SBE 33 Manual - Sea
Contents
1. CAUTIONS 1 Lightly lubricate the inside of the dummy plug cable connector with Do not use WD 40 or other silicone grease DC 4 or equivalent petroleum based lubricants as they will damage the connectors ae i e For wet pluggable MCBH 2 XSG AG Connector Install the cable connector aligning the raised connectors Silicone lubricants bump on the side of the cable connector with the large pin pin 1 ground in a spray can may contain on the end cap Remove any trapped air by burping or gently squeezing ketones esters ethers alcohols the connector near the top and moving your fingers toward the end cap or glycols in their propellant Do OR not use these sprays as they MCBH Connector Install the cable connector aligning the pins will damage the connector 3 Place the locking sleeve over the dummy plug cable connector Tighten the locking sleeve finger tight only Do not overtighten the locking sleeve and do not use a wrench or pliers Verify that a cable or dummy plug is installed for each connector on the system before deployment Cleaning SBE 33 Deck Unit To clean the SBE 33 1 Disconnect the power and any other cables from the back of the SBE 33 2 Using a soft cotton cloth dampened with warm water clean the exterior of the SBE 33 with gentle pressure Use special care cleaning around any connectors to avoid getting water into them 3 Wait until the SBE 33 is completely dry before reconnecti2. data from a NMEA device connected to the deck unit or connected directly to the computer TRF hhmmss ss ddmmyy lIIl lLa yyyyy yy b x x x X X X X X xxx A hh lt CR gt lt LF gt DBT Depth Below Transducer Depth in fathoms meters and feet DBT xxxx x f dddd d M xxxx x F hh lt CR gt lt LF gt DPT Depth Depth DPT dddd d xxxx x xxxx x hh lt CR gt lt LF gt Field Type Symbol Definition Status A Single character field A Yes data valid warning flag clear V No data invalid warning flag set Fixed Variable length field degrees minutes decimal 2 fixed digits of degrees 2 fixed digits of minutes variable number of digits for 11 1 sg kbc dhe Latitude decimal fraction of minutes Leading zeros always included for degrees and minutes to maintain fixed length Decimal point and associated decimal fraction optional if full resolution not required a NorS Fixed Variable length field degrees minutes decimal 3 fixed digits of degrees 2 fixed digits of minutes variable number of digits for Longitude YYYYY YY decimal fraction of minutes Leading zeros always included for degrees and minutes to maintain fixed length Decimal point and associated decimal fraction optional if full resolution not required b E or W Fixed variable length field Tim hmin hours minutes seconds decimal 2 fixed digits each of hours minutes and seconds variable number of digits S88 _ f
3. i telemetry and surface power for the CTD and permits Water Sampler control command details h h the SBE 33 and vi s fi Bottl be fired SBE 25plus If the SBE 33 is through the and via our Seasave software Bottles may be fire appending both NMEA and Surface sequentially or any order PAR you must slow down the real time output rate by setting The rack mountable SBE 33 supplies DC power for the underwater unit SetHistoricRate 0 see the 25plus decodes the serial data and passes the data to a computer The SBE 33 manual for command details back panel switch permits continuous operation from 120 VAC or SBE 49 Seasave 7 23 2 and later 240 VAC 50 60 Hz input power The front panel LED display indicates which supports acquisition of Surface PAR bottles have been fired data SBE 55 Real Time Operation SBE 32 Real Time Operation z 7 pa Carousel Deck Unit Carousel Deck Unit AAAA Note SBE 55 lanyard Connection to two COM nke ports on the computer is assembly s required COM1 CTD data channel and COM2 SBE 32 Carousel SBE 19 19plus 19plus V2 25 Water Sampler command SBE 55 25plus or 49 channel are the defaults Electronics a and are shown in the Control diagrams for illustration Module only You can use any ie bs i te or 49 CTD two ports in any order set up the COM port configuration in Seasave to correspond Manual revision 013 Section 2 Description of SBE
4. Problem 5 Yellow NMEA Transmit LED Not Flashing ccceseeseeees 42 Problem 6 Yellow NMEA Transmit LED Flashing but Lat Lon Data Not Displaying ccccesceccesecesceeeeeeeeeeceeeeeeeenteeereeneeenaes 42 CEOE T A aE E EAE EEE E E E E 43 Safety and Electrical Symbols ccccsscessesseesseeeeeeeseeeeceeeeseceaeenseeeeeaeeeseeees 44 Appendix I NMEA Navigation Device Message and Data Formats eseesesseseeocsosseseeeesoeocsosseseeecsoeseeoceoseeseeoeseeoeeosseseeoe 45 Message Formats z ramea aaa a E Beaks sens oneueh assent futememee teenies 45 Data Formats sinon test thisesacensth nese a ee di aati areata 46 Appendix Il NMEA Message Simulation Program s000 47 Appendix IIT Replacement Parts ccscccccscsscccsscecsssessecseseeees 49 Appendix IV Manual Revision History sscsscsssssssesssesseees 50 TOK E E A E 52 Manual revision 013 Section 1 Introduction SBE 33 Section 1 Introduction This section includes photos of a typical SBE 33 shipment About this Manual This manual is to be used with the SBE 33 Carousel Deck Unit It is organized to guide the user from installation through operation We ve included detailed specifications setup and operation descriptions and helpful notes throughout the manual The SBE 33 can be used with an SBE 32 Carousel Water Sampler or an SBE 55 ECO Water Sampler and with a number of Sea Bird CTDs See the appropriate water s
5. Recommended Minimum Specific GPS TRANSIT Data TRF TRANSIT Fix Data DBT Depth Below Transducer DPT Depth Decoded NMEA data is appended to the CTD data stream in the SBE 33 and are passed to the computer for storage and or display with the CTD data The SBE 33 includes an A D converter for a Surface PAR light sensor The SBE 33 supplies 12 volts to power the sensor and appends the data to the CTD data stream The SBE 33 can also be used with the Power and Data Interface Module PDIM and a number of Sea Bird CTDs when a Water Sampler is not available or needed The PDIM provides the same power and CTD data interface functionality as the SBE 32 or 55 Water Sampler but without water sampling capability The PDIM is mounted to the CTD For the PDIM s mechanical details see the SBE 36 PDIM manual t SBE 33 Carousel Deck Unit PDIM SBE 19 19plus 19plus V2 25 25plus 49 or 50 The SBE 33 is supplied with a powerful Windows software package Seasoft V2 which includes e Seaterm and SeatermV2 terminal programs for easy setup e Seasave V7 program for acquiring converting and displaying real time or archived raw data e SBE Data Processing program for calculation and plotting of conductivity temperature pressure auxiliary sensor data and derived variables such as salinity and sound velocity NOTES Manual revision 013 Section 2 Description of SBE 33 SBE 33 1 The SBE 32 Car
6. 1702 WIRING CONNECTIONS SBE P N 17112 Tat P1 COLOR SBE P N 17529 WHITE BLACK SHIELD NMEA Test Cable NMEA Input connector on SBE 33 Cable Wiring DN 32786 pr PN17096 DB 95 FEMALE CONNECTOR NN 106A125 2 pin to DB9 Test PN17097 DB9 CONNECTOR HOOD CONN ETERS tee cable SBE 33 CLAMP AMPHENOL MN3057 4A NMEA Input to BUSHING AMPHENOL MS3420 4 computer oa kco oooo0o 00000 on ma N PIN 3 RED PINS BLK 14 Manual revision 013 Section 2 Description of SBE 33 SBE 33 Note The Switchcraft connector on the Biospherical Surface PAR sensor is the current connector type Biospherical sold the Surface PAR sensor with other connector types in the past See the appropriate drawing for pinout details Surface PAR Cable Wiring from PAR Input connector on Deck Unit 4 pin SBE 33 R 2 PAR Input to Surface PAR with Switchcraft connector DN 32704 CLAMP 97 3057 6A Surface PAR BUSHING MS3420 6 HEATSHRINK IESS gt H Ep Surface PAR with LEMO connector DN 32434 FGG 0K 305 CLAC50 CLAMP 97 3057 6A LEMO CONNECTOR 80 20609 BUSHING MS3420 6 Surface PAR with Bendix connector DN 31475 CLAMP 97 3057 6A MS3116F8 4S eG ey m lll ES P P1 Color P2 Description MS3106A 14S 2P c S A_ Shield White A C Ground _ B Black 12V Pwr c N C PAR Signal Note Connect P2 A amp C to P1 A Jat P1 connector Do not jumper at P2 connect
7. 3and press the Enter key to switch to mode 3 The display looks like this SBE 33 36 Deck Unit set up menu Modes 1 Echo characters to and from the instrument 2 Add Lat Lon to the real time HEX data from the instrument 3 Transmit Lat Lon only Options 4 Add NMEA Depth to the real time HEX Lat Lon data 5 Do not add NMEA Depth to the real time HEX Lat Lon data 6 Add PAR to the real time HEX data 7 Do not add PAR to the real time HEX data Communications 8 Change communication settings and start mode 9 Display communication settings and start mode Diagnostics 10 enable diagnostic level 11 enable diagnostic level 2 the current mode 3 Transmit Lat Lon only enter 1 2 3 4 5 6 7 8 9 10 or 11 followed by Enter or press to exit the set up menu selection Go to Step 14 to verify proper operation if the SBE 33 is used with a NMEA navigation position device Go to Step 15 to verify proper operation if the SBE 33 is used with both a NMEA navigation position device and a NMEA depth device 14 If using the SBE 33 with a NMEA navigation position device Type to exit the setup menu You should begin seeing NMEA data display in Seaterm Each time NMEA data is received the yellow NMEA Transmit LED on the SBE 33 should flash e IfNMEA data does not appear verify that the SBE 33 is connected to the NMEA device and that the proper cable is used e See Section 7 Troubleshooting for additional instr
8. 4800 baud The setting in the SBE 33 must match the baud rate programmed in the CTD For the most efficient operation keep the baud at 4800 baud See Setting Up and Testing System Once all baud rates are set you can also communicate with and change the setup of the CTD through the SBE 33 and Water Sampler using Seaterm See Setting Up and Testing System The SBE 19p us V2 and 25plus use a different terminal program than the older CTDs Set and or verify the CTD baud rate and establish CTD operating parameters 1 Connect the CTD directly to the computer not through the SBE 33 and Water Sampler using the data I O cable supplied with the CTD Double click on SeatermV2 exe Seaterm232 opens Follow the instructions in the software Help for connecting to the CTD Look at the connection baud rate in the title bar of the Command Data Echo Area If this is not a baud that can be used with the Water Sampler lt 4800 A Change the baud in the CTD e SBE 19plus V2 BaudRate x where x 1200 2400 or 4800 e SBE 25plus SetBaudConsole x where x 600 1200 2400 or 4800 B Reconnect to the CTD at the new baud rate see the software Help for details verify that the title bar of the Command Data Echo area shows the new baud rate C Record the baud you must also set the CTD baud rate in the SBE 33 see Setting Up and Testing System Establish other CTD setup and logging parameters see CTD manual Note the follo
9. Section 2 Description of SBE 33 This section describes the functions and features of the SBE 33 Carousel Deck Unit as well as system communications System Description Notes e The SBE 32 Carousel is a 12 24 or The SBE 33 Carousel Deck Unit provides power and real time data acquisition 36 bottle water sampler The SBE 55 and control for an SBE 32 Carousel Water Sampler that has the SBE 33 ECO is a 3 or 6 bottle water sampler interface option installed in its pylon The SBE 33 is compatible with all Seasave also supports acquisition of Carousel sizes full size up to 24 bottles compact and sub compact When data from a NMEA device connected powered and controlled by the SBE 33 the Carousel can be used with directly to the computer instead of the deck unit e SBE 19 19plus 19plus V2 25 25plus or 49 CTD Surface PAR channel was optional in No CTD beats earlier versions of the SBE 33 e Neil Brown MK III CTD requires an optional interface contact Sea Bird SBE 25 If the SBE 25 is integrated with more than 4 auxiliary voltage The SBE 33 can also be used to provide power and real time data acquisition sensors and the SBE 33 is and control for an SBE 55 ECO Water Sampler used with an SBE 19 appending both NMEA and Surface 19plus 19plus V2 25 25plus or 49 CTD or no CTD PAR you must set the SBE 25 real ae Sp ctnet al orless The SBE 33 Water Sampler system provides continuous real time data
10. device to the SBE 33 or in the NMEA navigation device itself e Verify that the cable pinouts are correct especially at the NMEA navigation device See Wiring System in Section 4 Mounting and Wiring System and also refer to the NMEA navigation device documentation e Ifthe cable is correct verify that the NMEA navigation device is on and is configured to send data Many NMEA navigation devices have programmable NMEA outputs and may need to be configured before they will transmit NMEA messages Again refer to the NMEA navigation device documentation or contact the device s manufacturer for customer support 48 Manual revision 013 Appendix Ill Replacement Parts SBE 33 Appendix Ill Replacement Parts Part Application F Number Hart Description Quantity 9 pin DB 9F to aia E cee and 171887 9 pin DB 9M cable E A 2 3 m 10 ft SBE 33 to computer COM ports 2 pin Connect NMEA Input on MS3106A 12S 3S to SBE 33 to computer 801422 9 pin DB 9S running NMEA 1 NMEA Interface test simulation program for cable 1 8 m 6 ft test purposes 25 pin DB 25S to For use with computer 171888 9 pin DB 9P cable with DB 25 connector adapter 1701S SBE 33 powercanio OOST SBE 23o 1 AC power source 2 pin Connect Sea Cable on 80915 MS3106A 12S 3P to SBE 33 to Water 1 2 pin RMG 2FS cable Sampler or PDIM for 10 m 33 ft testing 4 pin MSSWOgActasopag CUnee AR nine on l SBE 33 to Biosphe
11. hex 85 decimal byte 3 FC hex 252 decimal byte 4 5D hex 93 decimal byte 5 32 hex 50 decimal byte 6 B1 hex 177 decimal byte 7 41 hex 01000001 binary This is a new position bit 1 in byte 7 is 1 Latitude is positive bit 8 in byte 7 is 0 Longitude is negative bit 7 in byte 7 is 1 Latitude 36 65536 85 256 252 50000 47 62616 degrees Longitude 93 65536 50 256 177 50000 122 1565 degrees Depth Data if applicable Three bytes of depth data are appended to each scan of data after the position data Our software calculates depth as follows Depth meters byte 1 65536 byte 2 256 byte 3 10 Example Appended depth data 0032FC byte 1 00 hex 0 decimal byte 2 32 hex 50 decimal byte 3 FC hex 252 decimal Depth 0 65536 50 256 252 10 1305 2 meters 46 Manual revision 013 Appendix Il NMEA Message Simulation Program SBE 33 Appendix II NMEA Message Simulation Program Note While NMEATest can generate messages in only the four formats shown it can run using an existing raw NMEA data file in these formats as well as TRF DBT and DPT Note You can also run the simulation using only one computer if the computer has a spare COM port Note The SBE 33 must be connected to the Water Sampler to test the NMEA interface If it is not connected noise on the open Sea Cable connector will interfere with commu
12. off and then on again The display in Seaterm should look like this if you set it up for an SBE 19 or 25 SBE 33 36 Deck Unit V3 0 setup PC baud rate 9600 CTD baud rate 4800 7 data bits even parity NMEA baud rate 4800 NMEA messages decoded GGA GLL RMA RMC TRF DBT DPT Surface PAR disabled NMEA depth disabled start mode echo characters to and from the instrument Press to change the 33 36 Deck Unit setup 8 Continue testing starting at Step 8 in Setting Up and Testing System above 26 Manual revision 013 Section 3 Setting Up System SBE 33 Checking CTD Configuration xmlcon or con File in Seasave Notes e Seasave and SBE Data Processing Seasave our real time data acquisition and display program requires a configuration file which defines the CTD auxiliary sensors integrated with versions 7 20 introduced xmlcon files in XML format Versions 7 20 and later allow you to open a con or xmlicon file and to save it to a con or xmlcon file Seasave and SBE Data Processing use the same configuration file A new or recalibrated CTD ships with a configuration file that reflects the current configuration as we know it The file is named with the CTD serial number followed by a con extension For example fora CTD with serial number 2375 Sea Bird names the file 2375 con You may rename the file but not the extension if desired this will not affect the results the CTD and channel
13. or 6 are selected NMEA depth data and or Operating Surface PAR are also appended Modes Data from CTD is not transmitted Hex latitude longitude data is converted to ASCII text whenever a new position is received from NMEA device Format is 3 a Lat Lon LAT 47 37 51 N vous LON 122 09 41 W If NMEA message RMC is decoded date and time display on next line Format is DDMMYY HHMMSS 4 Add NMEA Depth to 3 bytes of depth data for example from a NMEA real time Hex Lat Lon echo sounder is added to each line of hex data from data CTD after lat lon data 5 Do not add NMEA Depth to real time NMEA depth data is not added Options Hex Lat Lon data 6 Add PAR to real 3 bytes of Surface PAR data is added to each line of time HEX data hex data from CTD before lat lon depth data 7 Do not add PAR to real time HEX data Surface PAR data is not added 8 Change Set reset baud rates data bits and parity NMEA __ communication settings baud rate and start mode whether SBE 33 starts in Communication and start mode Operating Mode 1 or 2 when power applied Settings and Start Modes 9 Display communication settings Display settings set up in Mode 8 and start mode 10 Enable diagnostic All NMEA messages received are echoed to level 1 transmit raw computer in raw form Used to determine which NMEA messages NMEA messages are being received by SBE 33 Diagnostic 11 Enable diagnostic level 2 transmit decoded NMEA mes
14. selection of data bits and parity on PCB dip switch Add detailed dimensional information and weight Add more information on accessing and setting dip switches Correct information about bottle confirm bit in modulo word only true for 91 1plus not for 33 007 03 07 Add information that can use 33 with SBE 55 ECO Water Sampler Add information that can use 49 with 32 with serial interface amp 33 no NMEA or Surface PAR Incorporate Seasave V7 update all descriptions of how to set up amp use Seasave update 19plus con file screen capture to show scan time added field 008 04 08 Update SBE 55 schematic frame change amp ECM connectors at bottom Update for use with 19plus V2 Update Seasave water sampler tab dialog box remote firing now available also mention ability to do mixed mode auto fire and to do auto fire on downcast Update con dialog box for 19plus to show NMEA depth data added selection Update real time data acquisition dialog box showing selection for resetting to state 1 echo only no NMEA data when cast complete 009 02 09 Update con file screen capture for Seasave Data Proc 7 18 Add note that NMEA can go directly to computer Add note to turn off CTD magnetic switch before stopping data acquisition so putting deck unit back into state 1 is successful Delete references to SCPlusV2 terminal program replaced with SeatermV2 Add information about software comp
15. 2 rene gt Prog 600 1200 or 4800 3 0K and later programmable 25 Prior to 3 0K contact Sea Bird for 600 1200 2400 or 4800 instructions on changing baud rate if necessary 25plus 600 1200 2400 or 4800 All versions programmable 49 1200 2400 or 4800 All versions programmable The baud rate for Water Sampler communication with the CTD must be set in both the CTD and in the SBE 33 Note SBE 19 19plus not 19plus V2 25 not 25plus or 49 SBE 19plus V2 and 25plus use a different terminal program see Set if programmable and or verify the CTD baud rate and establish CTD SBE 19plusV2 or 25plus below operating parameters 1 Connect the CTD directly to the computer not through the SBE 33 and Water Sampler using the data I O cable supplied with the CTD 2 Double click on Seaterm exe If this is the first time the program is used the setup dialog box may appear w SeaTerm Setup x The initialization file SeaT erm ini was not found in the Windows directory Please enter the following setup information IMPORTANT To complete setup review the configuration setting for your instrument by selecting your instrument type from the Configure menu list COM Port 1 v Select the CTD and the computer COM port for communication with the CTD Click OK 20 Manual revision 013 Section 3 Setting Up System SBE 33 Notes e The SBE 33 s factory default setup commands the Water Sampler t
16. 33 SBE 33 Notes For NMEA depth data DBT or DPT e Depth data can be decoded and merged with CTD data only if NMEA position data GGA GLL RMA RMC or TRF is also available Seasave real time data acquisition software and SBE Data Processing post processing software are compatible with NMEA depth data in the data stream Note This manual describes the primary use of the SBE 33 with a CTD and Water Sampler Setup for use with a CTD and PDIM is the same except as noted Notes e Help files provide detailed information on the software e NMEATest a NMEA navigation device simulation program is part of the SBE Data Processing installation Separate software manuals on CD ROM contain detailed information on Seasave and SBE Data Processing Sea Bird supplies the current version of our software when you purchase an instrument As software revisions occur we post the revised software on our FTP site See our website www seabird com for the latest software version number a description of the software changes and instructions for downloading the software from the FTP site The SBE 33 can merge position data with CTD data The SBE 33 decodes messages that are output from navigation devices supporting NMEA 0183 protocol in one or more of the following formats GGA Global Positioning System Fix Data GLL Geographic Position Latitude Longitude RMA Recommended Minimum Specific Loran C Data RMC
17. B Pin 5 NMEA B signal return Proceed as follows instructions are written assuming you are using a second computer to emulate the NMEA navigation device 1 On computer 1 set up Seaterm to communicate with the SBE 33 at 9600 or 19200 baud 7 or 8 data bits no or even parity Steps 1 and 2 in Setting Up and Testing System in Section 3 Setting Up System 2 Turn on power to the SBE 33 The SBE 33 status message displays in Seaterm SBE 33 36 Deck Unit V3 0 setup PC baud rate 9600 CTD baud rate 4800 8 data bits no parity MEA baud rate 4800 MEA messages decoded GGA GLL RMA RMC TRF DBT DPT Surface PAR disabled MEA depth disabled start mode echo characters to and from the instrument Press to change the 33 36 Deck Unit setup 3 Type to access the NMEA Interface menu 4 Type 3 and press the Enter key to switch to mode 3 47 Manual revision 013 Appendix Il NMEA Message Simulation Program SBE 33 5 When in mode 3 A Type 0 and press the Enter key to switch to mode 10 Mode 10 transmits all NMEA messages in raw form The menu response indicates that the SBE 33 has diagnostic level 1 enabled B Type and press the Enter key to switch to mode 11 Mode 11 transmits NMEA messages in decoded form The menu response indicates that the SBE 33 has diagnostic level 1 enabled and diagnostic level 2 enabled so NMEA messages will be transmitted in raw form followed by decoded form 6
18. CE SBE 33 Carousel Deck Unit For use with SBE 32 Carousel Water Sampler or SBE 55 ECO Water Sampler Back Panel connectors and fuses User s Manual Sea Bird Electronics Inc 13431 NE 20 Street Bellevue Washington 98005 USA Telephone 1 425 643 9866 Fax 1 425 643 9954 Manual Version 013 03 18 14 seabird seabird com SBE 33 36 Firmware Version 3 0c and later www seabird com Seasave V7 version 7 23 2 and later Limited Liability Statement Extreme care should be exercised when using or servicing this equipment It should be used or serviced only by personnel with knowledge of and training in the use and maintenance of oceanographic electronic equipment SEA BIRD ELECTRONICS INC disclaims all product liability risks arising from the use or servicing of this system SEA BIRD ELECTRONICS INC has no way of controlling the use of this equipment or of choosing the personnel to operate it and therefore cannot take steps to comply with laws pertaining to product liability including laws which impose a duty to warn the user of any dangers involved in operating this equipment Therefore acceptance of this system by the customer shall be conclusively deemed to include a covenant by the customer to defend indemnify and hold SEA BIRD ELECTRONICS INC harmless from all product liability claims arising from the use or servicing of this system Manual revision 013 Declaration of Conformity SBE 33 Declaration of Conformit
19. Certification Services LLC Notified Body 0976 the undersigned hereby declare that the equipment specified above conforms to the above European Union Directives and Standards Authorized Signature waite ral Name Nordee Ege Title of Signatory President Date 3 September 2013 Place Bellevue WA Manual revision 013 Table of Contents SBE 33 Table of Contents Limited Liability Statement cccscssssscssssccsscesccesesseessscesseesesees 2 Declaration of Conformity cssccsssscscsssscccccescccsssceessscsessessesees 3 Table of Content cscssssssscssscssscssscssssssssnsssssssesssesssessscssscossenesees 4 Section 1 Introduction scccscssscssssssscssssssessssssceesssesssesscssessesees 6 About this Manual ccccccecssesssesseeseccescnsecesecaecaecsaecaeceaeeseseeeeseeeneeeereneenseees 6 Unpacking SBE 33 cccecccssecsesssesseeseecesceeceseceaeceaecsaecaecaeeseeseeeeseeseeeereneenseeas 7 Section 2 Description Of SBE 33 ccsscsssccssscesecsssccesessorssecsesceees 8 System Description x ee E E E ce E levied tee Win R E 8 Specifications s nesnenin nin E E R E E A ii ioi 11 SBE 33 Front Pa elssnsasccnrinrennrnre n a E 12 SBE 33 Back Panekirnusnaedongmioi nner e E E T 12 Cables anid Wirihginscsnessnrerneiiie inienn AR 13 System Communications cccesccesecsseescesseeseeeeseeeeceecnseeeseeeseeeeeeeaeeneeeeeeneeses 16 NMEA and Surface PAR icc ccc cc
20. Oncomputer 2 double click on nmeatest exe in same directory as SBE Data Processing The NMEA Test screen appears 7 On the NMEATest screen click on the Configure menu The Configure dialog box appears Select e NMEA message to be simulated RMA RMC GLL or GGA or select an existing NMEA data file on your computer by clicking Send File and browsing to the desired file If selecting a NMEA data file the NMEA message must be compatible with the SBE 33 GGA GLL RMA RMC TRF DBT or DPT e Baud rate for transmission of simulated NMEA data to SBE 33 4800 or 9600 must match SBE 33 setup e COMM port on computer 2 for transmission of NMEA data to SBE 33 e Message interval time between simulated messages to be transmitted to SBE 33 Click OK 8 On the NMEATest screen click Start NMEA data should begin to display on the NMEA Test screen on computer 2 and in Seaterm on computer The yellow NMEA transmit light should flash each time the simulation program transmits a new position The data displayed by Seaterm should correspond to that of the simulation program see Appendix I NMEA Navigation Device Message and Data Formats for the raw and decoded NMEA message formats If properly decoded data appears on the screen the SBE 33 is working properly If the system works with the simulation program but does not work when connected to the actual NMEA navigation device the problem is with the cable from the NMEA navigation
21. SBE 33 Data bits and parity for Serial Data Channel between SBE 33 and computer must match data bits and parity of CTD 8 data bits and no parity for SBE 19plus 19plus V2 25plus or 49 7 data bits and even parity for SBE 19 or 25 Seasave also supports acquisition of data from a NMEA device connected directly to the computer instead of the deck unit SBE 25 If the SBE 25 is integrated with more than 4 auxiliary voltage sensors and the SBE 33 is appending both NMEA and Surface PAR you must set the SBE 25 real time output rate to 4 scans sec or less see the SBE 25 manual for command details SBE 25plus If the SBE 33 is appending both NMEA and Surface PAR you must slow down the real time output rate by setting SetHistoricRate 0 see the 25plus manual for command details SBE 49 Seasave 7 23 2 and later supports acquisition of Surface PAR data When sending commands to the Water Sampler to reset the system or to fire bottles the SBE 33 sets the most significant bit low 16 Manual revision 013 Section 2 Description of SBE 33 SBE 33 NMEA and Surface PAR Notes e SBE 25 if the SBE 25 is integrated The SBE 33 includes a NMEA 0183 interface that permits NMEA data to be with more than 4 auxiliary voltage sensors and the SBE 33 is appending both NMEA and Surface PAR you must set the SBE 25 real time output rate to 4 scans sec or less see SBE 25 manual for command details SBE 25plus If the SBE 33 is appending both NMEA and
22. Surface PAR you must slow down the real time output rate by setting SetHistoricRate 0 see the 25p us manual for command details SBE 49 Seasave real time data acquisition software 7 23 2 and later supports acquisition of Surface PAR data If you are not sure which NMEA messages your navigation device is sending see Section 7 Troubleshooting for information on viewing the raw NMEA message using the SBE 33 s diagnostic mode merged with the CTD data The SBE 33 is designed to decode messages that are output from devices supporting NMEA 0183 protocol Decoded NMEA data can be appended to the end of the CTD data stream in the SBE 33 and passed to the computer for storage and or display with the CTD data see Appendix I NMEA Device Message and Data Formats The Yellow NMEA Transmit LED on the SBE 33 front panel flashes each time a NMEA message is received should be same rate at which your NMEA device is transmitting The SBE 33 appends the same NMEA message multiple times until a new message is decoded e Example A NMEA device outputs its message once every 5 seconds The Yellow NMEA Transmit LED flashes every 5 seconds and the same message is appended to each scan of CTD data within that 5 seconds If NMEA position data is being added to the data stream the SBE 33 also allows for the addition of NMEA depth for example from a NMEA echo sounder to the data stream The SBE 33 can also acquire the 0 to 5 volt output
23. a Formats SBE 33 Appendix I NMEA Navigation Device Message and Data Formats Message Formats GGA Global Positioning System Fix Data Time position and fix related data for a GPS receiver Notes GGA hhmmss ss IIL ILa yyyyy yy b x xx x x x x M x x M x x xxxx hh lt CR gt lt LF gt e represents two device specific characters e x represents miscellaneous parameters that are ignored by the SBE 33 lt CR gt is carriage return e lt LF gt is line feed See the table below for definitions of message parameters Seasave and SBE Data Processing are compatible with NMEA depth data in the data stream NMEA depth data can be decoded and merged with CTD data only if NMEA position data is also available Seasave supports acquisition of GLL Geographic Position Latitude Longitude Latitude and Longitude of present position time of position fix and status GLL IIL lLa yyyyy yy b hhmmss ss A hh lt CR gt lt LF gt RMA Recommended Minimum Specific Loran C Data Position course and speed data provided by a LORAN C receiver RMA A IIL ILa yyyyy yy b x x X x X X X x x x a hh lt CR gt lt LF gt RMC Recommended Minimum Specific GPS TRANSIT Data Time date position course and speed data provided by a GPS or TRANSIT navigation receiver RMC hhmmss ss A lll la yyyyy yy b x x x x ddmmyy x x a hh lt CR gt lt LF gt TRF TRANSIT Fix Data Time date position and information related to a TRANSIT fix
24. ampler manual for details on rigging the water sampler for operation see the appropriate CTD manual for CTD setup The SBE 33 can also be used with the Power and Data Interface Module PDIM and a number of Sea Bird CTDs when a Water Sampler is not available or needed The PDIM provides the same power and CTD data interface functionality as the SBE 32 or 55 Water Sampler but without water sampling capability Sea Bird welcomes suggestions for new features and enhancements of our products and or documentation Please contact us with any comments or suggestions seabird seabird com or 425 643 9866 Our business hours are Monday through Friday 0800 to 1700 Pacific Standard Time 1600 to 0100 Universal Time in winter and 0800 to 1700 Pacific Daylight Time 1500 to 0000 Universal Time the rest of the year Manual revision 013 Section 1 Introduction SBE 33 Unpacking SBE 33 Shown below is a typical SBE 33 shipment Inclusion of test cables etc is dependent on the order SBE 33 Carousel Deck Unit Rack mount kit SBE 33 power cable screws not shown Computer to SBE 33 cable for Serial Data amp Carousel Data connectors 2 cables SBE 33 SBE 33 to Water Sampler test cable Sea Cable connector at SBE 33 end of cable NMEA Input connector NMEA Input Interface test cable Software and Electronic Copies of Software Manuals and User Manual Manual revision 013 Section 2 Description of SBE 33 SBE 33
25. and Water Sampler Uploading CTD data from memory Processing data using SBE Data Processing Editing raw data file See Wiring System in Section 4 Mounting and Wiring System for wiring details Acquiring Real Time Data and Firing Bottles from Seasave Notes When using the SBE 49 FastCAT with the SBE 33 e Seasave 7 23 2 and later supports acquisition of Surface PAR data If the SBE 49 is not set to AutoRun Y start sampling automatically when power is applied start sampling by sending the SBE 49 the Start command in Seaterm before you run Seasave Note When the SBE 33 is used with the PDIM the SBE 33 Carousel Data channel is not connected to the computer the water sampling COM port setting in Seasave is ignored Run Seasave to acquire real time data and fire bottles Proceed as follows 1 Double click on Seasave exe Seasave V7 opens 2 Click Configure Inputs The Configure Inputs dialog box appears A Click the Serial Ports tab CTD Serial Port Select the computer port connected to the SBE 33 Serial Data connector which sends commands to and receives replies from the CTD through the Water Sampler and the baud rate data bits and parity The baud rate data bits and parity must agree with the SBE 33 setup see Setting Up and Testing System in Section 3 Setting Up System Water Sampling and 911Pump Control Serial Port Select the computer port connected to the SBE 33 Carousel Data con
26. ast Click Auto Fire Test Tone Pressures amp Positions to input parameters see discussion below Note Set up and test tone emitted by computer running Seasave when each bottle Auto Fire on downcast is available with fire confirmation is received Tone is provided through use of autofireondowncast command e PC s internal speaker or line parameter e PC s sound card for transmission to external speakers or headphones I Enable remote firing Control bottle firing from a remote computer through TCP IP ports instead of as defined by Firing Sequence Select ports on TCP IP Ports tab See Seasave manual or Help for details PC sound card Perform any other desired setup in the Configure Inputs dialog box and click OK 3 Perform any other desired setup in Configure Outputs 4 Perform any desired setup in the Display menu For example to set up the display of bottle firing parameters in a plot click in the plot window and select Modify The Plot Display dialog box appears e Select Show fire sequence to list the bottle closure order to the right of the plot e Select Show bottle lines to place horizontal lines in the plot to indicate data associated with closures Select line label style and color 32 Manual revision 013 Section 5 Operating System SBE 33 5 Inthe Real Time Data menu select Start The dialog box looks like this Data Archiving Options ie e Begin archiving data immedi
27. ata acquisition and data analysis and display Seasoft V2 includes Seaterm SeatermV2 Seasave V7 SBE Data Processing Seaterm Sea Bird s Windows terminal program used to communicate with the SBE 33 and or the CTD SeatermV2 Windows terminal program auncher Depending on the instrument selected it launches Seaterm232 RS 232 instruments Seaterm485 RS 485 instruments or SeatermIM inductive modem instruments Seaterm232 Windows terminal program used with Sea Bird instruments that communicate via an RS 232 interface and that were developed or redesigned in 2006 and later The common feature of these instruments is the ability to output status information in XML 43 Manual revision 013 Glossa Safety and Electrical Symbols Some or all of the following symbols may be used on the SBE 33 SBE 3 3 Symbol Description Potentially hazardous voltage lt gt Hazardous Voltage gt 30 VDC may be present continuing Attention There is a potential hazard consult the manual before gt DC Direct Current reinforced electrical insulation Double insulated The metal enclosure of the SBE 32 is isolated such that protection from electrical shock is provided through Static awareness Static discharge can damage part s Protective earthing terminal Op ol 44 Manual revision 013 Appendix NMEA Navigation Device Message and Dat
28. ata bits MEA baud rate 9600 4800 no parity 4800 MEA depth start mode Press to MEA messages decoded GGA GLL Surface PAR disabled RMA RMC TRF DBT DPT disabled echo characters to and from the instrument change the 33 36 Deck Unit setup Looking at selected lines Description Both the SBE 33 and SBE 36 use the same setup procedure Baud for communication between computer and SBE 33 s Serial Data channel 9600 or 19200 factory default 9600 Baud for communication between CTD and Water Sampler 600 1200 2400 or 4800 factory default 4800 Upon power up the SBE 33 reads this setting and automatically sends a command to the Water Sampler to set its baud rate For the most efficient operation keep the baud rate at 4800 baud if it is feasible for the CTD Baud rate must be set in both the SBE 33 and in the CTD Data bits and parity for communication between computer and SBE 33 s Serial Data channel set to 8 data bits and no parity for SBE 19plus 19plus V2 25plus or 49 factory default or 7 data bits and even parity for SBE 19 or 25 Must match data bits and parity of CTD Baud for communication between SBE 33 and NMEA device factory set in SBE 33 to 4800 must match NMEA device Output from NMEA device must match one of these messages Notes e If the communication settings you set in Seaterm s Configure menu Text do not match the communica
29. ately to store raw frequencies and Start Real Time Data Acquisition voltages real time data as soon as Start button is clicked and communication is established e Begin archiving data when Start Archiving command is sent to control when data begins to be written to file This allows you to eliminate scans associated with deploying CTD from ship deck and soaking instrument near surface alternatively remove these scans later in SBE Data Processing If you make this selection when you click Start button and communication is established a dialog box with Start Archiving button appears Click this button when ready to begin saving scans to file or select Start Archiving in Real Time Data menu e Do not archive data for this cast to not save data to a file Real time data will still appear in displays Data Archiving Options Begin archiving data immediately C Begin archiving data when Start Archiving command is sent Do not archive data for this cast Output data HEX file C Documents and Settings dbresko My Documents 1 Splustest hex Click Select Output Data File Configuration Options Currently selected instrument configuration Select Qutput Data File Name Name Save Archived Data As xmlcon or con file is shown containing information on number and dialog box appears browse to type of sensors interfacing with CTD calibration coefficients and desired file l
30. atibility information 013 03 14 e Add information that Seasave 7 23 2 allows Surface PAR acquisition with SBE 49 Add information on use of SBE 33 with PDIM in place of Water Sampler when a Water Sampler is not available or needed e Remove references to requiring Seasave version 7 19 or later 7 19 released gt 4 years ago e Update Declaration of Conformity e Add caution on using spray can lubricants on MCBH connectors e Remove standard and optional language for connectors e Fix typos 51 Manual revision 013 Index SBE 33 Index N con file 27 NMEA 17 23 30 xmlcon file 27 data formats 45 message formats 45 ae simulation program 47 B troubleshooting 42 Back panel 12 NMEATest 9 19 47 Baud rate 16 20 31 Bottle firing 31 35 O C Operating modes 17 Operating system 31 Cables 13 28 CE certification 3 P Cleaning 39 Communications 16 Parity 16 Configuration file 27 Parts Connectors 39 replacement 49 CTD PDIM 8 16 configuration file 27 Processing data 37 setup 20 23 upload 37 R D Real time acquisition 31 Recovery 36 Data bits 16 Replacement parts 49 Data processing 37 Revision history 50 Data upload 37 Routine maintenance 39 Deck gear 28 Declaration of Conformity 3 Description 8 S Dimensions 11 Safety symbols 44 SBE 33 E back panel 12 front panel 12 Editing data files 38 SBE Data Processing 9 19 Electrical symbol
31. atibility with Vista Add information on 25 with 33 deck unit if have NMEA Surface PAR gt 4 voltages deck unit cannot keep up Set 25 to output real time at 4 Hz or less instead of 8 Hz maximum rate 010 Continued on next page 03 10 Electronics redesign 1 PCB NMEA is standard Dip switches are gone replaced by commands Serial Data and Carousel Data connectors now 9 pin changed cables that ship with deck unit Changes required for CE certification New photo and drawing of back panel Update software name Add information about xmlcon file Seasave 7 19 Allows acquisition of NMEA depth data for all profiling CTDs Allows acquisition of NMEA data for SBE 49 Add information about unsupported modem message from Carousel Add information that must be in Mode characters to from CTD pass thru 33 if trying to send command to CTD thru 33 Update SBE address 50 Manual revision 013 Appendix IV Manual Revision History SBE 33 Continued from previous page 011 03 12 e Add information on use with SBE 25plus e Add information about ordering cable winch and deck gear e Add more troubleshooting information e Add information about software compatibility with Windows 7 e Add information about launching Seaterm from SeatermV2 012 04 13 e Add Declaration of Conformity e Show Surface PAR as standard was optional e Add cable and wiring diagrams e Update software comp
32. cscieececeseeccesa cies ceceesstecieacaccdcvssesutdecdesstecteeteetvese 17 Section 3 Setting Up System cscsssscssssccccsccccssssceesssseessessesees 19 Installing Software 4 che cnn tis E ae i ada waneh 19 Setting CTD Baud Rate and Operating Parameters ccceseeeseeteeereereeees 20 SBE 19 19plus not 19plus V2 25 not 25plus OF 49 eceeceeseeeeeeeees 20 SBE 19 plus V2 or Q5plus c cccccsccccsecssecsceescesceescececesecsaeceeceeeseeeeeeeeeeseserees 22 Setting Up and Testing System cccscecssesseesseesseeesceseceeeeesecseeceseeeesaeeeseeees 23 Changing Communication Settings between SBE 33 and Computer 26 Checking CTD Configuration xmlcon or con File in Seasave 0 27 Section 4 Mounting and Wiring System cccscsssssssssessseeeees 28 Cable Winch and Deck Gear not supplied by Sea Bird 0 eeeeeeereeeees 28 Mounting SBE 33 0 4 sates suc sect nies ea as ties a ee ee RERA 28 Wiring Systeme T oe eee ee Aaa 29 Water Sampler or PDIM to CTD 0 eeeceecceeseeescesceeseecoeeeseceeceeeneeeneenneenes 29 Sea Cable from SBE 33 to Water Sampler or PDIM cccceeseeeeereees 29 SBE 33 to COmMpPuter iscssseccosivcnecks ek bv a a eesne a co 29 Pwer to SBE 33 noei seene eae hoir ae e OR hada OORE 30 NMEA Navigation Device to SBE 33 sssesessssesssssssrsresesseesreresseserseeseese 30 Surface PAR Sensor to SBE 33 s essssssesesesesssrereseeseseseesessee
33. d xmlcon or con configuration file for example the configuration file indicates that NMEA position data is added through a NMEA device connected to the computer but you did not connect the NMEA device to the computer Seasave continues with real time data acquisition saving the raw data to a file for later processing but does not show or plot data in the Seasave displays The data quality is not affected you can correct the configuration file error in SBE Data Processing post processing and process the data as required Verify that the settings in the configuration file match the current CTD configuration number and type of auxiliary sensors sensors assigned to correct channels NMEA and Surface PAR selected if applicable Problem 2 SBE 33 Completely Inoperable WARNING Use extreme caution when making these tests Cause Solution 1 If the power switch is on but the power switch pilot light is out no other panel lights are on and the fan is not running either AC power has been disconnected or the main fuse has blown Check the AC power source Turn off the SBE 33 remove the power cable wait 1 minute and check the main fuse Replace if necessary If the main fuse blows again there is probably a short in the main chassis AC wiring See the chassis wiring diagram it may be necessary to disconnect one section after another to locate the problem 40 Manual revision 013 Section 7 Troubleshooting SBE 33 Prob
34. device that is either adjustable or pre designed to lay the correct number or wraps across the drum the cable diameter and drum width determine this The winch must also be equipped with a slip ring rotating contact assembly at least 2 channels A cable breaking strength of at least 5 to 7 times the maximum payload weight is recommended for safety and cable longevity The cable must also be terminated both mechanically and electrically at the underwater instrument end Cable termination mechanical at the winch drum is usually addressed by the winch maker The cable is terminated electrically to the slip ring per the slip ring manufacturer s specification Sea Bird is not expert in winch and deck gear and cannot recommend a block and A frame From past experience and with knowledge of what other customers use we can point out sources for typical cable solutions and cable terminations suppliers For links to suppliers of winches cable and cable termination hardware see our website http www seabird com other_manufacturers cablewinchmanf htm Mounting SBE 33 Detachable rack mount ears are provided for mounting the SBE 33 to standard 19 inch electronics bays Ensure that the back of the SBE 33 specifically the cooling fan and its vent is not obstructed 28 Manual revision 013 Section 4 Mounting and Wiring System SBE 33 Wiring System Note The CTD optical isolation feature SBE 25 standard SBE 19 optional m
35. e to remove blocks of bad data to edit the header or to add explanatory notes about the cast Editing the raw file can corrupt the data making it impossible to perform further processing using Sea Bird software Sea Bird strongly recommends that you first convert the data to a cnv file using SBE Data Processing s Data Conversion module and then use other SBE Data Processing modules to edit the cnv file as desired The procedure for editing a hex data file described below has been found to work correctly on computers running Windows 98 2000 and NT If the editing is not performed using this technique SBE Data Processing may reject the edited data file and give you an error message 1 Make a back up copy of your hex data file before you begin 2 Run WordPad 3 Inthe File menu select Open The Open dialog box appears For Files of type select All Documents Browse to the desired hex data file and click Open 4 Edit the file as desired inserting any new header lines after the System Upload Time line Note that all header lines must begin with an asterisk and END indicates the end of the header An example is shown below for an SBE 21 with the added lines in bold Sea Bird SBE 21 Data File FileName C Odis SAT2 ODIS oct14 19 ocl15_99 hex Software Version Seasave Win32 v1 10 Temperature SN 2366 Conductivity SN 2366 System UpLoad Time Oct 15 1999 10 57 19 Testing adding header lines Must sta
36. e sensor type External voltage channels e NMEA Select if NMEA navigation device used and select whether NMEA device is connected directly to Deck Unit or to computer You can also append NMEA depth data 3 bytes and NMEA time data 4 bytes after Mode Scans to average Channel Sensor table reflects this choice Profile Sample interval seconds fi 0 Lat Lon data Seasave adds current latitude longitude and universal time code to data header appends NMEA data to every scan and writes NMEA data to nav file every time Ctrl F7 is JV NMEA position data added NMEA device connected to deck unit NMEA depth data added NMEA time added C NMEA device connected to PC pressed or Add to nav File is clicked Note NMEA time can only be appended if NMEA device connected directly to computer Surface PAR Select if Surface PAR sensor used Seasave appends Bi Surface PAR data to every scan Adds 2 channels to Channel Sensor table Do not increase External voltage channels to reflect this External voltage channels reflects only external voltages going directly to CTD from auxiliary sensor See Application Note 47 Scan time added Select to have Seasave append time seconds since January 1 1970 GMT to each data scan Surface PAR voltage added 4 Count 2 Frequency 3 Count 4 4 D voltage 0 5 A D voltage 1 pH 6 A D voltage 2 7 A D voltage 3 Repo
37. ently raised to the surface water may be trapped at the pressure at which it entered the housing presenting a danger if the housing is opened before relieving the internal pressure Instances of such flooding are rare However a housing that floods at 5000 meters depth holds an internal pressure of more than 7000 psia and has the potential to eject the end cap with lethal force A housing that floods at 50 meters holds an internal pressure of more than 85 psia this force could still cause injury See the CTD and or Water Sampler manual for instructions on relieving pressure inside the housing 36 Manual revision 013 Section 5 Operating System SBE 33 Uploading CTD Data from Memory Notes Typically data processing is performed on the real time data acquired in e The SBE 49 does not have a Seasave However some users choose to upload the data in the CTD memory memory for storing data as a back up to the real time data This allows for comparison of the data in The SBE 25plus does not transmit memory to the real time data to ensure that cable problems noise etc did not fealnine gata irom any auxiliary corrupt the real time data serial sensors integrated with the CTD you must upload the data from memory to access the serial sensor data Upload data from the CTD memory as follows 1 When the cast is complete turn the CTD switch off 2 Turn power to the SBE 33 off 3 Disconnect the CTD from the Wat
38. er Sampler 4 Connect the CTD directly to the computer using the data I O cable provided with the CTD Follow directions in the CTD manual for uploading data Processing Data Using SBE Data Processing Note 1 Use SBE Data Processing s Data Conversion module to convert the real See the SBE Data Processing time hex raw data file and the bl bottle log file created by Seasave to e A cny file with all data converted to engineering units e A ros water bottle file containing data for a user selected range of scans before and after each bottle firing manual and or Help files 2 If desired convert the raw data file xml for SBE 25plus hex for all other CTDs uploaded from the CTD memory to a cnv file in SBE Data Processing s Data Conversion module for comparison to the real time data 3 Once the data is converted perform further processing align filter remove bad data etc calculate derived variables and plot data using SBE Data Processing s other modules 37 Manual revision 013 Section 5 Operating System SBE 33 Editing Raw Data File Note Although we provide this technique for editing a raw hex file Sea Bird s strong recommendation as described above is to always convert the raw data file and then edit the converted file Sometimes users want to edit the raw data file before beginning processing to remove data at the beginning of the file corresponding to instrument soak tim
39. hen on again The display in Seaterm should look like this SBE 33 36 Deck Unit V3 0 setup PC baud rate 9600 CTD baud rate 4800 8 data bits no parity NMEA baud rate 4800 NMEA messages decoded GGA GLL RMA RMC TRF DBT DPT Surface PAR disabled NMEA depth disabled start mode echo characters to and from the instrument Press to change the 33 36 Deck Unit setup 5 Type to change the SBE 33 setup Type 8 and press the Enter key to change the communication settings in the SBE 33 to those required for use with your CTD SBE 19 or 25 7 data bits and even parity SBE 19plus 19plus V2 25plus or 49 8 data bits and no parity see CTD configuration sheet for CTD baud rate The display looks like this PC baud rate X new value type desired value press Enter CTD baud rate X new value type desired value press Enter parity X new value even parity or no parity e n type e or n press Enter NMEA baud rate X new value type desired value press Enter Start mode X new value echo or add Lat Lon e a type e or a press Enter The display then shows your new selections Type to return to the setup menu 6 Inthe Configure menu select the actual CTD you are using for 19plus V2 or 25plus select SBE 19plus On the COM Settings tab select settings to match the settings you input to the SBE 33 in Step 5 Click OK to save the settings and exit the dialog box 7 Turn power to the SBE 33
40. his is not a baud that can be used with the Water Sampler 600 1200 2400 or 4800 change the baud in the CTD The command to change the baud is given below for CTDs with programmable baud contact Sea Bird for instructions on older CTDs e SBE 19 Send SBn where n 1 600 baud 2 1200 baud or 6 4800 baud for firmware version 3 1d and above in the 3 0 series not applicable to the 4 0 series e SBE 19plus or 49 Send Baud x where x 1200 2400 or 4800 e SBE 25 Send SRx where x 1 600 baud 2 1200 baud or 4 4800 Click Connect on the Toolbar again verify that the Status bar shows the new baud rate Record the baud rate you must also set the CTD baud rate in the SBE 33 see Setting Up and Testing System Establish other CTD setup and logging parameters see CTD manual Note the following requirements for use with the SBE 33 e SBE 19p us Set OutputFormat 0 raw hex e SBE 49 Set OutputFormat 0 raw hex For typical use set AutoRun Y so the SBE 49 starts sampling automatically when power is applied Send QS to put the CTD in quiescent sleep state not applicable to SBE 49 21 Manual revision 013 Section 3 Setting Up System SBE 33 SBE 19p us V2 or 25plus Note The other CTDs that are compatible with the SBE 33 use a different terminal program see SBE 19 19plus 25 or 49 above Notes e The SBE 33 s factory default setup commands the Water Sampler to communicate with the CTD at
41. ing 0 5A Replace with Littelfuse Corp 312 500 only e AC Input is 120 VAC or 240 VAC 50 60 Hz selectable Fuse 5x20mm 250VAC Slow Blow 2 amp for 120 V or 1 amp for 240 V CEO PAR NMEA OC AC Input Cac Voltage Serial Datal A z Input Input Sea Cable fat Fuse Caution 120V 2 amp Carousel Data Ce wae R Fuse 240V 1 amp 0 5 Am g 12 Manual revision 013 Section 2 Description of SBE 33 SBE 33 Cables and Wiring PN 171887 OBS EXTENSION CABLE O69MF DB9 to DB9 cable 2 SBE 33 Serial Data XX FEET connector and Carousel Data connector to computer pt CABLE F841 BAG NON S ACKET COLOR JEE _ CONNECTORS OG9MF MOLOED _ _ S LENGTHS 16 10 15 25 50 X sLENGTHS 6l PACKAGING IMOIVDUALLY POLYBAG J Test Cable Wiring Sea Cable connector on SBE 33 to XSG connector on Water Sampler DN 31314 RMG 2FS W LOCKING SLEEVE 2 pin to 2 pin Test Cable SBE 33 Sea Cable to SBE 32 Carousel Water Sampler SBE 55 ECO Water Sampler on PDIM Test Cable Wiring Sea Cable connector on SBE 33 to MCBH connector on Water Sampler DN 32695 GUIDE PIN 13 Manual revision 013 Section 2 Description of SBE 33 SBE 33 Slip Ring Cable DN 31371 HEATSHRINK ni TO THE SLIP RING CONNECTED TO SEA CABLE 2 pin SBE 33 CENTER CONDUCTOR Sea Cable to CLAMP MS3057 4A papi SBE P N 17316 slip ring es TO THE SLIP RING CONNECTED TO SEA CABLE ARMOR CABLE TYPE CONSOLIDATED
42. lem 3 Water Sampler or CTD Does Not Respond Cause Solution 1 There may be no voltage on the sea cable Turn off the SBE 33 remove the these tests power cable and wait 1 minute Connect a voltmeter range set to at least 300 volts DC to the back panel Sea Cable connector Turn on the SBE 33 The voltmeter should read 250V If no sea cable voltage is observed the sea cable supply is inoperative Turn off the SBE 33 remove the power cable and wait 1 minute Check the back panel Sea Cable Fuse If this fuse is blown the sea cable may have been inadvertently shorted or the Water Sampler or CTD may be malfunctioning Check the resistance across the sea cable and correct if shorted You can also perform a check with your water sampler and the supplied test cable try to fire the water sampler in this manner bypassing the actual sea cable If the system works with the test cable there could be problems with the sea cable and or termination WARNING Use extreme caution when making Problem 4 Unsupported Modem Message FFFFFFFF Unsupported modem message XX XX XxX from Water Sampler Cause Solution 1 There may be noise on the line causing extra characters to be sent Check the sea cable for damage see Problem 3 above Also check the cable between the water sampler and the CTD Cause Solution 2 The baud rate and or serial port for water sampler control may be incorrect e Check the serial port setting in Seasave Config
43. mode 2 changes to include NMEA Depth and or PAR as applicable 2 Add Lat Lon Depth PAR to the real time HEX data from the instrument Note The communication and start mode settings were also shown in the status message that appeared when you turned on power to the SBE 33 see Step 3 above Notes e CTD baud rate must be less than or equal to PC baud rate NMEA baud rate is 4800 or 9600 Parity selection also affects the communication data bits even parity 7 data bits no parity 8 data bits Changing PC baud rate or parity disrupts communications because they must match the settings in Seaterm s Configure menu See Changing Communication Settings between SBE 33 and Computer below for changing settings and reestablishing communications If NMEA depth is enabled using a NMEA depth device as well as a NMEA position device and or Surface PAR is enabled the query for Start Mode changes to include NMEA Depth and or PAR as applicable new value echo or add Lat Lon Depth PAR PC baud rate X new value CTD baud rate X new value parity X new value even parity or no parity e n NMEA baud rate X new value Start mode X new value echo or add Lat Lon e a 4 Type to access the setup menu The display looks like this SBE 33 36 Deck Unit set up menu Modes 1 Echo characters to and from the instrument 2 Add Lat Lon to the real time HEX data from the instrument 3 Transmi
44. ncel is added through deck unit If selected Seasave resets SBE 33 to i P E State 1 when acquisition stops State 1 is Echo only mode no NMEA or Surface PAR data is sent and is useful for setting up CTD 6 Inthe Start Real Time Data Acquisition dialog box click Start A Ifyou selected Begin archiving data immediately or Begin archiving data when Start Archiving command is sent above and selected Prompt for Header Information in the Header Form setup Configure Outputs the Header Information dialog box appears Fill in the desired header and click OK B Ifyou set up a water sampler in Configure Inputs Seasave sends a Reset command to the water sampler equivalent to pushing the Reset button on the SBE 33 and waits up to 60 seconds for confirmation If confirmation is not received verify that e Deck Unit power is on e There are connections between the computer ports and Deck Unit CTD communications and water sampler channels e The communication settings and COM Ports selected on the CTD Serial Port and Water Sampler tabs in Configure Inputs are correct C Ifyou selected NMEA position data added in the xmlcon or con file Seasave initializes NMEA communications Seasave automatically sends a command to put the SBE 33 in Mode 1 do not transmit NMEA data or Mode 2 append NMEA and or Surface PAR data to CTD data depending on the settings in the configuration file 33 Manual revision 013 Section 5 Operati
45. nector which sends commands to and receives from the Water Sampler 31 Manual revision 013 Section 5 Operating System SBE 33 B Click the Water Sampler tab and make the desired selections Configure Inputs C Documents and Settings dbresko Application Data Sea Bir strument Configuration Serial Ports Water Sampler TCPAP Ports Miscellaneous Pump Control SBE Carousel SBE 32 32C or 32SC SBE ECO SBE 55 or None when used with PDIM are only valid selections for SBE 33 Define serial port for water sampler operation on Serial Ports tab Water sampler type SBE Carousel Select the serial port for water sampler operation on the Serial Ports tab Total number of bottles to be closed up to 36 depending on water sampler capacity Sequential When commanded to fire bottles are fired in order of position bottle hers ot eset fiz in position 1 fired first bottle in position A Sequential 2 fired second etc Eres Sequential A User Input When commanded to fire Seasave prompts you to select which bottle to fire Table Driven When commanded to fire bottles are fired in order pre defined by user input table Click Bottle Positions for Table Driven to input bottle positions Auto Fire Fire bottles automatically at user input pre defined pressures or Tone for bottle fire confirmation depths can also fire some bottles Pippincma erase manually on upe
46. ng System SBE 33 Note The SBE 19 not 19plus or 19plus V2 and 25 not 25plus CTD must be in quiescent sleep state when the magnetic switch is turned on to start logging data If not when the switch is turned on the CTD will not log data A common problem is that communications are established with the CTD using Seaterm and then Seaterm is exited without putting the CTD into quiescent state with QS When 2 minutes pass without any communication between the computer and CTD the CTD times out and enters quiescent state automatically To ensure that Seasave works correctly verify that the CTD is in quiescent state or is already logging data when Seasave is started Note See the SBE Data Processing manual and or help files for processing data in the bl file D Ifyou selected Check Scan Length in the Options menu Seasave checks the xmlcon or con file to verify that the scan length defined by the configuration file matches the CTD i e number of sensors and inclusion of NMEA and or Surface PAR is as defined in the file Ifa Scan length error appears verify that e You are using the correct xmlcon or con configuration file e The configuration file has been updated as necessary if you added or deleted sensors added or deleted NMEA etc E Seasave sends a message e SBE 19 19plus 19plus V2 25 or 25plus Seasave message is Please turn on the using the magnetic switch If you have already started loggi
47. ng data ignore the message otherwise move the switch to the On position For the SBE 19 there may be a wait of up to 1 minute before data appears for the other CTDs data starts appearing in a few seconds e SBE 49 Seasave message is Waiting for data Data starts appearing in a few seconds Seasave times out if data is not received within Timeout in seconds at startup F Real time data then starts appearing in the screen displays To fire a bottle from Seasave do one of the following e Press Ctrl F3 or e Inthe Real Time Control menu select Fire Bottle Control The Bottle Fire dialog box appears you can leave this open throughout the cast If you selected Sequential or Table driven in the Water Sampler setup Step 2B the Bottle Fire dialog box displays the number of the next bottle to be fired If you selected User Input in the Water Sampler setup select the bottle you want to fire next When desired click Fire Bottle When Seasave receives a bottle fired confirmation from the Water Sampler it writes a line to an output file same filename as the data file with a bl extension The bl file contains the bottle firing sequence number bottle position date time and beginning and ending scan number to provide 1 5 seconds of scans for the fired bottle To stop logging and real time data acquisition A For an instrument that was started by movement of a switch such as SBE 19 19plus 19plus V2 25 or 25plus mo
48. ng power cables and other electrical connections 39 Manual revision 013 Section 7 Troubleshootin SBE 33 Section 7 Troubleshooting WARNING Life threatening high voltages are present in the SBE 33 and the underwater units when power is on These hazardous voltages persist for up to 1 minute after removal of power To protect against electrical shock disconnect the AC power cord from the SBE 33 and then wait a full minute before attempting service Always disconnect the AC power cord before checking fuses This section reviews common problems in operating the SBE 33 and provides the most likely causes and solutions Servicing should be performed by experienced technicians who have been trained to work with complex mechanical electrical equipment For protection of the circuitry we also recommend removing AC power and then waiting for minute for supply capacitor discharge before opening housings changing connections removing or inserting circuit cards or otherwise working on the equipment Problem 1 Unable to View Data in Seasave Real Time Data Acquisition program Note If Check scan length is enabled in Seasave s Options menu Seasave checks the data scan length against the expected length based on the configuration file setup and provides a warning that there is an error Sea Bird recommends using this setting Cause Solution 1 If the scan length does not match the selecte
49. nication with the SBE 33 Sea Bird provides a NMEA message simulation program NMEA Test as a troubleshooting aid NMEATest part of the Seasoft V2 package simulates a NMEA navigation devices transmitting NMEA messages If the system does not work with the actual NMEA navigation device but works with NMEATest the problem is with the interface cable from the NMEA navigation device to the SBE 33 or in the NMEA navigation device itself NMEATest is just a simulation and does not provide an actual data stream from an actual NMEA navigation device The data transmission baud rate 4800 or 9600 and time between messages are user programmable The NMEA message format RMA RMC GLL or GGA generated by the program is also user programmable Alternatively the user can specify an existing raw NMEA data file to use for the simulation see Appendix I NMEA Navigation Device Message and Data Formats for the required raw data format To execute the simulation program a second computer computer 2 is needed to emulate the NMEA navigation device A laptop computer is adequate for this purpose Install NMEATest on computer 2 NMEATest is part of the SBE Data Processing installation Use the NMEA Interface test cable PN 801422 supplied with the SBE 33 to connect NMEA Input on the SBE 33 to the simulation computer The simulation test cable connections are MS3106A12S 3S DB 9S Function Pin A Pin 3 NMEA 4 signal Pin
50. o communicate with the CTD at 4800 baud The setting in the SBE 33 must match the baud rate programmed in the CTD For the most efficient operation keep the baud at 4800 baud if it is feasible for the CTD See Setting Up and Testing System Once all baud rates are set you can also communicate with and change the setup of the CTD through the SBE 33 and Water Sampler using Seaterm See Setting Up and Testing System 3 10 11 Instrument The main screen looks like this example shown is for SBE 19plus it SeaT erm Version 1 20 SeaTerm Toolbar Command Data Echo Area Capture Status bar to file status grayed Upload out if not parameter capturing sBs va comi osin singe cat Instrument Baud rate data bits firmware version stop bits and parity In the Configure menu select the appropriate CTD In the dialog box click the COM settings tab Select the firmware version COM port baud rate data bits and parity see the CTD s configuration sheet Click OK to save the settings and exit the dialog box In the Communications menu select Options Cycle baud when connecting Click Connect on the Toolbar Seaterm tries to connect at the baud set in Step 5 If it cannot it cycles through all other possible baud rates to try to connect An S gt prompt shows that communication has been established Look at the connection baud rate in the Status bar If t
51. o CTD Connect the CTD s data I O connector to the Water Sampler s CTD connector using the cable supplied with the CTD Water Sampler e SBE 32 Carousel Water Sampler the CTD connector is a 4 pin connector e SBE 55 ECO Water Sampler the CTD connector is a 6 pin connector if using PDIM in place of Water Sampler Connect the CTD s data I O connector to the PDIM s 4 pin connector using the cable supplied with the CTD PDIM Sea Cable from SBE 33 to Water Sampler or PDIM Mold the bottom end of the sea cable to the 2 pin pigtail RMG 2FS or MCIL 2FS supplied with the Water Sampler or PDIM Connect positive power cable inner conductor to the small pin black on the pigtail and negative power cable armor to the large pin white on the pigtail If you inadvertently connect the power with the wrong polarity no damage will be done because there is a protective diode in series with the power line However the system will not work until the condition is corrected For safety reasons and for the most reliable performance Sea Bird strongly recommends use of the cable armor for the data and power return Make a secure mechanical connection between the cable armor and the Water Sampler lifting bail or when used with the PDIM the CTD cage lifting eye Connect the sea cable to the Water Sampler or PDIM electronics using care to dress the cable termination so that it will not be pinched by the shackle or clevis Install a cotte
52. o verify use the NMEA simulation program supplied with Seasoft This program simulates a NMEA navigation device transmitting a NMEA message see Appendix II NMEA Message Simulation Program Problem 6 Yellow NMEA Transmit LED Flashing but Lat Lon Data Not Displaying Cause Solution 1 NMEA device may be transmitting a NMEA message that has an unexpected format See Appendix I NMEA Navigation Device Message and Data Formats for a description of all the NMEA messages the SBE 33 can decode 42 Manual revision 013 Glossa SBE 33 Glossary Note All Sea Bird software listed was designed to work with a computer running Windows XP service pack 2 or later Windows Vista or Windows 7 NMEATest Sea Bird s Windows NMEA message simulation program which simulates NMEA messages for testing purposes installed with SBE Data Processing PCB Printed Circuit Board SBE Data Processing Sea Bird s Windows data processing software which calculates and plots temperature conductivity pressure data from auxiliary sensors and derived variables such as salinity and sound velocity Scan One data sample containing temperature conductivity pressure and optional auxiliary inputs Seasave V7 Sea Bird s Windows software used to acquire convert and display real time or archived raw data Seasoft V2 Sea Bird s complete Windows software package which includes software for communication real time d
53. ocation enter desired inclusion of NMEA and or Surface PAR data with CTD output To Configuration Options file name and click Save modify input configuration xmlcon or con file serial ports water sampler TCP IP ports and or miscellaneous click Configure Inputs ie s To modify outputs serial data output shared file output mark Instrument configuration xmlcon or con file to change select Configure Inputs variables TCP IP output TCP IP ports SBE 14 remote display PC alarms header form and or diagnostics click Configure Outputs C Documents and Settings dbresko My Documents 1 9plustest xmlcon Timeout in seconds at startup Time allowed before first data Configure Inputs Configure Outputs scan is received from instrument Seasave will time out and stop attempting to acquire data if data is not received from instrument within this time period imeout in seconds at startup 60 Timeout in seconds between scans Maximum gap allowed between scans after first data scan is received from instrument timeout in seconds between scans 0 Seasave will time out and stop attempting to acquire data if data is not received from instrument within this time period for example if a shark bites cable and interrupts data acquisition Seasave stops R attempting to acquire data after this gap Reset deck unit to state 1 when acquisition stops Appears in dialog box if xmlcon or con file indicates that NMEA data Report Hel Start sit Ca
54. of a Biospherical QSR 240 QCR 240 QSR 2200 or QCR 2200 Surface PAR sensor append it to the CTD data stream and pass it to the computer for storage and or display with the CTD data 17 Notes e In Seaterm use the character to access and exit the setup menu The SBE 33 must be in Mode 1 if trying to send commands to the CTD through the SBE 33 and Water Sampler To enter diagnostic modes 10 and or 11 first put the SBE 33 in Mode 3 Then enter a 10 or 11 at the mode selection prompt To exit diagnostic modes 10 and or 11 turn off power to the SBE 33 Manual revision 013 Section 2 Description of SBE 33 SBE 33 The SBE 33 has three operating modes and two diagnostic modes as well as two NMEA depth options and two Surface PAR options and selections for setting and displaying communication parameters and start up behavior Mode is selected in the setup menu while communicating with the SBE 33 with Seaterm see Setting Up and Testing System in Section 3 Setting Up System Type Mode Description Characters to and from CTD pass through SBE 33 1 Echo onl No NMEA or Surface PAR data is sent Useful for y setting up CTD without needing to disconnect CTD from system and connect it directly to computer 7 bytes of hex latitude longitude data is added to 2 Add Lat Lon to each line of hex data from CTD Used when hex data position data is required with CTD data If Options 4 and
55. or 15 Manual revision 013 Section 2 Description of SBE 33 SBE 33 System Communications Surface PAR Sensor order separately Set in Analog SBE 33 0 5 volt rd 1200 i 300 baud FSK telemetry RS 232C Carousel Data 2400 o commands to replies Channel commands to replies 4800 baud from Water Sampler from Water Sampler must match commands to CTD 300 baud 8 data bits no cannot be changed parity cannot be changed Doo g SBEBB EOS Computer setup in CTD Water Factory default in 5760 paud DESK RS 232C Serial Data Channel telemetry replies from i 3 SBE 33 is CTD cannot be changed commands to replies from CTD 4800 baud i Set in SBE 33 setup menu 9600 or 19200 baud 7 data bits amp even parity or 8 data bits amp no parity Cannot be changed 1 stop bit Factory default in SBE 33 is 9600 baud 8 data bits no parity NMEA 0183 protocol Set in SBE 33 setup menu 4800 or 9600 baud Cannot be changed 8 data bits 1 stop bit no parit NMEA Navigation Device not supplied by Sea Bird Notes Abbreviations DPSK differential phase shift keyed FSK frequency shift keyed PDIM can be substituted for Water Sampler when a Water Sampler is not available or needed PDIM provides same power and CTD data interface functionality but no water sampling capability Surface PAR Sensor input Surface PAR channel was optional in earlier versions of the
56. or 120 volts to a 240 volt power supply will cause severe damage to the SBE 33 NMEA Navigation Device to SBE 33 Connect the NMEA navigation device to NMEA Input on the SBE 33 back panel with the supplied 2 pin connector MS3106A12S 3S The connector pin designations are SBE 33 Function Pin A NMEA A signal PinB NMEA B signal return Note NMEA and Surface PAR channels were optional in earlier versions of the SBE 33 Surface PAR Sensor to SBE 33 Connect the Surface PAR sensor to PAR Input on the SBE 33 back panel A 4 pin connector MS3106A14S 2P was supplied if a cable was not provided The connector pin designations are Deck Biospherical Surface Unit Function PAR Sensor with Switchcraft Connector Pin A Signal ground Pin 3 Pin B Power 12 volts Pin 4 Power ground SBE 33 with NMEA PCB Assembly 40785b 40786b or Pin C A Pin 1 greater use pin C All previous versions do not use pin C Pin D Signal Pin 2 Pin5 Note Biospherical sold the Surface PAR sensor with other connector types in the past See the appropriate drawing for pinout details if your sensor does not have a Switchcraft connector 30 Manual revision 013 Section 5 Operating System SBE 33 Section 5 Operating System This section covers Acquiring real time data and firing bottles from Seasave Firing bottles from the SBE 33 front panel Recovering the CTD
57. or decimal fraction of seconds Leading zeros always included for hours minutes and seconds to maintain fixed length Decimal point and associated decimal fraction optional if full resolution not required Depth dddd d see Depth below transducer in meters Note Format can be dddd d or ddd d note at right i Optional Checksum Delimiter Checksum Optional Checksum Field hh Absolute value calculated by exclusive OR ing 8 data bits no start or stop bits of each character in message between but excluding and 45 Manual revision 013 Appendix NMEA Navigation Device Message and Data Formats SBE 33 Data Formats Note Position Data If a Surface PAR sensor is also connected to the SBE 33 the Seven bytes of NMEA position data are appended to each scan of hex data Surface PAR data three bytes is from the instrument appended before the position data Our software calculates latitude and longitude as follows Latitude deg byte 1 65536 byte 2 256 byte 3 50000 Longitude deg byte 4 65536 byte 5 256 byte 6 50000 Notes 1 Ifbit 1 in byte 7 is 1 this is a new position 2 If bit 8 in byte 7 is 1 Latitude is negative 3 Ifbit 7 in byte 7 is 1 Longitude is negative 4 North latitudes are positive south latitudes are negative 5 East longitudes are positive west longitudes are negative Example Appended position data 2455FC5D32B141 byte 1 24 hex 36 decimal byte 2 55
58. ousel Water Sampler can be used with several Sea Bird CTD types and can be controlled in several ways Data Acquisition and Control CTD Control SBE 9plus SBE 11plus Deck Unit SBE 19 19plus 19plus V2 25 25plus 49 Real Time sit SBE 33 Deck Unit Neil Brown MK III this manual None SBE 9plus SBE 17plus V2 Searam Autonomous SBE 19 19plus 19plus V2 no conducting 25 25plus wire required SBE 50 Pressure Sensor A to Ere Module AEM None For details on the Carousel use for each combination see the appropriate control manual this manual or SBE 11plus SBE 17plus V2 or AFM manual 2 The SBE 55 ECO Water Sampler can be used with several Sea Bird CTD types and can be controlled in several ways Data Acquisition no conducting wire required 25 25plus None and Control CTD Control SBE 19 19plus 19plus V2 Real Time 25 25plus 49 SBE 33 Deck Unit this manual None Autonomous SBE 19 19plus 19plus V2 Built in auto fire feature in SBE 55 see SBE 55 manual for operating details 10 Manual revision 013 Section 2 Description of SBE 33 SBE 33 Specifications The SBE 33 supplies a constant 250 VDC power to the sea cable The Water Sampler receives this voltage minus the sea cable IR drop and regulates it to a constant 64 VDC This 64 VDC is input to a high efficiency DC DC converter which outputs 15 VDC The 15 VDC is the supply
59. parity 7 data bits no parity 8 data bits If NMEA depth is enabled using a NMEA depth device as well as a NMEA position device and or Surface PAR is enabled the query for Start Mode changes to include NMEA Depth and or PAR as applicable new value echo or add Lat Lon Depth PAR The SBE 33 factory defaults 9600 PC baud 4800 CTD baud 8 data bits no parity are compatible with our newer instruments SBE 19plus 19plus V2 25plus 49 If communication settings in Seaterm s Configure menu do not match the settings in the SBE 33 the display shows garbage characters when you power up the SBE 33 This happens most often when using the SBE 33 for the first time with an SBE 19 or 25 which require 7 data bits and even parity The procedure below applies to using an SBE 19 or 25 with an SBE 33 set at factory defaults Once you change communication settings in the SBE 33 it will retain the new settings even if you remove power 1 In Seaterm s Configure menu select the SBE 19plus regardless of which CTD you are using This allows you to establish communications using the SBE 33 defaults so that you can then change the communications settings to match your CTD 2 Inthe Configuration Options dialog box click on the COM Settings tab Set the baud rate to 9600 data bits to 8 and parity to none 3 Inthe Communications menu select Send 5 second break 4 Wait at least 10 seconds Turn power to the SBE 33 off and t
60. r pin or seize the shackle securely Terminate the sea cable leads from the winch slip rings with the supplied 2 pin connector MS3106A12S 3P Connect positive power cable inner conductor to pin B and negative power cable armor to Pin A Connect to Sea Cable on the SBE 33 back panel SBE 33 to Computer SBE 33 communication with the computer is provided in two RS 232 channels The Carousel Data channel sends commands to and receives replies from the Water Sampler The Serial Data channel sends commands to and receives replies from the CTD through the Water Sampler Connect the computer to Carousel Data and Serial Data on the SBE 33 back panel using the supplied cables 29 Manual revision 013 Section 4 Mounting and Wiring System SBE 33 Power to SBE 33 WARNING Some oceanographic vessels Verify that the SBE 33 back panel power selector switch is in the correct isolate un ground the AC power position for your mains power source Connect power to the AC Input ground circuit If the SBE 33 is connector on the SBE 33 back panel using the supplied cable being installed on a vessel with an isolated AC power ground a secure separate ground connection must be made between the SBE 33 chassis and the ship s hull for SAFETY REASONS Attach the hull connection to the protective earthing terminal located on the back panel of the SBE 33 using at least 20 AWG wire and a ring terminal CAUTION Connecting an SBE 33 set f
61. ressesreseesessese 30 Section 5 Operating System essessessesserseseorseesoesosseesoeseesoesossoesoesseeoee 31 Acquiring Real Time Data and Firing Bottles from Seasave ceceee 31 Firing Bottles from SBE 33 Front Panel sssseeeseeseessesesseseseesssreresseseeseesersese 35 Recovering CTD and Water Sampler ccccccesseeseesseeteeeeceeeeeeeeseenseenseeaees 36 Uploading CTD Data from Memory cececcesesseeseceseceseeeeceeseeeeeeeeneensensees 37 Processing Data Using SBE Data Processing c ccesceesceeseesceeeseeeeeeeenseenees 37 Editing Raw Data Files c 2 c cc ccciscccccscesiecegevaceddtceedacstcenda stcecdedatevcediessaceseecetes 38 Section 6 Routine Maintenance ccsccssscssscssscesssscessesesssesseoseee 39 Connector Mating and Maintenance cccccccseecsesseeseeceeeeeeceeeesseesseenseeseenaees 39 Cleaning SBE 33 Deck Unit oc een e iire e a Ea S 39 Manual revision 013 Table of Contents SBE 33 Section 7 Troubleshooting scccsccscsscsscscscsscsscssssceecssssessessseess 40 Problem 1 Unable to View Data in Seasave Real Time Data Acquisition Prostam esi i ecageteaeeacseev cance dave a Sushea see eewea ll Regent dees eee 40 Problem 2 SBE 33 Completely Inoperable cccecceessesseececeeeeeteeeteeeseennes 40 Problem 3 Water Sampler or CTD Does Not Respond ceceecceseeeeeeeees 41 Problem 4 Unsupported Modem Message from Water Sampler 004 41
62. ressing Reset pias deen ee a e Power button turns power to the SBE 33 on off also compatible with the er aa j ECO Water Sampler The E if the SBE 33 is communicating with other parts of Carousel Data labels on the front and back panels also apply to gt Red bottle number LEDs 1 2 etc flash when the associated bottle operation with the SBE 55 ECO is fired Water Sampler gt Yellow NMEA Transmit LED flashes when a carriage return character decimal 13 is received from the NMEA navigation device gt Green Serial Data LED flashes when a carriage return character decimal 13 is received from the CTD through the Water Sampler gt Yellow Carousel Data LED flashes when a message such as a bottle fire confirmation is received from the Water Sampler SBE SBE 33 CAROUSEL DECK UNIT ee lt eeese SEA BIRD ELECTRONICS INC NMEA TRANSMIT O ATR E CAROUSEL DATA CE RESET POWER BOTTLE TO FIRE SBE 33 Back Panel Looking at the connections to the SBE 33 back panel e SBE 33 communication with the computer is provided in two RS 232 channels The Carousel Data channel sends commands to and receives replies from the Water Sampler The Serial Data channel sends commands to and receives replies from the CTD through the Water Sampler e NMEA Input connects to a NMEA navigation device e PAR Input connects to a Surface PAR sensor e Sea Cable connects to the Water Sampler Fuse 3AG 300VDC Fast Act
63. rical 801367 5 pin Switchcraft 1 Surface PAR sensor with ENS CoE cable Switchcraft connector 15 m 50 ft 49 Manual revision 013 Appendix IV Manual Revision Histor SBE 33 Appendix IV Manual Revision History Manual Version Date Description 001 02 02 Create separate manual for SBE 33 had been combined with SBE 32 manual SBE 33 manual provides detailed information on how to use SBE 33 SBE 32 manual now explains how to assemble and use Carousel and provides brief description of each interface method 002 05 02 SBE 33 added to Seaterm s list of instruments update Seaterm description 003 11 02 Correct power specification from 50 400 to 50 60 Hz Update use of NMEA simulation software to Windows version NMEA Test 004 005 08 03 03 04 Update to 9 pin computer connectors throughout Update Surface PAR with new Biospherical product number Update Surface PAR wiring Add SBE 50 to use of 32 with AFM in general description of Carousel Add note that 2 RS 232 line required Carousel data to computer for Seasave to receive bottle fire confirmation from Carousel and create ros file even if not firing bottles through Seasave Update con file screen capture with new screen capture for current version of Seasave Correct dip switch factory set in SBE 33 CTD to carousel communications to 4800 baud Update for Seaterm changes 006 03 06 NMEA firmware 2 3 allows
64. rt Help Scan time added Click a non shaded sensor and click Select to pick a different sensor Channel ensn 2 Temperature Shaded sensors oa cannot be removed Conductivity or changed to Pressure Strain Gj another type of Oxygen SBE 43 Sensor All others are optional New for that channel A dialog box with a list of sensors appears Select sensors after number of voltage channels have been specified above Open iek Save As Transmissometer Chelsea Seatech Wetlab allt Click a sensor and click Modify to view change calibration coefficients for that sensor Exit Cancel 4 Click Save or Save As to save any changes to the xmlcon or con file Click Exit when done reviewing modifying the configuration file 27 Manual revision 013 Section 4 Mounting and Wiring System SBE 33 Section 4 Mounting and Wiring System This section covers e Cable winch and deck gear not supplied by Sea Bird e Mounting the Deck Unit e Wiring the system Cable Winch and Deck Gear not supplied by Sea Bird The electrical requirements of the armored cable are rather simple Only one conductor is required the armor is used as ground and the total 2 way resistance conductor plus armor should be under 350 ohms The mechanical requirements are most driven by the characteristics of the winch and weight of the payload to be lifted The winch should have a level wind
65. rt with an asterisk Place anywhere between System Upload Time amp END of header NMEA Latitude 30 59 70 N NMEA Longitude 081 37 93 W NMEA UTC Time Oct 15 1999 10 57 19 Store Lat Lon Data Append to Every Scan and Append to NAV File When lt Ctrl F7 gt is Pressed ee Ships Sea Bird x Cruise Sea Bird Header Test Station Latitude Longitude END Ab 5 Inthe File menu select Save not Save As If you are running Windows 2000 the following message displays You are about to save the document in a Text Only format which will remove all formatting Are you sure you want to do this Ignore the message and click Yes 6 Inthe File menu select Exit 38 Manual revision 013 Section 6 Routine Maintenance SBE 33 Section 6 Routine Maintenance This section reviews underwater connector mating and maintenance and cleaning the SBE 33 Deck Unit Connector Mating and Maintenance Clean and inspect connectors cables and dummy plugs before every cruise during a cruise good practice if you have a few days of down time between casts after every cruise and as part of your yearly equipment maintenance Inspect connectors that are unmated for signs of corrosion product around the pins and for cuts nicks or other flaws that may compromise the seal Note See Application Note 57 Connector Care and Cable Installation When remating connectors for underwater portions of the system
66. s 44 Sea cable 28 End cap 39 Seasave 9 19 27 31 Seasoft 9 19 F Seaterm 9 19 20 47 main screen 21 Firing bottles 31 35 SeatermV2 9 19 Front panel 12 Setup 23 Slip ring 28 an ag Software 9 19 G Specifications gt 11 Surface PAR 17 30 System communications 16 EEE System description 8 I System operation 31 System wiring 29 Glossary 43 Installation 28 29 T M Testing 23 Maintenance 39 Troubleshooting 40 Manual revision history 50 Mounting 28 52 Manual revision 013 Index SBE 33 U W Unpacking SBE 33 7 Winch 28 Uploading data 37 Wiring 13 29 V Versions 50 53
67. s serial numbers calibration dates and coefficients for all the integrated sensors conductivity temperature and pressure as well as auxiliary sensors Seasave and our data processing software uses the information in the configuration file to interpret and process the raw data If the configuration file does not match the actual instrument configuration the software will not be able to interpret and process the data correctly The configuration file must indicate if NMEA and or PAR data is being added to the CTD data The configuration file setup overrides the programmed settings in the SBE 33 In other words real time transmission via Seasave of NMEA position data NMEA depth data and or Surface PAR data is dependent on the configuration file settings not on the SBE 33 settings To verify the contents of the xmlcon or con configuration file 1 Double click on Seasave exe 2 Click Configure Inputs On the Instrument Configuration tab click Open In the dialog box select the xmlcon or con file and click Open 3 The configuration information appears on the Instrument Configuration tab Verify that the sensors match those on your instrument and that auxiliary sensors are assigned to the correct channels Click Modify to bring up a dialog box example shown below is for SBE 19p us to change the configuration and or to view modify calibration coefficients x Configuration file opened None Strain Gauge M Pressur
68. sages All NMEA messages received are decoded by SBE 33 and displayed on computer If you select mode 10 and then select model 1 SBE 33 transmits raw data followed by decoded data 18 Manual revision 013 Section 3 Setting Up System SBE 33 Section 3 Setting Up System This section covers Installing Sea Bird software Setting the baud rate in the CTD Setting up and testing the SBE 33 Changing communication settings between the SBE 33 and computer Setting up the CTD configuration xmlcon or con file Installing Software Notes Help files provide detailed information on the software NMEATest a NMEA navigation device simulation program is part of the SBE Data Processing installation Separate software manuals on CD ROM contain detailed information on Seasave and SBE Data Processing Sea Bird supplies the current version of our software when you purchase an instrument As software revisions occur we post the revised software on our FTP site See our website www seabird com for the latest software version number a description of the software changes and instructions for downloading the software from the FTP site Seasoft V2 was designed to work with a PC running Windows XP service pack 2 or later Windows Vista or Windows 7 If not already installed install Sea Bird software programs on your computer using the supplied software CD 1 2 Insert the CD in your CD drive In
69. stall software Double click on SeasoftV2 exe Follow the dialog box directions to install the software The installation program allows you to install the desired components Install all the components or just install Seaterm terminal program SeatermV2 for use when directly communicating with an SBE 19p us V2 or 25plus Seasave V7 real time data acquisition and SBE Data Processing data processing The default location for the software is c Program Files Sea Bird Within that folder is a sub directory for each program 19 Manual revision 013 Section 3 Setting Up System SBE 33 Setting CTD Baud Rate and Operating Parameters Note Water Sampler communication with the CTD is at 600 1200 2400 or The SBE 33 is factory programmed to 4800 baud For the most efficient operation set the CTD baud rate to command the Water Sampler to 4800 baud communicate with the CTD at 4800 baud The setting in the SBE 33 must match the baud rate programmed in CTD Baud Rates the CTD For the most efficient SBE CTD Compatible with Water CTD Firmware Version operation keep the baud at 4800 Sampler SBE 33 baud if it is feasible for the CTD 600 or 1200 3 0d and later programmable 600 1200 or 4800 3 1d and later but not 4 0 series 19 programmable Prior to 3 0d contact Sea Bird for 600 1200 2400 or 4800 instructions on changing baud rate if necessary 19plus or 1200 2400 or 4800 All versions programmable 19plus V
70. t Lat Lon only Options 4 Add NMEA Depth to the real time HEX Lat Lon data 5 Do not add NMEA Depth to the real time HEX Lat Lon data 6 Add PAR to the real time HEX data 7 Do not add PAR to the real time HEX data Communications 8 Change communication settings and start mode 9 Display communication settings and start mode Diagnostics 10 enable diagnostic level 1 11 enable diagnostic level 2 the current mode 1 Echo characters to and from the instrument enter 1 2 3 4 5 6 7 8 9 10 or 11 followed by Enter or press to exit the set up menu selection On To view the current communication and start mode settings type 9 and press the Enter key The display looks like this PC baud rate 9600 CTD baud rate 4800 8 data bits no parity NMEA baud rate 4800 NMEA messages decoded GGA GLL RMA RMC TRF DBT DPT Surface PAR disabled NMEA depth disabled start mode Echo characters to and from the instrument If the CTD baud rate does not match the baud rate set in your CTD the computer will not be able to communicate with the CTD through the SBE 33 Step 6 provides instructions for changing the CTD baud rate in the SBE 33 to match your CTD D To change the current communication settings and or start mode settings type 8 and press the Enter key The display looks like this type desired value press Enter type desired value press Enter type e or n press Enter type desired val
71. tion SBE 33 36 settings in the SBE 33 for communication between the SBE 33 and computer factory PE hand mie default 9600 baud 8 data bits no parity the display will show garbage characters If this happens go to Changing Communication CTD Settings between SBE 33 and baud rate Computer below before proceeding If in the setup menu and no user input is received within 60 seconds the SBE 33 times out and exits the setup menu Re enter the setup menu by typing Sdata bits If NMEA depth is enabled using a no parity NMEA depth device as well as a NMEA position device and or Surface PAR is enabled the NMEA description for Start mode changes to baud rate include NMEA Depth and PAR as applicable NMEA start mode Add Lat Lon Depth PAR to the real messages time HEX data decoded Start mode Defines default behavior on power up Echo characters to and from the instrument factory default puts SBE 33 in Mode 1 on power up allowing system to communicate with CTD so CTD can be set up through SBE 33 Add Lat Lon to the real time HEX data puts SBE 33 in Mode 2 on power up allowing system to start acquiring Hex and NMEA position data and NMEA depth and or Surface PAR as applicable 23 Manual revision 013 Section 3 Setting Up System SBE 33 Note If NMEA depth is enabled using a NMEA depth device as well as a NMEA position device and or Surface PAR is enabled the description for
72. uctions if needed 15 If using the SBE 33 with a NMEA navigation position device and a NMEA depth device While in mode 3 type 0 and press the Enter key to switch to mode 10 Mode 10 is a diagnostic mode that passes all raw NMEA characters received to the screen The response indicates the current mode 3 Transmit Lat Lon Depth only diagnostic level 1 enabled Type to exit the menu You should begin seeing raw NMEA messages display in Seaterm Typical RMC and DPT messages are LGRMC 123113 21 A 3625 12 N 12121 34 W 1 2 4 5 231294 1 2 a 45 lt CR gt lt LF gt SDDPT 0005 4 0000 0 56 lt CR gt lt LF gt See Appendix I NMEA Device Message and Data Formats for a description of all the NMEA messages the SBE 33 can decode e IfNMEA data does not appear verify that the SBE 33 is connected to the NMEA device and that the proper cable is used e See Section 7 Troubleshooting for additional instructions if needed 16 Turn off power to the SBE 33 25 Manual revision 013 Section 3 Setting Up System SBE 33 Changing Communication Settings between SBE 33 and Computer Note Send 5 second break resets the communication settings in the SBE 33 to factory defaults e PC baud rate 9600 e CTD baud rate 4800 e 8 data bits no parity e NMEA baud rate 4800 Notes e CTD baud rate must be less than or equal to PC baud rate NMEA baud rate is 4800 or 9600 Parity selection also affects the communication data bits even
73. ue press Enter type e or a press Enter The display then shows your new selections Type to return to the setup menu 7 Type and press the Enter key to put the SBE 33 in mode 1 echo characters to and from the instrument which is the mode required for communicating with the CTD i e sending CTD setup commands 8 Type to exit the setup menu 9 Click Connect on the Toolbar or press the Enter key several times to establish communication with the CTD through the SBE 33 The system should respond with an S gt prompt 10 Click Status on the Toolbar to send DS and display CTD status If the status displays and is correct the system is connected properly 11 Ifdesired send setup commands to the CTD 24 Note If NMEA depth is enabled using a NMEA depth device as well as a NMEA position device and or Surface PAR is enabled the description for mode 2 changes to include NMEA Depth and or PAR as applicable 2 Add Lat Lon Depth PAR to the real time HEX data from the instrument Note NMEA depth data will not appear in Mode 3 If using both a NMEA navigation device and a NMEA depth device go to Step 15 Note To exit diagnostic mode turn off power to the SBE 33 Manual revision 013 Section 3 Setting Up System SBE 33 12 Send QS to put the CTD in quiescent sleep state not applicable to SBE 49 13 If using the SBE 33 with a NMEA device Type to return to the setup menu Type
74. ure Inputs Serial Ports tab Water Sampling and 911 Pump Control Serial Port this should be the port connected to the SBE 33 Carousel Data connector e Check the baud rate setting for CTD communication in Seasave Configure Inputs Serial Ports tab CTD Serial Port in the SBE 33 CTD baud rate This must match the CTD baud rate set in the SBE 33 which is also the baud rate used for communication between the CTD and the Water Sampler and the baud rate set in the CTD For the most efficient operation keep this baud rate at 4800 if feasible for the CTD Cause Solution 3 The Carousel may be malfunctioning and sending bad messages 41 Manual revision 013 Section 7 Troubleshooting SBE 33 Problem 5 Yellow NMEA Transmit LED Not Flashing Cause Solution 1 Wiring may be incorrect Check cables and connections between the SBE 33 NMEA navigation device and computer Cause Solution 2 NMEA navigation device may be set to the wrong baud rate SBE 33 requires 4800 or 9600 baud Reset device s baud rate Cause Solution 3 NMEA navigation device may not be transmitting data See the device manual for setup details To verify that it is sending data connect an oscilloscope with ground on NMEA B T17 and the probe on NMEA A T16 The signal should be less than 0 5 volts between messages and have pulses greater than 4 volts for at least 0 2 milliseconds during the message Cause Solution 4 SBE 33 may not be operating properly T
75. ust be disabled when the CTD is used with the Water Sampler 1 Open the CTD main housing 2 Solder a jumper wire across the neon bulb on the above board See the CTD manual for details on accessing the above board and for the board schematic This note is not applicable to the SBE 19plus 19plus V2 25plus or 49 WARNING Life threatening voltage 250 VDC is present on the sea cable when the SBE 33 is powered This voltage persists for up to 1 minute after removing power Verify that the SBE 33 is disconnected from the AC power source before connecting the sea cable to the SBE 33 Unplug the AC power cord and wait 1 minute after power is removed before working on the SBE 33 sea cable connector or sea cable circuits Note When the SBE 33 is used with the PDIM the SBE 33 Carousel Data channel is not connected to the computer On the ship cables longer than 3 meters should be installed inside an earthed metal conduit by a qualified electrician This minimizes the potential for external signals to disrupt communication and ensures that high voltage lines such as the sea cable are sufficiently protected Cables shorter than 3 meters can be used without shielding when installing or bench testing the instrument See Cables and Wiring in Section 2 Description of SBE 33 for cable diagrams See Connector Mating and Maintenance in Section 6 Routine Maintenance for connector mating details Water Sampler or PDIM t
76. ve the switch to the off position B Inthe Real Time Data menu select Stop C For an instrument that was started by command close Seasave Open Seaterm establish communications with the CTD and send the appropriate command to stop sampling Then send the command to put the CTD in quiescent sleep state sleep state not applicable to the SBE 49 34 Manual revision 013 Section 5 Operating System SBE 33 Firing Bottles from SBE 33 Front Panel Instead of firing bottles in Seasave you can fire bottles directly from the SBE 33 if desired Bottles fired from the SBE 33 can be in random or sequential order regardless of the firing sequence you input in Seasave Even though you are firing the bottles from the SBE 33 Seasave still receives a bottle fired confirmation from the Water Sampler if the SBE 33 back panel Note Carousel Data and Serial Data are connected to the computer When Seasave See the SBE Data Processing receives the confirmation it writes a line to an output file same filename as the manual and or help files for details data file with a bl extension The bl file contains the bottle firing sequence on processing the data number bottle position date time and beginning and ending scan number to provide 1 5 seconds of scans for the fired bottle See Acquiring Real Time Data and Firing Bottles from Seasave above for setting up Seasave and starting and stopping real time data acquisition Note Proceed as follo
77. voltage to the CTD Approximately 1 amp in addition to CTD power is available at the CTD for support of auxiliary sensors Power 120VAC at 60Hz and 1 75A or Requirements 240VAC at 50Hz and 1A switchable Single or multi core armored cable up to 10 000 m Sea Cable ee Compatibili 32 800 ft long with inner core resistance of up to patibility 350 ohms 89 mm 3 5 inch high cabinet with standard 19 inch rack mounting brackets 89 mm high x 432 mm wide x 381 mm deep Dimensions and Weight 3 5 x 17 x 15 inches g Feet add 13 mm 0 5 inches to height Rack mount ears add 51 mm 2 inches to depth 9 0 kg 20 lbs SBE 33 operates properly under following conditions SBE 33 e Indoor use Deck Unit e Altitude up to 2000 meters Installation e Temperature from 5 C to 40 C Environment e Maximum relative humidity 80 non condensing e Mains supply voltage 10 11 Manual revision 013 Section 2 Description of SBE 33 SBE 33 SBE 33 Front Panel Looking at the SBE 33 front panel Notes e Bottles can also be fired from the computer using Seasave real time e Bottle to Fire pushbutton switch selects which bottle to fire when Fire button is pushed if set to 99 SBE 33 will fire bottles in sequential order data acquisition software e Fire button fires bottles The SBE 33 was originally e Reset button resets system place Bottle to Fire switch to 00 before designed to work with the SBE 32 p
78. wing requirements for use with the SBE 33 e SBE 19plus V2 Set OutputFormat 0 e SBE 25plus Set SetOutputFormat 0 Send QS to put the CTD in quiescent sleep state 22 Manual revision 013 Section 3 Setting Up System SBE 33 Setting Up and Testing System Notes e You can also launch Seaterm from SeatermV2 you may find this useful 2 when using the SBE 33 with a CTD that uses SeatermV2 A e g 19plus V2 or 25plus In SeatermV2 s Instruments menu select SBE 33 interface Seaterm opens The remaining instructions e Step 2 and higher are unchanged The SBE 33 must be connected to the Water Sampler to setup and test the system If it is not connected noise on the open Sea Cable connector will interfere with communication with the SBE 33 Seaterm 1 Double click on seaterm exe Seaterm opens In Seaterm s Configure menu select the SBE 33 In the Configuration Options dialog box click on the COM Settings tab and set the COM Settings Comm Port for connection to SBE 33 1 through 10 as applicable Baud rate between SBE 33 and computer 9600 or 19200 factory set to 9600 e Data bits and parity SBE 19plus 19plus V2 25plus or 49 8 data bits no parity SBE 19 or 25 7 data bits even parity Click OK to save the settings and exit the dialog box 3 Turn on power to the SBE 33 The SBE 33 status message displays in SBE 33 36 Deck Unit V3 0 setup PC baud rate CTD baud rate 8 d
79. ws for firing bottles from the SBE 33 Sea Bird strongly recommends that you do not mix firing bottles TOGON from both Seasave and the 1 Reset the system before beginning to fire bottles SBE 33 in the same cast That is A Set the Bottle to Fire pushbutton switch to 00 use only one method to fire bottles B Press the Reset button to ensure that each bottle is fired only once and in the desired order 2 To fire bottles in random order A Set the Bottle to Fire pushbutton switch to the desired bottle B Press the Fire button C Repeat Steps A and B for each bottle 3 To fire bottles in sequential order A Set the Bottle to Fire pushbutton switch to 99 B Press the Fire button The Water Sampler will fire bottle 1 C Repeat Step B to fire each bottle the Water Sampler will fire bottles in sequential order 35 Manual revision 013 Section 5 Operating System SBE 33 Recovering CTD and Water Sampler WARNING If the CTD or Water Sampler stop Rinse the CTD auxiliary sensors and Water Sampler with fresh water working while underwater are unresponsive to commands or show other signs of flooding or damage carefully secure the instruments away from people until you have determined that abnormal internal pressure does not exist or has been relieved Pressure housings may flood under pressure due to dirty or damaged o rings or other failed seals When a sealed pressure housing floods at great depths and is subsequ
80. y Sea Bird Electronics Inc 13431 NE 20 Street Bellevue WA 98005 USA DECLARATION OF CONFORMITY Manufacturer s Name Sea Bird Electronics Manufacturer s Address 13431 NE 20 Street Bellevue WA 98005 USA The Authorized Representative located within the Community is OTT MESSTECHNIK GmbH amp Co KG P O Box 2140 87411 Kempten Germany Ludwigstrasse 16 87437 Kempten Internet http www ott com Phone 49 831 5617 100 Fax 49 831 5617 209 Device Description Various Data Acquisition Devices and Sensors Model Numbers 3S ae 3plus 4M 5T 5P 5M t 8 9plus 11plus 16plus V2 16plus IM V2 17plus V2 18 19plus V2 21 25plus 27 29 32 32C 32SC 35 35RT 37 IMP 37 IM 37 SMP 37 SM 37 SIP 38 39 39plus 41 41CP 43 43F 45 49 52 MP 53BPR 54 58 56 SIM ICC PDIM AFM 90488 90204 90402 Glider Payload CTD NiMH Battery Charger and Battery Pack Applicable EU Directives Machinery Directive 98 37 EC EMC Directive 2004 108 EC Low Voltage Directive 73 23 EEC as amended by 93 68 EEC Applicable Harmonized Standards EN 61326 1 2006 Class A Electrical Equipment for Measurement Control and Laboratory Use EMC Requirement Part 1 General Requirements EN 55011 2007 Group 1 Class A EN 61010 1 2001 Safety Requirements for Electrical Equipments for Measurement Control and Laboratory Use Part 1 General Requirements Declaration based upon compliance to the Essential Requirements and Letter of Opinion from CKC
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