User`s manual FLIR Ax5 series
Contents
1. 80 Pin configurations and schematics 87 13 1 M12 connector pin Configuration 87 13 2 Pigtail end Of Cable wea deaw i u Sau alta ene aetna ions 87 13 3 SYNC input output schematics 88 13 4 GP input output schematics 88 Declaration Of CoOnformiy iu uuu asa tua basa sas 89 Cleaning the Came rai uuu u u u a a 90 15 1 Camera housing cables and other items 90 kosket Id u u recreate try Cormeen ren ere ace me ana Y aca 90 lot EG Ipinen u since ce Anatase tite a E a eh lost 90 TOG ROCCGUIC E EE A E E E transect conta cetedaiate E 90 S2 NAM ARCO lens esee s sasa kSabaymhakanqasashhunasss 90 Ove di iquiges un amun T a a naa E 90 1922 2 EEQUIDIMGNU orione a E RN 90 1952 3 PrOcCE dU E a N T saat S ann baa ahua 90 Abo t FLIR Syst ms uuu u u Sau u a A aE aAa 91 16 1 More than just an infrared camera 92 16 2 Sharing our knowledge 92 16 3 Supporting our customers 92 16 4 A few images from our facilities 93 GIOSSONY ku usus 22 uuu sumi ausu spa EO E a eo au uquss saus 94 Thermographi2. 1559770 r 18834 22369 en US 101 19 History of infrared technology Before the year 1800 the existence of the infrared portion of the electromagnetic spec trum wasn t even suspected The original significance of the infrared spectrum or simply the infrared as it is often called as a form of heat radiation is perhaps less obvious to day than it was at the time of its discovery by Herschel in 1800 Figure 19 1 Sir William Herschel 1738 1822 The discovery was made accidentally during the search for a new optical material Sir William Herschel Royal Astronomer to King George Ill of England and already famous for his discovery of the planet Uranus was searching for an optical filter material to re duce the brightness of the sun s image in telescopes during solar observations While testing different samples of colored glass which gave similar reductions in brightness he was intrigued to find that some of the samples passed very little of the sun s heat while others passed so much heat that he risked eye damage after only a few seconds observation Herschel was soon convinced of the necessity of setting up a systematic experiment with the objective of finding a single material that would give the desired reduction in brightness as well as the maximum reduction in heat He began the experiment by ac tually repeating Newton s prism experiment but looking for the heating effect rather than the visual distr
3. 8 bit 640 x 512 pixel images streamed at 30 Hz signal linear 14 bit 640 x 512 pixel images streamed at 30 Hz signal and temperature linear Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D lt 0 05 C 30 C 86 F 50 mK Detector data Focal Plane Array FPA Uncooled VOX microbolometer Object temperature range 25 to 135 C 13 to 275 F Ethernet S Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant 1559770 r 18834 22369 en US 65 11 Technical data Ethernet image streaming 8 bit monochrome 30 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 640 x 512 pixels 30 Hz e Signal linear DDE e Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDPICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3
4. EAN 13 7332558003992 4743254000605 Estonia plant UPC 12 845188003555 Supplies amp accessories e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 22 11 Technical data 11 4 FLIR A15 f 19 mm 7 5 Hz P N 64319 0101 Rev 22369 General description The FLIR A15 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 160 x 128 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 160 x 128 pixel images streamed at 7 5 Hz signal linear 14 bit 160 x 128 pixel images streamed at 7 5 Hz signal and temperature linear Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National I
5. Technical data Environmental data Shock 25 g IEC 60068 2 27 Vibration 2 g IEC 60068 2 6 Physical data Tripod mounting UNC 20 on three sides Shipping information Packaging type Cardboard box List of contents Infrared camera with lens FLIR Tools download card Focus adjustment tool Printed documentation User documentation CD ROM Supplies amp accessories e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 64 11 Technical data 11 18 FLIR A65 f 13 mm P N 62613 0101 Rev 22369 General description The FLIR A65 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 640 x 512 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet
6. lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F 1559770 r 18834 22369 en US 45 11 Technical data Environmental data EMG EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission UNC 20 on three sides Shipping information Packaging type Cardboard box List of contents Hard transport case e Infrared camera with lens e Base support e Cable tie 2 ea e Ethernet cable CAT 6 2m 6 6 ft 2 ea e FLIR ResearchiR Standard 4 e Focus adjustment tool e Gooseneck Mains cable kit UK EU US PoE Injector power over Ethernet e Printed documentation e Table stand e User documentation
7. Detector type Focal Plane Array FPA Uncooled VOX microbolometer Spectral range 7 5 13 um Detector time constant Typical 12 ms Measurement Object temperature range e 25 to 135 C 13 to 275 F 40 to 550 C 40 to 1022 F Ethernet type Gigabit Ethernet Ethernet standard IEEE 802 3 Ethernet connector type RJ 45 Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant 1559770 r 18834 22369 en US 29 11 Technical data Ethernet image streaming 8 bit monochrome 7 5 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 160 x 128 pixels 7 5 Hz e Signal linear DDE e Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDPICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connec
8. GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 640 x 512 pixel images streamed at 7 5 Hz signal linear 14 bit 640 x 512 pixel images streamed at 7 5 Hz signal and temperature linear Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D lt 0 05 C 30 C 86 F 50 mK Detector data Focal Plane Array FPA Uncooled VOX microbolometer Object temperature range 25 to 135 C 13 to 275 F Ethernet S Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant 1559770 r 18834 22369 en US 68 11 Technical data Ethernet image streaming 8 bit monochrome 7 5 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 640 x 512 pixels 7 5 Hz e Signal linear DDE e Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDPICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk
9. Vv 9LL8CLL H ON Bulmeiq Ju uyy cV 8ZIS ONHV 29 D P ldg Ol ww QO 0 WW G Gx SUOISUBUIP sIseg uoneulwoueq buluweueg a LL ZO vL0Z jJu une n SoeLNS Huljpueyeq A ssouyGnoyjeyuwel A p y poN peIpuy YaVvAN 6zc LO YLOZ euazen yo uO lluoy ajeq wneq uexo1q s p g or 000 00 eujniq Jaquey GOF 00v 0ZL 0F 0Z1 0 Mpejj llq Z OF oe 9 JoipessjeyieH OF 9S 0 W 89 Z OSI Wo4 d130x3 4N Bespin MW 89Z OSI 499 pags siwu u o ss lun s Bue yeuue fo seq SNOYVW d Aq p jipoW Ae pespuy SNOAVI d UMEJG ISUOY A L L Z lt h x vlog zyz C PUE s Bed 98S SUOISUBWIP 19470 Je 104 Su HI SIU JO pljeA SUOISUBLUIP JUO Su Y WW 09 J u Bu e5oJj ulIA esewUeyD SUOISUBWIP S seg gY SWALSAS Hd Bej epueyjeb Ae pols paw seJAI9q ABJEY SjapeIAO apueAIBpaW peA uen Jejap 19412 1 ul u UIS I sesaidoy ueuue sabjap f se Buljpuey euusq gY SWALSAS tl 1d sBuip o5o4d eB 0 pea m ju uu BuuJui AUY uolissiuuj d INO noujiA ped Ul JO 91 duuo5 paidoo Jo payed uNWWOd q 1ou 1 snui JUBWNDOp silu L v 9LL8CLL Sete ae S r C L 8 0 4 D l ee nd Serene ww 00 L 0 WW G J E cV GxV suoisu w p oISeg lta 8ZIS ONHV W 89 Z OSI uuo1j di oxg in Bespin 2 2 z LiL MW 8927 OS 499 1j us pelg e5S e eys uonmguiujou q Buiuuieu sg
10. e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198371 Transport case Ax5 e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools e 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 37 11 Technical data 11 9 FLIR A35 f 19 mm P N 68219 0101 Rev 22369 General description The FLIR A35 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 320 x 256 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 320 x 256 pixel images streamed at 60 Hz signal linear 14 bit 320 x 256 pixel images streamed at 60 Hz signal and temperature linear High frame rates 60 Hz Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX
11. uoneulwoueq buluweueg nu LL ZO v 02 juewjees soeyNS Huljpueyeq A ssouyBnoypeyuwel p y poN peIpuy YaVvAN 62 L0 V LOZ euazen yo uO luoy ajeq wneq uexorq se6PA g or 000 00 eujniq saquey GOF 00v 0ZL 0F 0ZL 0 IpeJ alld Z O oe 9 JoipesseyleH OF 9S 0 W 89 7Z OSI Wo4 d130x3 4N Bespin MW 89L OSI 499 pags siwu u o ss lun s Bue yeuue fo seq SNOYVW d Aq paljlpow Ae peipuy SNOYYN d UMEJG ISUOY woddns seq uo ppe JOJ SUOISUBUUIP DISeg gY SWALSAS Hd Be epueyjeb Ae pols paw seJAlag ABJEY SJ PEIIAQ gY SWALSAS tl 1d sBuip o5o4d eB 0 pea m ju uu BuuJui AUY uolrssiuuj d INO noujiA ped ul JO 91 duuo5 paidoo epueAlbpew ea uen Jejap 19419 424124 UIS seJ idoy ueuue sabjap f se Builpueu euusq JO PS JCOIUNLWIWODS q JOU JSNW Ju uunoop SIY L uex01q s P3 g oF 0001 00p V 9 L L8 LL WWW 00 J O WWW CG J euyniq JajUey GOF oe S r C L H ON BuiweiG lu uyy 0F ozL o pea alld Z OF oe 9 cV xV SUOISUBIID JISE 5 azis ONLY G V p g W 89 Z OSI wo d1990x3 4n Bespin e z LiL MW 8927 OS 499 yeoys pelg ajeos ejexs uoneulwoueq buluweusg pags siwu u o ss un s Bue yeuue fo seq ral LL Z0O rLOZ SNOYVI d a a jJu une n SoeLNS Huljpueyeq A ssouyGnoyjeyuwel A p y poN peIpuy Aq p poy e pespuy a 4 XVN 6Z LO rLOZ SNONVN d Iena yo uo luoy eq uneq UMeIG 1 SUOY 7 COo
12. 14 bit 640 x 512 pixels 30 Hz e Signal linear DDE e Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDPICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 3V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC l
13. 2 Reflected emission from ambient sources 1 tTWrerl where 1 is the reflec tance of the object The ambient sources have the temperature Tref It has here been assumed that the temperature Tret is the same for all emitting surfa ces within the halfsphere seen from a point on the object surface This is of course sometimes a simplification of the true situation It is however a necessary simplifica tion in order to derive a workable formula and Tref can at least theoretically be giv en a value that represents an efficient temperature of a complex surrounding Note also that we have assumed that the emittance for the surroundings 1 This is correct in accordance with Kirchhoff s law All radiation impinging on the surrounding surfaces will eventually be absorbed by the same surfaces Thus the emittance 1 Note though that the latest discussion requires the complete sphere around the ob ject to be considered 3 Emission from the atmosphere 1 T tWatm where 1 T is the emittance of the at mosphere The temperature of the atmosphere is Tatm The total received radiation power can now be written Equation 2 Wot ETW T 1 o E TW ef a 1 iii T W atm We multiply each term by the constant C of Equation 1 and replace the CW products by the corresponding U according to the same equation and get Equation 3 ees Ei STU T 1 _ E TU op T 1 E T U atm Solve Equation 3 for Uopj
14. Answers Ask a Question Product Registration Downloads My Stuff Service FLIR Customer support Get the most out of your FLIR products Get Support fof Your FLIR Products Welcome to the FLIR Customer Support Center This portal will help you as a FLIR customer to get the most out of your FLIR products The portal gives you access to e The FLIR Knowledgebase e Ask our support team requires registration a Software and documentation requires registration FLIR service contacts Find Answers We store all resolved problems in our solution database Search by product category keywords or phrases Search by Keyword Search All Answers See All Popular Answers To find a datasheet for a current product click on a picture To find a datasheet for a legacy product click here FLIR Ex FLIR EXX FLIR Kxx FLIR T4xx FLIR T6xx FLIR G3xx ThermacAmM FLIR GF3xx FLIR AX FLIR Ax5 FLIR A3xx GasFindIR Product catalog Accessones Please right click the links below and select Save Target As to save the file Or Al mi 8 US Letter 28 Mb r s Ad 27 4 Mb amp 8 ray ba Important legal disclaimer dangers warnings and cautions 4 1 General For customer help visit http support flir com 4 2 Submitting a question To submit a question to the customer help team you must be a registered user It only takes a few minutes to register online If you only want to search the knowledgebas
15. Lm L 1 L j 0 Sze oe ek pue seabed s SUOISUBWIP 19470 104 Su H SIU JOJ pljeA SUOISUBUIP JUO SUu H WW G u Bu e90 YIM elowey SUOISUBWIP DISeg Ol 6 8 Z 9 G r C L gY SWALSAS Hd Be puelig6 e pols pew seJAleg ABJEY SJ PEIYIAQ puenp w yea ugn Jejap 1941 1 ul u UIS I seJ idoy ueuue s fj p f se Buljpuey euusq gY SWALSAS tl 1d sBuip o5o4d eB 0 pea m ju uu BuuJui AUY uolissiuuj d INO noujiA ped Ul JO 91 duuo5 paidoo Jo payed uNWWOd q 1ou 1 snui JUBWNDOp silu L Vv 9LL8CLL H ON Bulmeiq Ju uyy cV 8ZIS ONHV Be ea P ldg Ol ww QO 0 WW G Gx SUOISUBUIP sIseg uoneulwoueq buluweueg a LL ZO vL0Z jJu une n SoeLNS Huljpueyeq A ssouyGnoyjeyuwel A p y poN peIpuy YaVvAN 6zc LO YLOZ euazen yo uO lluoy ajeq wneq uexo1q s p g or 000 00 eujniq Jaquey GOF 00v 0ZL E OF 0ZL 0 Mpejj llq Z OF oe 9 JoipessjeyieH OF 9S 0 W 89 Z OSI uuo1j di oxg in Bespin MW 89Z OSI 499 pags siwu u o ss lun s Bue yeuue fo seq SNOYVW d Aq p jipoW Ae pespuy SNOAVI d UMEJG ISUOY 00 0 eal v0 0 C PUE s Bed s suolsusuulp 19470 e 104 Su HI SIU JO pljeA SUOISUBLUIP UO Su H WW GE u Bu e90 YIM eJ awep SUOISUBWIP S seg gY SWALSAS tl 1d Bej epueyjeb Ae pols paw seJAI9
16. ceived radiation A number between 0 and 1 The gases between the object being measured and the camera nor mally air A function making a camera perform an internal image correction The IR image is shown with an uneven spread of colors displaying cold objects as well as hot ones at the same time Totally non reflective object All its radiation is due to its own temperature An IR radiating equipment with blackbody properties used to cali brate IR cameras A transmission value computed from the temperature the relative humidity of air and the distance to the object A bottle shaped radiator with an absorbing inside viewed through the bottleneck The temperature for which the color of a blackbody matches a spe cific color The process that makes heat diffuse into a material A function that adjusts the image The function works all the time continuously adjusting brightness and contrast according to the im age content Convection is a heat transfer mode where a fluid is brought into mo tion either by gravity or another force thereby transferring heat from one place to another An isotherm with two color bands instead of one The amount of radiation coming from an object compared to that of a blackbody A number between 0 and 1 Amount of energy emitted from an object per unit of time and area W m2 Objects and gases that emit radiation towards the object being measured A transmission value suppl
17. e Printed documentation e Table stand e User documentation CD ROM e _ EAN 13 7332558003947 Supplies amp accessories e T951004ACC Ethernet cable CAT 6 2m 6 6 ft T198349 Base support e T198348 Cable kit Mains UK EU US e T911112 PoE injector e 1198371 Transport case Ax5 e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T1127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 55 11 Technical data 11 15 FLIR A5 f 5 mm with SC kit 7 5 Hz P N 64205 0102 Rev 22369 General description The FLIR A5 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 80 x 64 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 80 x 64 pixel images streamed at 7 5 Hz signal linear 14 bit 80 x 64 pixel images streamed at 7 5 Hz signal and temperature linear Synchronization between cameras possible 1x 1x GPIO Compliant w
18. 0 8 V 1 gt 2 0 V 4 SYNC IN GND RET GB Camera PWR 7 GPO 1 x opto isolated 2 40 VDC max 185 mA GPIO_PWR GP Output PWR 2 40 VDC max 200 mA GPl 1 x opto isolated 0 lt 2 1 2 40 VDC Cables for the M12 connector are available from FLIR Systems See the part numbers below e 1127605 Cable M12 pigtail e 1127606 Cable M12 sync 13 2 Pig tail end of cable ject Es a 2 PWR_GB X X Bro 3 SYNC_ OUT ana 4SYNC OUT GW pip hing X X _ GRANGE 6SYNCIN_GND 8 GPO OC max 9 GPIO_PWR g aes 10 GPIO_GRD W oe ae YW N BLACK 12 GPI za Figure 13 2 Mapping table signal type to cable color 1559770 r 18834 22369 en US 87 13 Pin configurations and schematics 13 3 SYNC input output schematics r Lw as Figure 13 3 Schematics of SYNC input and output 13 4 GP input output schematics VIH O 3V 0 5 V l l T2 MMBT3906T ZF i eee pawaaciasa sak apsasssawsq s tS a ee ee eet Deane ee CMC shintateawew sas acorn ences sis dace u U6 ee R26 150R 4 IGPIO_OUTOI gt FT E T IGNO i Kes PS2913 1 A o l Required isolation 500V RMS Figure 13 4 Schematics of GP input and output 10 15mA max R19 33R gt ISYNC_ouT gt SYNC_IN GND R22 10K lt GPL VIH 25V ma D3 a er presses MMBD7000LT1G
19. 2 Claims Cl 88 1 This invention relates to an improved optical scanning mechanism for receiving electromagnetic radiation and to radiation responsive means utilizing such optical scan ning It is an object of the invention to provide improved op tical scanning means of the character indicated It is another object of the invention to provide im proved means for continuously and automatically scan ning of a field of view for ascertaining energy levels in such field 3 253 498 Patented May 31 1966 10 20 2 prism has in our invention an even number of sides and is rotated about an axis 2 as indicated by the arrow in FIG 4 that is perpendicular to the paper in FIG 1 The said collecting optics has an optical axis 4 that in tersects said rotating axis 2 and is perpendicular thereto The image surface 5 generated by said collecting optical system is situated inside said prism Just outside the circle 3 generated by said rotating prism and on the optical axis 4 a scanning aperture 6 is located through which a radiation passes to the radiation energy respon sive element 12 such as a photocell bolometer or the like depending upon the energy spectrum of interest When said prism rotates the scanning aperture 6 scans a line on said image surface 5 and when a corner of said prism passes the scanning aperture 6 there is a substan tially instantaneous return of the scan In FIGS 1 and 4 there is shown an incoming ra
20. Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F 1559770 r 18834 22369 en US 60 11 Technical data Environmental data EMG EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission UNC 20 on three sides Housing material Magnesium and aluminum Shipping information Packaging type Cardboard box List of contents e Infrared camera with lens e FLIR Tools download card Focus adjustment tool e Printed documentation e User documentation CD ROM Packaging size 295 x 200 x 105 mm 11 6 x 7 9 x 4 1 in EAN 13 7332558003954 4743254000643 Estonia plant UPC 12 845188003593 Supplies amp accessories e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 Po
21. T559770 r 18834 22369 en US 59 11 Technical data Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant Ethernet image streaming 8 bit monochrome 60 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 80 x 64 pixels 60 Hz e Signal linear DDE Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDP ICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 8V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated
22. sandblasted 700 0 25 0 70 0 65 0 71 0 79 0 95 0 98 0 041 Nichrome Nichrome wire clean 500 1000 50 500 122 Nichrome wire clean Nichrome Nickel wire oxidized bright matte Nickel commercially 100 0 045 pure polished Nickel commercially 200 400 0 07 0 09 pure polished Nickel electrolytic 0 04 N QI N O Nickel N O O electrolytic 0 07 Nickel O electrolytic Nickel Ol id CO electrolytic 0 10 Nickel electroplated on 22 0 045 iron polished Nickel electroplated on 20 0 11 0 40 iron unpolished Nickel electroplated on 22 iron unpolished Nickel electroplated 2 polished Nickel Nickel Nickel Nickel Nickel 1227 0 85 0 37 0 37 0 37 0 48 0 045 oxidized N OQO O oxidized N N N oxidized oxidized at 600 C 200 600 polished 122 Nickel Nickel oxide 200 1000 1000 1250 0 1 0 2 0 75 0 86 wire N T559770 r 18834 22369 en US 12 22 Emissivity tables Table 22 1 T Total spectrum SW 2 5 um LW 8 14 um LLW 6 5 20 um 1 Material 2 Specification 3 Temperature in C 4 Spectrum 5 Emissivity 6 Reference continued 500 650 20 0 52 0 59 0 27 Nickel oxide Oil lubricating 0 025 mm film Oil lubricating 0 050 mm film 20 0 46 Oil lubricating 0 125 mm film 20 0 72 film on Ni base 20 0 05 Ni base only Oil lubricating N Oil lubricating thick coating 0 0 82 8 different colors 70
23. the ratio of the spectral radiant power absorbed by an object to that incident upon it The spectral reflectance py the ratio of the spectral radiant power reflected by an ob ject to that incident upon it e The spectral transmittance T the ratio of the spectral radiant power transmitted through an object to that incident upon it The sum of these three factors must always add up to the whole at any wavelength so we have the relation Cu Ep SPS I For opaque materials T 0 and the relation simplifies to p 1 Another factor called the emissivity is required to describe the fraction of the radiant emittance of a blackbody produced by an object at a specific temperature Thus we have the definition The spectral emissivity the ratio of the spectral radiant power from an object to that from a blackbody at the same temperature and wavelength Expressed mathematically this can be written as the ratio of the spectral emittance of the object to that of a blackbody as follows Was Wy Generally speaking there are three types of radiation source distinguished by the ways in which the spectral emittance of each varies with wavelength e A blackbody for which gx 1 e A graybody for which constant less than 1 1559770 r 18834 22369 en US 109 Theory of thermography e A selective radiator for which e varies with wavelength According to Kirchhoff s law for any
24. tion to provide improved scanning mechan prism n y case 60 various indices of refraction of said prism plane of the paper i e the x y plane and forming small 20 ism for continuously and automatically scan Fig 3 is a view showing the paraxial image FIG 3 is a view showing said paraxial image surface angles with the x axis The smaller value of x corre ning a field of view for ascertaining the energy surface for rays in two perpendicular planes for rays in two mutually perpendicular planes for different 40 sponds to the image surface 8 that is generated by the levels in such field for different indices of refraction of the indices of refraction of said prism rays which are parallel with the x z plane and form it is a still further object of the present prism FIG 4 is a side view showing the essential components small angles with the x y plane invention to provide a scanning mechanism for The scanning mechanism of the present in 65 of a complete scanning mechanism and It is apparent from FIG 3 that the aberrations which 25 rapid scanning of a field vention is particularly applicable to receiving FIG 5 is a perspective view of a particular form of a are caused by the prism can be neutralized to a sub A still further object of the present in electromagnetic radiation within the optical scanning prism F 45 stantial degree by a suitable choice of image surface vention is to provide a scanning mechanism ultra violet or infra red regions of the
25. 1 2 Step 2 Determining the emissivity Follow this procedure 1 Select a place to put the sample 2 Determine and set reflected apparent temperature according to the previous procedure Put a piece of electrical tape with known high emissivity on the sample Heat the sample at least 20 K above room temperature Heating must be reasonably even Focus and auto adjust the camera and freeze the image Adjust Level and Span for best image brightness and contrast Set emissivity to that of the tape usually 0 97 Measure the temperature of the tape using one of the following measurement functions oO Oo See 0 Isotherm helps you to determine both the temperature and how evenly you have heated the sample Spot simpler e Box Avg good for surfaces with varying emissivity 9 Write down the temperature 10 Move your measurement function to the sample surface 11 Change the emissivity setting until you read the same temperature as your previous measurement 12 Write down the emissivity Avoid forced convection Look for a thermally stable surrounding that will not generate spot reflections Use high quality tape that you know is not transparent and has a high emissivity you are certain of This method assumes that the temperature of your tape and the sample surface are the same If they are not your emissivity measurement will be wrong 18 3 Reflected apparent temperature This parameter is used to compensa
26. 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 52 11 Technical data 11 14 FLIR A5 f 5 mm with SC kit P N 62205 0102 Rev 22369 General description The FLIR A5 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 80 x 64 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 80 x 64 pixel images streamed at 60 Hz signal linear 14 bit 80 x 64 pixel images streamed at 60 Hz signal and temperature linear High frame rates 60 Hz Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 80 x 64 pixels Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 44 x 36 Focal length 5 mm 0 20 in Spatial resolution IFOV 10 0 mrad F number Detector data Detector type Focal Plane Array FPA Uncooled
27. 1x non isolated Synchronization In type LVC Buffer 3 8V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F 1559770 r 18834 22369 en US 54 11 Technical data Environmental data EMG EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission UNC 1420 on three sides Shipping information Packaging type Cardboard box List of contents Hard transport case e Infrared camera with lens e Base support e Cable tie 2 ea e Ethernet cable CAT 6 2m 6 6 ft 2 ea e FLIR ResearchiR Standard 4 e Focus adjustment tool e Gooseneck Mains cable kit UK EU US PoE Injector power over Ethernet
28. 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission Encapsulation IP 40 IEC 60529 with base support mounted 1559770 r 18834 22369 en US 69 11 Technical data UNC 20 on three sides Shipping information Packaging type Cardboard box List of contents Infrared camera with lens FLIR Tools download card Focus adjustment tool Printed documentation User documentation CD ROM Packaging size 295 x 200 x 105 mm 11 6 x 7 9 x 4 1 in EAN 13 7332558004067 Supplies amp accessories e 1951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools e 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 70 11 Technical data 11 20 FLIR A65 f 13 mm with SC kit 7 5 Hz P N 62513 0102 Rev 22369 General description The FLIR A65 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 640 x 512 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and
29. 90 g 3 2 oz FLIR Systems manufactures all vital mechanical and electronic components of the cam era systems itself From detector design and manufacturing to lenses and system elec tronics to final testing and calibration all production steps are carried out and supervised by our own engineers The in depth expertise of these infrared specialists en sures the accuracy and reliability of all vital components that are assembled into your in frared camera 16 1 More than just an infrared camera At FLIR Systems we recognize that our job is to go beyond just producing the best infra red camera systems We are committed to enabling all users of our infrared camera sys tems to work more productively by providing them with the most powerful camera software combination Especially tailored software for predictive maintenance R amp D and process monitoring is developed in house Most software is available in a wide varie ty of languages We support all our infrared cameras with a wide variety of accessories to adapt your equipment to the most demanding infrared applications 16 2 Sharing our knowledge Although our cameras are designed to be very user friendly there is a lot more to ther mography than just knowing how to handle a camera Therefore FLIR Systems has founded the Infrared Training Center ITC a separate business unit that provides certi fied training courses Attending one of the ITC courses will give you a truly ha
30. 97 N Krylon Ultra flat black 1602 Room tempera ture up to 175 Lacquer 3 colors sprayed 70 SW 0 50 0 53 on Aluminum Lacquer 3 colors sprayed 70 LW 0 92 0 94 on Aluminum O P Aluminum on rough surface Lacquer bakelite black dull Lacquer 0 83 Lacquer 40 100 0 96 0 98 Lacquer black matte 100 0 97 N O O Lacquer black shiny 0 87 sprayed on iron Lacquer heat resistant 100 0 92 Lacquer white 100 0 92 Lacquer white 40 100 0 8 0 95 O 00 Lead Lead 0 63 0 28 oxidized at 200 C 200 oxidized gray 20 Lead oxidized gray 22 0 28 Lead shiny 250 100 0 08 Lead unoxidized 0 05 polished T559770 r 18834 22369 en US 12 22 Emissivity tables Table 22 1 T Total spectrum SW 2 5 um LW 8 14 um LLW 6 5 20 um 1 Material 2 Specification 3 Temperature in C 4 Spectrum 5 Emissivity 6 Reference continued Lead red Lead red powder 100 100 0 93 0 93 0 75 0 80 0 3 0 4 0 07 Leather tanned Lime Magnesium N O O N Magnesium 0 13 Ol id CO Magnesium 0 18 Magnesium polished 0 07 Magnesium 0 86 powder Molybdenum 1500 2200 0 19 0 26 Molybdenum 600 1000 0 08 0 13 Molybdenum filament 700 2500 0 1 0 3 0 87 0 94 SW SW LW Mortar Mortar dr lt Nextel Velvet Flat black 60 150 gt 0 97 10 and 811 21 Black Nichrome w no oO N ol rolled 700
31. Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 80 x 64 pixels Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 44 x 36 Focal length 5 mm 0 20 in Spatial resolution IFOV 10 0 mrad F number Detector data Detector type Focal Plane Array FPA Uncooled VOX microbolometer Spectral range 7 5 13 um Detector time constant Typical 12 ms Measurement Object temperature range 25 to 135 C 13 to 275 F e 40 to 550 C 40 to 1022 F Een S T559770 r 18834 22369 en US 47 11 Technical data Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant Ethernet image streaming 8 bit monochrome 60 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 80 x 64 pixels 60 Hz e Signal linear DDE Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDP ICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series I
32. Equation 4 1 1 1 Un Ua U eg U obj atm ER gt ET This is the general measurement formula used in all the FLIR Systems thermographic equipment The voltages of the formula are Table 21 1 Voltages Uobj Calculated camera output voltage for a blackbody of temperature Tobj i e a voltage that can be directly converted into true requested object temperature Measured camera output voltage for the actual case Urefi Theoretical camera output voltage for a blackbody of temperature Treti according to the calibration Uatm Theoretical camera output voltage for a blackbody of temperature Tatm according to the calibration The operator has to supply a number of parameter values for the calculation e the object emittance e e the relative humidity Tatm object distance Dobj e the effective temperature of the object surroundings or the reflected ambient tem perature Tref and e the temperature of the atmosphere Tatm This task could sometimes be a heavy burden for the operator since there are normally no easy ways to find accurate values of emittance and atmospheric transmittance for the actual case The two temperatures are normally less of a problem provided the surround ings do not contain large and intense radiation sources A natural question in this connection is How important is it to know the right values of these parameters It could though be of interest to get a feeling for this problem
33. Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 640 x 512 pixel images streamed at 7 5 Hz signal linear 14 bit 640 x 512 pixel images streamed at 7 5 Hz signal and temperature linear Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D lt 0 05 C 30 C 86 F 50 mK Detector data Focal Plane Array FPA Uncooled VOX microbolometer Object temperature range 25 to 135 C 13 to 275 F Ethernet S Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant 1559770 r 18834 22369 en US 71 11 Technical data Ethernet image streaming 8 bit monochrome 7 5 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 640 x 512 pixels 7 5 Hz e Signal linear DDE e Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDPICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12
34. Please check hitp support flir com for latest changes 1559770 r 18834 22369 en US 19 11 Technical data 11 3 FLIR A15 f 19 mm P N 62319 0101 Rev 22369 General description The FLIR A15 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 160 x 128 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 160 x 128 pixel images streamed at 60 Hz signal linear 14 bit 160 x 128 pixel images streamed at 60 Hz signal and temperature linear High frame rates 60 Hz Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 160 x 128 pixels Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 25 x 19 Focal length 19 mm 0 75 in Spatial resolution IFOV 2 63 mrad F number Detector data Detector type Focal P
35. SW 0 88 0 96 and qualities Paint 8 different colors 70 LW 0 92 0 94 and qualities Paint Paint Aluminum vari 50 100 0 27 0 67 ous ages Paint cadmium yellow 0 28 0 33 Paint chrome green 0 65 0 70 0 7 0 8 0 87 0 94 Paint cobalt blue Paint SW cO CO N N Paint oil based aver 100 age of 16 colors 2 20 O Paint SW SW SW 2 SW O sw fessor _ Paver omenees u oo _ PU j j e PU fewa r s PP fewa s Paper black dull 70 w jo jo 0 84 1 oil black flat Paint oil black gloss N O Paint oil gray flat Paint O oil gray gloss Paint oil various colors Paint Paper blue dark coated with black 0 93 lacquer Paper Paper green 0 85 0 76 D o Paper N O Paper white 0 7 0 9 Paper white bond 20 0 93 white 3 different 70 0 76 0 78 glosses Paper W white 3 different 70 LW 0 88 0 90 glosses Paper Paper yellow 0 72 N Plaster SW 0 86 1559770 r 18834 22369 en US 12 oO 22 Emissivity tables Table 22 1 T Total spectrum SW 2 5 um LW 8 14 um LLW 6 5 20 um 1 Material 2 Specification 3 Temperature in C 4 Spectrum 5 Emissivity 6 Reference continued Plaster plasterboard 20 untreated Plastic 70 SW 0p glass fibre lami nate printed circ cO board N O N MTN O O
36. VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 3V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30
37. Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 80 x 64 pixel images streamed at 7 5 Hz signal linear 14 bit 80 x 64 pixel images streamed at 7 5 Hz signal and temperature linear Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 80 x 64 pixels Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 44 x 36 Focal length 5 mm 0 20 in Spatial resolution IFOV 10 0 mrad F number Image frequency Focus Detector data Detector type Focal Plane Array FPA Uncooled VOX microbolometer Spectral range 7 5 13 um Detector time constant Typical 12 ms Measurement Object temperature range e 25 to 135 C 13 to 275 F 40 to 550 C 40 to 1022 F Ethernet type Gigabit Ethernet Ethernet standard IEEE 802 3 Ethernet connector type RJ 45 Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant 1559770 r 18834 22369 en US 50 11 Technical data Ethernet image streaming 8 bit monochrome 7 5 Hz e Signal linear DDE e Automatic Manua
38. Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 320 x 256 pixels Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 25 x 19 Focal length 19 mm 0 75 in Spatial resolution IFOV 1 32 mrad F number Detector data Detector type Focal Plane Array FPA Uncooled VOX microbolometer Spectral range 7 5 13 um Detector time constant Typical 12 ms Measurement Object temperature range 25 to 135 C 13 to 275 F e 40 to 550 C 40 to 1022 F Een S T559770 r 18834 22369 en US 38 11 Technical data Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant Ethernet image streaming 8 bit monochrome 60 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 320 x 256 pixels 60 Hz e Signal linear DDE Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDP ICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 V
39. already here by looking into some different measurement cases and compare the relative 1559770 r 18834 22369 en US 113 21 The measurement formula magnitudes of the three radiation terms This will give indications about when it is impor tant to use correct values of which parameters The figures below illustrates the relative magnitudes of the three radiation contributions for three different object temperatures two emittances and two spectral ranges SW and LW Remaining parameters have the following fixed values T 0 88 e Trefl 20 C 68 F e Tatm 20 C 68 F It is obvious that measurement of low object temperatures are more critical than measur ing high temperatures since the disturbing radiation sources are relatively much stron ger in the first case Should also the object emittance be low the situation would be still more difficult We have finally to answer a question about the importance of being allowed to use the calibration curve above the highest calibration point what we call extrapolation Imagine that we in a certain case measure Utot 4 5 volts The highest calibration point for the camera was in the order of 4 1 volts a value unknown to the operator Thus even if the object happened to be a blackbody i e Uobj Utot we are actually performing extrapola tion of the calibration curve when converting 4 5 volts into temperature Let us now assume that the object is not black it
40. are grouped together as Object Parameter registers These registers only affect the transformation of detector signal values to temperature values when the camera is in temperature linear mode ReflectedTemperature The estimated reflected background temperature for the target scene ObjectEmissivity The target scene emissivity factor The default value is 1 0 WindowTransmission The estimated transmission factor for the protective window The default value is 1 0 WindowTemperature The external window temperature Twin in kelvin AtmosphericTransmission The estimated transmission factor for the atmosphere be tween the camera and the scene AtmosphericTemperature The estimated temperature Tatm for the atmosphere be tween the camera and the scene The correction for scene parameters is extended to include the following parameters 1559770 r 18834 22369 en US 17 10 About I O synchronization and measurement Figure 10 2 1 Scene Tscene 2 Reflected background temperature 3 Atmosphere Tam 4 External win dow Twin 5 Infrared camera 1559770 r 18834 22369 en US 18 11 Technical data 11 1 Online field of view calculator Please visit http support flir com and click the FLIR Ax5 camera for field of view tables for all lens camera combinations in this camera series 11 2 Note about technical data FLIR Systems reserves the right to change specifications at any time without prior notice
41. between the object and the camera e The relative humidity e Temperature of the atmosphere 18 2 Emissivity The most important object parameter to set correctly is the emissivity which in short is a measure of how much radiation is emitted from the object compared to that from a per fect blackbody of the same temperature Normally object materials and surface treatments exhibit emissivity ranging from approx imately 0 1 to 0 95 A highly polished mirror surface falls below 0 1 while an oxidized or painted surface has a higher emissivity Oil based paint regardless of color in the visi ble spectrum has an emissivity over 0 9 in the infrared Human skin exhibits an emissiv ity 0 97 to 0 98 Non oxidized metals represent an extreme case of perfect opacity and high reflexivity which does not vary greatly with wavelength Consequently the emissivity of metals is low only increasing with temperature For non metals emissivity tends to be high and decreases with temperature 18 2 1 Finding the emissivity of a sample 18 2 1 1 Step 1 Determining reflected apparent temperature Use one of the following two methods to determine reflected apparent temperature 1559770 r 18834 22369 en US 97 18 Thermographic measurement techniques 18 2 1 1 1 Method 1 Direct method Follow this procedure 1 Look for possible reflection sources considering that the incident angle reflection angle a b Figure 18 1 1 Reflec
42. easily dam aged Damage to the infrared lens can occur CAUTION Do not use too much force to clean the infrared lens This can cause damage to the anti reflective coating CAUTION Applicability Cameras with an automatic shutter that can be disabled Do not disable the automatic shutter in the camera for a long time period a maximum of 30 minutes is typical If you disable the shutter for a longer time period damage to the detector can occur The encapsulation rating is only applicable when all the openings on the camera are sealed with their correct covers hatches or caps This includes the compartments for data storage batteries and connectors CAUTION Applicability Cameras where you can remove the lens and expose the infrared detector Do not use the pressurized air from the pneumatic air systems in a workshop when you remove dust from the detector The air contains oil mist to lubricate the pneumatic tools and the pressure is too high Damage to the detector can occur 1559770 r 18834 22369 en US Notice to user 3 1 User to user forums Exchange ideas problems and infrared solutions with fellow thermographers around the world in our user to user forums To go to the forums visit http www infraredtraining com community boards 3 2 Calibration FLIR Systems recommends that you verify your calibration yearly You can verify the cali bration yourself or with the help of a FLIR Systems Partner If
43. electro i Briefiy stated our invention is in the following specifica In this way it is possible according to our invention to whereby for continuous scanning the retrace magnetic spectrum the incoming radiation tion characterized as an arrangement for scanning a field achieve very high resolution in the optical scanning time is a relatively small value being focused on a radiation responsive ele 70 of view where the incoming radiation is focused on a It is preferable if the refractive index of said prism 30 according to the present invention there is ment which may be of a kind well known in radiation energy responsive element ou has a value between 3 and 6 for the wave lengths used povided a scai chani for rece he d The main difficulty of scanning a field of view in a 50 Said index of refraction having a value of about 4 is pie ti yer ithin h ar a art and as such is not shown in the short time is of mechanical nature Our invention uses specially advantageous both for yielding a linear scan 5 gnetic radiation wit the optical drawings o a da a rotating refractive prism for scanning in one direction and for allowing a relatively plane image surface This infra red or ultra violet regions of the electro Hitherto the main difficulty in achieving Scanning in a direction essentially perpendicular to said is pointed out in FIG 2 and FIG 3 As is also sh magnetic spectrum which includes a refracting high scanning speeds has been of a mech 75 fesio i
44. excess liquid 3 Clean the part with the cloth Do not apply solvents or similar liquids to the camera the cables or other items This can cause damage 15 2 Infrared lens 15 2 1 Liquids Use one of these liquids e A commercial lens cleaning liquid with more than 30 isopropyl alcohol e 96 ethyl alcohol C2HsOH 15 2 2 Equipment Cotton wool 15 2 3 Procedure Follow this procedure 1 Soak the cotton wool in the liquid 2 Twist the cotton wool to remove excess liquid 3 Clean the lens one time only and discard the cotton wool Make sure that you read all applicable MSDS Material Safety Data Sheets and warning labels on con tainers before you use a liquid the liquids can be dangerous Be careful when you clean the infrared lens The lens has a delicate anti reflective coating e Do not clean the infrared lens too vigorously This can damage the anti reflective coating 1559770 r 18834 22369 en US 90 About FLIR Systems FLIR Systems was established in 1978 to pioneer the development of high performance infrared imaging systems and is the world leader in the design manufacture and mar keting of thermal imaging systems for a wide variety of commercial industrial and gov ernment applications Today FLIR Systems embraces five major companies with outstanding achievements in infrared technology since 1958 the Swedish AGEMA In frared Systems formerly AGA Infrared Systems the three Unite
45. housing and depending on the ambient conditions e g temperature the housing may need to be cooled by means of water or air In very dusty conditions the installation might also need to have a stream of pressurized air directed at the lens in order to prevent dust build up When mounting the camera unit in harsh environments every precaution should be tak en when it comes to securing the unit If the environment exposes the unit to severe vi brations there may arise a need to secure the mounting screws by means of Loctite or another industrial brand of thread locking liquid as well as to dampen the vibrations by mounting the camera unit on a specially designed mounting base For further information regarding mounting recommendations and environmental enclo sures contact FLIR Systems The camera is typically powered using PoE Power over Ethernet A PoE injector and cable kit are available from FLIR Systems See the part numbers below e 1198348 Cable kit mains UK EU US e 1911112 PoE injector e 1T951004ACC Ethernet cable CAT 6 2 m 6 6 ft 1559770 r 18834 22369 en US 11 Focusing the camera 8 1 Focusing cameras with 5 9 13 and 19 mm lenses 8 1 1 Necessary tools Focus adjustment tool included in the package for cameras with 5 9 13 and 19 mm lenses 8 1 2 Procedure Follow this procedure 1 Note the four pegs on the inside of the focus adjustment tool 2 Align the four pegs with the corresp
46. humidity 25 C to 40 C 77 F to 104 F EMC EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission Encapsulation IP 40 IEC 60529 with base support mounted 1559770 r 18834 22369 en US 24 11 Technical data Environmental data Shock 25 g IEC 60068 2 27 Vibration 2 g IEC 60068 2 6 Physical data Tripod mounting UNC 20 on three sides Shipping information Packaging type Cardboard box List of contents Infrared camera with lens FLIR Tools download card Focus adjustment tool Printed documentation User documentation CD ROM Supplies amp accessories e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 25 11 Technical data 11 5 FLIR A15 f 9 mm P N 62309 0101 Rev 22369 General description The FLIR A15 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 160 x 128 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes
47. is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 8V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative hu
48. it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 160 x 128 pixel images streamed at 60 Hz signal linear 14 bit 160 x 128 pixel images streamed at 60 Hz signal and temperature linear High frame rates 60 Hz Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 160 x 128 pixels Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 48 x 39 Focal length 9 mm 0 35 in Spatial resolution IFOV 5 56 mrad F number Detector data Detector type Focal Plane Array FPA Uncooled VOX microbolometer Spectral range 7 5 13 um Detector time constant Typical 12 ms Measurement Object temperature range 25 to 135 C 13 to 275 F e 40 to 550 C 40 to 1022 F Een S T559770 r 18834 22369 en US 26 11 Technical data Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant Ethernet image streaming 8 bit monochrome 60 Hz e Signal linear DDE e Aut
49. length 0 27 um 1559770 r 18834 22369 en US 107 20 Theory of thermography Figure 20 5 Wilhelm Wien 1864 1928 The sun approx 6 000 K emits yellow light peaking at about 0 5 um in the middle of the visible light spectrum At room temperature 300 K the peak of radiant emittance lies at 9 7 um in the far infra red while at the temperature of liquid nitrogen 77 K the maximum of the almost insignif icant amount of radiant emittance occurs at 38 um in the extreme infrared wavelengths Figure 20 6 Planckian curves plotted on semi log scales from 100 K to 1000 K The dotted line represents the locus of maximum radiant emittance at each temperature as described by Wien s displacement law 1 Spectral radiant emittance W cm2 um 2 Wavelength um 20 3 3 Stefan Boltzmann s law By integrating Planck s formula from A 0 to A eo we obtain the total radiant emittance Wb of a blackbody W oT Watt m This is the Stefan Boltzmann formula after Josef Stefan 1835 1893 and Ludwig Boltz mann 1844 1906 which states that the total emissive power of a blackbody is propor tional to the fourth power of its absolute temperature Graphically Wp represents the area below the Planck curve for a particular temperature It can be shown that the radiant emittance in the interval A 0 to Amax is only 25 of the total which represents about the amount of the sun s radiation which lies inside the visible
50. linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDPICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 3V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector ty
51. material the spectral emissivity and spectral absorp tance of a body are equal at any specified temperature and wavelength That is Oy From this we obtain for an opaque material since aa pa 1 rit For highly polished materials approaches zero so that for a perfectly reflecting materi al i e a perfect mirror we have py 1 For a graybody radiator the Stefan Boltzmann formula becomes W coT Watt m This states that the total emissive power of a graybody is the same as a blackbody at the same temperature reduced in proportion to the value of from the graybody Figure 20 8 Spectral radiant emittance of three types of radiators 1 Spectral radiant emittance 2 Wave length 3 Blackbody 4 Selective radiator 5 Graybody 1559770 r 18834 22369 en US 110 20 Theory of thermography Figure 20 9 Spectral emissivity of three types of radiators 1 Spectral emissivity 2 Wavelength 3 Black body 4 Graybody 5 Selective radiator 20 4 Infrared semi transparent materials Consider now a non metallic semi transparent body let us say in the form of a thick flat plate of plastic material When the plate is heated radiation generated within its volume must work its way toward the surfaces through the material in which it is partially ab sorbed Moreover when it arrives at the surface some of it is reflected back into the inte rior The back reflected radiation is again partial
52. mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 320 x 256 pixel images streamed at 60 Hz signal linear 14 bit 320 x 256 pixel images streamed at 60 Hz signal and temperature linear High frame rates 60 Hz Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 320 x 256 pixels Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 48 x 39 Focal length 9 mm 0 35 in Spatial resolution IFOV 2 78 mrad F number Detector data Detector type Focal Plane Array FPA Uncooled VOX microbolometer Spectral range 7 5 13 um Detector time constant Typical 12 ms Measurement Object temperature range 25 to 135 C 13 to 275 F e 40 to 550 C 40 to 1022 F Een S T559770 r 18834 22369 en US 41 11 Technical data Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant Ethernet image streaming 8 bit monochrome 60 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 320 x 256 pixels 60 Hz e Signal linear DDE Temperature linear GigE Vision and G
53. of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 3V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F EMC EN 61000
54. p s siwu u o ss un s Bue yeuue fo seq 4 LL ZO rLOZ SNOYVW d e l T A Ju ule 4 oejns 6ullpueu qI A sseuyBnoyjeyuwehA poylpowy pespuy Aq paylpow re pespuy a 4 YAY 6Z LO PLOZ SNOYVW d jeuayey y5S uocS lluoy leq unleq UMEJG ISUOY cb SIbE9S 09 9 8t a 0 GLE 999 2 Sm E2400008 T L E a I A D g E Z pue f ann seabed s SUOISUBWIP 19470 e 104 li Su Y SIU JO pljeA SUOISUBLUIP UO V Su X WW 001 J u Bu e5oj uM esewUeyD SUOISUBWIP S seg Ol 6 8 Z 9 G r C L gY SWALSAS Hd Bej puelleB ve pols paw seJAI9q AeIeY SJ PEIIAQ apueAIBpeW peA uen Jejap 19412 1 ul u UIS I sesaidoy ueuue sabjap f se Buljpuey euusq gY SWALSAS tl 1d sBuip o5o4d eB 0 pea m ju uu BuuJui AUY uolissiuuj d INO noujiA ped Ul JO 91 duuo5 paidoo Jo payed uNWWOd q 1ou 1 snui JUBWNDOp silu L 13 Pin configurations and schematics 13 1 M12 connector pin configuration This section specifies the pin configuration for the M12 connector at the rear of the camera 11 3 2 10 4 5 6 7 Figure 13 1 Pin assignment M12 male connector 12 positions male side view Table 13 1 Mapping table pin to signal Pin Signal Explanation RET GB Camera PWR SYNC_OUT LVC Buffer 3 3 V 0 24 MA max 1 24 mA max SYNC OUT GND RET GB Camera PWR 5 SYNC_IN LVC Buffer 3 3 V 0 lt
55. preferred FLIR Systems of fers a calibration adjustment and general maintenance service 3 3 Accuracy For very accurate results we recommend that you wait 5 minutes after you have started the camera before measuring a temperature 3 4 Disposal of electronic waste As with most electronic products this equipment must be disposed of in an environmen tally friendly way and in accordance with existing regulations for electronic waste Please contact your FLIR Systems representative for more details 3 5 Training To read about infrared training visit http www infraredtraining com hitp www irtraining com http www irtraining eu 3 6 Documentation updates Our manuals are updated several times per year and we also issue product critical notifi cations of changes on a regular basis To access the latest manuals and notifications go to the Download tab at http support flir com It only takes a few minutes to register online In the download area you will also find the latest releases of manuals for our other products as well as manuals for our historical and obsolete products 3 7 Important note about this manual FLIR Systems issues generic manuals that cover several cameras within a model line This means that this manual may contain descriptions and explanations that do not apply to your particular camera model 1559770 r 18834 22369 en US 5 Customer help FLIR Customer Support Center Home
56. u Pee 20 A _FhIRA151 819mrmy475 Fl Z sz 5 Bees ll 2 5 a e E 23 HS ol 7 Pho 12 a 6 6 a 26 UO FHORAIS T9 mA 79 GZ aoe ee a ees cee eee 29 11 7 FLIR A15 f 9 mm with SC kit 32 11 8 FLIR A15 f 9 mm with SC kit 7 5 Hz 35 1A SPER ASS 1S 107 Meee r uu ect Coote tee ee ete 38 TLIO VE IPR ASS Tao WM oetcrds a r even a dia ka m ato anan 41 14 41 FLIR ASS 1 9 mm win SC kilu uuu uu iu icles 44 12 ELIRA5155TW Ifz uu ul ku Du ate tae eae hand each sus 47 lks FURAS T25 mm7 5 AZ icc tet cio au lu ti quis testes nese o Sau ese 50 iat PEIR AS TSS minywith oO Kit seco u te cae RSS u suqus uqu sassa 53 11 15 FLIR A5 f 5 mm with SC kit 7 5 HZ 56 WAG S ELIRA515SHYINIX u u u uyu sare cece asa eee eee ease anes 59 1559770 r 18834 22369 en US V Table of contents 12 13 14 15 16 17 18 19 20 21 22 Tat FERAS ISO i Z STI2 u sek i siluta ele te ee 62 Hets FHRA ISIS TN u u G mrt neo enn ieee ener res creamer te wee eer 65 11219 FEIRAG51 T3 Min IZ isa eee To DS eae 68 11 20 FLIR A65 f 13 mm with SC kit 7 5 Hz 71 t21 WRU AGS A 2 5 MM LT tects acec tesa ence eseeasa ere coenee sue aes cecteeatas 74 1122 FUEIR AG5 1225 mimi 7 9 AZ voce teste tie Su a elon 77 Mechanical drawings U
57. 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 3V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F
58. 0 IEC 60529 with base support mounted 1559770 r 18834 22369 en US 66 11 Technical data Environmental data Shock 25 g IEC 60068 2 27 Vibration 2 g IEC 60068 2 6 Physical data Tripod mounting UNC 20 on three sides Shipping information Packaging type Cardboard box List of contents Infrared camera with lens FLIR Tools download card Focus adjustment tool Printed documentation User documentation CD ROM Supplies amp accessories e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 67 11 Technical data 11 19 FLIR A65 f 13 mm 7 5 Hz P N 62513 0101 Rev 22369 General description The FLIR A65 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 640 x 512 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm
59. 0 100 Water layer gt 0 1 mm thick Wood pine 4 different samples Wood pine 4 different samples planed oak planed oak planed oak 7 Wood plywood untreated oxidized at 400 C 400 oxidized surface 1000 1200 0 95 0 98 0 85 SW 0 98 LLW 0 962 0 5 0 7 70 0 67 0 75 70 0 81 0 89 0 8 0 9 N O 7 O N O N N l O O OTN 0 7 0 8 0 11 0 50 0 60 0 04 0 05 0 20 Oo G O lt QI O 1559770 r 18834 22369 en US 126 A note on the technical production of this publication This publication was produced using XML the eXtensible Markup Language For more information about XML please visit http www w3 org XML A note on the typeface used in this publication This publication was typeset using Linotype Helvetica World Helvetica was designed by Max Miedinger 1910 1980 LOEF List Of Effective Files T501003 xml en US 18834 2014 10 21 T505475 xml en US 15550 2014 06 30 T505779 xml en US 15550 2014 06 30 T505783 xml en US 18834 2014 10 21 T505013 xml en US 9229 2013 10 03 T505085 xml en US 15550 2014 06 30 T505084 xml en US 18049 2014 10 01 T505478 xml en US 15549 2014 06 30 T505507 xml en US 6360 2013 01 29 T505082 xml en US 15550 2014 06 30 T505477 xml en US 15536 2014 06 30 T505081 xml en US 15550 2014 06 30 T505470 xml en US 12154 2014 03 06 T505007 xml en US 21877 2014 12 08 T505004 xml en
60. 000 6 3 Emission FCC 47 CFR Part 15 Class B Emission UNC 20 on three sides Housing material Magnesium and aluminum Shipping information Packaging type Cardboard box List of contents e Infrared camera with lens e FLIR Tools download card Focus adjustment tool e Printed documentation e User documentation CD ROM Packaging size 295 x 200 x 105 mm 11 6 x 7 9 x 4 1 in EAN 13 7332558004104 4743254000568 Estonia plant UPC 12 845188003517 Supplies amp accessories e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 40 11 Technical data 11 10 FLIR A35 f 9 mm P N 63209 0101 Rev 22369 General description The FLIR A35 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 320 x 256 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40
61. 01230471744 3 ZL201230620731 8 1 8 EULATerms e You have acquired a device INFRARED CAMERA that includes software licensed by FLIR Systems AB from Microsoft Licensing GP or its affiliates MS Those in stalled software products of MS origin as well as associated media printed materials and online or electronic documentation SOFTWARE are protected by internation al intellectual property laws and treaties The SOFTWARE is licensed not sold All rights reserved e IF YOU DO NOT AGREE TO THIS END USER LICENSE AGREEMENT EULA DO NOT USE THE DEVICE OR COPY THE SOFTWARE INSTEAD PROMPTLY CON TACT FLIR Systems AB FOR INSTRUCTIONS ON RETURN OF THE UNUSED DE VICE S FOR A REFUND ANY USE OF THE SOFTWARE INCLUDING BUT NOT LIMITED TO USE ON THE DEVICE WILL CONSTITUTE YOUR AGREEMENT TO THIS EULA OR RATIFICATION OF ANY PREVIOUS CONSENT e GRANT OF SOFTWARE LICENSE This EULA grants you the following license e You may use the SOFTWARE only on the DEVICE e NOT FAULT TOLERANT THE SOFTWARE IS NOT FAULT TOLERANT FLIR Sys tems AB HAS INDEPENDENTLY DETERMINED HOW TO USE THE SOFTWARE IN THE DEVICE AND MS HAS RELIED UPON FLIR Systems AB TO CONDUCT SUFFICIENT TESTING TO DETERMINE THAT THE SOFTWARE IS SUITABLE FOR SUCH USE 1559770 r 18834 22369 en US 2 Legal disclaimer e NO WARRANTIES FOR THE SOFTWARE THE SOFTWARE is provided AS IS and with all faults THE ENTIRE RISK AS TO SATISFACTORY QUA
62. 1000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission UNC 20 on three sides Housing material Magnesium and aluminum Shipping information Packaging type Cardboard box List of contents e Infrared camera with lens e FLIR Tools download card Focus adjustment tool e Printed documentation e User documentation CD ROM Packaging size 295 x 200 x 105 mm 11 6 x 7 9 x 4 1 in EAN 13 7332558003930 4743254000636 Estonia plant UPC 12 845188003586 Supplies amp accessories e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 49 11 Technical data 11 13 FLIR A5 f 5 mm 7 5 Hz P N 64205 0101 Rev 22369 General description The FLIR A5 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 80 x 64 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features
63. 2 5 um LW 8 14 um LLW 6 5 20 um 1 Material 2 Specification 3 Temperature in C 4 Spectrum 5 Emissivity 6 Reference continued 2 Chipboard untreated O Chromium polished 0 10 Chromium polished 500 1000 0 28 0 38 Clay fired 0 91 Cloth Concrete black 0 98 0 92 dr 0 95 0p Concrete W lt 0p Concrete rough W 0 97 Concrete walkway LLW 0 974 N O NIN N N QI l OI I O N IN N QI O oO O O N NI N O Z O O O O commercial 0 07 burnished Copper Copper electrolytic care T 0 018 fully polished electrolytic 0 006 polished Copper 1100 1300 Copper molten 0 13 0 15 Copper oxidized 0 6 0 7 oxidized to 0 88 blackness Copper Copper oxidized black 27 0 78 Copper oxidized heavily 20 0 78 Copper polished 50 100 0 02 Copper polished 100 0 03 polished 0 03 commercial Copper Copper polished 0 015 mechanical Copper pure carefully 22 0 008 prepared surface N Copper scraped 0 07 Copper dioxide powder 0 84 Copper oxide red powder 0 70 Ebonite 0 89 Emery coarse 0 85 Enamel 0 85 0 95 Enamel lacquer Fiber board Fiber board Fiber board Fiber board 20 SW SW LW W LW SW 0 85 0 75 0 88 0 77 hard untreated N masonite N masonite 7 O ep particle board Fiber board particle board 70 0 89 Fiber board Gold Gold Gold porous untreated 20 0
64. 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 3V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F EMC EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission Encapsulation IP 4
65. 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F EMC EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission Encapsulation IP 40 IEC 60529 with base support mounted 1559770 r 18834 22369 en US 72 Technical data Environmental data Shock 25 g IEC 60068 2 27 Vibration 2 g IEC 60068 2 6 Physical data Shipping information Packaging type Cardboard box List of contents Hard transport case e Infrared camera with lens e Base support e Cable tie 2 ea e Ethernet cable CAT 6 2m 6 6 ft 2 ea e FLIR ResearchiR Standard 4 e Focus adjustment tool e Gooseneck Mains cable kit UK EU US PoE Injector power over Ethernet e Printed documentation e Table stand e User documentation CD ROM Packaging weight 5 3 kg 11 7 Ib Packaging size 370 x 180 x 320 mm 14 6 x 7 1 x 12 6 in EAN 13 7332558008492 UPC 12 845188008857 Supplies amp accessories e 1951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools e 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 73 11 Technical data 11 21 FLIR
66. 85 130 polished 0 018 polished carefully 200 600 0 02 0 03 polished highly 100 0 02 1559770 r 18834 22369 en US 11 cO 22 Emissivity tables Table 22 1 T Total spectrum SW 2 5 um LW 8 14 um LLW 6 5 20 um 1 Material 2 Specification 3 Temperature in C 4 Spectrum 5 Emissivity 6 Reference continued NO NO O O Granite polished LLW 0 849 N LLW 0 879 SW Granite rough Granite rough 4 different 70 0 95 0 97 samples Granite rough 4 different 70 LW 0 77 0 87 samples Gypsum 0 8 0 9 Ice See Water p Iron and steel cold rolled N N N N N O O O lron and steel cold rolled LW covered with red 20 0 61 0 85 rust Iron and steel Iron and steel electrolytic 100 0 05 Iron and steel electrolytic 0 05 Iron and steel electrolytic 0 07 Iron and steel electrolytic care 175 225 0 05 0 06 fully polished Iron and steel freshly worked 20 with emery Iron and steel ground sheet 950 1100 0 55 0 61 2 O N Iron and steel heavily rusted sheet hot rolled hot rolled Iron and steel 130 O 0 77 0 74 0 74 0 89 0 78 0 82 0 79 Iron and steel 100 100 1227 125 525 Iron and steel oxidized Iron and steel oxidized Iron and steel oxidized Iron and steel oxidized N O O Iron and steel oxidized N O O QI N O O Iron and steel oxidized 200 600 0 80 Iron and steel 50 0 88 Iron and steel 500 0
67. 98 Iron and steel 100 0 07 Iron and steel 400 1000 0 14 0 38 Iron and steel 750 1050 0 52 0 56 Iron and steel 5 0 56 Iron and steel 20 0 24 Iron and steel 0 95 0 98 surface Iron and steel 22 Iron and steel 17 W Iron and steel 20 Iron and steel 20 0 82 sheet Iron and steel 150 T 0 16 1559770 r 18834 22369 en US 12 O 22 Emissivity tables Table 22 1 T Total spectrum SW 2 5 um LW 8 14 um LLW 6 5 20 um 1 Material 2 Specification 3 Temperature in C 4 Spectrum 5 Emissivity 6 Reference continued Iron and steel wrought carefully 40 250 polished 70 SW 0 64 LW Iron galvanized heavily oxidized Iron galvanized heavily oxidized 70 0 85 cO O1 PO lron galvanized sheet 0 07 Iron galvanized sheet burnished 30 0 23 Iron galvanized sheet oxidized 20 0 28 0 064 0 81 lron tinned sheet Iron cast casting Iron cast ingots 1000 0 95 lron cast liquid 1300 0 28 800 1000 100 0 60 0 70 0 64 Iron cast machined Iron cast oxidized N O O Iron cast oxidized 0 63 0 76 0 64 0 78 0 21 Iron cast oxidized I e O1 O oO Iron cast oxidized Iron cast oxidized at 600 C 200 600 N O O No os lron cast polished lron cast polished 0 21 O Iron cast polished 0 21 unworked 900 1100 0 87 0 95 Flat black Iron cast Krylon Ultra flat LW 2 black 1602 Room tempera ture up to 175 Flat black MW 0
68. A65 f 25 mm P N 62625 0101 Rev 22369 General description The FLIR A65 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 640 x 512 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 640 x 512 pixel images streamed at 30 Hz signal linear 14 bit 640 x 512 pixel images streamed at 30 Hz signal and temperature linear Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D lt 0 05 C 30 C 86 F 50 mK Detector data Focal Plane Array FPA Uncooled VOX microbolometer Object temperature range 25 to 135 C 13 to 275 F Ethernet S Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant 1559770 r 18834 22369 en US 74 11 Technical data Ethernet image streaming 8 bit monochrome 30 Hz e Signal linear DDE e Automatic Manual Flip H amp V
69. CD ROM Supplies amp accessories e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198371 Transport case Ax5 e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools e 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 46 11 Technical data 11 12 FLIR A5 f 5 mm P N 62205 0101 Rev 22369 General description The FLIR A5 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 80 x 64 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 80 x 64 pixel images streamed at 60 Hz signal linear 14 bit 80 x 64 pixel images streamed at 60 Hz signal and temperature linear High frame rates 60 Hz Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers
70. Cardboard box List of contents Infrared camera with lens FLIR Tools download card Focus adjustment tool Printed documentation User documentation CD ROM Supplies amp accessories e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 31 11 Technical data 11 7 FLIR A15 f 9 mm with SC kit P N 62309 0102 Rev 22369 General description The FLIR A15 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 160 x 128 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 160 x 128 pixel images streamed at 60 Hz signal linear 14 bit 160 x 128 pixel images streamed at 60 Hz signal and temperature linear High frame rates 60 Hz Synchronization betwe
71. DC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 8V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F 1559770 r 18834 22369 en US 39 11 Technical data Environmental data EMG EN 61000 6 2 Immunity EN 61
72. E injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 61 11 Technical data 11 17 FLIR A5 f 9 mm 7 5 Hz P N 64209 0101 Rev 22369 General description The FLIR A5 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 80 x 64 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 80 x 64 pixel images streamed at 7 5 Hz signal linear 14 bit 80 x 64 pixel images streamed at 7 5 Hz signal and temperature linear Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 80 x 64 pixels
73. FLIR User s manual FLIR Ax5 series User s manual FLIR Ax5 series g0 1 209 Mf AN EB A Jj V RTO m ey Intertek 1559770 r 18834 22369 en US Table of contents 1 Legaldisclaimeric uuu E uu u a sss 1 1 1 l egaldis laiiyie uuu xx uuu yn kS Yuma tusuk ayna kuk eate ts 1 1 2 Usage s taliS IS u syn a a a 1 1 3 Changes IGT6gISIIy uy oe he we oor A ater aaa lve 1 1 4 U S Government Regulations 1 1 5 CODpVI Ilus Z z a lu Sigo isa a iu Q usaa aaa E aaa sss 1 1 6 CualilyasSS ral Ce u sr us assasi 0 sskasssbssst2ssabaaskuahaqskalaastuspas 2 1 7 LSS sta puyta ma au aaa T Nal Pacer ae A um ce ea aa 2 1 8 FU POLIS soe eats bia coe eden eects beet oe a tad Serer 2 2 Salety informaltio iz ur ul un a usa lasa gasas 4 3 INOLICE IO uS n u u 5 Du u uuu u uu SD Ebas 5 3 1 UsefsIo userorulfflS 2 Steir u u aks G Sau l uQ asya Meh teins 5 3 2 CAND ATION iste susu Syn site shel th SM am Sus aD n na Mata 5 5 3 0 ACCAC Aenean ayau tiyayta eee et ee he eee eee ee ee 5 3 4 Disposal of electronic waste 5 3 5 laini uu mama Z n uuu um MRE Ti he tei ree ae 5 3 6 Documentation updates 5 3 7 Important note about this manual 5 4 C stom r help uuu 2225 a a ons usu mnsa u teeta ieee 6 4 1 Genera uu tuyu
74. Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F EMC EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission Encapsulation IP 40 IEC 60529 with base support mounted 1559770 r 18834 22369 en US 57 Technical data Environmental data Shock 25 g IEC 60068 2 27 Vibration 2 g IEC 60068 2 6 Physical data Shipping information Packaging type Cardboard box List of contents Hard transport case e Infrared camera with lens e Base support e Cable tie 2 ea e Ethernet cable CAT 6 2m 6 6 ft 2 ea e FLIR ResearchiR Standard 4 Focus adjustment tool e Gooseneck Mains cable kit UK EU US PoE Injector power over Ethernet e Printed documentation e Table stand e User documentation CD ROM Supplies amp accessories e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 58 11 Technical data 11 16 FLIR A5 f 9 mm P N 62209 0101 Rev 22369 General description The FLIR A5 has features a
75. LITY PER FORMANCE ACCURACY AND EFFORT INCLUDING LACK OF NEGLIGENCE IS WITH YOU ALSO THERE IS NO WARRANTY AGAINST INTERFERENCE WITH YOUR ENJOYMENT OF THE SOFTWARE OR AGAINST INFRINGEMENT IF YOU HAVE RECEIVED ANY WARRANTIES REGARDING THE DEVICE OR THE SOFTWARE THOSE WARRANTIES DO NOT ORIGINATE FROM AND ARE NOT BINDING ON MS e No Liability for Certain Damages EXCEPT AS PROHIBITED BY LAW MS SHALL HAVE NO LIABILITY FOR ANY INDIRECT SPECIAL CONSEQUENTIAL OR IN CIDENTAL DAMAGES ARISING FROM OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THE SOFTWARE THIS LIMITATION SHALL APPLY EVEN IF ANY REMEDY FAILS OF ITS ESSENTIAL PURPOSE IN NO EVENT SHALL MS BE LIABLE FOR ANY AMOUNT IN EXCESS OF U S TWO HUN DRED FIFTY DOLLARS U S 250 00 e Limitations on Reverse Engineering Decompilation and Disassembly You may not reverse engineer decompile or disassemble the SOFTWARE except and only to the extent that such activity is expressly permitted by applicable law not withstanding this limitation e SOFTWARE TRANSFER ALLOWED BUT WITH RESTRICTIONS You may per manently transfer rights under this EULA only as part of a permanent sale or trans fer of the Device and only if the recipient agrees to this EULA If the SOFTWARE is an upgrade any transfer must also include all prior versions of the SOFTWARE e EXPORT RESTRICTIONS You acknowledge that SOFTWARE is subject to U S export jurisdiction You agree to comply with all applicable internat
76. Plastic glass fibre lami 0 91 nate printed circ board Plastic polyurethane iso 70 lation board Plastic polyurethane iso 70 lation board Plastic PVC plastic floor 70 dull structured Plastic PVC plastic floor 70 dull structured Platinum 0 55 oe 0 29 oe 0 94 W 0 93 1094 Platinum Platinum O 00 i Platinum Platinum N O O Platinum O1 O oO 0 10 0 05 0 10 Platinum Platinum 200 600 Platinum 900 1100 Platinum 1400 Platinum 500 1000 Platinum 50 200 Rubber soft gray rough 20 Sand Sand Sandstone polished Silver polished 100 Silver pure polished 200 600 Slag 0 100 Slag 1400 1800 Slag 200 500 Slag 600 1200 Snow See Water Soil dry 0 12 0 17 0 18 0 10 0 16 0 06 0 07 0 92 0 70 0 75 0 95 0 95 20 LLW 0 909 LLW 0 935 0 03 0 02 0 03 0 98 0 97 0 93 0 69 0 67 0 89 0 78 0 76 0 70 gt o D oO NO O cO cO 0 92 N N 1559770 r 18834 22369 en US 12 22 Emissivity tables Table 22 1 T Total spectrum SW 2 5 um LW 8 14 um LLW 6 5 20 um 1 Material 2 Specification 3 Temperature in C 4 Spectrum 5 Emissivity 6 Reference continued Soil saturated with 20 T 0 95 2 water Cr Santessscsr seasons f se o Sanese oreore wow E Stainless steel sheet untreated 70 SW 0 30 somewhat scratched 0 LW 0 28 Stainless steel sheet untreat
77. Player 1559770 r 18834 22369 en US 79 u yosq seBPAg 9F 000 00p V 9 L LSZ LL WWW 00 J O ww Cc J euyniq Jajuey G O ora S r C L Ady ON Bulweiq Ju uyy 0F OZLAOE Nped lld Z OF 0g 9 CV xy suoisu w p JISE 5 azis ONHV G V p q W 89 z OSI Wo dugoxa un Beupin Z L Li MW 89ZZ OSI 499 J us pelg gjeos ejexs uoljeulwoueq buluweueg p l ls siwu u o ss unyys Bue jeuue f seq n u a LL ZO rLOZ SNOYVW d Pa T Ju une n soeyNS Huljpueyeq A ssouyGnoyjeyuwel p y IpoN peIpuy Aq p ljipoW Ae pespuy a 4 HAV 6Z L0O rLOZ SNOYYN d enaze yo uoc lluoy leq unleq uwelq 1lsuoy Sr H J uj u13 JO O9UUOD 69 uld ZL ZL O I dD 1o 6989uuoo JO ESIPU JOMOd 31 2S b L 0F Gy voo oF 22 L VOF pL r00 0 gg 0 WW 6 WW C WW 6 wW G 5u e904 UM SeJ WELI JO ww t xew u d q EN XP SUOISUBUUIP DISeg Ol 6 8 Z 9 G r C L Y SWALSAS H4 Bej epueljeb Ae pols paw seJAlaq ALJgY SJ PIYIAQ apueAibpaw yea ue n Jejap 13412 424124 UIS seuaidoy ueuue sabjap f se Buljpuey euu q gaY SWALSAS tl 14 sBuip oSoid eB 0 pe m zua uyu AUY UOISSILUIEd JNO noujiA ped ul 10 g91 9 duuo5 peidoo Jo payeolunwwWOd eq zou snui 1Ju uinoop SIU VY 9LL8CLL H ON Bulmeiq Ju uyy cV eZIS ONHV z lan ldg Ol ww QO 0 WW G GxV SUOISUBUIP sIseg
78. R A65 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 640 x 512 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 640 x 512 pixel images streamed at 7 5 Hz signal linear 14 bit 640 x 512 pixel images streamed at 7 5 Hz signal and temperature linear Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D lt 0 05 C 30 C 86 F 50 mK Detector data Focal Plane Array FPA Uncooled VOX microbolometer Object temperature range 25 to 135 C 13 to 275 F Ethernet S Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant 1559770 r 18834 22369 en US 77 11 Technical data Ethernet image streaming 8 bit monochrome 7 5 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 640 x 512 pixels 7 5 Hz e Signal linear DDE e Temperature
79. Technical data 11 11 FLIR A35 f 9 mm with SC kit P N 63209 0102 Rev 22369 General description The FLIR A35 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 320 x 256 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 320 x 256 pixel images streamed at 60 Hz signal linear 14 bit 320 x 256 pixel images streamed at 60 Hz signal and temperature linear High frame rates 60 Hz Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 320 x 256 pixels Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 48 x 39 Focal length 9 mm 0 35 in Spatial resolution IFOV 2 78 mrad F number Detector data Detector type Focal Plane Array FPA Uncooled VOX microbolometer Spectral range 7 5 13 um Detector time consta
80. Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 25 x 20 Focal length 9 mm 0 35 in Spatial resolution IFOV 5 56 mrad Image frequency Focus Detector data Detector type Focal Plane Array FPA Uncooled VOX microbolometer Spectral range 7 5 13 um Detector time constant Typical 12 ms Measurement Object temperature range e 25 to 135 C 13 to 275 F 40 to 550 C 40 to 1022 F Ethernet type Gigabit Ethernet Ethernet standard IEEE 802 3 Ethernet connector type RJ 45 Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant 1559770 r 18834 22369 en US 62 11 Technical data Ethernet image streaming 8 bit monochrome 7 5 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 80 x 64 pixels 7 5 Hz e Signal linear DDE e Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDPICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program mati
81. US 12154 2014 03 06 T505000 xml en US 12154 2014 03 06 T505005 xml en US 12154 2014 03 06 T505001 xml en US 12154 2014 03 06 T505006 xml en US 12154 2014 03 06 T505002 xml en US 18260 2014 10 06 1559770 r 18834 22369 en US 128 FLIR Corporate Headquarters FLIR Systems Inc 27700 SW Parkway Ave Wilsonville OR 97070 USA Telephone 1 503 498 3547 Website http www flir com Customer support http support flir com Copyright 2014 FLIR Systems Inc All rights reserved worldwide Disclaimer Specifications subject to change without further notice Models and accessories subject to regional market considerations License procedures may apply Products described herein may be subject to US Export Regulations Please refer to exportquestions flir com with any questions Publ No 1559770 Commit 18834 Head 22369 Language en US Modified 2014 10 21 Formatted 2014 12 22
82. VOX microbolometer Spectral range 7 5 13 um Detector time constant Typical 12 ms Measurement Object temperature range 25 to 135 C 13 to 275 F e 40 to 550 C 40 to 1022 F Een S T559770 r 18834 22369 en US 53 11 Technical data Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant Ethernet image streaming 8 bit monochrome 60 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 80 x 64 pixels 60 Hz e Signal linear DDE Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDP ICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In
83. a E R in F ST inde actionat ea prism Siyer ag pi 5 1g g sp S De or direction is slower than in the first mentioned direction in FIG 2 a larger index of refraction of said prism gives 35 prism adapted to be rotated about its longi anical nature The present invention uses a and is accomplished by other means as by a nodding mir 55 a greater length of scan tudinal axis the end faces of the prism being rotating refractive prism for fast scanning in ror in the collecting optics Said slower scanning can The material of said prism must in our invention be polygons each of which polygon has an even one direction scanning perpendicular to this also be accomplished by tilting the rotating axis of said transparent for radiation in the energy spectrum of in number of sides of which opposite sides are direction is slower and can be accomplished prism The resulting scanning pattern is like the pattern terest and it is preferable if the sides of said prism are parallel a collecting refractive system having by other means for example as by an oscil 80 of common television coated with suitable material in order to reduce reflec 40 an image surface within the prism the axis of lating mirror in the collecting optics This 60 tions which system intersects the longitudinal axis of the prism an aperture situated substanti Pre slower scanning can also be accomplished by tilting the rotating axis of the prism This Said prism can be rotated very rapidly
84. according to our invention and several thousands of scans per second can be accomplished In this way our invention allows com plete scanning of said field of view many times per second exceeding the frame frequency of ordinary motion pic tures Referring to the drawings the arrangement according to our invention is characterized by an image surface gen erated inside the circumscribed circle of said prism by a collecting optics 9 in FIGURE 4 Said prism is in our invention of the form of a plane parallel refractive 70 The entry area of the rays coming from said optical system for varying turning angles p does not extend near the corners of the prism in our invention which may therefore be rounded This improves both the air resist ance and the mechanical strength of the prism When said prism rotates and the scanning in the other direction is accomplished in said collecting optics the radiation energy responsive element 12 scans said field of view for various energy levels in such field The out put signals from said element are amplified and filtered and may be used to modulate the intensity of a moving prism which is in one case 1 shown in FIG 1 Said spot on a cathode ray tube The movement of said Figure 16 1 Patent documents from the early 1960s The company has sold more than 350 000 infrared cameras worldwide for applications such as predictive maintenance R amp D non destructive testing process control and au tomat
85. apply to the products and or features Additional pending patents and or pending design patents may also apply 000279476 0001 000439161 000499579 0001 000653423 000726344 000859020 001106306 0001 001707738 001707746 001707787 001776519 001954074 002021543 002058180 002249953 002531178 0600574 8 1144833 1182246 1182620 1285345 1299699 1325808 13836775 1391114 1402918 1404291 1411581 1415075 1421497 1458284 1678485 17382314 2106017 2107799 2381417 3006596 3006597 466540 483782 484155 4889913 5177595 60122153 2 60200401 1681 5 08 6707044 68657 7034300 7110035 7154093 7157705 7237946 7312822 7332716 7336823 7544944 7667198 7809258 B2 7826736 8 153 971 8018649 B2 8212210 B2 8289372 83854639 B2 8384783 8520970 8565547 8595689 8599262 8654239 8680468 8803093 D540838 D549758 D579475 D584755 D599 392 D615 113 D664 580 D664 581 D665 004 D665 440 D677298 D710 424 S DI6702302 9 DI6903617 9 DI7002221 6 DI7002891 5 DI7002892 3 DI7005799 0 DM 057692 DM 061609 EP 2115696 B1 EP2315433 SE 0700240 5 US 8340414 B2 ZL 201330267619 5 ZL01823221 3 ZL01823226 4 ZL02331553 9 ZL02331554 7 ZL200480034894 0 ZL200530120994 2 ZL200610088759 5 ZL200630130114 4 ZL200730151 141 4 ZL200730339504 7 ZL200820105768 8 ZL200830128581 2 ZL200880105236 4 ZL200880105769 2 ZL200930190061 9 ZL201030176127 1 ZL201030176130 3 ZL201030176157 2 ZL201030595931 3 ZL201130442354 9 ZL2
86. ated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F EMC EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission Encapsulation IP 40 IEC 60529 with base support mounted 1559770 r 18834 22369 en US 36 Technical data Environmental data Shock 25 g IEC 60068 2 27 Vibration 2 g IEC 60068 2 6 Physical data Shipping information Packaging type Cardboard box List of contents Hard transport case e Infrared camera with lens e Base support e Cable tie 2 ea e Ethernet cable CAT 6 2m 6 6 ft 2 ea e FLIR ResearchiR Standard 4 Focus adjustment tool e Gooseneck Mains cable kit UK EU US PoE Injector power over Ethernet e Printed documentation e Table stand e User documentation CD ROM Supplies amp accessories
87. c measurement techniques 97 o _AMOGUCUOM u 0258 222 sb kosta ssuypaasssasqhzskakarsapasskar saus kas ances 97 182 TEMISSIV NY tastes ulna tae banca ahora nettles tates 97 18 2 1 Finding the emissivity of a sample 97 183 Reflected apparenttemperature 100 18 4 DISIRII 062 u uuu aonunn nonayaaswmapa naqha sabo ma aqamtapa hanka 100 165 Relative h midilyuyuuwa uu m oa uusha batas 100 18 6 Other parameters 100 History of infrared technology 102 Th ory Of thermography u uuu u u uuu aa a 105 201 WAIKOOUCTION ies car ernie E a caw sian came ieee Caen 105 20 2 The electromagnetic spectrum 105 20 3 Blackbody TadlallOn weiss eat khas mu am akuta ees 105 20 3 PANES IAW ans u uu y T Mera asss 106 20 3 2 Wien s displacement law 107 20 3 3 Stefan BoltZzmann s law 108 20 3 4 Non blackbody emitters 109 20 4 Infrared semi transparent materials 111 The Measurement formula 112 EMISSIVILY lap 6S u i ccaticas e
88. cally set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 3V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F EMC EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission Encapsulation IP 40 IEC 60529 with base support mounted 1559770 r 18834 22369 en US 63 11
89. cheteansrthesaaramineses a eameebenssedenes 116 221 SIRCTCTONCCS talent eaten na E Cates 116 222 ADI Sia seers aes a aston ceed aero eases ce aes 116 1559770 r 18834 22369 en US vi Legal disclaimer 1 1 Legal disclaimer All products manufactured by FLIR Systems are warranted against defective materials and workmanship for a period of one 1 year from the delivery date of the original pur chase provided such products have been under normal storage use and service and in accordance with FLIR Systems instruction Products which are not manufactured by FLIR Systems but included in systems deliv ered by FLIR Systems to the original purchaser carry the warranty if any of the particu lar supplier only FLIR Systems has no responsibility whatsoever for such products The warranty extends only to the original purchaser and is not transferable It is not appli cable to any product which has been subjected to misuse neglect accident or abnormal conditions of operation Expendable parts are excluded from the warranty In the case of a defect in a product covered by this warranty the product must not be fur ther used in order to prevent additional damage The purchaser shall promptly report any defect to FLIR Systems or this warranty will not apply FLIR Systems will at its option repair or replace any such defective product free of charge if upon inspection it proves to be defective in material or workmanship and pro vided
90. d States companies In digo Systems FSI and Inframetrics and the French company Cedip Since 2007 FLIR Systems has acquired several companies with world leading expertise in sensor technologies e Extech Instruments 2007 e lara Tecnolog as 2008 e Salvador Imaging 2009 OmniTech Partners 2009 e Directed Perception 2009 e Raymarine 2010 ICx Technologies 2010 e TackTick Marine Digital Instruments 2011 e Aerius Photonics 2011 e Lorex Technology 2012 e Traficon 2012 e MARSS 2013 e DigitalOptics micro optics business 2013 1 057 624 PATENT SPECIFICATION DRAWINGS ATTACHED No 45167 63 Index at acceptance H4 F6H Int Cl H 04 n 3 06 Inventors PER JOHAN LINDBERG and HANS GUNNER MALMBERG 1 057 624 Date of Application and filing Complete Specification Nov 15 1963 Complete Specification Published Feb 1 1967 Crown Copyright 1967 COMPLETE SPECIFICATION Scanning Mechanism We AGA AKTIEBOLAG formerly Svenska Aktiebolaget Gasaccumulator of Liding ally on the axis of the collecting refractive system through which radiation passing United States Patent Office 1 3 253 498 SCANNING MECHANISM FOR ELECTRO MAGNETIC RADIATION Per Johan Lindberg Stockholm and Hans Gunnar Malm berg Solna Sweden assignors to AGA Aktiebolaget a corporation of Sweden Filed May 14 1962 Ser No 194 622 Claims priority application Sweden May 19 1961 5 299 61
91. disabled The maximum value for this register is 65535 which corresponds to a maximum holding time of 31 ms The FLIR GEV Demo 1 3 sample illustrates how to setup the event transmission C source code is available in PureGEV SDK Sample Applicable downloads e Link to download PureGEV SDK Sample source code http support flir com SwDownload app RssSWDownload aspx ID 133 e Link to download FLIR GEV Demo 1 3 0 installer http support flir com SwDown load app RssSWDownload aspx ID 155 10 2 FLIR Ax5 synchronization The camera provides an external sync channel that can be used to synchronize the frame start between two cameras one configured as the master and the other config ured as the slave It can also be used to synchronize the frame start of a camera with that of another product 1559770 r 18834 22369 en US 15 10 About I O synchronization and measurement Stream 60 Hz SyncMode set to SelfSyncMaster 9 97 Az Sync cable FLIR P N T127606 Stream 60 Hz SyncMode set to ExtSyncMaster Sync cable FLIR P N T127606 29 97 Hz Figure 10 1 Master slave synchronization between two FLIR Ax5 cameras NTSC External synchronization can be applied but only by using an input signal with a frequency of 29 97 Hz NTSC e The signal voltage relative to digital GND is 3 3 V The pulse width minimum is 100 ns will be extended to 1 us Note that the synchronization mode is not persist
92. dy Wavelength um The factor 10 6 is used since spectral emittance in the curves is expressed in Watt m2 um Planck s formula when plotted graphically for various temperatures produces a family of curves Following any particular Planck curve the spectral emittance is zero at A 0 then increases rapidly to a maximum at a wavelength Amax and after passing it ap proaches zero again at very long wavelengths The higher the temperature the shorter the wavelength at which maximum occurs 900 K Figure 20 4 Blackbody spectral radiant emittance according to Planck s law plotted for various absolute temperatures 1 Spectral radiant emittance W cm x 103 um 2 Wavelength um 20 3 2 Wien s displacement law By differentiating Planck s formula with respect to A and finding the maximum we have 2898 Anax T um This is Wien s formula after Wilhelm Wien 1864 1928 which expresses mathemati cally the common observation that colors vary from red to orange or yellow as the tem perature of a thermal radiator increases The wavelength of the color is the same as the wavelength calculated for Amax A good approximation of the value of Amax for a given blackbody temperature is obtained by applying the rule of thumb 3 000 T um Thus a very hot star such as Sirius 11 000 K emitting bluish white light radiates with the peak of spectral radiant emittance occurring within the invisible ultraviolet spectrum at wave
93. e for existing questions and answers you do not need to be a registered user When you want to submit a question make sure that you have the following information to hand 1559770 r 18834 22369 en US Customer help e The camera model e The camera serial number e The communication protocol or method between the camera and your device for ex ample HDMI Ethernet USB or FireWire e Device type PC Mac iPhone iPad Android device etc e Version of any programs from FLIR Systems e Fullname publication number and revision number of the manual 4 3 Downloads On the customer help site you can also download the following e Firmware updates for your infrared camera e Program updates for your PC Mac software e Freeware and evaluation versions of PC Mac software e User documentation for current obsolete and historical products e Mechanical drawings in dxf and pdf format e Cad data models in stp format e Application stories e Technical datasheets e Product catalogs 1559770 r 18834 22369 en US 7 Introduction The FLIR Ax5 cameras have features and functions that make them the natural choice for anyone who uses PC software to solve problems Available resolutions include 80 x 64 160 x 128 and 320 x 256 pixels Among their main features are GigE Vision and GenlCam compliance which makes them plug and play when used with software packages such as IMAQ Vision and Halcon Key featur
94. e used in control applications Typical usage e The output line is asserted when an alarm condition is met e The input line is used to trigger an action for example saving an image The output line GPO is controlled by the register UserOutoutValue Set this register to True to assert level equal to GPIO_PWR the GPO signal and set to False to de assert level is equal to GPIO_GND You can monitor the input line by reading the LineStatus register on a regular basis The LineStatus register will return7rue if the input level is asserted level equal to GPIO_PWR voltage and it will returnFa se if the input line is de asserted level is equal to GPIO_ GND Another option is to configure the camera to send a GigEVision event when the input line state is changed In order to configure the camera for event transmission you need to modify the following registers PLC_Q 7_VariableO Enum Set this register to PLC_IO enu meration value 2 to route the GPI signal EventSelector Enum Set this register to PLC_Inter rupt_FIFOO_Q7 enumeration value 5 EventNotification Enum Set this register to GigEVisionE vent enumeration value 3 To de bounce the input signal you also might want to configure the LineDebounceFactor register This register controls the width of the window during which spurious transitions from the input line are filtered out in increments of 480 ns This register is 0 by default which means that the de bouncing is
95. easure wavelength in this spectral region e g nanometer nm and ngstr m A The relationships between the different wavelength measurements is 10 000 A 1000 nm 1 u 1 pm 20 3 Blackbody radiation A blackbody is defined as an object which absorbs all radiation that impinges on it at any wavelength The apparent misnomer black relating to an object emitting radiation is ex plained by Kirchhoff s Law after Gustav Robert Kirchhoff 1824 1887 which states that a body capable of absorbing all radiation at any wavelength is equally capable in the emission of radiation 1559770 r 18834 22369 en US 105 20 Theory of thermography Figure 20 2 Gustav Robert Kirchhoff 1824 1887 The construction of a blackbody source is in principle very simple The radiation charac teristics of an aperture in an isotherm cavity made of an opaque absorbing material rep resents almost exactly the properties of a blackbody A practical application of the principle to the construction of a perfect absorber of radiation consists of a box that is light tight except for an aperture in one of the sides Any radiation which then enters the hole is scattered and absorbed by repeated reflections so only an infinitesimal fraction can possibly escape The blackness which is obtained at the aperture is nearly equal to a blackbody and almost perfect for all wavelengths By providing such an isothermal cavity with a suitable heater it becomes what i
96. ed somewhat scratched Stainless steel 0 16 type 18 8 buffed 20 Stainless steel type 18 8 oxi 0 85 dized at 800 C 10 90 cO Stucco rough lime N Styrofoam insulation 0 79 0 84 0 91 0 93 a N O a Tile amy 1 paper glazed SW 0 94 20 50 100 0 04 0 06 0 07 Tin burnished Tin tin plated sheet iron oxidized at 540 C 1000 oxidized at 540 C 200 oxidized at 540 C 500 1000 Titanium NI N ep N OQO O 0 40 0 50 0 36 Titanium Titanium Titanium polished Titanium polished 0 15 QI Q O Titanium polished 0 20 Tungsten 1500 2200 0 24 0 31 Tungsten 0 05 Tungsten 600 1000 0 1 0 16 Tungsten filament 3300 0 39 flat N O WM Varnish W 0 93 70 Varnish on oak parquet floor Varnish on oak parquet 70 LW 0 90 0 93 floor Wallpaper slight pattern light gray slight pattern red 20 p Wallpaper distilled frost crystals Water Water N O O O 0 On 10 0 98 Water ice covered with 0 98 heavy frost Water to N N O O ice smooth on On N N _ G0 G N NI oo O D 5 G WM _ nN Q JA SAN 3 22 Emissivity tables Table 22 1 T Total spectrum SW 2 5 um LW 8 14 um LLW 6 5 20 um 1 Material 2 Specification 3 Temperature in C 4 Spectrum 5 Emissivity 6 Reference continued 10
97. en cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 160 x 128 pixels Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 48 x 39 Focal length 9 mm 0 35 in Spatial resolution IFOV 5 56 mrad F number Detector data Detector type Focal Plane Array FPA Uncooled VOX microbolometer Spectral range 7 5 13 um Detector time constant Typical 12 ms Measurement Object temperature range 25 to 135 C 13 to 275 F e 40 to 550 C 40 to 1022 F Een S T559770 r 18834 22369 en US 32 11 Technical data Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant Ethernet image streaming 8 bit monochrome 60 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 160 x 128 pixels 60 Hz e Signal linear DDE Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDP ICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input
98. enlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDP ICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 8V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector
99. ent The camera will always return to SyncMode Disabled after reset or power cycling For slow configurations 9 Hz the output frame rate is a fraction of the sync pulse rate Because there is ambiguity as to which received pulse triggers the frame timing FLIR does not recommend using the external sync interface with a slow configured camera NOTE The only difference between ExtSyncMaster and SelfSyncSlave mode is that the incoming sync signal is relayed to the SYNC_OUT port if set to ExtSyncMaster 10 3 FLIR Ax5 measurement The FLIR Ax5 camera has an option to output 14 bit digital video that is temperature linear Each count in the temperature linear video corresponds to either 0 04 K or 0 4 K in 14 bit video depending on the selected resolution Temperature linear output is enabled or disabled with the feature register TemperatureLinearMode On 1 or Off 0 Temparture linear resolution is determined with the feature register TemperatureLinearResolution Low 0 4 K 0 or High 0 04 K 1 lf TemperatureLinearMode is On the signal to temperature mapping is calculated us ing the equations T k 0 04x S for high resolution T x 0 4x S for low resolution S corresponds to the 14 bit pixel value If the TemperatureLinearMode is Off then the camera provides registers that can be used to convert signal values to temperature For each measurement range or gain mode there is a set of register values that is used fo
100. ernal power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F 1559770 r 18834 22369 en US 27 11 Technical data Environmental data EMG EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission UNC 20 on three sides Housing material Magnesium and aluminum Shipping information Packaging type Cardboard box List of contents e Infrared camera with lens e FLIR Tools download card Focus adjustment tool e Printed documentation e User documentation CD ROM Packaging size 295 x 200 x 105 mm 11 6 x 7 9 x 4 1 in EAN 13 7332558003978 4743254000599 Estonia plant UPC 12 845188003548 Supplies amp accessories e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR T
101. es Very affordable Compact 40 x 43 x 106 mm 1 57 x 1 69 x 4 17 in GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit monochrome image streaming 14 bit radiometric image streaming High frame rates 60 Hz Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenICam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Lenses 5 9 13 19 and 25 model dependent Typical applications Automation thermal machine vision Entry level high speed R amp D 1559770 r 18834 22369 en US 8 List of accessories and services Part number Product name T198349 Base support T198348 Cable kit Mains UK EU US T127605ACC Cable M12 Pigtail T127606ACC Cable M12 Sync T951004ACC Ethernet cable CAT 6 2m 6 6 ft DSW 10000 FLIR IR Camera Player T198584 FLIR Tools T198583 FLIR Tools license only T198342ACC Focus adjustment tool T911183 Gigabit PoE injector 16 W with multi plugs ITC ADV 3021 ITC Advanced General Thermography Course attendance 1 pers ITC ADV 3029 ITC Advanced General Thermography Course group of 10 pers ITC CON 1001 ITC conference fee ITC EXP 1041 ITC Customized workshop per person per day ITC EXP 1021 ITC In house training additional attendance 1 pers per day ITC EXP 1029 ITC In house training group up to 10 pers per da
102. has an emittance of 0 75 and the trans mittance is 0 92 We also assume that the two second terms of Equation 4 amount to 0 5 volts together Computation of Uobj by means of Equation 4 then results in Uobj 4 5 0 75 0 92 0 5 6 0 This is a rather extreme extrapolation particularly when consider ing that the video amplifier might limit the output to 5 volts Note though that the applica tion of the calibration curve is a theoretical procedure where no electronic or other limitations exist We trust that if there had been no signal limitations in the camera and if it had been calibrated far beyond 5 volts the resulting curve would have been very much the same as our real curve extrapolated beyond 4 1 volts provided the calibration algo rithm is based on radiation physics like the FLIR Systems algorithm Of course there must be a limit to such extrapolations 11 1 0 C 3 32 F 20 C 68 F 50 C 122 F Refl 0 6 Atm A Refl Am Refl Refl Figure 21 2 Relative magnitudes of radiation sources under varying measurement conditions SW cam era 1 Object temperature 2 Emittance Obj Object radiation Refl Reflected radiation Atm atmos phere radiation Fixed parameters T 0 88 Tren 20 C 68 F Tatm 20 C 68 F 1559770 r 18834 22369 en US 114 21 The measurement formula 1 0 C 32 F 20 C 68 F 50 C 122 F SD D 2J D Figure 21 3 Relative magnitudes of radiation sou
103. ibution of intensity in the spectrum He first blackened the bulb of a sensi tive mercury in glass thermometer with ink and with this as his radiation detector he pro ceeded to test the heating effect of the various colors of the spectrum formed on the top of a table by passing sunlight through a glass prism Other thermometers placed outside the sun s rays served as controls As the blackened thermometer was moved slowly along the colors of the spectrum the temperature readings showed a steady increase from the violet end to the red end This was not entirely unexpected since the Italian researcher Landriani in a similar experi ment in 1777 had observed much the same effect It was Herschel however who was the first to recognize that there must be a point where the heating effect reaches a maxi mum and that measurements confined to the visible portion of the spectrum failed to lo cate this point Figure 19 2 Marsilio Landriani 1746 1815 Moving the thermometer into the dark region beyond the red end of the spectrum Her schel confirmed that the heating continued to increase The maximum point when he found it lay well beyond the red end in what is known today as the infrared wavelengths 1559770 r 18834 22369 en US 102 19 History of infrared technology When Herschel revealed his discovery he referred to this new portion of the electromag netic spectrum as the thermometrical spectrum The radiati
104. ied by a user replacing a calculated one Extra lenses filters heat shields etc that can be put between the camera and the object being measured A material transparent only to some of the infrared wavelengths Field of view The horizontal angle that can be viewed through an IR lens Focal plane array A type of IR detector An object that emits a fixed fraction of the amount of energy of a blackbody for each wavelength Instantaneous field of view A measure of the geometrical resolution of an IR camera 1559770 r 18834 22369 en US 94 Glossary image correc tion internal or external infrared IR isotherm isothermal cavity Laser LocatIR laser pointer level manual adjust NETD noise object parameters object signal palette pixel radiance radiant power radiation radiator range reference temperature reflection relative humidity saturation color A way of compensating for sensitivity differences in various parts of live images and also of stabilizing the camera Non visible radiation having a wavelength from about 2 13 um infrared A function highlighting those parts of an image that fall above below or between one or more temperature intervals A bottle shaped radiator with a uniform temperature viewed through the bottleneck An electrically powered light source on the camera that emits laser radiation in a thin concentrated beam to point at certa
105. in C 4 Spectrum 5 Emissivity 6 Reference continued oe Aluminum anodized light 70 gray dull Aluminum as received plate 100 Aluminum as received 100 sheet cO N Aluminum cast blast 7 0 47 cleaned Aluminum cast blast 7 W 0 46 cleaned 1 0 05 Aluminum plate Aluminum Aluminum Aluminum Aluminum 50 100 Aluminum 100 Aluminum 100 Aluminum Aluminum Aluminum 2 Aluminum sheet 4 samples 70 differently scratched 10 um 0 04 2 2 3 um 50 500 0 2 0 3 N O 0 04 0 06 0 05 0 05 50 0 06 0 07 2 2 0 18 0 0 00 7 7 0 0 7 10 um 7 3um 0 28 SW 0 05 0 08 Aluminum LW 0 03 0 06 sheet 4 samples differently scratched Aluminum vacuum 0 04 deposited Aluminum weathered heavily Aluminum powder hydroxide Aluminum oxide activated powder Aluminum oxide pure powder alumina 20 17 SW 0 83 0 94 20 0 28 0 46 0 16 0 78 0 94 0 93 0 95 2 3 SW 70 70 400 0 40 0 60 LLW 0 967 T T SW LW T 0 22 0 61 0 04 0 09 0 03 0 07 0 59 0 61 Brass 20 350 Brass 100 Brass 200 600 1559770 r 18834 22369 en US 11 N 22 Emissivity tables Table 22 1 T Total spectrum SW 2 5 um LW 8 14 um LLW 6 5 20 um 1 Material 2 Specification 3 Temperature in C 4 Spectrum 5 Emissivity 6 Reference continued No Brass polished 200 0 03 Brass polished highly 100 0 03 rubbed with 80 gri
106. in parts of the object in front of the camera An electrically powered light source on the camera that emits laser radiation in a thin concentrated beam to point at certain parts of the object in front of the camera The center value of the temperature scale usually expressed as a signal value A way to adjust the image by manually changing certain parameters Noise equivalent temperature difference A measure of the image noise level of an IR camera Undesired small disturbance in the infrared image A set of values describing the circumstances under which the meas urement of an object was made and the object itself such as emis sivity reflected apparent temperature distance etc A non calibrated value related to the amount of radiation received by the camera from the object The set of colors used to display an IR image Stands for picture element One single spot in an image Amount of energy emitted from an object per unit of time area and angle W m2 sr Amount of energy emitted from an object per unit of time W The process by which electromagnetic energy is emitted by an ob ject or a gas A piece of IR radiating equipment The current overall temperature measurement limitation of an IR camera Cameras can have several ranges Expressed as two blackbody temperatures that limit the current calibration A temperature which the ordinary measured values can be com pared with The amount of radiation ref
107. inum connected in one arm of a Wheatstone bridge circuit upon which the infrared radiation was focused and to which a sensitive galvanometer re sponded This instrument is said to have been able to detect the heat from a cow at a distance of 400 meters An English scientist Sir James Dewar first introduced the use of liquefied gases as cool ing agents such as liquid nitrogen with a temperature of 196 C 320 8 F in low tem perature research In 1892 he invented a unique vacuum insulating container in which it is possible to store liquefied gases for entire days The common thermos bottle used for storing hot and cold drinks is based upon his invention Between the years 1900 and 1920 the inventors of the world discovered the infrared Many patents were issued for devices to detect personnel artillery aircraft ships and even icebergs The first operating systems in the modern sense began to be developed during the 1914 18 war when both sides had research programs devoted to the military exploitation of the infrared These programs included experimental systems for enemy intrusion detection remote temperature sensing secure communications and flying tor pedo guidance An infrared search system tested during this period was able to detect an approaching airplane at a distance of 1 5 km 0 94 miles or a person more than 300 meters 984 ft away The most sensitive systems up to this time were all based upo
108. ion and machine vision among many others FLIR Systems has three manufacturing plants in the United States Portland OR Bos ton MA Santa Barbara CA and one in Sweden Stockholm Since 2007 there is also a manufacturing plant in Tallinn Estonia Direct sales offices in Belgium Brazil China France Germany Great Britain Hong Kong Italy Japan Korea Sweden and the USA together with a worldwide network of agents and distributors support our internation al customer base 1559770 r 18834 22369 en US 91 16 About FLIR Systems FLIR Systems is at the forefront of innovation in the infrared camera industry We antici pate market demand by constantly improving our existing cameras and developing new ones The company has set milestones in product design and development such as the introduction of the first battery operated portable camera for industrial inspections and the first uncooled infrared camera to mention just two innovations Figure 16 2 LEFT Thermovision Model 661 from 1969 The camera weighed approximately 25 kg 55 Ib the oscilloscope 20 kg 44 Ib and the tripod 15 kg 33 Ib The operator also needed a 220 VAC generator set and a 10 L 2 6 US gallon jar with liquid nitrogen To the left of the oscilloscope the Polaroid attachment 6 kg 13 Ib can be seen RIGHT FLIR One which was launched in January 2014 is a slide on attachment that gives iPhones thermal imaging capabilities Weight
109. ional and nation al laws that apply to the SOFTWARE including the U S Export Administration Regulations as well as end user end use and destination restrictions issued by U S and other governments For additional information see http www microsoft com exporting 1559770 r 18834 22369 en US 3 Safety information Make sure that you read all applicable MSDS Material Safety Data Sheets and warning labels on con tainers before you use a liquid The liquids can be dangerous Injury to persons can occur Applicability FLIR Ax5 Do not use screws that are too long If you use screws that are too long damage to the camera will oc cur The maximum depth of the M3 holes is 4 mm 0 15 in CAUTION Do not point the infrared camera with or without the lens cover at strong energy sources for example devices that cause laser radiation or the sun This can have an unwanted effect on the accuracy of the camera It can also cause damage to the detector in the camera CAUTION Do not use the camera in temperatures more than 50 C 122 F unless other information is specified in the user documentation or technical data High temperatures can cause damage to the camera CAUTION Do not apply solvents or equivalent liquids to the camera the cables or other items Damage to the bat tery and injury to persons can occur CAUTION Be careful when you clean the infrared lens The lens has an anti reflective coating which is
110. ith any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 80 x 64 pixels Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 44 x 36 Focal length 5 mm 0 20 in Spatial resolution IFOV 10 0 mrad F number Image frequency Focus Detector data Detector type Focal Plane Array FPA Uncooled VOX microbolometer Spectral range 7 5 13 um Detector time constant Typical 12 ms Measurement Object temperature range e 25 to 135 C 13 to 275 F 40 to 550 C 40 to 1022 F Ethernet type Gigabit Ethernet Ethernet standard IEEE 802 3 Ethernet connector type RJ 45 Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant 1559770 r 18834 22369 en US 56 11 Technical data Ethernet image streaming 8 bit monochrome 7 5 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 80 x 64 pixels 7 5 Hz e Signal linear DDE e Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDPICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated
111. l Flip H amp V 14 bit 80 x 64 pixels 7 5 Hz e Signal linear DDE e Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDPICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 3V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power opera
112. lane Array FPA Uncooled VOX microbolometer Spectral range 7 5 13 um Detector time constant Typical 12 ms Measurement Object temperature range 25 to 135 C 13 to 275 F e 40 to 550 C 40 to 1022 F Een S T559770 r 18834 22369 en US 20 11 Technical data Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant Ethernet image streaming 8 bit monochrome 60 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 160 x 128 pixels 60 Hz e Signal linear DDE Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDP ICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to contr
113. lected by an object relative to the re ceived radiation A number between 0 and 1 Relative humidity represents the ratio between the current water va pour mass in the air and the maximum it may contain in saturation conditions The areas that contain temperatures outside the present level span settings are colored with the saturation colors The saturation colors contain an overflow color and an underflow color There is also a third red saturation color that marks everything saturated by the de tector indicating that the range should probably be changed 1559770 r 18834 22369 en US 95 17 Glossary span spectral radi ant emittance temperature difference or difference of temperature temperature range temperature scale thermogram transmission or transmit tance factor transparent isotherm visual The interval of the temperature scale usually expressed as a signal value Amount of energy emitted from an object per unit of time area and wavelength W m2 um A value which is the result of a subtraction between two temperature values The current overall temperature measurement limitation of an IR camera Cameras can have several ranges Expressed as two blackbody temperatures that limit the current calibration The way in which an IR image currently is displayed Expressed as two temperature values limiting the colors infrared image Gases and materials can be more or les
114. light spectrum 1559770 r 18834 22369 en US 108 20 Theory of thermography Figure 20 7 Josef Stefan 1835 1893 and Ludwig Boltzmann 1844 1906 Using the Stefan Boltzmann formula to calculate the power radiated by the human body at a temperature of 300 K and an external surface area of approx 2 m2 we obtain 1 kW This power loss could not be sustained if it were not for the compensating absorption of radiation from surrounding surfaces at room temperatures which do not vary too drasti cally from the temperature of the body or of course the addition of clothing 20 3 4 Non blackbody emitters So far only blackbody radiators and blackbody radiation have been discussed However real objects almost never comply with these laws over an extended wavelength region although they may approach the blackbody behavior in certain spectral intervals For ex ample a certain type of white paint may appear perfectly white in the visible light spec trum but becomes distinctly gray at about 2 um and beyond 3 um it is almost black There are three processes which can occur that prevent a real object from acting like a blackbody a fraction of the incident radiation a may be absorbed a fraction p may be re flected and a fraction T may be transmitted Since all of these factors are more or less wavelength dependent the subscript A is used to imply the spectral dependence of their definitions Thus e The spectral absorptance a
115. ly absorbed but some of it arrives at the other surface through which most of it escapes part of it is reflected back again Although the progressive reflections become weaker and weaker they must all be added up when the total emittance of the plate is sought When the resulting geometrical series is summed the effective emissivity of a semi transparent plate is obtained as 1 p 1 7 E i Lp When the plate becomes opaque this formula is reduced to the single formula lp This last relation is a particularly convenient one because it is often easier to measure reflectance than to measure emissivity directly 1559770 r 18834 22369 en US 111 21 The measurement formula As already mentioned when viewing an object the camera receives radiation not only from the object itself It also collects radiation from the surroundings reflected via the ob ject surface Both these radiation contributions become attenuated to some extent by the atmosphere in the measurement path To this comes a third radiation contribution from the atmosphere itself This description of the measurement situation as illustrated in the figure below is so far a fairly true description of the real conditions What has been neglected could for in stance be sun light scattering in the atmosphere or stray radiation from intense radiation sources outside the field of view Such disturbances are difficult to quantify however in most cases the
116. midity 25 C to 40 C 77 F to 104 F 1559770 r 18834 22369 en US 33 11 Technical data Environmental data EMG EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission UNC 1420 on three sides Shipping information Packaging type Cardboard box List of contents Hard transport case e Infrared camera with lens e Base support e Cable tie 2 ea e Ethernet cable CAT 6 2m 6 6 ft 2 ea e FLIR ResearchiR Standard 4 e Focus adjustment tool e Gooseneck Mains cable kit UK EU US PoE Injector power over Ethernet e Printed documentation e Table stand e User documentation CD ROM e _ EAN 13 7332558003985 Supplies amp accessories e T951004ACC Ethernet cable CAT 6 2m 6 6 ft T198349 Base support e T198348 Cable kit Mains UK EU US e T911112 PoE injector e 1198371 Transport case Ax5 e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T1127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 34 11 Technical data 11 8 FLIR A15 f 9 mm with SC kit 7 5 Hz P N 64309 0102 Rev 22369 General description The FLIR A15 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve
117. mography 20 1 Introduction The subjects of infrared radiation and the related technique of thermography are still new to many who will use an infrared camera In this section the theory behind thermography will be given 20 2 The electromagnetic spectrum The electromagnetic spectrum is divided arbitrarily into a number of wavelength regions called bands distinguished by the methods used to produce and detect the radiation There is no fundamental difference between radiation in the different bands of the elec tromagnetic spectrum They are all governed by the same laws and the only differences are those due to differences in wavelength Hl 2 BI 6 100m 1km 10nm Om adm 10m TOD HM mm 10mm 100mm 1m 10m 2 um 13 um Figure 20 1 The electromagnetic spectrum 1 X ray 2 UV 3 Visible 4 IR 5 Microwaves 6 Radiowaves Thermography makes use of the infrared spectral band At the short wavelength end the boundary lies at the limit of visual perception in the deep red At the long wavelength end it merges with the microwave radio wavelengths in the millimeter range The infrared band is often further subdivided into four smaller bands the boundaries of which are also arbitrarily chosen They include the near infrared 0 75 3 um the middle infrared 3 6 um the far infrared 6 15 um and the extreme infrared 15 100 um Although the wavelengths are given in um micrometers other units are often still used to m
118. n that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 8V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F 1559770 r 18834 22369 en US 48 11 Technical data Environmental data EMG EN 6
119. n variations of the bolome ter idea but the period between the two wars saw the development of two revolutionary new infrared detectors the image converter and the photon detector At first the image converter received the greatest attention by the military because it enabled an observer for the first time in history to literally see in the dark However the sensitivity of the im age converter was limited to the near infrared wavelengths and the most interesting mili tary targets i e enemy soldiers had to be illuminated by infrared search beams Since this involved the risk of giving away the observer s position to a similarly equipped enemy observer it is understandable that military interest in the image converter eventually faded The tactical military disadvantages of so called active i e search beam equipped ther mal imaging systems provided impetus following the 1939 45 war for extensive secret military infrared research programs into the possibilities of developing passive no search beam systems around the extremely sensitive photon detector During this peri od military secrecy regulations completely prevented disclosure of the status of infrared imaging technology This secrecy only began to be lifted in the middle of the 1950 s and from that time adequate thermal imaging devices finally began to be available to civilian science and industry 1559770 r 18834 22369 en US 104 20 Theory of ther
120. na a lu ee baka qapas ka qaqa pakaku pa atus 6 4 2 SUDIDILDHIO a QUESIION unap eos os ee casi elo ek Qa aus 6 4 3 DOWIMNOAG S wc mt ese cs heres ceed eee Sua uu basa yh ae ee 7 5 INTFOGUGHION sicsiisce uu L u uu u ie a E aa a aG 8 6 List of accessories and services 9 7 Mechanical installation 11 8 FOCUSING ING camera uuu u u Saa ssassSassusasssqaqawaysuas 12 8 1 Focusing cameras with 5 9 13 and 19 mm lenses 12 O lu INCCCSSAlY TOOS mepeh 12 Slee Procedu G Z mu a Sh end ee passa ee ents 12 8 2 Focusing cameras with 25 mm lenses 13 82 1 Necessary Tools arune ate tia ea 13 622 i FOCCOUNC cean A T i bbpeka O zi asae 13 9 Downloads s u geese x si a ukasa saus ayasucuo sus sss sss 14 10 About I O synchronization and measurement 15 10 1 FLIR AxS General Purpose I O 220242 uyu uuu Q Autu payta 15 10 2 FEUIRAK5SynehrS 28160 u g mu S Sun LS Sa ls anon 15 10 3 FLIR Ax5 measurement 16 11 Teehnicalbdalau uuu l xu 5 su ss Sus oss sssi sss 19 11 1 Online field of view calculator 19 11 2 Note about technical data 19 AS FERAIS IIM u u k uu uu Pee um
121. nd functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 80 x 64 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 80 x 64 pixel images streamed at 60 Hz signal linear 14 bit 80 x 64 pixel images streamed at 60 Hz signal and temperature linear High frame rates 60 Hz Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 80 x 64 pixels Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 25 x 20 Focal length 9 mm 0 35 in Spatial resolution IFOV 5 56 mrad F number Detector data Detector type Focal Plane Array FPA Uncooled VOX microbolometer Spectral range 7 5 13 um Detector time constant Typical 12 ms Measurement Object temperature range 25 to 135 C 13 to 275 F e 40 to 550 C 40 to 1022 F Een S
122. nds on learning experience The staff of the ITC are also there to provide you with any application support you may need in putting infrared theory into practice 16 3 Supporting our customers FLIR Systems operates a worldwide service network to keep your camera running at all times If you discover a problem with your camera local service centers have all the equipment and expertise to solve it within the shortest possible time Therefore there is no need to send your camera to the other side of the world or to talk to someone who does not speak your language 1559770 r 18834 22369 en US 92 16 About FLIR Systems 16 4 A few images from our facilities Tum ss PIM 2 22 FF Figure 16 3 LEFT Development of system electronics RIGHT Testing of an FPA detector aa 2 l Sa i 5 gt Spa oy IEE Figure 16 4 LEFT Diamond turning machine RIGHT Lens polishing 1559770 r 18834 22369 en US 93 17 absorption absorption factor atmosphere autoadjust autopalette blackbody blackbody radiator calculated at mospheric transmission cavity radiator color temperature conduction continuous adjust convection dual isotherm emissivity emissivity factor emittance environment estimated at mospheric transmission external optics filter FOV FPA graybody IFOV Glossary The amount of radiation absorbed by an object relative to the re
123. nstruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 160 x 128 pixels Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 25 x 19 Focal length 19 mm 0 75 in Spatial resolution IFOV 2 63 mrad Image frequency Focus Detector data Detector type Focal Plane Array FPA Uncooled VOX microbolometer Spectral range 7 5 13 um Detector time constant Typical 12 ms Measurement Object temperature range e 25 to 135 C 13 to 275 F 40 to 550 C 40 to 1022 F Ethernet type Gigabit Ethernet Ethernet standard IEEE 802 3 Ethernet connector type RJ 45 Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant 1559770 r 18834 22369 en US 23 11 Technical data Ethernet image streaming 8 bit monochrome 7 5 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 160 x 128 pixels 7 5 Hz e Signal linear DDE e Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDPICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the inpu
124. nt Typical 12 ms Measurement Object temperature range 25 to 135 C 13 to 275 F e 40 to 550 C 40 to 1022 F Een S T559770 r 18834 22369 en US 44 11 Technical data Ethernet communication GigE Vision ver 1 2 Client API GenlCam compliant Ethernet image streaming 8 bit monochrome 60 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 320 x 256 pixels 60 Hz e Signal linear DDE Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDP ICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 8V 0
125. ol camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 8V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F 1559770 r 18834 22369 en US 21 11 Technical data Environmental data EMG EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission UNC 20 on three sides Housing material Magnesium and aluminum Shipping information Packaging type Cardboard box List of contents e Infrared camera with lens e FLIR Tools download card Focus adjustment tool e Printed documentation e User documentation CD ROM Packaging size 295 x 200 x 105 mm 11 6 x 7 9 x 4 1 in
126. omatic Manual Flip H amp V 14 bit 160 x 128 pixels 60 Hz e Signal linear DDE Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDP ICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 8V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system Ext
127. on itself he sometimes re ferred to as dark heat or simply the invisible rays Ironically and contrary to popular Opinion it wasn t Herschel who originated the term infrared The word only began to ap pear in print around 75 years later and it is still unclear who should receive credit as the originator Herschel s use of glass in the prism of his original experiment led to some early contro versies with his contemporaries about the actual existence of the infrared wavelengths Different investigators in attempting to confirm his work used various types of glass in discriminately having different transparencies in the infrared Through his later experi ments Herschel was aware of the limited transparency of glass to the newly discovered thermal radiation and he was forced to conclude that optics for the infrared would prob ably be doomed to the use of reflective elements exclusively i e plane and curved mir rors Fortunately this proved to be true only until 1830 when the Italian investigator Melloni made his great discovery that naturally occurring rock salt NaCl which was available in large enough natural crystals to be made into lenses and prisms is remark ably transparent to the infrared The result was that rock salt became the principal infra red optical material and remained so for the next hundred years until the art of synthetic crystal growing was mastered in the 1930 s Figure 19 3 Maced
128. onding slots on the front of the lens and push the focus adjustment tool into position 1559770 r 18834 22369 en US 12 Focusing the camera 8 2 Focusing cameras with 25 mm lenses Do not use the focus adjustment tool when focusing cameras with a 25 mm lens 8 2 1 Necessary tools Allen wrench 1 5 mm 8 2 2 Procedure Follow this procedure 1 Unlock the clamp by loosening the Allen screw 3 Lock the clamp by tightening the Allen screw 1559770 r 18834 22369 en US 13 Downloads The principal software used to configure and control the camera is FLIR GEV Demo 1 3 0 This software is based on the PleoraeBus SDK and the runtime Pleora GEVPlayer that comes with the SDK Downloads e http support flir com Ax5 software e Link to download PureGEV SDK Sample source code http support flir com SwDownload app RssSWDownload aspx ID 133 e Link to download FLIR GEV Demo 1 3 0 installer http support flir com SwDown load app RssSW Download aspx ID 155 The camera is compliant with the following standards Additional software and documen tation resources can be downloaded from these sites e GeniCAM http www genicam org e Gigabit Ethernet http www ieee802 org 3 1559770 r 18834 22369 en US 14 10 About I O synchronization and measurement 10 1 FLIR Ax5 General Purpose I O The FLIR Ax5 camera has one general purpose input line and one output line that can b
129. onio Melloni 1798 1854 Thermometers as radiation detectors remained unchallenged until 1829 the year Nobili invented the thermocouple Herschel s own thermometer could be read to 0 2 C 0 036 F and later models were able to be read to 0 05 C 0 09 F Then a break through occurred Melloni connected a number of thermocouples in series to form the first thermopile The new device was at least 40 times as sensitive as the best thermome ter of the day for detecting heat radiation capable of detecting the heat from a person standing three meters away The first so called heat picture became possible in 1840 the result of work by Sir John Herschel son of the discoverer of the infrared and a famous astronomer in his own right Based upon the differential evaporation of a thin film of oil when exposed to a heat pat tern focused upon it the thermal image could be seen by reflected light where the inter ference effects of the oil film made the image visible to the eye Sir John also managed to obtain a primitive record of the thermal image on paper which he called a thermograph 1559770 r 18834 22369 en US 103 19 History of infrared technology 32 Em Figure 19 4 Samuel P Langley 1834 1906 The improvement of infrared detector sensitivity progressed slowly Another major break through made by Langley in 1880 was the invention of the bolometer This consisted of a thin blackened strip of plat
130. ools 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 28 11 Technical data 11 6 FLIR A15 f 9 mm 7 5 Hz P N 64309 0101 Rev 22369 General description The FLIR A15 has features and functions that make it the natural choice for anyone who uses PC soft ware to solve problems and for whom 160 x 128 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 160 x 128 pixel images streamed at 7 5 Hz signal linear 14 bit 160 x 128 pixel images streamed at 7 5 Hz signal and temperature linear Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 160 x 128 pixels Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 48 x 39 Focal length 9 mm 0 35 in Spatial resolution IFOV 5 56 mrad Image frequency Focus Detector data
131. pe 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F EMC EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission Encapsulation IP 40 IEC 60529 with base support mounted 1559770 r 18834 22369 en US 78 Technical data Environmental data Shock 25 g IEC 60068 2 27 Vibration 2 g IEC 60068 2 6 Physical data Tripod mounting UNC 20 on three sides Shipping information Packaging type Cardboard box List of contents Infrared camera with lens FLIR Tools download card Printed documentation User documentation CD ROM Packaging size 295 x 200 x 105 mm 11 6 x 7 9 x 4 1 in EAN 13 7332558004074 4743254000544 Estonia plant UPC 12 845188003630 Supplies amp accessories e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198584 FLIR Tools e 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera
132. problems and for whom 160 x 128 pixel resolution is sufficient Among its main features are GigE Vision and GenlCam compliance which makes it plug and play when used with software packages such as IMAQ Vision and Halcon Key features Very affordable Compact 40 mm x 43 mm x 106 mm GigE Vision and GenlCam compliant GigE Vision lockable connector PoE power over Ethernet 8 bit 160 x 128 pixel images streamed at 7 5 Hz signal linear 14 bit 160 x 128 pixel images streamed at 7 5 Hz signal and temperature linear Synchronization between cameras possible 1x 1x GPIO Compliant with any software that supports GenlCam including National Instruments IMAQ Vision Stemmers Common Vision Blox and COGNEX Vision Pro Typical applications e Automation and thermal machine vision Entry level high speed R amp D Imaging and optical data IR resolution 160 x 128 pixels Thermal sensitivity NETD lt 0 05 C 30 C 86 F 50 mK Field of view FOV 48 x 39 Focal length 9 mm 0 35 in Spatial resolution IFOV 5 56 mrad Image frequency Focus Detector data Detector type Focal Plane Array FPA Uncooled VOX microbolometer Spectral range 7 5 13 um Detector time constant Typical 12 ms Measurement Object temperature range e 25 to 135 C 13 to 275 F 40 to 550 C 40 to 1022 F Ethernet type Gigabit Ethernet Ethernet standard IEEE 802 3 Ethernet connector type RJ 45 E
133. q ABJEY S J p 1lu AO apueAIBpeW eA uen Jejap 1 l 1 ul u UIS I seuaidoy ueuue sabjap f se Buljpuey euusq gY SWALSAS tl 1d sBuip o5o4d eB 0 pea m ju uu BuuJui AUY uolissiuuj d INO noujiA ped Ul JO 91 duuo5 paidoo Jo payed uNWWOd q 1ou 1 snui JUBWNDOp silu L Vv 9LL8CLL H ON Bulmeiq Ju uyy cV 8ZIS ONHV ALS D P 341139 Ol ww QO 0 WW G Gx SUOISUBUIP sIseg uoneulwoueq buluweueg a LL ZO vL0Z jJu une n SoeLNS Huljpueyeq A ssouyGnoyjeyuwel A p y poN peIpuy YaVvAN 6zc LO YLOZ euazen yo uO lluoy ajeq wneq uexo1q s p g or 000 00 eujniq Jaquey GOF 00v 0ZL E OF 0ZL 0 Mpejj llq Z OF oe 9 JoipessjeyieH OF 9S 0 W 89 Z OSI uuo1j di oxg in Bespin MW 89Z OSI 499 pags siwu u o ss lun s Bue yeuue fo seq SNOYVW d Aq p jipoW Ae pespuy SNOAVI d UMEJG ISUOY TE C PUB s Bed 98S SUOISUBWIP 19470 e 104 Su H1 SIU JO pljeA SUOISUBUIP JUO SUu X WW QG u Bu e5o YIM elowueyD SUOISUBWIP 9ISeg lt gY SWALSAS Hd Bej epueyjeb Ae pols paw seJAI9q ABJEY sS J pe lu AO apueAIBpeW eA uen Jejap 1 l 1 ul u UIS I seuaidoy ueuue sabjap f se Buljpuey euusq gY SWALSAS tl 1d sBuip o5o4d eB 0 pea m ju uu BuuJui AUY uolissiuuj d INO noujiA ped Ul JO 91 duuo5 paidoo Jo payed uNWWOd q 1ou 1 snui JUBWNDOp silu L
134. r this conversion 1559770 r 18834 22369 en US 16 10 About I O synchronization and measurement The conversion from the corrected signal S to the temperature Tik is performed using the external RBFO values for the selected lens and gain mode The signal to tempera ture mapping is calculated using the equation r 8 E In F S O In x is the base e logarithm of the x parameter and S corresponds to the 14 bit pixel value Register name Type R Integer Float handles only positive vales Integer same as O but handles negative values Please note that these registers will be automatically updated when switching between the high gain mode and the low gain mode The FLIR GEV Demo sample illustrates how to use this conversion formula You also have the option to do your own one point calibration by adjusting the offset val ue register Olnt by pointing the camera at an accurately known temperature Knowing the temperature you can then calculate the offset value and update the Olnt register Olnt S R exp B Txxony F The FLIR GEV Demo sample illustrates how to perform this kind of calibration Please note that you will need to save the current settings if you want the new offset value to be persistent Use the command register SensorSetDefaults to set all current settings as power on defaults There are additional registers that also affect the temperature linear output These regis ters
135. rces under varying measurement conditions LW cam era 1 Object temperature 2 Emittance Obj Object radiation Refl Reflected radiation Atm atmos phere radiation Fixed parameters T 0 88 Tres 20 C 68 F Tatm 20 C 68 F 1559770 r 18834 22369 en US 115 22 Emissivity tables This section presents a compilation of emissivity data from the infrared literature and measurements made by FLIR Systems 22 1 References 1 Mikael A Bramson Infrared Radiation A Handbook for Applications Plenum press N Y 2 William L Wolfe George J Zissis The Infrared Handbook Office of Naval Research Department of Navy Washington D C 3 Madding R P Thermographic Instruments and systems Madison Wisconsin Uni versity of Wisconsin Extension Department of Engineering and Applied Science 4 William L Wolfe Handbook of Military Infrared Technology Office of Naval Research Department of Navy Washington D C 5 Jones Smith Probert External thermography of buildings Proc of the Society of Photo Optical Instrumentation Engineers vol 110 Industrial and Civil Applications of Infrared Technology June 1977 London 6 Paljak Pettersson Thermography of Buildings Swedish Building Research Institute Stockholm 1972 7 Vicek J Determination of emissivity with imaging radiometers and some emissivities at A 5 um Photogrammetric Engineering and Remote Sensing 8 Kern Evaluation of infrared emis
136. s This product may be subject to U S Export Regulations Please send any inquiries to ex portquestions flir com 1 5 Copyright 2014 FLIR Systems Inc All rights reserved worldwide No parts of the software in cluding source code may be reproduced transmitted transcribed or translated into any language or computer language in any form or by any means electronic magnetic opti cal manual or otherwise without the prior written permission of FLIR Systems The documentation must not in whole or part be copied photocopied reproduced translated or transmitted to any electronic medium or machine readable form without pri or consent in writing from FLIR Systems 1559770 r 18834 22369 en US 1 Legal disclaimer Names and marks appearing on the products herein are either registered trademarks or trademarks of FLIR Systems and or its subsidiaries All other trademarks trade names or company names referenced herein are used for identification only and are the prop erty of their respective owners 1 6 Quality assurance The Quality Management System under which these products are developed and manu factured has been certified in accordance with the ISO 9001 standard FLIR Systems is committed to a policy of continuous development therefore we reserve the right to make changes and improvements on any of the products without prior notice 1 7 Patents One or several of the following patents and or design patents may
137. s termed a cavity radiator An isothermal cavity heated to a uniform temperature generates black body radiation the characteristics of which are determined solely by the temperature of the cavity Such cavity radiators are commonly used as sources of radiation in tempera ture reference standards in the laboratory for calibrating thermographic instruments such as a FLIR Systems camera for example If the temperature of blackbody radiation increases to more than 525 C 977 F the source begins to be visible so that it appears to the eye no longer black This is the incipi ent red heat temperature of the radiator which then becomes orange or yellow as the temperature increases further In fact the definition of the so called co or temperature of an object is the temperature to which a blackbody would have to be heated to have the same appearance Now consider three expressions that describe the radiation emitted from a blackbody 20 3 1 Planck s law Figure 20 3 Max Planck 1858 1947 Max Planck 1858 1947 was able to describe the spectral distribution of the radiation from a blackbody by means of the following formula rhe Wa EF 3 x 10 Watt m um where T559770 r 18834 22369 en US 106 20 Theory of thermography Blackbody spectral radiant emittance at wavelength A Planck s constant 6 6 x 10 34 Joule sec Boltzmann s constant 1 4 x 10 23 Joule K Absolute temperature K of a blackbo
138. s transparent Transmission is the amount of IR radiation passing through them A number be tween 0 and 1 An isotherm showing a linear spread of colors instead of covering the highlighted parts of the image Refers to the video mode of a IR camera as opposed to the normal thermographic mode When a camera is in video mode it captures ordinary video images while thermographic images are captured when the camera is in IR mode 1559770 r 18834 22369 en US 96 18 Thermographic measurement techniques 18 1 Introduction An infrared camera measures and images the emitted infrared radiation from an object The fact that radiation is a function of object surface temperature makes it possible for the camera to calculate and display this temperature However the radiation measured by the camera does not only depend on the tempera ture of the object but is also a function of the emissivity Radiation also originates from the surroundings and is reflected in the object The radiation from the object and the re flected radiation will also be influenced by the absorption of the atmosphere To measure temperature accurately it is therefore necessary to compensate for the ef fects of a number of different radiation sources This is done on line automatically by the camera The following object parameters must however be supplied for the camera e The emissivity of the object e The reflected apparent temperature e The distance
139. shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F 1559770 r 18834 22369 en US 42 11 Technical data Environmental data EMG EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission UNC 20 on three sides Housing material Magnesium and aluminum Shipping information Packaging type Cardboard box List of contents e Infrared camera with lens e FLIR Tools download card Focus adjustment tool e Printed documentation e User documentation CD ROM Packaging size 295 x 200 x 105 mm 11 6 x 7 9 x 4 1 in EAN 13 7332558004081 4743254000551 Estonia plant UPC 12 845188003500 Supplies amp accessories e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 43 11
140. sion of clouds and ground as measured by weather satellites Defence Documentation Center AD 617 417 9 Ohman Claes Emittansmatningar med AGEMA E Box Teknisk rapport AGEMA 1999 Emittance measurements using AGEMA E Box Technical report AGEMA 1999 10 Mattel S Tang Kwor E Emissivity measurements for Nextel Velvet coating 811 21 between 36 C AND 82 C 11 Lohrengel amp Todtenhaupt 1996 12 ITC Technical publication 32 13 ITC Technical publication 29 The emissivity values in the table below are recorded using a shortwave SW camera The values should be regarded as recommendations only and used with caution 22 2 Tables Table 22 1 T Total spectrum SW 2 5 um LW 8 14 um LLW 6 5 20 um 1 Material 2 Specification 3 Temperature in C 4 Spectrum 5 Emissivity 6 Reference 3M type 35 Vinyl electrical tape several colors 3M type 88 Black vinyl electri lt 105 cal tape 3M type 88 Black vinyl electri lt 105 cal tape 3M type Super 33 Black vinyl electri cal tape Aluminum anodized black dull Aluminum anodized black dull Aluminum anodized light 7 gray dull ojo O O1 NIO N O O O O co oO lt 80 100 70 70 0 0 0 O ojl c 4 O Eh 1559770 r 18834 22369 en US 116 22 Emissivity tables Table 22 1 T Total spectrum SW 2 5 um LW 8 14 um LLW 6 5 20 um 1 Material 2 Specification 3 Temperature
141. sm n whereby electro magnetic radiation is picked S atc drawings in which and invention will be pointed out or will occur to those The axis y in FIG 3 refers to the same axis as in FIG up and applied thereby to radiation responsive Fig 1 is a side view of a scanning prism skilled in the art from a reading of the following specifica 30 2 FIG 3 shows the necessary form 7 and 8 of the means from which values measured by the and illustrates the deflection of rays of electro tion in conjunction with the accompanying drawings image surfaces of said optical system in order that said 1 radiation responsive means can be studied magnetic radiation by the prism and the focus 55 sig drawings show the principle of the invention field of view shall be scanned without aberrations for 15 eis en jet of te present pet SE of the raps wt fed soning spore I y re et tee a A i gt 5 z F a sa h a 9 peice an Tmprored scanning mechanism of ach fae eel tetas ee aaa face for proper focussing at the fixed scanning aperture 35 every refractive index of said prism n two values of x It is a further object of th ie Hon h t the angle of rota _ FIG 2 is a diagram which shows the scanning deflec The larger of said two values of x corresponds to the taer object of the present inven tion for various refractive indices of the tion as a function of the rotating angle of the prism for image surface 7 that is generated by the rays in the
142. t 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F EMC EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission Encapsulation IP 40 IEC 60529 with base support mounted 1559770 r 18834 22369 en US 75 11 Technical data UNC 20 on three sides Shipping information Packaging type Cardboard box List of contents Infrared camera with lens FLIR Tools download card Printed documentation User documentation CD ROM C Supplies amp accessories e T951004ACC Ethernet cable CAT 6 2m 6 6 ft e T198349 Base support T198348 Cable kit Mains UK EU US e T911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198584 FLIR Tools 1198583 FLIR Tools license only e DSW 10000 FLIR IR Camera Player 1559770 r 18834 22369 en US 76 11 Technical data 11 22 FLIR A65 f 25 mm 7 5 Hz P N 62525 0101 Rev 22369 General description The FLI
143. t emery Brass 20 0 20 20 20 Brass sheet rolled sheet worked with emery Brass Brick Brick Brick SW SW 0 68 0 86 0 81 0 85 alumina common Dinas silica 1100 glazed rough Brick Dinas silica 1000 refractory Brick Dinas silica un 1000 0 80 glazed rough Brick Brick SW 0 68 0 75 firebrick fireclay 1000 Brick fireclay 1200 0 59 Brick N O fireclay 0 85 3 On Brick Brick 0p masonry W 0 94 N O masonry 0 94 plastered Brick Brick N O ol N 0 93 0 88 0 93 red common red rough Brick refractory 1000 0 46 corundum Brick refractory 1000 1300 0 38 magnesite Brick refractory 500 1000 T 0 8 0 9 strongly radiating Brick refractory weakly 500 1000 0 65 0 75 radiating Brick silica 95 SiO2 1230 Brick sillimanite 33 1500 SiO2 64 Al203 0 29 Brick SW 0 87 SW W waterproof Bronze phosphor bronze 70 0 08 Bronze phosphor bronze 70 O Bronze polished Bronze porous rough 50 150 0 55 Bronze powder 0 76 0 80 2 O Carbon candle soot 0 95 Carbon charcoal powder Carbon graphite powder 0 97 Carbon graphite filed 20 0 98 surface Carbon lampblack 20 400 0 95 0 97 O _ on On N N h OO oo N NI oo O 5 G ep h ss co tae 3 22 Emissivity tables Table 22 1 T Total spectrum SW
144. t is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 3V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative
145. te for the radiation reflected in the object If the emissivity is low and the object temperature relatively far from that of the reflected it will be important to set and compensate for the reflected apparent temperature correctly 18 4 Distance The distance is the distance between the object and the front lens of the camera This parameter is used to compensate for the following two facts e That radiation from the target is absorbed by the atmosphere between the object and the camera e That radiation from the atmosphere itself is detected by the camera 18 5 Relative humidity The camera can also compensate for the fact that the transmittance is also dependent on the relative humidity of the atmosphere To do this set the relative humidity to the cor rect value For short distances and normal humidity the relative humidity can normally be left at a default value of 50 18 6 Other parameters In addition some cameras and analysis programs from FLIR Systems allow you to com pensate for the following parameters e Atmospheric temperature i e the temperature of the atmosphere between the cam era and the target e External optics temperature i e the temperature of any external lenses or windows used in front of the camera 1559770 r 18834 22369 en US 100 18 Thermographic measurement techniques e External optics transmittance i e the transmission of any external lenses or windows used in front of the camera
146. that it is returned to FLIR Systems within the said one year period FLIR Systems has no other obligation or liability for defects than those set forth above No other warranty is expressed or implied FLIR Systems specifically disclaims the im plied warranties of merchantability and fitness for a particular purpose FLIR Systems shall not be liable for any direct indirect special incidental or consequen tial loss or damage whether based on contract tort or any other legal theory This warranty shall be governed by Swedish law Any dispute controversy or claim arising out of or in connection with this warranty shall be finally settled by arbitration in accordance with the Rules of the Arbitration Institute of the Stockholm Chamber of Commerce The place of arbitration shall be Stockholm The language to be used in the arbitral proceedings shall be English 1 2 Usage statistics FLIR Systems reserves the right to gather anonymous usage statistics to help maintain and improve the quality of our software and services 1 3 Changes to registry The registry entry HKEY_LOCAL_MACHINE SYSTEM CurrentControlSet Control Lsa LmCompatibilityLevel will be automatically changed to level 2 if the FLIR Camera Moni tor service detects a FLIR camera connected to the computer with a USB cable The modification will only be executed if the camera device implements a remote network service that supports network logons 1 4 U S Government Regulation
147. thernet communication GigE Vision ver 1 2 Client API GenlCam compliant 1559770 r 18834 22369 en US 35 11 Technical data Ethernet image streaming 8 bit monochrome 7 5 Hz e Signal linear DDE e Automatic Manual Flip H amp V 14 bit 160 x 128 pixels 7 5 Hz e Signal linear DDE e Temperature linear GigE Vision and GenlCam compatible Ethernet power Power over Ethernet PoE IEEE 802 3af class 0 Power Ethernet protocols TCP UDPICMP IGMP DHCP GigEVision Digital input output Digital input purpose General purpose Digital input 1x opto isolated 0 lt 2 1 2 12 VDC NOTE Maximum input 12 VDC If the input is above 12 VDC without a resistor in series there is a risk of damaging the input If the input is 24 VDC use a 1 2 kQ resistor in series In that case 1 3 24 VDC Digital output purpose General purpose Output to ext device program matically set Digital output 1x opto isolated 2 40 VDC max 185 mA Digital I O isolation voltage 500 VRMS Digital I O supply voltage 2 40 VDC max 200 mA Digital I O connector type 12 pole M12 connector shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 3V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isol
148. tion 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F EMC EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission Encapsulation IP 40 IEC 60529 with base support mounted 1559770 r 18834 22369 en US 51 11 Technical data Environmental data Shock 25 g IEC 60068 2 27 Vibration 2 g IEC 60068 2 6 Physical data Tripod mounting UNC 20 on three sides Shipping information Packaging type Cardboard box List of contents Infrared camera with lens FLIR Tools download card Focus adjustment tool Printed documentation User documentation CD ROM Supplies amp accessories e 1T951004ACC Ethernet cable CAT 6 2m 6 6 ft 1198349 Base support e 1198348 Cable kit Mains UK EU US e 1911112 PoE injector e 1198392 Table stand kit e 1911183 Gigabit PoE injector 16 W with multi plugs e 1T1127605ACC Cable M12 Pigtail e 1T127606ACC Cable M12 Sync e 1198342ACC Focus adjustment tool e 1198584 FLIR Tools 1198583 FLIR Tools license only e DSW
149. tion source 2 Ifthe reflection source is a spot source modify the source by obstructing it using a piece if cardboard a Ny Nb Figure 18 2 1 Reflection source 1559770 r 18834 22369 en US 98 18 Thermographic measurement techniques 3 Measure the radiation intensity apparent temperature from the reflecting source using the following settings e Emissivity 1 0 e Dobj O You can measure the radiation intensity using one of the following two methods AN Figure 18 3 1 Reflection source Using a thermocouple to measure reflected apparent temperature is not recommended for two impor tant reasons e A thermocouple does not measure radiation intensity e A thermocouple requires a very good thermal contact to the surface usually by gluing and covering the sensor by a thermal isolator 18 2 1 1 2 Method 2 Reflector method Follow this procedure 1 Crumble up a large piece of aluminum foil 2 Uncrumble the aluminum foil and attach it to a piece of cardboard of the same size 3 Put the piece of cardboard in front of the object you want to measure Make sure that the side with aluminum foil points to the camera Set the emissivity to 1 0 5 Measure the apparent temperature of the aluminum foil and write it down WIZZ Figure 18 4 Measuring the apparent temperature of the aluminum foil 1559770 r 18834 22369 en US 99 18 Thermographic measurement techniques 18 2
150. tor shared with Digital Syn chronization and External power Synchronization In purpose Frame sync In to control camera Synchronization In 1x non isolated Synchronization In type LVC Buffer 3 3V 0 lt 0 8 V 1 gt 2 0 V Synchronization Out purpose Frame sync Out to control another Ax5 camera Synchronization Out 1x non isolated Synchronization Out type LVC Buffer 3 3V 0 24 MA max 1 24 mA max Digital Synchronization connector type 12 pole M12 connector shared with Digital I O and External power Power system External power operation 12 24 VDC lt 3 5 W nominal lt 6 0 W absolute max External power connector type 12 pole M12 connector shared with Digital I O and Digital Synchronization Voltage Allowed range 10 30 VDC Environmental data Operating temperature range 15 C to 50 C 5 F to 122 F Storage temperature range 40 C to 70 C 40 F to 158 F Humidity operating and storage IEC 60068 2 30 24 h 95 relative humidity 25 C to 40 C 77 F to 104 F EMC EN 61000 6 2 Immunity EN 61000 6 3 Emission FCC 47 CFR Part 15 Class B Emission Encapsulation IP 40 IEC 60529 with base support mounted 1559770 r 18834 22369 en US 30 11 Technical data Environmental data Shock 25 g IEC 60068 2 27 Vibration 2 g IEC 60068 2 6 Physical data Tripod mounting UNC 20 on three sides Shipping information Packaging type
151. x C22 ee eed p esa 1559770 r 18834 22369 en US 88 14 Declaration of conformity FLIR July 2 2013 CE Declaration of Conformity This is to certify that the System listed below have been designed and manufactured to meet the requirements as applicable of the following EU Directives and corresponding harmonising standards The systems consequently meet the requirements for the CE mark Directives Directive 2004 108 EC Electromagnetic Compatibility Directive 2006 95 EC Low voltage Directive Power Supply Directive 2002 96 EC Waste electrical and electronic equipment WEEE As applicable Standards Emission EN 61000 6 3 Electromagnetic Compatibility Generic standards Emission Immunity EN 61000 6 2 Electromagnetic Compatibility Generic standards Immunity Safety Power Supply EN 60950 or other Safety of information technology equipment FLIR AXX series FLIR Systems AB Antennv gen 6 P O Box 7376 SE 187 15 T by Sweden Telephone 46 8 753 25 00 Telefax 46 8 753 23 64 Registered No 556256 6579 www flir se 1559770 r 18834 22369 en US 89 15 Cleaning the camera 15 1 Camera housing cables and other items 15 1 1 Liquids Use one of these liquids e Warm water A weak detergent solution 15 1 2 Equipment A soft cloth 15 1 3 Procedure Follow this procedure 1 Soak the cloth in the liquid 2 Twist the cloth to remove
152. y ITC EXP 1050 ITC Infrared application and system consultancy per day ITC CER 5105 ITC Level 1 Thermography Course additional student to on site class 1 pers ITC CER 5101 ITC Level 1 Thermography Course attendance 1 pers ITC CER 5109 ITC Level 1 Thermography Course group of 10 pers ITC CER 5205 ITC Level 2 Thermography Course additional student to on site class 1 pers ITC CER 5201 ITC Level 2 Thermography Course attendance 1 pers ITC CER 5209 ITC Level 2 Thermography Course group of 10 pers ITC EXP 2036 ITC R amp D basics for industry users group up to 6 pers 2 days ITC EXP 2025 ITC Short course Fever Screening additional stu dent to on site class 2 days ITC EXP 2021 ITC Short course Fever Screening attendance 1 pers 2 days ITC EXP 2029 ITC Short course Fever Screening inclusive 10 pers 2 days ITC EXP 1019 ITC Short course Introduction to thermography inclusive 10 pers 1 day ITC EXP 101 1 ITC Short course Introduction to thermography attendance 1 pers 1 day ITC SOW 0001 ITC Software course attendance 1 pers per day ITC SOW 0009 ITC Software course group up to 10 pers per day cO T559770 r 18834 22369 en US List of accessories and services T198392 Table stand kit 1198371 Transport case Ax5 ITC TOL 1003 Travel and lodging expenses instructor Center and South Africa ITC TOL 1001 Travel and lodging expenses instructor Europe Balcans Turkey C
153. y are fortunately small enough to be neglected In case they are not negli gible the measurement configuration is likely to be such that the risk for disturbance is obvious at least to a trained operator It is then his responsibility to modify the measure ment situation to avoid the disturbance e g by changing the viewing direction shielding off intense radiation sources etc Accepting the description above we can use the figure below to derive a formula for the calculation of the object temperature from the calibrated camera output Trefi Erei 1 Figure 21 1 A schematic representation of the general thermographic measurement situation 1 Sur roundings 2 Object 3 Atmosphere 4 Camera Assume that the received radiation power W from a blackbody source of temperature Tsource ON short distance generates a camera output signal Usource that is proportional to the power input power linear camera We can then write Equation 1 ce CH 12 or with simplified notation U CW SOUrCe SOUrCce where C is aconstant Should the source be a graybody with emittance e the received radiation would conse quently be Wsource We are now ready to write the three collected radiation power terms 1 Emission from the object tWopj where g is the emittance of the object and T is the transmittance of the atmosphere The object temperature is Tot 1559770 r 18834 22369 en US 112 21 The measurement formula
154. y of radiation having a maximum deviation from the di rection of the optical axis In FIG 1 designates the angle of rotation of the prism and x y and z are the sei a Swedish Company do hereby de through the prism can pass and a radiation 45 It is a further object of the invention to provide means axes of a coordinate system x being along the optical axis clare the invention for which we pray that a responsive element behind said aperture for for optical scanning of said field of view many times per and z parallel to the axis of rotation 2 A point on the 5 eget pay be ered nm meted picking up such radiation second image surface 5 is defined by these coordinates as in is to be performed to par i A further specific object is to provide means for more dicated in the case of a point x y in FIG 1 the z co ticularly described in and by the following ieee pled e etu ss accurate and T ficient PAER of a field of view the 25 ordinate of which is 0 ince it is in the x y plane Statement description given pe way of l T 50 dead or nonutilized scanning time being reduced to a The deflection of rays is shown in FIG 2 in the y di This invention relates to scanning mechan and eh ae A i th y at example T y small value rection as a function of the turning angle e and index of 10 isms and in particular to such mechanisms tic d nonce 10 Mckee ae Other objects and various further features of novelty refraction of said pri
155. yprus ITC TOL 1005 Travel and lodging expenses instructor other ITC TOL 1002 Travel and lodging expenses instructor Russia GUS Middle East North Africa ITC TOL 1004 Travel and lodging expenses instructor various FLIR Systems reserves the right to discontinue models parts or accessories and other items or to change specifications at any time without prior notice 1559770 r 18834 22369 en US 10 Mechanical installation The camera unit has been designed to allow it to be mounted in any position It has a mounting interface on the bottom with four metric M3 holes Do not use screws that are too long Using screws that are too long will damage the camera The maxi mum depth of the M3 holes is 4 mm 0 15 in Max depth 4 mm 0 15 in The camera generates a considerable amount of heat during operation This is normal In order to transfer this heat it is recommended that the camera is mounted on a base support or a heat sink made of a material that has a high capacity to transfer heat e g aluminum FLIR Systems provides P N T198349 base support for this purpose but other base supports or heat sinks can be used The use of the base support is also strongly recommended in order to minimize temperature drift of the infrared detector in the camera If the camera unit is to be permanently mounted on the application site certain steps have to be taken The camera unit might need to be enclosed in a protective
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