Home

FA-50 Servicemanual

1. 346 501 S 888 SH4_AD 21 1 346 801 888 25588888 aay aay 2 8 252555 1 8 5 SSR pala E 1335 SB 5 g 22 EB x a 26 m x 3 3 aw 2 ac als 5 3 E asv 88 2 8 _ 5 381 386 301 4TOnsec 4 u25 Ls a Nae E TCTWIAFU RNSVDZBAA a dala S a3 aye OOo oot Quosreac occ TOK v 92 0010 Co co o0 e 1 REEL ERE RR a MR 1 1 1 1 11 SOG eer ONS DROLET OS SEBEL SE She Sar 2202200505556 656 112 8585 8 8 uc 180 RIS 22 008 591 FPGA_INIT_DONE INIT pone 2 2 5 gt 2 DDS
2. 8 24 2 CPU1 RAM sennnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn 8 24 3 CPU2 RAM 8 25 4 ROM 8 25 5 RX1 8 25 6 RX2 Mesumassssesesussusussssenesusarsssesenessesussssenenssassssesenesesussesesenssessesesenesesussesenenes 8 25 T TX Mesusussssesenssususussesesssusussesesesusussssesesssusussesenesssussssesenesssussesesesesssusseseseses 8 25 8 4 2 GPS Test Mussesususussssesenssesenenussusussesenenssassssesenesesussesesenesesussesesenssassesesesesusus 8 25 1 Version Massesssusussesenesususassessussssesesussusussesesesusussesesenssussssesenesssussesesesesussssese 8 26 2 ROM MeRusasassesanessusussssesenussausussesesenessusussesesenusussesesenesusussesenesssessesesenenesessesese 8 26 3 RAM Massesesusussssesesussusussesesesmusussssesenssususssesusussesesesusussesenesesssussesesesssussesese 8 26 4 Antenna
3. 8 26 85 DIP Switches and LEDs 8 27 8 5 1 Switches Massasssusussesesenususussesesesususenensmassssesenesusussesenenesussssesenesesussesese 8 27 8 5 2 LED 8 28 1 Panel LEDs 8 28 2 NETWORK port LEDs 8 28 Chapter 9 Q amp A Q1 Can messages be exchanged between Class A and system 9 1 Q2 What are differences between Class A units and Class B CS device lt 9 1 Q3 How are the report messages handled 9 1 Q4 Service area
4. 8 6 7 External GNNS 8 7 8 1 3 Demo Massesususussesesesssusussesenesssussesesenssasussesesenssassssesesesssassesesesesessssesesesesessesese 8 8 8 1 4 Cast Type 8 10 1 lt 8 1 0 2 Unicast PEPE Peer eee rere eee eee eee 8 10 8 1 5 Device Test 05 S 8 11 1 TX Test 8 11 2 Test Loop Back Fassesssusussesesenussasussesenenssasussesesenssassesesesesssussesesesesesuss 8 11 3 Receive Test Mesususssseses
5. 9 1 Is it possible to receive a DSC distress alert 9 1 Is DSC reception continuously performed 9 1 Q7 Is there any method to set the unit to receive only 9 1 Q8 Is the tanker mode available 9 2 Q9 In the Demo mode is the own ship position data required 8 9 2 Content Q10 Is it required to connect with the external sensors of for example the external GPS 9 2 Is it required to connect with the HDG data input 9 2 Q12 Is it allowed to use the combined antenna Of FA 150 e 9 2 Q13 How much is the power source voltage Hmmm e 9 2 Q14 What is a password mener 9 2 Q1 5 How to connect to the Radar 0 2 016 How to setup
6. 4 Fg ud 150 COM wax SE 54 8 214 1D_B 1 AIS INTERFACE UNIT GND 150 2 1500415 RD_A RD_B MJ A7SPF0007 3 0500 5m 66 M AISPF DISPLAY UNIT YEL e n WHT ge lt TD1 A RDP 1 48 1 50 GRN e 74 BLU lt 2 lt TDI B MODEL 17x4C ser 150 WHT e 1 3 801 9 FR 8002 ser JP BLK e iF J GRN L4 lt RDI C JP NC lt 121 NC I A 6 lt GND L7 lt SHIELD MJ A6SPF0003 050C 5m 6 CB 100 TD4 A 100 26 i DITTO GND 150 RD4 A 28 RD4 B 59 FUSE 12 24 1S0 30 12 24ypc 15 0013 035 34 E y ING ee yo BLK 2 lt i GND L 3 FG 80 1 BO 27 Mar 09 YAMSAK 1500415 e 5 AIST 4 x1 SHIPYARD SUPPLY 3 Aor 09 R Esunh i PLUG FITTED AT FACTORY WENT s 4435 01 INTERCONNECTION DIAGRAM FURUNO ELECTRIC CO LTD F URUNO M 2487579 y
7. 9 5 Q31 What settings are required to be set by a user 9 5 Q32 What items are required to be checked 9 5 033 AIS data is displayed 9 5 Q34 About requirements for transmission 9 5 Q35 How to confirm that external GPS data has been inputted 9 5 Q36 Does the reporting rate change immediately following change of the ship speed HH HH eee 9 5 Q37 What conditions should be met when using the external GPS e 9 6 vi Content Appendix 1 Specifications Me AP1 1 Appendix 2 Channel Lists eel AP2 1 1 International Mode Channel Wo Ww RR Rm RR RR RR RR RR RR RR RR RR RR RR RR RR RR RR RA AP2 1 2 USA Mode Channel AP2 3 Appendix 3 Class AIS CS System AP3 1 Overview of Class B CS eee eee eee ee eee eee reer eee eee reer eee eee eee eee eee eee eee eee ee AP3 1 AP3 1 1 Differences between Class and Class Bem 1 1
8. 8 1 7 4 TX Power 2W 1 W OW Mussesesusursssesasssusussesesesssasussesesenesusussesenenesessesesesenes 8 1 8 5 Channel Selection Auto Manual Mesususussesesesususussesesesussusussesesesssusueseseseser 8 18 6 DSC Time Sharing Massesssusussssesenessususuesesenessusussesesenemssesenenssussssesenenssessesose 8 1 8 8 1 9 Internal GPS ete eee eee 8 1 9 8 1 10 Edit Message 8 19 8 1 11 Other 8 20 1 Silent Mode eee PETE eee 8 20 2 Channel Selection 8 20 8 2 Alarm Status PETE PEPE eee Tee eee eee 8 21 1 TX Tx malfunction
9. 5 11 149 TVA TX deme i LOHS5DN470M03L gt 4 Ls 12742 1 TY se LOHSSDNA7OHESL gl E 2 82000 EH ser EL eL TP34 TP33 3 6 1 BC3 6 T 1 518 BEN 1 sve 1 5V SIG 1 5V 1 u s SLFGO28T 100183 PF 5 1 0 3 MA2J128 TX 5 gz i 4 5 2 18 5 RIS 10k SLFGG2BT ARTHIRG PF 8 raga goost 7 8 57 gt i CIS 1000 P CR23 CRS0g 851 0 HK_3_6 T 5 E pu 5 5 P LTIS40EFE m NS Lm m 551 Y 3 3V Ls _852 T T ale 2 ZRS 19 SLFGG2BT_4RTHIRG PF R268 ipkCS6 220p LOHSSDN470H83L loue vezfe 8 3E 518 2 15 410 aes ale B008T2 273 225 10k Sd mew 2 CRSOB TEBSL_O i es 818 18 v VLF3DIOAT 1609249 8 gt D amp 0 49 5 5 CRS in PA2JI28 TK 2 8 j 2 3 3v amp rat UE ig 151 VLF3O10AT 108HR49 SLFEG28T 330MR6S PF i ea aa 10uH 0 49A 5 i 2 55 EIN 237 E 8 5 5V 5 e 49 0 19 m 1 11333 56 T _3 6 9 T a 1 90 sw 80057
10. 5 11 Content Chapter 6 Updating Program 6 1 Updating Program 6 1 6 1 1 Preparation of Update 6 1 1 Connections 6 1 2 files ee re eT eee Pere ee Tere reer ee ere eer eee eee Cee 6 1 6 1 2 Procedure 6 2 1 When the program update is failed Terre Tee TT Te ee Te 6 5 Reference 2 Procedure to update when HUB is not 6 6 6 1 3 After updating TTT 6 7 1 Execute Memory Clear 6 7 2 Program Version OE ee RARO RR eC ETC ETE TT 6 8 Chapter 7 Measurement 7 1 Overview CRORE erry 7 1 7 1 4 Connecting Measurement Devices 7 1 7 2 Measurement of Tx Output Power and Frequency Ved toca ke 7 2 7 2 1 Transmission Control from Web browser Screen HMM 7 2 7 2 2 Transmission Control by 52 on MAIN amp TX Board
11. possoooe nuou VANN UF 44O NO 3119 Aq jou uonounj eui x uonduosoq 0 198 D DOS 7 1 SddH DOD 817815 TOAOMOY TXA TXA XL AION sasodind 51 133 00 ST UMOYS VWP ou Apuoumo SWTY XL od AL OOOOO 68L9SPETI ISININ HO 1X9 5 195 1591 DSW mera 00 51 800c LOO T10 1 ON sasodind peoa peod JON Sed 807 Xu 10 SI 1 uo 5 aur Or xeu OO yo 68 957 lt 1 ISININ peal SI OSIN usua peoy 4 HO 03 SYMS pey ION p DSI sojeorpurjxop pon E 7 5 40 peurojur 00 51 vqz PWL pur 800c LOO T10 aq pue ZI 8 OSW I oN 930 qns 406 9 qns C nuo qans 90 25 ABSMOIG 6 7 INV SdD ZUMOJ NOWILL NN AO uuojuy qualms 81132949 3noouir i 359 D 608 ND d LL ON NO L 540 2109 40 jo pue JO
12. 8 519559 230 asn L dude o1njng L 519559 1220 asn 910 suouiuSisse 0 ZUMES 9 9 oon ISN 5 55 MOT SUCH PIES 10 ur 9 d _ SO 8 suoneJodo SO juvinj od prezeg e 6 I JO uonnjpod nue 6 1 4 10 prezeg OWI 10 SH SUAD p 77 7 MM SISSSSA p ur pe3e3ug OWI 20 SH Dd 3ur amp ue p 7 Z juejn od 10 prezey 10 prezey OWI AN 10 SH sa ai ER PWA eee OWI 20 SH Od Sni Jo prezey 4 prezey OWI 10 SH SUAD Lc OWI dW 10 SH Jo pue 1 X XR MD CE OU E X juvejn od 10 prezeu 10 prezey OWT 20 SH uie MOL T OWI 10 SH DA Sur
13. 8 22 2 CH1 Rx channel 1 malfunction 8 22 3 CH2 Rx channel 2 malfunction 8 22 4 EPFS External EPFS lost PEEP 8 22 5 L L No sensor position in use Messesssusussssesesususussesenesssussesesenesususseseseses 8 22 6 SOG No valid SOG information PPP ee 8 22 7 COG No valid COG information etree eee 8 22 Content 8 HDG Heading lost invalid 8 22 8 3 Sensor Status 8 23 8 4 Tests 8 24 841 Transponder Test 8 24 1 Version
14. OR 00 W4 B L5 ri S 7 CE5 18 5 4 4 1579 2 W 2 7 L 3 5 21608 W 2 8mm A Er iin GSC 00 1s 24 70 COMMON P4 115 i i 33P 27P 12 12 i PEE eir SERT m VHF GPS eS FN ctm CS 2001 11 29 F peau D gt T YAMASAKI LLL 100 ers d MASS MODEL BLOCK No EL DISTRIBUTOR C4417 K15 24 003 5025 0 SCHEMATIC DIAGRAM FURUNO ELECTRIC LTD 1 PLEY24HSZ_D 100V INPUT Me Se SELECT ne Le NC 7 200V AC INCL IN ND ee mo 5 PARTS ON PANEL 5 RED 0C GREEN AC 51 O s WT TBS Tet 12 2323 20 1 OP_19 572 8 RD20EB3 AZ pe AC FAIL 1990 3 a S o 8 gt 1 co o AV8344 1 2323 201 L1 50 15 6930 FNL 42028
15. 22 105 26 11 303 581 pp ESET_N DDS CS IOSYNCT 503 3 580 RESET pps 105 TRE REET 5032 ROY N ee CLEUSR DDS_RESET 503 SH4_RDY_N FPGA_DiS 5 381 AZN SH4_TRLO_N FPGA DD 5 31 SH4 IRLo N FPGA 14114 PLL 1 R15 22 I 773 SA2 DATA PLLI RITV 22 BATT FPGA_D1 LADATA We RX DATA PU Sn epi 1 PXT ST PLL GA_D13 16g 5 RX1 URLOCKT 12 FPGA_D2 542 ST 13 RX1 UNLOCK FPGA DI 188 ia RX2 ST FPGA_D3 155226 oS DETT RX2 UNLOCK FPGA_D11 UE 502 ES DETA 38 5 0 1 FPGA D4 S 8 2 802 FPGA COMI 17125 0 2 010 E n 503 FPGA COME 0 1 FPGA_DS 15 2 FPGA Da 18 5 S03 FPGA_DE tapi PGA1 DIP suo ay sl 803 FAGA COMB La FERA RN FPGA_D8 Hes apis _EPGAI_DIP SWI TM 593 RIB Ap Sk 22 01 22 015 00015640119 FPGA D7 PUE 23 ___ _ _ DIP 52 aco COME 23 FPGA_BE1_N hey pp 281 404 ane EPOALLDIP SUS 1902 E VCCIO3_157 R34 24 PGA_BEO_N SH4 EPGASDATA 1120240 9 1 es as Al 4 z Wi Vus 363 343 a nCONFIG FPG
16. AO ST CXA HO SI 20816 our OLHO OSC PPM jenueyy uonoo eg p nous enue q MO MI XL AC p 1u07 axa 11559 195 2214425 STV apoW XAL 1807 9 g VXN VXL 1 8807 TXA L807 ST ON 159 PPTP si dmas jo 95 5 T ssappy 18210 Stowe YIOMION 5801395 sea 3594 1dooxo 9 0N 90 qns 90 905 90 nuoJA doy 99 125 ABSMOIG 91 7 AO 5 91 2 OSW A L asessoy OI 6 I DSW ES 8 e3essow 0 0 0 0 0 0 0 0 0 00 nnn 57 99855 UPA Sunnooxo 3095 09 uvo OSIN 941 AVGAVIN 9 PION AIS ACIS QHOS3IVLS
17. a b XX X X X X X X X X X X hh lt CR gt lt LF gt f g h ij a UTC of position b Latitude N S c Longitude E W d Mode indicator 1st char GPS 2nd GLONASS 3rd other satellite system NzNo fix F Float A Autonomous E Dead reckoning mode D Differential M Manual input mode P Precise S Simulator mode R Real time Kinematic e Total number of satellites in use 00 99 g Antenna altitude m re mean sea level geoid h Geoidal separation m i Age of differential data j Differential reference station ID AP4 14 Appendix 4 IEC61162 Sentences HDT Heading true This sentence provides true heading data HDT x x T hh lt CR gt lt LF gt a a Heading degree true OSD Own ship data This sentence provides the data including heading course speed as well as speed and direction of a tidal current OSD x x A X X a X X a X X a hh lt CR gt lt LF gt ab cde fg h i a Heading degrees true b Heading status A2data valid V data invalid c Vessel course degrees true d Course reference B M W R P B bottom tracking log Mzmanually entered Wzwater referenced R radar tracking of fixed target P positioning system ground reference e Vessel speed f Speed reference B M W R P g Vessel set degrees true h Vessel drift speed 1 Speed unit km h Knots miles h AP4 15 Appendix 4 IEC61162 Sentences RMC Recommended minimum specific GNSS
18. poioopos 2214428 P G3 VOS NVIA 507 ST OSW 104 I 726060 80000120 OLN sasodind 10 SI NO NO Vd INIVSM Yo uo UMOYS our SALYLS AAON Sd Puu 80120900 SI eu1oju A cl6c Ic SEI NOT N 0S9v rV 30N 90 qns qns 7 qns 905 dog ABSMOIG 91 7 00850985 pJOASSEq 807 nus 920 30 111289 VSA uonoo og ouueq IO 2914428 1801 pue UOISSIUISUEJ Sojeuruio UQ 801395 HO QOIAIOS 104 9 0N 40 90 qns 9 905 408 doy 99 125 ABSMOIG Liv lt 8 40 081 ON 6 ON SUOTINTOSOY poAJeso 6 Wy dius 6 810201024 euontppy 5 o1njng 78 PEE Seer ee 5 78 6 61
19. 1 R24 PWR ADJ Q2 AWA MA 1W 2W Figure 5 2 5 TX Circuit 5 2 Block Diagrams R25 Q5 BIAS ADJ R404 Q4 BIAS ADJ R24 Power ADJ Figure 5 2 6 Locations where transmission adjustment is made 3 SW REG Circuit The voltage of 12 VDC from the PWR board is converted on the MAIN amp TX board to provide various power voltages required in individual circuits 12VA TX 12 1 5V SIG p REG 33V 3 3V SIG 3 3V TX LT1940EFE M MMe 5VA V SW REG U10 LT1933ESS a 1 8VA REG U39 5 18 Figure 5 2 7 Power Circuit 5 10 5 2 Block Diagrams 5 2 4 PWR Board 05P0809 The power input of 12 to 24 VDC is converted by a switching regulator supply to provide 12 VDC output Table 2 5 6 PWR Board specifications Item Specifications Input Voltage 12 to 24 VDC 9 6 to 31 2 VDC Rated Output Voltage 12 0 VDC 5 Ripple voltage 100 mVp p Current Consumption 2 0 10 1 0A Output Current the Tx state 1 5 A 0 8 A at the Rx state Switching Frequency 200 kHz 170 kHz to 230 kHz not adjusted Efficiency 75 at least Output Short circuit Protection At output short circuit protected by a blown fuse or polyswitch SIDUET Ie vRISR Connection At input reverse connection protected by a blown fuse protection Input Low voltage Protection supply turns off at an input vo
20. FELAD 2 8 2 FA 50 Service Demo Demo Off default Of Cancel Menu F Ur UNO ke HE MME Kets 7 Table 8 1 3 Own Ship s Data in DEMO Mode Own Dynamic Data 1 Tokyo Bay 2 Osaka Bay DATE Current date time Current date time LAT 35 12 410 N 34 31 000 N LON 139 43 458 E 135 04 000 SOG 0 0kt 8 0kt COG 270 0 90 ROT 0 0 min 0 0 min HDG 270 0 90 PA H H GPS EXT DGPS EXT DGPS RAIM UNUSE UNUSE 8 1 For Service Table 8 1 4 Other Ship s Data in DEMO Mode Target MMSI initial Initial Pos SOG Pos SOG nao SEE SERS 28 8 10 12 8 a ce sensi NES RET soins 999999004 13620717906 DEMS 999999005 139 46 916E 18 variable DEM6 999999006 135 47 076 15 kt variable 999999007 139 45 398E C variable ove 78245 8 1 For Service 8 1 4 Cast Type Tr Lato http 17231 243 sv casttype cei 5s FA 50 Service Cast Broadcast CastType OUnicast defaultzBroadcast Post IP Ok Cancel Service Menu 1 Broadcast Normally Broad cast should be specified Within the same network or all netw
21. The Class B CS AIS should only accept an initiation of Message 14 only once a minute by a user manual input Automatic repetition is not allowed The Message 14 may have precedence over Message 18 AP3 3 2 Message 18 Class B Position Report Class B Position Report must be periodically and autonomously conducted Parameter Description Message ID 6 Identifier for Message 18 always 18 Used by the repeater to indicate how many times a message has Repeal 2 been napag repeated 0 3 shall be 0 for Class 5 transmissions 1 a 30 MMSI number Reserved for Reserved for definition by a competent regional or local authority regional or local 8 Shall be applications set to zero if not used for any regional or local application SOG 10 Speed over ground in 1 10 kn steps 0 102 2 kn 1 023 not available 1 022 102 2 kn or higher 1 high 10 m 1 0 low gt 10 shall be combined with RAIM information if available Longitude in 1 10 000 min 180 degrees East positive as per 2 s Longitude 28 complement West negative as per 2 5 complement 181 degrees 6791 0 hex not available default Latitude in 1 10 000 min 90 degrees North positive as per 2 5 Latitude 27 complement South negative as per 2 5 complement 91 degrees 3412140 hex not available default AP3 6 Appendix 3 Class AIS CS System Course over ground in 1 1
22. FA 50 Class B FA 150 Class A Communication method CSTDMA SOTDMA Static data MSG24A MSG 5 Dynamic data MSG18 MSG 1 2 3 MSG 14 a safety related message directing to all vessels containing 16 characters at maximum Short message MSG 6 8 12 14 Dynamic data Dynamic data 2 seconds to A SOG gt 2kt 30 seconds 3 minutes SOG lt 2kt 3 minutes depending on SOG Static data 6 minutes Static data 6 minutes 5 5 Diagnosis Status check 504 9 COM POWER 12 24 VDC 2 0 1 0 A LAN connection check Problem Symptom and check items Refer ence Connec tion to PC 1 LAN connection is not allowed Check that a cross cable is used as the LAN cable 2 LAN connection is not allowed On the NETWORK port normally the right LED blinking and the left LED lights up If these LEDs indicate differently the MAIN amp TX board should be replaced 3 When the IP address of FA 50 contains the default value After setting the IP address of FA 50 with a value of 172 31 24 3 and the IP address of PC with a value of for example 172 31 24 10 start up Internet Explorer and enter http 172 31 24 3 in the URL field Subnet Mask 255 255 0 0 Gateway 0 0 0 0 4 When the IP of FA 50 has been changed and unknown After power off set the S4 2 to the ON position on the MAIN amp TX board and power on then
23. 50 Monitor Port GPS Refresh 3 20 095740 19 05 2009 00 00 6 GPGSA A 3 06 14 21 24 29 30 31 32 01 76 01 02 01 43 3A 0D 0A GPRMC 095739 A 3444 4637 N 13521 2776 E 000 0 118 0 190509 007 1 W A 03 0D 0 GPGBS 095739 A0 0D OA PFEC GPras S 9999 18 0D 0A PFEC GPtlp 3 090519095054 090101000000 5C 0D OA GPZDA 095741 19 05 2009 00 00 6B 0D 0A 3 06 14 21 24 29 30 31 32 01 76 01 02 01 43 3A 0D OA GPRMC 095740 A 3444 4635 N 13521 2783 E 000 0 118 1 190509 007 1 W A 04 0D 0 GPGBS 095740 FA 50 Service lO Monitor gt e Port PCMKD 30 0 3 06 0D OA PFEC jdfnc RA 3C ODIOA PFEC Alcmd 30 D 3 06 0D 0A PFEC jidfnc R A4 3C OD OA Funums NS lt lt Service Menu GPS built in GPS 8 14 8 1 For Service 8 1 7 Memory Clear Executing Memory Clear automatically reboots the FA 50 FA 50 Service Memory Clear Factory Reset without IP Address Factory Reset Service Menu 243 e Factory Reset without IP Address Factory Reset without IP Address Are you sure 1 Factory Rest without IP Address The settings in Initial Setup except those in Network Setup are cleared 2 Factory Reset of the set values are cleared and restored to the factory default
24. AIS 1 FA 50 Setup Initial Setup gt COM Port Setup Data Type 61162 Tx Speed 38400 bps fixed Rx Speed Auto or 38400 bps J14 on the MAIN amp TX board RS 422 Jumper block are set with 1 2 3 4 2 FR 2xx7 Series Radar Setup The AIS display should be set ON 1 2 Overview of AIS Class System 1 2 Overview of AIS Class System 1 2 1 Comparison between Class and CS Table 1 2 1 Comparison between AIS Class A and B ltem Class A Class B CS Target vessel SOLAS vessels Non SOLAS vessels Communication method SOTDMA RATDMA FATDMA ITDMA Self Organized Time Division Multiple Access CSTDMA FATDMA Carrier Sensing Time Division Multiple Access Frequency range 156 025 162 025 MHz Same as on the left Tx output power 2 12 5 W 1 W Frequency spacing 25 kHz 12 5 kHz 25 kHz 2 W 1 W Bandwidth 16 kHz or less Same as on the left Speed rate 9600 bps Same as on the left GMSK Modulation Gaussian filtered Minimum Shift Same as on the left Keying Number of bits per slot 256 bits Same as on the left Data coding NRZI Non Return to Zero Inverted Same as on the left Transmit receive function TDMA transmit receive function e DSC transmit receive function TDMA transmit receive function e DSC transmit receive function optional Types of Messages able to be tra
25. Test2 33 Training 0101 Data 00001111 Duty 33 1 fram 2250 x 33 742 packets Training 24 bits consisting of a pattern of 0101 Data is transmitted by 00001111 168 bits Test3 50 Duty 50 1 fram 2250 x 50 1125 packets Training 24 bits consisting of a pattern of 0101 Data is transmitted by 00001111 168 bits Test3 100 Duty 100 1 fram 2250 x 100 2250 packets Training 24 bits consisting of a pattern of 0101 Data is transmitted by 00001111 168 bits Test4 33 Training 0101 Data PRS Duty 33 1 fram 2250 x 33 742 packets Training 24 bits consisting of a pattern of 0101 Data is transmitted by Random 168 bits Test4 50 Duty 50 1 fram 2250 x 55 1125 packets Training 24 bits consisting of a pattern of 0101 Data is transmitted by Random 168 bits Test4 100 Duty 100 1 fram 2250 x 100 2250 packets Training 24 bits consisting of a pattern of 0101 Data is transmitted by Random 168 bits 7 3 Tx Output Power Adjustment Duty 33 nese sealing eer Training 22 bits Rampup 8 bits Message18 A Bch 1sec Message 18 is transmitted by switching between A and B channels every Rate For Emission second 12 1 Ramp At the end of the data of Test2 1bit 1 is added Chapter 8 Maintenance This chapte
26. 0X4 A 4 19 Parts PAS 0 Contents of Drawings PET S 0 This page is intentionally left blank Summary 1 Password To recall the Ship Static Edit menu and the For Service menu Login Name and Password are required For each menu a combination of different Login Name and Password is required For details see Furuno Information FQ4 2009 014 2 Method of Connecting FA 50 to PC and Access Method 2 5 Start up Internet Explorer IE and enter the IP address of FA 50 in the URL field then the Web browser screen of FA 50 is displayed Make sure that the IP address of the PC to be connected must be set as described below Network Setup Default Values for FA 50 IP Address 172 31 024 003 Subnet Mask 255 255 000 000 Gateway Address 000 000 000 000 Tip If the network settings above are valid on the FA 50 IP Address of the PC used 1172 31 024 010 for example Subnet Mask 255 255 000 000 Gateway Address 000 000 000 000 3 Sensor Connection The built in GPS must be installed as a requirement Transmission cannot initiate until the built in GPS determines positions The external GPS is optional so that it is not used before the built in GPS determines positions The heading data HDT is also optional ROT is not defined in the list of Class B report messages and not required to be connected 4 Comparison between Class A and B 1 13
27. aceigia2 87 DRA TYPE 09 03 31 T YAMASAKI PR 240 on bers E 2 1 422 MODEL BLOCK No NAME AC DC POWER SUPPLY UNIT 05 001 4387 4 SCHEMATIC DIAGRAM FURUNO ELECTRIC Co LTD T REF No No 5003 K04
28. n VY 5 8 3 E 2 878 8787 WWW z emineat 182 MAIN amp TX 05 0814 THSA 91898 198 PTT 5 53 be es See REELED ESERE J17 BeP VH 417 1 RED DLP gt 52 29 J9 BSB PH K S E TD P E TD N ERI E 8D N dO atin YAMASAKI CH 9 te euo J17 2 BLACK AWGIS 99 1 WHITE AWG26 19 2 BLUE _ 2 48 3 YELLOW ANGZE 49 4 GREEN AWG2E J8 5 BROWN ANGZE PURCI2 24 VDC COM RS 422 1EC61162 1 10 109 6 50 5 2 ld eli Ed PPROVED CALE MASS BLOCK No NAME CLASS AIS TRANSPONDER Dwg 04442 1 REF No 05 097 2002 0 SCHEMATIC DIAGRAM FURUNO ELECTRIC LTD 1 2 CPU JTAG FPGA JTAG 3 3 4 FPUAL TPZ 000 J15 FPBA TPS a B4g PiLK S FPEAIPA ary B10B_PH SHA BEB PH S4 aci w ev _ S4 BST ICE N 2 _ _SHA RSTAICEN _ api NC LL HULM gy ati CEN 5 SH4 100 300 FPGA2_TDO_ 664 FPGAIIP ary CDI 35 4 101 FPGRI TDI _ anes SHASCLR 384 THS SHS 301 FPA
29. SH4_RDWR_N FPON CONF IG N 2 N FPGA_RESET_N tan R180 5 4 _ 000 R131 22 SH4_WE1_N_DOM1 RIA 22 SH4 WES_N_DOM3 13 22 Hi 3B5 3C4 443 5D2 304 1 S12Kx16BITSx2BANKS I6H8 VCCD2 384 SHA CS3 N 8 383 564 FPGA2 STATUS N SCR 383564 SH4 RAS N SH4 RD N FPGA2 CONF 1G N SHALCKE T 383 581 SH4 CKIO SH4_WEO_N_DOMO H4 MET N DONT 381 384 C384 3C1 4A3 5C1 384 361 1284 385 3 1 4 3 5 1 384 21 384 301 385 1 4 502 301 U29 1542516190 1 71 146 SH4 SCI TD SH4 SCI RD RxD C SCK2_HRESET_N TELK 1 14 TP13 HK 3 6 T Q 3 6 145 R281 10 SH4 THS SNT4LYCIGOBDBVR 1 5 1 ns 15 a2 1 2 4 RESET3V N y 3 2 3 1 386 4 6 Note 1 patt pattern only DRAWN 5 YAMASAKI 05P0814 3 9 ED cae MA IN amp TXd amp 4 APP vu 2 SCALE MAIN amp TX PCB Dwg No iHd A No 05 097 2103 0 SCHEMATIC DIAGRAM FURUNO ELECTRIC CO LTD 2
30. 8 1 11 Other 1 Silent Mode In this mode a Tx operation is completely prohibited and the FA 50 operates as a reception only unit In the Channel screen the set value of 2 1 0 W in Tx Power is used to control APC in the PA circuit To be able to enter the Silent Mode set Silent Mode to On to add an item of Silent to the Top page of the Web browser screen By selecting this item either Normal or Rx Only can be specified Entering the Silent Mode the mode indication of FAISPC_B switches to Reception Mode B FA 50 Service Other Silent Mode off defaultzOff Channel Selection Intemational defaultzInternational FURUNO FA 50 Microsoft WIND REO RTV BELLAOUD YD HAM Pe gt 5 33 PLAC http 17231 243 topcei Silent RX Only default Normal Normal 2 Channel Selection This field is used to switch a Channel between International and USA For several lists of channels refer to Appendix 2 8 20 8 2 Alarm Status 8 2 Alarm Status In this screen alarms currently raised are shown When an event of the alarm terminates the corresponding alarm display automatically disappears The errors shown on the screen are TX RX1 RX2 EPFS L L SOG COG and HDG The alarm outputs of COG EPFS HDG L L and SOG however can be set to be either displayed or not displayed by setting ON
31. Yes Available Not available define Undefined in the standard Note 1 In NMEA183 Verl 5 no checksum is attached 2 In the specifications of FA 30 50 sentences without checksum cannot be used by default however setting Sentence without Checksum to use allows users to use the sentences without checksum 3 Despite setting Sentence without Checksum to use a sentence with checksum should be checked and if the checksum is not correct the sentence should be discarded as an invalid sentence AP4 5 Appendix 4 IEC61162 Sentences AP4 2 3 Output Sentences 1 List of Output Sentences Talker Format 1 0 Description 30 FA so ansmission T Period ype Al ABK Addressed and binary broadcast Yes Yes acknowledgement At reception of AIS Regional Channel regional area data D 2 Assignment Message ib At switching of regional area data At reception of Channel management regional area data eS 5 information Source 25 198 At switching of regional area data 25 seconds during occurrence of an Al ALR Set alarm state Yes Yes error 2 minutes during normal operation Al TXT Set alarm state Yes Yes Atastatus change Al VDM VHF Data link Message Yes Yes At VHF reception VHF Data link Own vessel Al VDO message Yes Yes 1 second Command for determining At each event and PFEC idfuc functions and det
32. 1010101 09198 1591 XL 1591 VIAN 11259 2214425 1801 9014196 104 30N qns qns 406 C nuo qns 90 nu9JA doy 99 125 JABSMOIG L t peusojjoi st poArooow 540 peKejdsrp JOWUOW OI ST WOD uod WOD Jo 1521 xpeq door ON AO 1925 1591 404 WOOD 6 lt 551 pe amp ejdsip SSCXM ues 1591 ISSA pue ore so duues Q speusis poArooor Jo XX SSTXd 111569 syoyord Jad 5 sjoxoed TXA 2214428 sr snas 1drooosq yoyord xxx 199 1292 1591 sjoxoed XA suone s XX suonejs 2 1591 9994 JATO ON AO TXA jms Gpeg doop ON MO IXA 5 9015 JO SOYSUMS pas 1815 dois 5132 1591 SOL XL 5 51 129195 PHAS INIL xo ed T 1591 2443 uone npour y 30N 90 qns qns 7 qng nuo N qns dog ABSMOIG
33. Between White TD A and Yellow RD H Between Blue TD B and Green RD C FA 50 Service COM Port Test Com Port NG lt lt Device Test 8 13 8 1 For Service 8 1 6 IO Monitor In this screen reception data at the selected port is monitored Click Refresh to update the data COM Monitoring input signals on the serial port NavNET Monitoring input signals on the LAN port number 10021 PCMKD Monitoring input signals on the LAN port number 10033 GPS Monitoring reception data on the built in GPS FA 50 Service lO Monitor 9 00 00 68 0D 0A 00 00 00 00 00 00 9 0 0 521 2589 007 1 Example Monitor PVA nttp 17231 243 sv jomonitorcei gt amp FA 50 Service IO Monitor PEAD 17291243 50 Monitor Port Nothing Data Port NavNet GPHDT 43 8 POA ODI OA GPHDG 50 9 7 1 W 1 0 GPHDT 8 FURU 50 9 7 1 W 1D OD 0A GPHDT 43 8 T OA OD IOA GPHDG 509 7 1 W 1D ODI 0A COM port GPHDT 3 8 0 GPHDG 50 9 7 1 W 1D OD IOA NavNet shared with GPHDT 43 8 T OA OD OA GPHDG 50 9 7 1 lt lt Service Menu PELA ntp 17231 243 sv iomonitor cei http 17231243 sv iomonitorcei
34. E 0980 52 TOVA RX amp Mun 22 3 3VA 4 s 3 va orn 228 AA amp 28 Rea 18k aise 18 perk pow 9 16k p 1 0_9 7 E R23 DFS 2 En 8 2 R135 COL 4 544 e s DT 5070 544 4 COTE a Ed M 2 2 gt ak 3 8j 558 58 lt 5 5 1 i 4 8 E R68 ANN 4 76 215 vi CH 195 330 034 1u 8 R206 150 R44 47k AA Aa 453 C350 AAA AAA C126 390p 1 ANN PA i qut RS uui X C76 100p y 8 iso 2 x e120 Pa 259 4 7k e H 5 5509 g BA4560F i Es ow i 4 8 2228 C340 1 5351 10 4 7k kv 02 36091 Tid R RIS 330 341 10 2 go amp 232 10k av 2 7 x 390p g H H v Note 1 pattern only DRAWN ios YAMASAKI 05P0814 8 9 CHECKED an 22 FA 50 1B 2 SCALE MODEL BLOCK No NAME MAIN amp TX PCB Dug No 04442 09 A REF No 05 097 2108 0 SCHEMATIC DIAGRAM FURUNO ELECTRIC CO LTD 2 12 ace ov Note pattern only 108 yv C416 lu 6421 C428
35. The Ist IF signal is passed through the IF amplification circuits in Q6 FL2 and Q8 then inputted to the 2nd IF frequency conversion circuit of U7 In the 2nd IF frequency conversion circuit the Y1 25 55 MHz reference oscillator and the 2nd Lo signal doubled in Q11 are mixed and passed through 36 kHz LPF composed in U6 at the next stage then the 2nd IF signal of 36 kHz is extracted to be outputted to the MAIN amp TX board 5 4 5 2 Block Diagrams The 36 kHz signal output is inputted to the AGC circuit consisting of 012 CR6 U9 and 013 013 output of the AGC circuit controls CR4 a pin diode as well as a gain of Q8 AGC is controlled by the receipt input of 50 dBm or greater RX Mute 36kHz BPF RX1 05P0808A FL1 51 136MHz X tal FIL Fr 51 1361 02 FL2 51 136MHz X tal FIL PLL U4 25 55MHz gt vco CR2 3 51 1MHz Y1 25 55MHz REF OSC IO BPF E x2 12V it ST DATA PLL CLK PLL UNLOCK Figure 5 2 2 RX1 Block Diagram 2 RX2 Board 05P0808B The signal divided from the Rx signal in RX1 is inputted The circuit structure of RX2 is same as RX1 except that the Ist IF signal is in 51 236 MHz Accordingly the local oscillator frequency and IF FILs are different Table 5 2 3 Major Differences of RX1 2 Boards Difference RX1 board RX2 board Y1
36. juopgs opoyy suspi nuoui uo poppe 51 Jo lt guo NO 0 341195 pue JUIS lt IIO lt FUNDAS UAM 1 qns qns 905 nuy doy pue apoyy 1 99 125 ABSMOIG LL v 411504 01 1195 ST STV jseoru ed T 1525 ssumes VAVSO osn p40MssDq SNND PUXA 2214425 951 807 uo wey 104 HO VANN AO 20 291019 01 195 94 O DI snore Ho IV DOS 17 uo 5444 HO 30N 90 qns qns 7 qns 905 doy ABSMOIG 1591 X Jo 21818 e Sunoo og durew 104g 1 22801 UOISSTUId 104 VY 2951 24 S 93esso q WATT Surumig 63821 00 17159 06 71501 1010 Sururesy 66 459 001163591 20819391 11110000 1010 Sururery 00 1122521 2081591 10101010 1010 Sururery SAd 110011
37. th ARIE SELF TAPPING SCREW 4 20 505304 000 158 850 10 DISTRIBUTION BOX 7796 DB 1 ACCESSORIES 000 054 087 FP05 06110 000 011 840 AlSE327 Y7KCD AIS VIEWER FAISPC MX50 27 5t ACCESSORIES FP05 06100 000 013 180 AISE37 72kCD AIS DISPLAY SOFTWARE CD ROM FAISPC B OM 44431 C RX27 J7 PRINTED CIRCUIT BOARD 05P0808B LF 001 015 630 RX17Yyk PRINTED CIRCUIT BOARD 001 015 620 iz EVO MINI PIN ASSY 1 L 70 000 165 834 10 0 4 6 SILICON RUBBER 05 097 2516 0 100 343 670 10 TAXY GROMMET C 30 NG 79 D UL 000 165 420 10 ELZA WASHER HEAD SCREW A 3 10 C2700W 12 000 163 157 10 81TS 5 5 5 1 0 PWR7 Yh PRINTED CIRCUIT BOARD 05P0809 LF 001 034 460 66 MINI PIN 55 1 L 110 000 165 839 10 4 914 TR FIXING PLATE 05 097 2515 1 100 343 661 10 WASHER HEAD SCREW 3 12 C2700W MBNI2 000 163 184 10 7 7 CABLE ASSEMBLY 0559462 2 gt 000 165 389 12 79777 STRAIN RELIEF BUSHING SR 6P 4 000 165 933 10 GPS 7 PRINTED CIRCUIT BOARD 24P0043A 001 041 520 4 7 CABLE ASSEMBLY MJ145 TMP 1 5D L090 000 164 699 10 IRIAN AIREY FA 50 001 034 500 CONNECTOR PANEL ASSEMBLY 157070 CONNECTOR PANEL 05 097 2513 2 PANEL SHEET
38. U RPR U N O SERVICE MANUAL Class AIS Transponder MODEL 50 L4 Seow FURUNO ELECTRIC CO LTD www furuno co jp FURUNO ELECTRIC CO LTD 9 52 Ashihara cho Nishinomiya 662 8580 JAPAN Telephone 81 0 798 65 2111 Fax 81 0 798 65 4200 Pub SME 44420 A NAYO 50 Elemental Chlorine Free The paper used in this manual is elemental chlorine free FURUNO Authorized Distributor Dealer A OCT 2009 00017216810 Content Summary 1 Password eee eee eee ee eee eee eee eee eee eer eee ee eee ee eee eee eee eee eee eee eee eee eee eee eee 1 2 Method of Connecting FA 50 to PC and Access Method 88 1 3 Sensor Connection 1 4 between Class A and 1 5 Diagnosis eee eee eee eee eee eee eee eee eee eee eee eee ree eer eee ree eee ee eet eee ZZ 2 6 Action of after Board Replacement eee eee eee tee eee eee eee ere eet eee eee 5 7 Menu mI ore 6 Chapter 1 Overview 1 1 1 1 1 System Configuration eee 1 1 1 1 2 Equipment List sere 1 2 1 Standard Supplies mme 1 2 2 Option Supplies A 1 3 1 1 3 Applications nennen 1 4 1 1 4 Opening Web browser screen of FA 50 memes 1 4 1 1 5 Connecting External Di
39. 22 5 381 364 aci act 443 5013 CI 364 030 1 2 386 301 4 gt 9JL032HTOTF 192 4B5 301 304 443 501 RESET3V_N 142 381 3D1 446 1 LMDS LITLE Endien 0 SH4 IRLO N 1 Hen 1 MASTER SH4 IRL2 N i 0 et F 31 304 413 502 4 SH4_IRL3_N SH4 RD N 284 4 301 3 4 4 3 501 146 381 SH4 CS8 N 26 142 148 138 134 5 4 132 581 130 4 128 501 127 SH4 DREQB N 128 131 133 137 5 4 HD6417T50RF 240 551 505 385 i 564 505 SHA CSILN ote 145 RIB A AVEC FPGA2 CONF 10 4 581 5C5 SHA CS4 N vi vj 581 SARL SHL 210HT 1 15 1 CRIO SHL 21GHT 363 404 FPGAT STATUS N SH4 CS3 N ED AA 22 303404 FPGA1_CONF DONE FPGAT CONFIG N 284 324 363 481 384 300 SHA CRI 5125 TERES ROS 181 DONE 401 91 R25 Y 7 SH4_FPGA_OCLK 483 505 R187 SHA_FPGA_DATA 443 505 SHA RAS N FPGAT CONF DONE NY z 43 404 SH4_RD_N AN FPGA1_STATUS_N 443 404 13 44 6004 3 3 510 3843042 384 385 3 4 4 3 5 1 284 3 4 443 5 1 384
40. Chapter 7 Measurement 7 1 Overview You can control the Tx output power manually either by operating from the menu in the Web browser screen of FA 50 or by setting S2 on the MAIN amp TX board of FA 50 to ON Whichever method you choose this procedure must be completed within 15 seconds When 15 seconds has passed the transmission automatically terminates 7 1 1 Connecting Measurement Devices A power meter with a load of 50Q is connected to the VHF ANT terminal of FA 50 As shown in the figure below frequency measurement is performed in such a manner where an output of the pickup coil of 5 to 10t of wire wound around the antenna coaxial cable is entered to the frequency counter 50Q Power meter 5W VHF Antenna 50ohm Dummy Load Power Meter VHF ANTENNA NETWORK Allow the device to warm up for a certain time URL 172 31 24 3 PC IP Address 172 31 24 10 Subnet Mask 255 255 0 0 Note Between PC and FA 50 LAN Cross cable Between PC HUB and FA 50 LAN Straight cable Figure 7 1 1 Connecting Measurement Devices 7 2 Measurement of Tx Output Power and Frequency 7 2 Measurement of Tx Output Power and Frequency 7 2 1 Transmission Control from Web browser Screen Procedures 1 Connect measurement equipment a power meter a frequency counter and a PC with the FA 50 2 After powering up the FA 50 establish a LAN connection between the PC and FA 50 and open the Web browser screen of FA 50 T
41. Open the Own tag and select NMAE Port1 Heading connection port and set Input Source type to Heading to be able to share the Heading data When connecting with FA 50 Select Installation Wizard and set DHCP Server to Open the Global tag and select Data Source and set AIS FA 50 to retrieve the AIS data Setting of Heading Portl Source allows sharing of the Heading data Setting of Position SOG COG FA 50 allows the FA 50 to retrieve data from NAVNET 2 7 2 3 Ship Static Setup 2 3 Ship Static Setup To recall the Ship Static Setup menu Login Name and Password are required The own vessel static data specified in this menu is transmitted every 6 minutes The data is divided into 2 parts A and B and over the same channel part A is firstly transmitted and then part within 1 minute For details refer to page AP3 8 Part A MMSI Ship Name etc MMSI Ship Type Cargo Type Vendor ID Call Sign Ship Size Dimension of ship reference for position etc Setting a wrong value generates an error display above the MMSI field Error displays are the following Input Error MMSI Input Error Ship Name Input Error Call Sign Input Error Antenna Position Internal A B C D nput Error Antenna Position External A B C D Input Error Ship Type FA 50 Ship Static Edit Error display area MMSI 123456789 Ship Name FURUNO MARU Call
42. RED gt gt 2 gt 70 OR YEL GPS ANT GPS VHF ANTENNA 3 lt lt AD ND end aa lt lt e mcd 100 GPS NAV GATOR 555 m De TNC PS 3D 15 15m gt RA YIP LFF 5 WHIP ANTENNA 525 Cy N P 8DFB 8D FB CV 30 50m 2 FAB 151D JAPAN ONLY RO AION M 150M W2VN 2 AMETS Lg e EXT DISPLAY SENSOR RS 422 IEC61162 1 NETWORK os 11 i N J 3 8D FB CV 30 50m 2 1 N P 8DFB MAK 20m I CABLE CATS RP 5 1 i P EXTERNAL DISPLAY 3 S 3 LAN CABLE 5 445 P5E 4pTX BL 2 10m 8945 11 JI AS dm MS PC Dus N P 8DFB MAIN amp TX amp GPS 05P0814 IV 1 25sq 1 MFE 2 209 3 Auto 1 1 CAEL HUB amp Ik A Fb 5 CONS v Fld HRY a KLEWEIT IP CHEATS NOTE Jan 8 08 T YAMASAKI FA 50 22 a o tog TCTAKENO 8 Ria EEAEE 2 i 17 3 USE STRAIGHT LAN CABLE WHEN HUB W O AUTO MDI MDI X FUNCTION IS USED an 18 08 Esunh au 4 IF COM LINES ARE NOT USED TAPE THEM PREVENT SHORT CIRCUIT CL
43. 1 09 gt 2 ces 1062 4 2904 it C460 0 0220 R201 220 10k 06 076114041106 0 114 1 0 2 02 10k 4EUATIO6 C is dU ud 564 504 124 uPC1093T eee RBS 4 7k 8194 4 7k Note 1 In Shield Case DRAIN eos YAMASAKI 05P0814 7 9 Vesp MAINETX 4 SCALE 24 Ea BLOCK No MAIN amp TX PCB Dwg 04442 A 05 097 2107 2 SCHEMATIC DIAGRAM FURUNO ELECTRIC LTD m 675 100p 47k gt 8 2103 336 344 du 4 tu 65426 Reon 130 cies 9 HK3 6T C 0 5 BAASEOF C74 1666 7 cn x 5 3 6 xis 6121 R5 4 7k s 3 6 Jie 5 Ed 5689 226 848 PH K 5 s 8 3 E CMS R64 4 7k R209 150 WY gt i jm b 4 10 ar r2 2 us tico 1 36 7 1342 ype 2 R104 330 0345 _ x gt AW AOUTL P 52 8 Tus 8 1 21 3900
44. RX1 05P0808A 4 44 2 H 2 gt ki S 43 Figure 3 1 10 RX Boards 05 0808 3 5 3 2 GVA 100 Combined Antenna 3 2 GVA 100 Combined Antenna VHF ANT 150M W2VN or mer FAB 151D VHF ANT Mounting screws x 4 T me e Mounting diameter 40 50 mm Figure 3 2 2 GVA 100 Mounting Figure 3 2 1 GVA 100 3 2 GVA 100 Combined Antenna Distributor 24P0029 Figure 3 2 3 GAV 100 with the cover removede Distributor 24P0029 Figure 3 2 4 Distributor with the cover removed 3 2 GVA 100 Combined Antenna 24P0029 Figure 3 2 5 DB 1 Distributor Chapter 4 Menu Tree 4 1 Web browser Screen Start Internet Explorer and enter http 172 31 24 3 in the URL field to open the Web browser screen of FA 50 Password and Login Name are required when entering to the Ship Static Edit menu from Initial Setup and to the For Service menu For details of Password and Login Name see Furuno Information FQ4 2009 014 http 17231243 2 J7 BES Ban Pirs 2 Top page of the Web browser screen cei 6SIV OSIV 00001 JoquinN JONABN 000 000 000 000 000 000 SST SST Jse N youqng YIOMION 00 720 IL O TLI SSOIPPV dI NIVI
45. 0 Surpioooy adnsvajd ed T 8 98 2941 dius 022 euuojuy puny ones UMC 1 02 dmes rentu 0 uonisod TOSSA jo uas ones drys Ug y peurz ep dius 000000000 ISININ 0c poA1osow 61 01 ed T dius 21835 4145 s 1oxUeL 8 sdiys 08122 sdiys 98095524 9 eroedg 30N 90 qns lt 905 90 qns doy 25 198 14 880 pueg v 4 1 802 uooq SLY ou 225 MS 07 sty ug vas MST 3J0NI 225 HN pequosop vag AN 191 6 1 1871 SUOTJ29 9S JO SEIP I ON 05 pequosop seu XL 8 ou 95594 o durex
46. 05 097 2514 1 MODEL 50 APPROVED CHECKED DRAWN 4 Aug2008 4 Aug2008 4 Aug2008 50 CLASS AIS TRANSPONDER Y Kamba T Yoshida S Kubota 4442 01 Contents of Drawings Name Type Dwg No Page FA 50 C4442 C01 8 1 Scene diagram 90 ee 05 0814 1 9 8 CONNECTOR 4442 02 5 3 05 0814 2 9 LAN amp GPS C4442 K03 S 4 05P0814 3 9 CPU amp MEMORY 4442 04 5 5 05 0814 4 9 FPGA1 C4442 K05 S 6 MAIN amp Tx board 05 0814 5 9 FPGA2 8 DDS C4442 K06 S 7 05 0814 6 9 CLK amp DDS C4442 K07 S 8 05 0814 7 9 TX PART C4442 K08 5 9 05 0814 8 9 CODEC 4442 09 5 10 05 0814 9 9 POWER C4442 K10 S 11 POWER board 05 0809 C4442 K11 5 12 IF 1500AIS Interconnection IF 1500AIS C4435 C01 5 13 diagram Distributor DB 1 C4417 K15 5 14 AC DC power supply PR 240CE 5003 04 5 15 FURUNO 4 100 115 REST 200 230VAC FETS WHIP ANTENNA 1 50 60 2 ND E FAB 1510 JAPAN ONLY ER AS f ISS 150M W2VN DC SUPPLY UNIT CLASS AIS TRANSPONDER JIN PR 240 2 FA 50 PE COM POWER GPS ANTENNA IV 1 25sq um VHE ANT deae i 5D 2V OR 5 MS RG 10 UY MAX 50m Le De Pg oo 0175 SELECT ANTENNA CONFIGURATION MJ ATSPF MJ A7SPF0003 050C 5m 6 _ 5 Mare S WHT 2 sits i 77 TNC J 3 ien
47. GPA 017S For FA 50 self tapping POUR screws Type 4x20 CP05 11401 001 031 970 1 set Code No Installation JA TNC PS PS materials 3D L15M R 000 133 670 11 1 For 0175 15 cable For DB 1 self tapping CP24 00101 005 950 730 1set Screws Type 4x30 Code 000 162 659 10 Accessories 5 06110 000 166 648 1 FAISPC MX for PC 4A fuses Spare parts SP05 05801 001 031 960 1 set Type FGMB 125V 4A Code 000 157 482 10 1 2 2 Option Supplies 1 1 Overview Table 1 1 2 Option Supplies Name Type Code No Qty Remarks AC BG powers PH 240 1 Whip antenna CP05 11001 001 034 670 1 CP20 02700 004 381 160 1 For GPA 017S Antenna cable CP20 02710 004 381 170 1 For GPA 017S set CP24 00300 000 041 938 1 For GVA 100 CP24 00310 000 041 939 1 For GVA 100 TNC PS PS 3 Coaxial cable DL15M R 000 133 670 1 1 1 TNC TNC 15m Right angle 1 414 0330 000 803 239 1 For 017 5 antenna base L angle No 13 QA310 000 803 240 1 For GPA 017 S antenna base base No 13 RC5160 000 806 114 1 For GPA 017 S or rail mount 20 01111 004 365 780 1 For GPA 017 S AIS viewer FAISPC MX5O 000 160 966 1 Lon PL 000 164 634 10 1 2m LAN cable _ P5E 4PTX BL more 000 164 637 10 1 10m MJ A6SPFO001 7 010C 000 159 704 1 1 1 For NavNet VX2 1 MJ A6SPFO001 7 050C 000 159 705 11 1 For NavNet VX2 5
48. In the CSTDMA technology to avoid interfering a transmission schedule of a class A station transmissions from the class A station are monitored using a carrier sensing CS function and when no transmitting wave is detected a transmission from the own unit can be conducted Q3 How are the report messages handled 1 13 AP3 5 Those messages are handled in different manners by the Class A FA 150 and Class B CS FA 50 Dynamic data is handled in 5 1 2 and 3 on Class A device while MSG 18 Class B device a report is sent at intervals ranging from 2 seconds to 3 minutes by Class A device while at intervals of 3 minutes if 2 kt or less or at intervals of 30 seconds if faster than 2 kt by Class A device Static data is handled in MSG5 on Class A device while MSG 24A and B on Class B device and such messages are sent at intervals of 6 minutes Q4 Service area 1 13 Class B system offers a facility for small ships including Non SOSAL ships with Tx output power of 2 W Depending on the antenna height it is generally assumed as 5 to 8 nm between ships and 20 nm between a coastal station and a ship Q5 Is it possible to receive a DSC distress alert 8 18 Yes However only Japanese PC MKD Spc FAISPC B in the position data of the distress ship can be displayed No data is displayed on the external display devices such as NAVNET3 and Radar screens DSC and AIS signals are not continuously received because they are listened by a time
49. RAIM flag 1 0 RAIM not in use default 1 RAIM in use valid data for expected position error Communication state selector 1 2 ITDMA communication state follows flag 19 communication state 1100000000000000110 168 Occupies one time period AP3 7 Appendix 3 Class AIS CS System AP3 3 3 Message 24 Class B CS Static data This message shall be used by Class B CS shipborne mobile equipment This message consists of two parts A and B Message 24B should be transmitted within 1 min following Message 24A In the case of an interrogation for Message 24 the response should include both Part A and Message 24 Part A Number Parameter of bits Description Message 10 6 Identifier for Message 24 always 24 Repeat 2 Used by the repeater to indicate how many times a message has indicator been repeated 0 default 3 do not repeat any more User ID 30 MMSI number Part number 2 Identifier for the message part number always 0 for Part A Maximum 20 characters 6 bit ASCII Name 120 not available efau Total number of 160 Occupies one time period bits Message 24 Part B Number Parameter of bits Description Message ID 6 Identifier for Message 24 always 24 Repeat 2 Used by the repeater to indicate how many times a message has indicator been
50. Reference 2 Procedure to update when HUB is not available Basically a program update should be performed with the LAN connection established between the PC and FA 50 via HUB If the HUB is not available however you can follow the steps described below Procedure 1 Connect between the PC and FA 50 with a cross cable 2 Open the program folder and double click the Batch file 50 The following Command prompt window appears m oad FURUNO 3 Within a second power OFF ON the FA 50 If the update does not start even after 10 seconds or longer have elapsed an error message is displayed as below Power OFF ON the FA 50 again Depending on the timing the update can be started Connection error between FA 50 and the PC C WINDOWS system32 cmd exe IPaddress Connection error between FA 50 and PC time out error 4 The update is completed when a message saying PO gt finish upload program size 1615xxx appears on the screen 5 When a message saying Press any key to continue appears press the Enter key The Command prompt screen closes ci OY WINDOWS syste m32Xc md exe x 100 0 ir F UPFA5O_0102 BIN gt pause 6 6 6 1 Updating Program 6 1 3 After updating 1 Execute Memory Clear Executing Memory Clear restores the factory default settings Before executing Memory Clear take notes of the set values of Ship Static Edit
51. Y For Service Version 8 2 NMEA 8 3 Demo 8 8 Cast Type 8 10 Device Test 8 11 Monitor 8 14 Memory Clear 8 15 Channel 8 16 Internal GPS 8 19 Edit Message 8 19 Other 8 20 Version CPU 1 CPU2 FPGA Output VDM Output VOD Sentence without checksum EPFS Alarm L L SOG COG Alarm HDG Alarm External GNNS Off TOKYO OSAKA Broadcast Unicast Post IP TX Test Rx Test Loop Back Receive Test RSSI Test COM Port Test COM NavNet PCMKD GPS Refresh Factory Rest without IP Address Factory Rest RX1 RX2 TRX Mode TX Power Channel Selection DSC Time Sharing LAT LON SOG COG MODE STATUS RAIM PA UTC Message Select Edit Message Silent Mode Channel Selection Chapter 1 Overview 1 1 Overview 1 1 1 System Configuration The FA 50 is a Class B AIS device using CSTDMA Carrier Sense TDMA technology developed for Non SOLAS ships CSTDMA is a communication method where Class A AIS signals are monitored and if no signal is detected a transmission starts The FA 50 transmits static and dynamic data of the own ship to other ships reported with Class A B AIS or coastal station nearby and also receives signals from Class A B AIS Furthermore it can display and process the AIS information received using a PC software program PC MKD included as standard By connecting with Radar such as FR 80
52. in the Initial Setup menu to use them to reset later FA 50 Ship Static Edit MMSI 000000000 Ship Call Sign Internal Antenna Position 0 m m m External Antenna Position 0 mci Dio m Ship Type 3 Vessel Cancel lt lt Setup 1 Start Internet Explorer and enter http 172 31 24 3 in the URL field to open the Web browser screen of FA 50 2 Execute the steps as follows Service gt Password input gt Memory Clear gt Factory Reset FA 50 Service Memory Clear Factory Reset without IP Address Factory Reset Service Menu Reference Factory Reset without IP Address The setting values excluding those of Network Setup in Initial Setup are restored to the factory defaults Factory Reset All of the set values are restored to the factory defaults 6 7 6 1 Updating Program 2 Check the Program Version Check it from the Web browser screen of FA 50 Procedures 1 Start Internet Explorer and enter http 172 31 24 3 in the URL field to open the Web browser screen of FA 50 2 Execute For Service gt Password input xxxxxx gt Version to open the menu where check the program version Version CPU 1 CPU 2 FPGA lt lt Service Menu FA 50 Service Version 0550233 01 02 1 105 81 14 200806061154 Y2 27 3ch 200803051756 01 00 20071123 6 8
53. power off and set the S4 2 to the OFF position This restores the Network settings in Initial Setup to the default values Repeat the steps described above starting from 1 to check the LAN connection 8 27 Commu nication range If the communication range is short check the items in Reception failure and Transmission failure described below Depending on the antenna heights installed on the ships in communication itis assumed to be around 10 nm 30 nm for Class A Panel LEDs PWR Lights up in green Lights up at power ON normal state Lights up in red Lights up when an error in ROM RAM or ER the transmit circuit is detected The MAIN amp TX board must be replaced Lights up in blue Lights up during transmission normal state Blonking in orange Tx timeout If rebooting cannot solve the problem the MAIN amp TX board must be replaced Check the items in Transmission failure described next page Lights up in orange Unregistered MMSI From Initial Setup make the settings of Ship Static TX Lights up in yellow Lights up at reception If not light up RX check the items in Reception failure described next page 3 1 8 28 Summary Refer Problem Symptom and check items Power a s sourec voltage should be between 10 8 to 31 2 5 11 supply voltage failure The fuse mounted on the MAIN amp TX board Check the fuse
54. 1002 1004 1060 1062 are eliminated from the International Mode CH13 and 67 operate at 1 W Ch No Frequency Ch No Frequency 1001 156 05 2001 160 65 2002 160 7 1003 156 15 2003 160 75 2004 160 8 1005 156 25 2005 160 85 6 156 3 1007 156 35 2007 160 95 8 156 4 9 156 45 10 156 5 11 156 55 12 156 6 13 156 65 14 156 7 15 156 75 16 156 8 17 156 85 1018 156 9 2018 161 5 1019 156 95 2019 161 55 1020 157 0 2020 161 6 1021 157 05 2021 161 65 1022 157 1 2022 161 7 1023 157 15 2023 161 75 1024 157 2 2024 161 8 1025 157 25 2025 161 85 1026 157 3 2026 161 9 1027 157 35 2027 161 95 1028 157 4 2028 162 0 2060 160 625 1061 156 075 2061 160 675 2062 160 725 AP2 3 Appendix 2 Channel Lists Ch No Frequency Ch No Frequency 1063 156 175 2063 160 775 1064 156 225 2064 160 825 1065 156 275 2065 160 875 1066 156 325 2066 160 925 67 156 375 68 156 425 69 156 475 70 156 525 71 156 575 72 156 625 73 156 675 74 156 725 75 156 775 76 156 825 77 156 875 1078 156 925 2078 161 525 1079 156 975 2079 161 575 1080 157 025 2080 161 625 1081 157 075 2081 161 675 1082 157 125 2082 161 725 1083 157 175 2083 161 775 1084 157 225 2084 161 825 1085 157 275 2085 161 875 1086 157 325 2086 161 925 1087 157 375 ace E 161 975 1088 157 425 2088 2 162
55. 136 00 0 E 34 000 N 135 000 E 2088 2087 AB 2 HighSea HighSea HighSea High Sea 2087 2088 Detail 3 FA 50 Region Detail 15 NOV 2007 04 32 Lat NE 35 00 0 Lon 136 00 0 Lat SW 34 00 0 Lon SW Ch A Band 2 Default Ch B Band Default TRX Mode TxA TxB RxA RB Zone Power 6 nm 2W Entor MSG22 Own Vessel Data Region List 2 13 2 4 Own Vessel Data Group Assignment For details refer to page AP3 11 While regularly broadcasting Message 23 Group Assignment from the base station the list as shown below appears when this message is received In the Assigned Mode when the vessel enters into the assigned area the own vessel data is sent at intervals and in mode directed automatically In the Quiet Mode when the vessel enters into the assigned area the own vessel data is not sent for a time period between 1 and 15 minutes inclusive which is directed automatically The Quiet area has higher priority than the Assigned area in operation Assigned Mode Last Time 7 min Lat NE 35 00 000 136 00 0000 Lat SW 34 00 0000 N Lon SW 135 00 0000 E Report Interval 5 sec TRX Mode TxA TxB RxB Own Vessel Data When MSG 22 is received FA 50 Group Assignment Last Time Lat NE Lon NE Lat SW Lon SW Quiet Mode 3 min 35 00 0000 136 00 0000 E 34 00 0000 N 135 00 0000 E According to the direc
56. 15 Interrogation No No Yes ALR Note In the cases marked with No in the table above if the message specified is entered the ABK sentence describing a disabled transmission is responded to FA30 50 150 2 Comparisons on Input Data among FA 30 50 and FA 100 150 ltem Sentence with FA 30 FA 50 FA 150 Ver 1 5 support no positioning Valid Invalid Invalid time Invalid Invalid Invalid 1 Internal ZDA 2 Positioning time of 1 Internal ZDA 2 Positioning time of 1 External ZDA 2 Positioning time of talker name of HDT sentence Talker ignored Talker invalid only for HC Priority of time RMC RMC RMC 3 UTC of 3 UTC of 3 UTC of MSG4 MSG11 MSG4 MSG1 1 MSG4 MSG1 1 Handling of LE Valid Invalid Invalid checksum Handling of Invalid only for HC AP4 2 Appendix 4 IEC61162 Sentences AP4 2 2 Input Data Processing 1 Processing at Reception Error When a reception error occurs the sentence in process becomes invalid 2 Checking Method for Validity of Sentence A sentence can be judged as invalid on the following status When the checksum is incorrect When the latitude longitude data contain a null code When the latitude data exceeds 90 degrees and the longitude data 180 degrees respectively When the heading data indicates a value other than 0 360 degrees When the ship speed data indicates a value other than 0 0 99 99 When a reception error
57. 4 When completing the measurements restore the original conditions What kind of signal is a transmission signal It is a modulated signal with a currently set Tx output power By default a non modulated signal with a Tx output power of 2 W is defined Tx output power 2 W fixed Modulated signal For details of the modulated signal defined in the TX Test screen from the For Service menu refer to page 7 7 7 3 Tx Output Power Adjustment 7 3 Tx Output Power Adjustment Note After the antenna is connected if a Tx output power measurement does not meet the standerd replace the antenna with a dummy with a resistance of 500 to check whether the antenna is OK 7 3 1 Tx Output Power Adjustment This adjustment is made by using R24 on the MAIN amp TX board It is made under Tx power output of 2 W There is no adjustment point for 1 W output separately Y1 TCXO 18 432MHz No frequency adjustment point EI Figure 7 3 1 Output Power Adjustment Point on MAIN Board 7 3 2 Tx Frequency Adjustment Implementation of Y 1 TCXO requires no adjustment If a deviation of 500 Hz or greater is found the MAIN amp TX board must be replaced 1 TCXO 18 432 MHz is a reference clock frequency of the MAIN amp TX board 7 6 7 3 Tx Output Power Adjustment Tips What are the meanings of individual modulated signals From the For Service menu select Device Test and press the Select button then
58. 5 DO SH4 015 3 2 510 31 32 33 34 95 38 99 1 5 510 14 15 85 86 81 88 90 102 105 187 108 199 116 111 112 113 114 115 pu iss KHS42E FPGA2_DIP_SWG FPGA2_DIP_SW1 O OB2 FPGAZ_DIP_SW2 4307083 FPGA2_01P_SW3 amp 4_ 0 21 1 SH4_CS4_N CS DETI TX ON1 DOS_TOUPDATET DOS OSK1 005_50101 ODS_SCLK1 2 1 884 WEO N DOHO 4 3 443 CAAD 481 B1 4B1 385 3C1 304 443 346 441 DTC31 B5 FPGA2_DIP_SWO Note 1 pattern only DRIN YAMASAKI 05P0814 5 9 E T 1 amp amp AR APPROVED __ 50 E E SCALE 4 MODEL BLOCK No Pwe 64442 A 05 097 2105 0 SCHEMATIC DIAGRAM FURUNO ELECTRIC LTD FURUNO 58 2 3 37 516 3 3V S104 3 3 516 Rei 100k TCTHUD4FU Tcu g temeau p 22 18 432 27 2 34 I 5 2 8 8 2 0335 TeVA TX a 8 8 005 0Sk2 8 Jl me 57 bd pe rd perd pr
59. 50 and IF 1500AIS is based on RS 422 specifications The FA 50 is not provided with the function for sorting AIS targets so that it is processed by IF 1500AIS The FA 50 setup can be made in COM Port Setup accessed from the Initial Setup menu For details refer to page 2 4 On the Radar input GPS data and heading data Connections RDP 150 Shield OM or m Speeb 38 4 6 Aut I AIS IN DATA OUT NMEA2 WHT 1 1 1 TD1 A 1 TD2 A 1 1 TD A 2 BLU TD1 B 2 TD2 B 2 2 TD B g EL RD1 A 3 RD2 A 3 3 RD A 4 GRN RD1 B 4 RD2 B 4 4 RD B 5 6 5 5 5 12v RED 56 6 FG 6 6 SG 7 2 w 0 9 Settings 1 FA 50 Setup Initial Setup gt COM Port Setup Data Type IEC61162 Tx Speed 38400 bps fixed Rx Speed Auto or 38400 bps J14 on the MAIN amp TX board RS 422 Jumper block are set with 1 2 3 4 2 FR 8002 Series Radar Setup To make the port setup of NMEA1 and NMEA2 connected with AIS follow the steps described below Select Initial Setup gt 1 2 gt 38400 bps or Auto and Select Initial Setup gt Through Output gt 1 1 Overview 3 IF 1500AIS Setup The port setup can be made on the internal DIP switches 51 All switches should be set to the OFF position AIS IN RX BOARDRATE 4800bps 7600bpe 7 12
60. Channel A 2087 Channel B 2088 Zone size 5 nm Transmission power 2 W 1 W in the Tanker mode Tx Rx Mode dual channel transmission reception Contents of Message22 Parameter Description Message ID 6 Identifier for Message 22 always 22 Used by the repeater to indicate how many times a message Repeat indicator 2 has been repeated See 4 6 1 0 3 0 default 3 do not repeat any more Station ID 30 MMSI number of base station Spare 2 Not used Should be set to zero Channel number according to Recommendation ITU R anne 12 _ 1084 Annex 4 Channel number according to Recommendation ITU R hannel g 12 1084 Annex 4 0 Tx A Tx B Rx A Rx B default 1 Tx A Rx A Rx B 2 TxB Rx A Rx B 3 15 not used Power 1 0 high default 1 low Longitude 1 or 18 Longitude of area to which the assignment applies upper most significant bits 18 right corner north east in 1 10 min or 18 MSBs of MSBs of addressed addressed station ID 1 180 East positive West station ID 1 negative 181 not available Latitude of area to which the assignment applies upper right north east in 1 10 12 LSBs of addressed 17 station ID 1 followed by 5 zero bits LSBs of addressed 90 North itive South i 91 not station ID 1 North positive South nega ive no available AP3 11 Appendix 3 Class AIS CS Syst
61. Ld R 05 SCLK O05 564 008 5 2 5545 1 5 5 8 105 105 _ 5 amp 8 3 i 2 pH 1 8 m 1 8 Bl si _ FL2 201 6432 1 her 122 88MHz 1880p 117 118 m 1 Gene P 1808 5 213 5825 E 1 g 8 3 ens 1 E 8873458 EE 5 X t8 ES 1 BER DOS_RESET2 98 2 81 008 z DOS RESET2 R400 150 mm G17 T 1669 95 518 8 5 C259 8 10 31 ono 2 3ls njaj 2 wl F AYDO 05802 8 8 TUE Ae H AGNDI 5 pes 9E 3 ES 8 BEA AD9951 avons 23 Ek Deer P H emus n CRYSTAL OUT 18 L RS 12 suewonesevect zi LOUP FILTER E Eg eje 5 220 amp P E RSS 108 2 amp 190 wt EE dian y ole BE n t 617PT 1669 v deve 2 s 8 lt Note 1 pattern only T YAMASAKI 05P0814 6 9 0 Z OVED o 50 1B 2 SCALE MODEL NAME MAIN amp TX PCB REF No 05097 2106 0 SC
62. OFF in the NMEA menu accessed from For Service For details refer to page 8 3 50 Service NMEA Output VDM ClassB defaultzClassB Output VDO ClassB defaultzClassB Sentence without checksum Dont use default Don t use EPFS Alram Of v defaultzOff LILSOG COG Alarm Of v defaultzOff HDG Alarm Off v default Off External GNSS Use default Use e Alarm output ON OFF settings in the NMEA menu Table 8 2 1 List of Alarm Status Outputs by Model Error 272 100 Display Description FA 150 30 50 Transmission failure transmission TX Tx malfunction disabled Yes No Yes Antenna VSWR exceeds Antenna VSWR failure Continued ANT limit operation is allowed Ne Ne RX1 board failure Transmission is CH1 Rx channel 1 malfunction suspended over the relating Tx Yes Yes Yes channel RX2 board failure Transmission is CH2 Rx channel 2 malfunction suspended over the relating Tx Yes Yes Yes channel CH70 Rx channel 70 malfunction dn FUE board failure Continued Yes No No operation is allowed MKD connection lost MKD connection is lost Continuous Minimum Keyboard and operation is allowed The actual Yes No No Display display is different from this Data from the external navigator is Yes Erie lost lost Continuous operation is allowed es Ne No L L No sens
63. RX1 field and by the Tx output power set in this field 5 Channel Selection Auto Manual When conducting a Manual operation of RX1 RX2 TRX Mode or TX Power this field should be set to Manual The Manual setting has a higher priority than Auto For example it is used when performing a measurement of Tx power or frequency deviation If the area data has not been stored for some reason the area data cannot be received over the international AIS channel In this case the Manual mode is set once to select the current channel used in the Regional operating areas to retrieve the area data and then the Auto mode is reset 6 DSC Time Sharing Class B AIS like Class A AIS can receive DSC signals For Class B AIS a receive method is defined where a dedicated DSC receiver or AIS receiver is used to receive AIS and DSC signals by a time sharing technique FA 50 is not equipped with a DSC CH70 specific receiver therefore by switching either RX2 boards for AIS signal reception to DSC reception both AIS DSC signals can be received using a time sharing technique DSC messages that can be received include VTS messages directing to individuals and all vessels as well as Distress alert messages on DSC signals are received By sharing the RX board both AIS and DSC receptions are carried out off No DSC signal is received The RX board is specifically for AIS reception Note When a
64. Sign JAAX Internal Antenna Position 40 10 External Antenna Position 40 m 10 m m Ship Type 3 Vessel OK Cancel lt lt Setup When completing settings click OK button The display returns to the Initial Setup screen 2 8 2 3 Ship Static Setup Table 2 3 1 Settings in Network Setup Factory default Setting Item settings Description The allowable range of registration number is between 000000000 and 999999999 inclusive An unregistered MMSI is expressed as 000000000 In this case the TX lamp lights up in orange MMSI 000000000 When unregistered transmission cannot initiates but reception is allowed The received AIS message VDM data can be outputted Note The initial setting value of MMSI of the class B unit must be 000000000 The allowable number of characters for registration NSIS ar is equal to or less than 20 i The allowable number of characters for registration Sing Q Q hidden is equal to or less than 7 Internal The registration range of is 0 to 511m and C D Antenna 0 to 63m Position Internal Antenna Installed position of the antenna to be connected with FA 50 External Antenna Installed position of the GPS antenna of the device which position data is to be entered to FA 50 External A 0 0 C 0 D 0 Antenna Position D rese
65. The value of 107 dBm is a minimum sensitivity value required See as 1 Training sequence flag Data FCS End flag End Buffer 24bit 8bit 164bit 16bit 8bit 24BIT i RF signal CS detction window Threshold level 833 2083 5 0 5 83205 1979 5 3328us 24 128ms 26 670ms End of slot A 2396us 25 729ms Beginning of next slot A A Class B Class B Beginning of training sequence End Flage Class Class Beginning of training sequence End Flage AP3 3 7 Reporting Method Class A AIS device is a system synchronizing with UTC Class B AIS device synchronizes with the position reports such as MSG 1 2 and 3 from Class A AIS device and uses them to determine the CS Carrier Sense If no report can be received from Class A stations Class B equipment conducts transmissions at own intervals and when any signal from a Class A station is received it synchronizes with that station Reporting is performed as described below Appendix 3 Class AIS CS System Term Description Value Reporting Interval Reporting interval as specified SOG gt 2kt 30 sec RI SOG lt 2kt 3 min Nominal time period for transmission defined by ransmission Time RI NTT Transmission Time interval of possible transmission p
66. as the power source line a 12 to 24 VDC input is connected while an external display device such as Radar or sensor is connected complying with RS 422 standard for use as the signal line Sensors connected to FA 50 require a built in GPS while external sensors for GPS data Pos SOG COG and heading are optional 1 Example of NavNet 3 Connection GVA 100 FAISPC B FA 50 NavNet 3 Model RJ45 NETWORK Data HDG Data HUB Table 1 1 3 IP Address Setting 50 Initial Value NavNet 3 Initial Value FAISPC B Allocated automatically IP Address 172 031 024 003 ex 172 031 024 010 by DHCP server Subnet Mask 255 255 000 000 255 255 000 000 255 255 000 000 2 000 000 000 000 000 000 000 000 000 000 000 000 ateway NavNet Port 10000 10033 AIS Number port number Host Name AISO AIS Data Output The AIS setup be made in Network Setup accessed from the Initial Setup menu For details refer to page 2 5 For the NAVNET 3 setup refer to page 2 7 1 1 Overview 2 Example of FR 8xx2 Series Radar Connection GVA 100 FR 8002 FA 50 l IF 1500AIS FAISPC B Serise R445 TD RD NETWORK GPS data HDG data Connection between 50 and FR 8xx2 Series Radar should be made via IF 1500AIS Connection between FA
67. data This sentence provides the data including speed course position date and time supplied by GNSS RMC hhmmss ss a yyyyy yy a b X X a a hh lt CR gt lt LF gt f g h i a UTC of position fix b Status A data valid V navigation receiver warning c Latitude N S d Longitude E W e Speed over ground knots f Course over ground degrees true g Date dd mm yy h Magnetic variation degrees E W i Mode indicator A Autonomous mode M Manual input mode D Differential mode S Simulator mode E dead reckoning mode N Data not valid SSD Ship Static Data This sentence is used to specify the static parameters of AIS a b foh a Ship s Call Sign 1 to 7 characters b Ship s name to 20 characters Pos ref A distance from bow 0 to 511 meters 4 Pos ref distance from stern 0 to 511 meters Pos ref distance from port beam 0 to 63 meters Pos ref D distance from starboard beam 0 to 63 meters g DTE indicator flag 0 Keyboard and display a standard configuration and communication is supported 1 Keyboard and display are either unknown or unable to support communication h Source identifier AP4 16 Appendix 4 IEC61162 Sentences TXT Text transmission This sentence is used to transmit a text message TXT xx xx xx c c hh lt CR gt lt LF gt abc d a Total n
68. equivalent to a delay distance of 100 nm for Class A a value of 2 bits equivalent to a delay distance of 30 nm for Class B Class A SSS oo ese 1 Start Buffer Training sequence Start flag Data FCS flag End Buffer 8BIT 2450 8bit 164bit 16bit 8bit 24BIT Distance delays 12bit Class B poste tU RO 1 Start Buffer Training sequence Start flag Data FCS End flag End Buffer f 23BIT 24bit 8bit 164bit 16bit 8bit 9BIT 1 CS 20bit Distance delays 2bit 6 Carrier Sense CS Detection Class B CS AIS device monitors transmissions from a Class A station using a carrier sense CS function to avoid interfering a transmission schedule of the Class A station and only when no transmission signal is detected an own transmission can be conducted The CS function monitors reception signal levels and when a signal level greater than the predefined CS threshold is detected terminates the transmission This function however is operable for the signals from Class A stations and not to those from Class B stations Tips The CS detection threshold should be determined based on the reception noise levels measured for previous 60 seconds on each reception channel separately The threshold should be determined by measuring the background noise the minimum energy level and adding an offset of 10 dB to the measurement The minimum CS detection threshold should be 107 dBm
69. occurs in the sentence When a sentence in invalid format is entered When found a value out of the range specified in the sentence details 3 Handling of Checksum Field A sentence with checksum should be checked for validity and if an error is found the sentence is judged as invalid A sentence without checksum should be judged as invalid according to the initial setting and causes an error Also from the setting in the PC MKD menu sentences without checksum can be made invalid 4 Handling of Timeout When an effective data has not been received for 5 seconds a timeout occurs and no data exists It takes 30 seconds for the L L SOG and COG data to become effective while 5 seconds to cause a timeout HDG GBS and DTM become effective instantly at input and it takes 5 seconds for them to cause a timeout ZDA becomes effective instantly at input and it takes 3 seconds for it to cause a timeout 5 Priority of Talker No priority of talker is defined GN GP GL LC and IN are used to determine a type of navigator Talkers except those mentioned above are identified as the default navigators AP4 3 Appendix 4 IEC61162 Sentences 6 Handling of Positioning Status Depending on the Version of NMEA sentences with no positioning status may not be accepted When a positioning status is contained only VALID can be accepted With a VBW exception 7 Priority Processing RMC and GLL may or may not contain the positio
70. of FR 8002 Alarm Function The IF 1500AIS can detect a CPA TCPA alarm against a sorted target and output it to FR 8002 in the form of PFEC sentence Lost Function The IF 1500AIS performs a lost process when lost condition occurs against sorted target The FR 8002 displays such conditions in the form of PFEC sentence Navigation Data output The IF 1500AIS can output the HDG HDT HDM and RMC sentences inputted from 8002 as they are To use this function DIP SW 1 Mode Selection Navigation Data inside of the IF 1500AIS must be set to the ON position Note When FR 8002 recognizes FA 150 or IF 1500AIS HDG HDT HDM and RMC data inputted on the FR 8002 are outputted to TD of the connected port Others If no communication between FA 50 and FR 8002 can be established the AIS menu of FR 8002 cannot open In other words it is a case that the IF 1500AIS Idfunc sentence cannot be received at an inquiry from FR 8002 to IF 1500AIS 1 11 1 1 Overview 3 Example of FR 2xx7 Series Radar Connection Connection between FA 50 and FR 2xx7 Series Radar should be made based on RS 422 standard GVA 100 COM Power AIS TD RD FAR 2xx7 rae Serise RJ45 PC FAISPC B The FA 50 setup can be made in Port Setup accessed from the Initial Setup menu For details refer to page 2 4 On the Radar input GPS data and heading data NETWORK GPS data HDG data RPU 013
71. sharing method Also responding to the received Distress alert with a receipt acknowledgement is not allowed Q6 Is DSC reception continuously performed 8 18 No DSC and AIS signals are not continuously received because they are listened by a time sharing method Q7 Is there any method to set the unit to receive only 8 20 Yes Select For Service gt Other and set Silent Mode to to add an item of Silent to the Top page of the Web browser screen Then open the Silent menu where you can choose Rx Only to set to receive only or Normal to the normal mode 9 amp 8 Is the tanker mode available 2 10 Yes Select Initial Setup gt Ship Static Edit where set Ship Type to Tanker to enter the Tanker Mode In the Tanker Mode an item of Tx Power is added in the top page of the Web browser screen and clicking it allows you to manually select Tx output power 09 In the Demo mode is the own ship position data required 8 8 No It is not required to connect with any sensor inputs of for example the built in GPS or the external GPS Q10 Is it required to connect with the external sensors of for example the external GPS No it is not required This is also not required for HDG ROT does not need to be connected because it is not defined in the dynamic data Q11 Is it required to connect with the HDG data input No it is not required Q12 Is it allowed to use the combine
72. the connection between FA 50 and NAVNET 8 9 3 Q17 Although HDG data has not been inputted to the FA 50 HDG data is displayed on the FA 50 screen after connecting to NAVNET 9 3 Q18 Although the IP address is entered in the URL field the Web browser screen of FA 50 does not appear 9 3 Q19 What are the values of the allowable error of Tx power output and the frequency deviation mmm 9 3 020 Where is the adjustment of Tx output power made HMM 9 3 Q21 Is there any simple way to measure the sensitivity on SSG m8 9 3 Q22 Only few targets can be received How to check this problem 9 4 023 Is it allowed to common use of the A and Rx HM 9 4 024 About the panel LED indicators 9 4 025 What is the red switch on board for m e 9 4 Q26 Is there any method to cease External EPFS ALM Hehe 9 4 027 to do a program update 9 4 Q28 Is it allowed to edit a short message 9 4 Q29 The HDG data inputted from the COM port is not accepted nnn 9 5 Q30 Abnormal operations are observed
73. when converting to the storage data eee 4 4 9 Sentences of from LAN COM port in Common Use n8 AP4 4 10 Priorities of Ports 4 4 11 Correlation between NMEA Ver and Sentence AP4 5 AP4 2 3 Output Sentences eene AP4 6 1 List of Output Sentences 4 6 2 Comparisons on Output Data among FA 30 50 and FA 100 150 4 6 4 3 Sentence Description 4 8 ABK Addressed and binary broadcast acknowledgement AP4 8 ABM Addressed Binary and safety related Message 77777000008 AP4 9 ACK Acknowledgement alarm 4 9 AIR AIS Interrogation Request 4 10 ALR Set alarm 4 11 Broadcast Binary Message 4 11
74. 0 0 3 599 12 1 3 600 E10h not available default 3 601 4 095 shall not be used True heading 9 Degrees 0 359 511 indicates not available default UTC second when the report was generated by the EPFS 0 59 Time stamp 6 60 if time stamp is not available which shall also be the default value 61 62 63 are not used by the Class B CS AIS Reserved for Reserved for definition by a competent regional authority Shall be set regional 2 to zero if not used for any regional application Regional applications applications should not use zero Class B unit 0 Class B SOTDMA unit shall not be used for the Class B CS 1 flag 1 Class B CS unit Class B display 1 0 display available not capable of displaying Messages 12 and 14 flag 1 Equipped with integrated display displaying Messages 12 and 14 Class B DSC 1 0 not equipped with DSC function flag 1 equipped with DSC function dedicated or time shared 0 Capable of operating over the upper 525 kHz band of the marine Class B band 1 band flag 1 Capable of operating over the whole marine band irrelevant if Class B Message 22 flag is 0 0 No Frequency management via Message 22 operating on AIS 1 Class B 1 AIS 2 only Nag 1 Frequency management via Message 22 Mode Flag 1 0 Station operating in autonomous mode default 1 Station operating in assigned mode RAIM flag of electronic position fixing device
75. 0 normally MMSI is not set so that the transmission of NULL VDO terminates To produce a NULL VDO output on FA 30 the MMSI dummy mode should be turned ON Due to a connection to IF 1500AIS the default on FA 30 is assumed to be an initial value of dummy MMSI of 999 999 000 to output NULL VDO During the dummy mode a VDM output containing a message to other ships is not produced Note3 Basically a message to other ships is not outputted by VDM During the dummy mode VDM outputs are not produced regardless of the value of dummy MMSI Note4 On FA 100 150 the following outputs for example are produced At normal transmission AIACA 0 3544 45 N 13535 22 E 3543 55 N 13534 33 E 8 8087 1 8088 1 0 1 M 1 235959 00 34 lt CR gt lt LF gt Information of international waters AIACA O N E N E 8 2087 1 8088 1 10 1 M 1 000000 00 34 lt CR gt lt LF gt AP4 7 Appendix 4 IEC61162 Sentences AP4 3 Sentence Description ABK Addressed and binary broadcast acknowledgement The ABK sentence is issued when a process initiated by the received ABM AIR or sentence has completed or terminated This sentence provides information on whether ABM communication requested by either Message6 or Messagel2 of ITU R M 1371 has been successfully completed or failed The ABK process uses information received in Message7 and 13 of ITU R M 1371 When receiving Message 13 of VHF data link or receiving a failure of Message6 12 the AIS
76. 02 or NAVNET 3 displaying AIS information is surely available Combined Antenna FAB 151D or 100 150M W2VN English Spec NETWORK FAISPC B Japanese Spec Ethernet 10 100Base T RJ 45 NAVnet VX2 NAVnet 3D EXT DISPLAY GPA 017 or COM POWER 422 VE GPA 017S 4800bps 38 4kbps E ExT pisPLAY RADAR EXT DISPLAY Plotter ECDIS Pilot plig or GPS GYRO SAT Compasss Speed LOG or IF 1500AIS FR 8002 Built in GPS required External sensor optional 12 24VDC Figure 1 1 1 System Configuration Diagram of FA 50 Tips Class AIS system has tow types CSTDMA and SOTDMA Class In the CSTDMA system it monitors Class A AIS signals and if an open slot is found broadcasts its position data and own ship data In the SOTDMA system Self Organizing Time Division Multiple Access reporting massege is broadcasted in synchronization with UTC The FA 50 using CSTDMA system that is less expensive and suitable for smaller ships 1 1 Overview 1 1 2 Equipment List 1 Standard Supplies Table 1 1 1 Standard Supplies Name Type Code No Qty Remarks AIS transponder FASO 1 GVA 100 1 GPS VHF combined Antenfistduft GPA 017S 1set GPS antenna GPA 017 1 set GPS antenna with 10 m cable Distributor DB 1 1 For GVA 100 CP24 00502 005 955 560 1 set
77. 025 2 4 Appendix 3 Class AIS CS System AP3 1 Overview of Class B CS Class B AIS system has tow types CSTDMA and SOTDMA Class A The FA 50 is Class B AIS device using CSTDMA Carrier Sense TDMA technology developed for Non SOLAS ships Class B AIS device should comprise one transmission and reception processes for two AIS TDMA signals and one DSC CH70 The process of DSC reception can be accomplished by time sharing between TDMA and DSC The FA 50 use a time sharing method while observing the watching times as described below Minutes past UTC hour 05 30 05 59 35 30 35 59 06 30 06 59 36 30 36 59 20 30 20 59 50 30 50 59 21 30 21 59 51 30 51 59 AP3 1 1 Differences between Class A and Class 1 Dynamic Data Class A AIS device transmits dynamic data reports using MSG 1 2 3 Class B AIS device does this using MSG 18 MSG 18 is transmitted at reporting intervals as described below unless directed by MSG 23 If SOG is greater than 2 knots 30 seconds If SOG is 2 knots or less 3 minutes Note When the ship speed goes up across 2 knots the reporting rate immediately changes to a cycle of 30 seconds contrast to this when the ship speed goes down across 2 knots the reporting rate does not change to a cycle of 3 minutes unless the same ship speed is retained for 3 minutes or longer The position data and SOG COG data to be reported
78. 025 MHz DSC 156 525 MHz CH70 Rx Sensitivity 107 dBm or less PER 2096 or less DSC Rx Sensitivity 156 525 gt 107 dBm or less 107 or less High Input Rx Sensitivity PER 10 or less at 7 dBm input 25 kHz 31 dBm greater PER 20 less Inter modulation Product 50 kHz 100 kHz 36 dBm or greater Ratio PER 20 or less 500 kHz 23 dBm or greater PER 20 or less 1 MHz 23 dBm or greater PER 20 or less Sensitivity Suppression 2 MHz 23 dBm or greater PER 20 or less 5 MHz 15 dBm or greater PER 20 or less 10 MHz 15 dBm or greater PER 20 or less Rx Frequency Antenna Impedance 500 1st IF RX1 51 136 MHz RX2 51 236 MHz 2nd IF 36 kHz PLL Reference Frequency RX1 25 55 MHz 1 ppm RX2 25 6 MHz 1 ppm 1st Local Frequency RX1 Fo 51 136 MHz RX2 Fo 51 236 MHz 2nd Local Frequency 1 51 1 MHz 2 51 2 MHz 1 RX1 Board 05P0808A The Rx signal from the antenna is passed through BPF of 156 to 162 MHz composed in L C and entered to Pre AMP in 01 to be amplified by 6dB so This output signal is divided to the RX1 and RX2 receipt circuits by T1 Ul is a 1st IF conversion circuit The receipt frequency Fo in 152 to 162 MHz and Ist Lo frequency Fo 51 136 MHz of PLL synthesizer output are mixed and 51 136 MHz component of the Ist IF signal is extracted at the next stage
79. 0YT ET J3 8 2 B5B PH K S FLA EXC CET 2U a o 22 ROK F 812 4 RDC 5422 DC_OUT DC IN _ 1 FLT x x2 E Ft 0sC 25 1 5 91808 _ EXC_CETIOZU 2 4 B2P_VH IHSA 91808 104 1 61162 10 2 eye rv 1 2 3 1 lt g R Fi 4A 6 Pi RIE 379 155225 Note pattern only WS YAMASAKI 05P0814 1 9 2 Y 799 APPROVED i E iam FA 50 EP E MASS MODEL BLOCK No NAME MAIN amp TX PCB Dug dd C4442 K02 REF pp 097 2101 0 SCHEMATIC DIAGRAM FURUNO ELECTRIC LTD 2 15 mS m 9 010 sex 0 010 sex ons NC GPS NODE 8389 220 ape 08 10 72355 2207 i ape L GPS 2391 220 RD ORS iPPS 220 1PPS ape 99 220 RST N aj VBACK ov XT VANT 402 636 it 10V a 5 8 NFH2IPCATARICID 3 37 v FL3 EPGA_D1 31 6 406 E PAD 30 1 6 2 27 PAD r38x1 6 EPOA BES N FPGA_BE2_N FPGA BET N FPGA BEO N 404 403 404 403 4B4 404 gt 484 404 CYCLE N ADS_N
80. 1 LOHSSDN470MO3L 5 2 R339 21 R345 3 3k e lt uss gt 282 SHONN FB wer TARSS18 9 57 S 8 3 85 x M o E Sj 18 5 mie mm V 5 DRAWN 09 06 05 YAMASAKI CHECKED in 05 0814 9 9 5 MAIN amp TX amp HR ERR VED 7 5 SCALE 12 an Dwg No 04442 10 REF 05 097 2109 0 BLOCK No NAME MAIN amp TX PCB SCHEMATIC DIAGRAM _ FURUNO ELECTRIC CO LTD 2 9 6V 31 2VDC k STR28 606 2 Jt 3 5880 89 qenesossovsossesas us 4 IMSA 3180B 10B PTI UR o IMSA_ 180B_08B_PT1 M p gt d RH 5 1 T 22 ba 3 H H 4 05 o2oT un DEP 5 10 MEME QC Hi cat aL 25 cd 0 1 7 aayy i 000 boou T gt 0 25 svi 25 257 25 DP 9 e DC Hi 19 1 V E V amp 8 5 ts i n jT M 01 LICSBOSESE S 5v 3 9 1 OGK2382 i 0 vec
81. 1 Appendix 1 Specifications 65 dB 86 dB 5 MHz 10 MHz 3 10 Inter modulation 3 11 Sensitivity suppression 4 DSC RECEIVER TIMESHARING SYSTEM 4 1 Frequency 4 2 Sensitivity 4 3 Error at high input level 4 4 Co channel rejection 156 525 MHz CH70 107 dBm or less 7 dBm 10 dB 4 5 Adjacent channel selectivity 70 dB 4 6 Spurious response 4 7 Inter modulation 4 8 Sensitivity suppression 5 GPS RECEIVER 5 1 Receiving frequency 5 2 Tracking code 5 3 Number of channel 5 4 Position fixing method 5 5 Position accuracy 5 6 Tracking velocity 5 7 Position fixing time 5 8 Geoids 5 9 Position update interval 5 10 DGPS data correcting 6 INTERFACE 6 1 COM I O Input 70 dB 65 dB 84 dB 1575 42 MHz C A code 12 channels parallel 12 satellites All in view 8 state Kalman filter 10 m approx 95 of the time lt 4 DGPS 5m approx 95 of the time 900 kts Warm start 36 s typical Cold start 43 s typical WGS84 1s By AIS information RS 422 38 4kbps IEC61162 1 4800bps ACK BBM DTM GBS GGA GLL GNS HDT OSD RMC SSD VBW VSD VTG AIQ DSC DSE PFEC AP1 2 Appendix 1 Specifications Output 6 2 NETWORK Input Output ABK 6 3 Function alarm 7 POWER SUPPLY RS 422 38 4kbps ABK ACA ACS ALR VDM VDO TXT PFEC Ethernet 10BASE T 100BASE TX ACK BBM DTM GBS GGA GLL GNS HDT OSD SSD VBW VSD VTG DSC DSE PFEC ACA AC
82. 1 8 6 Check the GPS AEM E oO GO Tip To monitor the GPS data select For Service gt ie alarms 8 21 IO Monitor gt GPS 8 25 If the HDG data is connected the COM port select For Service gt Device Test and run the COM Port Test If NG the MAIN amp TX board must be replaced 8 13 HDG alarm Before starting the test make a jumper connection between TX and RX data in the COM port The acceptable sentence is HDT AP4 1 If no HDG data is connected select For Service gt 8 3 NMEA gt HDG Alarm and set it OFF 5 6 Action of after Board Replacement Board Action No settings required Perform the following steps For Service gt Device Test gt RX Test Loop back and determine whether reception is normally conducted This can be determined by checking the number of targets 1 05 0808 No settings required Perform the following steps For Service gt Device Test gt RX Test Loop back and determine whether reception is normally conducted This can be determined by checking the number of targets RX2 05P0808B 1 The steps Initial Setup gt Ship Static Edit must be completed 2 ER LED red on the panel should light off 3 Follow the steps For Service gt Test MAIN amp TX 4 Check if the Internal GPS determines positions 05P0814 5 Check that reception is normally conducted Check the expected number of targets 6 Check th
83. 10 agi SH4 DREOO N ALL DURS SH4_FPGA_DATA C80 m FEBR EON Pe DI 100 18 432 7_2 CLKO VEA ES CLKOUTT R78 4 CLK3 237 n 0 700 18 22 2_ 00 565 MS gt C144 484 FPORC ETRTUS N 684 484 SH4_FPGA_DCLK nSTATUS CONF DONE 383 565 CONF _DONE CONF 383 565 CLKOUT2 P 22 ol CLKOUT2 N 683 Panag 4 BE 22 DDS_RESET2 DDS RESET 005 1057182 50 10 2 aaa 384 301 3C4 4k3 3 4 P 00 505 52 384 385 301 304 443 SHS RDN 1 005 50102 gg SES RAO DDS OS 105 0552 4 0 DOS_IOUPOATE 10 13 10 132 10 131 PADOR 581 VLF3810AT 1904849 555555 5 D goo 921000 1609 682 CAS 100 526 100 6378 362 10 TX ON2 TXMONT2 1u 24 N2 50101 SCLK1 DDS_CS_N1 DDS_IOUPDATE1 005 IOSYNCI GND_102 ODS_RESET1 FPGA_COM8 FPGA_COMS FPGA_COMS VCCINT_110 GND 111 YCCIO4 112 FPGA_COM4 FPGA_COM3 FPGA_COM2 FPGA_COM1 GND_91 VCC104_92 TX_ONt VCCINT_97 DDS 005 VCCINT 103 FPGA_COMT GND_109 SH4_CS4_N CS_DET1 CS_DET2 99 VCC104 70 GND 71 12 5 4 04 5 4 011 5 4 03 VCCINT_81 5 4 014
84. 16 2 5 Message Rx Log Displays a maximum number of 20 messages that have been received When the number of messages stored reaches to the maximum number the messages are automatically deleted in chronological order The following three types of messages can be received e Message 8 Broadcast Normal Binary Broadcast Message Message 12 Addressed Safety Safety Related Addressed Message Message 14 Broadcast Safety Safety Related Broadcast Message B FA 50 RX Log 1 1 No Date Time MSG CH MMSI Flag 1 28 APR 2009 07 25 42 111118888 ADD CAST TEST AD Not Read 2 28 APR 2009 0719 14 111118888 ADGJMPTW Detail Read 3 28 APR 2009 07 18 14 FA 50 RX Log Detail 4 28 APR 2009 oie 714 5 No 1 6 Date 28 APR 2009 Time 07 25 Detail screen j MSG 12 8 CH A 9 MMSI 111118888 TEXT ADD CAST TEST ADGJMPTW123456789123456789 lt lt RX Log Message 8 BroadcastNormal 12 Addressed Safety 14 Broadcast Safety lt lt Date Time Date and time of ZDA data MSG Displays the type of the message received CH Displays the channel used for reception MMSI Displays MMSI of the transmitting station Text Displays the received messages 16 characters at maximum Flag Not Read means that the message has not been opened by clicking Detail while Read means that it has been already opened Chapt
85. 182 default IEC61162 TXSpeed 38400 bps Auto Spee 2 idis eee GManual 4800 bps defaultz Auto Cancel nitial Setup Table 2 1 2 Settings in COM Port Setup Setting Item Parameter Description It includes input output NMEA sentences described in IEC61162 In addition to the above sentences PFEC sentence for communication with PC MKD FAISPC are included Note Unlike FA 150 FA 50 does not incorporate a serially connected PC MKD so that this setting is not used Data 1 61162 Sentence Off Transmission of Tx data is terminated Exclusively for receive use Tx Transmission speed of Tx data is fixed at 38400bps Speed See ge and unchangeable Independently of the settings on J14 Rx data retrieving is performed at a speed automatically matched with the Rx data rate When a speed is determined Auto is Rx additionally indicated on the speed display Auto Speed Independently of the settings on J14 Rx data retrieving 48000 5 performed at a fixed speed of 4800bps Manual 38400bps Independently of the settings on J14 Rx data retrieving P is performed at a fixed speed of 38400bps 2 4 2 2 Network Setup 2 2 Network Setup In this menu a network can be set to connect with NAVNET 3 or others Setting a wrong address generates an error display above the MAC Address field Depending on the input item the erro
86. 2 11 2 4 Own Vessel Data When the Ship Type is 3 Vessel select a Cage Type from the list as shown below 0 Fishing 1 Towing 2 Towing and length of the tow exceeds 200 m breadth exceeds 25 m 3 Engaged in dredging or underwater operatians 4 Engaged in diving operations 5 Engaged in military operations 6 Sailing Pleasure 8 Reserved for future use 9 Reserved for future use When the Ship Type is 5 Special craft select a Cage Type from the list as shown below 0 Pilot vessel D Pilot vessel 1 Search and rescue vessels 2 Tugs 13 Port tenders 4 Vessels with anti pallution facilities ar equipment 5 Law enforcement vessels 6 Spare for assignments to local vessels 7 Spare for assignments to local vessels Medical transports as defined in the 1949 Geneva Conventions and Additional Protocols 8 Ships according to RR Resolution No 18 Mab 83 2 4 2 View Channel View Channel If no regional operation area setting is specified 2087 International is displayed If regional operation area setting is specified Local of the active channel is displayed RX2 If no regional operation area setting is specified 2088 International is displayed If regional operation area setting is specified CHxxx Local of the active channel is displayed Power The value of the Tx output power currently effective is displaye
87. 25 fun 15 Se RUN NGATE 03 VFB SENS H Ri4 3 3K 2502412 ENSE hee ci 0 i 8 Ble iL 15902 R3 ce i 55 1Bk Hd PC357N1 AAA 3 RB 6 8K 3 E CR2 L S6 ey 10 9 155355 T Sov Ea 8 eR Dg Pf T tUa APPROVED MEM f ASS FA 50 1B 5 gre T YAMASAK TYPE 05P0809 HR 212 5 MODEL BLOCK No PWR PCB Dwg 05 097 2201 0 SCHEMATIC DIAGRAM FURUNO ELECTRIC CO LTD FURUNO S 13 5242 NavNet2 AIS RECEIVER 12 24VDC 2 2 2 0 2 MARINE RADAR PLOTTER J17 2 30 50 yy iy ey yp BK p 1 1 7 0003 050 5m 6 of e MJ A7SPF MJ AGSPF MJ AGSPFO012 0500 1000 MJ A6SPF MEIR ji 5 10m 6 21 RDP 149 DISPLAY UNIT yn WHT TAK SA TD A gt 1 gt TCI RPU 015 PROCESSOR UNIT 71 BLU GRN TD B 2 gt lt 2 lt TD1 B MODEL 18 40 19 4 ser YEL yn WHT p lt RD A 3 gt p lt 3 CRDI H BLK 54 lt RD B gt 4 gt 1 lt IRDI C F 7h RED K54 NC i 5 gt Lis 5 lt i NC DRAIN a K 66 F 6 6 SHIELD
88. 4 vu IN TX BOARDRATE AIS IN MODE 4800bpe __ 18_ Tips Functions of individual DIP SW are described below By default all switches are set to the OFF position Table 1 1 4 Communication Speed Settings of AIS Communication Input Port AIS RD A B 3 4 Communication Speed ON ON 4 800bps ON OFF 9 600bps OFF ON 19 200bps OFF OFF 38 400bps Table 1 1 5 Communication Speed Settings of AIS Communication Output Port AIS IN TD A B DIP Svi S1 Communication Speed OFF 9 600bps Table 1 1 6 Mode Settings of AIS Communication Output Port AIS TD A B DIP SW Mode Selection Remains Used for Navigation Data output The sentences RMC HDG HDT from the ON Dam FR 8002 are outputted on IF 1500AIS as they are On FR 8002 the AIS targets can be displayed but no alarm ACK to FA 50 OFF AIS Data Used for AIS transponder communication 1 1 Overview ACK LRI LRF 1 1500 18 1 IF 1500AIS 1 DATA OUT DATA OUT m VDO Sort Condition Sort Condition ALR HDG HDT HDM AD HDG HDT HDM TXT MC P Sentence RMC P Sentence TD 1 or 2 RD TD or 2 RD NMEA or 1 2 or 1 C lt lt HDG HDT HDM AD When a sentence in AD RMC FR 8002 FR 8002 format is in
89. 5 097 2104 0 2 RX2_UNLDEK2 RX2 ST_PLL2 R349 A RX2 DATA PLL2 ESL 2348 RX2_CLR_PLL2 B6X8 4815 480 3 3 510 2 BX1 UNLOCKI RX1 ST PLLI RX CLK PLLT FPGA2 FPGA2_1P8 R144 22 CO_PDN CO_CSN CO_CCLK 0 CDIT C0 36MHZ 8145 CO_SEKHZ C0 6144KHZ CO DR 216 226 224 3r 29 28 21 204 02 01 200 199 198 197 208 207 206 205 VCCINT_204 RX2_UNLOCK2 RX2_ST_PLL2 RX2_DATA_PLL2 PON CSN I0 10 GND_232 02_231 60 230 VCCINT_229 GNO_190 02 189 GND_199 VCCINT_198 CO VCCINT 191 CO_S6KHZ RX1_UNLOCK RX1 ST PLL VCC102_209 C0 6144KHZ FPGA_INIT_OONE FPGA RESET N RX1_UNLOCK2 p BX UNLOCK _ R3 RX1_ST_PLL2 SH4_IRL3_N RX1 DATA PLL2 183 RX1 CLK PLL2 E 1017 303 481 C3 481 RX2_CLK_PLL2 3B1 GB 3B 00X0 100x0 mi TX TO LED2 80 8 DAD 158 BuH 0 49A 4_025 __NCCA PLLY 101_22 use 56491
90. 56 2 2004 160 8 1005 156 25 2005 160 85 6 156 3 1007 156 35 2007 160 95 8 156 4 9 156 45 10 156 5 11 156 55 12 156 6 13 156 65 14 156 7 15 156 75 16 156 8 17 156 85 1018 156 9 2018 161 5 1019 156 95 2019 161 55 1020 157 0 2020 161 6 1021 157 05 2021 161 65 1022 157 1 2022 161 7 1023 157 15 2023 161 75 AP2 1 Appendix 2 Channel Lists Ch No Frequency Ch No Frequency 1024 157 2 2024 161 8 1025 157 25 2025 161 85 1026 157 3 2026 161 9 1027 157 35 2027 161 95 1028 157 4 2028 162 0 1060 156 025 2060 160 625 1061 156 075 2061 160 675 1062 156 125 2062 160 725 1063 156 175 2063 160 775 1064 156 225 2064 160 825 1065 156 275 2065 160 875 1066 156 325 2066 160 925 67 156 375 68 156 425 69 156 475 70 156 525 71 156 575 72 156 625 73 156 675 74 156 725 75 156 775 76 156 825 77 156 875 1078 156 925 2078 161 525 1079 156 975 2079 161 575 1080 157 025 2080 161 625 1081 157 075 2081 161 675 1082 157 125 2082 161 725 1083 157 175 2083 161 775 1084 157 225 2084 161 825 1085 157 275 2085 161 875 1086 157 325 2086 161 925 1087 157 375 161 975 1088 157 425 5098 162 025 2 2 Appendix 2 Channel Lists 2 USA Mode Channel To enter the USA Mode from For Service Click and Open Other where Channel Selection can be set to USA In the USA Mode
91. 7 5 7 3 Tx Output Power Adjustment 7 6 7 3 1 Output Power Adjustment crit tt 7 6 7 3 2 Tx Frequency Adjustment 7 6 Chapter 8 Maintenance 8 1 For Service Massesssusussssenenusussssesanussusussesesesusussesesenesesussesenenssussesesenssussssesesenssussesesenes 8 1 8 1 1 Version 8 2 8 1 2 8 3 1 Output VDM 8 4 2 Output VOD Massesssusussssesesussusussesenesssursesesenesusussesesesssassesesenesessssessusussesenenes 8 5 3 Sentence without checksum Mussesesusesenasusassssesenesussussesesesenssussesesesesssossesese 8 5 4 EPFS Alarm Mussesususursesesesususussesesesusursesesenessesusssesusussesesenesussesesenesusussesenenes 8 6 5 L L SOG COG Alarm 8 6 Content 6 HDG Alarm
92. 70077 lt MS 187 4 gyep 10 4 0000 009 1 HN Due peu ISD 0000 00 56 ANT ST C DSW JO 8 99 3587 vos Jojuq Ae c ung 19 04 9007 517 axa VXL SXI VXL 30N 90 qns qns qns qns doy 99 125 ABSMOIG Lv MO sasodind 10 SI uo UMOYS VEP aur 2895520 HON V HO SOT XL peKejdsrp 00 51 Sd er 8002 120 10 aq pue up 1 ON 1195 29 01 ST ON 594 91 Sururejuoo 1 19215 ary puss ysvopeolg OSIN 8 5 256552 Jo dAL 95 58 105 JO 9 UMOYS 5985591 ou oSvssoJA pues ACIS 1404 5 UINUITXPUL 91 asessoy NPH lt 104 Aq 4 oq ueo oSessoJA Jo pue HOHONV I 9 0N qng qns qng qns qns doy 99 125 ABSMOIG
93. A CPU pies sun S VCCA PLL 1 153 a x m 2 ree Ek CLE Figo EBS 4k v cu BS LET 151 M 2 2 al 24 PLL1 1504 09 ue gla EA GNDC PLL1 149 R198 22 FPGA1_100 5138 32 Es 0 FPGA TNS 584 5 578 ncEO 148 gt 144 584 33 141 FPGA_TCK 144 584 3 3 4 24 MSELO FPGRI STATUS N 144 284 3I MSEL1 148 aus SH4 EPCADCLK DELK 144 RIBS A 22 EK _ 0 11 8 Ris 22 00 2 NPS lelglolololelclelaiels eni A CLKOUT1_P 212 Ev SM S MICE Panas QA S AAA CLKOUT1_N 141 r 40 w SD EAS N 46 2 ERU 503 5 v cem 464 803 FPGA tors 138 EXE a4 LED RX 281 1 5 1 AC 281 canap SOFTEST S SOFT_RST_N 135 Pu LAAT 0287 3 3 1 0 ar 134 Rise 7 B ee FFA RD iss 436 1 5 lt e LEDR 3 repo 3 3 aoe 2 B M 107 BR apa s 3 5 LEDS 54 126 amp Q Fecal 125 18 4 of Cap 124 55 57 3 FEN 3 2 AM CERTE ES or Shee
94. AB Safety related broadcast binary BBM Required to be sent ina message fixed format Disabled responded with eiat MESAJE AEM transmission Safety related addressed ABM Disabled responded with binary message transmission disabled ABK Table 5 1 2 NMEA Output Data Sentence Name Sentence name Data priority Remarks AIS target display data Handling of safety related messages AI VDM Serial output sentences concerning Handling of external received messages applications System control AIS target display data Handling of safety related messages AI VDO Serial output sentences concerning Handling of external messages to be transmitted applications System control Response to BBM Address binary ABK Incorrect input from external devices Response to AIR BBM ABM Regional CH assignment Msg ACA 5 ACS Additional information of ACA Alarm status Al ALR Text transmission Al TXT 5 2 5 2 Block Diagrams 5 2 Block Diagrams 5 2 1 General The FA 50 unit consists of the PWR board RX1 amp RX2 boards and MAIN amp TX board Table 5 2 1 Boards function Board Main features Converts the AIS Rx signals a band of 150 160 MHz to the 1st IF signal in 51 136 MHz and further to the 2nd IF signal in 36 kHz then output them to the MAIN amp TX board Equipped with Pre AMP and a distributing circuit to distribute the Rx sign
95. ASS B AIS TRANSPONDER 05 097 2002 0 INTERCONNECTION DIAGRAM FURUNO ELECTRIC CO LTD 2 gt 5 O5P0809 i BE i GPS TBI24P0043 GPS ANT HUE BP ANT bile ar ee e e THP_SO1X_B1 1 2 of RXLANT 1 THP_so1x 81 1 2 1 34 M1 IRX1 J4 IMSA_9180B_2D8 RKI ST PLL RX1_UNLOCK _ RK CLK PLL RX1 36kHz 36kHz WWW IHSA 91808 208 1 gt gt 1 2 3 4 5 5 7 8 i D gt 5 2 gt gt 2 2 gt gt gt 5 gt gt 2 2 T i Rx2_ST_PLL RX2_UNLOCK a RXe 356kHz RXe 36kHz gt 5 gt 6 gt gt gt 19 gt 20 1 x om man ro 5 FETETETE i GPS GN 80936 2 _ 61 _ 6 RX1 95 1 91805 2 RXILST RX1 UNLOCK RX1_DATA RXILCLK OGND GND AGND AGNO 5 35V AGND AGND 12 1 AGND AGND RX1 36kHZ RX1 36kHZ IMSA 9180S_20A RX2 ST RXe UNLOCK RX2_DATA RXx2_CLK AGND AGND AGND RX2_36KHZ RK2 36kH7
96. DIM Datum reference 4 1 2 5 GNSS Satellite fault detection 4 1 2 Global positioning system fix data 4 1 3 GLL Geographic position latitude longitude 4 1 4 GNS GNSS fix data 4 1 4 Heading 4 1 5 viii Content OSD Own ship 4 15 Recommended minimum specific GNSS data 8 AP4 16 SSD Ship Static Data AP4 16 TXT Text transmission AP4 17 VBW Dual ground water speed AP4 17 VDM VHF Data Link Message AP4 18 VDO VHF Data Link Own vessel 4 18 VSD Voyage Static Data AP4 19 VIG Course over ground and ground speed
97. Distress alert is received the position data of the distressed ship is sent by PFEC sentence to PC MKD Japanese Spc FAISPC_B No output is produced on NAVNET 3 device or Radar 8 1 For Service Table 8 1 5 Time Period of DSC Signal Reception Board for DSC Signal Monitoring Time Board for DSC Signal Monitoring Time Reception each hour Reception each hour RX1 2 5 30 5 59 RX1 2 35 30 35 59 RX2 1 6 30 6 59 RX2 1 36 30 36 59 RX1 2 20 300 20 59 RX1 2 50 30 50 59 RX2 1 21 300 21 59 RX2 1 51 300 51 59 Tips AIS Tx operations during DSC monitoring 1 During DSC signal monitoring if any DSC message has not been received an AIS message can be sent While transmitting an AIS message a DSC message cannot be received During DSC receiving an AIS message cannot be sent When a request for a slot designated transmission FATDMA transmission by MSG 15 is received from VTS the transmission should be carried out despite during DSC receiving Accordingly DSC messages cannot be received at that time When MSG 22 or a DSC management message requests that the AIS operation channel should be specified with CH70 1070 2070 1470 and 2470 this channel is considered as an abnormal channel and the reception mode over the international channel is activated RXA B and the AIS transmission should be terminated The transmission will resume when the ship left the designated area Whe
98. Dynamic Data eee eee eee eee ee eee ee eee eee eee eee eee eee eee eee eee ee eee ee eee AP3 1 2 Static 2 3 Transmitting Short Messages na AP3 2 4 Initialization Report n AP3 2 5 Packet Format AP3 3 6 Carrier Sense CS Detection Meike AP3 3 7 Reporting Method AP3 4 AP3 2 VDL Messages PPE eee eee eee eee eee reer eee eee eee eee eee eee eee eee eee eee eee eee eee eee eee AP3 5 AP3 3 Configurations of Transmission Messages 6 AP3 3 1 Message 14 eee ree reer etree reer eer etree reer tree eer etree eee eee eee eee eee eee AP3 6 AP3 3 2 Message 18 AP3 6 AP3 3 3 Message 24 AP3 8 AP3 3 4 Message 23 Seer etree rete eee er eer etree etree reer etree reer etree reer trees AP3 9 AP3 4 Regional operating esee AP3 11 AP3 4 1 Channel Management eee eee eee eee eee eee ee eee eee eer eee ite AP3 11 AP3 4 2 Assigned Area cene AP3 13 AP3 4 3 Quiet cene AP3 15 vii Conten
99. HEMATIC DIAGRAM FURUNO ELECTRIC LTD No 64442 K07 2 19 AAA 457 lt 10 R327 C384 1008p C322 0 10 lt i 4 3300 LIB 109 1 1900 C368 1000p 70275018 C39 1000 ut uPC 163TB amp ANN 1 ces 5 5 3 cuc MER 902 7 casa 10000 m BND 3 OUTPUT IGND 3 OUTPUT 4 5 C Ju C37 1000 TMP J01X VE 1 2 RM R34 270 C388 1008 C314 1008p L 3 27nH d i LOW2BHN27NJO3L a 5 R98 470 C387 1988 C380 1000p C313 1000 j a 04 5 253075 EC C383 100p 2394 2 2 81 8 2 05 C308 py 100 5 28K3074 TH C377 1000p CR20 131 CR21 KE 5 Lie 39nH N YN LOV2BHN39NJO3L 94 374 1989 148 57419 14 THP J91X V6 LOYAL 1 2 a LOVU2BHNR39J03L C80 100p H ANT 1 c LOH31HNRBBUO3L lt 8396 4 7k 3 C376 1080 CRIS MA2J728 TX 108 330 c18 WA R200 16k C287 0 1u Cl2 165 26 03 12114 7195 5 Ok HAZUT28_1 1 13 TP20 3 6 HK 3 0 T 9 9 To 2338 0 33 9 250 12 C385 1000p 2294 1 lt 8 5 5 v
100. If NG is shown a failure occurs on the GPS receiver MAIN amp TX board 3 RAM It displays a test result of RAM in the GPS receiver Or it indicates Time Out Error when serial communication between FPGA and GPS receiver has failed 4 Antenna This test detects a current flowing through the GPS antenna and check if the current measurement meets the specification value If out of spec is indicated Or it indicates Time Out Error when serial communication between FPGA and GPS receiver has failed 8 26 8 5 DIP Switches and LEDs 8 5 DIP Switches and LEDs 8 5 1 DIP Switches The settings of DIP switches are read in at startup Table 8 5 1 Functions of DIP Switches DPSW Function 4 3 2 1 Code N A OFF OFF OFF 0 At normal operation Clear all except IP address N A OFF OFF ON 1 Same function as selecting Memory Clear gt Without IP Reset Clear IP address and clear DDS offset IVES SOM S BE Initial Setup gt Network Setup menu Clear all and clear DDS offset N A OFF ON ON 3 Same function as selecting Memory Clear gt Factory Reset N A ON OFF OFF MAC rewrite mode used at a factory N A ON OFF ON For development debugging N A ON ON OFF Not used N A ON ON ON For development debugging Note When powering on with any DIP switches set ON the ER lamp red flashes D 8 27 8 5 DIP Switches and LED
101. LAN LAN ARDY LAN CS N LAN DATACS N SHL 218NT OATACS_N V R N 1x08 RD N INTRO RESET 1x03 RIDI 031 gt A 038 THIAR_SH2_88_LP 029 ule RX DV 028 LANSICITINS pexer RK25 d ts ME HIBZNLT 025 cRS108 024 COL 160 023 TXENI8B 022 021 LBK 028 019 018 TPLN 07 015 TPO N ENEEP EESK 5 EEDD 0 LAN cRi2 SRDY N CNTRL N RDYRTN N 283 0 10 lt R260 10k Note 1 pattern only DRAIN T YAMASAKI 05P0814 2 9 bn P0 7 MAIN amp TX3EAR APPROVED 404 ERR SCALE MAS MAIN amp TX PCB No 64442 K03 05 097 2102 0 SCHEMATIC DIAGRAM FURUNO ELECTRIC LTD FURUNO 555 2 5 4 0 21 1 4 501 H4_01 31 B 41 501 008 001 002 003 004 005 006 007 008 009 0919 0011 0012 0013 0014 0015 1 E CPUCSH4 158 207 157 682 25 186 192 25 10k 156 1542516109 1 1 06 I0IS16 N SHA RDY N RESET3V_N
102. LY NN AO ureJ8oJd 8 0079006587 DN AO XL d DN PIO CX3I Jo YOOYS x opur1 T Id Ixy WON 1591 Jepuodsuei DN AO INVI ON AO INVI 1040 0 10 0 0 UOISIOA ET 8 esn 000 DOS STIP po ejdstp are esn ui D 1326 105094 pesn 5105098 au 9 0N 90 90 qns 7 90 405 nuy doy 99 125 ABSMOIG 01 7 unsxoouo os 9909398 g 58812 mdmo Sse 580 puo aBeSSO 11259 55 10 580 2014125 EZIILOOZ a YST190908007 2d PORUM YE LTTA UOISIOA 75119090800 lt PAA X0 T0 c0S S0 UOISIOA 210507 3J0N 90 90 qns 9 405 nuy doy CAA pue 4 YMS ULI AT nuou uo poppe st 1 JO W oue 8 301395 XI pu 2441 diys lt 2816 drys lt dnos uou uonoung lt
103. Reference frequency 25 55 MHz 1 ppm 25 6 MHz 1 ppm 1st Lo frequency Fo 51 136 MHz Fo 51 236 MHz 2nd Lo frequency 51 1 MHz 51 2 MHz 5 5 5 2 Block Diagrams Not used RX Mute ET 1st MIX U1 JPA 36kHz FL1 51 236MH FL2 51 236MH Octal aum 51 2MHz Y1 25 60MHz REF OSC 25 60MHz 12V ST PLL DATA PLL CLK PLL UNLOCK RX2 05P0808B zt Not used M sl Figure 5 2 3 RX2 Block Diagram 5 2 Block Diagrams 5 2 3 MAIN amp TX Board 05P0814 The MAIN amp TX board consists of the functional components including system control digital circuit of input output interface modulation demodulation circuit transmission circuit power supply circuit and GPS receiver 1 MAIN Circuit Dio SW REG Block lt 124 43 3V 45V 18 432MHz 4 gt FPGAReset 220MHz Flash ROM 4MByte 18 432 SDRAM Rx Block 3 2MByte SDRAM X 2MByte 12V 3 3V 1 8V RX1 05P0808A L LI RX2 05 0808 Tx Block 18 432MHz FPGA Reset N SDRAM 16MByte FPGA 1 LAN Fo KOE LAN Data GPS ANT GN 8093G lt RS 422 ___ gt 422 4 MAIN amp TX 05P0814 Figure 5 2 4 Digital Circuit Diagram 5 7 5 2 Block Diagrams The digital circuit co
104. S ALR GGA VDM VDO VTG ZDA TXT PFEC LED indication series data output 12 to 24 VDC 2 0 to 1 0A 8 ENVIRONMENTAL CONDITIONS 8 1 Ambient temperature Antenna unit Transponder 8 2 Relative humidity 8 3 Degree of protection Antenna unit Transponder 8 4 Bearing vibration 9 COATING COLOR 9 1 GPS antenna unit 9 2 Transponder 30 C to 70 C 15 C to 55 C 93 at 40 C IPX6 IP20 IEC 60945 9 5 2 5 1 3 Appendix 2 Channel Lists The operation channels of Class B CS AIS should be the channels with a bandwidth of 25 kHz specified in R R AP 18 ITU R Rec M 1084 4 The channel numbers assigned to the Duplex channels for the purpose of Simplex operation are determined as described below For Simplex operation of the Ship station frequency 1000 Duplex channel For example for the channel number of 1060 assigned to the channel 60 both transmission and reception are carried out at 156 025 MHz For Simplex operation of the Coast station frequency 2000 Duplex channel For example for the channel number of 2060 assigned to the channel 60 both transmission and reception are carried out at 160 625 MHz Simplex channels are indicated by one tow digit channel number 1 International Mode Channel Ch No Frequency Ch No Frequency 1001 156 05 2001 160 65 1002 156 1 2002 160 7 1003 156 15 2003 160 75 1004 1
105. TS 564 SH4 TCK 301 FPGA_TCK 484 584 pe csap ve TepaDi2g __EPGAZ TP3_ SH4 ACK TPPADI ROTE RESETIV_N RESET3V N 381 986 301 446 FPGMLTPS FPGAP TPT 5A2 FPGA2_1P8 a JE EZ 91805 20A SVAHIZVA Me VA R210 AAA 5884 a 4 HK 3 0 T HK 3 6 T Finn 018 22 RX2 ST PLL2 DTC114EUATIDE RXI ST RIR 22 RELSLPL2 ey gy E spay RX1_UNLOCK 22 RXIUNLOCK2 eye ENE RX2 UNLOCK2 4D REA 3 HEN RX2_DATA PLL2 R17 22 EXLOK PU DD 4 RTI A A 22 RX2 CLK PLL ME 5 6 1 8 E CR SHL 210YT RX LEDe 4862 cach SHL 210HT 3 516 OGND DGND DGND DGND DGND AGNO AGND 45V 12 AGND AGHO AGND AGND 14 12 2 15 12 5 16 AGNO AGND 17 AGND AGND 18 RX1 36KH2 RX1 36KH2 881 RX2_36KH2 19 TX T0 LED2 RKi 36kHZ RXZL3SKHZ 20 7 FLS 0 1 20 2389 8 10 SHL 21
106. Tree 4 1 Web browser Screen iif jets inne wo T eine naib noe 4 1 Chapter 5 Block Diagrams 5 1 System Configuration Mussesssasussesesesususussesenussussssesesenssusenenssassesesenssussesesenenssussesesenes 5 1 5 2 Block Diagrams Massesesusussssesasssusussesesesesasussesesenssassssesenenssussesesenesssussesesenesesseseseseses 5 3 5 2 1 General Massesssususasusarussssesesusussssesesssassssesenesssussesenesesussesesenssessesesesesssussesesenes 5 3 5 2 2 RX1 2 05 0808 PETE TET 5 4 1 RX1 Board 05 0808 5 4 2 05 0808 Massesssusussesesesusussesesenessusussesenenssussesesenssussesesesesesoss 5 5 5 2 3 MAIN amp TX Board 05P0814 Massasssususuesesenssusussssesenssusussesesesssessssessususseseseser 5 7 1 MAIN Circuit Massesususussssesesususussesenessusussesesensmussussesenenssussesesenesssussesessussesenenes 5 7 2 TX Circuit Massesssusussssesanssususuesesenesasussesesenesesussesesenssussssesesenesussssesesenesussesese 5 9 3 SW REG Circuit 5 10 524 PWR Board 05 0809
107. W 2 W 1 5 dB IEC62287 standard about 40 Frequency deviation 500 Hz 8 To change the channel or Tx output power of the other channel return to the step 4 and continue 9 When completing the measurements open the Channel screen from the For Service menu where switch the setting of Channel Selection from Manual to Auto and click OK Tips If the Channel Selection is left unchanged as Manual the settings of Tx Mode Channel and Tx Power specified in the Channel menu are effective in the FA 50 operation Accordingly even when MSG 22 23 containing the regional operation area setting managed from VTS are received the system should operate with the Manual setting values and cannot receive signals from other ships and VTS To confirm the currently operating channel and the Tx output power go to the Own Vessel Data screen from the Top menu 7 2 Measurement of Tx Output Power and Frequency 7 2 2 Transmission Control by S2 on MAIN amp TX Board Procedures 1 Connect measurement equipment Power meter Frequency counter and PC with the FA 50 2 Remove the cover of 50 3 Turn ON S2 While the transmission state is kept for 15 seconds measure the Tx output power and the frequency Push SWe with thi or the like through the hole of shield cover Tx output power standard 1 W 2 W 1 5 dB IEC62287 standard about 40 Frequency deviation 500 Hz
108. a Yes Yes Yes GLL Geographic position latitude longitude Yes Yes Yes GNS GNSS fix data Yes Yes Yes HDT Heading true Yes Yes Yes LRI Long Range Interrogation Yes No No LRF Long Range Function Yes No No 1 B Range Reply with destination for function request Yes No No IRI Reny with destination for function request 0 207 with destination for function request l Yes No No OSD I Own ship data Yes Yes Yes RMC Recommended minimum specific GNSS data Yes Yes Yes ROT Rate of turn Yes No No SSD Ship Static Data Yes No Yes Al TXT Text transmission Yes No Yes VBW Dual ground water speed Yes Yes Yes Al VHF Data Link Message Yes Yes Yes Al VDO VHF Data Link Own vessel message Yes Yes Yes VSD Voyage Static Data Yes No Yes Course over ground and ground speed Yes Yes Yes ZDA Time and date No Yes Note ZDA uses the data derived from the built in GPS the external GPS are not used AP4 1 Appendix 4 IEC61162 Sentences AP4 2 Handling of Sentences AP4 2 1 Overview 1 Handling of messages Message FA 30 FA 50 FA 150 d 6 Addressed Binary Message No No Yes ABM 12 Safety Related Addressed Message No No Yes BBM 8 Binary Broadcast Message No No Yes ABM 14 Safety Related Broadcast Message No Yes Yes BBM
109. al up and Virtual Network settings Local Area Network LAN Settings PR onsole Sun Jaya Automatic configuration Automatic configuration may override manual settings To ensure the use of manual settings disable automatic configuration L1 Use automatic configuration script Local Area Network LAN settings LAN Settings do not apply to dial up connections Settings 7 Choose Settings above For dial up settings Proxy server o Use A proxy server For your LAN These settings will not apply to dialagp or VPN connections Choose Settings if you need to configure a proxy server for a connection p i Internet Options Coen 1 4 Procedures Connect between the PC and FA 50 via the NETWORK port Windows 2000 XP Startup the PC and set the IP address and subnet mask of PC with the values 1 FURUNO FA 50 Micrsoft Inte et Explorer File Edit View Favorit gt x Address 172 31 24 3 corresponding to the network address of FA 50 Click My Network Places gt Properties 1 1 Overview gt Local Area Connections Properties gt Internet Protocol TCP IP gt Properties and then set the IP Internet Protocol TCP IP Properties General the appropriate IP settings Obtain an IP address automatically Use the following IP address i IP ad
110. als to the RX2 board Not compatible with the RX2 board RX1 05 0808 Converts the AIS Rx signals in a band of 150 160 MHz to the 1st IF 2 signal 51 236 MHz and further to the 2nd IF signal in 36 kHz then 05P0808B output them to the MAIN amp TX board Not compatible with the RX1 board Consists of the functional components including system control digital MAIN amp TX circuit of input output interface modulation demodulation circuit 05 0814 analog circuit of the transmission part which produces 1 W and 2 W outputs power supply for the analog digital circuits and GPS receiver The power input of 12 to 24 VDC is converted by a switching regulator supply to provide 12 VDC output It consists of the components including diode protected reverse connection protection input low voltage protection amp input over voltage protection output short circuit protection device with a poly switch PWR 05P0809 PWR 05P0809 J2 J1 12 24VDC COM POWER J17 TD A B J9 COM RD A B MAIN amp TX 05P0814 10 100BASE T Figure 5 2 1 FA 50 Block Diagram 5 3 5 2 Block Diagrams 5 2 2 RX1 2 Boards 05P0808A B The RX1 2 boards convert the AIS Rx signals in a band of 150 160 MHz to the IF signal in 36 kHz 2nd IF to output to the MAIN amp TX board Table 5 2 2 RX1 2 Boards specifications Item Specifications TDMA 156 025 MHz to 162
111. an IP address of the Router Used to process the PFEC sentences for 10000 connecting with PC MKD The actual port number Refer to 2 70 is 1033 obtained by adding 33 to this number Other port numbers are not acceptable A host name used by NavNet is selected from AISO AISO 159 Host Name AISO AIS9 When multiple FA 50 are connected in the NAVNETS network the same host name should not be used for the different machines By request from a connection device which Auto transmits data such as NAVNETS data output is performed Without identifying a destination the output of AIS Continuous AIS data VDO VDM etc is continuously produced Refer to 1 List of Output Sentences in AP4 6 Without identifying a destination the output of GPS data is continuously produced GPS data includes position data COG SOG VTG AIS Data Without identifying a destination the output of time Output data is continuously produced Time data is ZDA Without identifying a destination the output of AIS VDM VDO and GPS data is continuously produced Continuous Without identifying a destination the output of AIS AIS ZDA VDO VDM and time data is continuously produced Continuous Without identifying a destination the output of GPS GPS ZDA and time data is continuously produced Without identifying a destination the output of AIS AIS GPS ZDA VDO VDM GPS and tim
112. are derived from the same GPS receiver As a requirement a GPS receiver must be built in the system Optionally GPS data from external devices can be used In this case the following conditions must be met The datum of the external GPS should be WGS84 And the DTM sentence is outputted and the coordinates of WGS 84 are determined A valid RAIM sentence GBS should be received and expected deviations of the latitude and longitude should be less than 10 m AP3 1 Appendix 3 Class AIS CS System The external GPS determined position should be within 26 m of the built in GPS determined position The data format complies with IEC 61162 1 including Mode Indicator and Check Sum Note It is not required to connect Class B AIS device with the external GPS data The heading data input is also optional No ROT data is included in the report so that its input is not necessary 2 Static Data Class A AIS device transmits static data reports using MSG 5 Class B AIS device does this using MSG 24 24A 24B As with Class A these messages are transmitted every 6 minutes A message should be also transmitted when a data change occurs These messages should be transmitted separately in two parts where MSG 24B is transmitted within 1 minute following MSG 24 MSG 24A Ship name etc MSG 24B Ship type Cargo type Vendor ID Call sign Ship size etc 3 Transmitting Short Messages Class A AIS device is allowed to transmit all of the foll
113. at transmission is normally conducted During transmission TX LED on the panel should light up in blue No settings required PWR 05P0809 Check if the board normally turns on Summary 7 Menu Tree For details refer to Chapter 4 The numbers shown under the items respectively indicate the corresponding page numbers Top Menu Initial Setup Own Vessel Data Message Alarm Status 8 21 Sensor Status 8 23 Tests Silent Silent Mode Tanker Mode 2 10 8 20 COM Port 2 2 Network 2 5 Ship Static 2 8 Own Static 2 11 View Channel 2 12 Send Message 2 15 TX Log 2 16 RX Log 2 17 Type UTC Description Transponder Test 8 24 GPS Test 8 25 Normal Silent Normal 1W Data Type TX Speed RX Speed MAC Address IP Address Subnet Mask Gateway Address NavNet Port Number Host Name AIS Data Output MMSI Ship Name Call Sign Internal Antenna Position External Antenna Position Ship Type MMSI Ship Name Call Sign Internal Antenna Position External Antenna Position Ship Type Cargo Type Cargo Type Edit RX1 RX2 Power Region List Group Assignment Select Message Send No Date Time CH Message Flag No Date Time MSG CH MMSI Text Flag Detail Version CPU1 RAM CPU2 RAM ROM RX1 RX2 TX Version ROM RAM Antenna
114. cator Use Sentences without checksum are also retrieved O Don t use Sentences without checksum are not retrieved For a sentence with checksum its checksum is checked and if an error is found it is not retrieved 8 1 For Service 4 EPFS Alarm When a position data from the external GPS is lost or invalid whether or not to issue the External EPFS lost alarm is determined No connection to the external GPS should designate a setting of The position data sentences including GNS GGA RMC and GLL are individually given a different priority depending on the presence or absence of the positioning mode Priority of the relating sentences is described below GNS gt GLL with the Mode indicator gt GGA gt RMC with the Mode indicator gt GLL without the Mode indicator gt RMC without the Mode indicator 5 L L SOG COG Alarm When L L position data SOG Speed over ground or COG Course over ground data from the built in external GPS Note is lost or invalid whether or not to issue either alarms below is determined Note If the built in GPS does not determine positions no external GPS data is used Therefore this alarm means an error on the built in GPS L L no sensor position in use SOG no valid SOG information COG no valid COG information When determining the validity of L L SOG or COG data it takes 30 seconds to determine that it is valid while 5 seconds invalid Priorit
115. ce is used to provide information collected for AIS broadcast communication To summarize the data a 6 bit field type is used This sentence has the same structure as VDM VDO x x X a S s x hh lt CR gt lt LF gt ab cde f a Total number of sentences needed to transfer the message 1 to 9 b Sentence number 1 to 9 c Sequential message identifier O to 9 d AIS Channel or e Encapsulated ITU R M 1371 radio message f Number of fill bits 0 to 5 AP4 18 Appendix 4 IEC61162 Sentences VSD Voyage Static Data This sentence is used to input information about a voyage This information changes on rare occasion during a voyage a b c d e f g hi a Type of ship and cargo category to 255 b Maximum present static draught 0 to 25 5 meter c Persons on board 0 to 8191 d Destination 1 20 characters e Est UTC of destination arrival f Est day of arrival at destination 00 to 31 UTC g Est month of arrival at destination 00 to 12 UTC h Navigational status 0 to 15 ex O under way using engine 1 at anchor 2 not under command etc i Regional application flags 0 to 15 VTG Course over ground and ground speed This sentence provides the data of speed over ground and course over ground VTG x x T x x M x x N x x K a hh lt CR gt lt LF gt a b a Curse over ground degrees true b Curse over ground degrees magnetic c Speed over ground knot d Speed o
116. ck Sum should be satisfied 1 GENERAL 1 1 Type 1 2 RX capacity 1 3 RX system 1 4 Synchronous framing 1 5 Operating mode 1 6 Frequency switching 1 7 Prevention of abnormal TX 1 8 Regulations 2 TRANSMITTER 2 1 Frequency range 2 2 Output power 2 3 Channel interval 2 4 Frequency deviation 2 5 Transmit speed 2 6 Spurious Emission 3 AIS RECEIVER 3 1 Frequency range 3 2 Oscillator frequency 3 3 Intermediate frequency 3 4 Receiving system 3 5 Sensitivity 3 6 Error at high input level 3 7 Co channel rejection Appendix 1 Specifications Class B AIS Transponder 2250 report minute 1channel 4500 report minute 2channel CSTDMA dual wave simultaneous reception Indirect synchronize from external oscillator Autonomous Assigned polled interrogation response Automatic Auto suspend for detecting TX more than 1 second IMO MSC 140 76 IEC 62287 1 ITU R M 1371 2 DSC ITU R M 825 3 IEC 60945 ed 4 adopted 156 025 MHz to 162 025 MHz F1D 1 2 W 25 2 3 ppm or less 9600 bps 50 ppm 9 kHz to 1 GHz 36 dBm or less 1 GHz to 4 GHz 30 dBm or less 156 025 MHz to 162 025 MHz DSC 156 525 MHz 1st local oscillator f 51 136 51 236 2nd local oscillator 51 1 51 2 MHz 1st 51 136 51 236 MHz 2nd 36 kHz Double conversion superheterodyne 107 dBm PER 20 or less 7 dBm 10 dB 3 8 Adjacent channel selectivity 70 dB 3 9 Spurious response 70 dB 50 MHz to 520 MHz AP1
117. d If the Power field indicates W Manual Manual has been specified by selecting For Service gt Channel gt Channel Selection 2 12 2 4 Own Vessel Data Region List It displays nine different areas in the list An area is determined by the coordinates of the upper right corner and the lower left corner of the rectangular region The coordinates indicated with High Sea stand for Region Zone international waters where Message 22 has not been yet received from the base station Hi Sea When Message 22 is received following the instructions described in the message the area is determined by the latitude and longitude and if entered into that area Local Frequency Operation effective in the instructed channel becomes active Click Detail to see the details FA 50 Region List Region List No Lat NE Lon NE Lat SW Lon SW ChA ChB TX Detail 1 HighSea High Sea High Sea High Sea 2087 2088 AB AN High Sea Default FA 50 Region Detail 5 1 6 Time J 7 Lat NE High Sea 8 Lon NE High Sea 9 Lat SW High Sea Lon SW High Sea Ch A Band 2087 Default setup menu Ch B Band 2088 Default TRX Mode TxA RxA RB Zone Power 5 nm 12 577 Enter High Sea Own Vessel Data Region List Fhip 172 FA 50 Region List Region List No Lat NE Lon NE Lat SW Lon SW 1 35000
118. d The input sentences relating to position data include GNS GLL GGA and L L No sensor position in use It is displayed when no position data is inputted from both internal and external GPS devices or when Invalid data is detected on both inputs The input sentences relating to position data entered from the external device include GNS GLL GGA and RMC SOG valid SOG information It is displayed when no SOG data is inputted from both internal and external GPS devices or when Invalid data is detected on both inputs The sentences relating to SOG include VBW RMC VTG and OSD COG No valid COG information It is displayed when no COG data is inputted from both internal and external GPS devices or when Invalid data is detected on both inputs The sentences relating to COG include VBW RMC VTG and OSD Where VBW is used only when HDT is effective HDG Heading lost invalid It is displayed when no heading data is found or when the data is Invalid The sentences relating to heading include HDT HC invalid and OSD Where VBW is used only when HDT is effective 8 22 8 3 Sensor Status 8 3 Sensor Status The status of sensors currently used is displayed FA 50 Sensor Status Internal GPS in Use Internal SOG COG in Use lt lt Top Menu Table 8 3 1 Details of Sensor Status Status Display Description UTC Clock Lost UTC is lost External DGPS in Use External DGPS is i
119. d 14 Safety Related Broadcast Message s Opt Transmit with predefined text only Class 5 shall respond to interrogations for Message 18 and Message 24 15 Interrogation 152 It shall also respond to interrogations for Message 19 by a Base Station 16 Assigned Mode Command No No Message 23 is applicable to the CS instead 17 DGNSS Broadcast Binary Message 18 Standard Class Equipment Position Opt Yes A Class 5 AIS shall indicate 1 for CS in flag Report Yes bit 143 19 Extended Class B Equipment Opt Yes Transmit ONLY as response to Position Report Yes Base Station interrogation 20 Data Link Management Message Yes No Opt 21 Aids to Navigation Report Yes No 22 Channel Management Message Yes No ae function may be different in certain 23 Group Assignment Yes No 24 Class B CS Static data ee Yes There are Part A and Part B AP3 5 Appendix 3 Class B AIS CS System AP3 3 Configurations of Transmission Messages AP3 3 1 Message 14 Use of Safety Related Broadcast Message The contents of Message 14 should be preconfigured and the transmission should not exceed one time period The table below specifies the maximum number of data bits used for Message 14 and based on the assumption that the theoretical maximum of stuffing bits will be needed Number of time periods 1 136 36 56 Maximum data bits Stuffing bits Total buffer bits
120. d antenna of FA 150 1 2 Yes It can be used on both equipment Q13 How much is the power source voltage 5 11 3 2 FA 50 operates on a power supply voltage from 9 6 to 31 2 VDC If the power supply voltage goes out of spec an input low voltage protection circuit or an input over voltage protection circuit is activated to prohibit from power on And functions of short circuit protection and power supply reverse connection protection are implemented by a midget fuse 125 V 4 A This fuse is installed on the MAIN amp TX board Q14 What is a password It is described in Furnuno Information FQ4 2009 014 A password to access the For Service menu is same as the one for GMDSS for example FS 2570 To enter the Ship Static Edit menu from Initial Setup Login Name furunoservice and Password model name must be entered Q15 How to connect to the Radar 1 8 FR 8002 series Radar cannot directly connect to the FA 50 IF 1500AIS interfaces between the COM port FA 50 and the NMEA port FR 8002 It is because FR 8002 is not provided with a function for screening and sorting AIS targets IF 1500AIS does this process and outputs the results by PFEC sentences to FR 8002 FR 2xx7 series Radar can be directly connected to the COM port 9 amp Q16 How to setup the connection between FA 50 and NAVNET 3 2 7 Firstly establish a LAN connection To setup NAVNET 3 select Installation Wizard gt DHCP Server and set it ON t
121. dress 172 31 24 10 205 208 0 D Subnet mask Default gateway Use the following DNS server addresses Preferred DNS server Altemate DNS server Advanced Windows VISTA Click Start gt Network gt Properties gt Local Area Connections gt Properties Specify the IP address with 172 31 24 xxx Yolen gatos treaty tye at where xxx is an arbitrary number up to 254 except 3 Note The IP address of FA 50 is 172 31 24 3 Specify the subnet mask with 255 255 0 0 Control Network Connection gt gt Internet Protocol version4 TCP IP v4 gt Properties and then set the IP Start the Internet Explorer IE and follow the steps below Select Tools gt Internet Options gt General gt Temporary Internet Files Settings gt Check for newer versions of stored pages and then place a checkmark on Every visit to the page Tptions up Bio Manage Add ons Synchronize Windows Update Address You can change which page to use for your home page http 1172 31 24 3 FA 50 Use Current Use Default Use Blank Every time you start Internet Explorer Internet Temporary Intemet files F Pages you view the Intemet are stored in a special fo for quick viewing later O automatically O never Temporary Interne
122. e not mandatory The position data and SOG COG data are normally retrieved from the built in GPS The COM port can be also connected with an external display device for example Radar displaying AIS targets Depending on the connection type the setting of the jumper 14 on the MAIN amp TX board is required in addition to the settings of COM Port Setup FAISPC MX English Spec FAISPC B Japanese Spec Ethernet 10 100Base T VHF ANT EXT DISPLAY Power COM Port Cables No Color Signal COMPOWER gea NAVaet 4800bps 38 4kbps RADAR white TDA n 2 Blue TD B o 3 Yellow awo 1 senson 28089 4 Green RD C or Brown GND HIER 5 Red Power thick supply 6 Black Power Figure 2 1 1 COM port Connection thick supply U4 COM SN56LBC179DR RS422 TD 2 1 50 47 RS422 RD 3 RDH Reis 836 40 4 RDC U16 R216 100k 5 0V FPGA 1 100k RS422 1EC61162 1 NMEA RD 470 t CR29 Figure 2 1 2 COM port Input output Circuit 2 2 2 1 COM Port Setup 1 J14 Jumper Setup Settings on the J14 jumper can define Rx data input specifications of the COM port The Tx data output specifications are based on RS 422 T
123. e 1 sip drug 70 195824 0 SUUSTA 0 snp Jo drys 0 21njn p Eo 5 drys 9569 1m euor J J 4 NUEL og ae raSuasseg OSH yer prosa 19559 SIM PASIN 2990 8 9 7 I 0c 61 0I 6 1811 AUS 9191 99 125 ABSMOIG Chapter 5 Block Diagrams 5 1 System Configuration The FA 50 is Class B AIS device using CSTDMA Carrier Sense TDMA technology and consists of an AIS transponder unit and a VHF GPS antenna unit Two types of antennas are supplied and users can select either one according to their need 1 Combined antenna consisting of VHF GPS antennas GVA 100 Distributor DB 1 equipped 2 VHF GPS separate type VHF antenna FAB 151D or 150M W2VN GPS antenna GPA 017S or GPA 017 Combined Antenna FAB 151D or GVA 100 150M W2VN FAISPC MX English Spec NETWORK FAISPC B Japanese Spec Ethernet 10 100Base T VHF ANT NAVnet VX2 NAVnet 3D EXT DISPLAY NAVnet VX2 GPS ANT COM POWER 5 4 or IF 1500AIS FR 8002 Figure 5 1 1 System Configuration Diagram of FA 50 GPA 017 or 5 422 GPA 017S 4800bps 38 4kbps E NAVNS 7 1 EXT DISPLAY Plotter ECDIS t Pil t or ilot plig 1 TN GPS GYRO SAT Compasss 12 24VDC Speed LOG 1 1 t 1 The ex
124. e channels From this menu select Cargo Type Edit to make a setting A user can make a setting according to the Cargo 2 4 1 Own Static Own Static In this screen the data registered in the Ship Static Edit screen from the Initial Setup menu is displayed El FA 50 Own Vessel Data Own Static View Channel MMSI 432456789 RX1 CH 2087 International Ship Name FURUNO RX2 2088 Call Sign JAAA Power 2W Internal Antenna Position A20mB5mC2mD3m Region List External Antenna Position AOmBOmCOmDOm Ship Type 3 Vessel Cargo Type 0 Fishing Cargo Type Edit lt lt Menu F UR UN Cargo Type Edit According to the Ship Type follow the instructions described below A user can make a selection according to the Cargo type When the Ship Type is 7 Cargo Ships 6 Passenger ships 8 Tanker s 2 WIG 4 HSC or 9 Other types of ship select a Cage Type from the list as shown below D All ships of this type All ships af this 1 Carrying DG HS or MP IMO hazard or pollutant category X 2 Carrying DG HS or MP IMO hazard or pollutant category Y 3 Carrying DG HS or MP IMO hazard or pollutant category Z 4 Carrying DG or MP IMO hazard or pollutant category 05 5 Reserved for future use 6 Reserved for future use 7 Reserved for future use 6 Reserved for future use 9 additional information
125. e data is continuously produced Note When AIS Data Output is specified with Continuous GPS GPS ZDA or ZDA the output of AIS related data is not produced and no AIS target is displayed on NAVNET 3 or Radar Even when NAVNET 3 is connected and the setting which produces no AIS data output such as Continuous GPS is selected the AIS data output can be produced by operating from NAVNET 3 2 6 2 2 Network Setup Reference List of Port Numbers used by FA 50 LAN port number Remarks For control purpose port for communication with NAVNET Common 10010 NAVNET NAVNET Common 10011 Port for program update Shared with 183 NAVNET Private 10021 AlS related NMEA data MAX SEA connection VDO VDM HDT ALM TXT etc 10033 Port for PC MKD Japanese Spc FAISPC_B NAVNET Private 10000 connection PFEC VDO VDM etc HDT HDT L L SOG COG ZDA L L SOG COG ZDA VDO VDM VDO VDM Y EXT Sensor HDT INT GPS L L SOG COG ZDA HDT EXT Sensor EXT Sensor HDT NAVNET L L SOG COG ZDA EXT Sensor Connection Example 1 NAVNET Connection Example 2 when sharing the built in GPS when sharing the external sensor Example of NAVNET settings When sharing Heading Data with FA 50 Select Installation Wizard and set DHCP Server to
126. ecting a Yes Yes every 15 seconds communication error Command for switching port PFEC idar attributes Yes Yes At each event 2 Comparisons on Output Data among FA 30 50 and FA 100 150 FA 30 FA 50 FA 150 ABK Yes Yes Yes ACA Yes Yes Yes ACS Yes Yes No ALR Yes Yes Yes TXT Yes Yes Yes VDO Yes Yes Yes VDM Yes Yes Yes LRF No No Yes LRI No No Yes LR1 No No Yes LR2 No No Yes LR3 No No Yes Yes Output No No output AP4 6 Appendix 4 61162 Sentences FA 30 FA 50 FA 150 VDO MSG MSG 1 2 3 5 Actual VHF No 6 7 8 11 12 ir 13 14 19 24 transmission 13 15 MSG number of NULL PIED MSG18 MSG 1 VDO or 18 amp 24 MSG24 MSG 5 When MMSI undefined 2 No output NULL VDO output When MMSI ACS not undefined NULL output NULL output MMSI of area editor MMSI field of ACS PP When MMSI undefined Message to other No output No output No output ships Note3 UTC field in ALR Time of occurrence when UTE undefined NULL output NULL output NULL output af alarm Time of area UTC field in ACA switching when UTC undefined NULL output NULL output Note4 Time of area addition UTC field in ACS ACS not when UTC undefined NUE ouput supported Switching by the menu MSG 1 amp 5 or MSG 18 amp 24 or MSG 1 amp 5 18 24 alternately Note2 In FA 3
127. ed channel is not available lt lt Service Menu When completing click OK 5 Return to the For Service menu and open the Device Test menu 6 Press the Select button in the TX Test screen and select a modulated signal from the pull down menu In this case select a non modulated signal Carrier and click OK FA 50 Service TX Test Select Test Type Carrier 1010101 110011 Test i Test2 33 Training 0101 Data 01010101 Test2 50 Test2 100 3 33 Training 0101 Data 00001111 Testa 50 z Test3 oats For details of Test4 33 Training 0101 Data PRS modulated Test4 50 100 signals refer to Test6 Training 22Bit page 7 7 Messag18 A Bch 1sec Rate For Emission Test2 1Bit For Ramp u 7 2 Measurement of Tx Output Power and Frequenc 7 Click the Start button in the Tx Test screen The Tx Test screen changes Click Start to start a transmission Stop to stop the transmission The Tx output power automatically turns off within 15 seconds Therefore measurement of the Tx output power and frequency must be finished within 15 seconds FA 50 Service TX Test Test Type Carrier Test Status gt Displays a modulated signal selected FA 3 Test Type Carrier I ry Test Status Stop Device Test Device Test Tx output power standard 1
128. em Longitude 2 or 18 Longitude of area to which the assignment applies lower left MSBs of addressed 18 corner south west in 1 10 min or 18 MSBs of addressed station ID 2 station ID 2 180 East positive West negative Latitude 2 or 12 Latitude of area to which the assignment applies lower left corner south west 1 10 min or 12 LSBs of addressed LSBs of addressed 17 station ID 2 station ID 2 followed by 5 zero bits 909 North positive South negative 1 0 broadcast geographical area message default indicator 1 addressed message to individual station s Channel A 1 0 default as specified by channel number bandwidth 1 12 5 kHz bandwidth Channel B 1 0 default as specified by channel number bandwidth 1 12 5 kHz bandwidth The transitional zone size in nautical miles should be Transitional zone 3 calculated by adding 1 to this parameter value The default size parameter value should be 4 which translates to 5 nautical miles Spare 23 Not used Should be set to zero Total number of bits 168 Channel Management Area Operations The area registration can contain 8 different area data at maximum In the fully registered state containing 8 different data if a new area setting is requested by a base station the older area data is deleted in chronological order to accept a new registration If a new designated area includes an area coinciding wit
129. er 3 Parts Location 3 1 FA 50 PWR Green Lights up at power ON ER Red Lights up when an error in ROM RAM or the transmit circuit is detected TX Blue Lights up during transmission Blinking in orange when a transmission timeout occurs Lights up orange when an unregistered MMSI detected RX Yellow Lights up during reception CLASS AIS TRANSPONDER 50 144 Figure 3 1 1 FA 50 GPS ANT NETWORK VHE ANT GPS ANT GND Power 12 24VDC Red Black COM RS 232C White Blue gt TD A B Yellow Green gt RD H C Brown gt Figure 3 1 2 Connection 3 1 3 1 FA 50 125V 4A midget fuse 22 37 1 DIP SW S4 S2 forced Tx SW R25 Q5 BIAS ADJ Y1 16 432MHz m R404 04 BIAS ADJ o S GPS GN 8093G Cyclone 7 R24 Tx output 125V 4A power adjustment midget fuse Figure 3 1 4 Shield cover removed 3 2 3 1 FA 50 PWR 05P0809 PWR 05P0809 05PO808B RX1 05 0808 Figure 3 1 6 board shield cover removed 3 3 3 1 FA 50 Figure 3 1 7 Casing side of the MAIN amp TX board GPS antenna relay board 24P0043 Figure 3 1 8 GPS Antenna Relay board 3 1 FA 50 Switching frequency check Between TP4 and 3 170 kHz to 230 kHz R2 12 VDC AVR ADJ Figure 3 1 9 PWR Board 05P0809 2 05PO808B
130. eriods Tl RI 3 or 10 s Interval TI centred around NTT whichever is less Candidate Period CP Time period where a transmission attempt is made excluding time periods indicated unavailable Number of CP in TI 10 EM NTT 0 5TI NTT 0 5TI 1 Randomly define a CP Candidate Period for reporting 10 in the TI 2 Starting with the first CP in TI test for CS and transmit if the status of CP is unused otherwise wait for the next 3 A transmission should be abandoned if all 10 CPs are used then the operation proceeds to the next reporting period AP3 4 Appendix 3 Class AIS CS System AP3 2 VDL Messages MSG FA 50 FA 50 No Message Rx Tx Remark Opt 1 Position Report Scheduled Yes No 2 Position Report Assigned Opt No Yes 3 Position Report Opt No When interrogated Yes 4 Base Station Report ee No 5 Static and Voyage Related Data Opt No Yes Addressed Binary Message No No Binary Acknowledge No No Opt 8 Binary Broadcast Message Yes No 9 Standard SAR Aircraft Position Opt No Report Yes 10 UTC and Date Inquiry No No Opt 11 UTC Date Response Yes No Opt Note Information can also be 12 Safety Related Addressed Message Yes No transferred via Message 14 Shall be transmitted if the option to process Message 13 Safety Related Acknowledge No Opt 12 is implemente
131. et obtained after the adjustment the Too low Tx MAIN amp TX board should be replaced output power Antenna replacement 1 Check the antenna coaxial cable connector The 7 2 connector must be waterproofed 2 Check the coaxial cable connector iconnected on the main unit If it is more than 500 Hz the MAIN amp TX board must be deviation replaced Summary Problem Symptom and check items ee Select Tests and run the GPS test If any NG items are Reception found the MAIN amp TX board must be replaced disabled Check that the voltage of 5 VDC is applied on the GPS antenna terminal If not applied the MAIN amp TX board must be replaced Antenna replacement are 1 Check the antenna coaxial cable connector Note that 8 29 no water leakage is observed on the connector Frequently lost 2 Check the coaxial cable connector iconnected on the main unit Tip To monitor the GPS data select For Service gt Monitor gt GPS If no external GPS is connected select For Service gt 54 NMEA gt EPFS Alarm and set it OFF If the external GPS is connected via the COM port select For Service gt Device Test and run the COM Port EPFS alarm Test If NG the MAIN amp TX board must be replaced 8 13 Before starting the test make a jumper connection between TX and data in the COM port The acceptable sentences are the following 8 14 GNS GLL GGA RMC VBW VTG OSD AP4
132. g at TX Time out Tx error indicator blinking in a cycle of 200 msec when transmission fails 2 or more times Lights up orange when an unregistered MMSI detected 5 8 5 2 Block Diagrams 2 TX Circuit In the TX circuit block diagram shown below and the TX signal is GMSK modulated signal This signal is used to generate an AIS message by controlling DDS from FPGA 2 The TX signal passes through BPF in 150 160MHz is amplified in Q5 and Q4 and finally generates a 2 W or 1 W output The Tx output power is adjusted by R24 to produce an output of 2 W While monitoring the Tx output power when a Tx error is detected for example in the case where Tx output power is detected in spite of no transmission performed or where Tx output power is not detected in spite of transmission performed the ERROR LED red lights up Tips Adjustment at factory No adjustment in field R25 can be adjusted so as to place a voltage of 45 mV between both ends of R41 1Q between TP15 and 20 by a bias adjustment of Q5 about 1 VDC at 2 W output power R404 can be adjusted so as to place a voltage of 20 mV between both ends of R338 0 33 2 between TP19 and 20 by a bias adjustment of Q4 about 150 mVDC at 2 W output power R24 can be adjusted so as to produce an output of 2 W by an adjustment of the Tx output power 3 3VA TX 3 3VA TX ES Buff Buff 12VA 12VA
133. gister the Quiet area the following conditions must be met 1 The own ship should stay in the area designated in the Message 23 2 The values specified in Station Type are identical between this device and he Message 23 0 types of mobile units default 2 All types of Class B mobile stations 5 Class B CS shipborne mobile stations For FA 50 predefined in the program 3 The set value in Ship type and the value in Type of Ship specified in the Message 23 are identical 4 In the Message 23 Quiet Time is specified with a value between to 15 min inclusive 5 In the Message 23 the value of L L is correctly set 6 The own ship should stay outside of the transitional zone 7 The own ship should not operate in the Quiet Mode 2 The Quiet area can be deleted in the following cases 1 When a timeout occurs in the Quiet Mode 2 When the own ship goes out of the Quiet area Once the Quiet area is set the area data shall not be deleted from the database until any deleting condition is met The Quiet area data is not backed up At FA 50 power off the area data shall be deleted 3 Operation modes in the Quiet area in the transitional zone are described below 1 When the own ship stays in the area belongs to both the Quiet area and the transitional zone any commands of the Quiet area are ignored during operation 2 When the own ship has gone out of the transitional zone and the Quiet area with
134. h the registered area that area is once deleted and registered as a part of the new area The existing area should be deleted in the following cases When the registered area is now at a distance of 500 nm or farther from the own ship location When a time period of 5 weeks or longer has elapsed from the date of registration For example if an unauthorized channel such as CH70 1070 2070 1470 or 2470 is requested both channels can operate in the reception mode of the international channel When the channel switches to an international channel by request of an abnormal channel the Mode designated by Message 23 should not be observed until a correct channel is specified by Message 22 or DSC If a channel change occurs due to the event where the own ship enters into a new region or the transitional zone transmissions are prohibited for 1 minute AP3 12 Appendix 3 Class AIS CS System AP3 4 2 Assigned Area This is an area designated by Message 23 transmitted from a base station When the own ship stays in this area the Assigned Mode becomes effective and the transmission rate specified in the Message 18 and the Tx Rx Mode are observed during operation 1 Only one Assigned area is allowed to be registered The Assigned command is effective only for a short time period of 4 to 8 minutes and periodically invoked from a base station To define the Assigned area the following conditions should be fully met 1 The o
135. he same sentences can be received regardless of the settings on J14 Table 2 1 1 Examples of J14 Settings Input Jo selection Jumper Remarks block Transmission RS 422 Reception NMEA 61162 For example Tx data can be connected to the external display device of Radar to display AIS information Rx data can NMEA Example connected to an external sensor such as GPS IEC61162 Therefore 2 lines of connections sensor data and AIS display of Use 1 d ata are supported Note Set a value to Rx Speed in COM Port Setup Tx Speed is fixed at 38 4 kbps Transmission reception RS 422 1 2 3 4 For example pilot plug or Radar set for tow way RS 422 Example communication can be connected of Use 2 Note Set a value to Rx Speed in COM Port Setup Tx Speed is fixed at 38 4 kbps AIS Display VDO VDM etc 23 422 3848995 Radar Pilot Pulag VDO VDM NMEA 4800bps ABM BBM etc Sensor Pos SOG COG HDT Example of Use 1 Example of Use 2 Figure 2 1 3 Location of J14 2 3 2 1 Port Setup 2 COM Port Setup Data reception is allowed regardless of the setting of Data Type The Rx data line specifications can be defined by setting on the J14 jumper The factory default settings as shown below can be applied regardless of the connection type Data Type 61162 Rx Speed Auto FA 50 COM Port Setup Data Type IEC81
136. hen open the Global tag select Data Source and set AIS FA 50 Q17 Although HDG data has not been inputted to the FA 50 HDG data is displayed on the FA 50 screen after connecting to NAVNET 3 2 7 It is because NAVNET 3 is set so as to share the Heading Data with FA 50 To share the Heading data select Installation Wizard gt DHCP Server and set it ON then open the Own tag and select the NMAE Heading connection port where Input Source type should be set to Heading Q18 Although the IP address is entered in the URL field the Web browser screen of FA 50 does not appear 1 4 Make sure that the network setup of the PC has been correctly defined and the network connection is normally established If they are OK the IP address of FA 50 may have been changed To reset the IP address of FA 50 to the initial value set the DIP switch S4 2 to the ON position and reboot the FA 50 Then the DIP switch S4 2 must be reset from ON to OFF Q19 What are the values of the allowable error of Tx power output and the frequency deviation 7 2 According to the IEC62287 standard the allowable error of Tx power output is 1 5 dB frequency deviation is 500 Hz Q20 Where is the adjustment of Tx output power made 7 6 It is made by using R24 on the MAIN amp TX board Using a thin screwdriver R24 can be adjusted through a hole provided on the shield cover To perform a continuous transmission press SW2 the
137. ht corner north east in 1 10 min 180 East positive West negative Latitude of area to which the group assignment applies Latitude 1 17 upper right corner north east in 1 10 min 90 North positive South negative Longitude of area to which the group assignment applies Longitude 2 18 lower left corner south west in 1 10 min 1809 East positive West negative Latitude of area to which the group assignment applies Latitude 2 17 lower left corner south west in 1 10 min 90 North positive South negative 0 all types of mobiles default 1 reserved for future use 2 all types of Class B mobile stations 3 SAR Station type 4 airborne mobile station 4 AtoN station 5 Class 5 shipborne mobile station IEC 62287 only 6 inland waterways 7 to 9 regional use 10 to 15 for future use 0 all types default Type of ship and 8 1 99 see Table 19 of ITU R M 1371 1 cargo type 100 199 reserved for regional use 200 255 reserved for future use Spare 22 Reserved for future use Not used Shall be set to zero This parameter commands the respective stations to one of the following modes eae ode 2 0 TxA TxB RxA RxB default 1 TxA RxA RxB 2 TXB RxA RxB reserved for future use Reporting Interval 4 This parameter commands the respective stations to the reporting interval given in next page Table Quiet Time 4 0 defa
138. identify individual types of messages As of now different types of messages including MSG 1 to 24 are defined MSG 0 and MSG 25 through 63 are not yet defined For details of the message types refer to Appendix 3 8 1 For Service 2 Output VOD NULL VDO Data Link Own vessel Message is an own vessel data including dynamic and static information that is not used for VHF transmission According to the settings as described below a message format used to output the received message is determined On the AIS display device information contained in the received message is displayed in the specified format In other words this setting is used to convert a message format to what is acceptable by the display device to produce an output The message is outputted to the COM port and LAN port ClassA The NULL VDO output is produced using MSG 1 Position Report 5 Static and Voyage Related message Class The NULL VDO output is produced using MSG 18 Standard Class Equipment Position MSG 24 Class B Static data Class A B The NULL VDO output is produced using MSG 1 5 18 and 24 3 Sentence without checksum According to the settings as described below whether or not to retrieve the data in a sentence from the external GPS is determined depending on the presence or absence of checksum attached to the sentence In IEC62287 standard the external GPS data must use sentences including Check Sum and or Mode Indi
139. ie AMD TP5 oe ner Fors awe ROMO Bw 22 AN CM EBSA TES 53 TASS lt 585 et pe 4 3 EPGAL TPS 59 TP3 OO ior zero re Oe FPGA BEO_N 3 Nannaa gt lt gt 52825005555585515155520248 5655505555655655202 866 FECA ELAN 7 y v FPP Sesle al EE LAE taci 4809 CR33 155225 I T 48 3 i Let 5 X 3 34 Fam fias 8 CR34 155226 RIS 22 FPGA BES N EE a st S dj RIS YA 22_ FPGA_BE2_N E ml AAE 4042 i 252 E NNNEN 22 EN 9 E les s ajajaja al e 6644545 da E 98185858 555334 1111 db Be 855818 8 5558896 7 e Lid FPGA_DT 31 0 ob i ds NINE 51558 1 poor Note 1 pattern only YAMASAKI 5 0814 4 9 EMO MAING TXSEAR PUE bs MAIN amp TX PCB SCHEMATIC DIAGRAM SCALE FURUNO ELECTRIC LTD IB 2 BLOCK No NAME REF Dug 04442 0
140. ike the channel management area a concept of transitional zone is not introduced 5 During a stay in the transitional zone the Assigned area data can be shown on the WEB screen 6 Despite during a stay in the transitional zone the Assigned area data can be shown on PC MKD FAISPC 4 The Assigned area data is not backed up At power off the area data shall be deleted AP3 13 Appendix 3 Class AIS CS System 5 To accept the Assigned area the following conditions must be met 1 Dimensions in height and width of the area should fall within a range of 1 to 200 nm 2 The latitudes should be less than 80 degrees north latitude and 80 degrees south latitude respectively 3 The own ship should stay in the area 6 Priorities are assigned to the Assigned area and Quiet area as described below 1 Either the Assigned area or the Quiet area can be specified in one Message 23 so that both areas cannot be specified at a time 2 The Quiet area is given a higher priority than the Assigned area AP3 14 Appendix 3 Class AIS CS System AP3 4 3 Quiet Area This is an area designated by Message 23 transmitted from a base station When the own ship stays in this area the Quiet Mode becomes effective and the periodic messages of Message 18 and Message 24 are not transmitted As a response messages to Messagel5 however the Messagel8 and Message 24 be transmitted 1 Only one Quiet area is allowed to be registered To re
141. in the LAN connection 7 Open the program folder and double click the Batch file nUPFA50 The following Command prompt window appears C WINDOWS system32 cmdexe p x Bet 9 FURUNO ELECTRIC CO LTD 2 5 7 172 31 1 1 is the IP address of the PC 8 Turn on the power of FA 50 Within about 10 seconds a message appears saying gt Paddress 172 31 24 3 G WINDOWS syste m32 cmd exe Oo x N n load 9 Within 10 seconds or so after message gt Ipaddress 172 31 24 3 appears on the screen uploading of a boot program for applications automatically starts and when finished a message saying PO gt finish upload program size 204xxx appears The upload completes within 20 seconds or so WINDOWS syste 32 Network program loading NHUPPG version 4 B n loa URUNO PO gt F inis 6 3 6 1 Updating Program 10 Within a few seconds after the message PO gt finish upload program size 204xxx appeared the messages of PO gt connection Ipaddress 172 31 24 3 and PO finish upload program size 204xxx disappear and only a message saying gt gt my Ipaddress 172 31 1 1 is displayed on the screen 11 PO gt connection Ipaddress 172 31 24 3 message appears within a few seconds And afte
142. ion of MAIN CPU U15 and a creation CPU1 20080606115 98e in a format of yyyymmddhhmm 4 Where X indicates an application B does a version of the boot program 2 27 3ch Displays an exact version of CPU 2 SH4 U31 and a creation CPU 2 date a format of yyyymmddhhmm 20080351756 Y indicates a version of the application program FPGA 01 11 Displays an exact version of FPGA 2 U38 15 and a creation 20071123 date in a format of yyyymmdd 8 1 For Service 8 1 2 NMEA In this menu settings of VDM output VDO output checksum and alarm can be made FA 50 Service NMEA Output YDM ClassB defaultzClassB Output VDO ClassB defaultzClassB Sentence without checksum Dont use defaultzDon t use EPFS Alram Off default Off LILSOG COG Alarm defaultz Off HDG Alarm Of v defaultz Off External GNSS Use default Use Cancel lt lt Service Menu Table 8 1 2 NMEA Menu Items Setting Remarks ____ Select type of output message of VDM Normally Class should be specified All Message _ Select a type of output message of Null VDO PUES DO m i Normally Class B should be specified Use Determines whether to accept a sentence at the 2 external GPS depending on the presence or absence of a checksum Off Determines whether to output an alarm when EPPS Alar On receptio
143. ip To open the Web browser screen enter 172 31 24 3 in the URL field 17231 243 a BES Ban Bre meee 3 12 50 3 Select For Service and enter a password in the Password field then click Login to proceed to the For Service menu this case should be entered in the Password field This is the same as what required when making System settings of GMDSS equipment such as FS 2570 a FA 50 For Service LoginName sewice Password FA 50 Service lt lt Menu lt lt Top Menu 7 2 Measurement of Tx Output Power and Frequency 4 From the For Service menu open the Channel screen and specify a Tx channel and a Tx output power The Tx channel should be specified in the RX1 field The Tx output power should be specified in the TX Power field When completing the settings above in the Channel Selection switch the setting from Auto to Manual and click OK output power should be specified RX2 2088 default 2088 TX AXB RX A B IZ TX A B RX A B 2 defau default Auto In the Channel Selection switch the setting from Channel Select Auto to Manual DSC Time Sharing When setting channels manually confirm that channels are usable in current region AIS information cannot be received in the regions where select
144. larm condition and an alarm acknowledge state of a unit ALR hhmmss ss xxx A c c hh lt CR gt lt LF gt a b cd e a Time of alarm condition change UTC b Local alarm number identifier identification number of alarm source c Alarm condition A threshold exceeded V not exceeded d Alarm s acknowledge state A acknowledged V unacknowledged e Alarm s description text BBM Broadcast Binary Message This sentence supports issuing ITU R M 1371 Message8 Binary broadcast message Messagel4 Safety related broadcast message After receiving this sentence the AIS starts VHF broadcast communication of either Message8 or 14 within 4 seconds The success or failure of this broadcast is determined by both an ABK sentence and the process supporting the issue of the ABK sentence This AIS should be restricted the use of slot and frame as well as the amount of data summarized to be separately sent to them If a message has the length of 5 slots or more or AIS broadcast communication has transmitted 20 RATDMA slots or more at the time of the current frame the AIS returns a receipt notice saying Message transfer has failed by ABK a Total number of sentences needed to transfer the message 1 to 9 b Sentence number 1 to 9 c Sequential message identifier O to 9 d AIS channel for broadcast of the radio message e ITU R M 1371 message ID 8 or 14 f Encapsulated data MessageS8 binary data parameter Messagel4 Safe
145. ltage of 6 to 9 Input Over voltage Protection 27 supply turns off at an input voltage of 34 to L1 1 J1 1 3 5 7 9 RUEF185 Iw _ gt L 12 24VDC MS 1 av Qt T1 021 26 2 4 6 8 10 aes C4 5 12 C2 3 24 Not mount 6V AVR 9 U1 LTC3803ES6 5 DET SW Reg E over Volt Control b La 12V ADJ w Volt R2 9 U4 U3 PC357N1 m MB3771PF POWER 05P0809 4 Figure 5 2 8 Block Diagram of POWER Board 5 11 5 2 Block Diagrams The power input ranging from 12 to 24 VDC is passed through the power supply reverse connection protection diode and the common mode filter in L1 and then inputted to the switching regulator circuit U1 drives Q1 using switching regulator control IC When an out of range power supply voltage is detected in the input low voltage over voltage detection circuit U4 controls U1 switching regulator control to turn off An adjustment of switching power output is made to provide an output of 12 VDC by adjusting R2 Switching frequency check R2 12V AVR ADJ Between TP4 and 3 170kHz 230kHz Figure 5 2 9 POWER Board 5 12 Chapter 6 Updating Program 6 1 Updating Program 6 1 1 Preparation of Update 1 Connections When upda
146. m Cable assy MA 000 159 706 11 1 For NavNet VX2 10 m MJ A6SPFO001 7 200C 000 159 707 11 1 For NavNet VX2 20 m MJ A6SPFO001 7 300C 000 159 708 11 1 For NavNet VX2 30 m 1 3 1 1 Overview 1 1 3 Applications Application Product Name Remarks Provided in the form of CD AIS viewer software developed by MAX SEA English version MAX SEA AIS viewer _ EAISPC MX50 Standard supply Needs to be installed on your World wide raster charts are included FA 30 50 Web browser Not requiring software installation Japanese English screen on your PC and instantly accessible operating on from IE IE 1 1 4 Opening Web browser screen of FA 50 In the Web browser screen setup and maintenance of FA 50 can be performed To open the Web browser screen start Internet Explorer IE and enter the IP address of FA 50 in the URL field Note In the IE window select Tools gt Internet Options gt Connections gt LAN Settings and deselect the checkbox for Use a proxy server for your LAN Unless it is deselected the Web browser screen is not displayed FURUNO FA 50 Microse Internet Explorer and News gt Blocker RN Manage Add ons Address http 172 31 24 3 Wit ws Update 50 General Security Privacy Content Programs Advanced To setup an Internet a Setup Di
147. maximum 9 amp 29 The HDG data inputted from the COM port is not accepted 8 13 8 14 Select For Service gt Device Test gt COM Port Test and conduct a loop back test of the COM port If NG a failure exists on the MAIN amp TX board If talker is the data is invalid Q30 Abnormal operations are observed 8 15 Execute the steps as follows For Service gt Memory Clear gt Factory Rest Q31 What settings are required to be set by a user 2 8 They are items in the menu shown by selecting Initial Setup gt Ship Static Edit If MMSI is not registered the TX LED lights up in orange and no transmission is allowed To other settings the factory defaults can be applied Q32 What items are required to be checked 2 11 8 11 8 19 They include the following Internal GSP should receive signals the registration data in Own Vessel Data is correct and being capable of receiving If a failure is suspected during reception follow the steps For Service gt Device Test gt RX Test Loop Back and run the test Q33 No AIS data is displayed 2 6 Select Initial Setup gt Network Setup gt AIS Data Output check if the setting is Continuous GPS ZDA If so change it to Continuous AIS Q34 About requirements for transmission To start a transmission MMSI registration must be done and the built in GPS has determined positions After power on the system boots up and a reporting process
148. midget fuse 125V 4A 1 Only few Antenna replacement targets can be 1 Check the antenna coaxial cable connector The received connector must be waterproofed Reception is 2 Check the coaxial cable connector connected on the not allowed FA 50 Perform the following steps For Service gt Device Test gt RX Test Loop back Any RX boards indicating NG 8 11 must be replaced Select Tests gt Transponder to run the test Any RX boards indicating NG must be replaced ee ailure In Own Vessel Data check the current operation eo Taw channel If a wrong channel is used set the correct targets can be x 9 operation channel Tips If you are in Regional operating area select For Service gt Channel and change the Mode setting to 2 12 Manual then set an Regional operation frequency for that area to be able to receive the Regional operation area data The MODE setting must be reset to Auto afterward If the Silent menu is displayed on the TOP page of the Web browser screen select Silent and change to 8 20 Normal Transmission is Measure the Tx output power not allowed If no Tx output is measured the MAIN amp TX board must 7 2 be replaced Check if the built in GPS determines positions If not no transmission can be conducted Measure the Tx output power Transmis If the specified output value is not obtained make an sion adjustment of Tx output power If the specified output failure value is not y
149. n b Latitude N S c Longitude E W d GPS quality indicator O fix not available or invalid 1 GPS SPS mode fix valid 2 differential GPS SPS mode fix valid 3 GPS PPS mode fix valid 4 Real Time kinematic Satellite system used in RTK mode with fixed integers 5 Float Satellite system used in RTK mode with floating integers 6 Dead reckoning mode 7 Manual input mode 8 Simulator mode e Number of satellites in use 00 12 may be different from the number in view f Horizontal dilution of precision g Antenna altitude above below mean sea level geoid h Units of antenna altitude m i Geoidal separation difference between the WGC 84 j Units of geoidal separation m k Age of differential GPS data 1 Differential reference station ID 0000 1023 AP4 13 Appendix 4 IEC61162 Sentences GLL Geographic position latitude longitude This sentence provides latitude longitude positioning time and status of the ship GLL a yyyyy yy a hhmmss ss A a hh lt CR gt lt LF gt a b c a Latitude N S b Longitude E W c UTC of position d Status A data valid V data invalid e Mode indicator A Autonomous M Manual input E Dead reckoning D differential S Simulator N Data not valid GNS GNSS fix data This sentence provides positioning data obtained by a combination of GNSS GPS GLONASS Satellite system in the future or individually by them GNS hhmmss ss 111 11 a
150. n at the external EPFS is disabled off Determines whether to output an alarm when L L SOG COG Alarm reception at the internal external GPS L L SOG COG is disabled Off Determines whether to output an alarm when reception at the external HDG is disabled Use External GNNS Determines whether to use the external GPS Don t use 8 1 For Service Example of Alarm Status on the Web browser Screen Note When no alarm occurs Nothing Data is displayed FA 50 Alarm Status Type UTC Description External EPFS Lost LIL Sensor Position in Use SOG No Valid SOG Information COG No Valid COG Information HDT No Valid HDT Information lt lt Top Menu 1 Output VDM VDM VHE Data Link Message is a message received from other ships or VTS According to the settings as described below a message type of the received VDM message is specified to be outputted to the COM port and LAN port O Class A AIS messages of MSG 1 to 63 are outputted Where the messages reporting to other ships are omitted Class B AIS messages of MSG 1 to 24 are outputted Where the messages reporting to other ships are omitted AllMessage AIS messages of MSG 0 to 63 are outputted Where the messages reporting to other ships are included Tips As a number to express a type of message such as MSG 1 or 2 6 binary digits can be used Therefore numbers from 0 to 63 can be used to
151. n setting Channel Selection to Manual in the Channel set menu When RX1 2 is specified with CH70 both DSC reception and AIS transmission are carried out over CH70 When RX1 2 is specified with CH1070 2070 1470 or 2470 AIS transmission reception are carried out over the designated channel 8 1 For Service 8 1 9 Internal GPS In this screen positioning conditions of the built in GPS GN 8093G are displayed The FA 50 can receive the sentences including RMC GBS GSA ZDA and PFEC from GPS If the built in GPS does not determine positions reporting does not start A FA 50 Service Internal GPS Internal GPS LAT 34 44 4612 LON 135 21 2683 E SOGI COG 0 0 kt 96 4 deg MODE STATUS GPS 3D ON ON 28042009 090140 lt lt Service Menu 8 1 10 Edit Message In this screen a message can be edited and sent by executing Message gt Send Message MSG 14 For Class B a message must have been edited before sending FA 50 Service Edit Message Message Select 1 ANCHOR EditMassage ANCHOR Cancel lt lt 5 Menu In Message Select select a number of the message to be edited and edit it in Edit Message A message can contain 16 characters at maximum The following messages have been edited These messages can be edited again 1 ANCHOR 2 AGROUND 3 MAN OVER BOARD 4 STARBORD SIDE 5 PORT SIDE 6 MAYDAY 7 10 undefined 8 19 8 1 For Service
152. n use Internal DGPS in Use Internal DGPS is in use External GPS in Use External GPS is in use Internal GPS in Use Internal GPS is in use External SOG COG in Use External SOG COG is in use Internal SOG COG in Use Internal SOG COG is in use Heading Valid Heading is in use Channel Management After 60 seconds from receiving an area change command Parameters Changed it disappears Table 8 3 2 Sentences used Data Sentences GNS gt GLL with the Mode indicator gt GGA gt RMC with the Mode Position indicator gt GLL without the Mode indicator gt RMC without the Mode indicator VBW gt RMC gt VTG gt OSD SOG Note VBW is used only when HDT is effective Heading HDT gt OSD 8 23 8 4 Tests 8 4 Tests In this screen two options Transponder Test and GPS Test are displayed FA 50 Tests lt lt Top Menu U rR U 8 4 1 Transponder Test FA 50 Transponder Test Version 0550233 01 02 CPU1 CPU2 RAM OK ROM OK RX1 OK RX2 OK TX OK Tests 1 Version It indicates a program version 2 CPU1 RAM It displays a test result of RAM used in the CPU with FPGA built in This test is performed when the Web browser screen opens and the result is displayed here If NG a failure exists on the MAIN amp TX board 8 24 8 4 Tests 3 CPU2 RAM It displays a test result of RAM used in the SH4 CPU This test is pe
153. ng Initial Setup Own Vessel Data and Message MMSI and a ship name specified at installation as well as the settings for external connections are set from the Initial Setup menu To recall Ship Static Edit from this menu Login Name and Password are required For details see Furuno Information FQ4 2009 014 Login Name and Password for this menu differ from those to enter the For Service menu 1 Initial Setup Own Vessel Data COM Port Setup Network Setup Ship Static Edit TNShip Static Edit Login Name Password lt lt Setup The COM port setup defines connections with external display devices such as Radar and the external GPS according to RS 422 specifications You can select from Data Type and TX RX Speed Network Setup The Network Setup defines IP address and subnet mask required to establish LAN connections with the external AIS display devices such as NAVNET and PC MKD according to Ethernet 10 100BASE T standard Ship Static Edit With this menu static data including MMIS Ship Name Call sign INT EXT GPS Antenna Position and Ships Type can be defined The data specified in this menu can be broadcasted as MSG 24A B every 6 minutes 2 1 2 1 COM Port Setup 2 1 COM Port Setup From this menu settings of the COM port can be made On the COM port a sensor signal of Position SOG COG or Heading can be connected These external sensors ar
154. ning system mode depending on the Version of NMEA Depending on the presence or absence of the positioning system mode priorities can be switched Position Pos GNS gt GLL with the Mode indicator gt GGA gt with the Mode indicator gt GLL without the Mode indicator gt RMC without the Mode indicator SOG COG VBW gt RMC gt VTG gt OSD Note VBW is used only when HDT is valid Heading HDT gt OSD RAIM flag GBS 8 Number of decimal places in the sentence when converting to the storage data Position related Discard the fifth decimal place Speed related Discard the fourth decimal place Time related Discard all digits to the right of the decimal point True heading related Discard the fourth decimal place 9 Sentences of from LAN COM port in Common Use According to the setting input output sentences are switched Refer to the section about port attributes and I O sentences 10 Priorities of Ports LAN port gt COM port AP4 4 Appendix 4 IEC61162 Sentences 11 Correlation between NMEA Ver and Sentence Sentence NMEA 1 5 NMEA 2 0 NMEA 3 0 Reference DTM No define No define Yes GNS No define No define Yes GLL No Yes Yes POSITION GGA See Note Yes Yes RMC Yes Yes Yes VBW See Note Yes Yes VTG See Note Yes Yes SOG COG OSD No define Yes Yes RMC Yes Yes Yes HDT See Note Yes Yes Heading OSD No define Yes Yes ROT ROT No define Yes Yes
155. no timeout issued is registered in the database the Quiet Mode becomes active 3 While the own ship stays in the transitional zone if a deleting condition in the Quiet area is met the Assigned area data shall be deleted from the database 4 In the Quiet area unlike the channel management area a concept of transitional zone is not introduced AP3 15 Appendix 4 61162 Sentences AP4 1 List of IEC Sentences used in FA 30 50 150 Sentence I O Description 150 FA 30 FA 50 Al ABK Addressed and binary broadcast acknowledgement Yes Yes Yes Addressed Binary and safety related Message Yes Yes Yes Al Regional Channel Assignment Message Yes Yes No Al ACA AIS Regional Channel Assignment Message Yes Yes Yes Al ACS Additional information of ACA Yes Yes Yes Acknowledgement alarm Yes Yes Yes AIR AIS Interrogation Request Yes Yes Yes AIQ AIS Query Yes Yes Yes Al ALR Setalarm state Yes Yes Yes BBM Broadcast Binary Message Yes Yes Yes Expanded Digital Selective Calling No Yes Yes DSC Digital selective calling information No Yes Yes DTM Datum reference Yes Yes Yes GBS GNSS Satellite fault detection Yes Yes Yes GGA Global positioning system fix dat
156. nsists of CPU FPGA 1 FPGA 2 and their peripheral circuits Main functions are described below Table 5 2 4 Main Functions of Digital Block Component Function CPU Demodulation of IF signal sample data Data backup Slot generation PLL setting CPU function Transmission control of Class B messages Output AIS receipt data Area control Communication with the external units FPGA 1 Handling of sensor inputs signal CPU peripheral circuit LAN interface LAN controller LAN91C111 SMSC 10 100 Base T supported Serial interface GPS COM port Asynchronous serial baud rate 4800 38400 bps 8 n 1 Transmission RS 422 Receipt RS 422 IEC61162 1 Transmission receipt data coding NRZi HDLC Receipt processing CODEC interface Digital filter S LEVEL detection FEGA2 Carrier sense feature Transmission processing Generate DDS reference clock DDS interface modulation of transmission data Table 5 2 5 Functions of Panel LEDs LED Color Function POWER Green Power ON indicator which lights up at power ON Error indicator BITT error controlled by SH 4 is Lights up when an error in ROM RAM or the Tx circuit is detected AIS message Rx indicator which lights up for 50msec at AIS message reception controlled by FPGA 2 Blue AIS message Tx indicator which lights up for 1 sec or longer Blue or at AIS transmission controlled by FPGA_2 D TX Yellow Yellow Blinkin
157. nsmitted MSG 1 2 3 5 6 7 8 10 11 12 13 14 15 MSG 13 14 18 19 24 Types of Messages able to be received All of MSG 1 24 0 63 Where the messages directing to other ships are excluded MSG 1 2 3 4 5 8 9 11 12 14 15 17 18 19 20 21 22 23 24 Where the messages directing to other ships are excluded Communication range 15t 30 nm Ship to Ship 60 nm Ship to Cost 5 to 8 nm Ship to Ship 20 nm Ship to Cost Reporting interval Varies from 2 seconds to 3 minutes depending on the speed over ground SOG course change and NAV Status Note Static data and Navigation related data basically intervals of 6 min SOG gt 2kt at intervals of 30 sec SOG lt 2kt at intervals of 3 min Note Static data and Navigation related data basically intervals of 6 min MSG 24A and 24B Receiving 5 CH70 Equipped with a dedicated CH70 receiver Equipped with a dedicated CH70 receiver or sharing a TDMA receiver with FA 50 Transmitting DSC CH70 Yes No GPS data Pos SOG COG Requests external and internal GPS Requests internal GPS while external GPS is optional Note DTM GBS required If connectable enter the data WGS84 WGS84 HDG data Required Optional ROT data TEST Not required Chapter 2 Initial Setup Introduction This chapter describes the details of various menus includi
158. o sty ug 8800 44 L807 poKtjdsip st SLA bag AS UOT YOM eos AS 271 c cc OSI ur pourejuoo ejep v s HN 8 99 vas AN T 3 6 TON pouueyD ANC lt 10 Surnooxo Teuoneurojup 8807 HO TXA X9 IXA 30N 90 qns qns qns qns doy ABSMOIG POUSISSY ren sv aures 4 0000 00 S T MS sr N 0000 00 rE MS et DSN Jo sjuojuoo ag uo H 0000 009 T HN NO poseq poKe dsrp 000000 lt lt AN poyiqryoid 80195 eun 1527 sasodind 10 SI Ye uo UMOYS our 20 dd JXL VXL PRIN 1uouruS iss y st SLA DSIN Jo 295 eA1o1u 310 8 ou pousissy POATIIOI ST gyep ISI 4 0000 00 SEI 5 porepdn st ewp sir 0000
159. open the pull down menu where a list of modulated signals is displayed When measuring a Tx output power or a frequency select a Modulated signal among the signals from Carrier to PRS which are transmitted continuously in the table below The AIS test signals burst signals one Packet 26 6msec from 2 cannot be used to measure the Tx output power on the power meter Table 7 3 1 Description of Modulated Signals Modulated signal Description Carrier Non modulated signal continuously transmitted for 15 seconds 10101 Modulated signal a series of 1010101 continuously transmitted for 15 seconds 110011 Modulated signal a series of 110011 continuously transmitted for 15 seconds 1111 Modulated signal a series of 1111 continuously transmitted for 15 seconds PRS Modulated signal a series of Random continuously transmitted for 15 seconds PRS Pseudo Random Sequence Test2 33 Training 0101 Data 01010101 Duty 33 1 fram 2250 x 33 742 packets Training 0101 24 bit Data is transmitted by 01010101 168bits Test2 50 Duty 50 1 fram 2250 x 50 1125 packets Training 24 bits consisting of a pattern of 0101 Data is transmitted by 01010101 168 bits Test2 100 Duty 100 1 fram 2250 x 100 2250 packets Training 24 bits consisting of a pattern of 0101 Data is transmitted by 01010101 168 bits
160. or position in use No position data is available Yes No Yes No No valid SOG information SOG SOG Speed Over Ground Invalid SOG data Yes No Yes No No valid COG information COG Over Invalid COG data Yes No Yes No Ground HDG Heading lost invalid HDG data is lost invalid Yes No Yes No No valid ROT information ROT ROT Rate of Turn No HDG data nor TI ROT data Yes No No FAIL System failures in general Yes No Yes 8 21 8 2 Alarm Status TX Tx malfunction It is displayed when no Tx output is detected in spite of CPU performing a transmission operation or when a Tx output is detected in spite of CPU not performing a transmission operation When this error is detected a failure occurs on the MAIN amp TX board CH1 Rx channel 1 malfunction A signal of PLL Unlock Lock in the PLL circuit on the RX1 board is checked When this signal is detected the transmission over the relating channel is suspended It is possible that a failure occurs on the board CH2 Rx channel 2 malfunction A signal of PLL Unlock Lock in the PLL circuit on the RX2 board is checked When this signal is detected the transmission over the relating channel is suspended It is possible that a failure occurs on the RX2 board EPFS External EPFS lost It is displayed when no position data is inputted from the external GPS when data input is suspended for 5 seconds or longer or when Invalid data is detecte
161. orks AIS data is transmitted directing to any number of targets 2 Unicast Designating one address in the same network AIS data is transmitted to this particular target When designating an address in a different network select Initial Setup gt Network Setup and specify Gateway Address with the IP address of the Router IE URL gt FA 50 IP Address PC FA 50 Router PC MKD Network A Network B Network Setup gt Gateway Address gt Router IP Address Unicast gt Post IP gt PC IP Address 8 10 8 1 For Service 8 1 5 Device Test FA 50 Service Device Test TX Test Select RX Test Loop Back Receive Test RSSI Test COM Port Test Service Menu 1 TX Test Refer to Chapter 7 Measurement In the TX Test menu select a modulated signal and control a transmission start operation The signal selected in this menu is modulated on the channel specified in the Channel menu 2 Rx Test Loop Back In this menu the Tx PA circuit is turned OFF to detect a leakage of signal on the RXI and RX2 boards More specifically when a certain message has been transmitted 10 times and if the message can be received 5 times it is judged as OK The signal level is tested using a signal ranging from 60 to 70dBm in terms of SSG For example if RX1 is shown a failure occurs on the RX1 board 8 11 8 1 For Service 3 Receive Test Bn FA 50 Service Receive Te
162. ower LED green lights up The TX LED lights up in blue during transmission or yellow when an unregistered MMSI is detected The RX LED lights up at reception The ERR LED lights up in red when ROM RAM failure or a transmission error is detected It does not mean an error when a sensor input is interrupted Q25 What is the red switch on the MAIN amp TX board for 7 5 This is the 52 switch Pressing this switch brings about a continuous transmission state for 15 seconds to allow measurement of the transmission output and frequency To conduct a transmission control from the menu select For Service gt Device Test gt Tx Test and click Start Q26 Is there any method to cease External EPFS ALM 8 3 Yes Select For Service gt NMEA gt EPFS ALM and set it OFF Q27 How to do a program update Chapter 6 LAN connection of PC and FA 50 should be connected via HUB To update the program click on a batch file nUPFASO and power on the FA 50 Then an update process automatically starts and completes within 20 seconds or so If no HUB is installed use a cross cable to establish a LAN connection and click the batch file and power on the FA 50 immediately Q28 Is it allowed to edit a short message 8 19 Yes To do this select Service gt Edit Message For Class B system such a short message must be a safety related MSG 14 broadcasting to all vessels and have been once edited It can contain 16 characters at
163. owing sentences MSG 6 Addressed Binary Message MSG 8 Binary Broadcast Message MSG 12 Safety Related Broadcast Message MSG 14 Safety Related Broadcast Message Class B AIS device is allowed to transmit only safety broadcast related messages MSG 14 and users should select one from the pre configured messages These messages can contain 16 characters maximum and be transmitted only once in a minute On the Web browser screen of FA 50 open Send Message from the Message menu and select and send a message among the pre edited messages To edit a message go to the Edit Message screen from the For Service menu 4 Initialization Report At power on Class B AIS device monitors TDMA channels for 1 minute synchronizing with the signals received from Class A AIS stations to determine a Carrier Sense CS detection threshold If an empty slot is found MSG 18 as a first report 15 transmitted At power on Class A AIS device monitors VHF links for 1 minute synchronizing with UTC to enter the network MSG 1 as a first report is transmitted AP3 2 Appendix 3 Class B AIS CS System 5 Packet Format In both Class A and B AIS it takes about 26 7 ms to complete a transmission of one packet From Training sequence to End flag a packet is configured in the same manner in both Class A and B Differences are found in the Start Buffer and the End Buffer While a value of 12 bits in the End Buffer is reserved for a distance delay
164. peration is displayed in View Channel of Own Vessel Data 2 RX2 The channel data specified in this field is reflected on the RX2 board By default the international AIS channel number of 2088 is set When Channel Selection is set to Auto the channel changes according to a command issued from the Regional operating areas When Manual the specified channel is effective in operation The channel in operation is displayed in View Channel of Own Vessel Data 8 1 For Service 3 TRX Mode This field is effective when Channel Selection is set to Manual in the mode setting When Channel Selection is set to Auto the Operation mode changes according to a command issued from the Regional operating areas When Manual the specified mode is effective in operation The mode in operation is displayed in View Channel Note RX1 differs from RXA while RX2 differs from RXB In the Regional operating areas 1 could be RxB while Rx2 could be RxA 4 TX Power 2W 1W OW This field is effective when Channel Selection is set to Manual in the Tx power setting When Channel Selection is set to Auto the Operation mode changes according to a command issued from the Regional operating areas When Manual the specified mode is effective in operation The mode in operation is displayed in View Channel At a measurement of Tx power by selecting Device Test gt TX Test a transmission is performed over the channel set in the
165. putted FR 8002 converts it to an HDT sentence to output HDG HDG DIP SW 1 OFF AIS Data DIP SW 1 ON Navigation Data Settings for AIS transponder Settings for Navigation Data output IF 1500AIS The IF 1500AIS is an AIS interface between FA 50 FR 8002 series Radar It screens AIS target information VDM inputted from FA 50 sorts the data by distance range CPA and converts PFEC sentences distance and heading of the target CPA TCPA various alarm conditions to output to FR 8002 The FR 8002 displays AIS targets based on the data obtained as described above Tips The FR 8002 is not provided with the functions for screening and sorting AIS targets which must be processed by IF 1500AIS The FA 150 is however provided with these functions so that the IF 1500AIS is not required Main functions FA 50 lt gt IF 1500AIS lt gt FR 8002 1 Targets sorting function The IF 1500AIS can sort targets based on the condition including any given values of distance or range CPA and TCPA in ascending or descending numeric order and output the results to FR 8002 VDM VDO Alttm Own Vessel Data Output The IF 1500AIS passes the own vessel data VDO from FA 50 It also interfaces an alarm responding process lost target acknowledged ACK between FR 8002 and FA 50 1 1 Overview AIS Information Output The IF 1500AIS can output information of FA 50 alarm status ALR to FR 8002 by request
166. r about 15 seconds uploading of the application program automatically Starts When finished PO gt finish upload program size 1615xxx message appears Updating program is completed within approximately 20 seconds LID nn POf inish upload 12 When a message saying Press any key to continue appears press the Enter key The Command prompt screen closes NDI Syste ind etwork program loading lt NWUPPG gt version 4 43x Copyright lt c gt FURUNO ELECTRIC CO LTD 2002 2005 gt gt IPaddress 172 31 1 1 P gt connection I Paddyss 172 31 24 3 166 x P gt finish upload program Csize 1616159 gt Documents and et ge pl i a ress any key to continue 6 1 Updating Program Reference 1 When the program update is failed To update the program turn ON the power of FA 50 Then the updating starts automatically If the update does not start even after 10 seconds or longer have elapsed LAN connection communication between the PC and 50 has failed Check the connection and reboot the PC and HUB to retry See connection error shown below Connection error ve 23 Program writing error G WINDOWS systemd2 c md 5 oading NH 100 C Documents and Sett ings ZXUPFAbO 0102XBIN pause Press any key continues 6 1 Updating Program
167. r describes the details of various menus including For Service Alarm Status Sensor Status Tests and Silent 8 1 For Service As a service menu the For Service menu is provided to recall this menu a password is required For details of password see Furuno Information FQ4 2008 014 The Login Name and Password required in this menu differ from those to go through Initial Setup gt Ship Static Edit Recall the For Service menu 1 Start Internet Explorer and enter http 172 31 24 3 in the URL field to open the Web browser screen of FA 50 where click the For Service button E 17221243 ZI 7 meee 2 proceed to the For Service menu type in xxxxxx in the Password field and click the Login button This Password is same as that of GMDSS equipment such as FS 2570 FA 50 For Service Login Name serice Service Made Log Out Password Menu lt lt Menu 8 1 For Service 8 1 1 Version In this screen program version can be checked Version CPU 1 CPU2 FPGA Service Menu FA 50 Service Version 0550233 01 02 X1 105 B1 14 57 ac 2 27 3ch 01 00 200806061154 200803051756 20071123 Table 8 1 1 Version Display Item E xis Description Version 0550233 01 0x Displays a version of the FA 50 program X1 105B1 14 Displays an exact vers
168. r display varies as follows Input Error IP Address Input Error Subnet Mask Input Error Gateway Address Input Error NavNet Port Number FA 50 Network Setup Error display area MAC Address 00 00 10 02 60 IP Address 172 031 024 003 172 031 024 003 Subnet Mask 255 255 000 000 255 255 000 000 Gateway Address 000 000 000 000 default 000 000 000 000 NavNetPortNumber 10000 efault 10000 Host Name 60 default AlSO AIS Data Output Continuous AIS ault Continuous AlS lt lt Setup When completing settings click OK button Then on screen as shown below click YES The FA 50 automatically reboots and the settings become effective FA 50 Network Setup You must restart your FA 50 before the new settings will take effect Do you want to restart your FA 50 now It will take about 1 minute to restart your 50 lt lt Network Setup 2 2 Network Setup Table 2 1 3 Settings in Network Setup Factory default Setting Item settings Description Set at the factory Address An address of the LAN controller IP Address 172 031 024 003 IP address of FA 50 Subnet Mask 255 255 000 000 P with a subnet mask address of the Gateway Specified with a gateway address of the network Address Normally it is
169. red button SW on the MAIN amp TX board or select For Service gt Device Test gt TX Test In either case a continuous transmission is allowed only for 15 seconds Q21 Is there any simple way to measure the sensitivity on SSG 8 12 Enter an AIS Rx frequency from SSG and select For Srvice gt Device gt RSSI Test you can see the value you need For an input value of 110 dBm 16 so can be displayed 9 amp 22 Only few targets be received How to check this problem 8 12 8 16 It could be a failure of the antenna Rx sensitivity or operation channel Any failure on the amp 2 boards can be checked by selecting For Service gt Device Test gt RX Test Loop Back Or if you are in the sea area during Regional operating areas select Own Vessel Data gt View Channel to check the current operation channel If the current channel differs from the operation channel specified select For Service gt Channel and set the correct operation channel by Manual to be able to receive area data and perform the Regional operating areas Channel Selection must be reset to Auto afterward Q23 Is it allowed to common use of the Rx A and Rx B 5 4 No It is not allowed because the different Ist IF is used its frequency is 51 136 MHZ on 1 05 0808 and 51 236 MHz on RX2 05 0808 Q24 About the panel LED indicators 3 1 8 27 Normally only the p
170. red messages as STARBOARD SIDE the factory default settings PORT SIDE MAYDAY lt lt 2 15 2 5 Message Log The Tx Log screen displays a maximum number of 20 Logs of the messages sent by Send Message When the number of messages stored reaches to the maximum number the messages are automatically deleted in lastest order Date Time Date and time of ZDA data Displays the channel used for transmission Normally the transmission channel is switched between A and B alternately The channel is determined depending on the setting by For Service gt Channel Message Displays the contents of the sent messages 16 characters at maximum Flag Displays either one of NG stands for in the process of determination while OK stands for successfully transmitted and NG transmission failed Tip If a message appears saying Failed to send the message TX Once a minute it means NG FA 50 TX Log 2 2 gt gt Date Time CH Message 28 APR 2009 06 15 STARBOARD SIDE 28 APR 2009 06 00 ANCHOR OK 28 APR 2009 05 59 ANCHOR NG 28 APR 2009 05 59 ANCHOR OK 28 APR 200 05 58 PORT SIDE NG ANCHOR NG ANCHOR OK ANCHOR G STARBOARD SIDE OK MAN OVER BOARD 28 APR 200 05 58 28 APR 200 05 57 28 APR 200 05 57 28 APR 200 05 56 28 APR 200 05 56 gt UJ UJ UJ GU UJ UJ UJ o 2
171. repeated 0 default 3 do not repeat any more User ID 30 MMSI number Part number 2 Identifier for the message part number always 1 for Part B 0 not available or no ship default d 1 99 as defined in 8 3 3 8 2 3 2 of ITU R M 1371 1 tybe 100 199 preserved for regional use go typ 200 255 preserved for future use Unique identification of the Unit by a Number as defined by the Vendor ID 42 manufacturer option not available default Call Sian 42 Call sign of the MMSI registered vessel 7 x 6 bit ASCII 9 characters 0000090 not available default Dimension of Dimensions of ship in meters and reference point for reported 90 position see ITU R M 1371 1 ce for position Spare 6 Total number of 168 Occupies one time period bits AP3 8 Appendix 3 Class AIS CS System AP3 3 4 Message 23 Group Assignment Command The group assignment command is issued by a base station using an operation management message addressing to Class B AIS stations Numbe Parameter r Description of bits Message ID 6 Identifier for Message 23 always 23 Used by the repeater to indicate how many times a Repeat Indicator 2 message has been repeated 0 3 default 0 3 do not repeat any more Source ID 30 MMSI of assigning station Spare 2 Spare Shall be set to zero Longitude of area to which the group assignment applies Longitude 1 18 upper rig
172. rformed at power on and the result is displayed here If NG a failure exists on the MAIN amp TX board 4 ROM It displays a test result of ROM used in the SH4 CPU It is continuously checked If NG a failure exists on the MAIN amp TX board 5 RX1 It displays a result of checking if PLL Lock Unlock is detected on the RX1 board If Lock is detected it displays OK If a failure occurs on the RX1 board 6 RX2 It displays a result of checking if PLL Lock Unlock is detected on the RX2 board If Lock is detected it displays OK If NG a failure occurs on the RX2 board 7 TX It displays NG when no Tx output is detected in spite of transmission performed or when a Tx output is detected in spite of no transmission performed If NG a failure occurs on MAIN amp TX board 8 4 2 GPS Test Clicking on this button invokes a command for starting a self test toward the built in GPS receiver GN 8093G and the test is started The test results can be seen on the screen FA 50 GPS Test Version 4850264005 ROM OK RAM OK Antenna OK 8 25 8 4 Tests 1 Version It indicates a version number of the program installed on the GPS receiver on the MAIN amp TX board If NG is shown a failure occurs on the GPS receiver MAIN amp TX board 2 ROM It displays a test result of ROM in the GPS receiver Or it indicates Time Out Error when serial communication between FPGA and GPS receiver has failed
173. rved for future use 2 WIG Wing In Ground Effect Craft Vessel fishing boats towing boats sailing boats pleasure boats etc HSC high speed craft Special crafts Passenger ships Cargo ships i Tanker s see next page Other types of ship 10 19 Reserved for regional use 20 25 Reserved for future use Ship Type 3 Vessel Note The initial setting value of Ship Type of the Class B unit must 37 pleasure boat 2 9 2 3 Ship Static Setup Note Tanker Mode Selecting Tanker as Ship Type recall the Tanker Mode where a user can decrease the Tx output power to W In the Tanker Mode an item of Tx Power is added in top page of the Web browser screen and clicking it allows users to manually select 1 W or Normal 2 W of the Tx output power If you have been specify Tx Power by a Manual method from the Channel menu that setting overrides the value selected here as described above Note Unlike FA 150 in the Tanker Mode of FA 50 the Tx output power does not automatically switch corresponding to the Ship Speed or Ship Status PELAWD amp http 17231243 topcei Uo TXPower default Normal 2 4 Own Vessel Data 2 4 Own Vessel Data The Own Static screen displays the data registered in the Ship Static Edit screen from the Initial Setup menu while the View Channel displays the activ
174. s 8 5 2 LED 1 Panel LEDs Table 8 5 2 Functions of Panel LEDs LED Color Function POWER Green Power ON indicator which lights up at power Error indicator BITT error controlled by SH 4 ERROR Red Lights up when an error ROM RAM or the transmit circuit is detected Blue Data transmission indicator which lights up for 1 sec or longer at AIS transmission controlled by FPGA 2 Blue or Yellow blinking at TX Time out transmission error indicator 12 Yellow flashes in a cycle of 200 msec when transmission fails 2 or more times in a row Lights up in orange when an unregistered MMSI detected RX Yellow Data receipt indicator which lights up for 50 msec at AIS reception controlled by FPGA_2 PWR ER TX RX 2 NETWORK port LEDs COM POWER 12 24 VDC LAN communication active normal operation Right hand side LED light up Left hand side LED blinking 8 28 Chapter 9 Q amp A Q1 Can messages be exchanged between Class A and B system 1 13 Yes However the Message number of static data and the dynamic data is different Q2 What are differences between Class A units and Class B CS device AP3 1 While both devices use a same packet format Class A device method SOTDMA Self Organized Time Division Multiple Access technology in synchronization with UTC and Class B device method CSTDMA Carrier Sensing Time Division Multiple Access technology
175. s Tip Memory clear can be also executed by setting a DIP switch S4 on the MAIN amp TX board Refer to Page 8 27 8 15 8 1 For Service 8 1 8 Channel In this screen Channel and Operation mode can be set manually To do a manual setting the setting of Channel Selection should be switched from Auto to Manual When conducting frequency measurement or Tx power measurement the Manual setting is effective FA 50 Service Channel RX1 2087 default 2087 RX2 2088 default 2088 Mode TX AtB RX A B default TX A B RX A B TX Power 2w default 2w Channel Selection Auto 9 defaultzAuto DSC Time Sharing On default On When setting channels manually confirm that channels are usable in current region AIS information cannot be received in the regions where selected channel is not available lt lt Service Menu 1 RX1 The channel data specified in this field is reflected on the RX1 board At a measurement of Tx power by selecting Device Test gt TX Test a transmission is performed over the channel set in the RX1 field and by the Tx output power set in the Tx Power field By default the international AIS channel number of 2087 is set When Channel Selection is set to Auto the channel changes according to a command issued from the Regional operating areas When Manual the specified channel is effective in operation The channel in o
176. splay 1 7 1 Example of NavNet 3 Connection mee 1 7 2 Example of FR 8xx2 Series Radar Connection mmmH mmmmmmH nm 1 8 Example of FR 2xx7 Series Radar Connection mH 1 12 1 2 Overview of AIS Class B Systemen 1 13 1 2 1 Comparison between Class A and B CS 1 13 Chapter 2 Initial Setup Introduction PLUIE ILI LL IEEE TUI 2 1 2 1 COM Port Setup WARRERSRRRARREARREAEREAERASERSARRERERERERAREREERERERERMEAERAEERANARARNE RR RANA AREE RE ARR RN ARR 2 2 1 J14 Jumper Setup XLI RR TLE TLR eR RT ee eT MEMO 2 3 2 COM Port Setup 2 4 Content 2 2 Network Setup cerns EN S NEN ES 2 5 2 3 Ship Static Setup BOCES COO CCR CLT 2 8 2 4 Vessel Data 2 11 2 4 1 Own Static a n un n FG RN TR RR RR 2 11 2 4 2 View Channel 2 1 2 2 5 Message teal seals MA ME 2 1 5 Chapter 3 Parts Location 3 1 FA 50 3 1 3 2 GVA 1 00 Combined Antenna 3 6 Chapter 4 Menu
177. ss the For Service menu Password xxxxxx must be entered This Password is same as that of FS 2570 Refer to Furuno Information FQ4 2009 014 Step 1 1 Download the program folder of FA 50 to PC 2 Select Network connection from the start menu on PC select Local area connection and open the property 3 Select Internet protocol TCP IP in General tag and click Property button 4 Place a checkmark to the left of Use the following IP address option S and enter the IP address and the subnet mask The setting of Default Gateway is not required IP address 172 31 1 1 Subnet mask 255 255 0 0 Note The default IP address of FA 50 is predefined with 172 31 24 3 Therefore the IP address to be set on the PC should be 172 31 xxx xxx except 172 31 24 3 so as to establish LAN connection with FA 50 Internet Protocol TCP IP Properties General You can get IP settings assigned automatically if your network supports this capability Otherwise you need to ask your network administrator for the appropriate settings Obtain an IP address automatically Use the following IP address IP address USD V 21 Subnet mask 255 255 0 0 Default gateway 3 Use the following DNS server addresses Preferred DNS server Alternate DNS server Advanced 6 2 6 1 Updating Program Step 2 5 Turn off the power of FA 50 6 Connect the PC and FA 50 via HUB
178. st Received stations 5 stations RX1 Received packets per 1min 0 packet RX2 Received packets per 1min 1 packet lt lt Test In this menu the reception status on the RX1 and RX2 boards can be checked Received stations It indicates a total number of Class A and B stations currently active in receiving RXI Received packets per 1min It indicates the number of packets from the Class A and B stations received within 1 minute on board RX2 Received packets per 1 min It indicates the number of packets from the Class A and B stations received within 1 minute on the RX2 board Note Packet transmission is affected by the ship speed In the Regional operating areas the Tx channel also varies 4 RSSI Test In this screen signal strengths of the received signals corresponding to 10 packets synchronized to UTC are displayed The RX1 SS column contains data of the signals received on the RX1 board while the RX2 SS column on the RX2 board Click Refresh to update the data FA 50 Service RSSI Test Refresh RASS RA2ISS 2 2 0 lt lt Test 8 1 For Service Figure 8 1 1 SS vs SSG Input Characteristic 5 COM Port Test In this screen a result of the Loop back test on the COM port is indicated by OK NG Before starting the test make a jumper connection between TX and RX data in the COM port
179. starts 1 minute later At this point of time however the built in GPS must have determined positions Q35 How to confirm that the external GPS data has been inputted Note that if the built in GPS does not determine positions no external GPS data can be used Select For Service gt NMEA gt EPFS Alarm and set it ON and check for an EPFS alarm If no EPFS alarm is appeared it is OK Q36 Does the reporting rate change immediately following a change of the ship speed AP3 1 When the ship speed goes up across 2 knot the reporting rate immediately changes to a cycle of 30 seconds In contrast to this when the ship speed goes down across 2 knot the reporting rate does not change to a cycle of 3 minutes unless the same ship speed is kept for 3 minutes or longer 9 amp Q37 What conditions should be met when using the external GPS 8 7 AP3 1 Priority of GPS is defined as the following external DGPS gt built in DGPS gt external GPS gt built in GPS If the built in GPS does not determine positions no external GPS data is used To use the external GPS must be met the following conditions 1 The datum of the external GPS should be WGS84 2 GBS should be received and expected deviations of the latitude and longitude should be less than 10 m respectively 3 The external GPS determined position should be within 26 m of the built in GPS determined position 4 IEC 61162 1 including Mode Indicator and Che
180. t Appendix 4 IEC61162 Sentences AP4 1 List of IEC Sentences used in FA 30 50 150 mm AP4 1 4 2 Handling of Sentences AP4 2 4 2 1 Overview 4 2 1 Handling of messages eee AP4 2 2 Comparisons on Input Data among FA 30 50 and FA 100 150 AP4 2 AP4 2 2 Input Data Processing mee AP4 3 1 Processing at Reception Error mme HH e AP4 3 2 Checking Method for Validity of Sentence AP4 3 3 Handling of Checksum Field 4 3 4 Handling of Timeout AP4 3 5 Priority of Talker AP4 3 6 Handling of Positioning Status mmm AP4 4 7 Priority Processing eene 4 4 8 Number of decimal places in the sentence
181. t files folder History Delete Cookies Delete Files Ln The History folder contains links to pages you ve visited for quick access to recently viewed pages Days to keep pages in history 20 Settings Current location C Documents and Settings AIS Local Settings Temporary Internet Files Amount of disk space to use Clear History 625 MB Colors Fonts Languages Accessibility Move Folder View Files View Objects 1 5 DK Cancel Cancel 1 1 Overview 3 In the URL field in IE enter http 172 31 24 3 and press the Enter key then the PC and 50 are connected and the Web browser screen opens Note 172 31 24 3 is the default value of FA 50 Initial Setup gt Ship Static Edit Login Name and Password are required For Service Login Name and Password are required For details of Login Name and Password refer to the Furuno information FQ4 2009 014 l htp 17231243 npo 1 1 Overview 1 1 5 Connecting External Display The external input output ports are provided as NETWORK 45 and COM POWER The NETWORK port which complies with Ethernet 10 100 BASE T standard is used to connect with external AIS display devices such as NAVNET 3 and FAISPC B PC software in the LAN The COM POWER port is used for the power line and the I O signal line For use
182. ternal GPS is used 1 The datum of the external GPS should be WGS84 where the DTM sentence is outputted and the coordinates of WGS 84 are determined 2 A valid RAIM sentence GBS should be received and expected deviations of the latitude and longitude should be less than 10 m 3 The external GPS determined position should be within 26 m of the built in GPS determined position 4 The data format complies with IEC61162 1 including Mode Indicator and Check Sum 8 1 For Service 8 1 3 Demo In this menu reception of the actual VHF link is ignored in the simulator mode and the system operates as if it receives the AIS signal recorded in Tokyo Bay and Osaka Bay The simulated AIS targets of Class A including 9 ships in the Tokyo Bay area and 5 ships in the Osaka Bay area are displayed Similar to the normal operation the scenario based data including VDM and VDO sentences is outputted to the external equipment The external or built in GPS data and or heading data are not required The own ship s static data and navigation data including MMSI IMO NO and ANT POS are specified with the predefined values The position data is used to create the same situation as when they were entered externally The Demo mode remains active even when powering off ruRuno FA 50 Service Demo Microsoft Internet Explorer a FAVE REO ATU YMD ANIG Oz 0 x 2 ee
183. ternal input output ports are provided as NETWORK RJ 45 and COM POWER The NETWORK port which complies with Ethernet 10 100 BASE T standard is used to connect with external AIS display devices such as NAVNET and PC MKD in the LAN The COM POWER port is used for the power line and the I O signal line For use as the power supply line 12 to 24 VDC input is connected while an external display device such as Radar or a sensor is connected complying with RS 422 standard for use as the signal line In the table below 61162 I O data passing through the COM port and NETWORK port are described In addition to the sentences shown below PFEC sentences are included 5 1 System Configuration Table 5 1 1 NMEA Input Data Sentence Name Sentence name Data priority Remarks AIS alarm acknowledgment ACK Disabled responded with AIS interrogation request AIR transmission disabled ABK Ship and voyage static data SSD VSD Datum reference data DTM Position data GNS gt GLL gt GGA gt RMC Speed over ground SOG Course over ground VBW gt RMC gt VTG gt OSD Use of VBW requires HDT 1 Not supported by Furuno AD Heading HDT gt OSD format RAIM display GBS Request for area and sensor data Date and time data Internal ZDA gt RMC gt MSG4 11 UTC field DSC data DSC DSE Disabled ded with BEM ftansmiiseion disabled
184. ting the program the PC and FA 50 should be connected via HUB in the LAN connection As a LAN cable a straight cable should be used Note When LAN connection between the PC and 50 is not interfaced by HUB a cross cable should be used Refer to page 6 6 LAN 12 24VDC Fig 6 1 1 Connections 2 Program files The last two letters xx of the program folder name UPFA50_01xx indicate the detail version Files in the program holder are as follows 50 application file FASOB boot program file IDCODE nLDFA50 nLDFASOB nwuppg nUPFASO file for updating program Edit Favorites Tools gt 2 2 Search li Folders Address C Documents and Settings 4IS Desktop BIN File and Folder Tasks m inet 29 Make new folder Publish this folder to the 13 IDCODE nLDFASO Web 223 System file BIN File KB 240 KB k Share this Folder nLDFASOB BIN File DOS Batch File Other Places 228 240KB kB 8 Desktop iL My Documents nwuppg 2 Shared Documents 4 My Computer 6 1 Updating Program 6 1 2 Procedure To update the program first of all you should open the Web browser screen of FA 50 and do below Select For Service gt CLEAR MEMORY to open the CLEAR MEMORY menu where click and run Factory Reset Select For Service gt Version to open the Version menu where check the program version To acce
185. tions in the message the Regional operation area is performed When only MSG 23 is received According to the directions in the message the Regional operation area in either Assigned or Quit Mode is performed In MSG 23 however neither channel nor Tx output power is specified so that the transmission is performed by 2 W over the international channels CH2087 2088 When MSG 22 and 23 are received The Regional operation area is performed in order of priority according to MSG 22 Addressed MSG 23 MSG 22 Broadcast to all vessels 2 14 2 5 Message 2 5 Message From this menu you can send a message using Message 14 and check both TX Log and RX Log These messages are saved in the FA 50 FA 50 Message lt lt Menu Send Message The Send Message function sends a message to all vessels by the CSTDMA method using Message 14 Safety Related Broadcast Message This message is a standardized message previously created by executing For Service gt Edit Message One message per minute is allowed to be sent If trying to send another message within one minute a message appears saying Still sending the previous message Try again later If failed a message appears saying Failed to send the message TX Once a minute The messages that have been sent are recorded in the TX Log FA 50 Send Message Select Message ANCHOR AGROUND MAN OVER BOARD Registe
186. to 5 ACK Acknowledgement alarm This sentence is used as a receipt acknowledgement of the alarm status reported by a unit ACK xxx hh lt CR gt lt LF gt a a Local alarm number identifier AP4 9 Appendix 4 IEC61162 Sentences AIR AIS Interrogation Request This sentence supports Message15 of ITU R 1371 It provides a means for initiating a request for a certain ITU R M 1371 message from a distant AIS station or an AIS base station to the external application a f gh a MMSI of interrogated station 1 b ITU R M 1371 message requested from station 1 note c massage sub section Reserved for future use d number of second message from station 1 note e massage sub section Reserved for future use f MMIS interrogated station 2 g number of message requested from station 2note h massage sub section Reserved for future use Note From a distant mobile AIS station Message3 Position report Message5 Ship static and voyage related data Mesage9 Standard SAR aircraft position report Message18 Standard class B equipment position report Message19 Extended class B equipment position report Message21 Aids to Navigation report From a distant base AIS station Message4 Base station report Messagel7 GNSS broadcast binary message Message20 Data link management message Message22 Channel management AP4 10 Appendix 4 IEC61162 Sentences ALR Set alarm state This sentence is used to report an a
187. ty related text parameter g Number of fill bits 0 to 5 AP4 11 Appendix 4 IEC61162 Sentences DTM Datum reference This sentence provides a local datum and offset data from the reference standard point DTM ccc a X X a X X a X x ccc hh lt CR gt lt LF gt ab c d e f a Local datum WGS84 W84 WGS72 W72 SGS85 S85 PE90 P90 User define 999 datum code b Local datum subdivision code c Lat offset min N S d Lon offset min E W e Altiude offset m f Reference datum WGS84 W84 WGS72 W72 SGS85 S85 PE90 P90 GBS GNSS Satellite fault detection This message is used to support RAIM Receiver Autonomous Integrity Monitoring GBS hhmmss ss XX X X X X hh lt CR gt lt LF gt b c d e f gh a UTC time of the GGA or GNS fix associated with this sentence b Expected error in latitude c Expected error in longitude b Expected error in altitude e ID number of most likely failed satellite f Probability of missed detection for most likely failed satellite g Estimate of bias on most likely failed satellite h Standard deviation of bias estimate AP4 12 Appendix 4 IEC61162 Sentences GGA Global positioning system fix data This sentence provides GPS positioning data time and position data GGA hhmmss ss 1 11 a x a b XX X X X X x x M x x hh lt CR gt lt LF gt T g h ijk 1 UTC of positio
188. ult no quiet time commanded 1 15 quiet time of 1 to 15 min Spare 6 Spare Not used Shall be set to zero Total 160 Occupies one time period AP3 9 Appendix 3 Class AIS CS System Reporting interval settings using Message 23 Reporting interval Reporting interval for field setting Message18 As given by the autonomous mode 10 min 6 min 3 min 1 min 305 155 105 55 Next shorter reporting interval Next longer reporting interval 11 15 Reserved for future use Note If the dual channel operation is interrupted by the Tx Rx mode command or 2 the values of reporting intervals shown above become doubled AP3 10 Appendix 3 Class B AIS CS System AP3 4 Regional operating area The 50 stores three types of area data concerning the Channel management area Assigned area and Quiet area When the own ship stays in either of these areas the corresponding rule should be observed during each operation AP3 4 1 Channel Management This is an area designated by DSC or Message22 transmitted from a base station While the own ship stays in either of these areas the area data specified for the corresponding area such as channel transmission power and etc should be used during operation The sea area excluding the area designated by a base station is international waters and used by the next channel for operation
189. umber of messages 01 to 99 b Message number 01 to 99 c Text identifier d Text message VBW Dual ground water speed This sentence provides the data of speed through the water and speed over ground VBW x x x x A X X X X A x x A x x A hh lt CR gt lt LF gt e fgh i J a Longitudinal water speed knots b Transverse water speed knots c Status water speed A data valid V data invalid d Longitudinal ground speed knots e Transverse ground speed knots f Status ground speed A data valid V data invalid g Stern transverse water speed knots h Status stern water speed A data valid V data invalid i Stern transverse ground speed knots j Status stern ground speed A data valid V data invalid AP4 17 Appendix 4 61162 Sentences VHF Data Link Message This sentence is used to transfer all contents of the AIS message packets that are defined by ITU R M 1371 and received over the VHF data link VDL using a 6 bit field type This structure is provided to transfer a long binary message using multiple sentences VDM x x X S s x hh lt CR gt lt LF gt abc de f Total number of sentences needed to transfer the message 1 to 9 b Sentence number 1 to 9 c Sequential message identifier 0 to 9 d AIS Channel A or B e Encapsulated ITU R M 1371 radio message f Number of fill bits 0 to 5 VDO VHF Data Link Own vessel message This senten
190. unit transfers the ABK sentence to the external application This sentence is used to transfer the processes of AIR sentences Messagel5 of ITU R M 1371 and BBM sentences Message8 and 14 of ITU R M 1731 on the AIS unit to the external application The external application initiates an interrogation using an AIR sentence or communication using a BBM sentence The AIS unit issues an ABK sentence to transfer a result of the AIR or BBM communication process a bc de a MMSI of the addressed destination AIS unit b AIS channel of reception c ITU R M 1371 message ID d Message Sequence Number e Type of acknowledgement AP4 8 Appendix 4 IEC61162 Sentences ABM Addressed Binary and safety related Message This sentence provides Message6 and 12 of ITU R M 1371 The ABM provides a means for exchanging data by AIS to the external application The message data is defined solely by the application instead of AIS After receiving this sentence the AIS starts broadcasting on the VHF data link with either Message6 or 12 ABM x x X XXXXXXXXX X X X s s X hh lt CR gt lt LF gt abc d e f g h a Total number of sentences needed to transfer the message 1 to 9 b Sentence number 1 to 9 c Sequential Message identifier 0 to 3 d The MMSI of destination AIS unit for the ITU R M 1371 message e AIS channel for broadcast of the radio message f ITU R M 1371 message ID 6 or12 g Encapsulated data h Number of fill bits O
191. uo JO ssaippe OVIN 09 V4 c0 QT 0q 00 OVIN sdq 008 dmag ren Tenuen 544 0078 poods XA omy nod WOD 544 0078 peeds XL HO o2uojuos q 79119 lt 911909 ION 90 qns qns qns qns nuy doy ABSMOIG t SH 19589 p 1uo2 DIM ed dius asn loswal uonisoq euuojuy LUIX 22277 y x 0 9 2d l BR aged 5 05 N 4145 2 000000000 ISININ VdZ 540 STV snonunuop 5 VAZ SIV 5 STV SdD SIV snonunuoj snonunuo snonunuo STV snonunuo 30N 416 qns qns lt 90 qns nuay doy 99 125 ABSMOIG 4 st ed T 030 LI t 9984 19jow ur 08 00 e diys
192. ususussssesssususuesesenssusussssesesusussesesesssussssesesesssusseseseses 8 12 4 RSSI Test PEP 8 1 2 5 COM Port Test 8 13 8 1 6 Monitor TTT Terre eee eerie eee errr ee eee eee eee eee 8 1 4 8 1 7 Memory Clear Teeter errr reer errr eee eee eee eee eee eee eee 8 1 5 1 Factory Rest without IP Address Mussesssususussesenssusesenenssussssesenenssusuesesesenes 8 1 5 2 Factory Reset errr reer ir ir errr reer errr rere etree eee ee eee eee 8 1 5 8 1 8 Channel PPE PETE ee eerie eee eee eee eee eee ee 8 16 1 RX1 8 1 6 2 terete eee eee eee 8 1 6 3 TRX Mode
193. ver ground km m e Mode indicator A Autonomous mode Mz Manual input mode D Differential mode S Simulator mode E Dead reckoning mode N Data not valid AP4 19 COVER ASSEMBLY FA 50 001 034 490 hy COVER 02 158 1004 1 4 PANEL LABEL 05 097 2527 0 7 2 SHIELD CASE 2 05 096 2521 1 100 338 381 10 SEY FA 50 MAIN SHIELD ASSEMBLY 74 SHAFT 4 919 949143 SHAFT FIXING PLATE 05 097 2522 1 001 034 480 05 097 2523 1 N 7419542 WARNING LABEL 2 03 129 1001 3 MAIN SHIELD 05 097 2521 1 BINDING HEAD SCREW M3X6 505304 000 162 664 10 24 SHIELDED FORM arty MAIN amp TX7 PRINTED CIRCUIT BOARD 05P0814 LF 001 034 470 097 Aat CAP SPACER CS 10S 000 164 960 10 Wey CHASSIS 05 097 2511 1 100 343 621 10 3 7 WASHER HEAD SCREW M3X8 C2700W 12 000 163 190 10 T TI TAAB WASHER HEAD SCREW 4 12 C2700W MBNI2 000 163 192 10 E PAN HEAD P TIGHT SCREW 3X8 SWRM10 000 158 071 10 BASE CHASSIS 05 097 2512 1 100 343 631 10 NR BASE 02 158 1003 1 100 337 561 10 SPARE PARTS SP05 05801 FGMB 125V 4A PBF ti A GLASS TUBE FUSE 000 157 482 10 2594 INSTALLATION MATERIALS CP05 11401
194. wn ship should stay in the area designated in the Message 23 2 The values specified in Station Type are identical between this device and he Message 23 0 types of mobile units default 2 All types of Class B mobile stations 5 Class B CS shipborne mobile stations For FA 50 predefined in the program 3 The set value in Ship type and the value in Type of Ship specified in the Message23 are identical 4 In the Message 23 Quiet Time is specified with 0 5 In the Message 23 the value of L L is correctly set 6 The own ship does not stay in the transitional zone in the channel management area 2 The Assigned area can be deleted in the following cases 1 When a timeout occurs about 4 to 8 min in the Assigned Mode 2 When the own ship goes out of the Assigned area and 3 When a new Assigned area is accepted 3 Operation modes in the Assigned area in the transitional zone are described below 1 When the own ship stays in the area belongs to both the Assigned area and the transitional zone the Autonomous Mode is active during operation 2 When the own ship has gone out of the transitional zone and the Assigned area with no timeout issued is registered in the database the Assigned Mode becomes active 3 While the own ship stays in the transitional zone if a condition for deleting the Assigned area is met its area data shall be deleted from the database 4 In the Assigned area unl
195. y of the relating sentences is described below L L GNS gt GLL with the Mode indicator gt GGA gt RMC with the Mode indicator gt GLL without the Mode indicator gt RMC without the Mode indicator SOG COG VBW gt RMC gt VTG gt OSD Note VBW becomes valid only when HDG data is valid 6 HDG Alarm When an HDG data is lost or invalid whether or not to issue the HDG alarm Heading lost invalid is determined No connection to the HDG data should designate a setting of Off The data becomes valid at the time of input start while 5 seconds passes until it becomes invalid Priority of the relating sentences is described below HDT OSD 8 1 For Service 7 External GNNS This setting is used to determine whether or not to use a position data from the external GPS No connection to the external GPS should require a setting of Don t use For AIS in Class B the External GNNS data is not mandatory The position data sentences of GNS GGA RMC and GLL are acceptable Priority of these sentences is same as described in 4 EPFS Alarm on page 8 6 Priority of GNSS to be retrieved is described below external DGPS gt built in DGPS gt external GPS gt built in GPS Note If the built in GPS does not determine positions no external GPS data is used Use Determines that the external GPS is used Don t use Determines that no external GPS is used Tips Requirements when data from the ex

FA-50 Servicemanual

Contents

Download Pdf Manuals

Related Search

Related Contents