindustry all front and rear windows, car seatheatings and various other components areassessed with thermal imaging cameras. Inaddition to the traditional presence check andthe search for weak points in the material on theheating wires in the rear windows, the productquality of a heated front window is also monitoredcontinuously. Furthermore infrared cameras areused for air conditioning test benches in order toacquire valuable temperature data.SafetyFire detection in waste bunkersIn vast storage warehouses at waste incinerationplants, many different materials are collected.Spontaneous fires can be caused by thecomposting processes. Also the inclusion of highlycombustible objects is a fire hazard. An infraredcamera prevents spontaneous fires by identifyingfire pockets in an early stage so that a fire alarmcan be triggered.Outdoor fire detectionAfter coal has been mined the various productgrades are homogenised on different storage areas.As spontaneous combustion, due to an increase intemperature, cannot be disregarded, the storageareas are monitored continuously for hot spots, sothat an early fire alarm may be triggered and firescan be avoided.7
FLIR A300 / A310Safety: the infrared eyethat never sleepsFixed mounted infrared cameras like FLIR A300/A310 canbe installed almost anywhere to monitor your criticalequipment and other valuable assets. It will safeguardyour plant and measure temperature differences toassess the criticality of the situation. This allows youto see problems before they become costly failures,preventing downtime and enhancing worker safety.Built-in extensive analysis functions(only FLIR A310)Spot, area measurement and differencetemperature functions.ALARMSEthernet/IPModbus TCPBuilt-in alarm functions (only FLIR A310)As function of analysis, internal temperature ordigital input.DIGITALx925 HIGHSENSITIVITY 50 mKImage masking functionality(only FLIR A310)Select only the relevant part of the image foryour analysis.MPEG-4PoE8MPEG-4 streamed videoMPEG-4 streamed video output over Ethernet toshow live images on a PC, 640x480 with overlayup to 30 Hz, system dependent.PoE (Power over Ethernet)Communication and power supplied with onlyone cable.Visit www.flir.comIR monitor softwareIn house developed software with support to upto nine cameras simultaneously.Video outputComposite video output, PAL and NTSCcompatible.Ethernet/IP and Modbus TCP compliance(only FLIR A310)Easy sharing of analysis, alarm results to PLC:s.Messaging functionality (only FLIR A310)The camera automatically sends analysis results,IR images and more as an e-mail on scheduleor at alarm. Autonomous dispatch of files ore-mails, acting as an FTP- or SMTP-client.Digital inputs/outputs (only FLIR A310)For alarms and control of external equipment.LensBuilt-in 25 degree lens with both motorized focusand autofocus. Optional lenses available.High sensitivity 50 mK 50 mK thermal sensitivity captures the finestimage details and temperature differenceinformation.Remote controlRemote control of the camera over the Web andTCP/IP protocol.16bit100MbETHERNET16 bit image16 bit image transfer to PC for analysis.Built-in 100 Mb Ethernet connection100 Mb Ethernet.
Digital photo and IR image of a substation showing a transformer with excessive temperature.Rugged aluminium housingGermanium lensEasy mounting on three sidesComposite video outputEthernet connectionPower connectionDigital input/output connectionWho will benefit from this technology?Oil and GasOil refineries and exploration, petrochemical plants: Natural gas processing, transport and storageFire prevention in storage areasRefractory lining monitoringFlare detectionProcess quality controlPower Generation and Distribution IR offers another pair of “eyes” to seethrough the steam into the log vat for properlog alignment.Operators cannot see through the steamcloud caused by condensation in cooler airtemperatures.Fire prevention on coal pilesFire prevention in wood storage areasFire prevention in waste storage areasSub-station monitoringCritical equipment monitoring9
FLIR A315 / A615Automation: speed up yourdesign cycle with infraredFixed mounted infrared cameras like FLIR A615/A315 can be installed almostanywhere to monitor your production process by detecting and measuringtemperature differences and visualize heat patterns. The FLIR A-cameras is aseries of compact and affordable infrared cameras, fully controlled by a PC. Dueto their compliance to standards, FLIR A-cameras are Plug&Play device with3rd parties Machine Vision software like National instruments, Cognex, Matrox,MVtec and Stemmer Imaging.GigE Vision standard compatibilityAn industry first. GigE Vision is a new camerainterface standard developed using the GigabitEthernet communication protocol. GigE Vision isthe first standard to allow for fast image transferusing low cost standard cables even over longdistances. With GigE Vision, hardware andsoftware from different vendors can interoperateseamlessly over GigE connections.GenICam protocol supportAn industry first. The goal of GenICam is toprovide a generic programming interface forall kinds of cameras. Regardless of interfacetechnology (GigE Vision, Camera Link, 1394DCAM, etc.) or features implemented, theapplication programming interface (API) willalways be the same. The GenICam protocol alsomakes third party software being possible to usewith the camera.640x48030 60 12010640x480 pixels (only FLIR A615)The FLIR A615 has a resolution pixel detector of640x480 pixels that allows more accuracy andshows more details at a longer distance.High speed infrared windowing (only FLIRA615)The FLIR A615 has a high speed infraredwindowing option.Visit www.flir.comImage flow controlLet an external signal control the imagestreaming.HIGHSENSITIVITY 50 mKGIGABITETHERNET25 High sensitivity 50 mK 50 mK thermal sensitivity captures the finestimage details and temperature differenceinformation.Built-in Gigabit Ethernet connectionReal time 16-bit image streaming to computer.Lens (only FLIR A315)Built-in 25 degree lens with both motorized focusand autofocus. Optional lenses available.
Process monitoring of production lineRugged aluminium housingGermanium lensEasy mounting on three sidesGigabit Ethernet connectionPower connectionUSB connectionDigital input/output connectionWho will benefit from this technology?AutomotiveCars and commercial vehicles, engine manufacturing andsubcontractors serving the industry: Soldering and weldingCar seat heatingVerification of window defrostingHeating, air conditioning functionsCasting of plastic or metallic partsQuality checking of laminated parts such as dashboardsQuality checking of leather upholsteryFriction control of tiresInfrared image of a windshield defroster.Infrared image of a car engine.ElectronicsElectronics design, PCB and componentmanufacture and electronics assembly: PCB testing, validation and verificationFault tracing in board assembliesPower electronics design11
SoftwareTurning tools into solutionsTurning tools into solutionsIn order to fully utilize the FLIR A-Series cameras and integrate them into workingsystems for safety and automation the A-Series offer a set of software tools andutilities. Further information regarding downloads and updates is available athttp://flir.custhelp.com/GeneralIP ConfigUtility program for network camera detection and IP address setting,the program comes with the Utility CD in the delivery box or can bedownloaded from FLIR Custhelp.For Safety (A300/A310) FLIR IR MonitorUtility program for first camera connection and control and setup ofinternal features/functions, supports up to 9 cameras simultaneously,the program comes with the Utility CD in the delivery box or can bedownloaded from FLIR Custhelp Built in WEB serverSimple built in camera control and image viewer, connect usinghttp://”camera ip adress” in a WEB browser or connect through the IPConfig program Ethernet/IP or Modbus TCP (A310 only)Industrial Field bus protocols, allows that Analyse, Alarm and Cameracontrol is shared with PLC’s. This function is always turned on in theA310 Camera. ThermoVision SDKAn ActiveX component that allows camera control and image grabbingand transformation, purchased separately. AXXX Control & Imaging interfacesA set of ICD’s that describes the camera control and image streaming ona low level. Includes also a set of code samples. Should only be used byexpert coders, can be downloaded at FLIR Custhelp free of charge.For Automation (A315/A615)12 FLIR Camera PlayerUtility program for first camera connection and streamed imageviewing, the program comes with the Utility CD in the delivery box orcan be downloaded from FLIR Custhelp GigE Vision and GenICam complianceMachine Vision camera standard supported in many 3:rd party imageprocessing software's like National Instruments IMAQ Vision andMVTec’s Halcon software. ThermoVision SDKAn ActiveX component that allows camera control and image grabbingand transformation, purchased separately. AXXX Control & Imaging interfacesA set of ICD’s that describes the camera control and image streaming ona low level. Includes also a set of code samples. Should only be used byexpert coders, can be downloaded at FLIR Custhelp free of charge.Visit www.flir.com
AccessoriesFlexible systemsthat meet your changing needsIn today’s fast-changing environment,requirements for purchased capital equipmentcan change from year to year or from projectto project. Things that are vital today can beredundant tomorrow.That makes it important for the equipment inwhich you invest to be flexible enoughto meet the ever-changing needs of yourapplications. No other infrared cameramanufacturer offers a wider range of accessoriesthan FLIR Systems.Hundreds of accessories are available tocustomize our cameras for a wide variety ofimaging and measurement applications.From a comprehensive range of lenses,through LCD screens to remote control devices,everything is available to tailor your camera toyour own, specific application.A wide variety of accessories is available forevery FLIR thermal imaging camera13
ITCFLIR Infrared Training CenterThe Infrared Training Center (ITC) offers the world's leading infrared training andthermographer certification programs.Although all our cameras are designed for easyinstallation and operation, there is a lot moreto thermal imaging than just knowing how tohandle the camera. As the leading company forthermal imaging technology, we like to shareour knowledge with our customers and otherinterested parties.We therefore organize regular courses andseminars. We also organize in-company trainingon request, so that you, or your staff, cangain familiarity with thermal imaging and itsapplications.The ITC not only welcomes FLIR Systemscustomers but also users of other brands ofcameras. In fact, anyone who wants to learnmore about thermal imaging for any applications,before deciding to purchase a camera, is alsoinvited.The mission of the ITC is to make our customersand partners successful by enhancing theirknowledge of IR technology, thermal imagingproducts, and relevant applications. The ITCoffers a portfolio of courses that presents theright mix of theoretical and practical content tohelp professionals quickly apply thermal imagingtechnology to real life applications.All our instructors are experienced thermalimaging specialists. Not only do they havea profound theoretical knowledge but theyalso have practical experience with numerousapplications. For our customers, this means thatattending one of the ITC’s courses will give thema real hands-on learning experience.Follow one of our courses and become athermal imaging expert.Each ITC course is a perfect combination of theoretical fundamentals and practical excercises.It guarantees participants a real hands-on learning experience.14Visit www.flir.com
After SalesFLIR After SalesAt FLIR Systems, building a relationship with a customer takes more than justselling a thermal imaging camera. After the camera has been delivered, FLIRSystems is there to help meet your needs.Once purchased, thermal imaging camerasare vital pieces of equipment. To keep themrunning at all times, we operate a worldwideservice network with subsidiaries in Belgium,China, France, Germany, Hong Kong, Italy, theNetherlands, Sweden, United Arab Emirates, theUnited Kingdom and the USA.If there should be a problem with one of ourcamera systems, these local service centershave all the know-how and equipment to solve itwithin the shortest possible time. Local cameraservice gives you the assurance that your systemwill be ready for use again within an extremelyshort timeframe.Our service personnel regularly follows trainingprograms at our production facilities in Swedenor the USA. Not only to learn about the technicalaspects of the products, but also to familiarizethemselves with your individual customerrequirements and the latest applications.Different types of maintenance contracts can beoffered to make sure that, whatever happens,your thermal imaging camera is always availablefor use.CUSTOMER CARE is not just a slogan.We write it in capital letters at FLIR.Buying a thermal imaging camera is a long-terminvestment. You need a reliable supplier who canprovide you with support over a long period oftime.15
FLIR A300 / A310Technical specificationsCamera specific16FLIR A300FLIR A310Measurement analysisSpotmeterAreaIsothermMeasurement optionN/AN/AN/AN/ADifference temperatureN/AReference temperatureN/AAtmospheric transmission correctionN/AOptics transmission correctionEmissivity correctionReflected apparent temperature correctionExternal optics/windows correctionN/AN/AN/AN/AMeasurement correctionsN/A1010 boxes with max./min./average/position1 with above/below/intervalMeasurement Mask FilterSchedule response: File sending (ftp), email (SMTP)Delta temperature between measurement functions orreference temperatureManually set or captured from any measurementfunctionAutomatic, based on inputs for distance, atmospherictemperature and relative humidityAutomatic, based on signals from internal sensorsVariable from 0.01 to 1.0Automatic, based on input of reflected temperatureAutomatic, based on input of optics/windowtransmission and temperatureGlobal and individual object parametersAlarmAlarm functionsN/AAlarm outputN/AEthernetEthernetControl and imageEthernet, protocolsTCP, UDP, SNTP, RTSP, RTP, HTTP, ICMP, IGMP, ftp,SMTP, SMB (CIFS), DHCP, MDNS (Bonjour), uPnPEthernet, image streaming16-bit 320 x 240 pixels at 3 Hz- RadiometricVisit www.flir.com6 automatic alarms on any selected measurementfunction, Digital In, Camera temperature, timerDigital Out, log, store image, file sending (ftp), email(SMTP), notificationControl, result and imageEthernet/IP, Modbus TCP, TCP, UDP, SNTP, RTSP, RTP,HTTP, ICMP, IGMP, ftp, SMTP, SMB (CIFS), DHCP,MDNS (Bonjour), uPnP16-bit 320 x 240 pixels at 7-8 Hz-Radiometric
GeneralImaging and optical dataField of view (FOV) / Minimum focus distanceLens identificationThermal sensitivity/NETDFocusF-numberImage frequencyZoom25 18.8 / 0.4 mAutomatic 0.05 C at 30 C / 50 mKAutomatic or manual (built in motor)1.330 Hz1–8 continuous, digital, interpolating zooming on imagesDetector dataIR resolutionDetector pitchDetector time constantFocal Plane Array (FPA) / Spectral range320 240 pixels25 μmTypical 12 msUncooled microbolometer / 7.5–13 μmMeasurementObject temperature rangeAccuracy–20 to 120 C0 to 350 C 2 C or 2% of readingSet-upColor palettesSet-up commandsColor palettes (BW, BW inv, Iron, Rain)Date/time, Temperature CStorage of imagesImage storage typeFile formatsBuilt-in memory for image storageStandard JPEG, 16-bit measurement data includedComposite videoVideoVideo, standardComposite video output, PAL and NTSC compatibleCVBS (ITU-R-BT.470 PAL/SMPTE 170M NTSC)Digital input/outputDigital inputDigital output, purposeDigital outputDigital I/O, isolation voltageDigital I/O, supply voltageDigital I/O, connector typeDigital input, purpose2 opto-isolated, 10–30 VDCAs function of ALARM, Output to ext. device(programmatically set)2 opto-isolated, 10–30 VDC, max 100 mA500 VRMS12/24 VDC, max 200 mA6-pole jackable screw terminalImage tag (start/stop/general), Input ext. device (programmatically read)EthernetEthernet, standardEthernet, connector typeEthernet, typeEthernet, communicationEthernet, video streamingEthernet, powerIEEE 802.3RJ-45100 MbpsTCP/IP socket-based FLIR proprietaryMPEG-4, ISO/IEC 14496-1 MPEG-4 ASP@L5Power over Ethernet, PoE IEEE 802.3af class 0Power systemExternal power operationExternal power, connector typeVoltage12/24 VDC, 24 W absolute max2-pole jackable screw terminalAllowed range 10–30 VDCEnvironmental dataOperating temperature rangeStorage temperature rangeHumidity (operating and storage)EncapsulationBumpVibration–15 C to 50 C–40 C to 70 CIEC 60068-2-30/24 h 95% relative humidity 25 C to 40 C EN 61000-6-2:2001 (Immunity) EN 61000-6-3:2001 (Emission) FCC 47 CFR Part 15 Class B (Emission)IP 40 (IEC 60529)25 g (IEC 60068-2-29)2 g (IEC 60068-2-6)Physical dataWeightCamera size (L W H)Tripod mountingBase mountingHousing material0.7 kg170 70 70 mmUNC ¼”-20 (on three sides)2 M4 thread mounting holes (on three sides)AluminiumEMCScope of deliveryHard transport case or cardboard box, Infrared camera with lens, Utility CD-ROM, Calibration certificate, Ethernet cable, Mains cable,Power cable (pig-tailed), Power supply, Printed Getting Started Guide, Printed Important Information Guide, User documentation CD-ROM,Warranty extension card or Registration card, 6-pole screw terminal (mounted on camera)17
FLIR A315 / A615Camera specificFLIR A315FLIR A6151.36 mrad18 mm1.360 Hz0.69 mrad24.5 mm1.050 Hz (100/200 Hz with windowing)320 240 pixels25 μmTypical 12 ms640 480 pixels17 μmTypical 8 ms–20 to 120 C0 to 350 CUSBUSBUSB, standardUSB, connector typeUSB, communicationUSB, image streaming-20 to 150 C0 to 650 C 300 to 2000 CN/AN/AN/AN/AN/AUSB, protocolsN/AControl and imageUSB 2 HSUSB Mini-BTCP/IP socket-based FLIR proprietary16-bit 640 480 pixels at 25 Hz16-bit 640 240 pixels at 50 Hz16-bit 640 120 pixels at 100 Hz- Signal linear- Temperature linear- RadiometricTCP, UDP, SNTP, RTSP, RTP, HTTP, ICMP, IGMP, ftp,SMTP, SMB (CIFS), DHCP, MDNS (Bonjour), uPnPImaging and optical dataSpatial resolution (IFOV)Focal lengthF-numberImage frequencyDetector dataIR resolutionDetector pitchDetector time constantMeasurementObject temperature rangeEthernetEthernet, image streaming18Visit www.flir.com16-bit 320 240 pixels at 60 Hz- Signal linear- Temperature linear- RadiometricGigE Vision and GenICam compatible16-bit 640 480 pixels at 50 Hz16-bit 640 240 pixels at 100 Hz16-bit 640 120 pixels at 200 Hz- Signal linear- Temperature linear- RadiometricGigE Vision and GenICam compatible
GeneralImaging and optical dataField of view (FOV) / Minimum focus distanceLens identificationThermal sensitivity/NETDFocus25 18.8 / 0.4 mAutomatic 0.05 C @ 30 C / 50 mKAutomatic or manual (built in motor)Detector dataFocal Plane Array (FPA) / Spectral rangeUncooled microbolometer / 7.5–13 μmMeasurementAccuracy 2 C or 2% of readingMeasurement analysisAtmospheric transmission correctionOptics transmission correctionEmissivity correctionReflected apparent temperature correctionExternal optics/windows correctionMeasurement correctionsEthernetEthernetEthernet, standardEthernet, connector typeEthernet, typeEthernet, communicationEthernet, protocolsDigital input/outputDigital inputDigital output, purposeDigital outputDigital I/O, isolation voltageDigital I/O, supply voltageDigital I/O, connector typeDigital input, purposePower systemExternal power operationExternal power, connector typeVoltageDigital input/outputDigital input, purposeEnvironmental dataOperating temperature rangeStorage temperature rangeHumidity (operating and storage)Automatic, based on inputs for distance, atmospheric temperature andrelative humidityAutomatic, based on signals from internal sensorsVariable from 0.01 to 1.0Automatic, based on input of reflected temperatureAutomatic, based on input of optics/window transmission andtemperatureGlobal object parametersControl and imageIEEE 802.3RJ-45Gigabit EthernetTCP/IP socket-based FLIR proprietary and GenICam protocolTCP, UDP, SNTP, RTSP, RTP, HTTP, ICMP, IGMP, ftp, SMTP, SMB (CIFS),DHCP, MDNS (Bonjour), uPnP2 opto-isolated, 10–30 VDCOutput to ext. device (programmatically set)2 opto-isolated, 10–30 VDC, max 100 mA500 VRMS12/24 VDC, max 200 mA6-pole jackable screw terminalImage tag (start, stop, general), Image flow ctrl. (Stream on/off), Inputext. device (programmatically read)12/24 VDC, 24 W absolute max2-pole jackable screw terminalAllowed range 10–30 VDCImage tag (start, stop, general), Image flow ctrl. (Stream on/off), Inputext. device (programmatically read)EncapsulationBumpVibration–15 C to 50 C–40 C to 70 CIEC 60068-2-30/24 h 95% relative humidity 25 C to 40 C EN 61000-6-2:2001 (Immunity) EN 61000-6-3:2001 (Emission) FCC 47 CFR Part 15 Class B (Emission)IP 40 (IEC 60529)25 g (IEC 60068-2-29)2 g (IEC 60068-2-6)Physical dataWeightCamera size (L W H)Tripod mountingBase mountingHousing material0.7 kg170 70 70 mmUNC ¼”-20 (on three sides)2 M4 thread mounting holes (on three sides)AluminiumEMCScope of deliveryHard transport case or cardboard box, Infrared camera with lens, Utility CD-ROM, Calibration certificate, Ethernet cable, USB cable(FLIR A615), Mains cable, Power cable (pig-tailed), Power supply, Printed Getting Started Guide, Printed Important Information Guide, Userdocumentation CD-ROM, Warranty extension card or Registration card, 6-pole screw terminal
FLIR Systems: the world leader for thermal imaging cameras FLIR Systems is the world leader in the design, manufacturing and marketing of thermal imaging systems for a wide variety of commercial, industrial and government applications. FLIR Systems' thermal imaging systems use state-of-the-art infrared imaging technology that detects
