SeaOWL UV-A SLCUserManual-en
Contents
1. Value Output 0 serial number 1 date MM DD YY 2 time HH MM SS 3 dummy date 99 99 99 4 dummy time 99 99 99 5 reference value 1 6 measurement 1 raw counts 7 measurement 1 engineering output 1 3E 8 reference value 2 9 measurement 2 raw counts 10 measurement 2 engineering output 1 3E 11 reference value 3 12 measurement 3 raw counts 13 measurement 3 engineering output 1 3E 14 internal thermistor counts 15 external thermistor counts 16 pressure sensor counts 17 supply voltage 2 2f 18 numeric part of serial number 19 cSlope1 1 3E slope for engineering calculation 20 cSlope2 1 3E slope for engineering calculation 21 cSlope3 1 3E slope for engineering calculation 22 cleanValue1 dark counts for engineering calculation 23 cleanValue2 dark counts for engineering calculation 24 cleanValue3 dark counts for engineering calculation 41 forward voltage counts for channel 1 LED 42 forward voltage counts for channel 2 LED 43 forward voltage counts for channel 3 LED 1 44 forward voltage counts for channel 3 LED 2 240 printf tab 241 putchar 0x09 tab 255 printf n carriage return line feed 11 Reference Manufacturer set Sequence 3 e COM3 19200baud Tera Term VT File Edit Setup Control Window Help 4 4 di 1 1 2 3 4 1 2 3 55 THAR K ones eee Seq 3 Rat 19200 Manufacturer set Sequence 3 output format a COM3 19200baud Tera Term VT E 39 s 008_ 92. 12 13 14 15 Enter a new File name or push Save to save the default teraterm ini setup file name Connect the sensor to a power supply set at 12 VDC and PC Refer to Verify operation on page 5 for details Make sure that the terminal program is open Turn the power supply on Enter 5 exclamation points to put the sensor in an operational mode The software shows 14 columns of data Enter 1 to stop the sensor The menu of the sensor shows below the collected data COME 6000nacd Tees Toon VI e ser serial number of the sensor e ver version of installed firmware ave the number of measurements that are averaged to make up one row of data e seq the manufacturer set sequence in which data is output rat baud rate Enter par to see the settings that are saved in the sensor File Edit Setup Con 0 6 068E 01 3 363E 01 1 934E 01 16 Enter run to start the sensor The sensor collects and shows data 17 Find the offset or dark counts value of the sensor for data correction Reference 3 4 1 Find sensor offset value Use the power supply that the sensor will use for deployment to find the offset value of the sensor output It is possible that the offset given by the manufacturer is different because the sensor is very sensitive in terms of both input and output 1 Cover the detectors on the optical face of the sensor with Scotch 33 electrical tape Make
3. Make sure that the sensor operates before further setup and deployment e OMN N 99 eo Connect the sensor to a PC that has a terminal program such as Tera Term or HyperTerminal installed Refer to Get and install terminal program on page 7 for instructions to get install and use a terminal program Remove the cap that protects the sensor s optical face Connect the sensor to a regulated power supply set at 12 VDC Turn on the power supply The sensor comes on Start the terminal program on the PC Select the appropriate COM Port in the terminal program Select the correct serial port settings in the terminal program e baud rate 19200 e stop bits 1 data bits 8 flow control none e parity none Data shows in the terminal window Look at the data The order of the data in counts by column column 1 serial number of the sensor column 2 chlorophyll LED forward voltage column 3 chlorophyll low gain stage e column 4 chlorophyll high gain stage column 5 chlorophyll reported column 6 bb LED forward voltage column 7 bb low gain stage column 8 bb high gain stage column 9 bb reported column 10 FDOM LED 1 forward voltage column 11 FDOM LED 2 forward voltage column 12 FDOM low gain stage column 13 FDOM high gain stage column 14 FDOM reported al Operation and maintenance SeaOWLUVA 002 2857 50 49 49 3454 50 49 49 4298 4298 50 50 SeaOWLUVA 002
4. 2849 50 51 SE 3452 50 48 48 4296 4296 50 44 SeaOWLUVA 002 2849 50 51 51 3448 50 46 46 4297 4297 50 46 SeaOWLUVA 002 2845 50 49 49 3447 50 46 46 4294 4294 50 50 SeaOWLUVA 002 2846 50 50 50 3444 50 49 49 4291 4291 50 48 SeaOWLUVA 002 2842 50 50 50 3444 50 45 45 4291 4291 50 47 SeaOWLUVA 002 2841 50 46 46 3441 50 48 48 4291 4291 50 48 SeaOWLUVA 002 2839 50 47 47 3441 50 47 47 4288 4288 50 46 SeaOWLUVA 002 2840 50 50 50 3438 50 45 45 4289 4289 50 54 SeaOWLUVA 002 2839 50 50 50 3439 50 47 47 4285 4285 50 49 SeaOWLUVA 002 2838 50 50 50 3437 50 46 46 4286 4286 50 50 9 To stop the data select File then Disconnect Tera Term The data stops 10 To close the program select File then Exit 2 2 Set up for deployment 1 Refer to the previous section to make sure that the sensor operates correctly 2 If necessary remove the protective cap from the sensor 3 Use an external power supply to supply power to the sensor for deployment Section3 Reference 3 1 Delivered items e the sensor e a lock collar not applicable for SLC e aplastic protective cover for the optical face the CD with e this user manual e the characterization calibration page for the sensor 3 2 Calibration The manufacturer calibrates all scattering sensors to make sure that the data that is collected meets the sensor s specifications This information is on the sensor specific calibration page that comes with the sensor 3 3 Characterization The manufa
5. 87 5 1561 S 65 2372 2811 1565 5 2366 2808 1558 62 62 2368 1563 2362 1557 6 6 2365 1561 5 5 2360 1555 p 4 2362 1560 6 6 2358 2800 1554 2360 2801 8 38 s 008_ 1559 2 2356 2798 oms 008 977 50 1553 5 6 6 2358 799 33 2 008 50 1557 6 6 2355 2797 38 The output columns in the image above are wrapped if there is not sufficient space on a PC screen 1 Start a spreadsheet program such as Microsoft Excel 2 Make a spreadsheet as in the example below A pmp 0se 1 sequence number must come first 1 Sose 1 0 240 start print must follow ose 2 0 240 1 1 column 1 output date first column of output 3 1 1 2 2 column 2 output time 4 2 2 5 3 E 3 5 column 3 output reference counts for channel 1 6 4 6 4 6 column 4 output measured raw counts for channel 1 7 5 8 5 8 column 5 output reference counts for channel 2 8 6 9 6 9 column 6 output measured raw counts for channel 2 9 7 11 7 11 column 7 output reference counts for channel 3 10 8 12 8 12 column 8 output measured raw counts for channel 3 11 9 14 12 10 255 9 14 column 9 output counts for the internal thermistor 13 99 10 255 end print required value 14 Sosd 99 end sequence input must follow end print osd display show the sequence must follow 99 3 Make sure that the sensor is on and in communication with the terminal program 12 Reference 4 If neces
6. O Philomath OR 97370 U S A www Tel 541 929 5650 service wetlabs com support wetlabs com www wetlabs com WET Labs Inc 2015 All rights reserved Printed in U S A IMM
7. SEA BIRD WET Labs USER S MANUAL SCIENTIFIC Sea0 WL UV A SLC Document Ver 11 2015 Edition A WET Labs Tel 1 541 929 5650 620 Applegate Street service wetlabs com Philomath OR 97370 supportOwetlabs com USA www wetlabs com Table of Contents Section T IPECHICAMONS id AAA E 3 TET IMOCMANIGCAL nai arsreceazencestenstanaetats tehsrcadacagerssecttnocaas 2 carccetethattbnatonsadaticas ates Ouacgaurenczeteceuticasaneeat ets 3 12 Electricals arrr sete ck ix ccdia a vik a a EE 3 1 3 GOMMUNICATIONS Ss cc c5 Avs cicssseacs ia dave dssangautapteaane E A agate sae Sancta duces 3 A catveeutvetectecarlascacadccdluss E fivscsedusgerieeadeaes 3 Section 2 Operation and maintenance 0 2 cccccccecc cece eee ceeeeeeeeeseaeeceeesaeeseaeeeceeesseeeseeeeseeeaas 5 EA AN 5 2 2 Setup TO deployment ii AA E i O id 6 Section 3 Reference aida ei 7 3 1 Delivered items i iriri r eter Ta re dadas 7 32 Call ON aa aa 7 3 9 A TO 7 34 Get and install terminal PODIAN a di 7 3 4 1 Find sensor offset valg ed a aine orea a e AE ee inat airea aeaa erid eiie 9 3 4 2 Common terminal program COMMANdS cooooccccccccccccnnonocnncncnncnnnnnonnnnncnnnnnnnnnnnnnncnnnnnnnnannnnnnnnno 9 E ES PLEET A TE E E A tealaseaditectecrsedan teat 0 3 5 Setup Variable G tp t rnet iii 10 Section 4 General informati0N ooooooooncconccnococooconoocconcconcnconcnonnonono non ccoo ncnnn non nn nn cnn o nnnnnrannnnannnos 15 A E 15 SE AS zalai eaaa Eaa cat
8. cturer uses a fluorescent material to characterize all fluorescence sensors to make sure that the data that is collected meets the specifications of the sensor This information is on the sensor specific characterization page that comes with the sensor 3 4 Get and install terminal program Get and install a terminal communications program to communicate between the PC and the sensor The steps below refer to Tera Term an open source terminal emulator program but the set up and protocols are similar for other terminal communications programs 1 Do the steps on the web site www ayera com teraterm download cfm to get the software a Enter the required information on the web site b Select Save As to save the software to a user selected location on the PC c Right click on the zip file and select Extract all Go to the extracted files and double click on the ttermpro exe file Push Run Push OK in the Tera Term New connection window In the Tera Term Web 3 1 COMx VT window go to Setup then Serial port GR ON e Port user selected COM x Baud rate 19200 Data 8 bit e Parity none e Stop 1 bit Flow control none Transmit delay msec char 2 Transmit delay 50 msec line 6 Push OK 7 To view commands as they are entered go to the Setup menu then Terminal and put a check in the box next to Local echo 8 To save this setup go to the Setup menu then Save setup Reference 10 11
9. d name Field 4 is used for units where appropriate rat 2400 to Baud rate for communication An invalid baud rate will default to 19200 It will show as 230400 19201 so the user knows the software defaulted to this value rfd Loads the original manufacturer s setup seq 0to3 Selects one of the pre defined sequences to use to collect data osd 0 3 Shows the output sequence for the selected value These values agree with the meta data shown with mdl ose 0 3 Starts the output sequence entry mode for the selected value Enter data by line number nn lt space gt value lt enter gt where nn is the field number and value is the related output field that shows in that field Start the sequence input with the delimiter 00 and end it with 99 par Shows the timing and conversion parameters 3 5 Set up variable output 10 The user can make and store up to four different custom output strings in the sensor The definition of each output string is stored as a sequence from 0 3 The default from the manufacturer is sequence 3 The manufacturer recommends that the user does not change this sequence The user can change the output string from sequences 0 2 If the user changes the output string it is not possible for the manufacturer to make an analysis of sensor performance and the data that is collected by the sensor Table 1 Variable output fields Reference
10. ed E EEA E R E E K E E AAE EEEE 15 4 3 Waste electrical and electronic EQUIPMENL cceccecceecceeeceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeees 15 4 4 Tera Term BSD CANSO iu a ta deh Hee 16 Section1 Specifications 1 1 Mechanical Diameter 7 57 cm Length 5 46 cm Depth rating 1000 m Temperature range 2 38 C Storage temperature range 20 50 C Weight in air 0 399 kg Displacement 128 ml 1 2 Electrical Input 7 15 VDC Current draw 81 mA Linearity 99 1 3 Communications Sample rate 1 Hz RS232 output rate 19200 baud Output resolution 14 bit 1 4 Optical Parameter Chlorophyll Chl Wavelength EX EM 470 695 nm Range Sensitivity 0 005 250 0 005 ug L Fluorescent Dissolved Organic Matter FDOM 370 460 nm 0 03 900 0 03 ppb QSDE Backscattering 700 nm 0 0 04 m7 sr 1E 06 m sr1 Crude oil limit of detection sensitivity lt 80 3 ppb Section 2 Operation and maintenance 2 1 Verify operation FDOM sensors use an ultraviolet LED light source Do not look directly at a UV LED when it is on It can damage the eyes Keep products that have UV LEDs away from children pets and other living organisms Wear polycarbonate UV resistant safety glasses to protect the eyes when a UV LED is on Do not supply more than 15 VDC to the sensor More than 15 VDC will cause damage
11. sary start the terminal program 5 Enter the values to set up the serial port Tera Term Serial port se Port COM3 Baud rate 19200 Data 8 bit Parity none Stop 1 bit Flow control none Transmit delay 21 msecichar 6 Push OK v v v tup Cancel Help msec line 7 Select the sequence made in Excel and copy Ctrl C it 8 Make sure that the cursor is in the terminal program and that the sensor is not in operation and 9 Select Paste from the Edit menu 10 Type sto to store the new sequence in the sensor 11 Type seq 1 to change the output of the sensor to the new sequence 12 type run to see the output format of the data that is collected by the sensor 13 Section 4 General information 4 1 Warranty Revised editions of this user manual are on the manufacturer s website This sensor is warranted against defects in materials and workmanship for one year from the date of purchase The warranty is void if the manufacturer finds the sensor was abused or neglected beyond the normal wear and tear of deployment 4 2 Service and support The manufacturer recommends that sensors be sent back to the factory annually to be cleaned calibrated and for standard maintenance Refer to the website for FAQs and technical notes or contact the manufacturer for support at support wetlabs com Do the steps below to send a sensor back to the manufacturer 1 2 Contact the man
12. source license Copyright This program is free software Tera Term is licensed under BSD style license Copyright of original Tera Term Pro belongs to T Teranishi Copyright of ANSI color change amp concatenating multi line patch belongs to N Taga Copyright of UTF 8 and SSH2 codes belongs to Yutaka Hirata Copyright of IPv6 version of Tera Term Pro belongs to J Kato Copyright of Cyeterm belongs to NSym Copyright of original TTSSH belongs to Robert 0 Cal lahan Copyright of original TeraTerm Menu to Shinpei Hayakawa Copyright of LogHeTT to Boris Maisuradze Copyright of Eterm lookfeel transparency window belongs to AKASI Copyright of TTProxy to Yebisuya Hompo Copyright of Japanized Tera Term belongs to Yasuhide Takahashi and Taketo Hashii Copyright of Clickable URL to monkey magic Copyright of Oniguruma to K Kosako Oni suruma is linked to this program statically Copyright of supporting multi display to Tsuruhiko Ando Copyright of general patch about both Tera Term and TTSSH to NAGATA Shinya Copyright of Tera Term and TTSSH icon file to Tatsuhiko Sakamoto Copyright of HTML help file to Mitsuyasu Ichimura Masateru KUVATA Taketo Hashii and Yutaka Hirata Copyright of TTX KanjiMenu Plugin to Sunao HARA This program is provided as is without warranties of any kind either expressed or implied including but not limited to the implied warranties of merchantability and fitness for a particular purpose The entire risk as to the q
13. sure that the tape does not cover any part of the LED optical bore holes If necessary connect the sensor to the PC and power supply and start the terminal program Turn the power supply on Enter run then push Enter to start the sensor operation Let the sensor operate for approximately 60 seconds Calculate the average each of column 4 8 then 13 These averages are the offset dark counts values to use for chlorophyll scattering and FDOM Save these values to use when the data from a deployment is processed Remove the electrical tape from the optical face of the sensor Use a lint free wipe and isopropyl alcohol to gently clean any remaining adhesive from the optical face The sensor is ready to deploy 3 4 2 Common terminal program commands Command Parameters Description WN none Stops the data collected by the sensor Lets the user to enter setup values If the sensor is in a low power mode turn the power supply off for one minute then turn the power on and push the key 5 or more times ave 1 255 The number of measurements that make up each row of collected data mnu Prints the menu of setup values to the PC screen pkt 0 65535 Sets the number of rows of data that are collected between the specified time intervals Reference Command _ Parameters Description ris none Gets the settings from the flash memory run Uses the current setup values
14. to operate sto Saves the desired setup values to the flash memory Single parameter sensors Fluorometer and NTU only asv 1 Sets the sensor s analog scaling value 2 1 the analog data collected covers the bottom quarter of the data range 4 2 the analog data collected covers half of the data range 4 the analog data collected covers the entire data range m1d 0 to 65535 Parameter 1 dark count value to calculate the data collected in engineering units m1s float Parameter 1 slope value to calculate the data collected in engineering units m2d 0 to 65535 Parameter 2 dark count value to calculate the data collected in engineering units m2s float Parameter 2 slope value to calculate the data collected in engineering units m3d 0 to 65535 Parameter 3 dark count value to calculate the data collected in engineering units m3s float Parameter 3 slope value to calculate the data collected in engineering units man 1 enable Enables or disables manual start time The sensor starts at a programmed wake time when 0 disable enabled This is automatically enabled if the user enters a manual start time mst 24 hour time Enables or disables a pre programmed start time This allows all sensors on a system to be synchronized to collect data met Prints metadata that describes the data that is collected Field 1 is the data Field 2 is the field tag Field 3 is the fiel
15. uality and performance of the program is with you Should the program prove defective you assume the cost of all necessary servicing repair or correction In no event will any copyright holder be liable to you for damages including any general special incidental or consequential damages arising out of the use or inability to use the program including but not limited to loss of data or data being rendered inaccurate or losses sustained by you or third parties or a failure of the program to operate with any other programs URL http ttssh2 osdn jp Project http osdn jp projects ttssh2 e mail yutakakn gmail com Yutaka Hirata forum http www logmett com forum index php NL Japanese http www freem com info teraterm f reem l com Tera Term Pro original http hp vector co jp aut hors YA002416 ANSI color change amp concatenating multi line patch http www sakurachan org ml teraterm msg00264 ht ml IPv6 version Tera Term Pro http win6 jp TeraTerm index htm Eterm lookfeel transparency window patch http www geocit ies co jp Si liconVal ley Palodl to 4954 av html Oni guruma http www geocities ip kosako3 oniguruma Special thanks to T Teranishi author of original Tera Term Pro URL http hp vector co jp authors VA002 41 6 Yutaka Hirata added UTF 8 and SSH2 support e mail yutakakn gmai com URL http hp vector co ijp authorsAA019320 WET Labs Inc 620 Applegate Street
16. ufacturer for a Return Merchandise Authorization RMA Note The manufacturer is not responsible for damage to the sensor during return shipment Remove all anti fouling treatment from the sensor before sending it back to the manufacturer Note The manufacturer will not accept sensors that have been treated with anti fouling compounds for service or repair This includes tri butyl tin marine anti fouling paint ablative coatings etc Use the sensor s original ruggedized shipping case to send the sensor back to the manufacturer Write the RMA number on the outside of the shipping case and on the packing list Use 3rd day air to ship the sensor back to the manufacturer Do not use ground shipping The manufacturer will supply all replacement parts and labor and pay to send the sensor back to the user via 3rd day air shipping 4 3 Waste electrical and electronic equipment Electrical equipment that is marked with this symbol may not be disposed of in European public disposal systems In conformity with EU Directive 2002 96 EC European electrical equipment users must return old or end of life equipment to the manufacturer for disposal at no charge to the user To recycle please contact the manufacturer for instructions on how to return end of life equipment manufacturer supplied electrical accessories and auxiliary items for proper disposal 15 General information 4 4 Tera Term BSD license 16 Tera Term is used under a BSD open
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