HD30.1 - Delta Ohm S.r.l.
Contents
1. Start measurement 6E 01 4E 01 REF Refe rence 3E 01 2E 01 PARA e 0E 00 4 AVG 1 Select Integration time Fig 3 23 Transmission measurement screen Follow the steps indicated hereafter to acquire the reference spectrum 3 4 1 Set average measurement as Set the number of samples you wish to be averaged to perform measurements by us ing the ave1 n key and the arrows that appear when the key is pressed 9k spc 00001550 t 0 ms the maximum number of averaged samples is set to 20 3 4 2 Integration Time calculation The integration time selection is automatically made by default through the dedicated button use the arrows to perform the desired selection OE El EEE RAN 7 MET eg A ok spc 00001550 T int 1 2 4 8 16 32 64 128 256 512 1024 2048 4096 ms The instrument will show in the upper end of the spectrum if the spectrum reference measurement just performed is underexposed or overexposed fig 3 24 OVEREXPOSED OK UNDEREXPOSED SE 253 1 3815 42E 02 2 L2 3005 ME ear OMETRY awim PAR Jjmol m sUVA 6 R2E 01 spc 00000017 02 mw m PAR Jjumol m s UVA 3 79E4p1 spc 00000015 01 mwim PAR aw im UVB 4 91E 0u t 64 ms 02 mw m TR m sovraes sto q pat nm E ok k 7 SINGLE SINGLE SINGLE 1024 ms AUTO 64 ms 240 270 300 330 360 390 AVG 1 y 240 270 300 330 360 390 AVG 1 o 270 300 330 360 390 AVG 1 Fig2. Y RADIOMETRY En 1 94E 03 mw mT3 PAR Etor 4 25E 03 mwim o A EHZ nm El o im umol m s UVA 3 62E 03 ee 00000015 UVB 2 50E 01 F UVC 6 06E 02 94 m5 mW m nm opecirugn gt 2E 02 2E 02 SINGLE 1E 02 8E 01 AUTO 4E 01 0E 00 210 240 270 300 330 360 390 AVG 1 EXT Ay EXIT ttt Cursor Handling Figure 3 20 Example of screen in Radiometry measuring mode after measurement gt 28 Irradiance integral values are shown on top of the screen 9 RADIOMETRY c mm Fina 1 94E 03 mW m PAR lumal m s UVA 3 62bE 03 Etor 14 25E 03 mWwW m UVB 2 50E 01 UVE 6 06E 02 Irradiance between the two cursors L1 L2 Total Irradiance PAR only with HD30 S1 probe UV Irradiance only with HD30 S2 probe UVB Irradiance only with HD30 S2 probe UVC Irradiance only with HD30 S2 probe The name of the saved file and the integration time used for measuring are displayed on top right of the screen fig 3 21 SPV 141112150012 T 64ms SINGLE AUTO 360 390 AVG 1 Nu a EXIT Fig 3 21 File name and integration time data are shown on top right of the screen Press EXT bottom right to exit and display the other measurements concerning the same acquisition continuous or logging mode the program will return to the main screen Press li to select the directory with the desired measurements FILE upload the file and scroll the files related to the same log or continuous mea
3. R13 562 R2 73 2 R6 59 6 R10 387 R14 947 R3 90 8 R7 74 1 R11 38 4 R4 51 6 R8 28 9 R12 22 8 CRiral 60 3 Figure 1 3 The probe HD30 S2 analyzes the ultraviolet spectral region 220nm 400nm and calculates the following radiometric quantities UVA Irradiance W m UVB Irradiance W m and UVC Irradiance W m figure 1 4 SPECTRUM LI EEREN im El 22002 mw m nm En 11 53E 04 mW m PAR lumol m s UVA 3 22E 04 spc 00000940 Etor 5 29E 04 mW m UVB 1 53E 04 UVC 5 21E 03 mW mnm 5E 03 4E 03 3E 03 2E 03 Y 2E 03 gE 02 Y DE 00 I B 210 240 270 30 330 360 390 i SEL Y NEXT Ay EXIT Figure 1 4 Both sensors have a view of the input equipped with a new generation diffuser which allows optimizing the response according to the cosine law and not introduc ing any spectral deformation Data concerning the calibration of the probe are stored in non volatile memory and are read by the indicator 2 INSTRUMENT COMMISSIONING The instrument is delivered with disconnected battery pack inside the battery com partment figure 2 1 Figure 2 1 Disconnected battery inside battery compartment To connect the battery pack proceed as follows 1 Remove the cover of the battery compartment Figure 2 1 2 Remove the battery pack from the housing Figure 2 2 LILLT EZ HD30 1 LIGHT SPECTRORADIOMETER BIN ere ce N 14029464 Made in Italy Figure 2 2 Battery
4. t 0ms by a EXIT the maximum number of averaged samples is set to 20 3 1 4 Press the b key to perform the measurement Once the measurement is completed the spectrum will be displayed wavelengths will be shown in the X axis as nanometers 220nm 400nm for the HD30 S2 probe 380nm 780nm for the HD30 S1 probe and the measured spectral irradiances in the Y axis the last spectrum is displayed in continuous and logging operating modes figure 3 7 Ei SPECTRUM GU CLERC mW m nm ok spc 00001394 ee t 756 ms 4E 00 3E 00 2E 00 SINGLE 2E 00 8E 01 AUTO EE 420 480 540 600 660 720 780 AVG 1 e gt NEXT ay SO Scroll Enter Export DUESOPS comment Figure 3 7 Spectrum display at the end of measurement The name of the saved file and the integration time used for measuring are Shown on top right of the screen fig 3 8 SPV_ 140921154215 T 256ms El 7 20 00 mW m nm n We BEN 584 9 MM L2 779 6 E2 ok spc 140921154215 E t 256 ms SINGLE AUTO 00 660 720 780 AVG 1 XT dy A exit Figure 3 8 Data concerning file and integration time are shown on top right of the screen Exit the screen by pressing the J ExT y bottom right to display the other meas urements concerning the same acquisition continuous or logging mode the program will return to the main screen Press the J key select the directory of the measurements of interest upload the file by SUED arrow keys
5. 05 A Model HD30 51 VIS 380 780 nm Serial number Part number Calibration file Calibration date Fig 8 1 Access to the window displaying info on connected probe calibration 63 10 TECHNICAL FEATURES MODEL HD30 1 HD30 S1 HD30 1 HD30 S2 A A EA Wavelength reproduci 0 1 nm bility Spectral Irradiance Irradiance Illuminance lux PAR Proximal Color Temperature CIE 1931 x y CIE 1976 u v Trichro matric Coordinates CRI Spectral Transmittance Single single acquisition with data storage Continuous continuous acquisition with data storage Measurement typology Monitor continuous acquisition without data storage Logging acquisition at set time intervals 3min to 60min with data storage Spectral Irradiance UV Irradi ance UVB Irradiance UVC Irradi ance Spectral Transmittance Measuring Mode Input Optics Dimen sions o 11 8 mm quartz diffuser Opaline quartz diffuser 3mm Opaline quartz diffuser 2mm Calibration Halogen Lamp Deuterium Lamp Illuminance 5 70 000 lux Spectral Irradiance 5 Illuminance 4 PAR 4 CCT 45K X y 0 002 CRI 1 5 Internal 150 MB micro SD card USB device option 3 V 6600 mA h Li po rechargeable battery or external power supply POWER SUPP SWD06 6Vdc 1 5A Exported Data Format MS with the more well known data management analysis soft HD30 1 135x 156 x H 42 mm Dimensions Weight 440 q Probe 75x150x H74 cable lengt
6. 3 24 The correct exposure is indicated on top of the graph 3 4 2 2 Automatic selection default The instrument searches for the optimal integration time when the reference meas urement is started The search can take up to 30 seconds At the end of the search the instrument performs the measurement with the optimal integration time The integration time used for the calculation of the reference spectrum will be kept for all transmission of the measurements 3 4 3 Press REF to acquire the reference spectrum The spectrum is displayed on the screen fig 3 25 SE TRANSMISSION O mpg mm F 779 6 EE FE 32E 00 mW m nm ok t 32 ms 5SE 01 4E 01 3E 01 SEFUL SINGLE ZE 01 AUTO 8E 00 DE 00 420 480 540 600 660 720 780 AVG 1 see gt e ger Fig 3 25 Reference spectrum acquisition At this stage the P button is enabled and the transmission measurement can be carried out 3 4 4 By pressing the Start button enabled only if the reference spectrum has been performed you launch the transmission measurement displayed on the screen Fig 3 26 EM 646 7 PA 1 2 7E 01 FA TRANSMISSION 7 E ERED mW i m nm SINGLE AUTO AVG 1 g exit Fig 3 26 Spectral transmission measurement The name of the saved file is shown on top right of the screen in the form of trv yymmddHHMMSS txt for HD30 S1 probe and tru yymmddHHMMSS txt for HD30 S2 probe along with the integration time used f
7. Measurements are stopped by pressing Ld Note Measurements are not saved 3 2 1 4 LOGGING The instrument carries out a measurement on the expiry of a set interval The logging interval can be selected among the following time intervals 3 5 10 15 30 60 min Logging is started by pressing and stopped by pressing Bg All measurements are saved in a single automatically created directory named LOG yymmddHHMMSS logging start date and time files saved in the directory will be named spv yymmddHHMMSS txt While measuring the page header blinks red and shows the remaining time before next log E 82 3 1 70E 01 Tf ond f Next log 02 52 o H o un as F 779 6 3 1 2 Integration time calculation selection Integration time selection is automatic by default Pressing the AUTO button displays the two arrows for the manual setting of the integration time CM El EEE w m5 ee Mibi ok spc 00001550 int arrow keys The available integration times are 1 2 4 8 16 32 64 128 256 512 1024 2048 4096 ms On top of the graph the instrument will show if the measurement just performed is underexposed or overexposed figure 3 12 OVEREXPOSED OK UNDEREXPOSED 0 446 0 4 0 247 0 5 3024 0 401 0 3 uv 0 237 0 5 T 3521 CRira 90 2 CRira 59 6 TT Iul an lui o SEL gt NEXT Ay SEL gt NEXT dy lt SEL gt NEXT dy Figure 3 12 The correct exposure is displayed on top of
8. Micro SD card Additional copy of Software for HD30 1 Tripod to be fastened to the instrument height 280mm
9. data on the memory card will be overwritten ASDCARD 4 2 3 Press if you want to transfer the content of the USB device to the DAUSB uSDCARD All data are transferred to the DATA directory the existing data will be overwritten 4 3 Press n to select the USB device as default storage memory If the USB de USB vice is not present the message USB NOT PRESENT will appear If the device is prop erly installed the screen will appear as in Fig 4 8 8 STORAGE Free 146MB DIRECTORY Fig 4 8 Storage screen after selection of the USB device as working memory A green check mark will appear on the button n 4 3 1 Working directory selection Once you have selected the USB device data are saved in the DATA directory the working directory can be changed by pressing NS Pressing the button opens DIRECTORY the fig 4 9 screen DIRECTORY 5 E data 1 FI bitmap A lab 01 3 LOG 00000041 gt prova gt test Fig 4 9 Screen for the creation selection of the work directory on a USB device Available directories appear in the center of the screen a new directory can be cre ated by pressing To new Press Yo to save measurements in a selected directory the selected work di rectory will appear in the blue top bar to erase the USB device memory a dialog box will appear Fig 4 10 Con questa operazione si cancella la memo
10. g h j k Z x c v b n m Enter shift Char Space Fig 4 16 Comment box 4 6 Press fey to display fig 4 17 the spectral irradiance data in steps of 1 nm PHOTO COLOR A IUE L2 779 6 L2 04E 01 spc 141014143952 EwuIx 188 CIE s 0 444 0 423 CIE 0 247 0 530 CCT K 3040 CRina 61 1 SPECTRUM LI EEN am El 2505 07 MM L2 EEC FA 2 04 E 01 tambda nm 380 1 1 49E 02 380 6 5 75E 02 381 2 9 57E 02 381 7 9 48E 04 382 3 9 97E 04 382 8 1 10E 01 383 3 9 38E 04 383 9 8 73E 04 m 384 4 4 21E 02 sec gt NEXT dy g exit Fig 4 17 Spectral irradiance data in text format 44 Press __ to return to the previous page Press EXIT return to the file handling page fig 4 11 4 7 Press exit inthe file handling window to return to the start up screen fig 4 18 amp fI bitmap spv 141112162035 txt MB spv_141114172730 txt trv_141112162231 txt trv_141114172647 txt SPECTRUM Fig 4 18 Returning to the main menu from stored measurements management menu 5 SOFTWARE UPDATE The software update can only be performed if the instrument is powered by the power supply Before upgrading save the data into an external memory In order to update the software it is necessary to connect the instrument to an Ethernet network Once you the instrument has been connected from the main menu press the keys following t
11. mode using the arrow keys Selection arrow keys disappear when pressing any other key 3 3 1 1 SINGLE Single measurement Measurement is started by pressing 5 Once the measurement is completed results are saved in a file with an automatically as signed file name the name of the saved file is like spv yymmddHHMMSS txt for measurements performed with the HD30 S1 probe and spu yymmddHHMMSS txt for measurements performed with the HD30 S2 probe 3 3 1 2 CONTINUE Measurements are carried out in continuous mode Measurements are started by pressing the 9 key once the measurement is completed the instrument starts a new measurement Measurements are stopped by pressing BN AII measurements are saved in the work directory named spv yymmddHHMMSS txt for measurements performed with the HD30 S2 probe 3 3 1 3 MONITOR Measurements are carried out in continuous mode and are started by pressing once the measurement is completed the instrument starts a new meas urement Measurements are stopped by pressing e Note measurements are not saved 3 3 1 4 LOGGING The instrument performs a measurement on expiry of a set time interval The logging interval can be selected among the following time intervals 3 5 10 15 30 60 min Logging is enabled by pressing gt id stopped with Bl seasure ments are saved in a single directory automatically created under the name of LOG yymmddHHMMSS logging start date and time the
12. on the right of the screen scroll the files of interest con cerning the performed acquisition for more details see the chapter Handling and storing measurements The measured spectrum is displayed with two cursors L1 453 0 JN 2 1BE O01p i 2 735 MEE TE 1 LEE 00 stitit You can select which cursor should be moved using the SEL key select 1 12 if you want to move the two cursors at the same time Cursors are moved by using the arrow keys to move the cursor to the left to move the cursor to the right By pressing the Xy ay the box fig 3 9 for adding a comment to the measure ment shown on the screen will be display m SPECTRUM Doc py El ELIO m Eomment back clear exit 2 5 6 Fig 3 9 Comment Box Press EXIT to return to the main menu Fig 3 1 3 2 PHOTO COLOR HD30 S1 Probe 9 PHOTO COLOR This operating mode is active only with the probe HD30 S1 Besides the emission spectrum the main photo colorimetric quantities can be displayed such as illuminance Lux trichromatric coordinates CIE 1931 x y and CIE 1976 u v the Correlated Color Temperature CCT K and the Color Rendering Index CRI the gen eral index and the index of each of the 14 reference samples By pressing the Photo color button you access the screen in figure 3 10 PHOTO COLOR 132 7 en El E MEE Start measuring CRI Operating S
13. the graph In Monitor Continuous and Logging operating modes measurements will be all carried out with the same integration time set before starting measuring 3 2 2 2 Automatic Selection default In mode at measurement start up the instrument searches for the opti mal integration time The search may take up to 30 seconds Once the search process is completed the instrument carries out the measurement with the opti mal integration time With or LOG 3m operating modes at measurement start up the instrument searches for the optimal integration time Measurements are started after determination of the integration time At each measurement if the previous measurement is underexposed or overexposed the new integration time will be changed if the measurement is optimal the new integration time will not be changed 3 2 3 Averaged measurements YS Set the number of the desired samples to be averaged by pressing the AVG 1 button and the arrow keys that appear ok spc 00001550 t 0ms 3 2 4 Pressthe P key to perform the measurement Once the measurement is completed the spectrum will be displayed wave lengths will be shown in the X axis as nanometers and the measured spectral ir radiances in the Y axis the last spectrum is displayed in continuous and logging operating modes fig 3 13 Outline PHOTO COLOR TE ETE oro mw m nm Spectrum i aaa x SPC_00001380 gt xy 0 446 0 423 edi uv 0
14. uSDcard NOT PRESENT will appear If the memory card is properly in stalled the screen will appear as in Fig 4 5 STORAGE Free 149MB DIRECTORY ASDCARD F q SD CARD DA MEMORY Fig 4 5 Storage screen after selection of the uSDcard as working memory en ee A green check mark will appear on the button O m 4 2 1 Working directory selection Once you have selected the uSDCard data are saved in the DATA directory the work ing directory can be changed by pressing NS essing the button opens the fig DIRECTORY 4 6 screen DIRECTORY flab 02 A G data E a lab 02 Fig 4 6 Screen for working directory creation selection on uSDCARD Created directories appear in the centre of the screen a new directory can be created by pressing To new EM Press Yo to set measurements storage in a selected directory the selected working directory will be displayed in the blue top bar ERASE To erase the uSDCARD memory press the E button a window will be displayed Fig 4 7 BE Con questa operazione si cancella la memoria selezionata Vuoi proseguire Fig 4 7 Memory erasure dialog box Press yes to erase the memory Note CONFIRMATION OF MEMORY DELA TION WILL MAKE DATA RECOVERY IMPOSSIBLE ASDCARD 4 2 2 Press d if you want to transfer the content of the HD30 1 internal mem ory to the uSDCARD All data are transferred to the DATA directory existing
15. 0 S2 probe 3 1 1 3 MONITOR Measurements performed are continuous and are started by pressing 5 once the measurement is completed the instrument starts a new measurement Meas urements are stopped by pressing ES Note Measurements are not saved 3 1 1 4 LOGGING The instrument performs a measurement on expiry of a set time interval The log ging interval can be selected among the following time intervals 3 5 10 15 30 60 min Logging is enabled by pressing and stopped with B8 All measurements are saved in a single directory automatically created under the name of LOG yymmddHHMMSS logging start date and time files saved in the directory will be named spv yymmddHHMMSS txt for measurements performed with the HD30 S1 and spu yymmddHHMMSS txt for measurements performed with the HD30 S2 While measuring the page header blinks red and shows the remaining time before next log Next log 02 52 LI 532 n El E m WIN 779 6 E2 3 1 2 Integration time calculation Integration time selection is automatic by de fault Pressing the AUTO tton the two arrows for the manual setting of the in tegration time are displayed 38M 2 SBE 01 ag 1 18E 00 T int mv i mn mi arrow keys The available integration times are 1 2 4 8 16 32 64 128 ES 256 512 1024 2048 4096 ms At the top of the graph the instrument will show if the performed measurement is underexposed or overexposed figure 3 6 OVE
16. 249 0 530 T 2997 K D CRins 60 3 Color space x y CIE197 AUTO AVG 1 EXIT ttt Cursors handling Figure 3 13 Example of screen in Photo color measuring mode after measurement completion OF The acquired spectrum is displayed on the top left of the screen x y coordinates are shown on bottom left inside the colour space CIE 1932 x y the general colour rendering index Ra and the 14 indexes for each sample are shown on the right bot tom The main photometric info is summarized on top right Ew 306 Ux xy 0 446 0 423 Illuminance uv 0 249 0 530 Coordinates x y CIE 1931 E Eid j Coordinates u v CIE 1976 CRina 60 3 Correlated Color Temperature K CRI Ra The name of the saved file and the integration time used for measuring are shown on top right of the screen figure 3 14 SPV 1409211542150 T 256ms LI MEGA El 6 03 0 RIEN L2 5705 01 idi 306 spc_00001380 t 256 ms x 0 446 0 423 0 249 0 530 2997 K Ra 60 3 SINGLE AUTO AVG 1 EXIT Fig 3 14 file name and integration time data are shown on top right of the screen Press EXIT bottom right to display the other measurements related to the same acquisition continuous or logging mode the program will return to the main screen Press J and select the directory related to the measurements of interest upload the file and scroll the files of the same log or continuous measurement by using th
17. G 1 Fig 3 19 Correct exposure is displayed on top of the graph In Monitor Continuous and Logging operating modes measurements will be all carried out with the same integration time set before starting measuring 3 3 2 2 Automatic Selection default In mode at measurement start up the instrument searches for the op timal integration time The search may take up to 30 seconds Once the search process is completed the instrument carries out the measurement with the opti mal integration time In CONT O operating modes at measurement start up the instrument searches for the optimal integration time Measurements are started after determination of the integration time At each measurement if the previous measurement is underexposed or overexposed the new integration time will be changed if the measurement is optimal the new integration time will not be changed 3 3 3 Averaged measurements 61 Set the desired number of averaged samples by pressing the ve 1 button and the arrow keys that appear when pressing E2 Rm ok spc 00001550 t 0ms The maximum number of averaged samples is set to 20 3 3 4 Press to perform the measurement Once the measurement is completed the spectrum will be displayed wave lengths will be shown in the X axis as nanometers and the measured spectral irradiances in the Y axis the last spectrum is displayed in continuous and log ging operating modes fig 3 20 Outline
18. GE Free 14M Free 1 8G Fig 4 2 Storage window Internal memory selected for measurements storage Free 150MB Y e P MEMORY Each time the instrument is switched on the selected storage device is the internal memory The amount of available free memory is shown at the centre top of the icon 150MB Free a green check mark on top left indicates that the device is currently selected V a for data storage 4 1 1 Work directory selection Once you have selected the internal memory data are saved in the DATA directory the work directory can be changed by pressing NS Pressing the button opens DIRECTORY the figure 4 3 screen W CARTELLA S fa data gm lab 01 H FI test Fig 4 3 Screen for work directory creation selection in the internal memory Available directories appear in the centre of the screen a new directory can be cre ated by pressing T new Press Yo to store measurements in a selected directory the selected work Press the button to erase the internal memory a window will be dis Con questa operazione si cancella la memoria selezionata Vuoi proseguire Fig 4 4 Memory delation dialog box Press Yes to erase the memory Note CONFIRMATION OF MEMORY DELE TION WILL MAKE DATA RECOVERY IMPOSSIBLE 4 2 Press D to select uSDcard as default memory If the card is not present the message
19. INGLE mode AUTO Select integration AVG 1 time Figure 3 10 Photo color measuring mode startup screen 3 2 1 Select the operating mode of the instrument among the four available modes SINGLE CONTINUE MONITOR LOGGING By pressing the two scroll arrow cursors are displayed pressing makes the operating mode change as shown on figure 3 11 D Pees 2 38E 01 T M3 2 38E 01 e 7 ME 11 00 Modi nm EI Bere mW mnm ok spc 00001550 smar El nm E 155700 be m nm ok spc 00001550 t 64 ms mW i m nm 38 2 38E 01 F4 1 18E 00 Figure 3 11 Select the operating mode using the arrow keys Selection arrow keys disappear when pressing any other key 3 2 1 1 SINGLE Single measurement Measurement is started by pressing the 2 key Once the measurement is completed the results are saved in a file with an automati cally assigned name the name of the saved file is like spv yymmddHHMMSS txt 3 2 1 2 CONTINUE Measurements are performed in continuous Measurements are started by pressing the button once the measurement is completed the instru ment starts a new measurement Measurements are stopped by pressing E n All measurements are stored in a work directory named spv yymmddHHMMSS txt 3 2 1 3 MONITOR Measurements are performed continuously and are started by pressing p once the measurement is completed the instrument starts a new measure ment
20. ITALY wenw deltaahim com infogpdeltaohm com Figure 7 3 Example of a report of the measures generated automatically Space with the word logo is customizable by the user 8 STORAGE Storage conditions for the instrument e Temperature 25 70C e Humidity 10 90 RH non condensing e Avoid storage in areas with High humidity levels Strong electromagnetic fields The instrument is exposed to direct solar radiation The instrument is exposed to a high temperature source Presence of strong vibrations Presence of vapour salt and or corrosive gases The instrument enclosure is made of ABS plastic do not use solvents not compatible for cleaning purposes 9 PROBE CALIBRATION Each probe is individually calibrated in DeltaOhm laboratories The HD30 S1 probe covers the visible spectrum 380nm 780nm j it is calibrated by using a reference standard halogen lamp of which the spectral irradiance at the differ ent wavelengths is Known The HD30 S2 probe covers the ultra violet spectrum 220nm 400nm it is calibrated by using a reference standard deuterium lamp of which the spectral irradiance at the different wavelengths is known The calibration file is stored into the probe and is read by the software each time the probe is connected to the HD30 1 By pressing the Probe set up button the data re lated to the calibration file of the installed probe is displayed in the main window Fig 8 1 I HD30 1 vis Connected 15 24
21. REV 1 2 01 12 2014 Spectroradiometer Data Logger HD30 1 ENGLISH The quality level of our instruments is the result of the constant development of the product This may produce some differences between the information written in this manual and the instrument you have purchased We cannot completely exclude the possibility of errors in the manual for which we apologize Data images and descriptions included in this manual cannot be legally asserted We reserve the right to make changes and corrections with no prior notice TABLE OF CONTENTS E INTRODUCTION ads 4 2 INSTRUMENT COMMISSIONING c occccooccccccoccnrrcncnnr rr rra 7 3 MEASUREMENT GUIDE oococcccoccocccncncncnrrrnnnnnr rr ron rra 10 4 HANDLING AND STORING MEASUREMENTS sssssssssasnnnnnnnnnnnnnnnnnnnnnnnnnnnnn 35 5 SOFTWARE UPDATE ii A A E E RAaaNa 46 6 INSTRUMENT SETUP iii A a 48 7 EXPORTING MEASUREMENTS ooccccccccccocccnnnnccrrcncnnr rn rra u annua 58 A STORAGE 62 9 PROBE CALIBRATION 2 a N una susua Rua uu 63 LU TECHNICAL FEATURES curia 64 11 ORDERING CODES isa 67 Spectroradiometer_Data Logger HD30 1 1 INTRODUCTION Delta CPV Fig 1 1 Data logger indicator HD30 1 Fig 1 2 Measuring probe HD30 S1 Measuring probe HD30 S2 The data logger indicator running Linux operating system handles data processing and management It has a large color touchscreen display ensuring easy execu tion display and log
22. REXPOSED OK Ay UP me 00001622 8 ms mW m nm 224 778 2 i L2 E2 L1 L2 SINGLE SINGLE 64 ms AUTO 0 660 720 780 AVG 1 00 660 720 780 AVG 1 UNDEREXPOSED LI MEE e ITA L2 i E2 2 sottoesposto shc 00001628 WM 1 ms mW m nm SINGLE lms 10 660 720 780 AVG 1 Figure 3 6 correct exposure time is displayed on top of graph In Monitor Continuous and Logging operating modes measurements will be all performed with the same integration time set before starting measurements 3 1 2 2 Automatic Selection default In mode at the start of the measurement the instrument searches for the best integration time The search may take up to 30 seconds Once the search process is completed the instrument carries out the measurement by using the optimal integration time If the instrument is in and L0G3m operating modes it will start searching for the optimal integration Measurements are started after deter mining the integration time At each measurement if the previous measurement is underexposed the new integration time will be increased if it is overexposed the integration time will be reduced if the measurement is optimal the new inte gration time will not be changed 3 1 3 Averaged Measurements YS Set the desired number of samples to be averaged by means of the 61 key and of the arrow keys that appear when the key is pressed ok spc 00001550
23. ctivating acoustic signals When the program starts the Buzzer is ac BUZZERON tive and each press of a button is indicated by a sound in order to disable this func tion it is necessary to press the BUZZER key so to change its status Figure 6 2 it SETUP P Q ETHERNET LANGUAGE ETHERNET LANGUAGE DATE TIME Fig 6 2 Activating deactivating acoustic signals through Buzzer key 6 2 a Power saving configuration Press the POWER SAVING button to ac POWER SAVING cess the window for the management of the brightness level of the screen and the Stand by time Figure 6 3 tt SETUP ala POWER SAVING ETHERNET LANGUAGE ENABLED Fig 6 3 Power Saving Management Window 5 TAND BY By using the arrows on the button it is possible to set the time interval after which the screen is turned off if no key is pressed In order to activate the screen again it is necessary to press the white button on the HD30 1 Figure 6 4 After 30 seconds of inactivity the screen reduces brightness to 10 as soon as a key is pressed on the screen or the white button on the instrument the monitor bright ness returns to the set value Monitor Reactivation Button Fig 6 4 Monitor reactivation button BACKLIGHT The monitor brightness level is set using the arrows on the button mize energy consumption the monitor brightness is automatically reduced if no key is pressed withi
24. d with a green check mark You can select another memory device by pressing one of the available selection Y f buttons A comment can be added into the stored files This is shown in the comment box Select the desired directory to display files the select the file to be displayed Press to return to the selected storage device 4 5 1 Select the desired file The selected file will appear on BLUE background fig 4 11 at this stage the file can be displayed using the buttons on the right of the screen fig 4 12 FILE amp f bitmap spv_141112162035 txt spv_141114172730 txt trv_141112162231 txt i trv 141114172647 txt Comment Le vaa 1 Fig 4 12 Data contained into selected file can be displayed by using the highlighted keys Press Y to display the selected measurement Fig 4 13 f PHOTO COLOR L2 75 1577555 mnm EwuIx 185 spc 140921165803 CIExy 0 445 0 427 CIEu 0 246 0 531 CCT K 3043 CRina 60 0 Fig 4 13 Screen showing SPC 140921165803 file loaded from internal memory with photo color analysis The arrows highlighted in figure 4 14 allow next measurement to be displayed directly with no need to go back to the FILE menu fig 4 11 234 3 97E 00 per FE 1 57E 03 spc 140921165803 Fig 4 14 Arrow keys can be used to display files stored in memory The po sition of the wavelength the two c
25. e arrow keys on the right of the screen for more details see chapter Handling and storing measurements The measured spectrum is displayed together with the two cursors Ll The position of the wavelength the two cursors are pointing to is shown on the top bar along with the value of the measured spectral irradiance and of the cursors wave length PBHOTO COLOR LI MHEN ym El PRA mW m nm WEM 7 9 6 E2 At first Li cursor is positioned on the maximum spectral irradiance value while if you want to move the two cursors at the same time Cursors are moved using the arrow keys and tothe left or to the right Press EXIT to return to the main menu Fig 3 1 Press NEXT bottom bar to display one graph at a time following the sequence below Figure 3 15 spc 00001380 t 775 6 T 3 ok Evu 206 t 256 ms xy 0 446 0 423 uv 0 249 0 530 T 2997 K CRlas 60 3 SINGLE ill ll E E M AVG 1 mW m nm ok 6E 00 5E 00 4E 00 3E 00 2E 00 1E 00 0E 00 NEAT ENT 0 0 1 0 2 0 3 04 05 06 07 i NEXT R1 532 R5 511 R9 723 R13 562 R2 73 2 R6 59 66 R10 387 R14 94 7 R3 90 8 R7 741 R11 384 R4 516 R8 28 9 R12 22 8 CRinal 60 3 Figure 3 15 Different displays of the measurements acquired in photo color mode NEXT Press to move from one display to next one D e By pressing X the box fig 3 16 for adding a comment to th
26. e measurement shown on the screen will be displayed W SPECTRUM T HH z ER EDI mw m nm komment back clear exit 3 r f Figure 3 16 comment box 3 3 RADIOMETRY HD30 S1 and HD30 S2 y 9 RADIOMETRY L RADIOMETRY Spectral irradiance and main radiometric quantities can be displayed in this mode Total irradiance W m in the entire spectral range covered by the currently used probe Irradiance W m in the interval selected by L1 and PAR uMol fot s m with the HD30 S1 probe Irradiance W m in UV UVB UVC bands with HD30 S2 probe fig 3 17 ursors XN o0 O DOE 00 AER L 0 0 ME IF 0 00E 00 jum Wd En 0 00E 00 mW m PAR 0 00E 00 umol m s UWA 0 00E 00 Eror 0 00E 00 mim UWB 0 00E 00 t 128 ms UVC 0 00E 00 RADIOMETRY mW m nm T lt Start measurement wane Operating dais SINGLE lt mode s AUTO lt lt Select l Integration time 0E 00 710 240 270 300 330 360 390 AVG 1 9 SEL Y NEXT dy Fig3 17 Start up screen in radiometry mode 3 3 1 Select the operating mode of the instrument among the four available modes SINGLE CONTINUE MONITOR LOGGING Press display two scroll cur sors press change the operating mode as shown on figure 3 18 D m El 2 38E 01 AAA El 2 38E 01 El i F ok soc 00001550 mW m nm x 2 3HE O1 US nm W im nrm wife 700 be ok spc_00001550 t 64 ms Fig 3 18 Select the operating
27. egration 0E 00 420 480 540 600 660 720 780 AVG 1 time SEL gt NEXT Ay i g ExT Fig 3 4 Measured spectrum in Spectrum operating mode gt dd x 3 1 1 Select the operating mode of the instrument among the available four modes SINGLE CONTINUE MONITOR LOGGING By pressing the button two arrow sliders are displayed by pressing the button the operating mode changes as shown on figure 3 5 D 3 El ime I El j im 2 Eee em nm El ERED mwj m nm ak spc 00001550 ok spc 00001550 t 654 ms Figure 3 5 Select the operating mode using the arrow keys Selection keys disappear by pressing any other key o io 3 1 1 1 SINGLE Single measurement The measurement is started by pressing gt Once the measurement is completed the results are saved in a file with the file name auto matically assigned the name of the saved file is like spv yymmddHHMMSS txt for measurements performed by the probe HD30 S1 and spu yymmddHHMMSS txt for measurements performed by the probe HD30 S2 3 1 1 2 CONTINUE Measurements performed are continuous Measurements are started by pressing the b button once the measurement is completed the instrument starts a new measurement Measurements are stopped by pressing the Mitton All meas urements are stored in a directory named spv yymmddHHMMSS txt for measure ments performed with the HD30 S1 probe and spu yymmddHHMMSS txt for meas urements performed with the HD3
28. files saved in the di rectory will be named spv yymmddHHMMSS txt for measurements performed with HD30 S1 and spu yymmddHHMMSS txt for measurements performed with HD30 S2 While measuring the page header blinks red and shows the remain ing time before next log 3l B2 3 1 70E 01 TU f Next log 02 52 2 HH HA L2 779 6 3 3 2 Integration time calculation selection The integration time is automati cally selected by default Press AuTO y the two arrows for the man ual setting of the integration time CM El EEE NAME 7 e Eee Mibi ok spc 00001550 T int 3 3 2 1 Manual Selection the integration time can be manually selected by using Em The available integration times are 1 2 4 8 16 32 64 128 256 512 1024 2048 4096 ms The instrument will show on top of the graph if the measurement just performed is underexposed or overexposed fig 3 19 OVEREXPOSED OK UNDEREXPOSED L1 L2 ea rm OMETRY 2 3555 E2 25005 m OMETRY aWim PAR umol m s UVA 6 R2E 01 spc 00000017 02 mw m PAR lumol m s UVA 3 79E4Yp1 spc 00000015 01 imw m PAR jumol m s UVA 83E 01 spc 00000022 UVB 7 32E 01 t 1024 ms F03 mw m UVB 4 91bE N t 64 ms 02 mw m UVB 1M9E 01 t 64 ms D Uu UV U x AA sovraesposto i m nm SINGLE SINGLE SINGLE 1024 ms AUTO 64 ms 240 270 300 330 360 390 AVG 1 340 270 300 330 360 390 AVG 1 lo 270 300 330 360 390 AV
29. ging of measurements Spectra and derived quantities can be saved both into internal 150MB and exter nal memory micro SD card or USB device The export format is compatible with the most common programs for data analysis and processing In addition to data storage the software allows saving graph im ages The main quantities of photo radiometric interest are directly calculated by the HD30 1 through the supplied software The analyzed spectral range varies according to the used measuring probe Visible Spectral Region 380nm 780nm with the HD30 S1 probe Ultraviolet Spectral Region 220nm 400nm with the HD30 S2 probe Measuring probes are interchangeable and calibrated the calibration file is stored inside each probe Delta Ohm guarantees only for operation on products supplied by Delta Ohm 4 The probe HD30 S1 analyzes the visible spectral region 380nm 780nm and calcu lates the following photo colorimetric quantities Illuminance lux Correlated Color Temperature CCT K Trichromatic Co ordinates x y CIE 1931 or u v CIE1978 CRI color rendering index R1 R14 Ra PAR umolphot sm2 fig 1 3 586 0 i TEC PHOTO COLOR T3875 om El O MM m min ok k spc 00001380 TT Evu zn t 256 ms xy 0 446 0 423 uv 0 249 0 530 T 2997 K CRira 60 3 SINGLE AUTO AVG 1 SEL gt NEXT dy EXIT 0 0 1 02 0 3 0 4 0 5 0 6 0 7 R1 53 2 R5 51 1 R9 72 3
30. h 1 5m Dimensions Weight 370g Working Temperature 0 C 40 C Update automatic via Internet 64 Spectral Irradiance 15 UV Irradiance 6 UVB Irradiance 8 UVC Irradiance 10 Incertitude The HD30 1 is connected to HD30 S1 or HD30 S2 probes through a cable use a 8 pole male M12 connector to connect the probe to the instrument fig 10 1 located next to the ON OFF switch on off switch 8 pole M12 male connector for connecting probe to instrument Fig 10 1 Connector for probe connection to instrument The instrument is equipped with ports for connection to the network and for the use of memory devices SDCARD and USB devices shown in figure 10 2 and figure 10 3 An unused connector appears in the same figure 10 2 uSDCARD USB HOST Figure 10 2 Connectors for uSDCARD and USB HOST Ethernet Battery charge Power supply USB DEVICE Figure 10 3 USB DEVICE Ethernet port and power supply battery charger connec tors 11 ORDERING CODES HD30 1 HD30 S1 probe KIT including Data logger Indicator HD30 1 HD30 S1 for measurements in the visible spectrum 380nm 780nm 4GB micro SDcard power sup ply battery charger SWDO6 case and CD with manual and software HD30 S2 HD30 S2 probe for measurements in the ultraviolet spectrum 220nm 400nm Power supply battery charger for HD30 1 SWDO6 3 7V 6600mA spare battery for HD30 1 BAT 30 HD30S VTRAP30 4GB
31. he sequence in figure 5 1 2 HD30 1 Not connected 14 09 09 amp ad SPECTRUM PHOTO COLOR INFO PROBE POWER SAVING ETHERNET LANGUAGE DATE TIME ABOUT Malta OM HD30 1 SW version 0 0 0 1 LIGHT SPECTRORADIOMETER web site www deltaohm com e mail info deltaohm com MADE IN ITALY Fig 5 1 Sequence to be followed for software update The last screen of figure 5 1 shows the currently used software version press a to connect the instrument to DeltaOhm web site and check the update status of the software under usage If a more updated software version is available the program asks for the permission of updating the software Figure 5 2 A new version of the software is available Want to upgrade Yes Fig 5 2 Confirmation window for software update Once the software update has been allowed the new version is downloaded and in Stalled The new software becomes operational the next time the instrument is turned on If for any reason the instrument cannot be connected to the network a message ap pears e FTP download error 6 INSTRUMENT SETUP Press in the main menu to access the HD30 1 configuration page fig 6 1 press ig to exit the SETUP menu gt HD30 1 Not connected 14 09 09 PR SPECTRUM INFO PROBE DATE TIME Fig 6 1 HD30 1 configuration page The SETUP menu includes 8 buttons with the following functions 6 1 amp A
32. n 30 seconds Pressing any key brightness returns to the set value Pressing LJ will change the status and the following icon will appear ENABLED this way the ON OFF and power saving functions of the monitor screen are disabled The charge level of the batteries is shown on the starting page in the blue band at the top right Figure 6 5 a SPECTRUM Fig 6 5 Battery level Next to the charge level is shown the presence of the power supply Figure 6 6 Fig 6 6 Indication of power supply When the charge level of the batteries reaches 1096 a message appears on the screen prompting the user With the battery charge below 10 the instrument does not perform any measurements 6 3 bi Network connection configuration By pressing the Ethernet key al ETHERNET lows you to access the window for managing connection to the instrument network Figure 6 7 tt SETUP y POWER SAVING ETHERNET LANGUAGE DATE TIME I ETHERNET DNS 1 8 DNS 2 8 Fig 6 7 Ethernet connection configuration menu The first box on top of the window IP address in the Ethernet connection configura tion menu concerns the setting of the network address defined by IP address SUBnet mask GATway Pressing changes from DHCP mode to manual mode In the first case it is the router that assigns the IP address to the device default
33. or the measurement A new transmission measurement can be performed by pressing Start you don t need to acquire each time the reference spectrum Transmission is displayed together with the two cursors Ll tion wavelength of the two cursors are pointing to is shown on the top bar along with the spectral transmission value in 9 6 You can select which cursor to move by using the SEL button L1 L2 selecting buttons moves the two cursors at the same time Cursors can be moved by using the and gt tothe left or to the right Press Sy to display the box fig 3 27 where adding a comment to the meas urement displayed on the screen 582 3 19 3 94E 00 pM imm SPECTRUM CS BEER El EE rom Eomment back clear exit 3 r f Fig 3 22 Comment box Press EXIT to return to the main menu Fig 3 7 4 HANDLING AND STORING MEASUREMENTS tons in the main screen fig 4 1 _ STORAGE icr The acquired measurements can be handled displayed using ud HD30 1 Not connected PHOTO COLOR Fig 4 1 STORAGE and FILE buttons allow measurements to be monitored and recalled As a first step you need to select the device where you want data to be stored inter nal memory uSDcard or USB device If the user make no selection the instru ment data storage is set to internal memory greens 4 1 Press EJ to access the device manager window Fig 4 2 for selection of STORA
34. png on microSDcard in main directory at this point every time the report is generated the image will appear in place of the written logo To have no deformation of the inserted image aspect ratio of width to height should be 2 4 014 1120 123374 12 2014 11 29 13 03 34 20 Massura pw 141129103015 t0t j ET 204 141129103015 bt HD301 SN 140279453 2 1 000 00 i HLD30 1 SN 14029453 SW 1 0 0 0 HOS30 51 SM 14011574 m HO30 51 SM 14011674 Date of the measure 2014 11 28 10 30 15 Fila of the measure spy 141129103915 txt Comment Instrumentation used O sEBD amp B3EtDO Datalogger model HD30 1 SN 14029463 SW 1 0 0 0 a O 5 80E 0O Probe modal HD30 51 380 780nm SN 14011674 5 572500 Calibration Ale iril 24415 4011674 Ext ms BER Callbration date 2013 12 18 08 00 00 505 5 z5EtDO O am eS O PS EO ll 520 42z7E DO es CERO i PO 356E 00 ULLA Ba z B5EtDO 545 E so ee 655 191E 00 550 U ee 570 LEAR PSL GEOG ewm ee 555 63501 PSE ma ee PSE Oo o 720 E o 725 325801 730 O 229001 T a0 z06ED1 Las o O o 750 147EDl PTS BE O DOE UO 270 ZE 775 TER Report made by HD30 1 SH 14028463 copyright 2014 DELTA OHM
35. removed from housing 3 Plug the battery pack connector to the HD30 1 device figure 2 3 Connector for battery to HD 30 1 device Figure 2 3 Battery connector on HD 30 1 device 4 Insert the batteries into the battery compartment figure 2 4 A Nel ta H D30 a Genre ER ORADIOMETE wu SAS ce 5 Close the cover 6 Switch the device on with the on off switch figure 2 5 on off switch 8 pole M12 male connector for connecting probe to instrument Figure 2 5 On Off switch 8 pole M12 male connector for connecting probe to instrument The instrument works both with the battery and the external power supply if power supply is used the battery must be installed into the instrument 3 MEASUREMENT GUIDE 1 When switching the instrument on a yellow led steady at first and then blinking shows that the instrument is starting After 20 seconds the instrument is operating and the start up screen appears if no probe is connected fig 3 1 HD30 1 Not connected 10 18 30 Figure 3 1 Start up screen with no probe connected all measurement functions in the screen are disabled amp HD30 1 Not connected appears in the header blue bar on the top of the screen If a probe is already connected to the HD30 1 or is connected after the start up the splash screen shows the enabled measurement options available for the connected probe Spectrum photo colour radiometry and transmission for
36. ria selezionata Vuoi proseguire Fig 4 10 Memory erasure dialog box Press Jes to erase the memory Note CONFIRMATION OF MEMORY DELA TION WILL MAKE DATA RECOVERY IMPOSSIBLE A USB 4 3 2 Press d if you want to transfer the content of the HD30 1 internal mem DA MEMORY ory to the USB device All data are transferred to the DATA directory the existing data will be overwritten AUSB 4 3 3 Press B if you want the content of the uSDCARD to be transferred to the DASD CARD USB device All data are transferred to the DATA directory existing data on USB de vice will be overwritten 4 4 Press to return to the main screen Fig 4 1 EXIT 4 5 Press IE in the main screen to display stored measurements fig 4 1 FILE Pressing the button will open the fig 4 11 window Date Time E spc 141014143937 txt 2014 10 14 14 39 37 x spc 141014143949 txt 2014 10 14 14 39 49 Bl spc 141014143952 txt 2014 10 14 14 39 52 z spc 1410141439565 txt 2014 10 14 14 39 56 s spc 141014143959 txt 2014 10 14 14 39 59 z spc 141014144003 txt 2014 10 14 14 40 03 5 Comment Lampada a LED Fig 4 11 display of the measurements stored in one of the available memories in ternal memory uSDcard USB device The screen shows the list of files and directories The current memory appears at the bottom of the screen in the example the internal memory has been selecte
37. setting In the second case parameters for connection must be defined by the user The second box at the bottom of the window is used to define primary and secondary DNS Note The connection to the network is necessary for the software update 6 4 s Setting the Language By pressing the Language button it is possible LANGUAGE to access the language selection menu Figure 6 8 t SETUP E DATE TIME LANGUAGE ITALIANO INGLESE Fig 6 8 Language setting window On top right of the icon with the selected language there is a green checkmark if you wish to select a different language simply press the key corresponding to the desired language Press EXIT to return to the SETUP menu 6 5 y 1 DATE TIME Setting date and time By pressing the Date time button it is possible to access the window for date time setting figure 6 9 LANGUAGE Fig 6 9 Date Time setting window Once you have properly set date and time use the arrow keys to press 9 and SET make the change effective Press J EXIT to return to the SETUP menu 6 6 HELP Pressing Help allows you to refer to the user manual HELP 6 7 i Checking and updating the Software See chapter 5 for a detailed ex ABOUT planation of the About key EXIT Pressing Exit makes you return to main menu Fig 6 1 6s Wy EXIT 7 EXPORTING MEASUREMENTS The instrument allows you to e
38. surement using the arrow keys on the right of the screen see chapter Handling and storing measurements for more details The measured spectrum is displayed together with the two cursors 1 H The position of the wavelength indicated by the two cursors is shown in the top bar along with the measured spectral irradiance value and the wavelength of the cursors d RADIOMETRY EM 367 4 PASA 3 145 02 AA 400 0 MENFE 8 29 E 01 L1 At first cursor is positioned on the maximum spectral irradiance while Press the SEL button and select the cursor you want to move select move the two cursors at the same time Cursors are moved by using arrow keys to the left or to the right By pressing 4 the box fig 3 22 where you can add a comment to the measure ment shown on the screen will be displayed pr SPECTRUM T 75 am EELE mw re nm Fomment clear exit Fig 3 22 Comment box Press EXT to return to the main menu Fig 3 1 3 4 TRANSMITTANCE HD30 S1 and HD30 S2 yf E T L Under this mode you can measure the transmission in the spectral range covered by the probe in use Measurement is carried out in two distinct steps A the first step needed is to acquire the reference spectrum against which transmis sion will be calculated B only later spectral transmission can be measured Select the transmission of measurement to access the window below Fig 3 23 9E 01 8E 01
39. the HD30 S1 probe figure 3 2 gt HD3O 1 vis Connected 10 24 51 O y PHOTO COLOR RADIOMETRY d gt STORAGE INFO PROBE Figure 3 2 Start up screen with HD30 S1 probe connected Spectrum radiometry and transmission for the HD30 S2 probe figure 3 3 gt HD30 1 uv Connected 10 25 23 4 amp 4 O9 a SPECTRUM PHOTO COLOR RADIOMETRY TRANSMISSION ww FILE STORAGE INFO PROBE Figure 3 3 Start up screen with the HD30 S2 probe connected Connected will appear in the top bar to show that a probe is connected 2 Connect the device for the data storage otherwise data will be saved in the internal memory of the instrument the device where data are stored is shown in the blue bar on the top for more details see chapter Handling and storing measure ments 3 Select the type of analysis to be performed among the available ones r aa SPECTRUM SPECTRUM In this mode the emission spectrum of the sources can be displayed or ambient 3 1 SPECTRUM HD30 S1 and HD30 S2 probes af light can be measured in a simple and immediate manner with no further opera tions The start up screen for this measurement will be displayed as shown on fig ure 3 4 mW m nm ok spc 140921154215 7E 00 t 256 ms 6E 00 5E 00 Start measuring AE 00 Operati rall 3E 00 SINGLE se g 2E 00 mode 1E 00 AUTO Select int
40. ursors are pointing to is shown on the top bar along The spectrum is displayed together with the two cursors Ll with the measured spectral irradiance value and the wavelength of cursors PBHOTO COLOR 238 5 23 PE gt PA mW m nm WEM 7 9 6 L1 cursor is positioned on the maximum spectral irradiance while tioned on the bigger wavelength available on the current probe Pressing SEL allows you to select the cursor you want to move selecting Liz L 2 will allow you to move the two cursors at the same time Cursors are moved using the arrow keys gt towards the left or the right Pressing allows you to add a comment to the measurement performed Press EXIT to return to the FILE menu Fig 4 11 Press NEXT bottom bar to display one graph at a time following the sequence be low Fig 4 15 779 6 ok Ew 306 spc_00001380 xy 0 446 0 423 0 249 0 530 2997 CRina 60 3 SINGLE AUTO AVG 1 um i NEXT cl 420 480 540 600 660 720 780 NEXT MEN 0 0 1 0 2 03 0 4 0 5 06 07 l NEXT R1 53 2 R5 51 1 R9 72 3 R13 _56 2 R2 73 2 R6 59 6 R10 38 7 R14 94 7 Fig 4 15 Various displays in photo colour mode Press wExr to move from a display to the next one Press X to display the box fig 4 16 where a comment can be added to the measurement shown on the screen JAE E SPECTRUM dg LEE mnm Eomment m back clear exit O 1 2 3 4 5 6 7 8 g q Ww E r t y u i o p a 5 d f
41. xport the performed measurements to a pdf file be sides the pdf file a text file is generated where the wavelength in 1 nm steps and the measured spectral irradiance are shown respectively in two columns in the case of transmission measurements the measured spectral transmission is shown The generated pdf file shows the spectral irradiance in 1 nanometer steps and the processed data figure 7 1 P PHOTO cCOLOR H BEB uir z coco mwm XA 2 69E 01 spc 14111210002 Ev l lx 353 t 256 ms CIE yy 0 444 0 423 CIE 0 247 0 530 CCT K 3041 CRira 60 4 SINGLE AUTO Data export key AVG 1 se gt Fig 7 1 Exporting the measurement just performed or can be performed on a previously stored measurement In this case you need first to display the measurement you want to export data of chapter 4 The key to be de pressed to perform the export operation remains 2 as shown on figure 7 2 PHOTO COLOR i C LELOCLLEG spc 141030190404 Evil 220 CIExy 0 481 0 421 Cl Eir 0 271 0 535 CCT K 2501 CRina 83 2 Data export key seu Fig 7 2 Exporting a previously performed measurement z d exported data SPECTRUM If the measurement is displayed in Spectrum mode T SPECTRUM are only those related to spectral irradiance the spectrum image appears in the ex ported file and the file is saved with the following name rsp y
42. ymmddHHMMSS pdf the text file containing only spectral irradiance data is saved with the name rin yymmddHHMMSS txt If the measurement is displayed in photo color mode e the exported data are spectral irradiance and all data related to calculated photo colorimetric quantities the spectrum image the x y coordinates image within the CIE 1931 colour space and the chromatic rendering index are shown in the exported file The file is saved with the following name rph yymmddHHMMSS pdf the text file containing only spectral irradiance data is saved with the name rin yymmddHHMMSS txt If the measurement is displayed in radiometry mode y Y the exported RADIOMETRY RADIOMETRY data are spectral irradiance and all the calculated radiometric data the spectrum im age appears in the exported file The file is saved with the following name rrd yymmddHHMMSS pdf the text file containing only spectral irradiance data is saved with the name rin yymmddHHMMSS txt In transmission measurements T L i T L Spectral transmission is exported in TRANSMISSION TRANSMISSION 1 nanometer steps the spectral transmission image appears in the exported file rtr yymmddHHMMSS pdf the text file containing only spectral irradiance data is saved with the name rin yymmddHHMMSS txt Figure 7 3 shows an example of a report generated in photo color mode Is possible to change the with other immages To change image save the image to insert as logo
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