Furuno USA 9ZWFA100 Universal Automatic Identification System User Manual OPERATORS MANUAL
Furuno USA Inc Universal Automatic Identification System OPERATORS MANUAL
Contents
- 1. OPERATORS MANUAL
- 2. Frequency And Channel Usage
- 3. UPDATED CHANNEL LIST
OPERATORS MANUAL
UAIS TRANSPONDER FA-100 Your Local Agent/Dealer 9-52 Ashihara-cho, Nishinomiya, Japan Telephone : 0798-65-2111 Telefax : 0798-65-4200 All rights reserved. Printed in Japan FIRST EDITION : SEP. 2002 PUB.No. OME-44170 ( DAMI ) FA-100 : SEP. 25,2002 *00080932300* *00080932300* *00080932300* *OME44170B00* *OME44170B00* *OME44170B00* SAFETY INSTRUCTIONS WARNING ELECTRICAL SHOCK HAZARD Do not open the equipment. Only qualified personnel should work inside the equipment. WARNING LABEL A warning label is attached to the AC-DC power supply. Do not remove the label. If the label is missing or damaged, contact a FURUNO agent or dealer about replacement. WARNING To avoid electrical shock, do not remove cover. No user-serviceable parts inside. Name: Warning Label (1) Type: 86-003-1011-1 Code No.: 100-236-231 Immediately turn off the power at the switchboard if water leaks into the equipment or something is dropped in the equipment. Continued use of the equipment can cause fire or electrical shock. Contact a FURUNO agent for service. Do not disassemble or modify the equipment. Fire, electrical shock or serious injury can result. Do not place liquid-filled containers on the top of the equipment. Fire or electrical shock can result if a liquid spills into the equipment. Immediately turn off the power at the switchboard if the equipment is emitting smoke or fire. Continued use of the equipment can cause fire or electrical shock. Contact a FURUNO agent for service. Make sure no rain or water splash leaks into the equipment. Fire or electrical shock can result if water leaks in the equipment. Do not operate the equipment with wet hands. Electrical shock can result. TABLE OF CONTENTS FOREWORD...........................................iii SYSTEM CONFIGURATION...................v PROGRAM NUMBER ............................vi SYSTEM OVERVIEW............................vii 1 OPERATION ........................................1 1.1 Description of Controls ..........................1 1.2 Turning On and Off ................................2 1.3 Adjusting Display Brilliance and Contrast ..................................................3 1.4 Menu Overview......................................4 1.4.1 Menu operating procedure .........4 1.4.2 Remarks on menu operation ......5 1.5 Setting Up for a Voyage.........................7 1.6 Setting CPA/TCPA .................................10 1.7 Plotter Display...................................... 11 1.8 Target Data Display .............................12 1.8.1 Normal target data....................12 1.8.2 Finding dangerous ship’s data..14 1.9 Own Ship’s Information........................15 1.9.1 Own static data.........................15 1.9.2 Own dynamic data....................17 1.10 Messages.............................................18 1.10.1 Sending a message..................18 1.10.2 Receiving messages ................18 1.10.3 Message logs ...........................20 1.11 Regional Operating Channels .............22 1.11.1 Viewing channels, Tx power.....22 1.11.2 Displaying, editing regional operating area status ................23 1.12 Enabling/Disabling the Buzzer.............25 1.13 Long Range Mode ...............................26 ii 2 MAINTENANCE, TROUBLESHOOTING ..........................27 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 2.10 Maintenance........................................ 27 Resetting the Breaker ......................... 28 Replacement of Battery....................... 28 Troubleshooting................................... 29 Diagnostics.......................................... 30 2.5.1 Displaying program number..... 30 2.5.2 Memory test ............................. 31 2.5.3 Keyboard test........................... 31 2.5.4 LCD test ................................... 32 2.5.5 On/off history............................ 32 2.5.6 GPS test................................... 33 Alarm Status ........................................ 34 Error Messages................................... 35 GPS Monitor........................................ 36 Displaying Sensor Status .................... 37 Restoring Default Settings .................. 38 APPENDIX........................................ AP-1 Menu Tree ............................................... AP-1 Parts List.................................................. AP-3 Parts Location.......................................... AP-4 Digital Interface (IEC 61162-2) ................ AP-7 SPECIFICATIONS .............................SP-1 INDEX .................................................IN-1 Declaration of conformity FOREWORD A Word to the Owner of the FA-100 FURUNO Electric Company thanks you for purchasing the FA-100 UAIS Transponder. We are confident you will discover why the FURUNO name has become synonymous with quality and reliability. For over 50 years FURUNO Electric Company has enjoyed an enviable reputation for quality and reliability throughout the world. This dedication to excellence is furthered by our extensive global network of agents and dealers. Your equipment is designed and constructed to meet the rigorous demands of the marine environment. However, no machine can perform its intended function unless properly operated and maintained. Please carefully read and follow the operation and maintenance procedures set forth in this manual. We would appreciate feedback from you, the end-user, about whether we are achieving our purposes. Thank you for considering and purchasing FURUNO. Note: The example screens shown in this manual may not match the screens you see on your display. The screen you see depends on your system configuration and equipment settings. Features The FA-100 is a universal shipborne AIS (Automatic Identification System) capable of exchanging navigation and ship data between own ship and other ships or coastal stations. It complies with IMO MSC.74(69) Annex 3, A.694, ITU-R M.1371-1 and DSC ITU-R M.825. It also complies with IEC 61993-2 (Type testing standard), IEC 60945 (EMC and environmental conditions). The FA-100 consists of VHF/GPS antennas, a transponder unit and several associated units. The transponder contains a VHF transmitter, two TDMA receivers on two parallel VHF channels, a DSC channel 70 receiver, interface, communication processor, LCD display, and internal GPS receiver. The internal GPS is a 12-channel all-in-view receiver with a differential capability, and provides UTC reference for system synchronization to eliminate clash among multiple users. It also gives position, COG and SOG when the external GPS fails. The LCD panel displays all required information about static data, dynamic data, voyage-related data and short safety-related messages. The information and messages are automatically updated according to the ITU-R M.1371-1, e.g., static information every 6 min and on request, dynamic information every 10 s on ship faster than 3 kt and 3.3 s when changing course at 0-14 kt, etc. iii The main features are • Safety of navigation by automatically exchanging navigational data between ships and between ship and coast. • Static data: - MMSI (Maritime Mobile Service Identity) - IMO number (where available) - Call sign & name - Length and beam - Type of ship - Location of position-fixing antenna on the ship • Dynamic data: - Ship’s position with accuracy indication and integrity status - UTC - Course over ground (COG) - Speed over ground (SOG) - Heading - Navigation status (manual input) - Rate of turn (where available) • Voyage-related data - Ship’s draught - Hazardous cargo (type) - Destination and ETA (at master’s discretion) • Short safety-related messages, Free messages • LCD panel satisfying the IMO minimum requirements plus simple plotting modes • Interfaces for radar, ECDIS, PC, LAN for future networking expansion • GPS/VHF combined antenna for easy installation available • CPA/TCPA alarm • Built-in GPS receiver for UTC synchronization and backup position fixing iv SYSTEM CONFIGURATION Either VHF Antenna GPS Antenna GSC-001 GPS/VHF Combined Antenna GVA-100 Distributor Unit DB-1 Transponder Unit FA-100 Junction Box CB-100 Power Supply PR-240-CE GPS Navigator * Other external equipment : Standard Ship’s Mains 100/110/115/200/ 220/230 VAC 1φ, 50/60Hz : Option : Local supply 24 VDC 12-24 VDC *: External GPS navigator is required. PROGRAM NUMBER PCB MAIN SUB H8S1 H8S2 H8S3 vi Version No. 245-0001-001 245-0002-001 245-0003-001 245-0004-001 245-0005-001 Date 09/2002 09/2002 09/2002 09/2002 09/2002 Reason for Modification SYSTEM OVERVIEW System overview The Automatic Identification System (AIS) was originally developed to aid the Vessel Traffic Services (VTS) by use of a VHF transponder working on Digital Selective Call (DSC) at VHF CH70, and is still in use along the UK coastal areas and others. Some time later the IMO developed a Universal AIS using the new sophisticated technology called Self-Organized Time Division Multiple Access (SOTDMA) based on a VHF Data Link (VDL). The system operates in three modes – autonomous (continuous operation in all areas), assigned (data transmission interval remotely controlled by authority in traffic monitoring service) and polled (in response to interrogation from a ship or authority). It is synchronized with GPS time to avoid conflict among multiple users (IMO minimum 2000 reports per minute and IEC requires 4500 reports on two channels). The VHF channels 87B and 88B are commonly used and in addition there are local AIS frequencies. Shipborne AIS transponders exchange various data as specified by the IMO and ITU on either frequency automatically set up by the frequency management telecommand received by the DSC receiver on ship. VHF transmit power is also set up for 12.5 W or 2 W automatically. AIS-fitted AtoN broadcasts its identification, type of operation, location, displacement, etc. at 3 min intervals or at a reporting rate designated by the Administration authorities. Aids to Navigation (AtoN) VTS Center transmits TDMA CH management message including code, type, position, etc. of buoys every 3 min, and the AtoN broadcasts these messages for ships. VTS center The VTS center transmits a command on frequency assignment, slots, report rate, VHF output power, channel spacing, etc. (Assigned mode) Transponder Static and Dynamic information incl. MMSI, Name, POSN, HDG, COG, SOG Interrogation and Response Own ship Ship 1 All ships broadcast Static and Dynamic information (autonomous and continuous mode). If OS wants to know information about ship 1, OS shall send an interrogation in polling mode; then ship 1 will transmit her response on the same VHF channel without operator intervention. AIS system vii Not all ships carry AIS The Officer of the Watch (OOW) should always be aware that other ships, and in particular leisure craft, fishing boats and warships, and some coastal shore stations including Vessel Traffic Service centers might not be fitted with AIS. The OOW should also be aware that AIS fitted on other ships as a mandatory carriage requirement might be switched off by professional judgment of the master. Thus, users are therefore cautioned to always bear in mind that information provided by AIS may not be giving a complete or correct “picture” of shipping traffic in their vicinity. Use of AIS in collision avoidance As an anti-collision aid the AIS has the following advantages over radar: • Information provided in near real-time • Capable of instant presentation of target course alterations • Not subject to target swap • Not subject to target loss in clutter • Not subject to target loss due to fast maneuvers • Able to detect ships within VHF/FM coverage, including in some circumstances, around bends and behind islands. When using the AIS for anti-collision purposes it is important to remember that the AIS is an additional source of navigation information. It does not replace other navigational systems. Once again, remember that the AIS may not be giving a complete or correct “picture” of shipping traffic in their vicinity. The use of the AIS does not negate the responsibility of the OOW to comply with all collision regulation requirements, especially the maintaining of a proper look-out. The prudent navigator uses all aids available to navigate the ship. Erroneous information Erroneous information implies a risk to other ships as well as your own. Poorly configured or calibrated sensors might lead to incorrect information being transmitted. It is the user’s responsibility to ensure that all information entered into the system is correct and up to date. viii 1 OPERATION 1.1 Description of Controls DD FURUNO 5 JKL 6 MNO 7 PQRS 8 TUV 9 WXYZ NEXT 0 _,. 4 GHI 3 DEF DD 2 ABC MENU CONT/BRILL CLR ALM SFT +/- ENT POWER FA-100 Transponder unit Description of controls Control Description 0-9 Alphanumeric, symbol input keys 2(▲) and 8(▼) Adjust display brilliance and keyboard backlighting; scroll display. 4(◄) and 6(►) Shift the cursor left and right (pressed with [SFT/ +/-]), respectively; adjust contrast. CLR/ALM Clears an entry; silences the audio alarm. SFT/ +/- Selects numeric or alphabet entry mode alternately; selects options on menus. CLR/ALM + SFT/ +/- Change the contrast and brilliance. ENT Concludes an entry. NEXT Chooses next line. Press together with [SFT/ +/-] to shift cursor in reverse direction. MENU Displays menu. Also used to perform “escape”. POWER Turns the power on and off. 1 OPERATION 1.2 Turning On and Off Press the [POWER] key to turn the equipment on and off. The startup screen appears. Showing FURUNO logo along with the date and time of last power-off. SHUT DOWN 26/AUG/2002 05:46:52 Date and time of last power-off. Startup screen After the FURUNO logo disappears, the screen displays “NOW STARTING…CHECKING MEMORY. At this time the BIIT (built-in integrity test facility) checks the major circuits including RAM, ROM, interface, etc. The plotter display appears, showing the message “NOW SORTING.” This means the equipment is sorting targets by distance, from closest to furthest. This takes several seconds to complete. RNG: 1.50 nm [- - - - - -] SOG: - - -.- kt COG: - - -.- deg INTRD: 0 [ ]: FWD [ ]: BACK "Please Wait!" is shown when no data is being received. PLOTTER display The FA-100 should be powered while underway or at anchor. The master may switch off the AIS if he believes that the continual operation of the AIS might compromise the safety or security of his ship. The AIS should be restarted once the source of danger has disappeared. The equipment transmits own ship static data within two minutes of start-up and it is transmitted at six-minute intervals. Static data includes MMSI number, IMO number, call sign, ship name, ship length and width, ship type and GPS antenna position. In addition to static data, ship’s dynamic data is also transmitted. This data includes position with accuracy, SOG, COG, rate of turn, heading, etc. Dynamic data is transmitted ever 2 s to 3 min depending on ship’s speed and course change, voyage-related data, such as ship draft, hazardous cargo, destination and estimated time of arrival, are transmitted at six-minute intervals. 1 OPERATION The FA-100 starts receiving data from AIS-equipped ships as soon as it is turned on, and the ships’ location on the plotter display is shown with the AIS symbol. (To learn more about the plotter display, see paragraph 1.7.) With connection of a radar or ECDIS, the AIS target symbols may be overlaid on the radar or ECDIS. Note 1: If no navigation sensor is installed or a sensor such as a gyrocompass has failed, the AIS automatically transmits “not available” data. Note 2: The reporting intervals are as follows Ship’s navigation status and reporting interval Ship’s navigation status 1.3 Reporting interval Moored 3 min 0-14 kt speed 10 s 0-14 kt speed with course change 3+1/3 s 14-23 kt speed 6s 14-23 kt speed with course change 2s Speed higher than 23 kt 2s Speed higher than 23 kt with course change 2s Adjusting Display Brilliance and Contrast 1. Press the [CLR/ALM]+[SFT/ +/-] keys together to show the dialog box below. BRILLIANCE CONTRAST ESC: [ENT] Dialog box for adjustment of brilliance and contrast 2. Use the [▲] or [▼] key to adjust brilliance; [◄] or [►] key to adjust contrast. 3. Press the [ENT] key to close the dialog box. Note: If you turn off the equipment with minimum contrast, the startup screen is displayed in high contrast at the next power-on. However, the plotter display, which appears after the startup screen, will be shown in minimum contrast. Therefore, adjust the contrast as described above. 1 OPERATION 1.4 Menu Overview You can choose the functionality of the equipment through the menu. If you get lost in operation, press the [MENU] key until you return to the main menu. The complete menu tree is provided in the Appendix. 1.4.1 Menu operating procedure 1. Press the [MENU] key to display the main menu. Asterisk marks current selection. [MENU] 1 TARGET DATA 2 PLOTTER 3 OWN DATA 4 SET MSG 5 INIT SETTINGS 6 SYSTEM SETTINGS 7 DIAGNOSTICS Main menu 2. Press appropriate numeric key to choose a wanted sub-menu. For example, press the [6] key to choose the SYSTEM SETTINGS sub-menu. (You may also choose a sub-menu by pressing the [NEXT] key to choose it and then pressing the [ENT] key.) [SYSTEM SETTINGS] 1 SET I/O PORT 2 SET CHANNEL 3 SET LR MODE 4 SET OTHER I/O 5 SET BUZZER SYSTEM SETTINGS sub-menu 3. Press appropriate numeric key to choose sub-menu desired. For example, press the [5] key to show the SET BUZZER sub-menu. [SET BUZZER] ALARM : OFF CPA/TCPA: OFF ++- "+/-" means to use the [SFT/ +/-] key to choose desired option. SET BUZZER sub-menu 4. Choose item with the [NEXT] key. The asterisk shows current selection. 5. Depending on the sub-menu shown, use the alphanumeric keys to enter data, or use the [SFT/ +/-], [▲], [▼], [◄] or [►] key to choose data. 6. Press the [ENT] key to register data. 7. Press the [MENU] key several times to return to the main menu. 1 OPERATION 1.4.2 Remarks on menu operation Confirming entry If, after you have changed data, you pressed the [MENU] key without pressing the [ENT] key, the message shown below appears. If you want to cancel the data, press the [ENT] key. If you wish to save, use the [▼] key to choose NO, press the [ENT] key and then press the [ENT] key again. CANCEL? YES NO +/- “Are you sure” confirmation dialog Choosing data input mode To enter a specific numeric, alphabet or symbol, choose the appropriate data input mode, numeric or alphabet. The active data input mode is shown at the bottom left-hand corner of the screen. Use the [SFT/ +/-] key to select desired mode. To enter a numeric, simply press appropriate numeric key. For alphabet or symbol, press appropriate key until desired character or symbol appears. [SET MSG] Data Input Mode 123: Numeric ABC: Alphabet Use the [SFT/ +/-] key to switch modes. 123 0/150 SET MSG screen 1 OPERATION Shifting the cursor To shift the cursor backward or forward, press [SFT/ +/-] + [◄] together to shift it backward; [SFT/ +/-] + [►] together to shift it forward. This is convenient for creating a space or using the same key consecutively. Multiple page sub-menus Some sub-menus have more than one page. In this case, an arrow(s) appears at the top of the display to show which arrow key(s) to press to change the page. Page 1 of sub-menu. Press [ ] to go to next page. [OWN STATIC DATA1] NAME : SHIP C. SIGN: CAL0001 MMSI : 123456789 IMO# : 623498071 Intermediate page in sub-menu. Press [ ] to go to next page; [ ] to go to previous page. [OWN STATIC DATA2] DESTINATION: TOKYO Last page of sub-menu. Press [ ] to go to previous page. [OWN STATIC DATA5] CREW : 12 TYPE : 36 CLASS : A TYPE NAME SAILING DATE : 12/FEB TIME : 10:25 OWN STATIC DATA displays 1, 2 and 5 Choosing options Menu options may be chosen with the [▲], [▼], [◄] or [►] key or [SFT/ +/-] key depending on the sub-menu. In the examples below, you may choose NAV STATUS option with the [▲], [▼], [◄] or [►] key and ALARM option with the [SFT/ +/-] key. [SET STATUS] NAV STATUS: 00 STATUS NAME UNDER WAY USING ENGINE (DEFAULT) Use these arrow keys to choose an option. [SET BUZZER] ALARM : OFF CPA/TCPA: OFF ++ -- Use the [SFT/ +/-] key to choose an option. SET STATUS sub-menu Saving settings When the [MENU] key is pressed after changing an option (to register setting), you are asked if you want to save the setting. To save the setting, press the [ENT] key. To retain the previous setting, select NO and press the [ENT] key. To escape, choose [CANCEL] and press the [ENT] key. SAVE? YES NO CANCEL +/- Save confirmation dialog 1 OPERATION 1.5 Setting Up for a Voyage There are five items on the INIT SETTINGS menu (Menu #5) you will need to enter at the start of a voyage: draught, destination, navigation status, ship type and number of crew. 1. Press the [MENU] key to open the main menu. 2. Press the [5] key to open the INIT SETTINGS menu. [INIT SETTINGS] 1 SET SHIP DATA 2 SET DESTINATION 3 SET NAV STATUS 4 SET TYPE&CREW 5 SET CPA/TCPA 6 SET ANTENNA POS INIT SETTING sub-menu 3. Press the [1] key to choose SET SHIP DATA. The ship’s name and call sign have been entered at installation. Confirm that they are correct. [SET SHIP DATA] NAME : FURUNO C. SIGN : 6LCZ43B DRUGHT : 12.3 m DTE : DEFAULT + 123 SET SHIP DATA sub-menu 4. Press the [NEXT] key to choose DRUGHT (draught). 5. Use the numeric keys to enter ship’s current draught for the voyage. (Be sure to amend it if it changes during the voyage.) Note: DTE should not be changed from "DEFAULT." 6. Press the [ENT] key to register data and return to the INIT SETTINGS menu. 7. Press the [2] key to choose SET DESTINATION. [SET DESTINATION] DATE: 00/00 (DD/MM) TIME: 00:00 DESTINATION: Dialog box for entry of destination 8. DATE is selected; enter estimated day and month of arrival at destination and then press the [NEXT] key to choose TIME. 9. Enter estimated time of arrival at destination and then press the [NEXT] key to choose DESTINATION. 1 OPERATION 10. Enter name of destination and then press the [ENT] key to register data and return to the INIT SETTINGS menu. Note: Be sure to change destination information when it changes. 11. Press the [3] key to choose SET NAV STATUS. [SET STATUS] NAV STATUS: 00 STATUS NAME UNDER WAY USING ENGINE (DEFAULT) SET STATUS sub-menu 12. Use the [▲], [▼], [◄] or [►] key to choose appropriate navigation status referring to the list below. [▲], [▼]: Increment, decrement selection number by 1. [◄], [►]: Increment, decrement selection number by 10. 00: 01: 02: 03: 04: 05: 06: 07: 08: 09: 10: 11-15: Underway using engine (default) At anchor Not under command Restricted maneuverability Constrained by draught Moored Aground Engaged in fishing Underway by sailing Reserved for high speed craft (HSC) Reserved for wing in ground (WIG, for example, hydrofoil) Reserved for future use 13. Press the [ENT] key to register data and return to the INIT SETTINGS menu. 14. Press the [4] key to choose SET TYPE&CREW. [SET TYPE&CREW] CREW : 0012 +TYPE CLASS : A TYPE NO. : 0 TYPE NAME SET TYPE&CREW sub-menu 15. CREW is selected; enter number of crew with the numeric keys. Note: TYPE CLASS is entered at installation. Do not change the setting from “A.” 1 OPERATION 16. Press the [NEXT] key to choose TYPE NO. Note: TYPE NO. is entered at installation. However, if the ship carries hazardous cargo, dangerous goods, harmful substances or marine pollutants it should be entered. 17. Use [▲], [▼], [◄], [►] to choose appropriate type number. [▲], [▼]: Increment, decrement selection number by 1. [◄], [►]: Increment, decrement selection number by 10. 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 FUTURE USE FUTURE USE FUTURE USE FUTURE USE FUTURE USE FUTURE USE FUTURE USE FUTURE USE FUTURE USE FUTURE USE WIG WIG WIG WIG WIG WIG WIG WIG WIG WIG FISHING TOWING ALL SHIPS OF THIS TYPE CARRYING DG, HS, OR, MP(A) CARRYING DG, HS, OR, MP(B) CARRYING DG, HS, OR MP(C) CARRYING DG, HS, OR, MP(D) FUTURE USE FUTURE USE FUTURE USE FUTURE USE NONE ALL SHIPS OF THIS TYPE CARRYING DG, HS, OR, MP(A) CARRYING DG, HS, OR, MP(B) CARRYING DG, HS, OR MP(C) CARRYING DG, HS, OR, MP(D) FUTURE USE FUTURE USE FUTURE USE FUTURE USE NONE 60 PASSENGER SHIPS ALL SHIPS OF THIS TYPE 61 PASSENGER SHIPS CARRYING DG, HS, OR, MP(A) 62 PASSENGER SHIPS CARRYING DG, HS, OR, MP(B) 63 PASSENGER SHIPS CARRYING DG, HS, OR MP(C) 64 PASSENGER SHIPS CARRYING DG, HS, OR, MP(D) 65 PASSENGER SHIPS FUTURE USE 66 PASSENGER SHIPS FUTURE USE 67 PASSENGER SHIPS FUTURE USE 68 PASSENGER SHIPS FUTURE USE 69 PASSENGER SHIPS NONE 70 CARGO SHIP ALL SHIPS OF THIS TYPE 71 CARGO SHIP CARRYING DG, HS, OR, MP(A) 72 CARGO SHIP CARRYING DG, HS, OR, MP(B) 73 CARGO SHIP CARRYING DG, HS, OR MP(C) 74 CARGO SHIP CARRYING DG, HS, OR, MP(D) 75 CARGO SHIP FUTURE USE 76 CARGO SHIP FUTURE USE 77 CARGO SHIP FUTURE USE 78 CARGO SHIP FUTURE USE 79 CARGO SHIP NONE ALL SHIPS OF THIS TYPE 80 TANKER 81 TANKER CARRYING DG, HS, OR, MP(A) LENGTH OF THE TOW EXCEEDS 200M OR BREADTH EXCEEDS 25M 82 TANKER CARRYING DG, HS, OR, MP(B) ENGAGED IN DREDGING OR UNDERWATER OPERATIONS 83 TANKER CARRYING DG, HS, OR MP(C) ENGAGED IN DIVING OPEARATIONS 84 TANKER CARRYING DG, HS, OR, MP(D) ENGAGED IN MILITARY OPEARATIONS 85 TANKER FUTURE USE SAILING 86 TANKER FUTURE USE PLEAURE CRAFT 87 TANKER FUTURE USE FUTURE USE 88 TANKER FUTURE USE FUTURE USE 89 TANKER NONE ALL SHIPS OF THIS TYPE 90 OTHER TYPE OF SHI ALL SHIPS OF THIS TYPE HSC HSC CARRYING DG, HS, OR, MP(A) 91 OTHER TYPE OF SHI CARRYING DG, HS, OR, MP(A) HSC CARRYING DG, HS, OR, MP(B) 92 OTHER TYPE OF SHI CARRYING DG, HS, OR, MP(B) HSC CARRYING DG, HS, OR MP(C) 93 OTHER TYPE OF SHI CARRYING DG, HS, OR MP(C) HSC CARRYING DG, HS, OR, MP(D) 94 OTHER TYPE OF SHI CARRYING DG, HS, OR, MP(D) HSC FUTURE USE 95 OTHER TYPE OF SHI FUTURE USE HSC FUTURE USE 96 OTHER TYPE OF SHI FUTURE USE HSC FUTURE USE 97 OTHER TYPE OF SHI FUTURE USE HSC FUTURE USE 98 OTHER TYPE OF SHI FUTURE USE HSC NONE 99 OTHER TYPE OF SHI NONE PILOT WIG: Wing in ground SEACH AND RESCURE VESSELS HSC: HIgh speed craft TUGS DG: Dangerous goods PORT TENDERS VESSELS WITH ANTI-POLUUTION FACILITIES OR EQUIPMENT LAW ENFOREMENT VESSELS SPARE-FOR ASSIGNMENTS TO LOCAL VESSELS SPARE-FOR ASSIGNMENTS TO LOCAL VESSELS MEDICAL TRANSPORTS SHIPS ACCORDING TO RESOLUTION NO 18 HS: Harmful substances MP: Marine pollutants 0-9: Undefined 18.Press the [ENT] key to register settings and return to the INIT SETTINGS menu. 19. Press the [MENU] key. You are asked if you are sure to save settings. 1 OPERATION SAVE ? YES NO CANCEL 20. Press the [ENT] key to save settings. 1.6 Setting CPA/TCPA Set the CPA (Closest Point of Approach and TCPA (Time to Closest Point of Approach) of AIS targets for which you want to be alerted to targets close to own ship. When a ship whose CPA and TCPA are lower than set here the audio alarm sounds (if active). (The audio alarm may be activated or deactivated through the menu. See paragraph 1.12.) 1. Press the [MENU] key to open the main menu. 2. Press the [5] key to open the INIT SETTINGS menu. 3. Press the [5] key to choose SET CPA/TCPA. [SET CPA/TCPA] CPA: 0.90 nm TCPA: 01 min +ACTV: DSBL 4. 5. 6. 7. 8. Dialog box for entry of CPA/TCPA Enter desired CPA (setting range: 0-6.00 nm) with the numeric keys and then press the [NEXT] key to choose TCPA. Enter desired TCPA (setting range: 0-60 min) with the numeric keys and then press the [NEXT] key to chose ACTV. Press the [SFT/ +/-] key to choose ENBL to activate the CPA/TCPA alarm; DSBL to disable it. Press the [ENT] key to return to the INIT SETTINGS menu. Press the [MENU] key. You are asked if you are sure to save settings. SAVE ? YES NO CANCEL SAVE confirmation screen 9. Press the [ENT] key to save settings. If, when ACTV is set to ENBL, a target whose CPA and TCPA are lower than set here is detected, the message WNG COLLISION appears and the audio alarm sounds (if active). Press the [CLR/ALM] key to erase the message and silence the alarm. 10 1 OPERATION 1.7 Plotter Display The plotter display automatically appears at each power on. You may also display it as below. AIS targets are displayed automatically. A target (target marker is hollow) indicates the presence of a vessel equipped with AIS in a certain location and course. If you desire to know more about a vessel’s data, select as in step 4 below. 1. Press the [MENU] key to open the menu. 2. Press the [2] key to show the PLOTTER display. 3. Use the [1] or [3] key to choose the range: [1] key to lower it; [3] key to raise it. The available ranges are (in nm) 0.125, 0.25, 0.5, 0.75, 1.5, 3, 6, 12, and 24. 4. To find a target’s data, do the following: a) Use the [◄] or [►] key to fill a wanted target marker in black; namely, activate the target. b) Press the [SFT/ +/-] key to display SOG/COG and CPA/TCPA alternately. c) Press the [ENT] key to display other data. Use the [▼] or [▲] key to scroll the data. The data is the same as that shown on the TARGET DATA sub-menu. For details, see paragraph 1.8. Selected target (circle filled in black) Target (hollow circle) Own ship marker Display range RNG: 1.50 nm [FURUNO] SOG: 10.2 kt COG: 135.0 deg INTRD: 0 [ ]: FWD [ ]: BACK * = Use [SFT +/-] key to show CPA/TCPA. Target name Speed over ground* Course over ground* Number of targets within the guard zone (CPA setting) Use keys shown to select target to display its data. Plotter display Note 1: If no signal is received from an AIS target for one minute and thirty seconds it is declared a lost target. Three minutes later it is erased from the screen. Note 2: When a target’s CPA and TCPA are lower than set in paragraph 1.6, the target flashes and the audio alarm sounds (if active). Press the [CLR/ALM] key to stop the flashing and silence the audio alarm. Take suitable measures to avoid collision. 11 1 OPERATION 1.8 Target Data Display If you desire detailed information about a target, do the following: 1.8.1 Normal target data 1. Press the [MENU] key to open the menu. 2. Press the [1] key to choose TARGET DATA. (To show the DANGEROUS SHIPS display at this time, press the [SFT/ +/-] key. For further details about the DANGEROUS SHIPS display see paragraph 1.8.2.) Targets listed in order of range from own ship Target’s name, and range and bearing from own ship to target NAME RNG( nm ) BRG(°) FURUNO 2.9 276.1 VOYAGE 3.1 292.9 QUEST 4.3 279.5 SEADOG 15.6 82.0 INTREP 21.1 123.1 GLOBER 28.8 246.3 DTLS: [ENT] 1/ Target no. selected, no. of targets Target list 3. Use the [▼] or [▲] key to choose the target whose data you wish to view, and then press [ENT] key. 4. Use the [▼] or [▲] key to scroll the display. 5. Press the [MENU] key twice to return to the main menu. See the illustration on the next page for target data display examples. 12 1 OPERATION [DETAILS DATA] DNG MMSI : 431099806 NAME : FURUNO MMSI no. Name C. SIGN: ZL6DEF1 IMO# : 109873421 CPA : 0.02 nm TCPA : 0’17" Call sign IMO no. CPA TCPA "LOST" appears when signal from a target is lost. Three minutes after the loss the target’s data is erased. [DETAILS DATA] MMSI: 431099806 LAT : 34°03.5442’N LON : 134°30.3883’E COG : 270.0 deg SOG : 20.0 kt RNG : 25.1 nm BRG : 278.0 deg "DNG" (DANGER) appears when a target’s CPA and TCPA are lower than the CPA/TCPA setting. MMSI no. Latitude Longitude Course over ground Speed over ground Range Bearing [DETAILS DATA] MMSI: 431099806 MMSI no. A: 10 m B: 20 m C: 5 m D: 5 m [DETAILS DATA] MMSI : 431099806 TYPE NO : 255 TYPE NAME FUTURE USE Distance from bow to GPS antenna position Distance from stern to GPS antenna position Distance from port to GPS antenna position Distance from starboard to GPS antenna position MMSI no. Type no. Type description [DETAILS DATA] MMSI : 431099806 NAV STATUS NO : 00 NAV STATUS UNDER WAY USING ENGINE (DEFAULT) MMSI no. Navigation status no. Navigation status description Target data displays 13 1 OPERATION 1.8.2 Finding dangerous ship’s data You can easily find dangerous ships whose CPA and TCPA are lower than the preset CPA and TCPA values set on the INIT SETTINGS menu. 1. Press the [MENU] key to open the menu. 2. Press the [1] key to choose TARGET DATA. 3. Press the [SFT/ +/-] key to show the DANGEROUS SHIPS display. [DANGEROUS SHIPS] Target’s name, and CPA and TCPA NAME CPA( m) TCPA BOUNTY 0.2 2:00 SEADOG 1.0 2:30 DTLS: [ENT] 1/ Target no. selected, no. of dangerous targets Dangerous ships display 4. To find a dangerous target’s details, choose it using the [▲] or [▼] key and then press the [ENT] key. The data format is the same as that shown on the previous page. 5. Press the [MENU] key several times to return to the main menu. Note: The message “LOST” appears at the top of the DANGEROUS SHIPS display when no AIS signal is received from the selected target. 14 1 OPERATION 1.9 Own Ship’s Information The OWN DATA menu (Menu #3) shows your ship's information and status (set on the INIT SETTING menu) and navigation data. 1.9.1 Own static data The OWN STATIC DATA display shows your ship’s static data, which includes MMSI, call sign and name, IMO number, length and beam, type of ship and location of position fixing antenna. This data should be checked once per voyage or once per month whichever is shorter. Data may be changed only on the authority of the master. 1. Press the [MENU] key to show the menu. 2. Press the [3] key to open the OWN DATA sub-menu. [OWN DATA] 1 OWN STATIC DATA 2 OWN DYNAMIC DATA 3 ALARM STATUS 4 SENSOR STATUS 5 INTERNAL GPS OWN DATA sub-menu 3. Press the [1] key to choose OWN STATIC DATA. 4. Use the [▼] or [▲] key to view other pages. 5. Press the [MENU] key twice to return to the main menu. See the illustration on the next page for own static data examples. 15 1 OPERATION [OWN STATIC DATA1] NAME : XXXX Name Call sign C. SIGN: CAL0001 MMSI : 123456789 IMO : 623498071 [ ] MMSI no. IMO no. [ ] [OWN STATIC DATA2] DESTINATION: TOKYO Destination DATE : 12/DEC TIME : 10:25 Estimated date of arrival Estimated time of arrival [ ] [ ] [OWN STATIC DATA3] DTE : DEFAULT DRAUGHT: 12.1 m NAV STATUS: 00 STATUS NAME UNDER WAY USING ENGINE (DEFAULT) [ ] Data terminal equipment status Draught Navigation status no. Navigation status description [ ] [OWN STATIC DATA4] CPA : 1.50 nm TCPA : 10 min ANT POS INT. EXT. LENGTH A : 75 m 77 m LENGTH B : 20 m 18 m LENGTH C : 15 m 18 m LENGTH D : 15 m 12 m [ ] CPA (preset value) TCPA (preset value) IN: Internal GPS, OUT: External GPS Distance from bow to GPS antenna position Distance from stern to GPS antenna position Distance from port to GPS antenna position Distance from starboard to GPS antenna position [ ] [OWN STATIC DATA5] CREW : 12 TYPE : 36 CLASS : A TYPE NAME SAILING Number of crew Ship type, class Ship type description OWN STATIC DATA displays 16 1 OPERATION 1.9.2 Own dynamic data The OWN DYNAMIC DATA display shows your ship’s dynamic data, which includes time, date, ship’s position, course over ground (COG), speed over ground (SOG), rate of turn (ROT), and heading. The OOW should periodically check position, speed over ground and sensor information. 1. Press the [MENU] key to open the menu. 2. Press the [3] key to choose OWN DATA. 3. Press the [2] key to choose OWN DYNAMIC DATA. Date, time Latitude Longitude Speed over ground Course over ground Rate of turn Heading [OWN DYNAMIC DATA] 01/JAN/2002 13:24:55 LAT : 34°45.2132’ N LON : 135°21.2345’ E SOG : 8.1 kt COG : 118.5 deg ROT : 10.3 deg/min HDG : 120.7 deg Flashing when transmitting OWN DYNAMIC DATA display 4. Press the [MENU] key to close the display. 17 1 OPERATION 1.10 Messages You may send and receive messages via the VHF link, to a specified destination (MMSI) or all ships in the area. Messages can be sent to warn of safety of navigation, for example, an iceberg sighted. Routine messages are also permitted. Short safety related messages are only an additional means to broadcast safety information. They do not remove the requirements of the GMDSS. When a message is received, the equipment beeps and the indication “MESSAGE” appears. The contents of the message may be viewed on the receive message log. 1.10.1 Sending a message 1. Press the [MENU] key to open the main menu. 2. Press the [4] key to open the SET MSG sub-menu. [SET MSG] 1 CREATE MSG 2 XMIT MSG(S) 3 RCVD MSG(S) SET MSG sub-menu 3. Press the [1] key to open the CREATE MSG sub-menu. [CREATE MSG] 1 SET MSG TYPE 2 SET MSG 3 SEND MSG CREATE MSG sub-menu 4. Press the [1] key to choose SET MSG TYPE. [SET MSG TYPE] +ADDRESS TYPE: BROAD-CAST MMSI: 000000000 MSG TYPE: NORMAL + CHANNEL#: A OR B + MMS SET MSG TYPE sub-menu 18 1 OPERATION 5. ADDRESS TYPE is selected; use the [SFT/ +/-] key to choose address type: ADDRESS-CAST for a specific ship, or BROAD-CAST for all ships. For BROAD-CAST go to step 7. 6. For ADDRESS-CAST, press the [NEXT] key to choose “MMSI,” and then enter the MMSI of the receiving ship. 7. Press the [NEXT] key to choose MSG TYPE. 8. Use the [SFT/ +/-] key to choose message type: NORMAL (message other than safety) or SAFETY (important navigational or meteorological warning). 9. Press the [NEXT] key to choose CHANNEL#. 10. Use the [SFT/ +/-] key to choose which channel to transmit your message over; CH-A, CH-B, BOTH (CH-A and CH-B), or “A OR B” (either channel). 11. Press the [ENT] key to register settings and return to the CREATE MSG sub-menu. 12. Press the [2] key to choose SET MSG. [SET MSG] Data Input Mode 123: Numeric ABC: Alphabet Use the [SFT/ +/-] key to switch modes. 123 0/150 Number of characters used SET MSG screen 13. Key in your message, using up to 150 alphanumeric characters. Use the [SFT/ +/-] key to switch between numeric and alphabet input. If you enter a wrong character, use the [CLR/ALM] key to erase it. 14. Press the [ENT] key to save the message and return to the CREATE MSG sub-menu. 15. Press the [3] key (SEND MSG) to send your message. The screen displays “NOW SENDING” during transmission and “SEND COMPLETED!” when transmission has been completed. (MMSI no. is shown along with “SEND COMPLETED” if the message was transmitted to a specific ship.) If the message could not be sent, “SEND FAILED” appears. And if you did not receive acknowledgement of a message, despite successful transmission, “UNSUCCESSFUL” appears. 19 1 OPERATION 1.10.2 Receiving messages When a message is received the window below appears on the display. To view the contents of the message do the following: MESSAGE ! ESC : [ENT] Message received 1. 2. 3. 4. Press the [ENT] key to erase the “message received” window. Press the [MENU] key to show the main menu. Press the [4] key to choose SET MSG. Press the [3] key to choose RCVD MSG(S). Date and time message received [RCVD MSG(S)] 10/APR 05:09 NEW! FROM: 431099806 27/MAR 22:00 FROM: 431099806 01/JAN 09:54 FROM: 431099806 Unread message Sender of message (10 digits) Safety-related message Sample received message 5. Press the [NEXT] key to choose message marked with “NEW” and press the [ENT] key to view the contents of the message. 20 1 OPERATION 1.10.3 Message logs The FA-100 automatically saves five each of transmitted and received messages to their respective message logs. When a log becomes full, the oldest message in the log is automatically deleted to make room for the latest. To display a message log, do the following: 1. Press the [MENU] key to open the menu. 2. Press the [4] key to choose SET MSG. 3. Press the [2] key to display the XMIT message log, or the [3] key to display the RCVD message log. MMSI delivered to Date, time message transmitted Date, time message received [XMIT MSG(S)] 31/NOV 13:25 NEW! * TO: 431099111 26/OCT 03:43 NEW! * TO: 431099111 19/SEP 18:00 TO: 431099111 [RCVD MSG(S)] 10/APR 05:09 NEW! * FROM: 431099806 27/MAR 22:00 FROM: 431099806 01/JAN 09:54 FROM: 431099806 Sender’s MMSI * = NEW: Unread message XMIT MSG log RCVD MSG log XMIT and RCVD message logs 4. To view a message, choose it with the [▼] or [▲] key and then press the [ENT] key. 5. Press the [MENU] key twice to close the log and return to the main menu. 21 1 OPERATION 1.11 Regional Operating Channels AIS operates primarily on two dedicated VHF channels, CH 2087 and CH2088. Where these channels are not available regionally, the AIS is capable of being automatically switching to designated alternate channels by means of a message from a shore facility. Where no shore based AIS or GMDSS sea area A1 station is in place, the AIS should be switched manually as in paragraph 1.11.2. A regional operating area is set with the procedure below. The most recent eight areas are memorized. • • • • Automatic setting of VHF DSC (channel 70) from shore-based AIS Automatic setting by AIS message from shore-based AIS Setting by shipboard system such as ECDIS Manual setting The default area is as follows: • • • • 1.11.1 Tx power: 12.5 W Channel no. 2087, 2088 Frequency bandwidth: 25 kHz Tx/Rx mode: Tx/Rx Viewing channels, Tx power Do the following to view current channels. 1. Press the [MENU] key to open the menu. 2. Press the [6] key to open the SYSTEM SETTINGS sub-menu. 3. Press the [2] key to choose SET CHANNEL. [SET CHANNEL] 1 VIEW CHANNEL 2 CHANNEL EDIT SET CHANNEL menu 22 1 OPERATION 4. Press the [1] key to show the VIEW CHANNEL display. Power [VIEW CHANNEL] POWER : 12.5W Channel CHANNEL NO. CH-A: 2087 CH-B: 2088 VIEW CHANNEL display 5. Press the [MENU] key to close the display. 1.11.2 Displaying, editing regional operating area status You may display the status of regional operating areas currently memorized in the equipment. Nine of any combination of AIS message from shore-based AIS, DSC message, manual settings and commands from ECDIS or a PC may be registered and one will be a default value. About registering areas • AIS and DSC messages registered within last two hours cannot be edited. • An item labeled DEFAULT cannot be registered. (“DEFAULT” are data used for international waters not controlled by shore-based AIS.) • If two areas overlap one another the oldest data is deleted. • Data older than five weeks is deleted. • Area data is deleted when it is more than 500 miles from the area for which it was registered. 1. 2. 3. 4. Press the [MENU] key to open the menu. Press the [6] key to open the SYSTEM SETTINGS sub-menu. Press the [2] key to choose SET CHANNEL. Press the [2] key to open the CHANNEL EDIT sub-menu. [CHANNEL EDIT] SELECT NO. 1 TIME: - -/- - - - -: - FROM MMSI: DEFAULT TYPE: DEFAULT EDIT : [ENT] CHANNEL EDIT sub-menu, page 1 SELECT NO.: File number, 1-9. In order of distance from own ship, from closest to furthest. TIME: Data and time equipment controlled by external source. MMSI: MMSI displayed for control by DSC or shore-based AIS. Dashes or “EMPTY” (no data) otherwise. 23 1 OPERATION TYPE: How channel is controlled: AIS, AIS message; PI, ECDIS or PC; DSC, DSC, MANUAL, manual control Note: MMSI and TYPE must be set to other DEFAULT to edit. 5. Use the [▲] or [▼] key to choose file number from SELECT NO. 6. Press the [ENT] key to show details. [CHANNEL EDIT] FROM MMSI:_ _ _ _ _ _ _ _ _ +POWER : 12.5W CH NO.CH-A: 2087 CH-B: 2088 MODE CH-A: TX/RX + CH-B: TX/RX ZONE: 5nm CHANNEL EDIT sub-menu, page 2 7. POWER is selected; press the [SFT/ +/-] key to choose power: 12.5 W or 2 W. 8. Press the [NEXT] key to choose CH NO. 9. Key in channel number for channel A and B with the numeric keys. 10. Press the [NEXT] key to choose MODE. 11. Press the [SFT/ +/-] key to assign mode for channel A and B. Each time the key is pressed the selection changes in the sequence of TX/RX, TX/RX; TX/RX, RX; RX, TX/RX; RX, RX; RX, UNUSED; UNUSED, RX. 12. Press the [NEXT] key to choose ZONE. In this zone, the #1 channel in selected area and the #1 channel in the adjacent zone are used for communications. 13. Key in the zone distance. The setting range is 0 to 8 (nm), and the default setting is 5 nm. 14. Press the [NEXT] key to go to the next page. [CHANNEL EDIT] CH-AREA RIGHT-TOP LAT: 00°00.0’N LON: 000°00.0’E LEFT-BOTTOM LAT: 00°00.0’N LON: 000°00.0’E ++++- CHANNEL EDIT sub-menu, page 3 15. Key in the latitude and longitude for the right-top position (northeast point) of the AIS operating area. Use the [SFT/ +/-] key to switch coordinate, if necessary. 16. Press the [NEXT] key to choose LEFT-BOTTOM. 17. Key in the latitude and longitude for the left-bottom position (southwest position) of the AIS operating area. Use the [SFT/ +/-] key to switch coordinate, if necessary. Note: The available range is 20-200 nm. If the area contains overlapping data the older data will be erased. 24 1 OPERATION 20-200 nm 20-200 nm RIGHT-TOP ZONE 1-8 nm LEFT-BOTTOM Description of RIGHT-TOP, LEFT-BOTTOM, ZONE Note: To check or edit settings on previous page, press the [NEXT] key while pressing the [SFT +/-] key. 18. Press the [ENT] key. 19. YES is selected; press the [ENT] key to register settings. (If the password entry screen is displayed, MMSI is set to DEFAULT. This cannot be changed.) 20. Press the [MENU] key several times to close the menu. Note: If you enter invalid data an appropriate error message appears. Press the [ENT] key and then reenter data. 1.12 Enabling/Disabling the Buzzer The buzzer that sounds against CPA or TCPA violation and system trouble may be enabled or disabled as below. Note that this buzzer is not related to a radar or ECDIS alarm. 1. Press the [MENU] key to open the menu. 2. Press the [6] key to open the SYSTEM SETTINGS menu. 3. Press the [5] key to choose SET BUZZER. [SET BUZZER] ALARM : ON CPA/TCPA : ON ++- SET BUZZER menu 4. ALARM is selected; press the [SFT/ +/-] key to choose ON or OFF as appropriate. This alarm is given to system trouble. 5. Press the [NEXT] key to choose CPA/TCPA, and then press the [SFT/ +/-] key to choose ON or OFF as appropriate. 6. Press the [ENT] key to register settings. 7. Press the [MENU] key several times to close the menu. 25 1 OPERATION 1.13 Long Range Mode The long range mode sets how to reply to a request for own ship data from a distant station, for example, Inmarsat C station. You may reply automatically or manually. 1. Press the [MENU] key to open the menu. 2. Press the [6] key to open the SYSTEM SETTINGS menu. 3. Press the [3] key to choose SET LR MODE. [SET LR MODE] LR MODE : AUTO +- SET LR MODE menu 4. Press the [SFT/ +/-] key to choose AUTO or MANUAL as appropriate. AUTO for automatic replay, MANUAL for manual reply. 5. Press the [ENT] key to register setting. 6. Press the [MENU] key several times to close the menu. Manual reply For manual reply, the message below appears when a request for own ship data arrives from a distant station. Press the [ENT] key to send the data, or choose NO and press the [ENT] key to send no data. [RECEIVE LR] RESPONSE? YES NO +/- Automatic reply For automatic reply, the message below appears when a request for own ship data arrives from a distant station and its data is automatically transmitted. Press the [ENT] key to erase the message. [RECEIVE LR] LR RECEIVED ESC : [ENT]+/- 26 2 MAINTENANCE, TROUBLESHOOTING WARNING ELECTRICAL SHOCK HAZARD Do not open the equipment. Only qualified personnel should work inside the equipment. 2.1 Maintenance Regular maintenance is necessary to maintain performance. A monthly maintenance program should be established and should at least include the items in the table below. Maintenance items Item Check point Connectors Check that all connectors on the rear panel of the transponder unit are firmly connected. Cabling Check cabling for damage. Replace if damaged. Ground terminal Check the ground terminal for rust. Clean if necessary. Ground wire Confirm that the ground wire is firmly fastened. Transponder unit cleaning Dirt and dust should be removed from the transponder unit with a soft, dry cloth. Wipe the LCD carefully to prevent scratching, using tissue paper and an LCD cleaner. To remove dirt or salt deposits, use an LCD cleaner, wiping slowly with tissue paper so as to dissolve the dirt or salt. Change paper frequently so the salt or dirt will not scratch the LCD. Do not use solvents such as thinner, acetone or benzene for cleaning; they can remove paint and marks and deform the equipment. 27 2 MAINTENANCE, TROUBLESHOOTING 2.2 Resetting the Breaker The BREAKER button on the rear panel pops out when internal fault or overcurrent is detected. Find the cause before pushing in the breaker to restore normal operation. POWER 12-24 VDC BREAKER (PUSH-ON) Breaker GPS ANT VHF ANT LOG IN EXT GPS LAN AD-10 IN to JUNCTION BOX EXTRA I/O FA-100 Transponder unit, rear view 2.3 Replacement of Battery The lithium battery on the MPB Board (24P0015) stores data while the power is turned off, and its life is about five years. When the voltage of the battery goes below a certain level, the message BACKUP ERROR appears when turning on the power. When this occurs, turn off the power and contact a FURUNO agent or dealer to request replacement of the battery, at your earliest convenience. The battery stores own ship’s static data: MMSI no., IMO no., ship name, call sign, ship’s length and width and GPS antenna position. After the battery has been replaced, reenter own ship’s static data. Battery Type CR2/3-8LF1ST1SN 28 Code No. 000-145-543 2 MAINTENANCE, TROUBLESHOOTING 2.4 Troubleshooting The troubleshooting table below provides common symptoms of trouble and the means to rectify them. If you cannot restore normal operation, do not attempt to check inside the equipment. Refer any repair work to a qualified technician. Troubleshooting Symptom Remedy Cannot turn on the power. • Check that the power connector is firmly fastened. • Check if the breaker (red button) on the rear panel of the transponder unit has popped out. Find out the cause before pushing in the breaker to restore normal operation. • Check the power supply. Power Transmitting, receiving messages Cannot transmit or receive. • Check that the VHF antenna cable is firmly fastened. • Check the VHF antenna. • For TX message, try different TX channel (operating sequence: [MENU], [4], [1], [1]). Can transmit but message is sent to wrong party. • On the SET MSG TYPE sub-menu, check that ADDRESS TYPE is selected to ADDRESS-CAST and MMSI is correct, before sending a message. (operating sequence: [MENU], [4], [1], [1]) Position data No position data • Check the GPS antenna for damage. • Check the GPS antenna cable and its connectors. 29 2 MAINTENANCE, TROUBLESHOOTING 2.5 Diagnostics The FA-100 provides diagnostic tests to check program no., memory, keyboard, LCD and built-in GPS receiver. 2.5.1 Displaying program number 1. Press the [MENU] key to open the main menu. 2. Press the [7] key to open the DIAGNOSTICS sub-menu. For service technician. Not accessible by user. [DIAGNOSTICS] 1 PROGRAM NO. 2 MEMORY TEST 3 KEY TEST 4 LCD TEST 5 ON/OFF HISTORY 6 GPS TEST 7 FOR SERVICE DIAGNOSTICS sub-menu 3. Press the [1] key to choose PROGRAM NO. [PROGRAM NO.] MAIN: 245-0001-0** SUB : 245-0002-0** H8S1: 245-0003-0** H8S2: 245-0004-0** H8S3: 245-0005-0** ** = Program version no. PROGRAM NO. display 4. Press the [MENU] key to return to the DIAGNOSTICS sub-menu. 30 2 MAINTENANCE, TROUBLESHOOTING 2.5.2 Memory test The memory can be checked for proper operation as follows: 1. Press the [MENU] key to open the main menu. 2. Press the [7] key to open the DIAGNOSTICS sub-menu. 3. Press the [2] key to choose MEMORY TEST to test the memory. The results are shown as OK or NG (No Good). For any NG, contact your dealer for advice. [MEMORY TEST] ROM MAIN : OK SUB : OK H8S1 : OK H8S2 : OK H8S3 : OK RAM OK OK OK OK OK MEMORY TEST display 4. Press the [MENU] key to return to the DIAGNOSTICS sub-menu. 2.5.3 Keyboard test The keyboard can be checked for proper operation as follows: 1. Press the [MENU] key to open the main menu. 2. Press the [7] key to open the DIAGNOSTICS sub-menu. 3. Press the [3] key to choose KEY TEST. [KEY TEST] NXT CLR SFT MEN ENT ESC : [MENU]x3 KEY TEST display 4. Press each key (except the [POWER] key) one by one. A key’s on-screen location fills in black while the key is pressed, if the key is functioning properly. 5. To escape from the keyboard test, press the [MENU] key three times. 31 2 MAINTENANCE, TROUBLESHOOTING 2.5.4 LCD test The LCD can be checked for proper display as follows: 1. Press the [MENU] key to open the main menu. 2. Press the [7] key to open the DIAGNOSTICS sub-menu. 3. Press the [4] key to choose LCD TEST. The screen color automatically changes from yellowish-green to black alternately if the LCD is normal. [LCD TEST] [LCD TEST] Yellowish-green Black LCD TEST display 4. Press the [MENU] key to return to the DIAGNOSTICS sub-menu. 2.5.5 On/off history The ON/OFF HISTORY log shows the date and time of the latest 30 power-ons and power-offs. In special cases, on and off times of 0 W transmission may also be shown. 1. Press the [MENU] key to open the main menu. 2. Press the [7] key to open the DIAGNOSTICS sub-menu. 3. Press the [5] key to choose ON/OFF HISTORY. [ON/OFF HISTORY] PWR-ON 17/MAY/2002 05:35:54 PWR-OFF 17/MAY/2002 04:56:57 PWR-ON 17/MAY/2002 04:06:34 Power turned on 17 May 2002 at 05:35:54 ON/OFF HISTORY log 4. Use the [▼] or [▲] key to scroll the log. 5. Press the [MENU] key to return to the DIAGNOSTICS sub-menu. 32 2 MAINTENANCE, TROUBLESHOOTING 2.5.6 GPS test The GPS test checks the built-in GPS receiver for proper operation. 1. Press the [MENU] key to open the main menu. 2. Press the [7] key to open the DIAGNOSTICS sub-menu. 3. Press the [6] key to choose GPS TEST. [GPS TEST] START OF TEST PUSH [ENT] GPS TEST display 4. Press the [ENT] key to start the test. “NOW TESTING…” is displayed during the testing and the results are displayed as shown in the illustration below. SELF TEST1 shows OK for normal operation; NG (No Good) for abnormal operation. SELF TEST shows “0” for normal operation; other numeric for abnormal operation. [GPS TEST] PROGRAM No. : 4850218 PROGRAM Ver. : 0** SELF TEST1 : OK SELF TEST2 :0 ERROR CONTENTS ** = Program Version No. GPS test results 5. Press the [MENU] key to return to the DIAGNOSTICS sub-menu. 33 2 MAINTENANCE, TROUBLESHOOTING 2.6 Alarm Status The alarm status log shows the date and time alarms were violated. 1. Press the [MENU] key to open the main menu. 2. Press the [3] key to choose OWN DATA. 3. Press the [3] key to choose ALARM STATUS. Alarm name, date and time of alarm [ALARM STATUS] EPFS 7/MAR L/L 7/MAR SOG 7/MAR COG 6/MAR HDG 3/MAR ROT 19/FEB 4:32:16 4:02:01 2:34:54 7:09:32 8:00:21 9:05:22 ALARM STATUS display 4. Use the [▼] or [▲] key to scroll the log. 5. Press the [MENU] key to close the log. Alarm statuses and their meanings Alarm Status Indication 34 Alarm Message Meaning TX Tx malfunction TX malfunction ANT Antenna VSWR exceed limit Antenna VSWR trouble. Continued operation possible. CH1 Rx channel 1 malfunction TDMA RX1Board trouble. TX stopped on corresponding TX channel. CH2 Rx channel 2 malfunction TDMA RX2 Board trouble. TX stopped on corresponding TX channel. CH70 Rx channel 70 malfunction DSC RX Board trouble, transmission stopped on CH70. EPFS External EPFS lost No data from external navigator. Continued operation possible. L/L No sensor positioning in use No L/L data SOG No valid SOG information Invalid SOG data COG No valid COG information Invalid COG data HDG Heading lost/invalid Invalid/nonexistent HDG data ROT No valid ROT information Invalid ROT data 2 MAINTENANCE, TROUBLESHOOTING 2.7 Error Messages The FA-100 displays the following error messages to alert you to invalid data, etc.. Error messages Message Meaning BATTERY ERROR! Voltage of backup battery is getting low. BACKUP ERROR ROM contents erased because voltage of backup battery is too low. ENTER MMSI Your MMSI was not found when turning on the power. NO SEL. RENEW AGAIN No data found for target selected (target data, dangerous ship). CAN’T DISPLAY OVER LAT85° Own ship’s latitude is higher than 85°. INVALID DATA Invalid own ship position. NO MMSI MMSI not entered when SEND MSG is set for ADDRESS-CAST. SYNCHRONISM CAN’T TAKEN Slot synchronization not yet performed when you attempted to send a message. NO MESSAGE! No TX message when you attempted to send a message. SEND FAILED! Transmission failed. UNSUCCESSFUL! Message sent did not reach specified station. (Not receiving ACK.) NO MESSAGE No TX or RX message. OUT OF RANGE!: DRAUGHT:0-25.5 Invalid draught entered in SET SHIP DATA. OUT OF RANGE!: YEAR Invalid year entered in SET DESTINATION. OUT OF RANGE!: MONTH:1-12 Invalid month entered in SET DESTINATION. OUT OF RANGE!: DAY:1-29/30/31 Invalid day entered in SET DESTINATION. OUT OF RANGE!: HOUR:0-23 Invalid hour entered in SET DESTINATION. OUT OF RANGE!: MINUTE:0-59 Invalid minute entered in SET DESTINATION. OUT OF RANGE!: CREW:0-8191 Invalid crew no. entered in SET CREW&TYPE. OUT OF RANGE!: CPA:0-6.00 Invalid CPA range entered. OUT OF RANGE!: TCPA:0-60 Invalid TCPA entered. OUT OF RANGE!: CH-A:IT DOESN’T EXIST Invalid CH-NO. A entered on the CHANNEL EDIT sub-menu. OUT OF RANGE!: CH-A:IT DOESN’T EXIST Invalid CH-NO. A entered on the CHANNEL EDIT sub-menu. OUT OF RANGE!: ZONE:1-8 Invalid ZONE entered on the CHANNEL EDIT sub-menu. ERROR REGIST Duplicate data in overlapping sea areas. OUT OF RANGE!: ROT CYCLE:1-10 Invalid ROT entered in SET I/O menu. 35 2 MAINTENANCE, TROUBLESHOOTING Note: Detection of RX Malfunction 1) Detection of TDMA RX malfunction Frequency error PLL chip on receiver board generates lock or unlock signal for synthesizer. MPU watches and sets status flag which reflects data of ALR sentence. ID 003 for RX1, ID 004 for RX2 2) Detection of DSC RX malfunction General error DSC Error (ID: 005) will happen in case of DSC MPU could not receive format specifier of the data from DSC amplifier unless RSSI exists more than four seconds. 2.8 GPS Monitor The GPS monitor display shows information about the built-in GPS receiver, including position, speed over ground, course over ground, date, time, mode and status. 1. Press the [MENU] key to open the menu. 2. Press the [3] key to choose OWN DATA. 3. Press the [5] key to choose INTERNAL GPS. Latitude position Longitude position Speed over ground Course over ground Date Time Mode A: GPS D: Differential N: No Fix [INTERNAL GPS] LAT : 34°44.4639’N LON : 135°21.2395’E SOG : 10.9 kt COG : 98.9 deg UTC : 6/MAR/2002 6:29:02 MODE: A STS: 3D 3D: D2D: D3D: DOP: 3D GPS position fix 2D DGPS position fix 3D DGPS position fix HDOP larger than 4 in 2D fix, or PDOP larger than 6 in 3D fix NO FIX: No position fix Internal GPS monitor 5. Press the [MENU] key to close the display. 36 STS (Status) 2D: 2D GPS position fix 2 MAINTENANCE, TROUBLESHOOTING 2.9 Displaying Sensor Status The SENSOR STATUS display monitors sensor status. 1. Press the [MENU] key. 2. Press the [3] key to choose OWN DATA. 3. Press the [4] key to choose SENSOR STATUS. [SENSOR STATUS] UTC CLOCK LOST Sensor status display 4. Press the [MENU] key to close the menu. 37 2 MAINTENANCE, TROUBLESHOOTING 2.10 Restoring Default Settings You may clear all settings to start afresh with default settings. When this is done, the default options for all items in the INIT SETTING and SYSTEM SETTINGS sub-menus are restored. GPS data is also cleared; however, MMSI and IMO numbers are not cleared. 1. Turn on the power while pressing and holding down the [CLR/ALM] key. Hold down the [CLR/ALM] key until the “SHUT DOWN” screen below appears. SHUT DOWN 18/MAR/2002 12:12:11 Shut down screen 2. The equipment then starts restoring default settings, showing “COMPLETE” when finished. NOW STARTING . . . CHECKING MENORY COMPLETE Screen after memory has been cleared 3. Press the [CLR/ALM] key. The plotter display appears. 4. Set items in INIT SETTINGS and SYSTEM SETTINGS, referring to Chapter 1. 38 APPENDIX Menu Tree Default settings in bold italics. [MENU] key 1 TARGET DATA 2 PLOTTER 3 OWN DATA 1 OWN STATIC DATA OWN STATIC DATA 1 (Name, call sign, MMSI, IMO no.) OWN STATIC DATA 2 (Destination, estimated date and time of arrival) OWN STATIC DATA 3 (DTE, nav status) OWN STATIC DATA 4 (CPA, TCPA, GPS antenna position) OWN STATIC DATA 5 (Crew, type, class) 2 OWN DYNAMIC DATA (Own ship latitude, longitude, SOG, COG, ROT, HDG) 3 ALARM STATUS (Displays alarm log.) 4 SENSOR STATUS 5 INTERNAL GPS (Shows position, SOG, COG, time, date, mode, reveiver status.) 4 SET MSG 1 CREATE MSG 1 SET MSG TYPE ADDRESS TYPE (ADDRESS-CAST, BROADCAST) MMSI MSG TYPE (NORMAL, SAFETY) CHANNEL (CH-A, CH-B, A OR B) 2 SET MSG 3 SEND MSG 2 XMIT MSG(S) 3 RCVD MSG(S) 5 INIT SETTINGS 1 SET SHIP DATA (NAME, CALL SIGN, DRAUGHT, DTE) 2 SET DESTINATION (DATE, TIME, DESTINATION) 3 SET NAV STATUS 4 SET TYPE&CREW CREW (0-8191, 0) TYPE CLASS (A, B) TYPE NO. (Set ship type. See page 8.) 5 SET CPA/TCPA CPA (0-6.00 nm) TCPA (0-60 min) ACTV (ENBL, DSBL) 6 SET ANTENNA POS 1 INTERNAL ANT POS A (0-511 m, 0) B (0-511 m, 0) C (0-63 m, 0) D (0-63 m, 0) 2 EXTERNAL ANT POS (Same items as 1 INTERNAL ANT POS.) (Continued on next page.) AP-1 APPENDIX 6 SYSTEM SETTINGS 1 SET I/O PORT 1 I/O SPEED (PCI/O, SNSR1, SNSR2, SNSR3, L/R, BCON, EXTRA1 I/O, XTRA I/O. Setting: 38.4k, 4800) 2 I/O FUNCTION (EXT DISP, LR) 3 I/O PRIORITY 1 L/L, COG, SOG (SN1, 1; SN2, 2: SN3, 3; EX1, 4; LR, 5; PC, 6, LAN, 7) 2 HDG (Same as 1 above) 3 ROT (Same as 1 above) 4 AIS RESPONSE (PC, LAN, NONE, EX1, LR) EX1 (ENBL, DSBL) LR (ENBL, DSBL) PC (ENBL, DSBL) LAN (ENBL, DSBL) 4 SET LAN (IP ADRS) (IP ADDRESS 000-000-000-000, SUB) NET MASK 000-000-000-000, PORT No. 10000) 2 SET CHANNEL 1 VIEW CHANNEL POWER (0, 2, 12.5 W) CHANNEL NO. (CH-A, 2087, CH-B, 2088) 2 CHANNEL EDIT SELECT (1-9) TIME MMSI TYPE POWER (12.5W, 2 W) CH-NO. CH-A (0000) CH-B (0000) MODE CH-A (TX/RX, RX UNUSED) CH-B (TX/RX, RX UNUSED) ZONE: 0 nm (1-8) CH AREA RIGHT-TOP ( LAT, LON) LEFT-BOTTOM (LAT, LON) 3 SET L/R MODE (AUTO, MANUAL) 4 SET OTHER I/O AD-10 (ENBL, DSBL) LOG (ENBL, DSBL) ROT (1-10 s, 1.) 5 SET BUZZER ALARM (ON, OFF) CPA/TCPA (ON, OFF) 7 DIAGNOSTICS 1 PROGRAM NO. 2 MEMORY STATUS 3 KEY TEST 4 LCD TEST 5 ON/OFF HISTORY 6 GPS TEST 7 FOR SERVICE AP-2 APPENDIX Parts List This equipment contains complex modules in which fault diagnosis and repair down to component level are not practical (IMO A.694(17)/8.3.1. Only some discrete components are used. FURUNO Electric Co., Ltd. believes identifying these components is of no value for shipboard maintenance; therefore, they are not listed in the manual. Major modules can be located on the parts location photo on page AP-4. FURUNO Model Unit FA-100 TRANSPONDER UNIT ELECTRICAL PARTS LIST 2002-June SYMBOL TYPE BK1 Blk.No. CODE No. REMARKS SHIPPABLE ASSEMBLY PRINTED CIRCUIT BOARD 24P0026, LKY2 24P0025, OCN2 24P0024, MOT2 24P0015, MPB 005-950-780 005-950-790 005-950-800 005-950-880 ASSEMBLY RX1 RX2 EXCT DSC PA PWX 005-952-240 005-952-250 005-952-260 005-952-270 005-952-280 005-952-290 FRONT PANEL ASSEMBLY FA-100 005-952-310 FILTER ASSEMBLY FA-100 005-952-230 BREAKER TBC5101-01-1211 000-119-400 GPS ASSEMBLY GN-7N5A-N 005-952-860 24P0010A 24P0010B 24P0012 24P0013 24P0014 24P0016 AP-3 APPENDIX Parts Location PWX Assy. MPB Board (see photo below) MOT2 Board (behind) RX1 Assy. PA Assy. RX2 Assy. EXCT Assy. DSC Assy. Transponder unit, front view, front panel removed MPB Board 24P0015 Transponder unit, right side view, cover removed AP-4 APPENDIX GPS Receiver GN-79N5A-N Transponder unit, top view, cover removed LKYZ Board 24P0026 Front panel of transponder unit AP-5 APPENDIX Filter Assy. FA-100, front view POWER 12-24 VDC BREAKER (PUSH-ON) GPS ANT VHF ANT LOG IN EXT GPS LAN AD-10 IN to JUNCTION BOX EXTRA I/O FA-100, rear view AP-6 OCN Board (behind plate) APPENDIX Digital Interface (IEC 61162-2) Sentence data Input sentences ABM, ACA, ACK, AIR, BBM, DTM, GBS, GGA, GLL, GNS, HDT, LRF, LRI, OSD, RMC, ROT, SSD, VBW, VSD, VTG Output sentences ABK, ACA, ALR, LRF, LR1, LR2, LR3, TXT, VDM, VDO Transmission interval ABK: With each event ACA: At RX ALR: 30 s during alarm, 2 min normally no alarm LRF, LR1, LR2, LR3: At RX TXT: Each update VDM: At RX VDO: 1 s Load requirements as listener Isolation: None Input Impedance: 6.3 k ohms Max. Voltage: ±15 V Threshold: ±0.2 V (A-B) Data transmission Data is transmitted in serial asynchronous form in accordance with the standard referenced in 2.1 of IEC 61162-2. The first bit is a start bit and is followed by data bits, least-significant-bit as illustrated below. The following parameters are used: Baud rate: 38.4 Kbps /4800 bps Data bits: 8 (D7 = 0), parity none Stop bits: 1 D0 Start bit D1 D2 D3 D4 Data bits D5 D6 D7 Stop bit AP-7 APPENDIX Serial interface I/O circuit JB TRANSPONDER 24P0025 J1 SENSOR 3 TD3-A <1< TD3-B <2< RD3-A <3< RD3-B <4< SENSOR2 TD2-A <6< TD2-B <7< RD2-A <8< RD2-B <9< L1 62 61 60 59 L16 SENSOR1 TD1-A <11< TD1-B <12< RD1-A <13< RD1-B <14< 56 55 12 L18 BEACON IN TD5-A <16< TD5-B <17< RD5-A <18< RD5-B <19< LR or ECDIS/RADAR TD4-A <21< TD4-B <22< RD4-A <23< RD4-B <24< <31< <32< <33< <34< AP-8 14 13 15 5V R76 1 R77 U33 75C1168PW 50 49 48 47 57 56 55 54 14 13 5V R80 1 R81 15 42 41 40 39 U34 75C1108PW 10 11 5V 6 R82 7 R83 45 10 44 43 11 5V R84 7 R85 53 52 51 50 42 L8 L7 10 11 36 35 L24 U32 75C1168PW 10 11 5V R78 7 R79 38 37 EXTRA I/O J2 TD7-A <1< TD7-B <2< RD7-A <3< RD7-B <4< 61 60 59 58 L6 25 26 27 28 5V R74 15 54 53 52 51 46 45 44 43 L21 62 L4 17 18 19 20 L19 65 64 63 L5 13 14 15 16 L20 69 68 67 66 L3 21 22 23 24 R: 10kΩ P1 5V R72 14 73 13 72 71 70 R73 R75 58 57 10 11 L17 24P0015 J7 L2 EXTRA1 I/O TD6-A <26< TD6-B <27< RD6-A <28< RD6-B <29< J9 66 65 64 63 L15 PC I/O TD8-A TD8-B RD8-A RD8-B 24P0024 P1 49 48 47 46 14 13 5V 2 R86 1 R87 U35 75C1108PW 15 APPENDIX Sentence description Input ABM - Addressed binary and safety related message This sentence provides an external application with a means to exchange data using an AIS. !--ABM,x,x,x,xxxxxxxxx,x,xx,s--s,x*hh| | | | | | | | | | | | | | | +--- 9 | | | | | | +----- 8 | | | | | +-------- 7 | | | | +------------ 6 | | | +--------------- 5 | | | +--------------------- 4 | | + --------------------------- 3 | +----------------------------- 2 +------------------------------- 1 1. Total number of sentences needed to transfer the message, 1 to 9 2. Message sentence number, 1 to 9 3. Message sequence identifier, 0 to 3 4. The MMSI of destination AIS unit for the ITU-R M.1371 message 6 or 12 5. AIS channel for broadcast of the radio message 6. VDL message number(6 or 12), see ITU-R M.1371 7. Encapsulated data 8. Number of fill-bits, 0 to 5 9. Checksum AP-9 APPENDIX ACA - AIS regional channel assignment message This sentence is used to both enter and obtain channel management information. $--ACA,x,IIII.I, a,yyyyy.yy,a,IIII.II,a,yyyyy.yy,a,x,xxxx,x,xxxx,x,x,x,a,x,hhmmss.ss*hh 15 14 13 12 11 10 1. Sequence number, 0 to 9 2. Region Northeast corner latitude - N/S 3. Region Northeast corner longitude - E/W 4. Region Southwest corner latitude - N/S 5. Region Southwest corner longitude - E/W 6. Transition Zone Size 7. Channel A 8. Channel A bandwidth 9. Channel B 10. Channel B bandwidth 11. Tx/Rx mode control 12. Power level control 13. Information source 14. In-use flag 15. Time of in-used change ACK- Acknowledge alarm $--ACK,xxx*hh | +--------------------- 2 +------------------------ 1 1. Local alarm number(identifier) 2. Checksum AP-10 APPENDIX AIR - AIS interrogation request This sentence provides an external application with the means to initiate a request for specific ITU-R M.1371 message from distant mobile or base AIS stations. $--AIR,xxxxxxxxx,x.x,x,x.x,x,xxxxxxxxx,x.x,x*hh | | | | | | | | | | | | | +--- 9 | | | | | +----- 8 | | | | +-------- 7 | | | | +--------------- 6 | | | +--------------------- 5 | | +------------------------ 4 | +--------------------------- 3 +------------------------------ 2 +------------------------------------- 1 1. MMSI of interrogated satation 1 2. ITU-R M.1371 message requested from station 1 3. Message 5 data set indicator 4. Number of second message requested from station 1 5. Message 5 data set indicator 6. MMSI of interrogated station 2 7. Number of message requested from station 2 8. Message 5 data set indicator 9. Checksum BBM - UAIS broadcast binary message This sentence provides an external application with a means to broadcast data, as defined by the application only – not the AIS. !--BBM,x,x,x,x,xx,s--s,x*hh || | | | | | | | | | | | | | +--- 8 | | | | | | +------ 7 | | | | | +--------- 6 | | | | +------------- 5 | | | +---------------- 4 | | +------------------ 3 | +-------------------- 2 +---------------------- 1 1. Total number of sentences needed to transfer the message, 1 to 9 2. Message sentence number, 1 to 9 3. Sequential Message identifier, 0 to 9 4. AIS channel for broadcast of the radio message 5. VDL message number(8,14,19 or 21), see ITU-R M.1371 6. Binary data 7. Number of fill-bits, 0 to 5 8. Checksum AP-11 APPENDIX DTM - Datum reference Local geodetic datum to which a position location is referenced. $--DTM,ccc,a,x.x,a,x.x,a,x.x,ccc*hh | | | | | | | | | | | | | | | | | +--- 7 | | | | | | | +------ 6 | | | | | | +---------- 5 | | | | +---+------------- 4 | | +---+------------------- 3 | +------------------------- 2 +---------------------------- 1 1. Local datum W84 - WGS84 W72 - WGS72 S85 - SGS85 P90 - PE90 999 - User defined IHO datum code 2. Local datum subdivision code 3. Lat offset, min, N/S 4. Lon offset, min, E/W 5. Altitude offset, m (Not used.) 6. Reference dattum W84 - WGS84 W72 - WGS72 S85 - SGS85 P90 - PE90 7. Checksum AP-12 APPENDIX GBS - GNSS satellite fault detection This message is used to support receiver autonomous integrity monitoring (RAIM). Given that a GPS receiver is tracking enough satellites to perform integrity checks of the positioning quality of the position solution, a message is needed to report the output of this process to other systems to advise the system user. With the RAIM in the GPS receiver, the receiver can isolate faults to individual satellites and not use them in its position and velocity calculations. Also, the GPS receiver can still track the satellite and easily judge when it is back within tolerance. This message shall be used for reporting this RAIM information. To perform these integrity functions, six channels of satellite tracking are a minimum while all-in-view tracking is most desirable. $--GBS,hhmmss.ss,x.x,x.x,x.x,xx,x.x,x.x,x.x*hh | | | | | | | | | | | | | | | +--------- 9 | | | | | | +------------ 8 | | | | | +---------------- 7 | | | | +-------------------- 6 | | | +----------------------- 5 | | +--------------------------- 4 | +------------------------------- 3 +----------------------------------- 2 +------------------------------------------- 1 1. UTC time of the GGA or GNS fix addociated with this sentence 2. Expected error in latitude 3. Expected error in longitude 4. Expected error in altitude 5. ID number of most likely failed satellite 6. Probability of missed detection for most likely failed satellite 7. Estimate of bias on most likely failed satellite 8. Standard deviation of bias estimate 9. Checksum AP-13 APPENDIX GGA - Global positioning system (GPS) fix data Time, position and fix related data for a GPS receiver. $--GGA,hhmmss.ss,llll.lll,a,yyyyy.yyy,a,x,xx,x.x,x.x,M,x.x,M,x.x,xxxx*hh | | | | | | | | | | | | | | | | | | | | | | | | | +-- 11 | | | | | | | | | | | +---- 10 | | | | | | | | | | +--------- 9 | | | | | | | | +---+------------ 8 | | | | | | +---+------------------ 7 | | | | | +------------------------- 6 | | | | +---------------------------- 5 | | | +------------------------------- 4 | | +----+--------------------------------- 3 +---+--------------------------------------------- 2 +------------------------------------------------------------- 1 1. UTC of position (Not used.) 2. Latitude, N/S 3. Longitude, E/W 4. GPS quality indicator 5. Number of satllite in use,00-12, may be different from the number in view (Not used.) 6. Horizontal dilution of precision (Not used.) 7. Antenna altitude above/below mean sealevel, m (Not used.) 8. Geoidal separation, m (Not used.) 9. Age of differential GPS data (Not used.) 10. Differential reference station ID, 0000-1023 (Not used.) 11. Checksum AP-14 APPENDIX GLL - Geographic position - latitude/longitude Latitude and longitude of present vessel position, time of position fix and status. $--GLL,llll.lll,a,yyyyy.yyy,a,hhmmss.ss,A,a*hh | | | | | | | | | +------- 6 | | | +--------- 5 | | +----------- 4 | | +---------------- 3 | | +------+----------------------- 2 +---+----------------------------------- 1 1. Latitude, N/S 2. Longitude, E/W 3. UTC of position (Not used.) 4. Status: A=data valid, V=data invalid 5. Mode indicator(see note) 6. Checksum NOTE Positioning system Mode indicator: A = Autonomous D = Differential E = estimated(dead reckoning) M = Manual input S = Simulator N = Data not valid The Mode indicator field supplements the Status field. The Status field shall be set to V=invalid for all values of Operating Mode except for A=Autonomous and D=Differential. The positioning system Mode indicator and Status field shall not be null fields. AP-15 APPENDIX GNS - GNSS fixed data $--GNS,hhmmss.ss,llll.lll,a,yyyyy.yyy,a,c--c,xx,x.x,x.x,x.x,x.x,x.x*hh | | | | | | | | | | | | | | | | | | | | | +--- 11 | | | | | | | | | +------ 10 | | | | | | | | +---------- 9 | | | | | | | +-------------- 8 | | | | | | +------------------ 7 | | | | | +---------------------- 6 | | | | +------------------------- 5 | | | +------------------------------ 4 | | +-------+--------------------------------- 3 +---+--------------------------------------------- 2 +------------------------------------------------------------- 1 1. UTC of position (Not used.) 2. Latitude, N/S 3. Longitude, E/W 4. Mode indicator 5. Total number of satllite in use,00-99 (Not used.) 6. HDOP (Not used.) 7. Antenna altitude, metres, re:mean-sea-level(geoid) (Not used.) 8. Geoidal separation (Not used.) 9. Age of differential data (Not used.) 10. Differential reference station ID (Not used.) 11. Checksum HDT - Heading - true Actual vessel heading in degrees true produced by any device or system producing true bearing. $--HDT,x.x,T*hh | | | | | +--------- 2 +----+----------- 1 1. Heading, degrees true 2. Checksum AP-16 APPENDIX LRF – Long-range function This sentence is used in both long-range interrogation and long-range interrogation replies. The LRF-sentence is the second sentence of the long-range range interrogation request pair, LRI and LRF. $--LRF,x,xxxxxxxxx,c--c,c--c*hh | | | +--- 5 | +------ 4 +----------- 3 +------------------- 2 +------------------------- 1 1. Sequence number, 0 to 9 2. MMSI of requestor 3. Name of requestor, 1 to 20 characters 4. Function, 1 to 26 characters 5. Checksum LRI – Long-range interrogation The LRI-sentence contains the information that the AIS needs in order to determine if the reply sentences need to be constructed. $--LRI,x,a,xxxxxxxxx,xxxxxxxxx,llll.ll,a,yyyyy.yy,a,llll.ll,a,yyyyy.yy,a*hh || | | | | | | | | | || | | | | | | | | +--- 9 || | | | | | | +---+----- 8 || | | | | +--+---------------- 7 || | | +---+-------------------------- 6 || +--+------------------------------------- 5 || +--------------------------------------------------- 4 || +------------------------------------------------------------- 3 | +------------------------------------------------------------------- 2 +--------------------------------------------------------------------- 1 1. Sequence number, 0 to 9 2. Control Flag 3. MMSI of requestor 4. MMSI of destination 5. Latitude - N/S(north-east coordinate) 6. Longitude - E/W(north-east coordinate) 7. Latitude - N/S(south-west coordinate) 8. Longitude - E/W(south-west coordinate) 9. Checksum AP-17 APPENDIX OSD - Own ship data Heading. course, speed, set and drift summary. Useful for, but not limited to radar/ARPA application. $--OSD,x.x,A,x.x,a,x.x,a,x.x,x.x,a*hh | | | | | | | | | | | | | | | | | | | +--------- 10 | | | | | | | | +----------- 9 | | | | | | | +-------------- 8 | | | | | | +------------------ 7 | | | | | +--------------------- 6 | | | | +------------------------ 5 | | | +--------------------------- 4 | | +------------------------------ 3 | +--------------------------------- 2 +------------------------------------ 1 1. Heading, degrees true 2. Heading status: A=data valid, V=data invalid 3. Vessel course, degrees true 4. Course reference, B/M/W/R/P(see note) 5. Vessel soeed 6. Speed refereence, B/M/W/R/P(see note) 7. Vessel set, degrees true---Manually entered (Not used.) 8. Vessel drift(speed) ---Manually entered (Not used.) 9. Speed units, K(km/h) / N(Knots) / S(statute miles/h) 10. Checksum NOTES - Reference systems(speed/course): B = bottom tracking log M = manually entered W = water referenced R = radar tracking(of fixed target) P = positioning system ground reference AP-18 APPENDIX RMC - Recommended minimum specific GPS/TRANSIT data Time, date, position, course and speed data provided by a GPS or TRANSIT navigation receiver. Checksum is mandatory in this sentence. This sentence is transmitted at intervals not exceeding 2 s and is always accompanied by RMB when a destination waypoint is active. RMC and RMB are the recommended minimum data to be provided by a GPS or TRANSIT receiver. All data fields must be provided, null fields used only when data is temporarily unavailable. $--RMC,hhmmss.ss,A,llll.lll,a,yyyyy.yyy,a,x.x,x.x,xxxxxx,x.x,a,a*hh | | | | | | | | | | | | | | | | | | | +--- 10 | | | | | | | | +----- 9 | | | | | | +--+------- 8 | | | | | | +--------------- 7 | | | | | +--------------------- 6 | | | | +------------------------- 5 | | | +---+---------------------------- 4 | +---+---------------------------------------- 3 +--------------------------------------------------- 2 +---------------------------------------------------------- 1 1. UTC of position fix (Not used.) 2. Status: A=data valid, V=navigation receiver warning 3. Latitude, N/S 4. Longitude, E/W 5. Speed over ground, knots 6. Course over ground, degrees true 7. Date: dd/mm/yy (Not used.) 8. Magnetic variation, degrees E/W (Not used.) 9. Mode indicator(see note) 10. Checksum NOTE Positioning system Mode indicator: A = Autonomous D = Differential E = estimated(dead reckoning) M = Manual input S = Simulator N = Data not valid The Mode indicator field supplements the Status field. The Status field shall be set to V=invalid for all values of Operating Mode except for A=Autonomous and D=Differential. The positioning system Mode indicator and Status field shall not be null fields. ROT - Rate of turn Rate of turn and direction of turn. $--ROT,x.x,A*hh | | | | | +--- 3 | +----- 2 +-------- 1 1. Rate of turn, deg/min, "-"=bow turns to port 2. Status: A=data valid, V=data invalid 3. Checksum AP-19 APPENDIX SSD - UAIS ship static data This sentence is used to enter static parameters into a shipboard AIS. The parameters in this sentence support a number of ITU-R M.1371 messages. $--SSD,c--c,c--c,xxx,xxx,xx,xx,c*hh | | | | | | | | | | | | | +--- 8 | | | | | +----- 7 | | | | +------- 6 | | | +---------- 5 | | +-------------- 4 | +------------------ 3 +---------------------- 2 +--------------------------- 1 1. Ship’s Call Sign, 1 to 7 characters 2. Ship’S Name, 1 to 20 characters 3. Pos. ref. point distance, "A," from bow, 0 to 511 Meters 4. Pos. ref. point distance, "B," from stern, 0 to 511 Meters 5. Pos. ref. point distance, "C," from port beam, 0 to 63 Meters 6. Pos. ref. point distance, "D," from starboard beam, 0 to 63 Meters 7. DTE indicator flag 8. Checksum VBW - Dual ground/water speed $--VBW,x.x,x.x,A,x.x,x.x,A,x.x,A,x.x,A*hh | | | | | | | | | | | | | | | | | | | | | +--- 11 | | | | | | | | | +----- 10 | | | | | | | | +-------- 9 | | | | | | | +----------- 8 | | | | | | +-------------- 7 | | | | | +----------------- 6 | | | | +-------------------- 5 | | | +------------------------ 4 | | +--------------------------- 3 | +------------------------------ 2 +---------------------------------- 1 1. Longitudial water speed, knots 2. Transverse water speed, knots 3. Status: water speed, A=data valid V=data invalid 4. Longitudial ground speed, knots 5. Transverse ground speed, knots 6. Status: ground speed, A=data valid V=data invalid 7. Stern transverse water speed, knots 8. Status: stern water speed, A=data valid V=data invalid 9. Stern transverse ground speed, knots 10. Status: stern ground speed, A=data valid V=data invalid 11. Checksum AP-20 APPENDIX VSD - UAIS voyage static data $--VSD,x.x,x.x,x.x,c--c,hhmmss.ss,xx,xx,x.x,x.x*hh | | | | | | | | | | | | | | | +--- 10 | | | | | | +------ 9 | | | | | +---------- 8 | | | | +------------- 7 | | | +---------------- 6 | | | +----------------------- 5 | | | +------------------------------ 4 | | +----------------------------------- 3 | +--------------------------------------- 2 +------------------------------------------- 1 1. Type of ship and cargo category, 0 to 255 2. Maximum present static draught, 0 to 25.5 Meters 3. Persons on-board, 0 to 8191 4. Destination, 1-20 characters 5. Estimated UTC of arrival at destination 6. Estimated day of arrival at destination, 00 to 31(UTC) 7. Estimated month of arrival at destination, 00 to 12(UTC) 8. Navigational status, 0 to 15 9. Regional application flags, 0 to 15 10. Checksum VTG - Course over ground and ground speed The actual course and speed relative to the ground. $--VTG,x.x,T,x.x,M,x.x,N,x.x,K,a*hh | | | | | | | | | | | | | | | | | | | +------- 6 | | | | | | | | +--------- 5 | | | | | | +---+----------- 4 | | | | +--+----------------- 3 | | +--+----------------------- 2 +-+----------------------------- 1 1. Course over ground, degrees true 2. Course over ground, degrees magnetic (Not used.) 3. Speed over ground, knots 4. Speed over ground, km/h 5. Mode indicator(see note) 6. CHecksum NOTE Positioning system Mode indicator: A = Autonomous D = Differential E = estimated(dead reckoning) M = Manual input S = Simulator N = Data not valid The positioning system Mode indicator field shall not be a null field. AP-21 APPENDIX Output ABK - UAIS addressed and binary broadcast acknowledgement The ABK-sentence is generated when a transaction, initiated by reception of an ABM, AIR or BBM sentence, is completed or terminated. $--ABK,xxxxxxxxx,x,x.x,x,x*hh | | | | | | | | | +--- 6 | | | +----- 5 | | +------- 4 | +---------- 3 +------------- 2 +------------------- 1 1. MMSI of the addressed AIS unit 2. AIS channel of reception 3. Message type 4. Message sequence number 5. Type of acknowledgement 6. Checksum ACA- See “Input” section. ALR –Set alarm state $--ALR,hhmmss.ss,xxx,A,A,c--c*hh | | | | | | | | | +------------- 6 | | | +----------------- 5 | | +-------------------- 4 | +---------------------- 3 +------------------------- 2 +--------------------------------- 1 1. Time of alarm condition change, UTC 2. Local alarm number(identifier) 3. Alarm condition(A=threshold exceeded, V=not exceeded) 4. Alarm’s acknowledge state, A=acknowledged V=unacknowledged 5. Alarm’s description text 6. Checksum LRF – Long-range function See input section. AP-22 APPENDIX LR1 - Long-range reply with destination for function request “A” The LRI sentence identifies the destination for the reply and contains the information requested by the “A” function identification character. $--LR1,x,xxxxxxxxx,xxxxxxxxx,c--c,c--c,xxxxxxxxx*hh +---- 7 +---------- 6 | +----------------- 5 +---------------------- 4 +------------------------------ 3 +---------------------------------------- 2 +---------------------------------------------- 1 1. Sequence Number 2. MMSI of responder 3. MMSI of requestor(reply destination) 4. Ship’s name, 1 to 20 characters 5. Call Sign, 1 to 7 characters 6. IMO Number, 9-digit number 7. Checksum LR2 - Long-range reply for function requests “B, C, E, and F” The LR2-sentence contains the information requested by the “B, C, E and F” function identification characters. $--LR2,x,xxxxxxxxx,xxxxxx,hhmmss.ss,llll.ll,a,yyyyy.yy,a,x.x,T,x.x,N*hh | | | | | | | | | | | | | | | | | +--- 9 | | | | | | +---+----- 8 | | | | +--+----------- 7 | | +----+----------------- 6 +----+---------------------------- 5 +------------------------------------------ 4 +-------------------------------------------------- 3 +----------------------------------------------------------- 2 +----------------------------------------------------------------- 1 1. Sequence Number 2. MMSI of responder 3. Date: ddmmyy 4. UTC of Position 5. Latitude - N/S 6. Longitude - E/W 7. Course over ground, degrees True 8. Speed over ground, Knots 9. Checksum AP-23 APPENDIX LR3- - Long-range reply for function requests “I, O, P, U and W” The LR3-sentence contains the information requested by the “I, O, P, U and W” function identification characters. $--LR3,x,xxxxxxxxx,c--c,xxxxxx,hhmmss.ss,x.x,cc,x.x,x.x,cc,x.x*hh | | | | | | | | | | | | | +---- 12 | | | | | +------- 11 | | | | +---------- 10 | | | +-------------- 9 | | +------------------ 8 | +--------------------- 7 +------------------------- 6 +-------------------------------- 5 +---------------------------------------- 4 +---------------------------------------------- 3 +------------------------------------------------------ 2 +------------------------------------------------------------ 1 1. Sequence Number 2. MMSI of responder 3. Voyage destination, 1 to 20 characters 4. ETA Date: ddmmyy 5. ETA Time 6. Draught 7. Ship/cargo(ITU-R M.1371, Table 18) 8. Ship length 9. Ship breadth 10. Ship type(ITUR-R M.1371, Table 18) 11. Persons, 0 to 8191 12. Checksum TXT - Text transmission $--TXT,xx,xx,xx,c--c*hh | | | | | | | | | | | +--- 5 | | | +--+----- 4 | | +---------- 3 | +------------- 2 +---------------- 1 1. Total number of message, 01 to 99 2. Message number, 01 to 99 3. Text identifier 4. Text Message 5. Checksum AP-24 APPENDIX VDM – VHF data-link message This sentence is used to transfer the entire contents of a received AIS message packet, as defined in ITU-R M.1371 and as received on the VHF Data Link (VDL), using the “6-bit” field type. !--VDM,x,x,x,x,s--s,x*hh | || | | | | | | | | | | +--- 7 | | | | | +----- 6 | | | | +-------- 5 | | | +------------ 4 | | +-------------- 3 | +---------------- 2 +------------------ 1 1. Total number of sentences needed to transfer the message, 1 to 9 2. Message sentence number, 1 to 9 3. Sequential message identifier, 0 to 9 4. AIS channel Number 5. Encapsulated ITU-R M.1371 radio message 6. Number of fill-bits, 0 to 5 7. Checksum VDO - UAIS VHF data-link own-vessel report !--VDO,x,x,x,x,s--s,x*hh | | || | | | | | | | | | +--- 7 | | | | | +----- 6 | | | | +-------- 5 | | | +------------ 4 | | +-------------- 3 | +---------------- 2 +------------------ 1 1. Total number of sentences needed to transfer the message, 1 to 9 2. Message sentence number, 1 to 9 3. Sequential message identifier, 0 to 9 4. AIS channel Number 5. Encapsulated ITU-R M.1371 radio message 6. Number of fill-bits, 0 to 5 7. Checksum AP-25 SPECIFICATIONS OF THE U-AIS TRANSPONDER FA-100 The AIS shall improve the safety of navigation by assisting in the efficient navigation of ship’s, protection of the environment, and operation of Vessel Traffic Services (VTS), by the functions of collision avoidance, ships’ and cargo’s information obtaining, and traffic management. GENERAL 1.1 Display Monochrome STN-LCD, 60 (H) x 95 (W) mm, 120 x 64 dots 1.2 TX/RX Frequency 156.025 MHz to 162.025 MHz 1.3 Output Power 2 W/ 12.5 W or 0W exchangeable 1.4 Impedance 50 ohms 1.5 DSC Receiver CH70 fixed, 156.525 MHz, G2B, 1200 bps 1.6 Band Width 25 kHz/ 12.5 kHz TRANSPONDER UNIT 2.1 CPU SH7709A, 76.0 MHz 2.2 ROM Flash ROM 1 MW 2.3 Menu Target data/ Plotter/ Own data/ Set MSG/ Init Settings/ System Settings/ Diagnostics GPS RECEIVER 3.1 Receiving Channels 3.2 Rx Frequency/ Rx Code 1575.42 MHz, C/A code 3.3 Position Fixing System All in view, 8-state Kalman filter 3.4 Position Accuracy 12 channels parallel, 12 satellites tracking Approx. 10 m, 95% of the time, (HDOP 4) DGPS: approx. less than 5 m, 95% of the time 3.5 Tracking Velocity 900 kts 3.6 Position-fixing Time Warm start: 12 seconds, Cold start: 90 seconds 3.7 Position Update Interval 1 second 3.8 DGPS Data Receiving INTERFACES 4.1 Sensor 1/ 2/ 3 (IEC61162-1/2) Input: RTCM SC-104 Ver 2.1 formatted DTM, GNS, GLL, GGA, RMC, VBW, VTG, OSD, HDT, GBS, ROT (GN>GP>GL>LC) 4.2 PC I/O, EXTRA1, LR or ECDIS/RADAR (IEC61162-1/2) Input: VSD, SSD, ABM, BBM, ACA, ACK, AIR, DTM, GBS, GGA, GLL, GNS, HDT, LRF, LRI, OSD, RMC, ROT, VBW, VTG Output: VDM, VDO, ABK, ACA, ALR, TXT, LR1, LR2, LR3, LRF, LRI 4.3 Alarm Contact Closure 4.4 LAN (10base-T) IEC61162-4 4.5 AD-10 AD-10 format SP-1 E4417S01F 5 POWER SUPPLY 5.1 Transponder Unit 5.2 AC/DC Power Supply Unit (PR-240, option) ENVIRONMENTAL CONDITION 6.1 Ambient Temperature 12-24 VDC: 7-3.5 A GPS Antenna Unit: -25°C to +70°C Other units: -15°C to +55°C 6.2 Relative Humidity 95% at 40°C 6.3 Waterproof (IEC 61529) Antenna Unit: IPX6 Other units: IPX0 6.4 Vibration IEC 60945 ed.3 COATING COLOR 7.1 GPS Antenna Unit: N9.5 7.2 Other units: 2.5GY5/1.5 SP-2 100-115/200-230 VAC, 1 phase, 50/60 Hz E4417S01F INDEX Alarm status ..................................................34 Battery replacement......................................28 Brilliance .........................................................3 Buzzer...........................................................25 Channels setting .......................................................23 viewing ......................................................22 Contrast ..........................................................3 Controls...........................................................1 CPA/TCPA range ............................................7 Dangerous targets ........................................14 Destination ......................................................7 Diagnostics GPS test....................................................33 keyboard test ............................................31 LCD test ....................................................32 memory test ..............................................31 on/off history .............................................32 program no................................................30 Digital interface ........................................ AP-7 Draught ...........................................................7 Dynamic data ................................................17 GPS monitor .................................................36 GPS test........................................................33 Keyboard test................................................31 LCD test........................................................ 32 Long range mode ......................................... 26 Maintenance................................................. 27 Memory clear................................................ 38 Memory test.................................................. 31 Menu tree .................................................AP-1 Messages logs ........................................................... 21 sending ..................................................... 18 Navigation status............................................ 7 On/off history ................................................ 32 Parts location............................................AP-4 Plotter display............................................... 11 POWER key ................................................... 2 Program no................................................... 30 Program number record ................................ vi Sensor status................................................ 37 Ship type and crew......................................... 7 Static data..................................................... 15 System configuration...................................... v System overview ...........................................vii Target data.................................................... 12 Troubleshooting............................................ 28 IN-1
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