SBE11 0244 manual
Contents
1. 5V 5V 5V 6 45 C51 0 1uF 12V 14025 14025 R36 6 8K x2 15171 014 3 57954MHz 12 MC145443 18018 015 C50 11118 J AD711 0 1 a 9 U16 12211 14235 1 6 12 TXA CD CARRIER 5 300 1 026 te RXAL RXD RX 300 12025 d R38 10 EX sar R40 3 3K 19 FB LB VAG 4 MD 1 C52 10K 15169 4 YEL FSK 0 1uF 15087 i2v CU aa EDA 17647 PAD100SMT 14025 4 n C80 R39 R37 C48 C46 4700pF 4 99K 3 01K 0 1 0 1 12 14077 15082 15076 14025 14025 4 R41 10K 15087 R45 1 i 10K 15087 C49 0 1uF TP2 R43 14025 YEL FSK IN 200 U17B R44 17647 PAD100SMT 15045 OP221GS 4 99K U17A L S A 12116 15082 22165 5 12116 31 1uF 14064 35V 0 1 12v 14235 R69 2 11 46 4K 15001 2 R66 510 7 4 15097 R68 16 5K R67 FSK 14K R65 ASAIA U20B R57 U20D 10K LT1639 10K LT1639 15087 U19D R55 12213 15087 12213 7112 4 12 171639 10K R49 12213 15087 7 _ U19A 10K R64 LT1639 15087 14 T R58 10K 12213 ONSI 10K 15087 R54 15087 2 R48 10K 10K 15087 15087 C65 C64 4700pF 4700pF 14077 12 59 c61 11077 C2. DATE SYM REVISION RECORD AUTH DR CK 4 21 09 A 01234 JR 45V 5V_ 12V 12V 12V_ GND_ 0 PAD100SMT PAD100SMT PAD100SMT GND PAD100SMT 5V 12V 17620 17620 17620 C82 _ 4 T 180uF T 180uF 68uF T 68uF 68uF 14042 14042 SR ERA 14040 14040 5V 12V 12V o o 9 3 4 La 1 lt 2 S 3 E 2 2 5 UP_LNK 6 5 PAD100SMT 2 gt 2 JP3 SHEET2 SHEET3 9 9 d JP7 10 1 0 3 19200 QUT 2 9600 BPS UPLINK 12958 2 B IN 1 1 17123 HEADER2 2 8 17155 1 2 i E lt FISH TAPE 2 FISH TAPE NRZ 1 4 0 1 5 5 17155 INT1 6 0 OUT 7 2 8 5 gt 9 10 5 B NRZ DATA 11 12 1 10592 MHZ 1 10592 MHZ 13 14 171108 33420 3 TELE IN E PE 300 Baud FSK modem Bottle Controller SHEET4 SHEETS 33420 2 mora 20061 2 4 4 Fsk TX 300 Di 1N5333B ai RX_300 RX_300 SEA 13055 2 PAD100SMT 20 OHMS MODEM d CARRIER CARRIER M 15257 20066 3 1 1N5333B 13055 33420 4 33420 5 SEACABLE 2 j 17528 c4 68uF 14040 PCB 10454 SEA BIRD ELECTRONICS INC ASSEMBLY 41704 Title SBE 11 RECEIVER MODEM Document Number Rev B 33420 A Date Tuesday April
3. DIM A SWITCHCRAFT ENOCSF BUSHING MS 3420 6 SBE PN 171695 SBE PN 17414 A HEATSHRINK on e 15 94 CABLE CONSOLIDATED 1703 OR EQUIV MSS106A 145 2P SBE PN 17412 x 5 lt ENSCSF COLOR P2 DESCRIPTION SBE PN DIM A 1 SHIELD C POWER GROUND 801367 15 m 50 FI 2 RED D PAR SIGNAL 801568 30 m 100 FT 3 WHITE SIGNAL GROUND 801569 50 m 165 FT 4 BLACK B 12V POWER 801575 40 m 132 FT roterances SEA BIRD ELECTRONICS INC 5 c T Eu 801457 55 m 116 F FRACTIONAL SCALE 801644 20 m 66 FT Pee FN SEE TABLE TABLE NS APPROVED BY CB Es PERINAT SURFACE PAR ssa Pul SBE11plus SWITCHCRAFT ANGULAR NUMBER REV 124 WARRANTY POLICY 2010 PRODUCT WARRANTY 5 YEAR LIMITED WARRANTY NEW PRODUCTS For a period of five years after the date of original shipment from our factory products manufactured by Sea Bird are warranted to function properly and be free of defects in materials and workmanship Should a Sea Bird instrument fail during the warranty period return it freight pre paid to our factory We will repair it or at our option replace it at no charge and pay the cost of shipping it back to you Certain products and components have modified coverage under this warranty as described below LIM
4. 104 5V RUN 5V DIAGNOSTIC R31 ee 25 4 27 SPARE wu s2 15172 171103 xi P51XAG37KBA sD ce 4 12 11 0592MHZ 11188ALT lt i33 70 18033 rdg 21 43 XTAL1 AA P0 0 A4 DO 25 47K 5 5 PO 1 A5 D1 22 P0 2 A6 D2 45 15181 11094 26 PO 3 A7 D3 50 35 XTAL2 P0 4 A8 D4 32 0 4 cu c32 i 0 5 9 05 38 JUMPER2 2 33PF 33PF RST P0 6 A10 D6 57 171103 S 14002 14002 35 P0 7 A11 D7 8 EA WAIT P1 0 A0 H OPEN FOR 8640 BPS UPLINK 5 P1 1 A1 PS SHORT FOR 17280 BPS UPLINK 2 PSEN P1 2 A2 rs P1 3 A3 UG 33 P1 4 RXD1 8 lt u6 ij NC P1 5 TXD1 MR RST NC P1 6 12 H8 gt VCC RST ii P1 7 T2EX 2 GND NC x P3 0 RXDO P2 0 A12 Se gt INT1 PFI PFO 13 p3 1 TX
5. R35 R33 R36 0 R20 R38 R22 H 21 LI Oo O6 O y C26 C28 C27 Y3 12 GND 0 ALARM Ba C22 00 0001000 015 C21 0000000 00000000000 00000000 o0 00000000 C17 C19 o0 o0 00000000 ____ e gt R27 FREESE ot a C23 B E 11111
6. 60 Manual revision 014 Section 12 Data Formats SBE 11plus V2 Raw Output Data Format Note Data output from the SBE 11 Interface RS 232 or IEEE 488 is raw data frequencies and A D voltages This raw data can be saved in a hex file MSB most significant bit LSB least significant bit IEEE 488 Output Data is output in the following order Word Byte Description Discussion 0 0 2 Primary temperature Frequency f Byte 0 256 Byte 1 Byte 2 256 1 3 5 Primary conductivity Frequency f Byte 3 256 Byte 4 Byte 5 256 2 6 8 Pressure Frequency f Byte 6 256 Byte 7 Byte 8 256 3 9 11 Secondary temperature Frequency f Byte 9 256 Byte 10 Byte 11 256 4 12 14 Secondary conductivity Frequency f Byte 12 256 Byte 13 Byte 14 256 15 A D channel 0 8 MSBs 5 16 A D channel 0 4 LSBs 4 7 amp 1 4 MSBs 0 3 12 bit number is a binary representation of analog 17 A D channel 1 8 LSBs voltage N s value is 4095 for 0 volts 0 for 5 volts 18 A D channel 2 8 MSBs 6 19 channel 2 4 LSBs 4 7 amp 3 4 MSBs 0 3 20 A D channel 3 8 LSBs 5 1 N 4095 21 A D channel 4 8 MSBs 7 22 A D channel 4 4 LSBs 4 7 amp 5 4 MSBs 0 3 23 A D channel 5 8 LSBs Example Byte 15 00110111 Byte 16 01001111 24 A D channel 6 8 MSBs F
7. SW1 Position Arm Offset degrees 5 6 7 8 2 8 ON ON ON ON 2 4 OFF ON ON ON 2 0 ON OFF ON ON 1 6 OFF OFF ON ON 1 2 ON ON OFF ON 0 8 OFF ON OFF ON 0 4 ON OFF OFF ON 0 0 OFF OFF OFF ON 0 4 ON ON ON OFF 0 8 OFF ON ON OFF 1 2 OFF ON OFF 1 6 OFF OFF ON OFF 2 0 ON ON OFF OFF 2 4 OFF ON OFF OFF 2 8 ON OFF OFF OFF 3 2 OFF OFF OFF OFF Nominal 49 Manual revision 014 Section 9 Setting Up Water Sampler SBE 11plus V2 Setting Up Water Sampler in Seasave 1 Double click on Seasave exe Note 2 Click Configure Inputs In the Configure Inputs dialog box The same COM port is used for the click the Serial Ports tab In the Water Sampling and 911 Pump Control water sampler and to send pump Serial Port section select the COM port connected to the Deck Unit control commands to a custom Modem Channel connector pump control does not interfere with Also set up other serial ports CTD Serial Port is the port connected to the water sampler operation Deck Unit SBE 11 Interface connector 3 Inthe Configure Inputs dialog box click the Water Sampler tab The dialog box looks like this SEE 2 5 UI figure Inputs C Documents and Settings dbresko Application Data Sea Bir Hydro Bios IOW None Define serial port for water sampler operation on Serial Ports tab Note Hydro Bios and IOS for custom applications only strument Configuration Serial Ports Water Sampler TCP
8. Ut 0000000 m 000000000 0000000000 R57 R58 77 0000000 S EO C72 0000009 C73 69 GND 12V gt 69 C74 DOWN X1 X2 X3 C56 C59 C62 C65 NOT INSTALLED STANDARD CONFIGURATION 8640 BPS UPLINK 17280 BPS UPLINK 0000000 Lo SHORT 3 2 H
9. 10454 TOP DWG NO REV SH20F2 41704 12V 12 5V 12V DISPLAY JP2 BE em rt HEADER4 17064 SHEET 2 A 0 15 D O 7 RESET RESET PBRESET UARTI RXMODEM ADCS ADCLK ADOUT LEDCS UARTCS GPIBCS XMITLED DATALED ERRLED FIFOLED RESETFIFO NMEALED THW1 THW2 THW4 THW8 RECVLED 1 V C2 R1IN R1OUT R2IN R2OUT T1OUT T2OUT O T2IN LT1383CS 11181 Yi 11 0592MHZ 18033 XTAL2 RST EA WAIT PSEN ALE NC NC P3 0 RXDO P3 1 TXDO P3 2 INTO P3 3 INT1 P3 4 TO P3 5 T1 BUSW P3 6 WR P3 7 RD A 0 15 D O 7 RESET RESET WR RXMODEM UARTCS GPIBCS P0 0 A4 DO PO 1 A5 D1 PO 2 A6 D2 P0 3 A7 D3 0 4 8 04 P0 5 A9 D5 P0 6 A10 D6 7 11 07 1 0 1 1 1 P1 2 A2 P1 3 A3 P1 4 RXD1 P1 5 TXD1 P1 6 T2 P1 7 T2EX P2 0 A12 P2 1 A13 P2 2 A14 P2 3 A15 P2 4 A16 P2 5 A17 P2 6 A18 P2 7 A19 24LC16B 11231 SHEET 4 15 D O 7 WR ADCS ADCLK ADOUT RECVLED LEDCS XMITLED DATALED ERRLED FIFOLED RESETFIFO NMEALED THW1 THW2 THW4 THW8 PBRESET 32127D4 SEA BIRD ELECTRONICS INC ASSEMBLY 40937D Title SBE 11PLUS DIGITAL BOARD V2 Size Document Number Rev B 32127 D Date wednesday April 27 2005 109 110 A 0 15 lt 1 D 0 7 gt LEDCS L I UARTCS gt GPIBCS R3 47K 15328 RESET MR lt lt __
10. PROG11V2 Sea Bird s program to copy calibration coefficients from the instrument configuration con file to the Deck Unit program is installed with SBE Data Processing SBE Data Processing Sea Bird s Win 2000 XP data processing software which calculates and plots temperature conductivity pressure data from auxiliary sensors and derived variables such as salinity and sound velocity Seasave V7 Sea Bird s Windows 2000 XP software used to acquire convert and display real time or archived raw data SEASOFT V2 Sea Bird s complete Windows 2000 software package which includes software for communication real time data acquisition and data analysis and display SEASOFT V2 includes SEATERM Seasave V7 SBE Data Processing SEATERM Sea Bird s Win 95 98 NT 2000 XP terminal program used to communicate with the SBE V2 71 78 Manual revision 014 Glossa SBE 11plus V2 Safety and Electrical Symbols Some or all of the following symbols may be used the SBE Symbol Description Potentially hazardous voltage Hazardous Voltage gt 30 VDC may be present Attention There is a potential hazard consult the manual before continuing DC Direct Current Double insulated The metal enclosure of the SBE is isolated such that protection from electrical shock is provided through reinforced electrical insula
11. Index con file 29 40 xmlcon file 29 40 A Auxiliary sensors 18 B Back panel 14 Baud rate 11 Bottle firing 50 55 57 C Cable 15 Calibration coefficients CDO 42 Carousel 49 57 CDO 42 calibration coefficients 42 commands 44 data format 48 Circuitry 77 Cleaning 64 Command summary 73 Commands 27 automatic 75 CDO 44 NMEA 32 pressure frequency and temperature 41 Seasave 75 summary 73 Surface PAR 39 Communications 11 Configuration file 29 40 Converted data output 42 CTD configuration file 29 40 CTD data 16 27 34 D Data acquisition 55 Data format 59 CDO 48 Deck Unit LED 60 engineering units 63 IEEE 488 raw output 61 pressure frequency and temperature 41 raw output 61 RS 232 raw output 62 Surface PAR 40 Data processing 58 Deck gear 15 Index 85 Deck Unit back panel 14 dip switches 49 front panel 12 Description 8 77 Dip switches 49 E Editing data files 58 Electrical symbols 72 F Firing bottles 50 55 57 Front panel 12 Functional description 77 G G O 1015 49 57 G O 1016 49 57 Glossary 71 I Installation 15 16 M Maintenance 64 Manual revision history 83 Mounting 15 N NMEA 16 31 data formats 37 message formats 37 setup 33 simulation progr
12. Sheet 5 of 5 SLB PART NUMB 41704A 10454A 11008 11019 11025 11030 11031 11033 11035 11065 11094 11111 PRINTED ON O9 36 15 29 Apr 2009 ER DESCRIPTION SBE11 RECEIVER MODEM COMBINED 41704A PCB SBE11 RECEIVER MODEM COMBINED 10454A IC 74HC4040N HC RIPPLE CTR IC MC14070BCP MOTOROLA IC CD4517BE MC14517BCP SHIFT REG IC 74HCO4N IC MC74HCO8AN QUAD 2 INPUT IC 74HC73N FLIP FLOP IC 74HC109N IC LT1081CN LINEAR TECH RSe3e IC MC74HC4538AN DUAL SINGLE SHOT SIGNETICS 5 87 51 40 uPROC IC MAXIM 7 IC MC145443P IC 51 7 30MHZ CMRCL TEMP PLCC IC LTC1383CN RS232 INTRFC LINEAR TECH IC 2 5002 5 CURRENT OPe49AZ OP AMP ANALOG DEVICE IC LP311P COMPARATOR TI IC OPeeiGSZ SRFC MNT AMP IC AD711KN OP AMP IC LT1639CN OP AMP DIODE 1N4005G HI VOLTAGE DIODE 1N4154 UNITRODE FET 5486 MOTOROLA TESTED FET P1087 SILICONIX XISTOR 2N4401 XISTOR 8N4403 ZENER DIODE 3 SW 1N5333B MOTOROLA CAP 33 pf 100V CER SR151A330KAA NPO CAP 470 pf 100V CER SR151A471JAA AVX CAP 0022 000044 uF POLYESTER CAP 0033 uf 100V CER CKOSBX332K X7R CAP 0047uf 80V POLY 192 472 9080 01 uf 80 POLYESTER 192P1039R8 CAP iuf 100V 10 X7R SR211C104KAA AVX 001 uf 200V CER C32eC102JeGSCA CAP 68 uf 15V TANT CSR1
13. 8 06 B CORRECTED WIRING CB A DIM PN 171440 FGG 0K 505 CLACSO LEMO CONNECTOR 80 20609 BUSHING MS3420 6 SBE 17414 VIEW B B CLAMP 97 3057 6 SBE 17413 VIEW VIEW B B 55106 145 2 SBE 17412 D CABLE TYPE CONSOLIDATED 1705 EQUIV ORIENTATION REFERENCE LINES Ro Ep S z VIEW A A VIEW COLOR P2 DESCRIPTION PART NO A DI 1 SHIELD WHITE A GROUND 801256 50 METERS 2 801239 50 METERS 3 RED D PAR SIGNAL 4 want GROUND SEA BIRD ELECTRONICS INC 9 BLACK 12V POWER m SCALE DRAWN MJ 1 1 APPROVED BY CB DECIMAL MLE CABLE S to SBE 11 E ANGULAR DATE DRAWING NUMBER REV 32454 DATE REV REVISION RECORD AUTH DR CK
14. C33 0000000 Eoooooo 00000000 20 Booooooo 00000000000000 00 0 0 00000000000000000000 o0o0ooooooOoQ
15. dvance primary conductivity 0 073 seconds dvance secondary conductivity 0 073 seconds utorun on power up is disabled Check the NMEA baud rate in the status command response If necessary send NMEABaud to change the baud for communication between the Deck Unit and NMEA navigation device 4800 or 9600 Turn off the Deck Unit 33 40 Manual revision 014 Section 6 Setting Up NMEA Interface SBE 11plus V2 Setting Up and Testing NMEA in Seasave Notes e The Deck Unit must be connected to the CTD to test the NMEA interface If it is not connected noise on the open Sea Cable connector will interfere with communication with the Deck Unit See Seasave s Help files for detailed information Note If the selected xmlcon or con file does not indicate that NMEA position data is to be added e Latitude and longitude will not be available as display variables in the fixed scrolled or plot display e NMEA Display will not be available in the Display menu Connect the Deck Unit s SBE 11 Interface RS 232 connector to the computer the VMEA connector to the NMEA navigation device and the Sea Cable connector to the CTD Double click on Seasave exe Click Configure Inputs On the Instrument Configuration tab select the configuration xmlcon or con file for your instrument See Setting Up CTD Configuration xmlcon or con File in Seasave in Section 5 Setting Up System for details Verify that the confi
16. w Note See Section 11 Operating System for details on starting data acquisition After acquisition begins to fire a bottle e Press Ctrl F3 or In Real Time Control menu select Fire Bottle Control The Bottle Fire dialog box appears you can leave this open throughout the cast The dialog box shows what bottle will be fired next for sequential or table driven bottle firing Click Fire Bottle when desired 51 Manual revision 014 Section 10 Setting Up RS 232 Serial Data Uplink SBE 11plus V2 Section 10 Setting Up RS 232 Serial Data Uplink As an option the SBE 911p us system can be equipped to provide an interface for a serial data output instrument connected to the SBE 9plus CTD s JTA The serial data is multiplexed into the 9p us telemetry stream and is de multiplexed by the 11p us V2 Deck Unit The de multiplexed data is output from the Deck Unit at the back panel s Serial Data Uplink connector The serial data uplink operates only in one direction from the CTD to the Deck Unit Communication from the Deck Unit to the serial data output instrument through the CTD is provided via the 300 baud FSK modem used for water sampler control Note that the 911p us supports use of the serial data output instrument and water sampler in the same cast Instrument commands sent via the 300 baud modem are transmitted from the CTD to the instrument at the transmission rate of the instrument Data from the s
17. MAX708 Pig XMITLED DATALED Pig ERRLED m ___ gt FIFOLED gt NMEALED _ gt RESETFIFO 74HC138 U5 11143 XAG3LQFP 11175 ALARM P0 0 A4 DO PO 1 A5 D1 PA1 D1 Ce 9 12V 4 9152MHZ P0 2 A6 D2 PA2 D2 18002 P0 3 A7 D3 PA3 D3 Qi 0 4 8 04 PA4 D4 P0 5 A9 D5 gt Fon P0 6 A10 D6 24 7 11 07 EA WAIT PSEN ALE lt __ RXFROM9 gt P3 0 RXDO rag iu ERLI CD dope esum P3 5 T1 BUSW 12 5 P3 6 WR RD lt Le ttt 13 P3 7 RD 74HC245 11207 SEA BIRD ELECTRONICS INC Title SBE 11PLUS DIGITAL BOARD V2 24LC16B Size Document Number Rev 1231 B 32127 D Date Tuesday April 26 2005 Sheet 2 of 4 15 gt D 0 7 gt 74HCO4 11170 CY62256L 70SNC 11236 HEADER26 17019 GPIBI N 5952 3555 22 BBUSOEN DATA15 DATA14 GND DATA13 DATA12 DATA11 GND DATA10 DATA8 VDD XR88C681CJ 11208 GND ABUSN ADDRO ADDR1 ADDR2 ADDR3 ADDR4 SNVODOUFPAN wk 15326 3 6864MHZ Y3 INTR DACKN DRQ BURSTRDN ABUSOEN TADCS CPUACC TRIG C24 0 1UF 14089 5V C21 22PF TNT4882 AQ 11211 N N D op A D 5V C25 0 1UF 14089 C26 O 1UF 14089 RXFROMPC S RXMODEM lt IXTOPC Q 18028 lt 5 R14 3 01K
18. 1 Double click on Seasave exe Seasave s main window looks like this xl Seasave SBE 911plus 917plus C Documents and Settings dbresko My Documents Testing seasave nsa File Configure Inputs Configure Outputs Display RealTime Data RealTime Control Archived Data Options Help lt Display 1 Scrolled 1 lt Display 1 Eiai e EY E AN Conductiviy 57m me 0 5585 Temperature 175 90 224939 06857128 222903 04781 S crol led Pressure Digiquartz db 0 5439 D 5 7500664 2260297 0 4601 Salinity PSU onno 00625382 2270956 0 5623 eer Display Una 22611 as UM 225944 UOS 225505 USES 225949 87 MEE lt gt gt 5 alaa Temperature 115 90 gt V 1 600 3 200 800 6 400 8 000 soon 1 000 2 000 3 000 4 000 5 000 Conductivity 5 2 1 1 34 200 34 400 34 600 34 800 35 000 Salinity PSU Title bar The title bar shows the selected instrument type and path and file name for the program setup psa file The psa file contains all the instrument setup information as well as size placement and setup for each display window e Menus The Menus contain options for setting up the instrument and the displays as well as for starting data acquisition e Status display Thi
19. 11236 12031 12077 12081 12142 12143 13089 13090 13094 13108 14079 14080 14086 14087 14088 14089 DESCRIPTION PACKAGE SBEliplus DIGITAL BOARD DWG 40937D PCB SBE 11 DIGITAL V2 DWG 10210D IC MOTOROLA SRFC MNT MC74HC138AD IC MOTOROLA SRFC MNT MC74HC373ADM IC MOTOROLA SRFC MNT MC74HC74AD IC MC14049BD SRFC MNT IC MC14538BDW SRFC IC MAX708CSA SRFC MNT IC MM74HCO4M HEX INVERTER SRFC MNT IC 51 RMLSS 30MHZ CMRCL TEMP LQFP LTC1383CS RS e3e INTRFC SRFC MNT ZPSD318B 15J ZPSD308B 90JI EPROM NO WNDW IC PS1XAG37KBA OTP 30MHZ CMRCL TEMP PLCC IC MC74HC32AD SRFC MNT MOTOROLA IC 74HC845ADM BUS TRANSCEIVER SRFC MNT IC XR 88C681CJ DUAL UART SRFC MNT IC TNT4882 BQ GPIB CONTROLLER SRFC MNT IC ICM72e8DIPI LED DRIVER IC X24C16S8 2 7 OR 24LC16B 16K EEPROM SMT IC CY62256L 70SNC 32K X 8 SRAM SRFC MNT IC 15 2 AD620BN DIFF AMP ANALOG DEVICE IC HP6N137 OPTO COUPLER IC LTC1292CCN8 SV 12 BIT A D SYSTM IC 171027 58 5 SV REF SRFC MNT DIODE PHILIPS 516 SRFC MNT SOT23 3 XISTOR MOT BC847BLT1 SRFC 5 23 3 DIODE MBROS30T1 5 30V 00123 0 SA SRFC MNT DIODE SMBJ12CA 12V SMB BIDIRECTIONAL SRFC MNT CAP 1UF 5 NICHICON QYS1H104JTP CAP 033 uf SOV POLY WESCO 32MPC 3302J05 10uf TANT 20V 107 293D106x9020CeT CAP 22uf TANT 20V 10 5950 26
20. 125 VAC or 210 250 VAC 50 to 60 Hz depending on the setting of the back panel power switch A power supply Power One model HTAA 16W A creates 5 12 and 12 volts DC for use by the Deck Unit electronics and telemetry receiver The input power line is fused with at 2 Amp Slow Blow fuse when operating at 120 VAC The fuse should be replaced with a 1 Amp Slow Blow type for use at 240 VAC The Power One supply has fold back current limiting and is not separately fused Sea Cable Supply A choke input supply provides 250 VDC at up to 0 25 amperes to the sea cable a 0 5 amp fuse located on the Deck Unit back panel protects against accidental shorting or overload of the sea cable Deck Unit Cooling The Deck Unit has a fan in the back panel Slots at the back panel top and bottom allow air interchange Tape Recorder VCR Interface Note An 11plus V2 with jumpers set for serial data uplink cannot output data through the tape recorder interface See Section 10 Setting Up RS 232 Serial Data Uplink The tape recorder interface permits use of an audio recorder or VCR for data backup in case of computer failure or for data recording when no computer is available Connect the recorder line input and line output to the Record and Play connectors respectively on the Deck Unit Set the record level to 0 db When playing back data the front panel Signal Source switch must be in the Tape position Most high quality cassett
21. 2 Socket 2 Pin Molex 2695 22 01 2027 3 Socket Pin Molex 2695 22 01 2037 2 Socket Pin Molex 2695 22 01 2047 3 Conn DB 9s 9 pin female Pin Molex 2139 09 50 3021 Crimp Molex 2478 08 56 0106 Socket 2 2 Terminal E 17415 MS 17416 lt 5 PIN M PIN M 30125 SCREW 30212 NUT 4 17054 PI 30185 SCRE 4 1 PL LEX 30212 NUT 4PL 30125 SCR EW 4PL 30212 NUT 4 Conn Conn Conn Conn Conn Fan Fuse Fuse Fuse Holder Corcom Line Filter Schurter Voltage Selector 033 4503 Fuse oxe mm 2 Amp Slow Blow 1 Amp Slow Blow Fan cover wire guard 80mm 531024105 3 Pin 53100 148 05 4 Pin 53100 105 35 2 Pin 531024145 55 5 Pin Interpower 83110170 1 2 A Fast Blow 3VR1 Male Pnl Mnt Female Pnl Mnt Female Pnl Mnt Female Pnl Mnt Littlefuse 3420044 Deck Unit A30716 10 TA300S 318 500 ER 20042 1 2 AMP FUSE Description Location use with 08 25 ond DB 9 connectors use with GPIB connector coble IEEE 488 Crimped onto wire ends for molex connectors wire ends of NMEA ond 9600 boud connectors wire ends of 08 25 ond Remote connectors wire ends of tope recorder record ploy amp Remote Rs 232 Modem 9600 baud uplink wire ends of sea cable connector Crimped to wire ends
22. 73 Appendix II Commands Sent Automatically by Seasave 75 4 Manual revision 014 Table of Contents SBE 11plus V2 Appendix Functional Description and Circuitry 77 Deck Unit Data eene eene T Data Telemetry Receiver sss enne 77 Deck Unit n o ea tee 77 Deck Unit 79 Sea Cable Supply A Rete Rt ENSE 79 Deck Unit Cooling eee eee teint 79 Tape Recorder VCR Interface 79 iiii 79 Chassis iie eiie eee ee Re eed 80 Power Supplies sees ee Rei eiecti 80 Receiver Modem PCB 5 ee cie eere Pede eene 80 Digital he 81 Appendix IV Replacement 82 Appendix V Manual Revision History sccscsscssssssescsseseeees 83 TIEN D 85 11 12 Manual revision 014 Section 1 Introduction SBE 11plus V2 Section 1 Introduction This section includes contact information and photos of a standard SBE V2 shipment About this Manual This manual is to be used with the SBE V2 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 Sea Bird welcomes suggestions for new features and enhancements of our products an
23. AddSPAR must be consistent with the setting in the configuration xmlcon or con file See Section 7 Setting Up Surface PAR Note See Section 8 Setting Up Remote Output Note lt is applicable only if AutoRunzY If AutoRunzN Seasave automatically sends NY or NN to enable or disable NMEA data based on the setting in the configuration xmlcon or con file Offset x x offset voltage count 0 99 used to adjust Surface PAR data for drift in Deck Unit electronics Pressure Baud Rate Command PBaud x x baud rate for pressure frequency and pressure temperature output from Deck Unit 1200 2400 4800 9600 or 19200 Autorun Commands Autorun allows the user to automatically start sampling when power is applied This may be useful for a system that is not using Seasave to control and monitor data acquisition AutoRun x x Y When power is applied automatically send GR to start sampling and put data into RS 232C buffer Do not send and display response of status command on power up x N Wait for a command when power is applied Default AddNMEA x x Y Add 7 bytes of Lat Lon data to CTD data x N Do not add Lat Lon data to CTD data Setting Up CTD Configuration xmlcon or con File in Seasave Notes Seasave and SBE Data Processing versions 7 20 introduced xmlcon files in XML format Versions 7 20 and later allow you to open a con or xmlcon file and to sav
24. Mode RS 232 Click OK to save the settings and exit the dialog box 39 46 Manual revision 014 Section 7 Setting Up Surface PAR SBE 11plus V2 4 Turn on power to the Deck Unit or if already on send the status DS command The display in SEATERM looks like this SBE llplus V 5 2 number of scans to average 8 pressure baud rate 9600 NMEA baud rate 4800 surface PAR voltage added to scan A D offset 0 GPIB address 1 advance primary conductivity 0 073 seconds advance secondary conductivity 0 073 seconds auto run on power up is disabled Looking at the lines related to Surface PAR which appear only if Surface PAR has been enabled e Surface PAR voltage added to scan Surface PAR is enabled e A D offset offset for Surface PAR to adjust for drift in electronics 5 In SEATERM send AddSPAR Y if not already enabled and Offset 0 6 Set the Deck Unit thumbwheel switch to 9 7 The number displayed on the Deck Unit s Word Display LED is the value to use for the offset In SEATERM send Offset x where x is the number displayed 8 Deck Unit verify that the LED shows 0 If not repeat Step 7 9 Turn off the Deck Unit Setting Up CTD Configuration xmlcon or con File in Seasave Note Seasave version 7 21a and later automatically sends AddSPAR Y AddSPARE N based on the setting in the configuration xmlcon or con file For earlier versions of Seasave AddSPAR2 must be consistent
25. _______ DECIMAL TITLE E TEST CABLE SBE 911 PLUS SUBCONN ANGULAR DATE DRAWING NUMBER REV 52695 ay DATE SYM REVISION RECORD AUTH DR CK 5 16 03 PIN CALLOUTS ALP 02 09 0718 ADDED PN TABLE CB 01 13 111 CLARIFIED PART SPECS PC CONN AMPHENOL 106 125 35 SBE P N 17315 CLAMP AMPHENOL 57 4 PLASTIC DB 9 HOOD W THUMB SCREWS SBE P N 17316 P MANUFACTURING 12508 009 SBE P N 17097 BUSHING AMPHENOL MS3420 4 SBE P N 17317 1 2 15 CABLE 2 CONDUCTOR SHIELD BELDEN 8737 SBE P N 17095 DI EMALE CONN SDEOS 17096 CABLE DIM A P1 53106 125 55 2 DB 9S COLOR 801422 6 F 18 m PIN A PIN 5 RED 801705 25 m PIN 5 BLK 801904 So 10m rums SEA BIRD ELECTRONICS INC DECIMAL TITLE NMEA TEST CABLE 11PLUS 33 36 ANGULAR DATE DWG NO REV 120 08 95 17096 08 95 PN 17097 BUSHING SBE P N 17414 BELDEN 8737 PN 17095 P1 MS3106A 14S 5P P2 08 95 COLOR PIN A PIN 5
26. p Timeout in seconds at startup Timeout in seconds between scans Report Help Start Exit Cancel Make the desired selections Note Seasave version 7 21a and later automatically sends AddSPAR based on the setting in the configuration xmlcon or con file For earlier versions of Seasave the setting in the configuration xmlcon or con file must match the AddSPAR that you programmed into the 11plus see Section 7 Setting Up Surface PAR Note If Auto Fire firing sequence was selected on the Water Sampler tab in Configure Inputs the Fire Bottle Control dialog box is not available Note The file has the same path and file name as the data file For example if the data file is c test1 hex the bl file is c test1 bl Manual revision 014 Section 11 Operating System SBE 11plus V2 5 Inthe Start Real Time Data Acquisition dialog box click Start A G If you selected Begin archiving data immediately or Begin archiving data when Start Archiving command is sent above and selected Prompt for Header Information the Header Form setup Configure Outputs the Header Information dialog box appears Fill in the desired header and click OK If you 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 Deck Unit and waits up to 60 seconds for confirmation If confirmation is not received verify tha
27. 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 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 o0c15_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 start with an asterisk Place anywhere between System Upload Time amp END of header NMEA Latitude 30 59 70 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 Ctrl F7 is Pressed Ao Ships Sea Bird Cruise Sea Bird Header Test Stations Latitude Longitude END 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 In the
28. A D voltage sear Seasave appends 5 A D volage SBE 0 Adds 2 channels to Channel Sensor 6 A D 2 Fluorometer WET Labs CDOM table Do not decrease Voltage 4 words suppressed to reflect this voltage 3 Altimeter V NMEA position data added New Open Voltage words suppressed reflects Click a sensor and click only external voltages going directly 8 SPAR voltage Unavailable Modify to view change to 9plus from auxiliary sensors 9 SPAR voltage SPAR Surface calibration coefficients See Section 7 Setting Up Surface PAR Click a non shaded sensor and click Select to pick a different Scan time Select to have Seasave sensor for that channel dialog box with list of sensors appears append time seconds since January sensor is selected dialog box for calibration coefficients 1 1970 GMT to each data scan appears Select sensors after Frequency channels suppressed and Voltage words suppressed have been specified above Report 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 for that sensor 30 37 Manual revision 014 Section 6 Setting Up NMEA Interface SBE 11plus V2 Section 6 Setting Up NMEA Interface The Deck Unit includes a NMEA 0183 Interface that permits position data to be merged with the CTD data The NME
29. P1 COLOR P2 PIN 1 WHITE A PIN 2 BLACK B SBE P N 17529 TOLERANCES ml TITLE 28 T RAWN BY 911 51314 1 92 IDELETE BUSHING 6 92 B ADD DIM TABLE APPROVED BY PLUS REV SEA BIRD ELECTRONICS INC FRACTIONAL SCALE EST CABLE SB ANGULAR DATE DRAWING NUMBER 12 91 DATE REV REVISION RECORD AUTH DR CK 1 22 03 SWITCHED WIRE COLORS KLP 8 1 07 B CHANGED CABLE TYPE PC 5 04 09 CORRECTED CONN BOOT CB PC 9 27 10 CHANGED BOOT TO HEATSHRINK CB PC DIM A GUIDE A ALPHA FIT221 1 2 BLACK SHRINK TUBE SBE PN 51679 55057 4 E PN 17516 NODO 55526 CABLE TYPE BELDEN 8412 53106 125 3 SBE PN 17529 P2 CIL 2FS W LOCKING SLEEVE MCDLS F ASSY PN PIGTAIL PN DIM A WIRING CONNECTIONS 801565 2 5 P1 MCIL 2FS COLOR P2 801587 7 2105 DO 10 PIN 1 WHITE 801 738 72350 150 F 46 PIN 2 BLACK B 801937 72523 495 150 801962 2688 100 FT 51 PIGTAIL DWG 52514 mes SEA BIRD ELECTRONICS INC APPROVED
30. Software and any related documentation is provided as is without warranty of any kind either expressed or implied including and without limitation the implied warranties or merchantability fitness for a particular purpose or non infringement The entire risk arising out of use or performance of SEASOFT remains with you In no event shall Sea Bird Electronics or its representatives or suppliers be liable for any damages whatsoever including without limitation damages for loss of business profits business interruption loss of business information or any other pecuniary loss arising out of the use of or inability to use this Sea Bird Electronics product even if Sea Bird has been advised of the possibility of such damages 127 Sea Bird Service Request Form To return instruments for calibration or other service please provide the information below so we can serve you better and prevent delays in the return of the instruments 1 Get a Returned Material Authorization RMA number from Sea Bird seabird seabird com phone 1 425 643 9866 fax 1 425 643 9954 Reference the RMA number on this form on the outside shipping label for the instruments and in all related correspondence 2 Include this form when shipping the instruments to Sea Bird for servicing 3 E mail or fax us a copy of this form on the day you ship gt seabird seabird com fax 1 425 643 9954 RMA Number Date equipment needed Do you need a written quot
31. a shorted unit may be hot etc 3 Ifthe power supply levels are correct check for correct operation of the Receiver Modem PCB With the CTD connected check for presence of the telemetry waveform on the L side of the Receiver Modem PCB input terminal The Receiver Modem is under the main logic PCB and may be accessed by removing the Deck Unit bottom cover 67 Manual revision 014 Section 14 Troubleshooting SBE 11plus V2 Problem 6 RS 232 Interface Not Working Cause Solution 1 You may be attempting to communicate at an incorrect baud rate etc A standard Deck Unit is configured to 19200 baud 8 data bits 1 stop bit and no parity These settings may not be changed Verify the settings in SEATERM by selecting SBE 11 Interface in the Configure menu Cause Solution 2 If non Sea Bird software is being used verify that the RS 232 device is sending the correct commands to the Deck Unit For example GR must be used to begin transferring data to the RS 232 interface Cause Solution 3 Verify that the connection to main logic board JP6 RS 232 I O connector is properly secured This connector may be installed 180 degrees to normal position to reverse the Receive Transmit connections Cause Solution 4 Check the circuitry associated with U15 and U17 Problem 7 IEEE 488 Interface Not Working Cause Solution 1 The Deck Unit s IEEE 488 address may not be properly set to match the external interface As
32. con file see Section 5 Setting Up System for details This can result in a substantial saving in disk space required to store CTD data Unless noted otherwise this section describes data output for a Deck Unit set to use all channels The data words each containing three bytes are summarized below Word Deck Unit from Description Thumbwheel Switch Deck Unit Position 0 Primary Temperature 0 1 Primary Conductivity 1 2 Pressure 2 3 Secondary Temperature 3 4 Secondary Conductivity 4 5 A D channels 0 1 5 6 A D channels 2 3 6 of A D channels 4 5 8 A D channels 6 7 8 9 Surface PAR 9 Pressure temperature compensation 10 A 10 and modulo count CTD status 11 B Bytes available in IEEE 488 buffer 12 C Bytes available in RS 232 buffer 13 D Appended to end of NMEA data scan NMEA data appended to end of scan for IEEE 488 only For RS 232 NMEA data is output on a line by itself once per second See Section 6 Setting Up NMEA Interface for NMEA output data format The word numbers indicate the order of the data scan sent to a computer via the IEEE 488 or RS 232 port Detailed below is the output format on the Deck Unit s LED display followed by the IEEE 488 and RS 232 data output format 59 66 Manual revision 014 Section 12 Data Formats SBE 11plus V2 Deck Unit LED Display Format Data words can be selected for display with the thumbwheel s
33. for transmission to external speakers or headphones Tone for bottle fire confirmation PC sound card Make the desired selections and click OK 50 57 Manual revision 014 Section 9 Setting Up Water Sampler SBE 11plus V2 4 If desired set up a plot window in Seasave to show the bottle closure order and or place a horizontal line in the plot to indicate the data associated with a bottle closure A Right click in a Plot Display window and select Modify The Plot Display dialog box appears Plot Display 1 Plat Setup vis 1 2 Print Options Save Options Copy Options Title Plot Type Grid Lines Single Y Multiple X Horizontal and Vertical Number of axes Style Dotted Line TS Plot Gridin front Display downcast only Minimum pressure to determine upcast 300 Enable colors Pressure decrease to determine upcast 30 Bottle Fire Line Mark Line Display e Show sequence List closure order to right of plot Showlines Show sequence Show lines e Show lines Place horizontal lines in plot to indicate data associated with closures label and style define line along with Colors see button at bottom of dialog box Black text axis Show plot shadow Monochrome plot Seconds between updates 0 Fort Colors Select parameters as desired and click OK
34. in SEATERM in selected output format Valid only for non SBE 14 formats Format lt 128 Useful for diagnostic purposes 47 Manual revision 014 Section 8 Setting Up Remote Output SBE 11plus V2 Converted Data Output Data Format For Non SBE 14 formats Format lt 128 Parameters if selected are output in the following order Parameter Format Units Pressure decibars Depth dddd d meters Altimeter height aaaa a meters Temperature tt ttt deg C ITS 90 Conductivity S m Salinity SS SSS PSU Sound Velocity VVVV V meters second Two spaces follow each parameter Each scan of output data is terminated with a carriage return line feed If using the SBE 46 LCD Display Box up to four parameters can be displayed See the SBE 46 manual for details on setting up the display with labels for each parameter For SBE 14 formats Format gt 128 Altimeter height depth and pressure are each a maximum of 4 digits displayed to the nearest meter or decibar as applicable If the output format 1 set for altimeter height depth or pressure altimeter height displays to a maximum of 3 digits alternating with the depth or pressure on the display 48 55 Manual revision 014 Section 9 Setting Up Water Sampler SBE 11plus V2 Section 9 Setting Up Water Sampler The 300 baud modem interface for a water sampler allows the SBE 911p us to be used with an SBE 32 Carousel Wate
35. pressure auxiliary sensor data and derived Seasave and SBE Data Processing variables such as salinity and sound velocity Sea Bird also supplies an older version of Seasave Seasave Win32 However all Seasave instructions in this manual are written for Seasave V7 See Seasave Win32 s manual and or Help files if you prefer to use the older software AC Power T Recorder record amp play LES PAR Remote Out Converted Data Surface PAR _ EE amp Pressure Signal 1 metr NMEA 0183 Optional 9600 Baud Uplink RS 232 serial data NMEA navigation Computer Modem channel Water sampler communications device 1 1 SBE 11 Interface CTD data Notes Computer slip ring equipped winch SBE V2 Single conductive cable and NMEA 0183 Deck Unit conductor navigation device are not supplied by cable Sea Bird SZ When used without a water sampler the Alarm bottom contact SBE 9plus is deployed in a vertical altimeter and or pressure orientation Standard and optional auxiliary sensors on the 9plus CTD are not shown Water Sampler Seasave 7 17 or later also supports acquisition of data from a NMEA device connected directly to the computer instead of the deck unit e SBE optus Bj 16 Manual revision 014 Section 2
36. remote firing now available Describe ability to do mixed mode auto fire and to do auto fire on downcast Correct description of diagnostic NMEA commands NSR amp NSI 012 09 08 Add notes where NMEA is discussed explaining that can connect NMEA directly to computer Continued on next page 83 89 90 Manual revision 014 Appendix V Manual Revision History SBE 11plus V2 Continued from previous page 013 03 10 Changes required for CE certification New photo and drawing of back panel Add statement about compatibility with Vista Update software name Add information about xmlcon file Add information about unsupported modem message from Carousel Update SBE address 014 11 10 Update configuration file information related to Surface PAR sensor Seasave 7 21a and later sends AddSPAR command to based on setting in configuration file for firmware gt 5 0 Add information on specifying and ordering sea cable winch and deck gear Update SBE 11 Interface and Modem channel connector cable redesign in March 2010 changed these to 9 pin instead of 25 pin connectors Receiver PCB and Modem PCB were combined into a Receiver Modem PCB with the redesign changes documented in manual version 013 but the information was not updated in the manual Jumper position description for serial data uplink updated to correspond to new PCB 84 Manual revision 014
37. 13431 NE 20 Street Fax 425 643 9954 COLE Bellevue WA 98005 E mail seabird seabird com USA Web www seabird com APPLICATION NOTE NO 11S Revised February 2010 Using Biospherical Surface PAR Light Sensor with SBE 11p us Deck Unit If the SBE Deck Unit is configured with the A D converter it can acquire the output of a Surface PAR sensor and integrate this into the CTD data stream The A D converter is standard in all V2 Deck Units serial number 489 and greater and optional in V1 Deck Units serial number 488 and lower This application note applies to the following Surface PAR sensors the corresponding underwater PAR sensor mounted on the SBE 9plus CTD or cage is also shown Corresponding Underwater PAR Sensor If underwater PAR sensor interfacing to PN 90310 Log Amp Module which is connected to CTD A D voltage channel Surface PAR Sensor If underwater PAR sensor connected directly to CTD A D voltage channel QSR 240 or QSR 2200 QSP 200L QSP 2300L or QSP 2350L QSP 200 PD or QSP 2200 PD QCP 200L QCP 2300L or QCP 2200 PD QCR 240 or QCR 2200 QCP 2300L HP Notes e 05 240 QCR 240 QSP 200L QSP 200PD and QCP 200L are no longer in production by Biospherical e See Application Note 11 QSP L for details on the QSP 200L QCP 200L QSP 2300L QSP 2350L QCP 2300L and QCP 2300L HP underwater PAR sensors e Application Note 11 QSP PD for details on QSP 200 PD QSP 220
38. 16 FORKED CONCORD 12 459 2 01 TERMINAL YELLOW TEST POINT TP 105 05 04 HEADER 10 PIN RT lt MOLEX 22 12 2104 RA SOCKET 44 PIN AUGAT PLCC PCS 044A 1 XTAL 8 MHZ MP 1 8 000000 HC49U M TRON USC CH1100 3 31776 MHZ 01 TOLERANCE XTAL FOXO36S 3 57954 MHZ HC49U CRYSTAL FOX 11 0592 7 HC49U 115 20 DIP SW 8 POS 4 435626 2 SW ALCO TT21NG RA 1 SBE 9 SEACABLE TELEMETRY DWG 40503 MODEM COUPLING XFMR DWG 40506B 11 RCVR L1 0 964 DWG 40534B 11 RCVR 12 0 212 DWG 40535 SBE 11 RCVR T1 DWG 40536A gt reo NARS DE RECORD DR R37 R39 R70 R28 R41 R42 R45 R48 R54 R55 R57 R58 R65 R18 R67 R68 R30 R19 R25 R50 R59 R63 R17 R69 R72 R29 R46 R51 R56 R61 R73 R74 R75 R78 R79 R80 R81 R3 R35 R76 R77 R4 R10 R38 R33 R36 RS R13 R14 R15 Ree R31 R34 R12 R24 R32 R23 R21 R27 R1 R47 R52 R60 R62 R82 R83 JP4 J1 Je J3 J4 J6 45 J7 JP8 JP3 JP2 JP7 JP1 JP9 USS 5V 12V 12V GND 1 TPe JP10 U7S X3 4 19 09 A E294 A 565962650 06 SEA BIRD ELECTRONICS INC PART 41704A BD SCALE 1 20 BY 06 SCHEM 353420A PL SCALE 0 80 APPR BY SBE11 RECEIVER MODEM DATE DWG NO REV 3 20 09 41704 107 108
39. 21 2009 Sheet 1 of 5 103 L1 RMSC A63 3B7 124 TURNS 32 TAPE IN L2 RMSC A63 3B7 58 TURNS 28 PAD100SMT 0 0047uF RS R18 11 5K 2N5486 14015 ee 2 412VO0 13021 Ri 15090 D TAPE IN 14019 15056 b El 470pF U1B 15 211 14010 7 OP215 t nl C21 WF 114154 C14 12055 6 0 01uF 13003 C13 N Bis 14019 R22 12V 140657 FISH TAPE EE 5 22 6 15172 T oe 15098 T G_OUT1 5 Nanos 12 PAD100SMT c15 P1087 71 14002 6 144154 13002 14025 0 1uF 033uF 13037 1116 G_OUT2 12 E 13003 0 1uF 14025 IL 14063 I33pF PAD100SMT 14015 R11 1K P n 0 0047uF 01 1 C7 244401 40 2K R17 15107 13038 7 Fi TANK TELE IN R21 PAD100SMT PAD100SM La 1 pt 520 12359 92 13038 Ris 14010 is 1000 0071 24401 10k 13003 13003 8 12169 80 6 c9 15172 1N4154 tI 7 u2c 0 022uF ce 1N4154 15039 12229 13003 4 4 4 13038 CD4070 0 0033uF 13003 12 182154 2524401 11019 14014 0 212mH D Q5 meo 12V Q8 2 2K 20072 22403 c17 4 97 H 13039 E UE 2N4401 ipo 13038 R12 E 14025 4 12V 05 R7 Wo 47K 1N4005 0 1uF 301 1
40. 29 0 1UF 14089 PC RS 232 JP6 1 3 17055 12V PRESSURE DATA JP7 LT1383CS 1 11181 e 4 3 R12 330 Q2 BC847BLT1 13090 74HCO4 74HCO4 74HCO4 74HCO4 11170 U27B 74HC74 11149 SEA BIRD ELECTRONICS INC Title SBE 11PLUS DIGITAL BOARD V2 Size Document Number Rev B 32127 D Date Tuesday April 26 2005 Sheet 3 of 4 111 112 14089 15312 o 1uF 030 gis 1 XMITLED gt RECVLED 5VO 14089 c32 0 10 DATALED gt R18 1M 15312 ERRLED gt FIFOLED gt RESETFIFO gt NMEALED SURFACE PAR 2 a a 2 3 3 N BN CD4049 11160 CD4049 11160 CD4049 11160 CD4049 11160 O CD4049 11160 12 12 A 0 15 gt D O 7 lt gt ICM7228DIPI 11221 lt 5 __ gt PBRESET HEADER26 17019 0530 1 13094 D14 MBRO530T1 13094 U19 LTC1292CCN8 12142 SEA BIRD ELECTRONICS INC Title 0530 1 13094 lt JADCLK ADOUT 0530 1 13094 12 LT1027ECS8 12143 SBE 11PLUS DIGITAL BOARD V2 Size Document Number R B 32127 Date Tuesday April 26 2005 Sheet 4 of 4 SLB PRINTED 09 52 26 12 MAY 2005 PART NUMBER 40937D 102100 11143 11147 11149 160 165 166 170 11 11 11 11 11175 11181 11183 11188 11206 11207 11208 11211 11221 11231
41. 40 Nylon Stop SS Thin use with LED display screws Ret 222 30386 11 Holder HLMP 0103 holds LEDs in front panel two pieces 19008 1 Switch Tape Fish AML24EBA2BA01 tape fish switch Umi LED word display 19010 1 Sw Red Actuator AML52N10R power switch cover 19011 1 Sw Blue Rocker AMLS4F10B tape fish switch cover W v Pwr ower switc JOLERANCES 19037 2 Sw Mom Micro Sw AML21HBA2BA ome arm fire BIRD ELECTRONICS INC 19038 1 Sw Green Button Micro Sw AML51C10G fire switch cover FRACTIONAL DG 19039 1 Sw Amber Button Micro Sw AMLS1CIOA home arm switch cover SCH 31732 prar 20002 5 LED Green HLMP 3507 fire data carrier receive NMEA ait 20008 2 Yellow HP HLMP 3401 homie arm transmit ME SBE Red error overflow 20033 1 Mallory SC628MN n front panel 2 pieces FRUNT PANEL ASSEMBLY 20083 2 LED Orange HP HLMP D401 SBE G O PANC NUMBER 40853 eg 100 17008 PL 17096 DB 9S 5 or cx REF ECN1242 REQUIREMENTS 17056 3 PIN MOLEX 30144 SCREW 4PL 20077 30148 SCREW 4 PL 17007 B SETS 17096 DB 9S 17056 B PIN M 30368 NUT 4 20018 20207 30142 6 32 x 3 8 PH 17096 CDB 9
42. 5 When ready to begin data acquisition select Start in the Real Time Data menu See Section 11 Operating System for details 23 30 Manual revision 014 Section 4 Installing and Using Sea Bird Software SBE 11plus V2 Using SBE Data Processing Note Older Seasave versions lt 6 0 saved CTD data coming from the Deck Unit as a dat file instead of a hex file SBE Data Processing provides post processing modules for the real time data acquired in Seasave The modules include Module Description Data Conversion Modules Data Convert raw hex data from SBE V2 Deck Unit to Conversion engineering units and store converted data in a cnv file Bottle Summarize data from water sampler bottle ros file Summary storing results in btl file Mark Scan Create bsr bottle scan range file from mrk data file Data Processing Modules Align CTD Align data typically conductivity temperature and oxygen relative to pressure Bin Average Average data into bins based on pressure depth scan number or time range Compute Brunt Vaisala buoyancy and stability Buoyancy frequency Perform conductivity thermal mass correction Calculate derived variables such as salinity density Derive sound velocity oxygen potential temperature dynamic height etc Loop Edit Mark scan with badflag if scan fails pressure reversal or minimum velocity tests Wi
43. Configuration Options dialog box e Check cabling between the computer and Deck Unit 0 073 seconds 0 073 seconds Send commands to modify the system setup as desired See Commands Entered with SEATERM below 26 33 Manual revision 014 Section 5 Setting Up System SBE 11plus V2 Commands Entered with SEATERM Notes The following status and setup commands are transmitted by the user to the S prompt indicates Deck Unit is Deck Unit s SBE 11 Interface using SEATERM connected to computer and ready for a command Status Command Commands can be entered in upper or lower case DS When the computer is connected to Display Deck Unit setup and status parameters the SBE 11 Interface SEATERM List below includes where applicable command does not echo commands as you used to modify parameter type them Verify that a command e Digital PCB firmware version was interpreted correctly by sending e Number of scans to average in Deck Unit DS to check appropriate Deck Unit averages and saves to disk at this parameter s rate For full rate data 24 Hz set to 1 e Pressure baud rate for communication through Remote Out connector PBaud e NMEA baud rate for communication through NMEA connector NMEABaud Surface PAR voltage added to scan appears automatically when Deck Unit is only if Surface PAR enabled AddSPAR powered up except if AutoRun Y A D offset for Surface PAR to adjust for drift in
44. Configure Outputs The SBE 14 or SBE 46 alarm sounds when the alarm is set If the alarm is set SBE 11plus Alarms and the output format is not for the SBE 14 the character A is transmitted after the last variable in the data scan Sea Surface Alarms pressure altimeter and bottom contact not on regardless of pressure or height reading E VS GRECE RARO RAD S C PEnable tee eee Eee Alarm when pressure in this range provides warning that CTD is about to reach surface AltHyst altimeter alarm stays on in this range after AltSet reached AltSet mim ae ee ee am Altimeter alarm on when height in this range Sea Bottom Alarms x x alarm enable parameter If x 0 all alarms are disabled Enable any combination of alarms by adding alarm value to x Alarm Value Bottom contact 1 Pressure 2 Altimeter 4 Examples To enable Bottom Contact alarm set Alarms 1 To enable all 3 alarms set Alarms 7 1 2 4 PEnable x x minimum pressure decibars to enable all alarms PSet x x pressure decibars to turn on pressure alarm AltSet x x distance above bottom meters to turn on altimeter alarm AltHyst x x maximum change in distance above bottom meters for altimeter hysteresis Diagnostic Commands Note Stop the data output by pressing Go or Run Output CDO data to computer CDO data appears the Enter key one or more times
45. Description of SBE 11p us V2 SBE 11plus V2 Deck Unit Specifications 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 meters Sea Cable SEN Compatibili 32 800 feet long with inner core resistance of up to patibility 350 ohms 132 x 432 x 432 mm 5 2 x 17 x 17 inch cabinet with Deck Unit f standard 19 inch distance between centers of mounting Dimensions holes rack mounting brackets SBE V2 operates properly under following conditions Installati e Indoor use Altitude up to 2000 meters Environment Temperature from 5 C to 40 C Maximum relative humidity 80 non condensing Mains supply voltage 10 10 17 Manual revision 014 Section 2 Description of SBE 11p us V2 SBE 11plus V2 System Communications System communications are summarized below Note SBE 14 requires 300 baud SBE 46 requires 1200 2400 4800 or 9600 baud SBE 14 or 46 or Converted Data Output RS 232C 300 other 600 1200 2400 4800 9600 or 19200 device baud 8 data bits 1 stop bit no parity Remote Output Pressure frequency RS 232C 1200 2400 4800 9600 or 19200 baud 8 data bits 1 stop bit no parity Tape Recorder Tape Recorder Serial instrument data RS 232C 19200 baud 8 data bits Gone 1 bit no parity NMEA 0183 protocol 4800 or 9600 bau
46. ELECTRONICS INC 125 WARRANTY ADMINISTRATION POLICY Sea Bird Electronics Inc and its authorized representatives or resellers provide warranty support only to the original purchaser Warranty claims requests for information or other support and orders for post warranty repair and service by end users that did not purchase directly from Sea Bird or an authorized representative or reseller must be made through the original purchaser The intent and explanation of our warranty policy follows 1 Warranty repairs are only performed by Sea Bird 2 Repairs or attempts to repair Sea Bird products performed by customers owners shall be called owner repairs 3 Our products are designed to be maintained by competent owners Owner repairs of Sea Bird products will NOT void the warranty coverage as stated above simply as a consequence of their being performed 4 Owners may make repairs of any part or assembly or replace defective parts or assemblies with Sea Bird manufactured spares or authorized substitutes without voiding warranty coverage of the entire product or parts thereof Defective parts or assemblies removed by the owner may be returned to Sea Bird for repair or replacement within the terms of the warranty without the necessity to return the entire instrument If the owner makes a successful repair the repaired part will continue to be covered under the original warranty as if it had never failed Sea Bird is not responsible for an
47. J6 H System Limitations A 911 system set up for serial data uplink has the following limitations Sea cable length The maximum sea cable length that will reliably maintain data transmission is 8000 meters e Autonomous water sampler operation The 9p us cannot be used with an SBE 17plus V2 SEARAM preventing water sampler operation on non conducting cable e Water sampler The 911p us cannot be used with a G O 1015 water sampler Compatibility A 9plus that includes the RS 232 serial data uplink is incompatible with an V2 set up for standard transmission recorder interface An V2 with jumpers set for serial data uplink cannot output data through Tape Recorder the 11 V2 Back Panel 53 60 Manual revision 014 Section 10 Setting Up RS 232 Serial Data Uplink SBE 11plus V2 Theory of Operation Note The 300 baud modem interface now standard in both the Deck Unit and CTD was optional in Deck Units with serial number 700 and lower and in 9plus CTDs with serial number 785 and lower The 9plus and 11plus V2 must be equipped with the standard data telemetry channel as well as the 300 baud FSK modem channel Additionally the 9p us must be equipped with the optional serial data uplink The 300 baud modem channel features two way communications and is used for water sampling commands and responses This channel is also used to communicate with the
48. Pwr Deck Sply Clamp Dwg 20088 Holds 800uF 450v capacitor 30197 255 22 Lure resistors 4 aec supply rail 15 rew 6 32 1 Fill HD Slot cures capadtor damp halves together 30156 Mach Screw 8 32 x 1 2 FH SS Secures transformer plate to deck supply rails SEA BIRD ELECTRONICS INC HET x Va PH 22 LUS transformers to deck Supply Mem rew 8 32 x 7 8 PH cures capadtor damp to deck su rails Mach Screw 8 32 x 1 1 4 PH SS Secures cabadtor damp to deck supply rails PART 41726 PNL SCALE 0 55 DRWN BY Mach Screw 10 32 x 1 2 FH SS Secures deck supply rails to case side pieces SCHEM 33440 SCALE 0 75 APPR BY Mach Screw 10 24 x 3 4 PH SS Secures diode bridge to deck supply plate TITLE Nut 8 32 Nylon Stop SS Used with transformer screws SBE 11 plus V2 Spacer 8 x 1 2 Nyl RSN 8 8 Used with capadtor clamp seauring screws Nut 10 24 Nylon Stow SS Used with diode bridge SUE CHASSIS ASSEMBLY Res Bracket 9 Ohmite Connects to 4k 50 watt resistor DATE DWG NO REV Res Bracket 5 Ohmite Connects to 15 ohm 12 watt resistor 1 1 1 0 09 41 726 30157 30161 30165 30170 30176 30214 30287 30361 30523 30524 00 REN 102
49. Section 3 Mounting and Wiring System SBE 11plus V2 CTD to Auxiliary Sensors and Water Sampler See the SBE 9plus CTD manual for details on wiring of the CTD to auxiliary sensors For wiring of the CTD to the water sampler SBE 32 Carousel Connect the CTD s 6 pin top center JT7 connector to the 6 pin bulkhead connector at the bottom of the Carousel electronics housing with the 6 pin to 6 pin jumper cable 17198 e 1015 Rosette Connect CTD s 3 pin 774 connector to the Rosette The G O 1015 has 2 polarity settings normal and reverse which refer to the sea cable polarity Most commonly it is set to reverse especially when used with a MK CTD The 9 CTD can be used with the G O 1015 in either setting by choosing the appropriate interface cable 17196 for reverse or 17533 for normal If you have only one interface cable the polarity setting of the G O 1015 can be changed to correspond with your cable Application Note 35 gives detailed instructions e 1016 Rosette Connect the CTD s 6 pin top center JT7 connector to the Rosette Power to Deck Unit WARNING Some oceanographic vessels Verify that the Deck Unit back panel power selector switch is in the correct isolate un ground the AC power position 120 or 240 VAC for your mains power source Connect power to the ground circuit If the Deck Unit is being installed on a vessel with an isolated AC power ground a secure separate ground connectio
50. System 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 Sea Cable from Deck Unit to CTD WARNING Life threatening voltage e 250 VDC is present on the sea Terminate the sea cable leads from the winch slip rings with the supplied MS cable when the Deck Unit is connector MS3106A12S 3P Connect positive power cable inner powered This voltage persists for conductor to pin B and negative power cable armor to Pin A Connect to up to 1 minute after removing the Sea Cable connector on the Deck Unit back panel power Verify that the Deck Unit is disconnected from the AC power See the SBE 9plus CTD manual for connection of the sea cable to JT1 on source before connecting the sea the CTD cable to the Deck Unit Unplug the AC power cord and wait 1 minute after power is removed before working on the Deck Unit sea cable connector or sea cable circuits Computer to Deck Unit Deck Unit communication with the computer is provided in two channels The SBE 11 Interface channel RS 232 or IEEE 488 sends commands to and receives replies from the CTD The Modem channel RS 232 sends c
51. WIRING FOR P6 K K LINE CONNECTOR WITH BUILT IN FUSE HOLDERS FRONT PANEL BACK PANEL 115VAC QTY 2 5X20MM 2 AMP SLO BLO 20204 1 pa 230VAC QTY 2 5X20MM 1 AMP SLO BLO 20203 RED Vs AC POWER SWITCH ORG R2 15 LINE CONNECTOR LINE FILTER 19013 19010 115 230 ORG NV home Rep 29076 1 20077 8 YEL o RED 11 BACK PANEL 100JB12L 20021 BACK GRN YEL 13066 241 8 120 R1 0 5 FB FUSE 2 15273 20042 800uF SIDE FUSE HOLDER 20001 83110170 3vR1 J LAML32FBC7AD 1 6 552 J 6 COOLING FAN BLK MS 2 PIN 2 20018 17519 o 2 RED FRONT PANEL BLK SEACABLE TORIN TA300S A CHASSIS GND 7 17054 30464 6 SOLDER LUG WHT 24 30137 6 32 X 1 4 PH RED 24 LED 1 ORG 24 GRN 24 PRIMARY POWER SUPPLY E 19554 RE 3 MODEM IN 5 RED GRN 24 ORG 24 DB 9S GND 5V 12V GND 12 3 BLK 17096 17007 POWER ONE 1 GPS INPUT HTAA 16W A j MS 2 PIN 17415 FRONT PANEL B 2 FRONT PANEL BACK PANEL RECEI VER MODEM 59 5 1 2 5 41704 2 SONALERT REMOTE ASSY 41704A WHT 24 SC628MN DISPLAY 3 orG 24 REMOTE SCHEM 33420A e2 ALARM 4 OUTPUT PCB 10454A 15 n 20033 MS 5 PIN 17071 BRN 24 20083 G O 4 17670 10 M BLK 24 20083 5 9 SBE 3 x a 8 a m m a JP10 7 19037 WATER SAMPLER 5 BLU 24 19039 i BLK 24 3 ORG 24 lt lt 19037 FIRE 5 12 GND 12 ALARM ALARM S
52. a configuration file looks like this Run Configure Help 1 Data Conversion 2 Filter 3 Align 4 Cell Thermal Mass 5 Loop Edit 6 Derive 7 Bin Average 8 Bottle Summary 9 Mark Scan 10 Buoyancy 11 Wild Edit 12 Window Filter 13 ASCII In 14 ASCII Out 15 Section 16 Split 17 Strip 18 Translate 19 Sea Plot 20 SeacalcW Version 1 0 Command Line Options Exit The window s menus are described below Run gt List of the post processing modules Select the desired module to set up the module parameters and process data gt Run Options Select Run Options to assist in automating processing gt Exit Select to exit the program Configure contains a list of Sea Bird instruments that require a configuration xmlcon or con file Select the desired instrument 911 917plus CTD to modify or create a configuration file for that instrument The configuration file defines the number and type of sensors interfacing with the instrument as well as the sensor calibration coefficients 25 3l 32 Manual revision 014 Section 5 Setting Up System SBE 11plus V Section 5 Setting Up System This section covers Setting up general operating parameters for the Deck Unit in SEATERM Setting up the CTD configuration xmlcon or con file in Seasave See the following for details on setting u
53. coefficients in your xmlcon or con file were incorrect during data acquisition Seasave the saved raw data is correct and can be processed with the corrected calibration coefficients 63 70 Manual revision 014 Section 13 Routine Maintenance SBE 11plus V2 Section 13 Routine Maintenance To clean the SBE 1 Disconnect the power and any other cables from the back of the 11 2 Using a soft cotton cloth dampened with warm water clean the exterior of the 11 with gentle pressure Use special care cleaning around any connectors to avoid getting water into them 3 Wait until the 11p us is completely dry before reconnecting power cables and other electrical connections 64 71 Manual revision 014 Section 14 Troubleshootin SBE 11plus V2 Section 14 Troubleshooting WARNING Life threatening high voltages are present in the Deck Unit 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 turn off the Deck Unit disconnect the AC power cord from the Deck Unit 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 Deck Unit and provides the most likely causes and solutions Servicing should be performed by experienced technicians who have been trained to work with comp
54. configuration con file name Note that the file must be in the same directory as PROGI1V2 exe 5 PROGIIV2 uploads the calibration coefficients from the configuration file to the Deck Unit For the list of commands that are automatically executed when PROGI1V2 Is run see Coefficients Commands in CDO Commands Entered with SEATERM below 42 49 Manual revision 014 Section 8 Setting Up Remote Output SBE 11plus V2 Configuring CDO 1 25 Connect the Deck Unit s Remote Out connector to the computer Double click on SeaTerm exe In the Configure menu select SBE 11 Remote Out Make the selections in the Configuration Options dialog box e COMM Port COM 1 through COM 10 as applicable e Baud Rate 300 600 1200 2400 4800 9600 or 19200 must be 300 for SBE 14 must be 1200 2400 4800 or 9600 for SBE 46 Data Bits 8 e Parity None e Mode RS 232 Full Duplex Click OK to save the settings and exit the dialog box Turn on power to the Deck Unit or if already on send the status DS command The display in SEATERM looks like this SBE 11 1 Remote Output V 1 0 number of scans to average 4 bottom contact alarm enabled pressure alarm enabled pressure to enable alarm 100 0 db sound alarm when pressure is less than 50 00 db altimeter alarm enabled pressure to enable alarm 100 0 db sound alarm when altimeter height is less than 50 00 meters altimeter hysteresis 5 00 meters altimeter volt no
55. electronics Offset appears only if Surface PAR enabled e GPIB address for IEEE 488 communication with computer GPIB must be 1 for use with Seasave e Advances for any conductivity AdvanceCn and voltage AdvanceVn channels each channel appears only if its advance is not zero Start sampling automatically when power applied AutoRun Add NMEA to CTD data status AddNMEA appears after autorun status only if autorun is enabled Note Example command used to modify parameter shown in parentheses SBE llplus V 5 2 number of scans to average 8 ressure baud rate 9600 PBaud MEA baud rate 4800 NMEA Baud rface PAR voltage added to scan AddSPAR PIB address 1 dvance primary conductivity 0 073 seconds AdvanceC0 dvance secondary conductivity 0 073 seconds 1 p N S A D offset 0 Offset G a a autorun on power up is disabled AutoRun 488 Command GPIB x x JEEE 488 address Factory default setting is 1 Must be set to 1 for Deck Unit to work with Seasave 27 Manual revision 014 Section 5 Setting Up System SBE 11plus V2 Conductivity and Voltage Channel Advance Commands These commands align parameter data in time relative to pressure This ensures that calculations of salinity dissolved oxygen concentration and other parameters are made using measurements from the same parcel of water Channel Advance comman
56. on for 5 seconds when confirmation is received Carrier LED turns on and stays on when Deck Unit modem for communications with water sampler or remote serial instrument detects signal from modem in CTD i e CTD has modem interface and is connected to Deck Unit Reset button resets system Empties output buffers and halts input until instructions are received from computer Always Reset before beginning a CTD cast otherwise first data sent to computer may be old data left over from end of a previous cast Seasave performs this reset function automatically before beginning a cast Signal Source switch place in Fish position when data is to be acquired from CTD Place in Tape position when previously recorded data is to be played back from an audio recorder 13 19 20 anual revision 014 Deck Unit Back Panel Qe S a AC VOLTAGE 1 a 120V 2 AMP Fuse 240 Note An 11plus V2 with jumpers set for serial data uplink 6 cannot output data through Tape Recorder 5 See Section 10 Setting Up RS 232 Serial Data Uplink Note A NMEA navigation device can be connected directly to the computer instead of to the Deck Unit This feature is supported by Seasave V7 version 7 17 and later see Setting Up CTD Configuration xmlcon or con File in Seasave in Section 5 Setting Up System The output from Seasave is the same regardless of whether the NMEA data was a
57. ports shared file output mark variables TCP IP output TCP IP ports SBE 11plus alarms SBE 14 remote display PC alarms header form and or diagnostics click Configure Outputs e Timeout in seconds at startup Time allowed before first data 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 e Timeout in seconds between scans Maximum gap allowed between scans after first data 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 for example if a shark bites cable and interrupts data acquisition Seasave stops attempting to acquire data after this gap 55 Start Real Time Data Acquisition Data Archiving Options Begin archiving data immediately C Begin archiving data when Start Archiving command is sent C Do not archive data for this cast Output data file C Documents and Settings dbresko My Documents test hex Click Select Output Data File Name Save Archived Data As dialog box appears browse to desired file location enter desired file name and click Save Select Output Data File Name Configuration Options Instrument configuration xmlcon or con file to change select Configure Inputs C Documents and Settings dbresko My DocumentsMest mlcon Configure Inputs Configure Outputs
58. provides decoupled 34560 Hz sea cable telemetry signal to a bandpass filter C9 L1 and C11 L2 Transistor pair Q2 and Q3 applies gain while and produce additional filtering is a gain stage and Q7 Q8 convert the signal to 5 volt logic level Shift register U3 and X OR U2C provide the DPSK decoding function U1 its associated counter circuits provide the bit clock with Bessel filter U4 and associated components extracting the NRZ data stream Comparitor US converts NRZ signal to full logic level The receiver microcontroller U7 converts the CTD data into frequencies and voltages and transmits the converted data 24 scans per second to the main digital PCB for further processing The NRZ data stream is fed to U13 where it is encoded to DPSK format for use by analog tape recorders The modem circuitry drawing 33420 utilizes a Motorola MC145443 300 Baud FSK single chip modem Transmit frequencies are 2025 and 2225 Hz receive frequencies are 1070 and 1270 Hz Transformer T2 on the Receiver PCB couples the modem to the sea cable U9 U10 and U11 provide filtering for the received signal U7 and U8 act as a buffer and line driver for the transmitted signal Ul is an RS 232 to TTL level converter US is a micro controller that accepts input from the pushbuttons on the front panel and listens to the traffic on the modem channel 05 sends commands to the water sampler interface and lights the Home Arm and Fire LEDs
59. shipped the Deck Unit address is set to 1 which is the required address for Seasave This is also the default address used by the National Instruments GPIB PC2A interface as supplied for use in PC XT AT computers If your interface requires a different address use GPIB N to change the address Cause Solution 2 If non Sea Bird software is being used verify that the IEEE 488 device is sending the correct commands to the Deck Unit For example GI must be used to begin transferring data to the IEEE 488 interface Cause Solution 3 Verify that the ribbon connector JP3 Digital PCB is properly mated Cause Solution 4 Check the circuitry associated with U18 68 75 Manual revision 014 Section 14 Troubleshooting SBE 11plus V2 Problem 8 Tape Recorder Interface Not Working Cause Solution 1 The Deck Unit front panel Signal Source switch may be in the incorrect position When recording place the switch in the Fish position When playing previously recorded data back place the switch in the Tape position Cause Solution 2 Verify that the recording level is set properly approximately 0 db Cause Solution 3 An incompatible tape type or settings may be used Use Type II magnetic tape is possible Verify that the tape recorder bias level and compensation adjustments are as required for the type of tape used Cause Solution 4 Output to the tape recorder is an 8640 baud DPSK encoded NRZ wave form Verify that this signal app
60. up output of selected raw data frequencies and or voltages and or converted data engineering units to a shared file on your computer e Mark Variables define variables to be written to a file each time the user marks a scan in Seasave during data acquisition TCP IP Out enable and set up output of raw and or converted engineering units data to TCP IP ports e TCP IP Ports define ports for communication with Seasave and for publishing data to remote clients SBE 11plus Alarms enable and set up Deck Unit s pressure and or Notes altimeter alarm The Dees dass mot e SBE 14 Remote Display enable and set up data output to an SBE 14 require any setupfor a bottom Remote Display and set up SBE 14 pressure altimeter and or contact switch integrated with bottom contact switch alarms SBE 14 connected to the 9plus SBE 14 Remote Display does not computer COM port apply to an SBE 14 connected e Alarms enable and set up pressure altimeter and or bottom directly to the Deck Unit s Remote contact switch alarms in the computer running Seasave Out connector which is the typical e Header Form create a customized header written to the data file usage See Section 8 Setting Up e Diagnostics enable and set up diagnostic outputs to assist in Remote Output for setup for the typical usage troubleshooting if you encounter difficulty running the software
61. warranted only to the limit of the warranties provided by their original manufacturers typically 1 year example fluorometers transmissometers PAR optical backscatter sensors altimeters etc 4 Water sample bottles manufactured by other companies and PVC plastic bottle parts used to make Sea Bird Improved Sample Bottles are warranted only to the limit of the warranties provided by their original manufacturers typically one year The mounting bracket except stainless steel band clamp used in Sea Bird Improved Sample Bottles is covered for 5 years 5 Batteries zinc anodes anti foulant devices or other consumable expendable items are not covered under this warranty 6 Electrical cables dummy plugs and stainless steel band clamps are warranted to function properly and be free of defects in materials and workmanship for 1 year 7 This warranty is void if in our opinion the instrument has been damaged by accident mishandled altered improperly serviced or repaired by the customer where such treatment has affected its performance or reliability In the event of such misuse abuse by the customer costs for repairs plus two way freight costs will be borne by the customer Instruments found defective should be returned to the factory carefully packed as the customer will be responsible for freight damage 8 Incidental or consequential damages or costs incurred as a result of product malfunction are not the responsibility of SEA BIRD
62. winch and weight of the payload to be lifted The winch should have a level wind 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 Deck Unit Detachable rack mount ears are provided for mounting the Deck Unit to standard 19 inch electronics bays Ensure that the back of the Deck Unit specifically the cooling fan and its vent is not obstructed 15 Manual revision 014 Section 3 Mounting and Wiring System SBE 11plus V2 Wiring
63. with PROG11V2 Converted data output can be any combination of temperature conductivity pressure depth salinity sound velocity and altimeter height in engineering units A limited set of these parameters can be displayed on an SBE 14 Remote Depth Readout or SBE 46 LCD Display Box A separate CDO microcontroller in the Deck Unit with calibration coefficients stored in EEPROM converts the raw CTD data to the desired parameters Logic is provided to sound an alarm in the remote device SBE 14 or 46 or some other device based on pressure altimeter height and or bottom contact CDO data is automatically output when the Deck Unit is powered on or reset Output is halted when a line containing a carriage return and line feed in SEATERM press the Enter key is received by the CDO microcontroller Calibration Coefficients and PROG11V2 The Deck Unit s Remote Output interface requires the instrument calibration coefficients to output data in engineering units decibars etc The calibration coefficients are transferred by the user from the instrument configuration con file to the Deck Unit using PROGI1V2 exe which is available on the CD ROM that shipped with your instrument Proceed as follows 1 Copy PROGIIV2 exe from the CD ROM to your computer 2 Run PROGIIV2 exe 3 Atthe prompts enter the Com port and baud rate for communication between the Remote Output interface and the computer 4 Atthe prompt enter the
64. 0 PD and QCP 2200 PD underwater PAR sensors Our SEASOFT V2 software fully supports the acquisition and display of the data from these surface reference PAR sensors and the corresponding underwater PAR sensor 1 SBE 11plus CONFIGURATION A Configure as follows to add the surface PAR voltage to the CTD data stream increasing the number of words in the system by 1 SBE Set DIP switch S3 position 8 to OFF The surface PAR voltage will be displayed at thumbwheel position B or position 11 if your Deck Unit thumbwheel is labeled 0 15 SBE V2 Refer to the SBE manual V2 to send the appropriate commands The surface PAR voltage will be displayed on the Deck Unit LED when the thumbwheel is set to position 9 B Plug the cable connected to the surface PAR sensor into the 4 pin MS connector labeled Surface PAR on the back of the Deck Unit A spare 4 pin MS style connector MS3106A 14S 2P was supplied if a cable was not provided The surface PAR bulkhead connector on the back panel of the SBE 11 is an MS3102A14S 2S Deck Function Surface PAR Sensor with Unit Switchcraft Connector PinA Signal ground Pin3 Pin B Power 12 volts Pin4 Power ground Deck Units with Digital PCB Assembly 40937c or PinC Pin 1 greater use Pin previous versions do not use Pin Pin D Signal Pin 2 Pin 5 Note Biospherical sold the Surface PAR sensor with othe
65. 01 98 Add photos Update circuitry 003 02 00 Digital firmware 5 1b addition of NMEABaud command Correct information regarding positions E and F in Data Word Front Panel Display 004 09 00 Correct pressure alarm description Update front panel display descriptions switch and light colors changed for water sampler control Update thumbwheel descriptions current thumbwheels 0 15 old thumbwheels 0 9 and A F 005 02 02 Rewrite 006 05 03 Digital firmware 5 1 Add new commands AutoRun and AddNMEA Add more description of serial data uplink Update NMEA simulation program description for new Windows software Correct power specification from 50 400 to 50 60 Hz Add information on not editing dat file with a text editor Correct NMEA wiring Correct information on appending of NMEA data NMEA data appended to end of scan for IEEE only for RS232 NMEA data output on line by itself once second Add information that GO 1015 fires sequentially only Update Surface PAR wiring information Biospherical has used 3 different connectors in past resulting in 3 different cable drawings 32704 31475 32434 Most recent version uses 12345 pins instead of abcd 007 02 04 Update references to Rosette Summary to Bottle Summary corresponding to change in SBE Data Processing Add information on Firing Bottles from Deck unit Front Panel note that must have Modem channel hooked up to PC in
66. 0214 8 32 NUT 4 EA 23075 TRANSFORMER MOUNT PLATE ae NE ESSE SE 30287 48 X 1 2 SPACER 2 EA 30156 8 32 1 2 FH 4 EAD 15276 RESISTOR 30524 BRACKET 23076 CAPACITOR CLAMP 2 EA 15273 RESISTOR 30161 2 EA 30152 SCREW 4 EA 30523 BRACKET 8 32X7 8 PH 14114 CAPACITOR 4700pF 23074 30157 4 gt SEACABLE SUPPLY 8 32X1 2 MOUNT RAIL EAD i 30137 4 6 32X1 4 13066 DIODE BRIDGE 30176 10 24 3 4 PH 30170 4 EAD 30361 10 24 NUT 10 32X1 2 FH 14044 CAPACITOR 23238 e EAD MOUNT RAIL 40937G DIGITAL BOARD V2 417044 30146 EAD RECEIVER MODEM BOARD 6 32X1 2 30362 2 EAD POWER SUPPLY 6 32 NUT 22002 POWER SUPPLY 17550 CABLE 30137 6 32X1 4 30123 4 EAD 4 40 1 4 30128 4 30123 8 EAD 4 40X1 8 FH 4 40 1 4 d gt TUP VIEW 6 30147 4 EAD 6 3exi e OVAL VIEW SBE 11Plus CTD Deck Unit Chassis assembly 41726 SBE P N Quant Description P N Quant Description Desaiption Location Case Assembly Power Supply Assembly 23238 Deck Unit Internal Support Bar 20264F Connects to case side pieces 22002 1 Pwr Sply Power One HTAA 16W A Secured to case side piece 30016 Deck Unit Case TDJ B 525 15 1700H Blue Case assembly 8 pieces 30137 1 Mach Screw 6 32 x 1 4 SS Secures power supply to internal support rail 30128 Mach Screw 4 40 x
67. 0402 90504 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 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 Name John Backes Title of Signatory Vice President Date 27 January 2010 Place Bellevue WA SYSTEM CONFIGURATION 18 May 2011 SBE 11plus CTD Deck Unit S N 11P5745 0244 AC Supply Voltage 115 230 VAC 50 400 Hz Sea Cable Voltage 250 VDC Receiver Board Microcontroller Version 2 1 Remote Output EPROM Version 1 0 Primary Conductivity Advance Factory Setting 0 073 seconds Secondary Conductivity Advance Factory Setting 0 073 seconds Bottom Contact Alarm installed Surface PAR Interface and Connector Installed NMEA 0183 GPS Navigation Interface Installed Remote Output Interfa
68. 1 2 FH SS Secures support rails to case side pieces 30146 2 Mach Screw 6 32 x 1 2 FH SS Secures power supply to case side piece 30144 Mach Screw 6 32 x 7 16 Truss HD Connects top and bottom covers to case brackets 30362 2 Nut 6 32 Nylon Stop SS Used with power supply screws to case side 30147 Mach Screw 6 32 x 1 2 Oval HD SS Connects case rails to case brackets Digital PCB Assembly Sea cable Supply Assembly 30123 4 Mach Screw 4 40 x 1 4 PH SS Secures Digital board to support rails 13066 Diode Bridge IR 100JB10L Secure to bottom of transformer plate 40937a 1 SBE 11plus Digital board V2 Dwg 40937a Electronic PCB 14044 Cap 800 uf 450v Al Elect CGS801T450V4L Mount in clamps Receiver Modem PCB Assembly 14114 Cap 4700 pf Roderstein WKO472MCPEJOK Attached to diode bridge 17550 1 Cable Ansley 10 Pin 10 Pin 9 Connects Receiver Modem board to Digital board 15273 Res 4 Ohm 50 Watt Ohmite L50J4KO Mount to deck supply rail 30123 8 Mach Screw 4 40 x 1 4 PH SS Secures Receiver Modem electronic PCB to support rails 15276 Res 15 Ohm 12 Watt L12J15R Mount to deck supply rail 41704a 1 SBE 11 Receiver Modem board Dwg 41704a Electronic PCB 20021 Transformer HPDS Signal 241 8 120 Mount on Transformer plate 20067 Transformer Signal 241 8 2640 DP241 8 315 Mount on Transformer plate 23074 Hi Pwr Deck Sply Rail Dwg 20086 Connects to case side pieces 23075 Hi Pwr Deck Sply Plate Dwg 20087 Secured to deck supply rail 23076 Hi
69. 11 Interface SEATERM does not echo commands as you type them Verify that a command was interpreted correctly by sending status DS command to check appropriate parameter s Notes e If NMEA position data added is selected in the CTD configuration file but the Deck Unit is not connected to a NMEA navigation device Seasave will give you an error message when you try to start data acquisition NMEA position data added is selected in the CTD configuration file Seasave also automatically sends NSR or NSI at the beginning of the cast and places the NMEA data in the output file header Commands Sent by User with SEATERM The following commands are transmitted by the user to the Deck Unit s SBE 11 Interface using SEATERM Baud Rate Command NMEABaud x x baud rate for communication between Deck Unit and NMEA navigation device 4800 or 9600 Diagnostic Commands These commands can be used for diagnostic purposes in SEATERM to display navigation data to verify that the NMEA navigation device and the interface in the Deck Unit are functioning properly Hex latitude longitude data from the NMEA navigation device is converted to ASCII text Format is 47 37 51 N LON 122 09 41 W If NMEA message RMC is decoded date and time display on next line with this format DDMMYY HHMMSS NSR Output Lat Lon ASCII data over the RS 232 SBE 11 Interface to computer One scan of NMEA data appears in SE
70. 11 Remote Out Computer COM port baud rate data bits and parity for communication between computer and Remote Output interface Mode Data Bits dandus Header infomation lt PS 232 Full Duplex For communication between computer and Remote Output interface all Duplex M th Modem R5485ID til ton Odd None Aulonslically ael 1D Make the selections in the Configuration Options dialog box to correspond to the information on the Deck Unit Configuration Sheet Click OK to save the settings 5 Turn on power to the Deck Unit Send commands as desired See Section 5 Setting Up System Section 8 Setting Up Remote Output Section 9 Setting Up Water Sampler and Section 10 Setting Up RS 232 Serial Data Uplink for details 21 28 Manual revision 014 Section 4 Installing and Using Sea Bird Software SBE 11plus V2 Using Seasave Notes See Seasave V7 s help files for Seasave provides real time data acquisition and display of data as well as detailed information control of bottle firing for a system with a water sampler When used with the Older Seasave versions lt 6 0 SBE V2 Deck Unit Seasave can save the real time data to a hex file saved CTD data coming from the on the computer Deck Unit as a dat file instead of a hex file
71. 11111111 R23 R25 R26 0000 BH E R4 US a a 11111111 11111111 00000 102100 TOP LAYER RTV Y2 DOWN DWG NO RTV Y1 DOWN sH 2 0F2 40937 RESET CRYSTALENE 11x17 ENGINEERS STANDARD FORM 4 STAKED TERMINALS 4 nDSP 3733 a SEABIRD D di INC SBE DECK UNIT FRONT m LEDS MADE IN U S A 116 d e SSG OR 0022 09 2060062 2 0020 1 090602029 206006000 906069000 ocoeco 000006 oectcooo COMPONENT SDE 6590060 0009000 60000060 00600 DECIMAL TOWARDS THis END ALL LEDS SLB mow E PRINTED ON 15 04 43 20 JAN 1999 PART NUMBER DESCRIPTION
72. 2 altimeter scale factor 5 00 latitude to use for depth calculation 30 0 output format press depth temp sal followed by lines of data if power was just turned on See CDO Commands Entered with SEATERM below for a description of each output line from the status command If the system does not respond as described Verify the correct instrument interface SBE 11 Remote Out was selected in the Configure menu and the settings were entered correctly in the Configuration Options dialog box Note that the baud rate is documented on the Configuration Sheet e Check cabling between the computer and Deck Unit To stop the Deck Unit from sending the remote output hit the Enter key SEATERM responds with the S gt prompt indicating it is ready for a command Send commands to modify the CDO setup as desired See CDO Commands Entered with SEATERM below 43 Manual revision 014 Section 8 Setting Up Remote Output SBE 11plus V2 Not CDO Commands Entered with SEATERM otes e S prompt indicates Deck Unit The following status and setup commands are transmitted by the user to the is connected to computer and Deck Unit s Remote Output Interface using SEATERM ready for a command Commands can be entered in upper or lower case Status Command Verify that a command was interpreted correctly by sending DS Display setup parameters status DS command to check appropriate parameter s List below includes where applicab
73. 31 NMEA Interface Commands 32 Commands Sent by User with esee 32 Commands Sent Automatically by 32 Setting Up NMEA in SEATERM 33 Setting Up and Testing NMEA in 34 Troubleshooting NMEA Interface 35 Problem 1 VMEA LED Not Flashing or VMEA LED Flashing but Lat Lon Data Not 35 NMEA Message Simulation 35 NMEA Navigation Device Message and Data 37 Message Formats aue ade er i re see 37 Data 38 Section 7 Setting Up Surface eeeeeeeeeee eren ee eren ee 39 Surface PAR Commands 39 10 Manual revision 014 Table of Contents SBE 11plus V2 Setting Up Surface PAR and Adjusting for Drift in SEATERM 39 Setting Up CTD Configuration xmlcon or con File in Seasave 40 Surface PAR Data Format 40 Section 8 Setting Up Remote Output eee 41 Pressure Frequency and Pressure 2 41 Pressure Frequency and Pressure Temperature Commands 41 Pressure Frequency and Pressure Temperature
74. 3D686KP CAP 180 uf 6V TANT 5500187 9006 2 CAP 68 pf 200 CER SR212A680JAA CAP 033 uf SOV CER CKOSBX333K X7R CAP 1 uf 35V DIPPED TANT 350 105 035 5 4 7 uf 25V DIPPED TANT 350 475 025 5 4700 pf SR211A472JAA AVX CAP 16uF 100V 5 METLZD POLYCRBNTE 32MPC CAP O22uf SOV 2 POLYPROPYLENE ECQ P1H223GZ CAP 1 uf SOV 2 POLYPROPYLENE ECQ P1H104GZ CAP 1 uf 100V DC FILM MKT1813410015 RES 80 6 OHM 1 1 4 M RES 150 OHM 1 1 4 W RES 200 OHM 1 1 4 301 OHM 1 1 4 W 1K OHM 1 174 W 2 OHM 1 1 4 W PACKAGE PDIP 16 PDIP 14 PDIP 16 PDIP 14 PDIP 14 PDIP 14 PDIP 16 PDIP 16 PDIP 16 DIP 40 PDIP 8 PDIP 20 PLCC 44 PDIP 16 8 PIN CAN Q 8 DIP P DIP 8 SUIC 8 N 8 PDIP 14 U14 U7 U9 U16 U1 U4 US U17 U15 019 020 D3 DS D4 06 07 18 19 D10 111 Q9 Q6 Q1 02 03 04 05 D1 De C16 C31 C67 C68 C10 C20 7 C13 C6 C7 C8 C19 Cel C38 Cie C17 C18 Cee Ce5 C30 C33 C35 C36 C37 C39 C42 C43 C44 C45 C47 C48 C49 C51 C69 C70 C75 C76 C78 C79 C81 C85 C24 C29 C2 C3 C4 C83 C84 C1 C82 C41 C15 C53 C71 C72 C73 C74 C14 C54 C55 C57 C58 C60 C61 C63 C64 C80 CS C9 C11 C50 R6 Re R43 R7 R9 R11 R16 ReO R8 R71 15076 15082 15087 15090 15093 15095 15097 15098 15100 15104 15107 15108 15113 15115 15129 15163 15165 15167 15169 15171 15172 15181 15183 15199 15254 1525
75. 5 82 Manual revision 014 Appendix Il Commands Sent Automatically by Seasave SBE 11plus V2 Note If using Seasave suppression of data words and inclusion of data is entered in the configuration xmlcon or con file The Deck Unit sends the appropriate Xn and Nx commands based on the settings in the configuration file Suppress Data Word Command Xn n suppressed word number hexadecimal Channels can be deleted from data stream transferred to computer with Xn For frequency channels a word contains 1 channel for A D channels a word contains 2 channels Command is useful in reducing scan size reducing space required to store data NMEA Command Nx x Y Add Lat Lon data to CTD data x N Do not Start Collecting Data Command Gx x I or Signals Deck Unit to begin putting data into its output buffers at a rate determined by how many scans are averaged x I Put data into IEEE 488 buffer x R Put data into RS 232C buffer x B Put data into both buffers User s computer obtains this data by exercising appropriate bus protocol Stop Placing Data into Buffers Command 5 76 Deck Unit stops putting data into buffers Send S when ready to stop sampling 83 Manual revision 014 Appendix Functional Description and Circuit SBE 11plus V2 Appendix Functional Description and Circuitry Deck Unit Data Interfaces The Deck Unit has bot
76. 56 C58 4700pF 4700pF C55 4700pF 4700pF 14077 4 14077 1 i R 1 4700pF 14077 14077 28 7 14077 1 R62 15104 4 7 11 RG 1 29 4K 28 7K R60 R61 15269 28 7K R52 15104 R56 29 4K 200K 9 N R47 15104 R51 29 4K 200K 15269 15129 8 R46 29 4K 200K 15269 15129 10 15 6 151 8 15129 4 10 SEA BIRD ELECTRONICS INC Lo e 5 12213 c63 12213 12213 LT1639 ceo 4700pF Tie a Nro 4700 14077 SBE 11 COMBINED MODEM BOARD 14077 Size Document Number Rev 33420 A Date Tuesday April 21 2009 Sheet 4 of 106 U24D 5V 5V 74 04 R81 9 9 11030 560 9 516 R70 U24E AA 4 99K 74HCO4 R80 U21 11030 560 15082 MAX700 11 15168 R72 11114 75K 11 924 15113 21 2 7 74HCO4 R79 SNS CTL 1 RASA 8MHz 11030 560 4 RST 5 18005 3 4 516 Ri GND RST TE 2 0K 74HC04 R78 15068 5V 5V 70 11030 560 05 0 1uF 5 516 14025 AWA 4 4 77 5V 0 1 SOCKET 40 ile 14025 C67 C68 17566 022 R82 1 33
77. 7 15269 15292 17020 171095 171103 171108 17123 17155 17528 17530 17566 17620 17647 17668 17967 18005 18016 18018 18033 19002 19026 20061 20066 20071 20072 20073 RES 3 OHM 1 1 4 M RES RNSSC4991F 4 99 DHM 1 1 4W RES RNSSC100eF 10K 1 1 4 DALE RES 11 5K OHM 1 1 4 M RES 14K 1 1 4M RNSSC140eF RES 16 5K OHM 1 1 4 M RES 20K OHM 1 1 4 W RES 22 6K OHM 1 1 4 M RES 24 9K OHM 1 1 4W DALE RNSSC249eF RES 28 7K OHM 1 1 4 M RES RNSSC402eeF 40 2K OHM 1 1 4W DALE RES RNSSC464eF 46 4K DHM 1 1 4W RES 75K OHM 1 1 4 W RES 80 6K OHM 1 1 74 W RES 200K OHM 1 1 4 M RES 560 OHM 57 1 4 W RES OHM 5 1 4 W RES OHM 57 1 4 M RES 3 OHM 57 1 4 M RES 6 8K OHM 57 1 4 M RES 10K OHM 5 1 4 W RES 47K OHM 57 1 4 RES 100K OHM SX 1 4 M RES RNSSC4530F 453 OHM 1 1 4W DALE RES RNSSC392eF 39 2K DHM 1 1 4W RES 20 OHM 3 WATT 5 23J20R RES RNSSC294eF 29 4K DHM 1 1 4W RES NET 10K X 4 SIP 5 08 031036 CONN 10 PIN ANSLEY 609 1027ES HEADER 3 PIN SAMTEC TSW 103 07 L S HEADER 2 PIN SAMTEC TSW 102 07 L S CONN 14 PIN ANSLEY 609 1427ES HEADER 4 PIN RIGHT ANGLE MOLEX 22 12 2044 HEADER 2 PIN R lt MOLEX 22 12 2024 RA HEADER 2 PIN MOLEX 26 48 2026 HEADER 3 PIN RIGHT ANGLE MOLEX 22 12 2034 SOCKET 40 PIN LO PRO AUGAT 940 4G11DES TERMINAL 1
78. 800 kkk 40 17022 17072 20005 21021 SBEllplus DECK UNIT LED ASSY DWG 40424C CABLE LED ANSLEY A 05429 TERMINAL PCB 1 16 CONCORD 12 206 2 01 LED 8 SEGMENT HDS E103 PCB LED DISPLAY CTD DECK UNIT DWG 10063A h C ror pene rien ET M CAG OF TOAD B 221 on super 216 SRFC ITM REF DESIG MNT NBR 1 0000 1 7 0000 1 7 8 0000 71 08 1 0000 SEA BIRD ELECTRONICS INC XX 02 XXX 010 FRACTIONAL ANGULAR SCALE DRAW BY 3 2 APPROVED BY TIME DECK LED BOARD DATE REV DRAWING NUMBER 40424 RMG 2FS W LOCKING SLEEVE 2 P1 PN DWG 30579 80591 7028 80620 50 7605 80813 20 7860 80903 150 7942 80915 33 7963 801039 10 F 17305 801414 13 F 71767 801488 120 171911 801537 66 72010 801578 50 72073 80163 100 72162 801818 100 72465 DATE SYM REV SION RECORD AUTH DR 55106 125 5 DIM G FLS P CLAMP 53057 4 SBE P N 17316 O CABLE TYPE 18 2 50 WIRING CONNECTIONS
79. 9020 2 47uf TANT 20V 10 995D476X9080DeT CAP luF SOV 10 X7R NMCO805X7R104KSOTRPLP CAP Oluf X7R SOV 107 08055C103KATMA 8 100V O Spf 08051A8R2DATMA CAP 100V 10 08051 220 SRFC CAP 1 uf 20V 293D105xX9020AeT TANT SRFC CAP 4700 pf AVX 18121A472KATMA CER RES 10K 1 SRFC MNT RK73H2B 10K MKG U7 U27 005 U24 026 U4 U13 US U3 U11 U10 U15 U18 Uee 02 06 016 021 1501 U19 020 D1 De Qe 01 D4 014 015 016 D D7 28 09 010 011 Die 013 C36 C35 C41 C39 C44 C45 C48 C1 Ce C3 C4 C11 C12 C16 C17 C18 C23 C24 Ces C29 C30 C37 C38 C42 C47 50 C93 C54 Cee CS C6 C9 C10 Cel C33 C34 C51 C52 R35 R36 15289 15311 15312 15326 15328 15336 15365 15370 15387 15388 15389 16010 17019 17020 17053 17055 17064 17066 17620 17647 17649 17967 18002 18028 18033 18036 P40937D RES 562 DHM 1 SRFC MNT RK73H2B 562 RES 100K 1 SRFC MNT RK73H2B 100K RES 1M 1 1206 PKG RK73H2BLTD1004F SRFC MNT RES 4 7K OHM 5 SRFC MNT 1206 RES 47K OHM 5 1206 SRFC MNT RES 3 01K DHM 1 SRFC MNT 1206 PKG RES 249K OHM 1 SRFC MNT RES 10 OHM 1 1206 SRFC MNT RES 953K OHM 1 SRFC MNT 1206 RES 330 5 SRFC MNT 1206 RES 69 8 OHM 17 SRFC MNT 1206 PDT 10K OHM TOP ADJ BOURNS 3296W 1 103 CONN 26 PIN ANSLE
80. A Interface is designed to decode Notes messages that are output from navigation devices supporting NMEA 0183 To save the NMEA data with the protocol The Deck Unit automatically decodes GGA GLL RMA RMC and CTD data select NMEA position TRF NMEA messages data added when setting up the CTD fi tion xml file i dn The decoded Latitude and Longitude is appended to the CTD data stream in A NMEA navigation device can be the Deck Unit and passed to the computer for storage and or display with the connected directly to the computer CTD data The NMEA LED on the Deck Unit front panel flashes each time a instead of to the Deck Unit This NMEA message is successfully decoded should flash at the same rate at feature is supported by Seasave V7 which the navigation device is transmitting The Deck Unit appends the same version 7 17 and later see Setting NMEA message multiple times until a new message is decoded Up CTD Configuration xmlcon or con File in Seasave in Section 5 Setting Up System The output from Seasave is the same regardless of whether the NMEA data was to the computer appended in the Deck Unit or in the computer See NMEA Navigation If the Deck Unit is communicating with the computer via RS 232 the Device Message and Data Formats navigation data is transmitted by the Deck Unit to the computer only in this section for the required NMEA once per second In Seasave the navigation data is th
81. AL DER octet Id ee m Kem 1 BUFFERING DEMUL TIPLEXER FRONT PANEL OUTPUT I BOTTOM CONTACT ALARM WATER SAMPLEA L DECODER MEMORY SELECT FLOATING POINT PROCESSOR CONTROL 8 STATUS FRONT PANEL LED DRIVEH FRONT PANEL LEDs RS 232 IN OUT CONVERSION GPIB IN OUT IEEE 488 FRONT PANEL LED NUMERIC DISPLAY GPIB GPIB CONTROLL EH TRANCEIVER SEA BIAD ELECTRONICS INC Title SBE 11pius DECK UNIT BLOCK DIAGRAM Size Document Number REV Li ee er M MU d B 31922 ate Ma 13 996 Sheet 1 of 1 DATE SYM REVISION RECORD AUTH DR CK 31282 4 SOLDER LUG 11 10 09 ECN1242 CE REQUIREMENTS 03 04 10 A 1273 CHG
82. ATERM NSI Output Lat Lon ASCII data over IEEE 488 SBE 11 Interface to computer One scan of NMEA data appears in SEATERM Commands Sent Automatically by Seasave The following command NY or NN is sent automatically by Seasave to configure the Deck Unit based on the setting for NMEA position data added in the CTD configuration xmlcon or con file This setting is not stored in the Deck Unit s EEPROM The command remains in effect until the Reset button on the Deck Unit front panel is pushed or a new command is sent Nx x Y Add Lat Lon data to CTD data x N Do not add Lat Lon data to CTD data 32 39 Manual revision 014 Section 6 Setting Up NMEA Interface SBE 11plus V2 Setting Up NMEA in SEATERM Connect the Deck Unit s SBE 11 Interface RS 232 connector to the computer Double click on SeaTerm exe In the Configure menu select the SBE 11 Interface The Configuration Options dialog box appears Set Firmware Version Version 5 0 or greater Comm Port for connection of SBE 11 Interface to computer Baud Rate 19200 Data Bits 8 Parity none Mode RS 232 Click OK to save the settings and exit the dialog box Turn on power to the Deck Unit or if already on send the status DS command The display in SEATERM looks like this SBE llplus V 5 2 number of scans to average 8 pressure baud rate 9600 NMEA baud rate 4800 surface PAR voltage added to scan A D offset 0 GPIB address 1 a a a
83. BE V2 Deck Unit as well as system communications System Description Notes When the 9plus is used with the 11p us V2 Deck Unit the system is often referred to as the 911plus It is possible to use the SEARAM to record 9plus data in memory at the same time as 9plus data is transmitted real time through the Deck Unit This provides a data back up in case there are data transmission problems over the sea cable See the 9p us manual for wiring and deployment details Note The 300 baud modem interface now standard in both the Deck Unit and CTD was optional in Deck Units with serial number 700 and lower and in 9plus CTDs with serial number 785 and lower Note The RS 232 Serial Data Uplink interface is standard on all Deck Units with serial number 637 and higher however the 300 baud modem interface must also be installed in the Deck Unit for the serial data uplink to be operational For older units the interface was included only if the user ordered the Deck Unit with the option The SBE 9plus CTD is used with the SBE 11p us V2 Deck Unit for real time data acquisition or with the SBE 17plus V2 SEARAM for in situ recording This manual covers the use of the 11p us V2 Deck Unit with the 9plus The rack mountable Deck Unit supplies DC power to the CTD decodes the serial data stream and passes the data to a computer IEEE 488 or RS 232 format The Deck Unit s back panel switch pe
84. DO P2 1 A13 22 MAXTOD 14 P3 2 INTO P2 2 A14 26 gt INTO A 134 P3 3 INT1 P2 3 A15 27 16 P3 4 T0 P2 4 A16 28 14 P3 5 T1 BUSW P2 5 A17 38 18 P3 6 WR P2 6 A18 39 m 3 P3 7 RD s g P2 7 A19 H 3 C36 RI u9 0 1U d 1 2 os cnl 14025 075 14025 16 vcc ci 3 C35 6 y Cot 44 PIN 0 10 c2 17967 14025 x 12 R10UT 3 NRZ DATA gt R20UT R2IN FR 14025 11 14 T1OUT 719200 OUT LTC1383 1180 5V 3 2 5 5V gt 14025 3 gt 14058 010 68pF R33 hd 3 31776 MHZ 1 6 8K c39 18016 4 _ oiur 15171 14025 gt Bro U13B U13A 29 11 10K USE gt OUT 14 oHe 25098 ii 15172 o 020 NUN 1 10592 MHz lt 4 SQ 12 41 eo SK 29 R35 q Cus q 2 11019 0 0147 1K a mos Oo O 14019 E 5 74HC4538 74HC109 74HC109 11094 11035 11035 5V 3 t 012 U11B 91 L 2 4 cL RST 58 6 0 1uF FS 14025 Q5 I vcc 096 2 97 Hi 1 5 4 a Q8 J6 d 3 gene 3 MSS 8 Q9 JUMPER3S T G 010 171095 C40 15 SEA BIRD ELECTRONICS INC 1 4 0 1uF 912 H x 1 2 FOR 8640 BPS UPLINK paris 3 2 FOR 17280 BPS UPLINK 74HC4040 SBE 11 COMBINED MODEM BOARD 11008 Document Number Rev B 33420 A Date Tuesday April 21 2009 Sheet 3 f 5 105
85. Data Format 41 Converted Data Output enne 42 Calibration Coefficients and 11 2 42 Configuring i ese etie dere 43 CDO Commands Entered with eee 44 Converted Data Output Data 48 Section 9 Setting Up Water Sampler 240 0 4 01 144 49 Setting Deck Unit Receiver Modem PCB Dip 49 Setting Up Water Sampler in Seasave sse 50 Section 10 Setting Up RS 232 Serial Data Uplink 52 Serial Data Output Instrument Requirements 52 SBE 9plus CTD 53 SBE V2 Deck Unit 53 System 53 Theory of sss eren eene enne nennen 54 Section 11 Operating System eere 55 Acquiring Real Time Data and Firing Bottles from 55 Firing Bottles from Deck Unit Front 57 SBE 32 Carousel e coated 57 GO 1015 Rosette eerte ertet titre eret 57 3 02 1016 Rosette cocti terret the 57 Processing ee s S ee e ec tim be ete IE 58 Section 12 Data Formats eee
86. File menu select Exit 58 Manual revision 014 Section 12 Data Formats 65 SBE V2 Section 12 Data Formats Note The CTD s output format differs from the Deck Unit s in several respects e The Deck Unit changes the order of the output The Deck Unit automatically strips CTD bytes 31 36 unused and marker bytes from the data e The Deck Unit inserts Surface PAR and NMEA data if applicable See the SBE 9plus manual for details on the CTD output format Note The notation on the switches may be either of the following e 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 0 1 2 3 4 5 6 7 8 9 F A through F are equivalent to 10 through 15 respectively Thumbwheel settings described in this manual will use the 0 15 notation with the other notation in brackets for example set the switch to 11 This section discusses the data output format On the Deck Unit s LED display and From the Deck Unit s SBE 11 Interface RS 232 and IEE 488 output ports For output formats from the Deck Unit s Remote Out and Serial Data Uplink connectors see Section 8 Setting Up Remote Output and Section 10 Setting Up RS 232 Serial Data Uplink respectively For applications that do not require all five frequency channels all eight A D channels Surface PAR and NMEA unused channels can be suppressed by making the appropriate selection in the configuration xmlcon or
87. IG A SURFACE 2 41520 ens 5 4 D 17416 FIRE ARRIER DIGITAL BOARD V2 ORG 24 RS 232 P N 409376 JP6 BLK 24 DB 9S ASSY 40937G RS 232 GRN 24 17096 SCHEM 32127G 17007 PCB 10210E 17065 4 Q RECORD JP3 3 9600 BPS TAPE 1 0 80635 RS 232 GRN 24 2 DB 9S 3 ORG 24 5 7 17096 17007 17054 Q Ce Ce PLAYBACK 80635 RESET 17550 4 WHT 24 56 BLU 2 BACK PANEL WHr 24 19007 19012 FISH TAPE 17054 2 E Qe gt Qo SEA BIRD ELECTRONICS INC Fe 55 20 52 E e YEL 24 FRONT PANEL ASSY 40853 Oc OF 1 wot 24 1 AP BACK PANEL ASSY 41725 6 19006 NUMERIC DISPLAY 2 WHT 24 4 19008 19011 YEL 24 CHASSIS ASSY 41726 SCHEMATIC 30146 B WHT 24 Title ASSEMBLY 40424C C o WHT 24 CHERRY SBE 11plus V2 DECK UNIT CHASSIS WIRING P N 80040 1 ALL WIRE 20 TEFLON COATED T65 13A1 UNLESS OTHERWISE SPECIFIED Size Document Number Rev FRONT PANEL B 33440 A 2 TWIST ALL WIRE PAIRS Date Thursday March 04 2010 Sheet 1 of 1 20003 LED YEL 30386 HOLDER 5 20002 LED GRN 30386 HOLDER 4 80040 LED ASSEMBLY 30386 20004 LED RED 30386 HOLDER 22297 E 2 20002 LED GRN 4 30386 HOLDER 31212 MOUNT NUT 8 EAD 17054 2 PIN MOLEX gt 30001 BEZEL 19006 UNDERWATER UN
88. IP Ports Miscellaneous Pump Control Water sampler type SBE Carousel v 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 in position 1 fired first bottle in position Number of Water Bottles fa 2 fired second etc User Input When commanded to fire Firing sequence Sequential Seasave prompts you to select which bottle to fire Enable remote fing Control bottle firing from a remote computer through TCP IP Table Driven When commanded to fire ports instead of as defined by Firing Sequence Select ports bottles are fired in order pre defined by on TCP IP Ports tab See Seasave manual or Help for details 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 depths can also fire some bottles manually on upcast Click Auto Fire Pressures amp Positions to input parameters see discussion ARC intemal speaker below Note Auto Fire on downcast is Set up and test tone emitted by computer running Seasave when each bottle available with use of autofireondowncast fire confirmation is received Tone is provided through command line parameter e PC s internal speaker e PC s sound card
89. ITED WARRANTY ON SERVICE amp REPAIRS Service work repairs replacement parts and modifications are warranted to be free of defects in materials or workmanship for the remainder of the original 5 year warranty or one year from the date of shipment from our factory after repair or service which ever is longer Certain products and components have modified coverage under this warranty as described below MODIFICATIONS EXCEPTIONS EXCLUSIONS 1 The SBE 43 DO sensor is warranted to function properly for 5 years Under normal use however the electrolyte in an SBE 43 DO sensor will require replenishment after about 3 years or longer depending on conditions of use Anytime during the warranty period typically after 3 years the SBE 43 will be refurbished once without charge Return the sensor freight pre paid to our factory We will refurbish it for free electrolyte refill membrane replacement and recalibration and pay the cost of shipping it back to you Membrane damage or depletion of electrolyte caused by membrane damage is not covered by this warranty 2 The pH sensor electrode used in the SBE 18 pH sensor and SBE 27 pH ORP sensor has a limited design life caused by depletion of their chemical constituents during normal storage and use and is covered under warranty for the first 90 days only Other components of the sensor housing electronics etc are covered for 5 years 3 Instruments or sensors manufactured by other companies are
90. N4154 15181 14230 15047 13003 58 13002 Q4 R14 525 15068 1K 13038 15172 15056 C18 12V 0 0 1uF 14025 12 2 1 FOR 8640 BPS UPLINK DPSK CARRIER 3 2 FOR 17280 BPS UPLINK 5 C29 Ji 1000pF 12V 0O 622 8 JUMPER3S 14034 0 1UF c79 171095 C28 14025 0 1uF 1 2 FOR 8640 BPS UPLINK O 1uF 14025 D_OUT 2 3 FOR 17280 BPS UPLINK R29 14025 PAD100SMT R30 80 6K 1 o2 24 9K r o K 15115 15100 U3B U3A R24 w E 5 93 15097 2 47k D Q64 D 9 064 JUMPERS 15181 Q48 H4 4 Q48 2 171095 171095 10 3 l6 Q32 WE Q32 JUMPER3S n Y 7 BESSEL 3436 HZ a gt wrz 016 Hx gt Qie H x 55 3 i CD4517 CD4517 0 192 11025 11025 L 14025 LP311N 45V 11019 14034 12083 1000 24 15100 6 1 C30 L O iuF 5 3 25112025 171035 gt R27 1 2 FOR 17280 BPS UPLINK 1 10592 MHZ i 3 5 R28 39 2K 3 2 FOR 8640 BPS UPLINK o U2A Lio 10K 15254 o 15087 c26 CD4070 470pF 11019 1 2 FOR 17280 BPS UPLINK 14010 SEA BIRD ELECTRONICS INC s yama 2 3 FOR 8640 BPS UPLINK Title SBE 11 COMBINED MODEM BOARD BESSEL Fc 6912 HZ Size Document Number Rev B 33420 A Date Tuesday April 21 2009 Sheet 2 of 5
91. P plus DEC nr amr np WORD DISPLAY WORD SELECT RESET SIGNAL SOURCE POWER E 20083 LED ORG 19007 SWITCH 19008 SWITCH 30386 XHDLDER5 19012 COVER BLU 20083 LED ORG 20002 lt LED GRND 30386 HOLDER 30386 19013 SWITCH 19010 COVER RED 20033 19037 SWITCH 19038 GRN 20002 LED 30386 HOLDER 30143 SCREW 4 19037 lt SWITCH 19039 CUVER YED 20003 LED YEL 30386 HOLDER SBE 11plus CTD Deck Unit Front Panel Assembly 40853 SBE P N uant Description Description Location SBE ee 23397 2 Deck Unit LED Mount dwg 20 secured to deck unit LED assem P N uant Descr pron 7 peer tion Location or molex Connectors 23905C 1 11plus Front Panel w Sono amp Gps 20902 front panel 7 17054 2 Socket 2 Pin Molex 2695 22 01 2027 wire ends of NMEA LED wire ends of tape fish switch 20095 1 MIR WAR T RMIT E N cas id 17067 1 Socket 6 Pin Molex wire ends of LEDs data error transmit receive overflow 30141 4 Mach Screw 6 32 x 3 8 FH SS connects front panel lo ease corner brackets and sid 17071 1 Socket 10 Pin Molex 2695 22 01 2107 wire ends of water sampler switches and LEDs 30143 4 Mach Screw 6 32 x 3 8 Oval H SS connects front Panel to case brackets ET 17426 2 Terminal Ring Lug 6 wire ends from Sonalert alarm 30212 8 4
92. Power Supplies Power for Deck Unit circuitry is supplied by a conventional open frame linear supply Power One Model HTAA 16W A Power One Inc Camarillo California generating 12 and 5 volts from the main AC supply located at the top left front of the chassis Screwdriver adjustment of the output voltage levels is possible but not ordinarily required The Power One supply uses fold back current limiting for complete short circuit protection Detailed specifications and a schematic diagram are included in this manual Sea Cable Supply The Deck Unit uses a linear supply to produce the sea cable voltage 250 volts at 0 25 amperes reference drawing 32233 AC power is input to power transformer T1 primary connections are switched to work on 120 or 240 VAC to generate approximately 275 V RMS for input to a bridge rectifier Motorola 100JB12L The resulting DC voltage is regulated by series inductor L1 and capacitor Mallory CGS801T450V4L 800 uF 450 volts to produce 250 volt output R1 is a bleeder resistor used to stabilize the supply output voltage and ensure supply discharge within a reasonable 15 second interval Output voltage decay time constant is R1 C2 3 2 seconds Receiver Modem PCB The receiver circuitry drawing 33420 is installed components downward on the smaller PCB mounted immediately below the main microprocessor PCB The decoder circuitry is on the same PCB as is tape recorder interface section Transformer T1
93. S 17054 2 PIN M 30148 SCREW 2 30362 NUT 8 20076 SIDE RIAL DATA UPLINK ro ro ro ro ro ro EPN 07 08 e3 54 96 65 096 2 C203 7332 17415 7416 17519 7670 72327 0001 018 048 076 077 204 203 207 CS 7 ZZ R 20 60HZ 1 75A 240 50HZ 1A 250VAC 2A SB C 250 1A SB es CHANXE EA CABI 0 0 5 FB 3 270 17670 MS CONN 30125 SCREW 4 30212 4PL 17065 4 17056 lt 3 30126 SCR 17858 30818 NUT UU E FUSED LINE C 185 EW 4PL 30212 NUT PL 11plus CTD Deck Unit 80635 2PL gt 17065 4 20001 H Back Panel Assembly 41725 Quant Description 3 Conn Jack Post Set Amp 205817 1 Conn Jack Post GPIB Amp 553636 2 1 Cable GPIB Ansley A 05428 19 Pin Gold Molex 2759 08 56 0110
94. SBE 11plus V2 DECK UNIT For use with the SBE 9plus CTD Serial Number 11P5745 0244 User Manual Version 014 Sea Bird Electronics Inc 13431 NE 20th Street Bellevue Washington 98005 USA Tel 425 643 9866 Fax 425 643 9954 This page intentionally left blank SBE DECK UNIT OPERATING AND REPAIR MANUAL TABLE OF CONTENTS Manual Generation Dale 1 Limited Liability State MICU 2 Declarati n of Conformity a 4 5 Manual 11plus Versimi 7 Appnote 11SBiospherical Surface 93 Appnote 68USB POMS 95 96 WY os 124 Service Request o icol 127 SEA BIRD ELECTRONICS INC 13431 NE 20th St Bellevue Washington 98005 USA Phone 425 643 9866 Fax 425 643 9954 Email seabird seabird com Manual Generation Date 13 2011 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 serv
95. SHIELD PIN B PIN 3 PIN C PIN 2 CLAMP SBE P N 17413 REVISION RECORD aum DR CK 5 16 03 FIXED PIN CALLOUTS KLP ppm 55106 145 5 SBE P N 17671 SEA BIRD ELECTRONICS INC ATON SHE 801429 DECIMAL TITLE SBE 11 TEST CABLE ANGULAR DATE DWG REV 32799 121 DATE SYM REVISION RECORD AUTH DR CK 06 00 A Change pin C odd note MJ DIM mu BUSHING 53420 6 55116 8 45 SBE 17414 SBE 17662 CLAMP 97 3057 6 SBE 17413 E 5 MA O 5 CABLE TYPE CONSOLIDATED 1703 OR EQUIV MS3106A 14S 2P SBE 17412 22 NOTE Connect P2 A amp C to P1 A at P1 connector DO NOI JUMPER AT P2 CONNECTOR P1 COLOR P2 DESCRIPTION PART NO A DIM SHIELD WHITE ET GROUND 80665 30 METERS B BLACK B 12V PWR 80666 50 METERS D RED D PAR SIGNAL SRA BIRD ELECTRONICS INC FRACTIONAL SCALE 2 TABLE TERN APPROVED DECIMAL SURFACE PAR SBE 11 CABLE JOBS 7506 amp ET E ANGULAR we NUMBER 21475 DATE SYM REVISION RECORD AUTH DR CK 11 00 A CORRECTED WIRING MJ CB
96. Y 609 2627ES CONN 10 PIN ANSLEY 609 1027 5 HEADER 2 PIN MOLEX 6373 22 11 2022 HEADER 3 PIN MOLEX 6373 22 11 2032 HEADER 4 PIN MOLEX 6373 22 11 2042 HEADER 6 PIN MOLEX 6373 22 11 2062 TERMINAL 1 16 FORKED CONCORD 12 471 2 01 TERMINAL YELLOW TEST POINT TP 105 05 04 TERMINAL GREEN TEST POINT 105 05 05 SOCKET 44 PIN AUGAT PLCC PCS 044A 1 XTAL 4 9152 MHZ FOX 049 SVF 49152 XTAL 5 3 6864MHZ 30 50 0 70 20p f CRYSTAL FOX 11 O592MHZ FOX115 20 XTAL OSC SG 615PH 40MHZ SRFC MNT ASSY SRFC MNT SBEllplus DIGITAL BD 40937D 113 Renson RECORD or 7 14 98 a ecnsss 06 7 13 99 B ECNG32 REV B 02 vB oc 6 14 00 C SPAR DIF ANP OG 5 12 05 UUGUTO vB DO R23 R24 R25 R26 R27 R28 R33 R34 R15 R16 R17 R18 R19 R20 R1 Re R4 R5 R6 R7 R31 R3 R8 R9 R10 R11 R14 Re1 Re9 R30 R37 R38 Ree R12 R13 R32 JP3 JP1 JP8 JP10 4 JPS JP6 JP7 JP2 JP11 5 12 12 T1 T2 T3 T4 GND ALARM ALARM TP2 TP1 G U12S 035 Y1 SEA BIRD ELECTRONICS INC PART 409570 BD SCALE 1 10 BY _ 06 SCHEM 521270 PL SCALE 0 90 APPR BY SBE11plus DIGITAL BOARD V2 DATE DWG NO REV 4 10 98 su 1 oF 2 40937 114 SURFACE E
97. addition to SBE 11 Interface hooked up to PC for Seasave to receive fire confirmation from Carousel and create ros file even though not firing bottles through Seasave 008 05 04 Add information that when 11plus deck unit has its jumpers set for Serial Uplink tape interface section of deck unit will not work Correct jumper settings in 1 1plus for serial data uplink 009 03 05 Update information on modem interface now standard feature instead of option Add information that 17plus can provide data backup while using 9plus with Add information that if user selects Scan time added in con file Seasave adds of seconds since Jan 1 1970 Greenwich mean time to each scan 010 03 07 Incorporate Seasave V7 no more dat files created hex instead update all descriptions of how to setup and use Seasave Correct information on Modem channel PC to Deck Unit bi directional 300 baud not 19200 Correct information on water sampler firing setting bit high 1s only for GO 1015 For GO 1016 and Carousel no bit is set a bl file is created Update schematic that shows bottom contact alarm show bottom contact altimeter and or pressure alarm Correct deck unit dimensions 011 03 08 Seasave Update con file screen capture and discussion of acquiring NMEA data can now select whether NMEA data is appended in Deck Unit or directly by the computer Seasave Update Seasave water sampler tab dialog box
98. am 35 testing 34 troubleshooting 35 NMEATest 9 19 35 Operating system 55 P 17 Parts replacement 82 Power 18 Pressure frequency and temperature 41 Processing data 58 PROGIIV2 42 SBE V 2 91 92 Manual revision 014 Index SBE 11plus V2 R T Real time data acquisition 55 Testing Remote output 17 41 NMEA 34 Replacement parts 82 Troubleshooting 65 Revision history 83 35 Rosette 49 57 Routine maintenance 64 U RS 232 uplink 17 Unpacking SBE V2 7 S Safety symbols 72 V SBE Versions 83 SBE 32 49 57 SBE 46 42 SBE Data Processing 9 19 24 63 W Sea cable 15 16 Seasave 9 19 22 29 32 34 40 50 55 63 75 Water sampler 16 18 49 SEASOFT 9 19 dip switches 49 SEATERM 9 19 20 26 27 32 33 39 41 43 44 73 Winch 15 Serial cata uplink 17 Wiring 16 Serial data output instrument 52 Setup 26 CDO 43 general 26 general commands 27 NMEA 33 serial data output instrument 52 Surface PAR 39 Simulation program 35 Slip ring 15 Software 9 19 installation 19 Specifications 10 Surface PAR 17 39 data format 40 Surface PAR setup 39 System communications 11 System description 8 System operation 55 System setup 26 System wiring 16 86 93 Sea Bird Electronics Inc Phone 425 643 9866
99. anual and or Help files for details on processing data Note The bl file has the same path and file name as the data file For example if the data file is c test1 hex the bl file is c test1 bl Instead of firing bottles from within Seasave you can fire bottles directly from the Deck Unit if desired Bottles fired directly from the Deck Unit are always fired in sequential order regardless of the firing sequence setting you input in Seasave Even though you are firing the bottles from the Deck Unit Seasave still receives a bottle fired confirmation from the water sampler 1f the Deck Unit back panel SBE 11 Interface and Modem Channel are connected to the computer When Seasave receives the confirmation SBE 32 Carousel Water Sampler or 1016 Rosette Seasave 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 e 1015 Rosette The SBE 9plus sets bit in the modulo word high for 1 5 seconds and Seasave increments the number of bottles fired Later when the raw data file is converted in SBE Data Processing s Data Conversion module scans identified in the bl file or marked with a bottle confirmation bit are written to a water bottle file with a ros extension See Acquiring Real Time Data and Firin
100. any adapters including those listed above with the instrument and the computer you will use it with before deployment to verify that there is no problem See Application Note 56 Interfacing to RS 485 Sensors for information on using a USB port to communicate with a Sea Bird instrument that communicates via RS 485 telemetry 96 DRAWINGS Dwg 31922SBE Block Diagram esee Dwg 33440ASBE Chassis Wiring Dwg 40853SBE 11plus Front Panel Dwg 41726SBE 11plus Back Panel Assembly Dwg 41726SBE 11plus Chassis Panel Assembly Dwg 33420ASBE Deck Unit Receiver Modem Schematic Dwg 41704ASBE Deck Unit Receiver Modem Assembly Dwg 32127dSBE 11plus Deck Unit Digital Board Dwg 40937DSBE 11plus Deck Unit Digital Board Assembly Dwg 30146SBE Deck Unit Front Panel LED Schematic Dwg 40424CSBE Deck Unit Front Panel LED Assembly Dwg 31314BSBE Deck Unit Signal Input Cable Assembly PN 80591 Dwg 32695DSBE Deck Unit Signal Input Cable Assembly SUBCONN Dwg 32786CGPS NMEA Interface Test Cable Assembly PN 801422 Dwg 32799 ASBE Deck Unit CDO Test Cable PN 801429 Dwg 31475aSurface PAR Cable Wiring Ben
101. as appropriate 80 87 Manual revision 014 Appendix Functional Description and Circuitry SBE 11plus V2 Digital PCB The main Digital PCB drawing 32127 1 Acquires full rate data from the Receiver PCB Acquires NMEA navigational data Digitizes Surface PAR voltage and merges this voltage into the CTD data stream Time aligns conductivity frequencies and voltages if requested Averages data if requested Stores processed data in RAM FIFO buffers for transmission to computer via RS 232 or IEEE 488 Outputs raw pressure data for towed body control Uses a second microprocessor with EEPROM memory to output converted CTD data in engineering units 81 88 Manual revision 014 Appendix IV Replacement Parts SBE V2 Appendix IV Replacement Parts eae Part Application Description Quantity 120 3 connects See Cable ot Deck 17556 2 to pigtail Wail toslip ring 1 10 m 33 ft For shipped after March DB 9P 9 pin to 2010 Connects SBE 11 171887 DB 9S 9 pin serial Interface RS 232 and Modem 2 cable 3 m 10 ft Channel on Deck Unit to computer COM ports For shipped before DB 25P 25 pin to March 2010 Connects SBE 11 171886 DB 9S 9 pin serial Interface RS 232 and Modem 2 cable 3 m 10 ft Channel on Deck Unit to computer COM ports Connects SBE 11 Interface 17082 IEEE 488 cable IEEE 488 on Deck Uni
102. aud for pressure frequency and pressure Pressure PBaud x temperature output from Deck Unit 1200 2400 4800 9600 or 19200 Temperature x N Do not automatically start sampling on power up Default AutoRun x x Y On power up automatically start sampling and do not send and display response Autorun of DS AddNMEA x only affects Add Lat Lon data to CTD data operation if x N Do not AutoRun Y 73 80 Manual revision 014 Appendix Command Summary SBE 11plus V2 CATEGORY COMMAND DESCRIPTION DS Display CDO setup parameters DC Display calibration coefficients TCalDate S temperature calibration date CCalDate S 85 conductivity calibration date Note 5 floating point number PCalDate S S pressure calibration date S string with no spaces TF0 F F primary temperature FO integer TG F F primary temperature G TH F F primary temperature H TI F F primary temperature I TJ F F primary temperature J CG F F primary conductivity G CH F F primary conductivity H CI F F primary conductivity I CJ F F primary conductivity J CPC F F primary conductivity pcor CTC F F primary conductivity tcor CS F F primary conductivity slope Converted Data 1 F pressure C1 Output CDO PC2 F F pressure C2 commands sent PC3 F F pressure C3 to Deck Unit through Remote PC1 F F pressure D1 Out connector PT1 F F pressure T1 using PT2 F F pressure T2 SEATERM PT3 F F pressure T3 No
103. ay 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 NMEA Interface in the Deck Unit may not be operating properly To verify use the GPS simulation program NMEA Test supplied with SEASOFT V2 This program simulates a NMEA navigation device transmitting a NMEA message See NMEA Message Simulation Program below for details NMEA Message Simulation Program Note You can also run the simulation using only one computer if the computer has a spare COM port Note The Deck Unit must be connected to the CTD to test the interface If it is not connected noise on the open Sea Cable connector will interfere with communication with the CTD Sea Bird provides a NMEA message simulation program NMEATest as a troubleshooting aid NMEATest part of the SEASOFT V2 package simulates a NMEA navigation device transmitting messages in RMA RMC GLL or GGA format If the system does not work with the NMEA navigation device but works with NMEATest the problem is with the interface cable from the NMEA navigation device to the Deck Unit or in the NMEA navigation device itself NMEATest is just a simulation and does not provide an actual da
104. ce and Connector Installed BAUD RATES SBE 11plus CTD Data 19 200 SBE 11plus Duplex Modem 300 SBE 11plus NMEA Interface 4800 SBE 11plus Remote Output 9600 This page intentionally left blank Note NEW ADDRESS as of January 18 2010 SBE 11plus V2 Deck Unit For use with SBE 9plus CTD SBE MODEL ph s DECK UNIT RO ELECTRONICS INC UNDERWATER UNIT COMPUTER INTERFACE v 4 WATER SAMPLER CONTROL 5 AP 9 ree e __ ON Front Panel switches LEDs SBE 11 INTERFACE SERIAL DATA UPLINK E 2 ACVOUTAGE 66 488 MODEM CHANNEL ing T RS 232 RECORDER SEA CABLE NMEA SURFACE PAR on RECORD 29 __ PLAY CAUTION HIGH VOLTAGE Back Panel connectors and fuses User s Manual Sea Bird Electronics Inc Manual Version 014 11 10 10 13431 NE 20 Street PCB Firmware Versions Bellevue Washington 98005 USA Digital 5 2 and later Telephone 425 643 9866 Modem 2 0c and later Fax 425 643 9954 Receiver 2 1 and later E mail seabird seabird com Remote Output 1 0 and later Website www seabird com Software Versions Seasave V7 version 7 21a and later SBE Data Processing version 7 21a 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 kno
105. ch 8 bit character The absence of the valid character signal at times when it is expected lights the Deck Unit Error LED Deck Unit Modem The Deck Unit modem provides a 300 baud full duplex serial communication link with the CTD This channel is used by the Deck Unit for water sampler control and control of a remote serial device The CTD uses the setting of the most significant bit to determine what to do with a command received from the Deck Unit Characters received by CTD with most significant bit set ASCII values 128 255 are interpreted as commands to a water sampler The CTD interprets the command encodes it in the format required by the water sampler and sends it to the water sampler e Characters received by the CTD with the most significant bit not set are passed along unchanged to a remote serial output device All characters received by the CTD from the water sampler and remote serial output device are sent to the Deck Unit Water sampler operation does not interfere with operation of a remote serial output device and vice versa 77 84 Manual revision 014 Appendix Functional Description and Circuitry SBE 11plus V2 The Deck Unit automatically sends the following commands as applicable when the user pushes the Home Arm and Fire buttons or fires bottles through Seasave SBE 32 Carousel Commands and Replies Commands to Carousel SR Go to home position position 1 SF Fire ne
106. check on system data integrity Maximum value that can be displayed is 255 display starts over at 1 each time count gets to 255 Four digits from right to left Pump status 1 pump is on 0 pump is off e Bottom contact switch status 1 switch is open or not installed no contact 0 switch is closed 11 B CTD status G O 1015 water sampler interface confirm signal 1 for approximately 1 5 seconds Deck Unit detects confirm signal from G O 1015 indicating a bottle has been fired 0 no confirm signal detected CTD modem carrier detect 0 modem detects Deck Unit modem s carrier signal 1 not detected Number of bytes When transferring data to a computer Deck Unit places data in a buffer at rate it 12 C available in IEEE 488 is acquired allowing Deck Unit and computer to operate with some buffer independence Data is removed from buffer as computer requests it If computer spends too much time calculating and displaying data it may start to fall behind and number of available bytes will decrease If number of available bytes is less Number On Wies h ti Deck Unit s Overflow LED comes on and stays on until a 13 D available than an entire scan ec ae co i RS 232 buffer Reset command is received If buffer overflows some data will have been lost Buffer overflow sometimes occurred in old computers with slow processors it should not occur in computer with 80386 or faster processors SET Unused
107. clude your RMA number in the e mail For All International Shipments Include a commercial invoice showing the description of the instruments and Value for Customs purposes only Include the following statement U S Goods Returned for Repair Calibration Country of Origin USA Customs Code 9801001012 Failure to include this statement in your invoice will result in US Customs assessing duties on the shipment which we will in turn pass on to the customer shipper Note Due to changes in regulations if Sea Bird receives an instrument from outside the U S in a crate containing non approved i e non heat treated wood we will return the instrument in a new crate that meets the requirements of ISPM 15 see http www seabird com customer support retgoods htm for details We will charge 50 to 150 for the replacement crate based on the crate type These prices are valid only for crate replacement required in conjunction with return of a customer s instrument after servicing and only when the instrument was shipped in a crate originally supplied by Sea Bird
108. cm m 0 0856 volts 1617 Einsteins m sec volt SEASOFT calculates corrected PAR as corrected PAR 100 ratio multiplier underwater light surface light underwater light is the calculated light output from the underwater sensor To compare the shape of data sets taken at disparate light levels the ratio multiplier can be used to scale the data For example a ratio multiplier of 10 would make a 100 uEinsteins m sec light level plot as 1000 uEinsteins m sec The ratio multiplier should be set to 1 for normal operations Notes Do not enter the Calibration factor from the Biospherical calibration sheet as the Conversion factor SEASOFT e To output Surface PAR in units other than Einsteins m sec multiply the calculated Conversion factor to obtain the desired units See Application Note 11General to convert units e See Application Note 11 QSP L or 11 QSP PD as applicable for instructions on entering the underwater PAR sensor coefficients 95 Sea Bird Electronics Inc Phone 425 643 9866 13431 NE 20 Street Fax 425 643 9954 COLE Bellevue WA 98005 E mail seabird seabird com USA Web www seabird com APPLICATION NOTE NO 68 Revised June 2009 Using USB Ports to Communicate with Sea Bird Instruments Most Sea Bird instruments use the RS 232 protocol for transmitting setup commands to the instrument and receiving data from the instrument However most newer PCs and laptop computers have USB port s instea
109. cters from computer over IEEE 488 or RS 232C interface Transmit LED flashes when Deck Unit sends data to computer over 488 or RS 232C interface Error and Data LEDs Data LED comes on and stays on to indicate Deck Unit is successfully receiving data from CTD at expected rate and format Error LED flashes when data from the CTD is incorrect that is modulo count indicates a skipped scan In general if Data LED is on and Error LED is off CTD and telemetry link are working properly Alarm buzzer sounds based on alarm logic for bottom contact switch altimeter and or pressure SBE or G O LED Water sampler type is controlled by SW1 on the Deck Unit Receiver Modem PCB If SWI is set to SBE 32 Carousel SBE LED Note comes on and stays on If SW1 is set to General Oceanics 1015 or 1016 Water sampler bottles can also Rosette G O LED comes on and stays on be fired from the computer using Seasave real time data and Home Arm and Fire pushbuttons and LEDs operation varies acquisition software or user depending on water sampler type developed software SBE 32 Carousel Home Arm button resets Carousel so it will close bottle at position 1 next time Fire button is pushed When confirmation is received from Carousel Home Arm LED comes on and stays on until you fire first bottle Fire button causes Carousel to fire closing next position bottle When confirmation is received from Carous
110. d 8 data bits 1 stop bit NMEA it 4 Navigation Device Surface PAR Sensor 34560 Hz Carrier DPSK transmit amp receive CTD auxiliary sensor data transmit serial instrument data to Deck Unit Modem Channel transmit amp receive for water sampler transmit to serial SBE 11plus Computer instrument RS 232C 300 baud Deck Unit SBE 11 Interface commands to replies from CTD RS 232C or IEEE 488 19200 baud 8 data bits 1 stop bit no parity 300 baud FSK modem transmit amp receive for water sampler transmit to serial instrument i RS 232C 8 data bits 1 stop bit no parity 9600 or 19200 baud 300 baud 9600 baud overall Water FSK modem SBE 9plus transmission rate SETA Daa Kee Output Sampler CTD Instrument eA available if 300 baud modem installed in both Deck Unit and CTD and optional serial data interface installed in CTD Serial data interface is standard is now standard in both Deck Unit for serial number 637 and higher Deck and CTD but was optional in Deck Units For older units interrface was Units with serial number 700 and included only if user ordered Deck Unit lower and in CTDs with serial number with option 785 and lower requires 300 baud modem interface m in both Deck Unit and CTD Interface Auxiliary Sensors Note A NMEA navigation device can be connected directly to the comput
111. d of RS 232 serial port s USB serial adapters are available commercially These adapters plug into the USB port and allow one or more serial devices to be connected through the adapter Sea Bird tested USB serial adapters from several manufacturers on computers at Sea Bird and verified compatibility with our instruments These manufacturers and the tested adapters are FTDI www ftdichip com 1 USB RS232 Converter model FTDI UC232R 10 Note This adapter can also be purchased from Sea Bird as Sea Bird part 20200 Drivers for this adapter can be found at http www fidichip com Drivers VCP htm IOGEAR www iogear com USB 1 1 to Serial Converter Cable model GUC2324A Note We have had several reports from customers that they could not communicate with their instrument using a laptop computer and this adapter Keyspan www keyspan com USB 4 Port Serial Adapter part USA 49WLC replacing part USA 49W Note We have one report from a customer that he could not communicate with his instrument using a notebook computer and this adapter He was able to successfully communicate with the instrument using an XH8290 DSE Serial USB Adapter www dse co nz Edgeport www ionetworks com Standard Serial Converter Edgeport 2 part 301 1000 02 Other USB adapters from these manufacturers and adapters from other manufacturers may also be compatible with Sea Bird instruments We recommend testing
112. d 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 13 Manual revision 014 Section 1 Introduction SBE 11plus V2 Unpacking SBE 11 V2 Shown below is a typical SBE V2 shipment Inclusion of test cables cables for optional interfaces etc is dependent on the order SBE MODEL pus CTD DECK UNIT SEA BIRD ELECTRONICS INC COMPUTER INTERFACE SIGNAL SOURCE RESET Rack mount kit screws not shown Deck Unit power cable Computer to 11p us cable for SBE 11 Interface RS 232 and Modem Channel connectors 2 cables Deck Unit Deck Unit to 9plus test cable Spare connector amp hardware kit Sea Cable NMEA Input amp NMEA Input Surface PAR Input connectors Interface test cable 1 connector amp hardware shown CDO Remote Out 2 Interface test cable nterace cable SBE I Iplus V2 Deck Unit Software and Electronic Copies of Deck Unit Manual Software Manuals and User Manual Manual revision 014 Section 2 Description of SBE 11p us V2 SBE 11plus V2 Section 2 Description of SBE 11p us V2 This section describes the functions and features of the S
113. digits for 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 3i Optional Checksum Delimiter Checksum Optional Checksum Field hh Absolute value calculated by exclusive ing 8 data bits no start or stop bits of each character in message between but excluding and 37 43 44 Manual revision 014 Section 6 Setting Up NMEA Interface SBE 11plus V2 Data Formats For IEEE 488 interface 7 bytes of position data are appended to the end of each CTD scan sent from the Deck Unit to the computer For RS 232C interface 14 ASCII characters of position data followed by a carriage return and line feed are transmitted once per second For example if sampling at 24 Hz NMEA data will be transmitted after CTD scans 1 25 49 etc while the intermediate scans will contain only CTD data Note that in Seasave the navigation data is then appended to each CTD scan so the output from Seasave is the same regardless of whether IEE 488 or RS 232 communication was used 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 e in byte 7 is 1 this is a new position If bit 8 in byte 7 is 1 Latitude is negative If bit 7 in by
114. dix Dwg 32434BSurface PAR Cable Wiring Dwg 32704ASurface PAR Cable Wiring SwitchCraft Connector 11 13 17 19 20 21 22 23 24 25 26 27 97 1 INPUT VOLTAGE LINE AC VOLTAGE POWER 275 SEA CABLE 250Vdc 445 230 VAC FILTER eh TRANSFORMER SUPPLY 145 VAC SEACABLE __ 5V TO7EHOM Splus COOLING DC POWER 0 4 p 2 222 2 LB TELEMETRY MODEM DECOUPLING COUPLING 3456052 SEACABLE TELEMETRY 7 TRANSFORMER TRANSFORMER FISH TAPE SELECT RUN DIAGNOSTIC SELECT FRONT PANEL SWITCH RECEIVER S2 TOGGLE SWITCH 1 1 1 1 BANDPASS FISH 5V LOGIC RUN 1 C9 L 4 C13 3 CONVERSION DECODER LOGIC LEVEL DIAG NAZ ENCODER DPSK 1 RECORDER 2 07 GB CONVERSION DATA DATA INPUT 1 1 i 1 1 i 4 RECORD MICRO LoxcHEDEIVER BOAHBHD MEDII ERE aaa e a a Lie Eun PROCESSOR TAPE RECORDER OUTPUT PLAYBACK DATA MICRO OCTAL LATCHES SERIAL TO PARALLEL PROCESSOR DATA CONVERSION 8085 IN OUT LEVEL CONVERSION CONTROLLER optional 1 1 1 1 1 i 1 amp 1 1 1 MODEM BOARD 1 OCT
115. ds allow alignment to be performed in the Deck Unit so the real time data output to Seasave is already aligned If you save full rate 24 Hz data and the data analysis indicates that additional alignment changes are required use the Align CTD module in SBE Data Processing to correct any residual misalignment in the saved data Note d CTD systems with atypical flow paths AdvanceCn x n conductivity channel number 0 or 1 for example supporting flow through x time seconds to advance conductivity channel fluorometers may require different 1 Conductivity measurement on a water parcel is settings See the discussion of Align CTD in the SBE Data Processing delayed because the TC duct presents water to the manual and Application Note 38 for conductivity sensor after the water has passed the calculation of optimal advance values temperature sensor Since the pump sets a constant flow speed the delay is constant To compensate for the delay so salinity can be computed with minimum spiking the Deck Unit can advance the conductivity measurement in time to coordinate it with the appropriate temperature measurement This advance occurs before any averaging so a bias error is not introduced in the calculated salinity Typical advance for 9p us and factory default is 0 073 seconds 1 75 scans 1 24 See Configuration Sheet for setting for your unit Example Set advance for both conductivity channels primary and secondary t
116. e Yes IMPORTANT Was this equipment deployed in the Gulf of Mexico during after the Spring 2010 oil spill No Yes specify serial numbers if not applicable to all instruments in shipment CONTACT INFORMATION Your Name Institution Company Shipping Delivery address for packages Phone Fax E mail SERVICE INFORMATION Date Shipped Sea Bird Model Numbers i e SBE 37 SM etc Quantity Serial Numbers Special Instructions for example if specific services are required for some instruments i e if 10 instruments need calibration and 1 also needs repairs specify the serial number for the instrument needing repairs Calibration Services includes basic diagnostic Temperature Conductivity Pressure Oxygen pH Other i e fluorometer turbidity par Additional Services additional charges apply specify serial numbers Internal Inspection amp O Ring Replacement includes hydrostatic pressure test System Upgrade or Conversion Diagnose amp Repair Problems provide as much information as possible description s configuration con or xmlcon file and raw data hex or dat file showing problems etc Download Data from instrument Memory 128 PAYMENT BILLING INFORMATION Credit Card Sea Bird accepts payment by VISA Master Card or American Express Name on Card Please call Cheryl Reed 425 644 3244 with credit card informati
117. e decks will perform well with this system although recording time is usually limited to 90 120 minutes due to cassette tape capacity Best results will be obtained with metal oxide tapes VCRs with super long play capability can offer up to 6 hours of recording Simply use only the audio input and output on the VCR ignoring the video Circuitry WARNING Potentially lethal voltage levels are maintained for 15 seconds after removal of AC power Turn off the Deck Unit and remove the AC power cord from the back panel before attempting to service the system Wait at least 1 minute after power down before working on the Deck Unit sea cable CTD etc Deck Unit electronics are in a rack mount cabinet housing two main PCBs two modular power supplies a cooling fan and front panel displays and back panel connectors The electronics are powered from 120 or 240 VAC Set the AC voltage switch on the Deck Unit back panel to 120 or 240 before powering the Deck Unit 79 86 Manual revision 014 Appendix Functional Description and Circuitry SBE 11plus V2 Chassis Wiring The chassis wiring diagram shows the Deck Unit modules and wiring Drawing 32233 shows the wiring of the standard Deck Unit The required AC power input fuse is 2 Amp Slow Blow when set to 120 VAC units and 1 Amp Slow Blow when set to 240 VAC There is also a 0 5 A Fast Blow fuse in series with the sea cable output for protection against shorts or overloads
118. e 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 for a 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 Seasave Sea Bird s real time data acquisition and display program requires a configuration file which defines the CTD auxiliary sensors integrated with the instrument and channels serial numbers and calibration dates and coefficients for all the integrated sensors conductivity temperature and pressure as well as auxiliary sensors Seasave as well as our data processing software uses the information in the configuration file to interpret and process the raw data If the xmlcon or con file does not match the actual instrument configuration the software will not be able to interpret and process the data correctly To verify the contents of the 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 29 Manual revision 014 Section 5 Setting Up System SBE 11plus V2 3 The configuration information appears on the Instrument Configu
119. ears at the Deck Unit Record connector with amplitude 0 5 v p p If the signal appears at the Record connector correctly then verify that the playback signal appears at the Play connector Cause Solution 5 The 11 V2 may be set up for serial data uplink An V2 with jumpers set for serial data uplink cannot output data through the tape recorder interface see Section 10 Setting Up RS 232 Serial Data Uplink Problem 9 Modem Channel Not Working The modem channel provides communication between the Deck Unit and a water sampler and or serial data output instrument connected to the CTD Cause Solution 1 If the modem Carrier LED does not come on the Deck Unit modem is not receiving the signal from the CTD modem Check test point TP2 on the CTD Modem PCB with an oscilloscope there should be a 1070 Hz sine wave present with an amplitude of at least 50 mV p p The sine wave should change frequency when the CTD modem transmits characters Cause Solution 2 The CTD modem may not be receiving the signal from the Deck Unit modem Verify this by putting the Deck Unit thumbwheel switch in position 11 B With the CTD connected to the Deck Unit the left most bit should be 0 if it is 1 the CTD modem is not receiving a signal from the Deck Unit modem Check test point TP1 on the Deck Unit Receiver Modem PCB there should be a 2225 Hz 4V p p sine wave present Cause Solution 3 If both modems are operational Cause Solutio
120. eese eene 59 Deck Unit LED Display 60 Raw Output Data nene neret nenne 61 IEEE 488 Output 5 entere tret eet tee Na 61 RS 232 Outp ti edente em e rato E 62 Calculation of Engineering Units in 63 Pressure Temperature Compensation sss 63 Calculation of Engineering Units in SBE Data Processing 63 Section 13 Routine Maintenance eese 8 64 Section 14 Troubleshooting eese eee eese 65 Problem 1 Seasave Does Not Collect Any 65 Problem 2 Deck Unit Completely Inoperable ees 65 Problem 3 Deck Unit Overflow Light 66 Problem 4 CTD Does Not 67 Problem 5 Data LED Does Not Turn On seen 67 Problem 6 RS 232 Interface Not Working sss 68 Problem 7 IEEE 488 Interface Not Working 68 Problem 8 Tape Recorder Interface Not Working 2 69 Problem 9 Modem Channel Not Working 2 69 Problem 10 Unsupported Modem Message FFFFFFFF Unsupported modem message XX XX Carousel 70 71 Safety and Electrical Symbols sse 72 Appendix I Command Summa ry 4040
121. el Fire LED comes on and stays on until the next time you push Fire or Home Arm button When Carousel is fired via software Fire LED comes on for 5 seconds when confirmation is received 12 Manual revision 014 Section 2 Description of SBE 11p us V2 SBE 11plus V2 e 1015 Rosette gt gt Home Arm button powers Rosette Home Arm LED comes on 15 seconds later when confirmation is received from Rosette indicating pylon is powered and ready to fire Home Arm LED stays on until you push Fire button You must power Rosette each time you fire a bottle Fire button causes Rosette to fire closing next bottle Fire LED comes on when confirmation is received from Rosette and remains lit until Home Arm is pushed again Fire button is active only when Home Arm LED is lit When Rosette is fired via software Fire LED comes on for 5 seconds when confirmation is received e G O 1016 Rosette gt gt Home Arm button resets Rosette causing arm to move to Home position ready to fire bottle 1 with an offset specified by SW1 on Deck Unit Receiver Modem PCB When confirmation is received from Rosette Home Arm LED comes on and stays on until you fire first bottle Fire button causes Rosette to fire closing next position bottle When confirmation is received from Rosette Fire LED lights comes on and stays on until the next time you push Fire or Home Arm button When Rosette is fired via software Fire LED comes
122. en appended to each data format CTD scan so the output from Seasave is the same regardless of whether 488 or RS 232 communication was used Ifthe Deck Unit is communicating with the computer via IEEE 488 the navigation data is appended to each CTD scan sent from the Deck Unit Example The CTD is sampling at 24 Hz and not averaging the data A navigation device outputs its message once every 5 seconds The NMEA LED flashes every 5 seconds If communicating with the computer IEEE 488 the same message is appended to each scan of CTD data within that 5 seconds that is 24 scans second x 5 seconds 120 scans show the same NMEA data If communicating with the computer via RS 232 the same message is transmitted only 5 times for example NMEA data is transmitted only after CTD scans 1 25 49 73 and 97 In Seasave the same message is then appended to each scan of CTD data within that 5 seconds Note that this section covers setting up and troubleshooting NMEA that is acquired through the Deck Unit it is not applicable to the acquisition of data from a NMEA device connected directly to the computer 31 Manual revision 014 Section 6 Setting Up NMEA Interface SBE 11plus V2 NMEA Interface Commands Notes e S gt prompt indicates Deck Unit is connected to computer and ready for a command e Commands can be entered in upper or lower case e When the computer is connected to the SBE
123. er instead of to the Deck Unit This feature 1s supported in Seasave V7 version 7 17 and later The output from Seasave 1 the same regardless of whether the NMEA data was appended in the Deck Unit or in the computer 11 18 Manual revision 014 Section 2 Description of SBE 11p us V2 SBE 11plus V2 Deck Unit Front Panel MODEL 11 plus CTD DECK UNIT SBE amp a amp amp a SEA BIRD ELECTRONICS INC UNDERWATER UNIT COMPUTER INTERFACE ERROR TRANSMIT RECEIVE OVERFLOW NMEA WOHD DISELAY WOHD SELECT WATER SAMPLER CONTROL SIGNAL SOURCE POWER HOME ARM a FIRE FISH CARRIER a Oso 15 Power button turns power to the Deck Unit on off When turned on voltage is applied to back panel Sea Cable connector immediately Word Select thumbwheel switch used to select any sensor channel data buffer status or other diagnostic indicators for LED display Word Display LED used to view individual data words uncorrected frequencies A D voltages etc and data buffer status NMEA LED flashes each time a NMEA message is successfully decoded Overflow LED turns on when output buffer has overflowed because computer did not take data from Deck Unit through IEEE 488 or RS 232 interface quickly enough When this occurs some data has been irretrievably lost LED stays on until Reset button is pushed or a reset command is received 6 Receive LED flashes when Deck Unit receives chara
124. erial output instrument 1s transmitted from the Deck Unit to the computer at 19200 baud The diagram below shows a schematic of the serial data instrument communications Modem Channel 300 baud SBE 11plus V2 Computer L T DeckUnit 19200 baud 9600 Baud Uplink 300 baud FSK modem SBE 9plus telemetry stream Serial Data Output Instrument SBE 9plus CTD 8 data bits 1 start bit 1 stop bit no parity 9600 or 19200 baud 9600 baud overall transmission rate Serial Data Output Instrument Requirements Note The serial data output instrument must be configured to transmit data with Baud is defined as bits second 1 start bit 8 data bits no parity and 1 stop bit with baud rate as follows Each 8 bit byte that is to be transmitted has a start and stop bit e 9600 baud or added providing 10 bits total Thus the 9600 baud data rate allows the transmission of 960 bytes second 19200 baud However the continuous rate of transmission may not exceed 9600 baud 960 bytes second Therefore the serial data output instrument must transmit at 19200 baud in burst mode Burst mode data transmissions must be separated by intervals with no data transmission resulting in an average data rate of 960 bytes second or less Note that when purchasing or retrofitting a 9p us to accommodate the serial data uplink the user must select either 9600 or 19200 baud communication interface 52 59 Manua
125. g Bottles from Seasave above for setting up Seasave and starting and stopping real time data acquisition Proceed as follows for firing bottles from the Deck Unit SBE 32 Carousel 1 Press the Home Arm button to reset the Carousel so it will close the bottle at position 1 the next time the Fire button is pushed The Home Arm LED comes on and stays on until the first bottle is fired 2 Press the Fire button The Carousel will fire bottle 1 3 Repeat Step 2 to fire each bottle the Carousel will fire bottles in sequential order G O 1015 Rosette 1 Press the Home Arm button to power Rosette The Home Arm LED comes on 15 seconds later to indicate the Rosette 1s ready to fire 2 Press the Fire button to fire the first bottle 3 Repeat Steps 1 and 2 to fire each bottle the Rosette will fire bottles in sequential order G O 1016 Rosette 1 Press the Home Arm button to reset the Rosette so it will fire the bottle at position 1 the next time the Fire button is pushed The Home Arm LED comes on and stays on until the first bottle 1s fired 2 Press the Fire button The Rosette will fire bottle 1 3 Repeat Step 2 to fire each bottle the Rosette will fire bottles in sequential order 57 63 64 Manual revision 014 Section 11 Operating System SBE 11plus V2 Processing Data Notes e Although we provide this technique for editing a raw hex file Sea Bird s strong recommendation as described above is to a
126. g box may appear use the RS 232 interface for setting up the instrument in SEATERM The initialization file SeaTerm 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 Instrument Type Nob v COM Port z Select the instrument type for example SBE 11 Remote Out if connected to the Remote Out connector and the computer COM port for communication with the instrument Click OK 3 The main screen looks like this Em SeaT erm Version 1 20 SeaT erm File Configure Communications Utilities Data View Help Toolbar Command Data Echo Area Capture Status bar to file status grayed Upload out if not parameter capturing Capl nng 7 Instrument Baud rate data bits EPROM version stop bits and parity e Menus For tasks and frequently executed instrument commands Toolbar Buttons for frequently executed tasks and instrument commands All tasks and commands accessed here are also available in the Menus To display or hide the Toolbar select View Toolbar in the View menu Grayed out buttons are not applicable e Command Data Echo Area Echoes if applicable a command executed using a Menu or Toolbar button as well as the instrument s response Additiona
127. guration file indicates that NMEA position data is to be added Set up a display window as a fixed display and select Latitude Longitude and Time as display variables for that window OR In the Display menu select VMEA Display Start real time data acquisition In the Real Time Data menu click Start then click Start in the dialog box see Section 11 Operating System for details You should begin seeing latitude longitude and time display in Seasave Each time position data is successfully decoded the VMEA LED on the Deck Unit should flash If the data is correct and is updating properly the NMEA Interface is working If position data does not appear verify that the Deck Unit is connected to the NMEA navigation device with the proper cable e Troubleshooting NMEA Interface below for additional instructions if needed 34 41 Manual revision 014 Section 6 Setting Up NMEA Interface SBE 11plus V2 Troubleshooting NMEA Interface Problem 1 NMEA LED Not Flashing or NMEA LED Flashing but Lat Lon Data Not Displaying Cause Solution 1 Wiring may be incorrect Check cables and connections between the Deck Unit NMEA navigation device and computer Cause Solution 2 NMEA navigation device may be set to the wrong baud rate Deck Unit requires 4800 or 9600 baud Verify Deck Unit s NMEA Interface baud rate with DS in SEATERM Reset device s baud rate if necessary Cause Solution 3 NMEA navigation device m
128. gure menu The Configure dialog box appears Select e NMEA message to be simulated GLL or GGA or select an existing NMEA data file on your computer by clicking Send File and browsing to the desired file Baud rate 4800 or 9600 for transmission of simulated NMEA data to Deck Unit must match NMEA baud rate set in the Deck Unit see Step 1 e COMM port on computer 2 for transmission of NMEA data to Deck Unit e Message interval time between simulated messages to be transmitted to Deck Unit Click OK On the NMEATest screen click Start NMEA data should begin to display on the NMEATest screen on computer 2 The NMEA LED should flash each time the simulation program transmits a new position On computer 1 set up Seasave and start data acquisition Steps 1 through 5 in Setting Up and Testing NMEA in Seasave above NMEA data should display in Seasave The latitude and longitude displayed by Seasave should correspond to that of the simulation program see Navigation Device Message and Data Formats below for the raw and decoded NMEA message formats If properly decoded data appears on the screen the NMEA Interface in the Deck Unit 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 device to the Deck Unit or in the NMEA navigation device itself Verify that
129. h IEEE 488 parallel and RS 232C serial interfaces Data output and control commands can be sent via either interface To successfully transmit full rate 24 Hz data with all channels active set the RS 232C interface to 19200 baud or use the parallel interface With minimum data channels active 4 words and a reasonably fast computer 1 80386 processor 24 Hz data acquisition may be accomplished at lower baud rates Memory buffers at the output ports prevent data loss when the computer is temporarily occupied by other tasks buffer size 20500 bytes for IEEE 488 8000 bytes for RS 232C The RS 232C interface outputs ASCII characters The modem interface provides a bi directional serial communication link with the CTD that is independent of the telemetry channel This link may be used to control a water sampler interface or to communicate with a serial device that is cabled to the CTD The NMEA 0183 interface permits the Deck Unit to integrate Latitude Longitude and Time data into the CTD data stream Data Telemetry Receiver The telemetry waveform originates in the CTD and is transformer coupled onto the sea cable In the Deck Unit another transformer removes the telemetry signal from the sea cable The signal is amplified filtered and converted to logic level prior to being sent to a UART and then to a micro controller which checks the decoded bits and activates a valid character line to indicate successful reception of ea
130. hannel Switch the thumbwheel switch to position 11 B and fire the Rosette The bit second from the left should change to 1 for several scans after the Rosette fires If this does not occur and the Rosette did fire either the Interface PCB is faulty or the pylon is not sending the confirm signal Problem 10 Unsupported Modem Message FFFFFFFF Unsupported modem message XX XX from Carousel Cause Solution 1 There may be noise on the line causing extra characters to be sent Check the sea cable for damage see Problem 4 above Also check the cable between the water sampler and the CTD Cause Solution 2 The serial port for water sampler control may be incorrect Check the serial port setting in Seasave Configure Inputs Serial Ports tab Water Sampling and 911 Pump Control Serial Port this should be the port connected to the SBE Modem Channel connector Cause Solution 3 The Carousel may be malfunctioning and sending bad messages 70 Manual revision 014 77 Glossa SBE 11plus V2 Glossary DATA HANDLING TERMS To facilitate data handling the SBE 9plus CTD and SBE 11 V2 Deck Unit cluster individual data bits into groups of various sizes The following definitions apply in this manual e Byte Always 8 bits May be serial as generated in the CTD or parallel Deck Unit s IEEE 488 output Character Data byte encoded to ASCII standard e Channel Path taken by data deriving fro
131. hassis wiring diagram it may be necessary to disconnect one section after another to locate the problem Cause Solution 2 If the power switch pilot light comes on and the fan runs the front panel LEDs should flash on briefly when power is first applied If they do not the circuitry that supplies 5 volts to the Deck Unit from the main AC supply may be defective See Power Supplies Appendix III Functional Description and Circuitry 65 Manual revision 014 Section 14 Troubleshooting SBE 11plus V2 Problem 3 Deck Unit Overflow Light on Data from the CTD is made available to the computer by placing it in the Deck Unit s RAM buffer The computer then requests the data emptying the buffer If the computer is too slow in making these requests the buffer overflows and the Overflow LED lights The rate at which the computer requests data from the Deck Unit depends on the other activities it must perform Cause Solution 1 An older slow computer may be set to update the Seasave display windows too often To verify that this is the problem and to determine appropriate settings for your computer Set the Deck Unit thumbwheel switch to 12 C for IEEE 488 interface or 13 D for RS 232 interface to display the number of bytes available in the Deck Unit buffer 2 Start acquisition The number displayed on the Deck Unit LED should periodically reset to 7000 IEEE 488 or 14000 RS 232 If it does not it will eventually overfl
132. hat other data is integrated with the data stream from the 9plus e Serial Ports define communication parameters for SBE 11 Interface channel sends commands to and receives replies from 9plus COM port for Modem Channel sends commands to and receives replies from the water sampler and sends pump on off commands to 9plus with custom pump control and COM ports for serial data output and SBE 14 Remote Display e Water Sampler enable and set up control of bottle firing for a water sampler e TCP IP Ports define ports for communication with Seasave and for publishing data to remote clients e Miscellaneous define parameters required for output of depth average sound velocity descent rate acceleration oxygen plume anomaly and or potential temperature anomaly e Pump Control enable user pump control for a custom 9plus 4 Configure Outputs set up the following e Serial Data Out enable and set up output of selected raw data frequencies and or voltages and or converted data engineering units to a COM port on your computer e Serial Ports define communication parameters for SBE 11 Interface channel sends commands to and receives replies from the 9plus COM port for Modem Channel sends commands to and receives replies from the water sampler and sends pump on off commands to Oplus with custom pump control and COM ports for serial data output and SBE 14 Remote display e Shared File Out enable and set
133. he available configuration options 3 Push the Power button on the Deck Unit 4 Inthe Real Time Data menu select Start The dialog box looks like this Data Archiving Options e Begin archiving data immediately to store raw frequencies and voltages real time data as soon as Start button is clicked and communication is established 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 Do not archive data for this cast to not save data to a file Real time data will still appear in displays Configuration Options Currently selected instrument configuration xmlcon or con file is shown containing information on number type of sensors interfacing with 9p us calibration coefficients and inclusion of NMEA and Surface PAR data with output from Deck Unit To modify input configuration xmlcon or con file serial ports water sampler TCP IP ports miscellaneous and or pump control click Configure Inputs To modify outputs serial data output serial
134. icing 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 of servicing of this system This page intentionally left blank 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 3F 3plus 4C 4M 5T 5P 5M 7 8 9plus 1iplus 14 16plus V2 16plus IM V2 17plus V2 18 19plus V2 21 26plus 27 29 32 322 32SC 33 35 S35RT 36 37 IMP 37 IM 37 SMP 37 SM 37 SIP 37 51 38 39 39 IM 41 41CP 43 43F 44 45 49 50 52 53BPR 54 55 SIM ICC IMM AFM 90488 90204 9
135. imum Specific GPS TRANSIT Data Time date position course and speed data provided by a GPS or TRANSIT navigation receiver RMC hhmmss ss A lll lLa 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 TRANSIT fix TRF hhmmss ss ddmmyy lll lLa yyyyy yy b x x x X X X X x xxx A hh lt CR gt lt LF gt Field Type Symbol Definition Statu Single character field 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 and variable number of digits for decimal fraction of minutes Leading zeros always included for degrees and Latitude minutes to maintain fixed length Decimal point and associated decimal fraction are 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 and variable number 3 yyyyy yy of digits for decimal fraction of minutes Leading zeros always included for degrees and minutes to Longitude maintain fixed length Decimal point and associated decimal fraction optional if full resolution not required b E or W Fixed variable length field hours minutes seconds decimal 2 fixed digits of hours 2 fixed digits of seconds and variable Time hhmmss ss number of
136. inimum NAvg 24 NBITS Baud 1 NBITS 40 if output formatted for SBE 14 NBITS 100 number of output variables microcontroller verifies that NAvg is greater than or equal to minimum if you try to enter a value that is too low microcontroller sets NAvg to minimum Example Minimum Number of Scans to Average Baud is 300 and output format is SBE 14 minimum NAvg 24 40 300 1 4 2 round up to 5 With NAvg 5 SBE 14 display updates every 0 21 seconds 5 scans 24 scans second Lat x 46 x latitude in degrees to use in calculation of depth from pressure 53 Manual revision 014 Section 8 Setting Up Remote Output SBE 11plus V2 Alarm Commands Notes An alarm can be set up for the CDO supports three types of alarms Deck Unit as well as fora CDO e Bottom Contact Alarm Alarm is set when bottom contact bit in modulo remote device word is set and pressure is greater than PEnable e The Deck Unit alarm automatically e Pressure Alarm Alarm is set when pressure is less than PSet and greater sounds if a bottom contact switch than PEnable is used with the CTD e Altimeter Alarm Alarm is set when altimeter height is less than AltSet and pressure is greater than PEnable Alarm is reset when altimeter height is greater than AltSet AltHyst e The Deck Unit alarm can also be set up to sound based on pressure and or altimeter data in Seasave s Configure Outputs menu
137. l revision 014 Section 10 Setting Up RS 232 Serial Data Uplink SBE 11plus V2 SBE 9plus CTD Requirements The RS 232 serial data uplink can be included when the 9plus is ordered or the 9plus can be retrofitted at the factory The retrofit requires Logic PCB that generates the 9plus control at the normal rate but moves data onto the sea cable at twice the normal rate e Modem PCB for 300 baud FSK modem channel for water sampler control that also is able to accommodate the serial data input e Change to the backplane wiring e 4 pin JT4 connector on the top end cap for connection to the serial data output instrument These changes make the 9p us incompatible with V2 Deck Units set up for standard rate data transmission SBE 11plus V2 Deck Unit Requirements Note If already equipped with the Serial Data Uplink connector the V2 The Serial Data Uplink connector requires only a change in jumper positions to process the multiplexed data previously labeled 9600 Baud stream Remove the V2 bottom cover and set the following jumpers on Uplink is included as standard on all the Receiver Modem PCB PCB with transformers on it see drawing 41704 11plus V2 with serial number 637 for the jumper locations and higher For older units the connector was included only if the Wi user ordered the 1 1plus V2 with the Jumper Position serial data uplink option J3 H J4 H J5 Short
138. ld Edit Mark a data value with badflag to eliminate wild points Filter data with triangle cosine boxcar gaussian Window Filter median window File Manipulation Modules Add header information to a asc file containing rows and cen columns of ASCII data Output data portion and or header portion from cnv file ASCII Out to an ASCII file useful for exporting converted data for processing by other non Sea Bird software Section Extract rows of data from cnv file Split Split data in cnv file into upcast and downcast files Strip Extract columns of data from cnv file Convert data format in cnv file from ASCII to binary Translate vice versa Data Plotting Modules Sea Plot Plot data at any point after Data Conversion has been run Miscellaneous Calculate derived variables from one user input scan of SeacalcW temperature pressure etc 24 Manual revision 014 Section 4 Installing and Using Sea Bird Software SBE 11plus V2 To get started using SBE Data Processing 1 Double click on SBEDataProc exe SBE Data Processing s main window Note See SBE Data Processing s Help files for detailed information Note The configuration xmlcon or con file used in SBE Data Processing is the same as the file that is used during real time data acquisition in Seasave For user convenience both Seasave and SBE Data Processing allow you to create modify
139. le command used to modify parameter e Firmware version for Remote Output PCB e Number of scans to average NAvg Deck Unit averages and outputs to remote output port at this rate This is not same as number of scans to average that appears in status command response for SBE 11 Interface Bottom contact alarm enabled Alarms Pressure alarm enabled Alarms Pressure to enable alarm PEnable Pressure alarm setting PSet Altimeter alarm enabled Alarms Pressure to enable alarm PEnable Altimeter alarm setting AltSet Altimeter alarm hysteresis AItHyst Altimeter channel Altimeter scale factor AltScale Latitude to use for depth calculation Lat appears only if output format includes depth e Output format Format Lists all data output parameters If output formatted for SBE 14 status command indicates SBE 14 Note Status information for each alarm appears only if corresponding alarm is enabled Example Status DS command command used to modify parameter shown in parentheses S gt DS SBE llplus Remote Output V 1 0 number of scans to average 4 NAvg bottom contact alarm enabled Alarms pressure alarm enabled Alarms pressure to enable alarm 100 0 db PEnable sound alarm when pressure is less than 50 00 db PSet altimeter alarm enabled Alarms pressure to enable alarm 100 0 db PEnable sound alarm when altime
140. lex mechanical electrical equipment For protection of the circuitry we recommend removing AC power and then waiting for 1 minute for supply capacitor discharge before opening housings changing connections removing or inserting circuit cards or otherwise working on the equipment Problem 1 Seasave Does Not Collect Any Data Cause Solution 1 This may be caused by incorrect instrument configuration in the xmlcon or con file Verify the settings in the configuration file in Seasave s Configure Inputs These settings must match the current CTD configuration CTD type 91 1plus number and type of auxiliary sensors sensors assigned to correct channels NMEA and Surface PAR selected if applicable Problem 2 Deck Unit Completely Inoperable WARNING Use extreme caution when performing these tests Cause Solution 1 If the power switch is on but the power switch pilot light 1 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 Deck Unit 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 Note that the separate fuses and short circuit protection circuitry associated with the internal power supplies will prevent the main fuse blowing even if internal circuitry is malfunctioning See c
141. line asserted RS 232 Output Data output format is the same as described above for IEE 488 output except Each byte 1 sent as two ASCII encoded characters The first character is the hexadecimal representation of the most significant 4 bits the second character 1s the hexadecimal representation of the least significant 4 bits For example a byte with a value of 42 base 10 or 2A hexadecimal is sent as First character 32 ASCII for 2 Second character 41 ASCII for A The two characters representing the modulo count is preceded by two pressure sensor temperature characters and two zero characters The modulo characters are followed by a carriage return character 0D base 16 and then a line feed character 0A base 16 Thus the number of characters per scan is words scan 3 bytes word 2 characters byte 2 carriage return amp line feed For example for a 4 word data stream 4 words scan 3 bytes word 2 characters byte 2 26 characters NMEA data is output on a line by itself once per second instead of being appended to the end of each scan 62 69 Manual revision 014 Section 12 Data Formats SBE 11plus V2 Calculation of Engineering Units in Seasave Seasave allows you to select raw frequencies and voltages and or converted data decibars C etc for display during data acquisition Seasave calculates converted data in engineering units by applying the calibration coefficients in the co
142. ll be cause for our refusal to repair the damage under warranty However this incident will NOT void future coverage under warranty 9 Ifan owner s technician attempts a repair we assume his her qualifications have been deemed acceptable to the owner The equipment owner is free to use his her judgment about who is assigned to repair equipment and is also responsible for the outcome The decision about what repairs are attempted and by whom is entirely up to the owner 126 SOFTWARE WARRANTY SOFTWARE LICENSE AGREEMENT By downloading or installing any of our software you expressly agree to the following Sea Bird s SEASOFT software is provided free of charge to Sea Bird users and is not subject to any license SEASOFT is protected by copyright laws and international copyright treaties as well as other intellectual property laws and treaties All title and copyrights in and to SEASOFT and the accompanying printed materials and any copies of SEASOFT are owned by Sea Bird Electronics There are no restrictions on its use or distribution provided such use does not infringe on our copyright Note SEASOFT is a modular program that includes SEASOFT V2 Seasave V7 Seasave Win32 SBE Data Processing SeatermV2 Seaterm SeatermAF SeatermV2 Plot39 and Deployment Endurance Calculator SEASOFT for Waves Win32 SEASOFT DOS and SEASOFT for Waves DOS SOFTWARE WARRANTY Sea Bird Electronics expressly disclaims any warranty for software
143. lly a command can be manually typed in this area from the available commands for the instrument e Status bar Provides status information To display or hide the Status bar select View Status bar in the View menu 20 27 Manual revision 014 Section 4 Installing and Using Sea Bird Software SBE 11plus V2 Following are the Toolbar buttons applicable to the Deck Unit varies depending on which interface is connected Toolbar Description Equivalent Buttons P Command Re establish communications with instrument Connect press Enter key Computer responds with S gt prompt Capture Capture instrument responses on screen Press Capture again to turn off capture Capture status displays in Status bar useful for diagnostics File has cap extension to file by another program Free computer COM port used to communicate Disconnect with instrument COM port can then be used 4 Inthe Configure menu select the interface corresponding to the connection between the computer and the Deck Unit e SBE 11 Interface connection to SBE 11 Interface RS 232 used for general Deck Unit setup see Section 5 Setting Up System for details e SBE 11 Modem e SBE 11 Remote Out used to set up Converted Data Output CDO see Section 8 Setting Up Remote Output for details e SBE 11 9600 Baud Uplink connection to Serial Data Uplink The Configuration dialog box appears example shown for SBE
144. lways convert the raw data file and then edit the converted file This technique for editing a file cannot be used with a dat file created by older versions of Seasave 6 0 Sea Bird is not aware of a technique for editing a file that will not corrupt it Sea Bird provides software SBE Data Processing for converting the raw hex data file into engineering units editing aligning filtering removing bad data etc the data calculating derived variables and plotting the processed data See the SBE Data Processing manual and or Help files for details However sometimes users want to edit the raw hex data file before beginning processing to remove data at the beginning of the file corresponding to instrument soak time to remove blocks of bad data to edit the header or to add explanatory notes about the cast Editing the raw hex 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 file using the Data Conversion module in SBE Data Processing 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
145. m a single sensor for example a temperature sensor or other source such as the modulo counter LSB Least significant bit Right most bit in byte For example if the byte is 11111110 the LSB is 0 in bold MSB Most significant bit Left most bit in a byte For example if the byte is 10000000 the MSB is 1 in bold Scan One data sample containing temperature conductivity pressure and optional auxiliary inputs at full rate obtained 24 times per second with the SBE 9 Word Used to describe a group of data bits subject to certain arithmetic and display operations by the Deck Unit A word consists of 3 bytes A word may comprise a single frequency channel two A D channels or other parameters For example the Modulo word conveys the modulo count pump bottom contact modem and water sampler interface status bits and a 12 bit number representing pressure sensor compensation temperature e Word Number The sequential position of a data word in the scan The word number depends on the order in which the word is presented to the computer or displayed not on the order in which a particular sensor s data was acquired The first word in the scan is word number 0 MISCELLANEOUS PCB Printed Circuit Board SOFTWARE e NMEATest Sea Bird s Win 95 98 NT 2000 XP NMEA message simulation program which simulates NMEA messages for testing purposes program is installed with SBE Data Processing
146. n AC Input connector on the Deck Unit back panel using the supplied cable must be made between the Deck Unit 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 11p us using at least 20 AWG wire and a ring terminal CAUTION Connecting a Deck Unit set for 120 volts to a 240 volt power supply will cause severe damage to the Deck Unit 18 25 Manual revision 014 Section 4 Installing and Using Sea Bird Software SBE 11plus V2 Section 4 Installing and Using Sea Bird Software This section briefly covers e Installing Sea Bird software e Using SEATERM terminal program software for instrument setup e Using Seasave real time data acquisition software e Using SBE Data Processing post processing software See the software manuals and Help files for detailed information Installing Software Notes e Help files provide detailed information on the software 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 also supplies an older version of Seasave Seasave Win32 However all Seasave instructions in this manual are written for Seasave V7 See Seasave Win32 s manual and or Help files to use the older software Sea Bird recommends the foll
147. n 1 and 2 ruled out but the remote instrument water sampler or serial data instrument is not operating properly either the remote instrument or the computer may be cabled improperly Verify that the Transmit and Receive pins are properly wired pins 2 and 3 on a standard serial cable 69 Manual revision 014 Section 14 Troubleshooting SBE 11plus V2 Cause Solution 4 G O 1015 Rosette Water Sampler only If both modems are operational Cause Solution 1 and 2 ruled out verify that the Rosette Interface PCB is operational Place a voltmeter across the Rosette cable s positive and negative wires and enable the Rosette 60 volts should appear on the cable If it does not the cable or Rosette Interface PCB may be faulty Press the Fire button on the Deck Unit the 60 volt level should rapidly drop to 0 If the voltage on the cable comes up to 60V and drops as expected the Rosette pylon may be switched to the wrong polarity Fix this by opening the Rosette pylon and switching the polarity switch to negative If the Rosette Interface PCB is operational and the pylon is not switched to the wrong polarity the pylon electronics are faulty When the G O 1015 Rosette pylon fires a bottle the supply voltage is forced negative for a moment a voltmeter placed across the Rosette wires shows the negative pulse This negative pulse is sensed by the Rosette interface and a signal is sent to the Deck Unit in the telemetry stream and on the modem c
148. nC Digital PCB Assembly 40937C or Pin 1 greater use pin C All previous versions do not use pin Pin D Signal Pin 2 Pin 5 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 Deck Unit to Remote Output Connect to the Remote Out connector on the Deck Unit back panel which has two real time outputs e Raw Pressure Pressure frequency and pressure temperature transmitted 24 times per second intended to be used to control a towed vehicle e Converted Data Out CDO Any combination of temperature conductivity pressure depth salinity sound velocity and altimeter height in engineering units A limited set of these parameters can be displayed on an SBE 14 Remote Depth Readout or SBE 46 LCD Display Box 5 pin MS style connector MS3106A14S 5P was supplied if a cable was not provided The connector pin designations are Deck Unit Function PinA Ground Pin B CDO RS 232 receive Pin C CDO RS 232 transmit Pin D Raw pressure RS 232 transmit Pin E Power 12 VDC Deck Unit to Serial Data Uplink Connect a computer to the Serial Data Uplink DB 9S connector on the Deck Unit back panel using the supplied cable The connector pin designations are Deck Unit Function Pin3 Transmit to PC Pin 5 Common 17 Manual revision 014
149. nd PROGIIV2 However to modify only a few coefficients it may be easier to send one or more of the following commands in SEATERM instead TCalDate S CCalDate S PCalDate S 0 TJ F CG F CH F CI F CJ F CPC F CTC F CS F 1 PC2 F PC3 F 1 PT1 F PT2 F PT3 F PT4 F PS F PO F PM F PB F AltVolt N AltScale F 45 S primary temperature calibration date S primary conductivity calibration date S pressure calibration date F primary temperature FO F primary temperature G F primary temperature H F primary temperature I F primary temperature J F primary conductivity G F primary conductivity H F primary conductivity I F primary conductivity J F primary conductivity pcor F primary conductivity tcor F primary conductivity slope F pressure Cl F pressure C2 F pressure C3 F pressure D1 F pressure T1 F pressure T2 F pressure T3 F pressure T4 F pressure slope F pressure offset F pressure M F pressure B N A D voltage number for altimeter F altimeter scale factor 51 Manual revision 014 Section 8 Setting Up Remote Output SBE 11plus V2 General Setup Commands Format x x output format For x lt 128 any combination of following can be Note output by adding parameter value to x applicable For the SBE 46 up to four to SBE 46 o
150. nd to 11plus consistent with configuration file selection for Surface PAR Deck unt or SEARAM SBE11plus Fimware Version 5 0 v 11plus lt 5 0 Surface PAR acquisition is set in 11p us with dip switch 17plus Real time data acquisition not Computer interface 85 2320 IEEE or RS 2326 for data available only playback of archived interface between Deck Unit and computer data h None Not using 11p us or 17plus see Scans to For full rate 24 Hz data Seasave manual set to 1 Example If scans to average 24 Seasave averages 24 scans saving to computer at Select if NMEA navigation NMEA device connected to deck unit 1 scan second device used and select whether NMEA device is connected directly to 11plus Deck Unit or to computer NMEA device connected to 5 Be If NMEA navigation device 22 5 connected to computer you can also append NMEA depth data 3 bytes Surface PAR voltage added Scan time added optio al and NMEA time data 4 bytes after Lat Lon data Seasave adds current latitude longitude and universal anne ensor time code to data header appends NMEA data to every scan and 1 Frequency Temperature data to os mu 2 Frequency Conductivity ime Ctrl is pressed or s File is clicked See Section 6 3 Frequency Pressure Digiquartz with TC Setting Up NMEA Interface Surface PAR Select if Surface 4
151. nfiguration xmlcon or con file to the raw data from each sensor Each sensor s Calibration Sheet lists its calibration coefficients as well as the equation used by Seasave to derive engineering units from the raw data An exception is the calculation of pressure temperature compensation for the Paroscientific Digiquartz pressure sensor which is described below Pressure Temperature Compensation Tp M 12 bit pressure temperature compensation word C Where AD590M and AD590B from the calibration sheet Raw pressure temperature compensation has a decimal value between 0 and 4095 Example Byte 30 10101000 Byte 31 00010101 0 01258 and 9 844 from calibration sheet 101010000001 binary 2689 decimal 0 01258 2689 9 844 23 98 C Pressure temperature is computed using a backward looking 30 second running average to prevent bit transitions in pressure temperature from causing small jumps in computed pressure Because the heavily insulated pressure sensor has a thermal time constant on the order of one hour the 30 second average does not significantly alter the computed pressure temperature Calculation of Engineering Units in SBE Data Processing Our data processing program SBE Data Processing starts with the raw hex data converts it to engineering units using the information in the configuration xmlcon or con file and then processes it Thus even if calibration
152. ng SEATERM for a command Commands can be entered in Setup Commands upper or lower case When the computer is connected AddSPAR x x Y Add Surface PAR voltage to the CTD to the SBE 11 Interface data stream SEATERM does not echo Verify x Do not add Surface PAR voltage to the CTD interpreted correctly by sending data stream status DS command to check appropriate parameter s Offset x x offset voltage count 0 99 used to adjust Seasave version 7 21a and later Surface PAR data for drift in the Deck Unit automatically sends AddSPAR Y electronics see below for procedure or AddSPARxN based on the setting in the configuration xmlcon or con file For earlier versions of Seasave AddSPAR must be consistent with the setting in the configuration xmlcon or con file Setting Up Surface PAR and Adjusting for Drift in SEATERM Use the following procedure to enable acquisition of Surface PAR data and adjust the Surface PAR data to account for drift in the Deck Unit electronics 1 Connect the Deck Unit s SBE 11 Interface RS 232 connector to computer Disconnect the Surface PAR sensor from the Deck Unit 2 Double click on SeaTerm exe 3 Inthe Configure menu select the SBE 11 Interface The Configuration Options dialog box appears Set Firmware Version Version 5 0 or greater Comm Port for connection of SBE 11 Interface to computer Baud Rate 19200 Data Bits 8 Parity none
153. o 0 073 seconds ADVANCECO 0 073 ADVANCEC1 0 073 AdvanceVn x n A D channel number 0 7 x time seconds to advance A D channel maximum 10 seconds Advance A D channels for auxiliary sensors as needed see manufacturers specifications for information on time constants SBE 43 Oxygen data is often systematically delayed with respect to pressure The two primary causes are the long time constant of the oxygen sensor ranging from 2 seconds at 25 C to approximately 5 seconds at 0 C and an additional delay from the transit time of water in the pumped plumbing line As with conductivity you can compensate for this delay by shifting oxygen data relative to pressure Typical advance for SBE 43 used with SBE 9plus is 2 to 5 seconds Example Set advance for A D voltage channel 0 to 2 seconds and for A D voltage channel 4 to 0 04 seconds 0 2 0 ADVANCEV4 0 04 Note NMEA Baud Rate Command See Section 6 Setting Up NMEA Interface NMEABaud x x baud rate for communication between Deck Unit and NMEA navigation device 4800 or 9600 28 Notes Seasave version 7 21a and later automatically sends AddSPAR Y or AddSPAR N based on the setting in the configuration xmlcon or con 35 Manual revision 014 Section 5 Setting Up System SBE 11plus V2 Surface PAR Commands AddSPAR x x Y Add Surface PAR voltage to CTD data stream x N Do not file For earlier versions of Seasave
154. of sea cable connector MEA Surface PAR Sea cable Remote Line connector double fused Seacable 3 pieces Sea cable fuse with spares inside surface of back panel AC voltage 2 pieces Main fuse for 120VAC operation Coptional Main fuse for 240VAC operation fan cover 17519 MS LL TCXCOX3C9 C9U0t Description 11plus Back ach Screw Mach Screw ach Screw ach Screw SBE Label SBE Label ut 4 40 Ny ut 6 32 Ny Serial Number Blank Serial Number Inserts 17331 PIN MOLEX Panel Screened Dwg 20561 1 4 40 x 3 8 PH SS 4 40 x 3 8 FH SS 6 32 x 3 8 PH SS 6 38 x 7 16 Truss HD on Stop SS Thim on Stop Thin SS SBE llplus Audio Jack Assembly 468 Adhesive Description Location connectors audio sea cable line connector fan line filter case ground SPAR NMEA Remote connects back panel to case corner brackets amp sides connectors audio sea cable power supply fan line filter Attach to back panel Attach to back panel tape recorder record play SPAR NMEA Remote line SEA BIRD ELECTRONICS INC ART 41725 CHEM Mme SBE 11plus V2 BACK PANEL ASSEMBLY DATE DWG NO 11 10 09 PNL SCALE 0 75 DRWN BY 33440 SCALE 1 10 BY 41725 101 RECORD DR CK 11 10 09 REF 1242 CE REQUIREMENTS 3
155. ommands to and receives replies from the water sampler and or remote serial instrument through the CTD Connect the computer to SBE 11 Interface and Modem Channel on the Deck Unit back panel using the supplied cables Note A NMEA navigation device can be connected directly to the computer instead of to the Deck Unit This Connect the NMEA navigation device to the VMEA Input connector on the feature is supported by Seasave V7 Deck Unit back panel with the supplied 2 pin MS connector version 7 17 and later see Setting Up MS3106A12S 3S The connector pin designations are NMEA Navigation Device to Deck Unit CTD Configuration xmlcon or con File in Seasave in Section 5 Setting Deck Unit Function Up System The output from Seasave Pin A NMEA 4 signal is the same regardless of whether the 5 NMEA data was appended in the Deck Pin B NMEA signal return Unit or in the computer 16 23 Manual revision 014 Section 3 Mounting and Wiring System SBE 11plus V2 Surface PAR Sensor to Deck Unit Connect the Surface PAR sensor to the Surface PAR Input connector on the Deck Unit back panel A 4 pin MS style 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 Deck Units with Pi
156. on Purchase Order P O P O Number Billing Address If different than shipping address Instructions for Returning Goods to Sea Bird Note Sea Bird moved in January 2010 use the new address shown below 1 Domestic Shipments USA Ship prepaid via UPS FedEx DHL etc directly to Sea Bird Electronics Inc 13431 NE 20 Street Bellevue WA 98005 USA Telephone 425 643 9866 Fax 425 643 9954 2 International Shipments Option A Ship via PREPAID AIRFREIGHT to SEA TAC International Airport Code SEA Sea Bird Electronics Inc 13431 NE 20 Street Bellevue WA 98005 USA Telephone 1 425 643 9866 Fax 1 425 643 9954 E mail seabird seabird com Notify MTI Worldwide Logistics for Customs Clearance Seattle WA USA Telephone 1 206 431 4366 Fax 1 206 431 4374 E mail bill keebler mti worldwide com E mail flight details and airway bill number to seabird seabird com and bill keebler mti worldwide com when your shipment is en route Include your RMA number in the e mail Option B Ship via EXPRESS COURIER directly to Sea Bird Electronics see address above If you choose this option we recommend shipping via UPS FedEx or DHL Their service is door to door including customs clearance It is not necessary to notify our customs agent MTI Worldwide if you ship using a courier service E mail the airway bill tracking number to seabird seabird com when your shipment is en route In
157. ons esses enne 11 Deck Unit Front Panel 244 eee e e edente 12 Back Panel aieo dE e etie 14 Section 3 Mounting and Wiring System 15 Cable Winch and Deck Gear not supplied by Sea Bird 15 Mounting Deck Unit Te PE EEUU TERES EDIT 15 Witing 16 Sea Cable from Deck Unit to 16 Comp tet to PE UO 16 NMEA Navigation Device to Deck 16 Surface PAR Sensor to Deck 17 Deck Unit to Remote sss 17 Deck Unit to Serial Data 17 CTD to Auxiliary Sensors and Water 18 Power o ueber dt 18 Section 4 Installing and Using Sea Bird Software 19 Installing Softwate esse eee iiec e AL etes 19 Using SEATERM 3 tette tret rette rere eee tnt Pede eed 20 Using Seasave iecit eee ede eee deret be eee Rode 22 Using SBE Data Processttig eire 24 Section 5 Setting Up System eee enean 26 Setting Operating Parameters in eene 26 Commands Entered with SEATERM seen 27 Setting CTD Configuration xmlcon or con File in Seasave 29 Section 6 Setting Up NMEA
158. or A D channel 0 N 001101110100 884 decimal 8 25 A D channel 6 4 LSBs 4 7 amp 7 4 MSBs 0 3 5 1 884 40951 3 921 volts 26 A D channel 7 8 LSBs 27 Unused Surface PAR 12 bit number N is binary representation of 28 First 4 bits unused analog voltage N s value is 0 for 0 volts 4095 for 5 volts 9 Surface PAR channel 4 MSBs 0 3 V N 819 Example 34 11110011 Byte 35 01110100 29 Surface PAR channel 8 LSBs N 001101110100 884 decimal 884 819 1 079 volts 30 Pressure sensor temperature 8 MSBs Pressure sensor temperature 12 bit number is binary representation of temperature ranging from 0 to 4095 2500 corresponds to approximately 22 C typical room temperature CTD status Bit 0 Pump status 1 pumpon 0 pump off 3 Pressure sensor temperature 4 LSBs 4 7 Bit 1 Bottom contact switch status CTD status 0 3 1 switch open no contact 0 switch closed 10 Bit 2 G O 1015 water sampler interface confirm signal 1 Deck Unit detects confirm signal from G O 1015 0 not detected Bit 3 modem carrier detect 0 2 CTD modem detects Deck Unit modem carrier signal 1 not detected 8 bit number from CTD increments 1 count for each scan Modil cycles from 0 to 255 then restarts at 0 If Deck Unit 32 EOI line asserted averages data modulo increments by number of scans averaged Modulo provides check on data integrity Missed scans caused by sea cable erro
159. ow Stop acquisition 3 Change the Seasave display update rate by right clicking in a display window and selecting Modify The Display dialog box appears Enter a larger value for Seconds between updates and click OK Repeat for all display windows Repeat Step 2 to check for overflow You may need to repeat Steps 2 and 3 several times increasing the display update rates each time to get the system to work 4 Check if Serial Data Out Shared File Out and or SBE 14 Remote Display are enabled in Seasave s Configure Outputs If enabled verify that Seconds between updates is at least 1 second 5 Ifchanging the update rate s does not eliminate the problem reduce the rate amount of data to be saved by the computer by averaging more data scans or suppressing data channels See Cause Solution 2 below Cause Solution 2 An older slow computer may not be able to save the data to disk fast enough Reduce the amount of data it needs to save to disk by doing one of the following e Set Seasave to average more scans average of corresponds to 24 Hz data average of 2 to 12 Hz data etc In Configure Inputs modify the xmlcon or con file on the Instrument Configuration tab to increase Scans to average e Suppress data channels to reduce the amount of data per scan In Configure Inputs modify the xmlcon or con file on the Instrument Configuration tab to suppress data channels 66 73 Manual revision 014 Section 14 Troubleshoo
160. owing minimum system requirements for SEASOFT V2 Windows 2000 or later 500 MHz processor 256 MB RAM and 90 MB free disk space for installation Although SEASOFT V2 was designed to work with a PC running Win 2000 XP extensive testing has not shown any compatibility problems when using the software with a PC running Windows Vista If not already installed install Sea Bird software programs on your computer using the supplied software CD Install as follows 1 With the CD in your CD drive 2 Double click on SeasoftV2_date exe date is the date that version of the software was created Follow the dialog box directions to install the software Install all the components or as a minimum install SEATERM terminal program 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 SEATERM Seasave V7 etc 19 Manual revision 014 Section 4 Installing and Using Sea Bird Software SBE 11plus V2 Using SEATERM 1 Connect the desired Deck Unit connector SBE 11 Interface RS 232 Notes Remote Out Serial Data Uplink or Modem Channel to the computer See SEATERM s Help files for using the supplied cable detailed information The EE 488 interface does not 2 Double click on SeaTerm exe If this is the first time the program is used work with SEATERM You must the setup dialo
161. p NMEA Interface Section 6 Setting Up NMEA Interface Surface PAR Section 7 Setting Up Surface PAR Remote Output Section 8 Setting Up Remote Output Water Sampler Section 9 Setting Up Water Sampler RS 232 Serial Data Uplink Section 10 Setting Up RS 232 Serial Data Uplink 2 Setting Operating Parameters in SEATERM Connect the Deck Unit s SBE 11 Interface RS 232 connector to the computer Double click on SeaTerm exe In the Configure menu select the SBE 11 Interface The Configuration Options dialog box appears Set Firmware Version Version 5 0 or greater Comm Port for connection of SBE 11 Interface to computer Baud Rate 19200 Data Bits 8 Parity none Mode RS 232 Click OK to save the settings and exit the dialog box Turn on power to the Deck Unit or if already on send the status DS command The display in SEATERM looks like this SBE llplus V 5 2 number of scans to average 8 pressure baud rate 9600 NMEA baud rate 4800 surface PAR voltage added to scan A D offset 0 G a a PIB address 1 dvance primary conductivity dvance secondary conductivity autorun on power up is disabled See Commands Entered with SEATERM below for a description of each output line from the status command If the system does not respond as described e Verify the correct instrument interface SBE 11 Interface was selected in the Configure menu and the settings were entered correctly in the
162. pF 33pF 80C51 R77 5V 10K 14002 14002 11111 1K 15292 5468 68225 8 0 0 1 17668 10K gt gt 0 1 37 FORE HEADER10_RA 1 15292 50 2 36 1K C76 10 R82 3 poa an R76 0 19 20K x2 P0 5 22 po 8 15292 33 5 R82 4 P0 7 22 d 6 10k 5 9 RESET 6 E 5 P2 0 4 p2 1 2 3 INTO 22 23 tay 2 INT1 2 3 24 1 21 14 2 4 25 SPST X 8 15 1 552 26 R75 19002 pae 22 12 560 Ls 4 H 21 0 2 7 28 ADEA 522312 31511 OZ 1 U25D If oot e 4 WR HE 74HCO8 i 5 1 pe R 529 11031 if 56 6 51 4 EN P30 R74 1 5 1 lt 1 6 HH 2 En 2802 o o 8 8 17 5 20 Ww XT uzsc 9 14025 CARRIER 45V 74HCO PAD100SMT 11031 R83 1 R73 10K TN 560 15392 CARRIER gt H 35168 R83 2 2 10K 5V 15292 U23 5V 5 U25A R83 3 C72 LT1081 9 74HCO8 10K 11065 11031 15292 14064 U24A R83 4 C71 M ifa 74HC04 10K 8 iuF 71 m 11030 15292 14064 2 C69 300 TX 300 RX M A co 10 78 PAD100SMT PAD100SMT JF 6 4 14025 11031 0 1uF sic 5 lt gt vs 74 74HC08 14025 1 3 1uF 5 U25B U24F 3 i 13 RIIN R10UT 22 14064 4 _300 2 R2IN R20UT 1 13 14 riour Hi HEADER3_RA 1 T20UT T2IN E 300 17530 300 Baud modem SEA BIRD ELECTRONICS INC Title SBE 11 COMBINED MODEM BOARD Size Document Number 33420 Rev Date Tuesday April 21 2009
163. per changes for operation Modem Channel currently standard optional on 11p us V2 with serial number 700 and lower Channel RS 232 between Deck Unit and computer sends commands to and receives replies from water sampler 8 Sea Cable connects to CTD Fuse 300VDC Fast Acting 0 5A Replace with Littelfuse Corp 312 500 only Remote Out has two outputs A Pressure frequency and pressure temperature transmitted 24 times per second intended to be used to control a towed vehicle B Any combination of temperature conductivity pressure depth salinity sound velocity and altimeter height in engineering units A limited set of these parameters can be displayed on an SBE 14 Remote Depth Readout or SBE 46 LCD Display Box NMEA Input connects to a NMEA 0183 navigation device Surface PAR Input connects to a Surface PAR sensor 14 Manual revision 014 21 Section 3 Mounting and Wiring System SBE 11plus V2 Section 3 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
164. ppended in the Deck Unit or in the computer 3 Section 2 Description of SBE 11p us V2 SBE 11plus V2 SBE 11 INTERFACE F SERIAL DATA UPLINK REMOTE OUT O O IEEE 488 MODEM CHANNEL TAPE RECORDER a RECORD PLAY SEA CABLE 1 0 5 CAUTION HIGH VOLTAGE SURFACE PAR Voltage Switch Selector select 120 VAC or 240 VAC 50 60 Hz AC Input B Fuse 5x20mm 250VAC Slow Blow 2 amp for 120 V or 1 amp for 240 V SBE 11 Interface Channel IEEE 488 or RS 232 between Deck Unit and computer sends commands to and receives replies from CTD Note that Sea Bird s terminal program for setting up the system SEATERM works only with RS 232 Tape Recorder connects to an audio tape recorder or VCR Connect tape recorder s Line In to Deck Unit Record Connect tape recorder s Line Out to Deck Unit Play Note that while Deck Unit has two Record and two Play jacks these are internally connected in parallel This permits a redundant connection to a typical recorder s stereo channels Stereo connection is not mandatory error free recording can be expected even when using recorder s second channels for voice annotation or other purposes 6 Serial Data Uplink currently standard optional on V2 with serial number 636 and lower provides RS 232 output from Deck Unit for an RS 232 instrument connected to CTD Requires modem channel and jum
165. r Sampler G O 1015 Rosette or G O 1016 Rosette The modem permits water sampler control through the Deck Unit or via our Seasave software Bottles may be fired sequentially or SBE 32 or G O 1016 only in any order Note that the modem interface must be installed in both the Deck Unit and the CTD This section covers Notes e The 300 baud modem interface now standard in both the Deck Unit and CTD was optional in Deck Units with serial number 700 and lower and in 9plus CTDs with serial number 785 and lower e Setting up the Deck Unit dip switches to select and interface with a For use with the G O 1015 Deck water sampler Unit must have optional control module for G O 1015 as well as e Setting up Seasave to select and interface with a water sampler the 300 baud modem interface e Using the Deck Unit or Seasave to fire bottles Setting Deck Unit Receiver Modem PCB Dip Switches Set SWI positions through 4 as follows Note SW1 Position A switch is ON when pushed Water Sampler Type 1 2 3 1 in at the position number In the photo below positions SBE 32 Carousel ON ON ON ON 1 2 3 4 and 8 are ON G O 1015 Rosette OFF ON ON ON positions 5 6 and 7 are OFF G O 1016 Rosette ON OFF ON ON If using a G O 1016 set the Arm offset to adjust the home position with SW1 positions 5 through 8 as follows
166. r connector types in the past See the appropriate drawing for pinout details if your sensor does not have a Switchcraft connector C To convert to actual voltage divide the number displayed on the Deck Unit LED by 819 Voltage displayed number 819 94 2 SOFTWARE CONFIGURATION Set up the configuration con or xmlcon file for the SBE 9plus CTD Enable the recording of the surface PAR sensor by selecting Surface PAR voltage added This alters the display by adding two additional external voltages The highest numbered voltage is labeled SPAR surface irradiance Enter the surface light conversion factor and the ratio multiplier in the configuration file Note In our SEASOFT V2 suite of programs edit the CTD configuration con or xmlcon file using the Configure Inputs menu in Seasave V7 real time data acquisition software or the Configure menu in SBE Data Processing data processing software SEASOFT calculates surface light as surface light 1Einsteins m7 sec volts conversion factor To compute the conversion factor calculate the output of the surface PAR sensor Einsteins m sec volt using the data from the Surface PAR calibration sheet that was provided by Biospherical located in the CTD manual Conversion factor Output in Air Probe Net Response For example if Probe Net Response 85 6 mV 0 0856 volts and Output in Air 0 01384 uEinsteins cm sec Conversion factor 0 01384 uEinsteins cm sec 10000
167. r other device parameters can be output Parameter Value Altimeter height 1 Depth 2 Temperature 4 Conductivity 8 Pressure 16 Salinity 32 Sound velocity 64 For x gt 128 output is one of following SBE 14 formats Parameter x Altimeter height 128 1 129 Depth 128 2 130 Pressure 128 16 144 Pressure Altimeter height 128 1 16 145 Depth Altimeter height 128 1 2 131 Examples e Depth only not SBE 14 format Format 2 e Depth only SBE 14 format Format 130 All 7 variables Format 127 1 2 4 8 16 32 64 e Depth temperature conductivity and pressure to SBE 46 Format 30 2 4 8 16 Note Baud x x baud for CDO 300 600 1200 2400 4800 Baud must be consistent with 9600 or 19200 For SBE 14 must be 300 For the baud selected in SEATERM s SBE 46 must be 1200 2400 4800 or 9600 Configuration Options dialog box If you change the baud with NAvg x number of scans to average for CDO Baudz SEATERM will no longer be able to communicate with the Deck Unit Select SBE 11 Remote Out in the Configure menu select the new baud and click OK Then click Connect on the Toolbar to reconnect at the new baud Note The depth calculation is based on an assumption that the system is operating in salt water For fresh water applications this introduces a small error in the depth calculation and format where Otherwise Minimum is based on output baud Baud M
168. r voltage exists at R1 and there is still no sea cable voltage at the back panel MS connector one of the leads to may be broken If the unregulated voltage at C2 is absent the bridge rectifier D1 is probably defective Problem 5 Data LED Does Not Turn On WARNING Do not confuse J1 with JP1 which is the sea cable input Cause Solution 1 If the Data LED does not turn on but the Deck Unit successfully passes data to the computer the wiring to the light or the light driver U25 may be broken Cause Solution 2 If the Data LED does not turn on and the Deck Unit does not pass data to the computer 1 Check the main internal supply voltages that are present at the turrets located on the Digital PCB Relative to the GND turret with the black wire voltages should be 12 at orange 5 at red and 12 at blue all 0 5 volts Voltages outside these ranges can be caused by a fault in the Power One open frame supply or an excessive load on one or more of the supply busses Disconnect the red orange or blue lead to determine whether the problem 1 in the power supply or on the power bus 2 Ifthe problem is with the power bus reconnect the power supply leads Disconnect the ribbon cable connector at JP1 on the Digital PCB If the measured voltages are not correct the problem is with the Receiver Modem PCB If there is no change the problem is probably in the Digital PCB logic board Check for shorted bypass connectors ICs
169. ration 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 shown below to change the configuration and or to view modify calibration coefficients Channel Sensor table reflects this choice Voltage 0 in con or xmlcon file corresponds to sensor wired to channel 0 on end cap connector voltage 1 to sensor wired to channel 1 on end cap connector etc Total voltage words 4 each word contains data from two 12 bit A D channels 11plus V2 suppresses words above highest numbered voltage word used Number of words to keep is determined by highest numbered external voltage input that is not a spare Words to suppress 4 Words to Keep Channel Sensor table reflects this choice Typically 0 SBE 3plus or 4C plugged into JB5 COND 2 on 9plus dual redundant sensor configuration 1 SBE 3plus or 4C plugged into JB4 TEMP 2 on and not using JB5 COND 2 connector single redundant sensor configuration e 2 redundant T or C sensors External Voltage not spare 1 20r3 4or 5 60r7 Connector JT2 AUX1 JT3 AUX2 JT5 AUX3 6 AUX4 Configuratio Words to Keep 1 2 3 4 Configuration file opened None 11plus gt 5 0 Seasave sends Frequency channels suppressed Voltage words suppressed d AddSpar comma
170. rmits continuous operation from 120 or 240 VAC 50 60 Hz input power The front panel provides numeric display of frequency and voltage data via a thumbwheel switch and 8 digit LED readout Other features include 300 baud modem interface provides power and real time control for a water sampler SBE 32 Carousel or G O 1015 or 1016 Rosette or remote serial output device The modem permits water sampler control through the Deck Unit or via Seasave software Bottles may be fired sequentially or SBE 32 and G O 1016 only in any order The interface must be installed in the Deck Unit and CTD Additional information gt SBE 32 Carousel 911plus is compatible with full size SBE 32 and compact SBE 32C Carousel sizes gt G O 1015 Deck Unit must also have optional 1015 control module e NMEA Interface that merges position data with the CTD data The NMEA Interface decodes messages that are output from navigation devices supporting NMEA 0183 protocol Decoded Latitude and Longitude are appended to the CTD data stream in the Deck Unit and are passed to the computer for storage and display with the CTD data A D converter for a Surface PAR light sensor The Deck Unit supplies 12 volts to power the sensor and merges the PAR data with the CTD data e Tape recorder interface for recording the digital data stream on an audiocassette recorder or VCR e Remote output The Deck Unit provides two remote outputs gt Pressure frequenc
171. rs cause jumps in the count 7 See Section 6 Setting Up NMEA Interface 61 68 Manual revision 014 Section 12 Data Formats SBE 11plus V2 To reduce data storage space requirements the Deck Unit can suppress unused words based on the system configuration from the data stream For example If secondary temperature and conductivity sensors are not used words 3 and 4 can be stripped from the data stream If not all A D channels are used the unused words can be stripped from the data stream words 5 through 8 as applicable Words are suppressed from last to first For example for a system with only two A D voltage words the channels are VO V1 V2 and V3 If Surface PAR is not used word 9 can be stripped from the data stream This suppression is done automatically if using Seasave The information in the instrument configuration xmlcon or con file is used by Seasave to automatically program the Deck Unit to delete unused words If words are suppressed the listing above is shortened For example for a system with CTD only secondary temperature and conductivity all A D channels and Surface PAR all suppressed and no NMEA data the IEE 488 output is Word Byte Description 0 0 2 Primary temperature 1 3 5 Primary conductivity 2 6 8 Pressure 9 Pressure sensor temperature 8 MSBs 3 10 CTD status 4 LSBs Pressure sensor temperature 4 MSBs 11 Modulo count EOI
172. s display provides the following information gt If Seasave is acquiring real time data or reading archived data gt If Seasave is storing real time data to a file output data file name gt Instrument configuration xmlcon or con file name To display or hide the Status select Status in the Display menu Data display windows Seasave can display as many data windows as desired within the limits of your computer s resources The windows can be set up to display real time data conductivity temperature pressure etc as well as calculated parameters such as salinity and sound velocity There are three windows types Fixed Display has a vertical list of selected parameters to the left and displays their current values to the right gt Scrolled Display has a list of selected parameters across the top and displays the data in scrolling vertical columns Plot Display plots 1 parameter on the y axis and up to 4 on the x axis or 1 parameter on the x axis and up to 4 on the y axis 2 Add displays as desired by selecting Add New Display Window in the Display menu 22 29 Manual revision 014 Section 4 Installing and Using Sea Bird Software SBE 11plus V2 3 In Configure Inputs set up the following e Instrument Configuration instrument configuration xmlcon or con file which defines what sensors are integrated with the CTD and what channels are used by the sensors sensor calibration coefficients and w
173. serial data output instrument Water sampling communications are carried out with 1 start bit 8 data bits no parity bit and 1 stop bit ASCII characters only require 7 data bits to express the standard character set The system uses the 8 data bit to flag communications on the modem channel as water sampler or serial data output communication e byte is received by the 9p us with the 8 bit set it is interpreted by the Oplus as a command to the water sampler and is routed to the water sampler Similarly if a byte is received by the V2 with the 8 bit set it is interpreted as a water sampler control response to a bottle closure command e Ifa byte is received by the 9p us without the 8 bit set it is interpreted by the 9plus as a command to the serial data output instrument and is routed to the serial data output instrument at the appropriate baud rate 9600 or 19200 baud The serial data output instrument response is transmitted to the 9plus and then multiplexed into the 9 telemetry stream and de multiplexed by the 11p us V2 Deck Unit The 9600 baud serial uplink communications channel is time dimension multiplexed into the 9p us data telemetry channel Each 9plus data scan 1 transmitted via the sea cable at twice the normal speed leaving a gap in the data stream long enough to accommodate continuous transmission at 9600 baud Presuming the serial data is coming into the 9p us continuously the 9plus buffers
174. serial data until its data scan is complete and then moves accumulated serial data packet onto the telemetry channel The first byte of the serial data packet defines the number of bytes that follow This allows binary or ASCII data to be transmitted over the serial uplink The 11 V2 splits the data stream processing the 9p us scan normally and sending the serial data at 19200 baud to a port on the back plane for processing by the user s computer 54 61 Manual revision 014 Section 11 Operating System SBE 11plus V2 Section 11 Operating System Note It is possible to use the SBE 17 V2 SEARAM to record 9 data in memory at the same time as 9plus data is transmitted real time through This section covers e Acquiring real time data and firing bottles from Seasave Firing bottles from the Deck Unit front panel e the Deck Unit This provides a data back up in case there are data transmission problems over the sea cable See the 9p us manual for wiring and deployment details See Section 3 Mounting and Wiring System for wiring details Acquiring Real Time Data and Firing Bottles from Seasave 1 Double click on Seasave exe Note See Seasave s Help files for detailed 2 Setup the desired display windows Perform any other desired setup in information Configure Inputs and Configure Outputs See Using Seasave in Section 4 Installing and Using Sea Bird Software for a brief description of t
175. ssure scan 80E881A81 lt CR gt lt LF gt byte 0 80 HEX 128 decimal byte 1 E8 HEX 232 decimal byte 2 81 HEX 129 decimal Pressure frequency 128 256 232 129 256 33000 504 Hz 12 bit temp comp number A81 HEX 2689 decimal If 0 01258 and 9 844 from xmlcon or con file Pressure temperature 0 01258 2689 9 844 23 98 41 Manual revision 014 Section 8 Setting Up Remote Output SBE 11plus V2 Converted Data Output CDO Notes When an SBE 14 is used with the Deck Unit there are two possible configurations SBE 14 connected to Deck Unit s Remote Out port typical SBE 14 setup is done by sending commands to Deck Unit s Remote Out port using SEATERM The SBE 14 Remote Display tab in Seasave s Configure Outputs dialog box does not apply e SBE 14 connected to computer COM port Computer must have additional RS 232 serial port to accommodate SBE 14 and SBE 14 setup is done on the SBE 14 Remote Display tab in Seasave s Configure Outputs dialog box This configuration is not typical and is not covered in this manual See Seasave s Help files Note PROG11V2 is only compatible with con configuration files it cannot be used with xmlcon configuration files If you are using xmlcon files in Seasave and or SBE Data Processing do a Save As in the Configuration dialog box and pick con file in the Save as type selection This will provide a con file to use
176. t e Deck Unit power is on e There are connections between the computer ports and Deck Unit SBE 11 Interface and Modem Channel e The communication settings and COM Ports selected on the Serial Ports tab in Configure Inputs are correct If you selected VMEA position data added in the xmlcon or con file Seasave initializes NMEA communications Seasave sends AddSPAR Y or AddSPAR N based on your select of Surface PAR voltage added in the xmlcon or con file If you selected Check Scan Length in the Options menu Seasave checks the xmlcon or con file to verify that the scan length defined by the file matches the instrument 1 e number of sensors inclusion of NMEA and or Surface PAR is as defined in the xmlcon or con file If a Scan length error appears verify that e Youare using the correct xmlcon or con file e xmlcon or con file has been updated as necessary if you added or deleted sensors added or deleted NMEA or Surface PAR inputs etc Seasave sends a message Waiting for Seasave will time out 1f data 1s not received from the Deck Unit within Timeout in seconds at startup The data starts appearing in the screen displays 6 fire water sampler bottle from Seasave do one of the following Press Ctrl F3 or In the Real Time Control menu select Fire Bottle Control The Bottle Fire dialog box appears you can leave this open throughout the cast The dialog box displays the number of
177. t echo commands as you type them Verify that a command was interpreted correctly by sending status DS command to check appropriate parameter s Note Pressure frequency and pressure temperature output at the full CTD data rate of 24 Hz 24 scans second can be used to control a towed vehicle Pressure Frequency and Pressure Temperature Commands The following command is transmitted by the user to the Deck Unit s SBE 11 Interface using SEATERM PBaud x x baud rate for pressure frequency and pressure temperature output from Deck Unit 1200 2400 4800 9600 or 19200 To send this command follow the procedure in Setting Operating Parameters in SEATERM in Section 5 Setting Up System Pressure Frequency and Pressure Temperature Data Format Pressure frequency and pressure temperature are output in ASCII Hex at the Averaging for data output from the SBE 11 Interface and averaging of CDO data has no effect on pressure frequency and pressure temperature output rate full CTD data rate of 24 Hz Five bytes are sent ASCII encoded with each byte sent as two ASCII characters A carriage return and line feed terminate each scan The first six characters represent 3 bytes of pressure frequency Pressure frequency byte 0 256 byte 1 byte 2 256 The last three characters represent the 12 bit pressure temperature compensation number Pressure temperature M 12 bit temp comp number Example Raw pre
178. t to 1 parallel port on computer 17015 AC power cable Connect Deck Unit to AC 1 U S standard power source AC power cord Connect Deck Unit to AC 17824 1 European plug power source MS3106A 12S 3P 80915 2 pin to RMG 2FS cable to connect Deck Unit 1 2 pin cable to CTD 10 m 33 ft 2n UB Input on Deck Unit to computer 801422 9 pin NMEA pM omp 1 running NMEA simulation Interface test cable 1 8m 6 ft program for test purposes Test cable to connect Remote 801429 Out on Deck Unit to computer 1 for Remote Output setup 1 8 m 6 ft Cable to connect Surface Par MS3106A 14S 2P Input on Deck Unit to Surface 801367 4 pin to Switchcraft PAR sensor with Switchcraft 1 EN3CSF 5 pin cable connector current connector 15 m 50 ft used by Biospherical Instruments DB 9P 9 pin to Cable to connect 171890 DB 9S 9 Serial Data Uplink on Deck 1 3 m 10 ft Unit to computer TER Cable to connect 801237 Remote on Deck Unit to Mastek ito SBE 14 Depth Readout 3 pin 100 m 328 ft 171888 2 to For use with computer with DB _ 25 connector cable adapter 30017 Rack mounting kit For mounting deck unit 1 82 Manual revision 014 Appendix V Manual Revision Histo SBE 11plus V2 Appendix V Manual Revision History Manual Version Date Description 001 11 97 Release of firmware version 2 V2 002
179. ta 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 NMEA Navigation Device Message and Data Formats below 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 to connect the Deck Unit NMEA to the simulation computer The simulation test cable connections are MS3102A12S 3P DB 9S Function PinA Pin 3 NMEA A signal Pin 5 NMEA signal return 35 42 Manual revision 014 Section 6 Setting Up NMEA Interface SBE 11plus V2 Proceed as follows instructions are written assuming you are using a second computer to emulate the NMEA navigation device 1 On computer 1 in SEATERM note the NMEA baud rate in the status command response 4800 or 9600 see Setting Up NMEA in SEATERM above On computer 2 double click on nmeatest exe in same directory as SBE Data Processing The NMEATest screen appears On the NMEATest screen click on the Confi
180. te 7 is 1 Longitude is negative North latitudes are positive south latitudes are negative East longitudes are positive west longitudes are negative Example Appended position data 2455FC5D32B141 byte 1 24 hex 36 decimal byte 2 55 hex 85 decimal byte 3 FC hex 252 decimal byte 4 5D hex 93 decimal byte 5 32 hex 50 decimal byte 6 hex 177 decimal byte 7 41 hex 01000001 binary This is a new position bit 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 38 45 Manual revision 014 Section 7 Setting Up Surface PAR SBE 11plus V2 Section 7 Setting Up Surface PAR An A D converter for a Surface PAR light sensor is included in the Deck Unit The Deck Unit can acquire the 0 to 5 volt output of a Biospherical QSR 240 QCR 240 QSR 2200 or QCR 2200 Surface PAR sensor append it to the CTD data stream in the Deck Unit and pass it to the computer for storage and or display with the CTD data All versions of SEASOFT fully support the acquisition and display of data from a Biospherical Surface PAR sensor Surface PAR Commands Notes gt prompt indicates Deck Unit is The following commands are transmitted by the user to the Deck Unit s connected to computer and ready SBE 11 Interface usi
181. te that PT4 F F pressure T4 TCalDate PS F F pressure slope through PO F F pressure offset AltScale are PM F F pressure M sent PB F F pressure B automatically AltVolt N N CTD A D voltage number for altimeter when AltScale F F altimeter scale factor PROGIIv2 is Format x output format run x baud rate for 300 600 1200 2400 4800 9600 19200 For SBE 14 must be 300 For SBE 46 must be 1200 2400 4800 or 9600 NAvg x x number of scans to average for CDO _ x latitude degrees to use in calculation of Lat x depth from pressure x alarm enable parameter bottom contact 1 Alarms x pressure 2 altimeter 4 combination by adding numbers for each alarm to be included PEnable x x pressure decibars to enable all alarms PSet x x pressure decibars to turn on pressure alarm AltSet x distance above bottom meters to turn on altimeter alarm x maximum change in distance above bottom meters for 12 hysteresis Go Run Output CDO data to terminal program For diagnostic use in SEATERM 74 81 Manual revision 014 Appendix Il Commands Sent Automatically by Seasave SBE 11plus V2 Appendix Il Commands Sent Automatically by Seasave Note In Seasave number of scans to average is entered in the configuration xmlcon or con file Scans to a
182. ter height is less than 50 00 meters AltSet altimeter hysteresis 5 00 meters AltHyst altimeter volt no 2 AltVolt altimeter scale factor 5 00 AltScale latitude to use for depth calculation 30 0 Lat output format press depth alt temp cond sal sv Format 44 Manual revision 014 Section 8 Setting Up Remote Output SBE 11plus V2 Coefficients Commands DC Display calibration coefficients Example Calibration Coefficients DC command S gt DC SBE llplus Remote Output V 1 0 TEMPERATURE 24 jun 98s Note floating point number S string with no spaces integer TFO TG TH TI TJ CG CH CJ CPCO CTCO PC PC2 PC3 PD PT PT2 PT3 PT4 PM PB TOFFSET 4 500000e 01 CONDUCTIVITY 25 jun 98s R R CSLOPE 1 000000e 00 PRESSURE PSLOPE 1 000000e 00 POFFSET 3 288600e 04 altimeter voltage number altimeter scale factor 5 1 000000e 03 4 345714e 03 6 402139e 04 2 284978e 05 2 196164e 06 1 045817e 01 1 473827e 00 4 072657e 03 3 846583e 04 9 570000e 08 3 250000e 06 5 May 98 5 006884 04 1 104210 00 1 561210 02 4 029500 02 2 992485 01 6 269641 04 4 621850 06 1 599760 09 1 276324 02 9 680951 00 2 0 Coefficients are entered in configuration con file and then uploaded to the Deck Unit with PROGI1V2 described above in Calibration Coefficients a
183. the cable pinouts are correct especially at the NMEA navigation device See Wiring System in Section 3 Mounting and Wiring System and also refer to the NMEA navigation device documentation If the 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 36 Manual revision 014 Section 6 Setting Up NMEA Interface SBE 11plus V2 NMEA Navigation Device Message and Data Formats Notes e represents two device specific characters e See the table below for definitions of message parameters e CR is carriage return e lt LF gt is line feed Message Formats Global Positioning System Fix Data Time position and fix related data for a GPS receiver GGA hhmmss ss lll ILa yyyyy yy b x xx x x x x M x x M x x xxxx hh lt CR gt lt LF gt GLL Geographic Position Latitude Longitude Latitude and Longitude of present position time of position fix and status GLL II ILa 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 lll ILa yyyyy yy b x x X X X X X X x x a hh lt CR gt lt LF gt RMC Recommended Min
184. the next bottle to be fired If you selected User Input in the water sampler setup Section 9 Setting Up Water Sampler select the bottle you want to fire next Click Fire Bottle when desired When Seasave receives a bottle fired confirmation from a water sampler SBE 32 Carousel Water Sampler or G O 1016 Rosette Seasave 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 G O 1015 Rosette The SBE 9plus sets a bit in the modulo word high for 1 5 seconds and Seasave increments the number of bottles fired Later when the raw data file is converted in SBE Data Processing s Data Conversion module scans identified in bl file or marked with a bottle confirmation bit are written to a water bottle file with a ros extension 7 stop data acquisition In the Real Time Data menu select Stop Turn off power to the Deck Unit 56 Manual revision 014 Section 11 Operating System SBE 11plus V2 Firing Bottles from Deck Unit Front Panel Notes Sea Bird strongly recommends that you do not mix firing bottles from both Seasave and the Deck Unit in the same cast That is use only one method to fire bottles to ensure that each bottle is fired only once and in the desired order See the SBE Data Processing m
185. ting SBE 11plus V2 Problem 4 CTD Does Not Respond WARNING Use extreme caution when performing these tests Cause Solution 1 There may be no voltage on the sea cable Turn off the Deck Unit remove the power cable and wait 1 minute Connect a voltmeter range set to at least 300 volts DC to the back panel Sea Cable connector Reconnect the power cable and turn on the Deck Unit The voltmeter should read 250V If no sea cable voltage is observed the sea cable supply is inoperative Turn off the Deck Unit 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 CTD may be malfunctioning Check the resistance across the sea cable and correct if shorted If the AC input is present the sea cable supply fuse is OK if the DC output is missing the power supply is faulty The sea cable supply is built on two parallel aluminum rails placed immediately behind the Deck Unit s main logic board Check that the 115 230 VAC input is present at the transformer primaries T1 the large open frame unit at the left rear of the chassis There should be about 330 VDC across the large blue electrolytic capacitor C2 If this voltage is present check the voltage across the 4 ohm 11 watt bleeder resistor this should be 250 volts is mounted to the aluminum rail that runs from side to side on the bottom of the chassis If the prope
186. tion Static awareness Static discharge can damage part s Protective earthing terminal 72 Manual revision 014 Appendix Command Summar 79 SBE 11plus V2 Appendix Command Summary Note Except where noted commands are sent to the Deck Unit through the SBE 11 Interface connector using SEATERM CATEGORY COMMAND DESCRIPTION DS Display status and setup parameters GPIB x x JEEE 488 address Factory default 1 Must General Setup be set to 1 to work with Seasave AdvanceCn x n conductivity channel number 0 or 1 x time seconds to advance channel AdvanceVn x n A D channel number 0 7 x time seconds to advance channel maximum 10 x baud rate for communication between Deck NMEABaud x and NMEA navigation device 4800 or 9600 Output Lat Lon Time ASCII data over NSR RS 232 SBE 11 Interface to terminal program For diagnostic use in SEATERM NMEA Output Lat Lon Time ASCII data over NSI 488 SBE 11 Interface to terminal program For diagnostic use in SEATERM Nx Add 7 bytes of Lat Lon data to CTD data by Seasave based _ x N Do not on xmlcon or con file setting Add Surface PAR voltage data to AddSPAR x CTD data Surface PAR x N Do not Offset x offset voltage used to adjust Surface PAR data for drift in Deck Unit electronics T amp x b
187. verage The Deck Unit sends the appropriate Axx command based on the setting in the configuration file The following commands are sent automatically by Seasave to configure the Deck Unit at the start of real time data acquisition If you will be developing your own software instead of using Seasave you must send these commands with your software in the order listed below All commands and data sent to the Deck Unit must be sent as ASCII characters Upon receipt of the commands the Deck Unit executes the function All commands remain in effect until the Reset button on the Deck Unit is pushed or new commands are sent With the exception of Axx number of scans to average these settings are not stored in the Deck Unit s EEPROM The general format is CRL Where C command return not required e L ASCII character for Line Feed 10 decimal or 0A hexadecimal Reset Data Buffers Command R Reset and flush buffers does not put data into buffers leaves all other parameters the same Any command except Start Collecting Data and Stop Placing Data into Buffers causes an automatic execution of Reset Data Buffers so that first output data after command will reflect new format Unsuppress All Data Words Command U Restore all words to data stream Send once before sending any Xn commands Number of Scans to Average Command Axx xx scans averaged by Deck Unit 1 50 7
188. witch on the Deck Unit front panel The display is updated several times per second When the thumbwheel switch is set to a suppressed channel the LED display is blank ote n Description Discussion Position 0 Primary Temperature 1 Primary Conductivity 2 Secon eee Data displays as a frequency in Hz 4 Secondary Conductivity 5 A D channels 0 1 Each switch position shows information from 2 channels From left to right first 6 A D channels 2 3 4 digits displays lower channel e g and second 4 digits displays next 7 A D channels 4 5 channel e g V1 Each voltage displays as decimal value N of 12 bit number which is binary representation of analog voltage Display shows 4095 for 0 volts A D channels 6 7 and 0 for 5 volts 5 1 N 4095 Voltage displays as decimal value N of 12 bit number which is binary 9 Surface PAR representation of analog voltage Display shows 0 for 0 volts and 4095 for 5 volts V N 819 Four digits left of decimal point pressure sensor temperature counts range of 0 4095 2500 corresponds to approximately 22 typical Pressure sensor Enon Temperature eg OS 10 A temperature and Four digits right of decimal point incrementing modulo count Modulo count module count is 8 bit number generated by CTD that increments count for each scan If Deck Unit averages data modulo count increments by number of scans averaged Provides a
189. with the setting in the configuration xmlcon or con file The Deck Unit integrates the position data from the Surface PAR sensor into the CTD data stream Seasave Sea Bird s real time data acquisition and display program stores and optionally displays the Surface PAR data along with the CTD data Seasave requires a xmlcon or con file which defines the CTD The file must indicate if Surface PAR data is being added to the CTD data by the Deck unit See Setting Up CTD Configuration xmlcon or con File in Seasave in Section 5 Setting Up System for details on viewing and modifying the configuration file in Seasave Surface PAR Data Format Surface PAR data is stored as a 12 bit binary number with a decimal value of 0 to 4095 corresponding to 0 to 5 volts respectively See Section 12 Data Formats for the location of the Surface PAR data in the CTD data stream 40 Manual revision 014 47 Section 8 Setting Up Remote Output SBE 11plus V2 Section 8 Setting Up Remote Output The Deck Unit provides two remote outputs from the Remote Out connector on the Deck Unit back panel e Pressure frequency and pressure temperature e Converted Data Output CDO Pressure Frequency and Pressure Temperature Notes S gt prompt indicates Deck Unit is connected to computer and ready for a command Commands can be entered in upper or lower case When the computer is connected to the SBE 11 Interface SEATERM does no
190. wledge 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 014 Table of Contents SBE 11plus V2 Table of Contents SBE V2 Deck 1 Limited Liability 2 Table of Contents sscssscsscssscsssscssscssscsssscssscsscsssnssnsssnssssseeenees 3 Section 1 Introduction 2 1 6 About this Manual reco Den e 6 Unpacking SBE aee ee eei etn 7 Section 2 Description of SBE V2 eere eee rennen 8 System E E rennen rne 8 Deck Unit Specifications 10 System Communicati
191. xt position sequential firing SNx Fire position x first position is Examples SN2 fire position 2 fire position 12 6 6 At home position 6 6 Received invalid bottle number 6 6 Did not confirm fire 6 49 6 Fired bottle 2 6 72 6 Fired bottle 24 G O 1015 Rosette Commands and Replies Commands to CTD ENBL Supply power to Rosette FIRE Remove power from Rosette fire bottle Replies ENABLED Ready to fire bottle CONFIRM Bottle fire confirm pulse detected G O 1016 Rosette Commands and Replies Commands to CTD Go to home position GOx Set arm offset to x go to home position GF Fire position move to next position Go to position x Examples GN2 go to position 2 GN go to position 10 Replies 7 Oxf2 7 Positioning error returning to home 7 Oxf4 7 Positioning error could not find home 7 Oxc9 7 Ready to fire position 1 home 7 Oxca 7 Ready to fire position 2 home Miscellaneous Commands The following commands apply to a CTD with an optional control line on the Modem PCB They can be used to control a device such as the pump wired to the control line Commands to CTD P0 Control function off line logic set low P1 Control function on line logic set high 78 85 Manual revision 014 Appendix Functional Description and Circuitry SBE 11plus V2 Deck Unit Power The Deck Unit operates on 105
192. y and pressure temperature transmitted 24 times per second can be used to control a towed vehicle gt combination of temperature conductivity pressure depth salinity sound velocity and altimeter height in engineering units A limited set of these parameters can be displayed on an SBE 14 Remote Depth Readout or SBE 46 LCD Display Box e Audible alarm which sounds based on data from the CTD pressure sensor data from a bottom contact switch connected to the CTD and or data from an altimeter connected to the CTD RS 232 Serial Data Uplink interface provides RS 232 output from the Deck Unit for data from a remote serial output device connected to the CTD The interface must also be installed in the CTD and is included in the CTD only if ordered with the option 8 15 Manual revision 014 Section 2 Description of SBE V2 SBE 11plus V2 Notes The Deck Unit is supplied with a powerful Windows 2000 XP software Help files provide detailed package SEASOFT V2 which includes information on the software e NMEATest a NMEA navigation SEATERM terminal program for easy setup device simulation program is part Seasave V7 program for acquiring converting and displaying real time of the SBE Data Processing or archived raw data installation Separate software manuals on CD ROM contain detailed information on e SBE Data Processing program for calculation and plotting of conductivity temperature
193. y costs incurred as a result of owner repairs or equipment downtime 5 We reserve the right to refuse warranty coverage on a claim by claim basis based on our judgment and discretion We will not honor a warranty claim if in our opinion the instrument assembly or part has been damaged by accident mishandled altered or repaired by the customer where such treatment has affected its performance or reliability 6 For example if the CTD pressure housing is opened a PC board is replaced the housing is resealed and then it floods on deployment we do not automatically assume that the owner is to blame We will consider a claim for warranty repair of a flooded unit subject to our inspection and analysis If there is no evidence of a fault in materials e g improper or damaged o ring or seal surfaces or workmanship e g pinched o ring due to improper seating of end cap we would cover the flood damage under warranty 7 Ina different example a defective PC board is replaced with a spare and the defective PC board is sent to Sea Bird We will repair or replace the defective PC board under warranty The repaired part as well as the instrument it came from will continue to be covered under the original warranty 8 As another example suppose an owner attempts a repair of a PC board but solders a component in backwards causing the board to fail and damage other PC boards in the system In this case the evidence of the backwards component wi
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