Users Manual Part 7

ManualsBrandsFuruno ManualsElectronicsTransceiver Unit

2. WIRING

2-68

2.10 LAN Signal Converter

The LAN Signal Converter allows the use of existing antenna cable RW-9600/6895/

4873 for TR-UP radar.

If the LAN Signal Converter is not attached in the antenna and processor units, the

required LAN Signal Converter Kit (available as an optional extra) is listed below.

For X-band radar only, you can select a specification with the LAN Signal Converter

pre-installed at the factory.

LAN Signal Converter Kit

2.10.1 Application overview

The LAN Signal Converter has two applications.

Application 1: Use with existing antenna cable (retrofit)

Method 1: Using existing antenna cable (RW-9600/6895/4873)

Note: Use with existing antenna cable (RW-9600/6895/4873) in case of retrofit. The

maximum length of the antenna cable is 100 m for RW-9600, 50 m For RW-6895/

4873.

Application 2: Foremast installation (for X-band radar only)

Foremast installation, where the distance between the antenna unit and the processor

unit is more than 100 m (max. 460 m). In this case, two Junction Boxes RJB-001 are

required (for antenna and processor units). See section 2.11 and the interconnection

diagram for connections in the junction box.

The Cable Extension Kit (Type: OP03-224-3, Code No.: 001-254-410), comprised of

two junctions boxes, one LAN Signal Converters and necessary hardware, is available

as an optional extra.

Note: Only the RW-9600 cable can be used for foremast installation. The RW-6895/

4873 cables are not available.

Radar Type Code No.

X-band radar OP03-247-3 001-496-580

S-band magnetron radar OP03-247-2 001-496-570

S-band solid state radar OP03-247-1 001-496-560

Antenna Unit side

Antenna cable

(Coaxial, Power)

* Installed inside respective unit.

Power

Processor Unit side

Power

Coaxial

Power

LAN

Processor

Unit

LAN↔Coax

Converter*

Power

LAN

RF-TB

LAN↔Coax

Converter*

Antenna

Unit

Summary of content (61 pages)

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2. WIRING 2.10 LAN Signal Converter The LAN Signal Converter allows the use of existing antenna cable RW-9600/6895/ 4873 for TR-UP radar. If the LAN Signal Converter is not attached in the antenna and processor units, the required LAN Signal Converter Kit (available as an optional extra) is listed below. For X-band radar only, you can select a specification with the LAN Signal Converter pre-installed at the factory.
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. WIRING Coaxial cable, power cable (DPYCY x3), 400 m Antenna Unit side Processor Unit side Power Processor Unit LAN RF-TB TB LAN↔Coax Power Converter* Junc. Box * Installed inside respective unit. Antenna cable (30 m) Junc. Box Power Antenna Unit LAN LAN↔Coax Converter* Power Antenna cable (30 m) Method 2: Using antenna cable RW-9600 2.10.
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2. WIRING 4. Fasten the BNC case to the original position in the antenna unit with original two screws, referring to step 2. 5. Mount the transceiver unit to the antenna unit. 6. Re-connect the coaxial cable (disconnected at step 1). 2.10.3 Wiring in the processor unit installed the LAN Signal Converter already (X-band radar only) Some parts or wiring may have been omitted from the illustrations of the processor unit for clarity. 1. Disconnect the connection (A) between the converter and BNC case.
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2. WIRING 2.10.4 How to check the installation Observe the LEDs on the converter to check for proper operation and troubleshooting.
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2. WIRING Fix wires with cable ties. Clamp outer conductor of coaxial cables. 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 RG12/UY RG-12/UY RW-9600/6895/4873 DPYCY-6 Connect inner conductors. 2.12 M8 screw for grounding Intelligent HUB (option) Secure the LAN cables to the cable clamps on the HUB-3000 with cable ties (supplied). Power Fail DPYC-1.5 LAN cable Power port DPYC-1.5 Ground wire (IV-1.25sq., supplied) No use. LAN port To gateway network (ECDIS, radar, etc.
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2. WIRING 2.13 VDR Connection The processor unit has the DVI-I port or the LAN port for connection of a VDR. 2.13.1 DVI-I (Analog RGB) port connection • Use the optional RGB cable (DVI-BNCX5+GND-L2.0) to connect the VDR. • The DVI-D port and DVI-I port have their own circuits. This prevents interruption of the radar picture shown on the main monitor connected to the DVI-D port, if a fault condition occurs at the DVI-I port.
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2. WIRING This page is intentionally left blank.
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ADJUSTMENTS Note: After completing the settings and adjustments, copy the setting data to a SDcard* (USB flash memory* for C-type radars), referring to the Operator's Manual. This will allow easy restoration of setting data after the MAIN Board is replaced, etc. *: The SD card slot is in front of the processor unit, and the USB flash memory slot is connected to the RP board 03P9657. At the first start-up after installation, turn on the processor unit with the main switch.
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3.
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3. ADJUSTMENTS 5. If the menu option requires entry of numeric data, rotate the mouse wheel to set the value, then click the left button. 6. Close the menu by pressing the MENU key once or click the right button few times. 3.1 How to Open the Radar Installation Menu The [RADAR INSTALLATION] menu has various items through two pages for adjustment of the radar. To show this menu; For RCU-014: Press and hold the HL OFF key, then press the MENU key five times.
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3. ADJUSTMENTS 3.2 How to Align the Heading You have mounted the antenna unit facing straight ahead in the direction of the bow. Therefore, a small but conspicuous target dead ahead visually must appear on the heading line (zero degrees).
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3. ADJUSTMENTS • The range of target echoes is incorrect. 1. Set the GAIN, A/C SEA and A/C RAIN controls shown below. GAIN: 80 A/C SEA: Fully counterclockwise (OFF) A/C RAIN: Fully counterclockwise (OFF) 2. Open the [RADAR INSTALLATION] menu, then select [ECHO ADJUSTMENT] menu. 3. Select [TIMING ADJ VALUE] to set the value for adjustment timing manually. The setting range is 0000 to 4095.
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3. ADJUSTMENTS 3.5 Other Settings This section describes the menu items not previously described. 3.5.1 [ECHO ADJUSTMENT] menu Open the main menu then select [RADAR INSTALLATION] [ECHO ADJUSTMENT] to open the [ECHO ADJUSTMENT] menu. Page 1 ECHO ADJUSTMENT(1/2) Page 2 ECHO ADJUSTMENT(1/2) 1 BACK 2 EAV MODE A/B 0 NEXT Go back to page 1. Go to page 2. [VIDEO ADJUST VALUE] Adjust the video level manually to remove noise.
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3. ADJUSTMENTS [VIDEO CONTRAST] Select [ADVANCE] to clarify the echo image difference (default: [ADVANCE]). 1 LEVEL A LEVEL B LEVEL CONTRAST 3 2 CONTRAST 4 CONTRAST CONTRAST [VIDEO CONTRAST] set to [ADVANCE] at installation: C LEVEL [VIDEO CONTRAST] set to [LEGACY] at installation: CONTRAST 4 32 1 CONTRAST C B A [CLOSE TGT ES MODE], [CLOSE TGT ES LEVEL] Not used, for future use. [EAV MODE] Select the method of echo average, [A] or [B].
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3. ADJUSTMENTS Example L3 L2 L4 L1 W2 W3 W4 W1 L1: W1: L2: W2: L3: W3: L4: W4: Ship length Ship width Conning position (from bow) Conning position (from port) Scanner position (from bow) Scanner position (from port) GPS antenna position (from bow) GPS antenna position (from port) [LENGTH/WIDTH] Enter the ship’s length and width (0 to 999, default: 0). [SCANNER POSITION] Enter the distance from the scanner to both bow and port (0 to 999, default: 0).
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3. ADJUSTMENTS 0 for both the [START] and [ANGLE] sections. The setting range of [START] is 0° to 359° (default: 000°) and [ANGLE] is 0° to 180° (default: 000°). Note 1: Turn off a stern blind sector when adjusting the PM gain, to display the echo from the performance monitor properly. Note 2: If the PM is active, these menus are NOT available on FAR-2x58 radars. [HSC] Select [ON] for HSC only. Note: This menu is NOT available when the [MODEL] setting is set to [50] (see "[MODEL]" on page 3-12).
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3. ADJUSTMENTS [RADAR INSTALLATION] menu [ECHO ADJUSTMENT] [OWN SHIP INFO] [SCANNER] [INSTALLATION] [TT PRESET] [BAUD RATE] [ALERT I/F SETTINGS] [INPUT PORT SETTINGS] [NETWORK SETTINGS] [OTHER SETTINGS] Available menus — (All menus are not available.) [DUAL RADAR SETTINGS] except for [EXT RADAR] [REMOTE MAINTENANCE], [SYSTEM MONITOR] and [ANT CABLE]. — (All menus are not available.) All menus are available. All menus are available.
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3. ADJUSTMENTS The setting example is shown in the figure below. Picture from external radar Position of external radar antenna Position of own radar antenna Picture from own radar [COMBINE MODE]: OWN [START]: 45° [ANGLE]: 270° [START]: 00.00 nm [LENGTH]: 99.99 nm [COMBINE MODE]: [EXT] [START]: 315° [ANGLE]: 90° [START]: 00.00 nm [LENGTH]: 99.99 nm • [EXT RADAR]: Select the external radar for dual radar display.
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3. ADJUSTMENTS [RANGE UNIT] For B/C/W-type radars, select the range unit, [NM], [SM], [KM] or [kyd] then push the left button. For the all other radar types, the range unit is fixed at [NM] so this menu is not shown. [RADAR No.] For multiple radar system using the network hub, set number (name) and antenna position for each system to easily distinguish the radar configuration. • [1] to [4]: For main radar • [5] to [8]: For sub radar [RADAR POSITION] Select the radar position.
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3. ADJUSTMENTS [PM GAIN ADJ] Adjust the performance monitor, automatically or manually, whenever the magnetron is replaced. For automatic adjustment, no further operation is required; close the menu at the completion of the adjustment. For manual do as follows to adjust the performance monitor gain. Note: This menu is NOT available when the [RADAR] setting is set to [SUB] for FAR-2x58 (see "[RADAR]" on page 3-14).
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3. ADJUSTMENTS Note 2: Select the monitor type correctly. If this menu is set to a wide monitor ([MU-270W], [OTHER(W)] or [MU-231(W)]) and no wide monitor is connected, the screen blacks out. In this case, set DIP switch SW2 to ON, in order to change the monitor type to MU-190/231. DIP switch Note 3: For A/B/C/W-type radars with Radar Plotter functionality, the [MU-231CR] setting is not used. [REMOTE MAINTENANCE] Adjust setting for remote maintenance.
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3. ADJUSTMENTS 3.5.5 [TT PRESET] menu Open the main menu then select [RADAR INSTALLATION] [ TT PRESET] to open the [TT PRESET] menu. [TT DATA OUTPUT] Show the [TT DATA OUTPUT] menu. Note: Confirm the data input configuration for the equipment which will receive the TT (target tracking) sentence BEFORE setting this menu. • [SELECT SENTENCE]: Select the sentence that is output the TT target data. (default: [TTM]) [OFF]: For no output of the TT data.
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3. ADJUSTMENTS [TT W/O GYRO] Select [ON] to use TT without a gyro (default: [OFF]). If [OFF] is selected, TT can not used without gyro. [ACQ PRESET] Show the [ACQ PRESET] menu. • [LAND SIZE]: Set the land size in units of 100 m. The setting range is 100 to 3000 m (default: 1600 m). A target whose length is equal to or greater than the length set here is judged as a land target. • [ANT SELECT]: Set the antenna radiator type of your radar. The size of the echo changes with radiator size.
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3. ADJUSTMENTS • [START TIME TGT VECT]: Set the number of seconds or number of scans to wait before showing the vector for a newly acquired target. Select [TIME] or [SCAN] then enter value. [TIME]: The setting range is 0 to 100 sec (default [0sec]). [SCAN]: The setting range is 0 to 40 scans (default [0SCAN]). • [NUMBER OF TT]: The setting [100] can not be changed. [DEFAULT] Select [YES] to restore the default settings for the [TT PRESET] menu. 3.5.
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3. ADJUSTMENTS [ALERT OUT 1] to [ALERT OUT 4] Select the alert to output for each alert out number through four pages. To monitor for unit failure if and when it occurs, set the alert contact outputs referring to the table below.
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3. ADJUSTMENTS (C): Alert sound is output when the corresponding item becomes an alert condition. Output is stopped when the alert condition is removed.The table below shows the operational status of the alert outputs based on the output type.
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3. ADJUSTMENTS LOG(BT) ALERT Select [ON] to activate alert "NO LOG(BT) SIGNAL" for signal loss of speed over ground. LOG(WT) ALERT Select [ON] to activate alert "NO LOG(WT) SIGNAL" for signal loss of speed through water. 3.5.8 [INPUT PORT SETTINGS] menu The input signals to the ports on the processor unit are shown below.
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3. ADJUSTMENTS The input signal setting for each port can be set in the [INPUT PORT SETTINGS] menu. Open the main menu then select [RADAR INSTALLATION] [INPUT PORT SETTINGS] to open the [INPUT PORT SETTINGS] menu. How to set the port setting of each data; 1. Select the data for port setting in the [INPUT PORT SETTING] menu. 2. Select the port setting, [SERIAL] or [LAN2]. 3. For serial port connections, select the source in [SERIAL SETTING]. Note: [AMS] is not available for IMO-type radars. 4.
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3. ADJUSTMENTS [LOG], [HEADING] The speed data and heading data have two ports to input the source data shown in the following figure. For speed data For heading data • Speed data: [LOG1] and [LOG2] ports in [LOG].
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3. ADJUSTMENTS 3.5.9 [NET WORK SETTINGS] menu Open the main menu then select [RADAR INSTALLATION] [NEXT] [NETWORK SETTINGS] to open the [NETWORK SETTINGS] menu. Note 1: Network settings should be done while the radar is disconnected from the LAN network, as a standalone radar. Note 2: The system restarts automatically after the network settings are changed. Note 3: When you change the radar number, this equipment restarts automatically. After restarting, confirm the IP address in [NETWORK SETTINGS].
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3. ADJUSTMENTS [LAN2 IP ADDRESS] The IP address is assigned according to the radar No (See "[RADAR No.]" on page 312). Set the IP address as shown below. This IP address can be changed as required. Radar No. No.1 No.2 No.3 No.4 No.5 No.6 No.7 No.8 LAN2 SFID 172.31.16.11 172.31.17.11 172.31.16.12 172.31.17.12 172.31.16.13 172.31.17.13 172.31.16.14 172.31.17.14 RA0011 RA0012 RA0013 RA0014 RA0015 RA0016 RA0017 RA0018 [MULTICAST ADDRESS] Set the multicast address with the cursor and the keypad.
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3. ADJUSTMENTS [RX SETTINGS] Select [ON] to receive the following data signals: • [MISC]: Other equipment data (sensor of engine etc.) • [TGTD]: Target data • [SATD]: Satellite data • [NAVD]: Navigation data • [TIME]: Time • [PROP]: Specified data by manufacturer or user 3.5.10 [OTHER SETTINGS] menu Open the main menu then select [RADAR INSTALLATION] [NEXT][OTHER SETTINGS] to open the [OTHER SETTINGS] menu. [DEMO ECHO] Select the type of simulated echo to use.
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3. ADJUSTMENTS [OVERLAY1 (2)] Note: This menu is NOT available for C-type radars. When an ECDIS is connected, the radar picture can be overlaid on the ECDIS. Set the items on this menu to correctly overlay the radar picture on ECDIS. Note: The overlay output is less accurate than the sub monitor output from the antenna unit, especially in the areas mentioned below. Therefore, only use the overlay with an ECDIS.
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3. ADJUSTMENTS 5. Select [RUN]. The message "PROCESSING. PLEASE WAIT." appears, then the [CHART ADMINISTRATION] menu appears. CHART ADMINISTRATION 1. DISPLAY CHART LIST 2. COPY CHART FROM USB DEVICE 3. LOAD CHART UNLOCK CODE 4. INTERNAL MEMORY MANAGEMENT 5. REMOVE USB DEVICE 6. BASECHARTS ∙ SYMBOLS VERSION 7. CLOSE 6. Select [COPY CHART FROM USB DEVICE] to display the list for data in the USB flash memory. 7. Select the chart data to copy. 8. Select [SELECT CHART TO COPY].
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3. ADJUSTMENTS 3.6.2 How to update charts Note 1: Save the chart data to a USB flash memory first. You do not need to create a folder. Note 2: Before updating charts, delete the old chart data. If needed, take backups for an unlock code. 1. Connect the USB flash memory with chart data on it in the USB drive from the RP board. 2. Press the MENU key to open the main menu. 3. Select [INITIAL SETTINGS]. 4. Select [UPDATE CHART]. The following message appears. OTHER FUNCTIONS WILL STOP DURING THE CHART UPDATE.
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4. INPUT/OUTPUT DATA NOTICE IMO-type radar(s) must be interconnected to the following type approved sensors. For other radar types, it is recommended to connect the following type approved sensors: • EPFS meeting the requirements of the IMO resolution MSC.112(73). • Gyrocompass (or equivalent devices) meeting the requirements of the IMO resolution A.424(XI). • SDME meeting the requirements of IMO resolution MSC.96(72).
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4. INPUT/OUTPUT DATA Output Data Radar system data TT data** Alert handling signal Sub monitor signal External LCD monitor signal VDR Alert signal Specification IEC 61162-1, RS-232C, IEC 61162-450 IEC 61162-1, IEC 61162-450 IEC 61162-1, IEC 61924-2, IEC 61162-450 HD, BP Trigger, Video DVI R, G, B, H, V, IEC 61162-450 Contact closure Contents Remarks RSD, OSD, TLL For ECDIS, PC plotter TTD, TTM, TLB For ECDIS ALR, ALF, ALC, ARC, HBT, EVE For BAMS ALR and ALF are switched by menu setting.
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4. INPUT/OUTPUT DATA *1: THS and HDT are IEC 61162-2. All other sentences are IEC 61162-1 ed5. *2: For retrofit. *3: To priority of GLL data, see "[PRIORITIZE GLL]" on page 3-21. *4: This is NOT available for IMO-type radars installed with software version “01.**”. *5 : For C-type radars.
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4. INPUT/OUTPUT DATA This page is intentionally left blank.
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APPENDIX 1 JIS CABLE GUIDE Cables listed in the manual are usually shown as Japanese Industrial Standard (JIS). Use the following guide to locate an equivalent cable locally. JIS cable names may have up to 6 alphabetical characters, followed by a dash and a numerical value (example: DPYC-2.5). For core types D and T, the numerical designation indicates the cross-sectional Area (mm2) of the core wire(s) in the cable.
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APPENDIX 2 DIGITAL INTERFACE Digital Interface • Input sentence ABK, ACK, ACN, ALR, BWC, BWR, CUR, DBK*1, DBS*1, DBT, DDC, DPT, DTM, GGA, GLL, GNS, HBT, HDG*2, HDM*2, HDT*1, MTW, MWV, OSD, RAQ, RMB, RMC, ROT, RTE, THS, TLL*3, TTM*2, VBW, VDM, VDO, VDR, VHW, VSD, VTG, VWR*1, VWT*1, WPL, ZDA • Output sentences ABM, ACK, AIQ, ALC, ALF, ALR, ARC, BBM, DDC, EVE, HBT, OSD, RSD, TLB, TLL*3, TTD, TTM, VSD *1: For retrofit. *2: For C-type radars. *3: NOT for IMO/A-type radars installed with software version “01.**”.
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APPENDIX 2 DIGITAL INTERFACE ACK - Acknowledge alarm $**ACK,xxx,*hh 1 1. Unique alarm number (identifier) at alarm source (000 to 999) ACN - Alert command $**ACN,hhmmss.ss,aaa,x.x,x.x,c,a*hh 1 2 3 4 56 1. Time (No use) 2. Manufacturer mnemonic code (3 digit alphanumeric code, null) 3. Alert identifier (0 to 999999) 4. Alert instance (1 to 999999, null) 5. Alert command (A=Acknowledge, Q=Request /Repeat information, O=Responsibility transfer, S=Silence) 6.
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APPENDIX 2 DIGITAL INTERFACE BWR - Bearing and distance to waypoint – Rhumb line $ **BWR,hhmmss.ss,llll.ll,a,yyyyy.yy,a.x.x,T,x.x,M,x.x,N,c--c,a,*hh 1 2 3 4 5 6 7 8 9 10 11 12 13 1. UTC of observation (No use) 2. Waypoint latitude (0000.0000 to 9000.0000) 3. N/S 4. Waypoint longitude (00000.0000 to 18000.0000) 5. E/W 6. Bearing, degrees true (No use) 7. Unit, True (No use) 8. Bearing, degrees magnetic (No use) 9. Unit, Magnetic (No use) 10. Distance, nautical miles (No use) 11. Unit, N (No use) 12.
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APPENDIX 2 DIGITAL INTERFACE DBT - Depth below transducer $**DBT,x.x,f,x.x,M,x.x,F,*hh 1 2 3 4 5 6 1. Water depth (0.00 to 99999.99) 2. feet 3. Water depth (0.00 to 99999.99) 4. Meters 5. Water depth (0.00 to 99999.99) 6. Fathoms DDC - Display dimming control $**DDC,a,xx,a,a*hh 12 34 1. Display dimming preset (D=Daytime, K=Dusk, N=Nightime, null) 2. Brightness percentage (00 to 99, null) 3. Color palette (No use) 4. Sentences status flag (C) DPT - Depth $**DPT,x.x,x.x,x.
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APPENDIX 2 DIGITAL INTERFACE GLL - Geographic position, latitude/longitude $**GLL,llll.ll,a,yyyyy.yy,a,hhmmss.ss,A,a,*hh 1 2 3 4 5 6 7 1. Latitude (0000.0000 to 9000.0000) 2. N/S 3. Longitude (00000.0000 to 18000.0000) 4. E/W 5. UTC of position (No use) 6. Status (A=data valid, V=data not valid) 7. Mode indicator (A=Autonomous, D=Differential, E=Estimated, M=Manual input, S=Simulator) GLL - Future position $**GLL,llll.ll,a,yyyyy.yy,a,hhmmss.ss,A,x.x,*hh 1 2 3 4 5 6 7 1.
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APPENDIX 2 DIGITAL INTERFACE HDM - Heading, Magnetic $**HDM,x.x,M*hh 1 2 1. Heading, degrees (0.0 to 359.9) 2. Magnetic (M) HDT - Heading, true $**HDT, x.x,T*hh 1 2 1. Heading, degrees (0.0 to 359.9) 2. True (T) MTW - Water temperature $**MTW,x.x,C 1 2 1. Water temperature (-9.99 to 99.99) 2. Degrees C MWV - Wind speed and angle $**MWV,x.x,a,x.x,a,A*hh 1 2 3 45 1. Wind angle, degrees (0.0 to 359.9) 2. Reference (R/T) 3. Wind speed (0.0 to 999.9) 4.
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APPENDIX 2 DIGITAL INTERFACE RMB - Recommended minimum navigation information. $**RMB,A,x.x,a,CCCC,CCCC,llll.ll,a,yyyyy.yy,a,x.x,x.x,x.x,A,a*hh 1 2 3 4 5 6 7 8 9 10 11 121314 1. Data status (A=Data valid) 2. Cross track error (NM) (No use) 3. Direction to steer (No use) 4. Origin waypoint ID (No use) 5. Destination waypoint ID (Max. 15 characters) 6. Destination waypoint latitude (0000.0000 to 9000.0000) 7. N/S 8. Destination waypoint longitude (00000.0000 to 18000.0000) 9. E/W 10.
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APPENDIX 2 DIGITAL INTERFACE THS - True heading and status $**THS,x.x,a*hh 1 2 1. Heading, degrees True (0.0 to 359.9) 2. Mode indicator (A=Autonomous, E=Estimated (dead reckoning)) TLL - Target Latitude and Longitude $**TLL,x.x,llll,ll,a,yyyy.yy,a,c--c,hhmmss.ss,a,a*hh 1 2 3 4 5 6 7 89 1. Target number (No use) 2. Target latitude (0000.0000 to 9000.0000) 3. N/S 4. Target longitude (00000.0000 to 18000.0000) 5. E/W 6. Target name (No use) 7. UTC of data (No use) 8.
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APPENDIX 2 DIGITAL INTERFACE VDM - AIS VHF data-link message !**VDM,x,x,x,a,s--s,x,*hh 1234 5 6 1. Total number of sentences needed to transfer the message (1 to 9) 2. Sentence number (1 to 9) 3. Sequential message identifier (0 to 9, null) 4. AIS channel Number (A, B, null) 5. Encapsulated ITU-R M.1371 radio message (1 to 63 bytes) 6. Number of fill-bits (0 to 5) VDO - AIS VHF data-link own-vessel report !**VDO,x,x,x,a,s--s,x,*hh 1234 5 6 1.
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APPENDIX 2 DIGITAL INTERFACE VTG - Course over ground and ground speed $**VTG,x.x,T,x.x,M,x.x,N,x.x,K,a,*hh 1 2 3 4 5 6 7 8 9 1. Course over ground, degrees (0.0 to 359.9) 2. T=True (fixed) 3. Course over ground, degrees (No use) 4. M=Magnetic (No Use) 5. Speed over ground, knots (0.0 to 999.9) 6. N=Knots (fixed) 7. Speed over ground (0.0 to 999.9) 8. K=km/h (fixed) 9.
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APPENDIX 2 DIGITAL INTERFACE Output sentences ABM - AIS addressed binary and safety related message !**ABM,x,x,x,xxxxxxxxx,x,xx,s--s,x,*hh 123 4 5 6 7 8 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 (9 digits, null) 5. AIS channel for broadcast of the radio message (0 to 3, null) 6. VDL message number (6 or 12, null), see ITU-R M.1371 7.
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APPENDIX 2 DIGITAL INTERFACE ALF - Alert sentence $**ALF,x,x,x,hhmmss.ss,a,a,a,aaa,x.x,x.x,x.x,x,c--c,*hh 123 4 5 6 7 8 9 10 11 12 13 1. Total number of ALF sentences this message (1, 2) 2. Sentence number (1, 2) 3. Sequential message identifier (0 to 9) 4. Time of last change (000000.00 to 235959.99, 235960.00 to 235960.99, 240000.00 to 240000.99, 240001.00 to 240001.99, null) 5. Alert category (A=Alert category A, B=Alert category B, null) 6.
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APPENDIX 2 DIGITAL INTERFACE EVE - General event message $ **EVE,hhmmss.ss,c--c,c--c*hh 1 2 3 1. Event time (000000.00 to 235959.99, 235960.00 to 235960.99, 240000.00 to 240000.99, 240001.00 to 240001.99, null) 2. Tag code used for identification of source of event (six alphanumeric characters, two English characters, four digits) 3. Event description (OPERATION) HBT - Heartbeat supervision sentence $**HBT,x.x,A,x*hh 1 2 3 1. Configured repeat interval (60.0(s)) 2.
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APPENDIX 2 DIGITAL INTERFACE TLB - Target label $**TLB,x.x,c--c,x.x,c--c,…,x.x,c--c*hh 1 2 3 3 1. Target number “n” reported by the device (1 to 1023) 2. Label assigned to target “n” (TT=000 to 999, AIS= 000000001 to 999999999) 3. Additional label pairs TLL - Target latitude and longitude $**TLL,xx,llll.ll,a,yyyyy.yy,a,c--c,hhmmss.ss,a,a*hh 1 2 3 4 5 6 7 89 1. Target number (null) 2. Target Latitude (0000.0000 to 9000.0000) 3. Target N/S (N/S) 4. Target Longitude (00000.0000 to 18000.
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APPENDIX 2 DIGITAL INTERFACE VSD - AIS voyage static data $**VSD,x.x,x.x,x.x,c--c,hhmmss.ss,xx,xx,x.x,x.x*hh 1 2 3 4 5 6 7 8 9 1. Type of ship and cargo category (null) 2. Maximum present static draught (0 to 25.5 meters, null) 3. Persons on-board (0 to 8191, null) 4. Destination (1 to 20 characters, null) 5. Estimated UTC of arrival at destination (000000.00 to 235959.99, 246000.00, null) 6. Estimated day of arrival at destination (UTC) (00 to 31, null) 7.
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ࣘࢽࢵࢺ 81,7 ,167$//$7,21 0$7(5,$/6 2 8 7 / , 1 ( &3 ;1 &) '(6&5,37,21 &2'( θ 䠄␎ᅗ䛾ᑍἲ䛿䚸ཧ⪃್䛷䛩䚹㻌㻌㻰㻵㻹㻱㻺㻿㻵㻻㻺㻿㻌㻵㻺㻌㻰㻾㻭㼃㻵㻺㻳㻌㻲㻻㻾㻌㻾㻱㻲㻱㻾㻱㻺㻯㻱㻌㻻㻺㻸㼅㻚䠅 4 7< A-1 C3616-Z01-B +/ ; 䡶㻙䢀䢚␒ྕᮎᑿ䛾㼇㻖㻖㼉䛿䚸㑅ᢥရ䛾௦⾲䡶䡬䢀䢚䜢⾲䛧䜎䛩䚹㻯㻻㻰㻱㻌㻺㼁㻹㻮㻱㻾㻌㻱㻺㻰㻵㻺㻳㻌㼃㻵㼀㻴㻌㻎㻖㻖㻎㻌㻵㻺㻰㻵㻯㻭㼀㻱㻿㻌㼀㻴㻱㻌㻯㻻㻰㻱㻌㻺㼁㻹㻮㻱㻾㻌㻻㻲㻌㻾㻱㻼㻾㻱㻿㻱㻺㼀㻭㼀㻵㼂㻱㻌㻹㻭㼀㻱㻾㻵㻭㻸㻚 ,167$//$7,21 0$7(5,$/6 ᕤ஦ᮦᩱ ᕤ஦ᮦᩱ $17(11$ 5$',$725 $66(0%/< 㺏㺻㺡㺣 1 $ 0 ( ;1 &) +. 㹎㸿㹁㹉㹇㹌㹅ࠉ㹊㹇㹑㹒 ࡙࠾࠶࠻ 70+6 +056#..#6+10 /#6'4+#.5 1 7 6 .
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0 # / ' 70+6 +056#..#6+10 /#6'4+#.5 1 7 6 . + 0 ' *.
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81,7 ,167$//$7,21 0$7(5,$/6 2 8 7 / , 1 ( 4 7< & = $ &3 61 &) A-5 ,& ; '(6&5,37,21 &2'( θ 䠄␎ᅗ䛾ᑍἲ䛿䚸ཧ⪃್䛷䛩䚹㻌㻌㻰㻵㻹㻱㻺㻿㻵㻻㻺㻿㻌㻵㻺㻌㻰㻾㻭㼃㻵㻺㻳㻌㻲㻻㻾㻌㻾㻱㻲㻱㻾㻱㻺㻯㻱㻌㻻㻺㻸㼅㻚䠅 ,167$//$7,21 0$7(5,$/6 ᕤ஦ᮦᩱ ᕤ஦ᮦᩱ $17(11$ 5$',$725 $66(0%/< 㺏㺻㺡㺣 ࣘࢽࢵࢺ 1 $ 0 ( 61 &) 㹎㸿㹁㹉㹇㹌㹅ࠉ㹊㹇㹑㹒 81,7 ,167$//$7,21 0$7(5,$/6 2 8 7 / , 1 ( 4 7< & = $ &3 61 &) A-6 ,& ; '(6&5,37,21 &2'( θ 䠄␎ᅗ䛾ᑍἲ䛿䚸
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࡙࠾࠶࠻ 70+6 +056#..#6+10 /#6'4+#.5 1 7 6 . + 0 ' *.
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ࣘࢽࢵࢺ 2 8 7 / , 1 ( '2&80(17 ,167$//$7,21 0$7(5,$/6 63$5( 3$576 81,7 & &3 63 56% , '(6&5,37,21 &2'( θ 䠄␎ᅗ䛾ᑍἲ䛿䚸ཧ⪃್䛷䛩䚹㻌㻌㻰㻵㻹㻱㻺㻿㻵㻻㻺㻿㻌㻵㻺㻌㻰㻾㻭㼃㻵㻺㻳㻌㻲㻻㻾㻌㻾㻱㻲㻱㻾㻱㻺㻯㻱㻌㻻㻺㻸㼅㻚䠅䡶㻙䢀䢚␒ྕᮎᑿ䛾㼇㻖㻖㼉䛿䚸㑅ᢥရ䛾௦⾲䡶䡬䢀䢚䜢⾲䛧䜎䛩䚹㻯㻻㻰㻱㻌㻺㼁㻹㻮㻱㻾㻌㻱㻺㻰㻵㻺㻳㻌㼃㻵㼀㻴㻌㻎㻖㻖㻎㻌㻵㻺㻰㻵㻯㻭㼀㻱㻿㻌㼀㻴㻱㻌㻯㻻㻰㻱㻌㻺㼁㻹㻮㻱㻾㻌㻻㻲㻌㻾㻱㻼㻾㻱㻿㻱㻺㼀㻭㼀㻵㼂㻱㻌㻹㻭㼀㻱㻾㻵㻭㻸㻚 +2,67 ; %$1' 7,*+7(1 %2/676 ྞୗ⥾௜せ㡿 ᅗ᭩ ,167$//$7,21 0$7(5,$/6 ᕤ஦ᮦᩱ ᕤ஦ᮦᩱ 63$5( 3$576 ணഛရ ணഛရ 6&$11(5 81,7 ✵୰⥺ᮏయ㒊 1 $ 0 (
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'2&80(17 ,167$//$7,21 0$7(5,$/6 63$5( 3$576 81,7 2 8 7 / , 1 ( & &3 63 56% , '(6&5,37,21 &2'( θ 䠄␎ᅗ䛾ᑍἲ䛿䚸ཧ⪃್䛷䛩䚹㻌㻌㻰㻵㻹㻱㻺㻿㻵㻻㻺㻿㻌㻵㻺㻌㻰㻾㻭㼃㻵㻺㻳㻌㻲㻻㻾㻌㻾㻱㻲㻱㻾㻱㻺㻯㻱㻌㻻㻺㻸㼅㻚䠅䡶㻙䢀䢚␒ྕᮎᑿ䛾㼇㻖㻖㼉䛿䚸㑅ᢥရ䛾௦⾲䡶䡬䢀䢚䜢⾲䛧䜎䛩䚹㻯㻻㻰㻱㻌㻺㼁㻹㻮㻱㻾㻌㻱㻺㻰㻵㻺㻳㻌㼃㻵㼀㻴㻌㻎㻖㻖㻎㻌㻵㻺㻰㻵㻯㻭㼀㻱㻿㻌㼀㻴㻱㻌㻯㻻㻰㻱㻌㻺㼁㻹㻮㻱㻾㻌㻻㻲㻌㻾㻱㻼㻾㻱㻿㻱㻺㼀㻭㼀㻵㼂㻱㻌㻹㻭㼀㻱㻾㻵㻭㻸㻚 +2,67 6 %$1' $17(11$ ྞୗせ㡿 ᅗ᭩ ,167$//$7,21 0$7(5,$/6 ᕤ஦ᮦᩱ ᕤ஦ᮦᩱ 63$5( 3$576 ணഛရ ணഛရ 6&$11(5 81,7 ✵୰⥺ᮏయ ࣘࢽࢵࢺ 1 $ 0 (