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Jlr-10 Instruction Manual

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JLR-10 GPS Compass Foreword Thank you for purchasing the JRC GPS Compass JLR-10. This unit uses the signals from the GPS satellites and measures the heading of the ship. ● Thoroughly read this instruction manual before commencing the equipment operation. ● We would recommend you to keep this manual nearby the equipment to ensure ready access to it. It should give you information on how to cope with a given situation that may arise during the equipment operation. 1 JLR-10 GPS Compass Before Commencing the Equipment Operation Graphical Symbols Several graphical symbols are used in this manual to ensure safety and proper operation of the equipment and to avoid possible human injury or property damage. The symbols and their meanings are shown below. We would recommend you to carefully read the manual to obtain a thorough understanding on these symbols. WARNING Instructions shown with this symbol represent those that can cause death or severe injury, if not observed. CAUTION Instructions shown with this symbol represent those that can cause injury or property damage, if not observed. Examples of the Symbols Electric shock Don’t disassemble Disconnect the power supply plug 2 Don’t Instruction The symbols shown in the △ mark represent those that require attention (including the potential dangers and warnings). A tangible instruction is shown in the symbol. For example, the symbol shown to the left indicates that one is likely to get an electric shock. The circle symbols with a slash from the upper left to the right bottom represent the specific actions prohibited to avoid potential hazards. A tangible instruction is shown in the symbol. For example, the symbol shown to the left indicates that the disassembly is prohibited. The black circle symbols represent the obligatory actions or instructions to avoid potential hazards. A tangible instruction is shown in the symbol. For example, the symbol shown to the left indicates that the power supply plug needs to be disconnected. JLR-10 GPS Compass Precautions Upon Equipment Operation WARNING Do not disassemble or modify the equipment. Failure to observe the instruction can cause a fire, electric shock, or equipment failure. Do not insert or remove the power cord or operate switches with a wet hand. Otherwise, you may suffer from an electrical shock. Operate the equipment only at the power supply voltage of DC 12V or 24V. Failure to observe this instruction can cause a fire, electric shock, or equipment failure. Do not scratch, damage, or modify the power supply and antenna cable. It may be damaged to cause a fire or electric shock if it is loaded with a heavy item, heated, pulled, or excessively bent. Do not operate setting change used as the hindrance of navigation etc. during operation. Immediately turn the power off and disconnect the power supply cable if the equipment is generating any smoke or odor, or found overheated. Then, promptly inform our local service agent of the symptom to have it corrected. Prolonged equipment operation under such a condition can cause a fire or electric shock. POWER OFF! 3 JLR-10 GPS Compass WARNING Do not place a vessel containing water, etc. or a metallic object on the Processing Unit. When water spills or when water or the object enters the set, a fire, an electrical shock, or a failure may occur. Use the GPS compass merely as a supporting device for navigation. Further, the final judgment on steering the ship should always be done at the discretion of the person steering the ship. CAUTION Do not allow the Display Unit to fall or immerse in water. The equipment can be damaged. When removing the power and antenna cord, be sure to remove the cord terminal correctly. If the cord is pulled, the cord may be damaged resulting in a fire or an electrical shock. Our contacts Refer to the List of Offices attached at the end of this manual. 4 ner Thin Benzine When cleaning the surface, do not use any organic solvent such as thinner or benzine. Otherwise, the painting on the surface may be damaged. For cleaning the surface, remove the dust and debris and wipe with a clean dry cloth. No JLR-10 GPS Compass Appearance of the Equipment NAY-1000 Antenna NNN-10 Processing Unit NWZ-4551G Display Unit 5 JLR-10 GPS Compass Table of Contents Foreword ............................................................................................................................. 1 Before Commencing the Equipment Operation................................................................... 2 Precautions Upon Equipment Operation ............................................................................. 3 Appearance of the Equipment ............................................................................................. 5 Key Terms............................................................................................................................ 9 1. Equipment Overview ................................................................................................... 11 1.1 1.2 1.3 1.4 1.5 Functions .......................................................................................................................................11 Features .........................................................................................................................................12 Configuration .................................................................................................................................13 Construction ................................................................................................................................... 14 General System Diagram............................................................................................................... 17 2. Names and Functions of Parts .................................................................................... 18 2.1 Antenna .........................................................................................................................................18 2.2 Processing Unit ..............................................................................................................................19 2.3 Display Unit ....................................................................................................................................20 2.3.1 Operation Panel of the Display Unit .........................................................................................20 2.3.2 Rear Panel of the Display Unit ................................................................................................. 22 3. Installation ................................................................................................................... 23 3.1 Installation of the Antenna .............................................................................................................23 3.1.1 Choosing the Location .............................................................................................................23 3.1.2 Assembling Method of the Antenna .........................................................................................24 3.1.3 Installation Method of the Antenna ..........................................................................................26 3.2 Installation of the Processing Unit ................................................................................................. 28 3.2.1 Installation on the Floor ...........................................................................................................28 3.2.2 Installation on the Wall .............................................................................................................30 3.2.3 Installation toward the Side ......................................................................................................32 3.3 Installation of the Display Unit........................................................................................................ 33 3.3.1 Choosing the Location .............................................................................................................33 3.3.2 Mounting the Unit .................................................................................................................... 34 3.4 Connection of the Equipment ........................................................................................................ 36 3.4.1 Connection of the Power Supply Cable ...................................................................................36 3.4.2 Connection of the Grounding Line ...........................................................................................37 3.4.3 Connection of the Antenna Cable ............................................................................................ 37 3.4.4 Connection of the Display Unit Cable ...................................................................................... 38 3.4.5 Connection of the Radar Cable ...............................................................................................40 3.4.6 Confirmation after Installation ..................................................................................................41 3.5 Connection of the Optional Equipment ..........................................................................................43 3.5.1 Connection of the GPS Repecon ............................................................................................ 43 3.5.2 Connection of the DGPS Beacon Receiver .............................................................................45 3.5.3 Connection of the DGPS Receiver ..........................................................................................46 3.5.4 Connection of the Other Equipment ........................................................................................ 47 6 JLR-10 GPS Compass 3.6 Measures for the Electromagnetic Interference .............................................................................48 3.6.1 Checks before the Connection ................................................................................................48 3.6.2 Checks before the Navigation .................................................................................................. 48 4. Operation .................................................................................................................... 49 4.1 Overview ........................................................................................................................................ 49 4.2 Turning the Unit ON/OFF ............................................................................................................... 50 4.3 Selecting Display Language .......................................................................................................... 51 4.4 Switching between Main Display Modes ........................................................................................52 4.5 Main Display Modes ....................................................................................................................... 54 4.5.1 HEADING Display Mode .......................................................................................................... 54 4.5.2 POSITION Display Mode ......................................................................................................... 58 4.5.3 NAVIGATION Display Mode .................................................................................................... 58 4.5.4 CDI Display Mode .................................................................................................................... 59 4.5.5 PLOT Display Mode and Setting the Plot Scale ...................................................................... 60 4.5.6 WAYPOINT Display Mode ....................................................................................................... 61 4.5.7 ROUTE Display Mode ............................................................................................................. 61 4.5.8 STATUS Display Mode ............................................................................................................. 62 4.6 Basic Menu Selection Operations .................................................................................................. 64 4.7 Adjusting Contrast and Backlighting .............................................................................................. 66 4.8 Setting the Heading .......................................................................................................................66 4.8.1 Manually Setting the Heading .................................................................................................. 66 4.8.2 Selecting the Output Format of Heading Data ......................................................................... 67 4.8.3 Setting the Installation Direction of Processing Unit ................................................................ 67 4.9 Setting Alarms (Arrival/Anchor/Off-course/DGPS) ........................................................................ 68 4.10 Navigation Using Direct Route [GOTO] .........................................................................................70 4.11 Navigation according to Route Plans ............................................................................................. 71 4.12 Entering Current Position as a Waypoint [EVENT] ........................................................................ 72 4.13 Man-Over-Board Mode [MOB] ....................................................................................................... 73 4.14 Position Correction/Geodetic System Correction/Magnetic Compass Correction ......................... 73 4.15 Setting Navigation Display Modes and Units ................................................................................. 75 4.16 Setting CDI Range and Display Time Format ................................................................................ 76 4.17 Setting Plotting Information ............................................................................................................76 4.18 Entering Waypoints ........................................................................................................................77 4.18.1 Editing Waypoint Lists .............................................................................................................. 78 4.18.2 Storing Waypoints .................................................................................................................... 78 4.18.3 Entering, Copying and Measuring Waypoints .......................................................................... 80 4.18.4 Sorting Waypoint Names ......................................................................................................... 82 4.19 Setting Route Plans .......................................................................................................................82 4.19.1 Making a Route Plan ............................................................................................................... 83 4.19.2 Editing Route Plan ...................................................................................................................84 4.19.3 Erasing Route Plans ................................................................................................................ 85 4.20 Setting GPS Information ................................................................................................................ 86 4.20.1 Setting Position Fix Mode and Averaging for GPS .................................................................. 86 4.20.2 Initializing GPS ........................................................................................................................87 4.20.3 Setting DGPS Beacon ............................................................................................................. 88 7 JLR-10 GPS Compass 4.21 Setting Output Level and Transmitting/Receiving Memory Data .................................................... 89 4.22 Performing Master Reset ............................................................................................................... 91 5. Maintenance and Inspection ....................................................................................... 92 6. Measures for the Operating Environment ................................................................... 93 7. After-sale Services ...................................................................................................... 94 8. Disposal ...................................................................................................................... 95 8.1 8.2 Disposal of the Equipment .............................................................................................................95 Disposal of the Used Battery ......................................................................................................... 95 9. Specifications .............................................................................................................. 96 Appendices Appendix 1 Appendix 2 Appendix 3-A Appendix 3-B Appendix 4 Appendix 5 Appendix 6 Optional Unit .................................................................................................................98 ● Summary of GPS Repecon ....................................................................................... 98 ● Summary of DGPS Beacon Receiver .......................................................................99 ● Summary of DGPS Receiver ................................................................................... 100 ● Summary of OPTION Cable .................................................................................... 101 ● Summary of NMEA Cable ....................................................................................... 102 Cable Connection of the Attached Connector (N-P-5-2) ............................................. 103 Message List ............................................................................................................... 105 ● Error message ......................................................................................................... 105 ● Navigation alarms .................................................................................................... 105 ● Operation message ................................................................................................. 106 ● Bearing alarms ........................................................................................................ 107 ● Antenna alarms ....................................................................................................... 107 Geodetic System Tables .............................................................................................108 Data Output .................................................................................................................110 ● Data output from Processing Unit ........................................................................... 110 ● Data output from Display Unit .................................................................................. 115 Waypoint/Route Plan Data In/Output .......................................................................... 119 Waypoint List ............................................................................................................... 120 INDEX ............................................................................................................................. 122 ● List of Offices (Back Cover) 8 JLR-10 GPS Compass Key Terms Term Description GPS satellites The term is an acronym that represents the Global Positioning System, which is managed by the US Department of Defense to support its navigation aid system. DGPS The term is an acronym that represents the Differential Global Positioning System, which is a system to improve the position fixing accuracy by receiving the correction data with a beacon receiver for a given GPS satellite, which is transmitted by the beacon station with a known position. Position fixing The term means to obtain the current position of your vessel with the GPS or DGPS receiver. 2D (Two-dimensional position fixing) The term 2D means the position fixing with data obtained from the satellites and antenna height information. 3D (Three-dimensional position fixing) The term 3D means the position fixing with four or more satellites information only. HDOP The term is an acronym that represents the Horizontal Dilution of Precision, which reflects the position fixing accuracy. The accuracy increases as the value decreases. The value increases when the satellites are gathered close to each other, and it reduces when the satellites are spattered, which in turn means increased accuracy. Route plan This is the plan that consists of the multiple waypoints registered in the order of navigation. CDI The term is an acronym that represents the Course Deviation Indicator, which includes information on the deviation from a given planned course and direction to be steered. Arrival alarm The alarm notifies that your vessel has arrived at the preset distance from a given destination. Anchor alarm The alarm notifies that your vessel has drifted away from the destination by the preset distance. Off-course alarm The alarm notifies that your vessel has been deviated from the planned course by the preset distance. 9 JLR-10 GPS Compass Boundary alarm The alarm notifies that your vessel has crossed a preset boundary line. Automatic sequencing mode The function automatically switches to the next destination after your vessel has entered the preset arrival alarm range of a previous destination point according to a route navigation plan. Manual sequencing mode The function allows the operator to manually change to the next leg of a route during navigation based on a route plan. Default values The values represented by the factory settings. NMEA 0183 This is a standard specified by an international organization called the National Marine Electrical Association (NMEA) to specify the requirements for the data communications among various equipment. Master reset This function clears all the settings on the Processing Unit and the Display Unit . Note that all the settings will be cleared if the function is performed and reset to factory defaults. Initialization A maximum duration of about 3 minutes is required for position fixing if the equipment is to be operated for the first time after the installation or the master reset function has been performed. The initialization time can be reduced for position fixing by manually entering the estimated position, time, and antenna height. Course A direction made good, obtained by connecting the positions tracked by the vessel, which is mainly the direction displayed by the GPS. Bearing (Heading) An angle formed between the local meridian and the orientation of the bow during the navigation, which is mainly displayed on the GPS compass (this unit), gyro compass or magnetic compass. 10 JLR-10 GPS Compass 1. Equipment Overview 1.1 Functions This unit determines the heading of the ship by measuring the orientation between two antennas using the signal from the GPS satellites. It is not only possible to measure the heading with a high accuracy continuously for 24 hours all over the world and in all weather conditions using the GPS satellites, but also it measures the position. And when the DGPS beacon receiver is connected the measurement accuracy of position can be further enhanced by receiving the correction data from the DGPS beacon station. Since this unit outputs the bearing information at high speed, if this unit is connected to Radar units JMA3800 or JMA-3900 manufactured by our company, it is possible to fully take advantage of the Radar and ARPA. 11 JLR-10 GPS Compass 1.2 Features This unit has the following features: • JRC specific dual antenna method A dual antenna method that as applied has excellent bearing precision and reception rate, and can be easily installed. • Low maintainance Unlike a gyro compass, this unit does not require as often as inspection or as much maintainance. • Can be used soon after switching ON the power. The measurement of heading can be done from about 3 minutes (standard value) after switching ON the power. • Excellent tracking capacity The tracking capacity is much better than that of a gyro compass. • Can be connected directly to a JRC Radar. Since this unit outputs the data to the JRC Radar at a high speed, it is possible to fully bring out the performance capabilities of the Radar and any ARPA functions. • Output of the orientation, position, and speed data. This unit also has the functions of a GPS receiver. • Synchronization signal can be output (optional). It is possible to connect a synchronous type repeater using the optional interface. • Large-sized dot matrix LCD display with back light. A screen that is easy to see and has a large amount of information can be displayed because of the use of a large-sized LCD display. Both the keyboard and display are provided with a back light, so night operation is no problem. • Graphic display In the CDI display mode, the direction in which the ship has to be steered can be easily seen, thereby helping for efficient fuel saving navigation. In the plot display mode, it is not only possible to display the path that has already been traversed but also possible to display the symbols registered beforehand for the different destinations. • Menu selection method makes operation easy to grasp. From the menu display on the screen, it is possible to understand the selections intuitively, thereby making the operation easy. Selection and confirmation of the menu is done using a dial which is very easy to operate. • Customizing Since a variety of setting items have been provided, it is possible to create a navigation system with the preferences of an individual user. • One-touch display installation and removal. The Display Unit can be easily removed from the frame by pressing the button at the back of the Display Unit. • Seven languages are supported. 12 JLR-10 GPS Compass 1.3 Configuration This configuration consists of the three units of the Antenna, the Processing Unit, and the Display Unit. Further, a Digital/Synchro Converter unit for a repeater (GPS repecon), a DGPS receiver and a DGPS beacon receiver can be connected as optional. The following table gives a list of the constituting items. Composition Name Type Q'ty Antenna NAY-1000 1 Processing Unit Cables Antenna Cables Display Unit Cables NNN-10 1 Radar Cables Power Supply Cables Display Unit Instruction Manual Installation Parts Pole Mounting Kit Screws Self-bonding Tape Spare Parts Fuse CFQ-6558 CFQ-6556 NWZ-4551G DC50-JLR-10 1 1 1 1 (See packing list) MPTG30149 SUMITAPE N 1 set 1 set 1 CFQ-6561 CFQ-6557 MF51NN-2A 1 set 1 1 Remarks Antenna Units (1 bow, 1 stern) Includes Pre-amplifiere 15m (5D-SFAE), two cables 5m (For connecting Processing Unit – Display Unit) 15m (For connecting Processing Unit– Radar) 2m English For installation of Antenna For installation of Processing Unit For waterproofing Antenna Connector (TNC) 2A Option Name Type Q'ty GPS Repecon DGPS Receiver (DGPS 212) DGPS Beacon Receiver "Y" Cable NID-2001 JLR-4331 1 1 NRB-2J CFQ-6722 1 OPTION Cable NMEA Cable CFQ-6559 CFQ-6560 1 1 Display Unit Data Cable CFQ-6721 1 Flash Mount Kit MPTG30432 1 Remarks Digital/Synchro Converter Unit For connecting DGPS Receiver/ DGPS Beacon Receiver For connecting GPS Repecon For connecting various navigation equipment devices For connecting various navigation equipment devices For in/outputing waypoint/route plan data For flash mount of Display Unit 13 115 230 JLR-10 GPS Compass Unit : mm Mass : approx. 3.2O Mast (Preparation in dock) (Installable range is ø42.7 to 48.6) 1.4 Construction Fig. 1-1 HEADING 50 65 (1) Outline drawing of NAY-1000 Antenna 14 ø176 676 500 6.6 150 Detailes of Mounting hole 15 JLR-10 GPS Compass Unit : mm Mass : approx. 2.9O 230 (23) Fig. 1-2 HEADING 27.5 175 230 27.5 137 152 22 6 (2) Outline drawing of NNN-10 Processing Unit Mounting hole PUSH MENU Fig. 1-3 GOTO MOB 138 117 MODE EVENT CONT DIM CLR OFF PWR OFF 21 GPS COMPASS 46.5 10 84 10 197 46.5 28 12 74 124 Unit : mm Mass : approx. 0.9O 4-ø6 Mounting hole 10 JLR-10 GPS Compass (3) Outline drawing of NZW-4551G Display Unit 16 70 JLR-10 GPS Compass 1.5 General System Diagram NRB-2J DGPS Beacon Receiver JLR-4331 DGPS Receiver NAY-1000 Antenna or ✽ CFQ-6722 Y Cable 2.5D-2V 0.15 m (TNC) CFQ-6557 Display Unit Cable To Processing Unit CFQ-6561 5D-SFAE 15 m (N) CFQ-6557 Display Unit Cable 5m NWZ-4551G Display Unit CFQ-6558 Radar Cable 15m NNN-10 Processing Unit CFQ-6556 Power Supply Cable 2m Power Supply +12/24 VDC ✽ CFQ-6560 NMEA Cable To Display Unit Navigation Data Waypoint/Route Plan Data ✽ CFQ-6721 Display Unit Data Cable Radar Navigation Data ✽ CFQ-6559 OPTION Cable ✽ NID2001 GPS Repecon Repeater etc. Digital/Synchro Converter “✽” mark is optional Fig. 1-4 17 JLR-10 GPS Compass 2. Names and Functions of Parts 2.1 Antenna q w t e e r r Fig. 2-1 No. Name q Bow Antenna Unit Incorporates an antenna preamplifier for bow direction w Stern Antenna Unit Incorporates an antenna preamplifier for stern direction e Coaxial Cable r TNC Connector t Antenna Stay 18 Function 2.5D coaxial cable A female TNC connector on the attached antenna cable. Connects to the male TNC connector on 15M antenna extention cable. Antenna holding bracket. JLR-10 GPS Compass 2.2 Processing Unit POWER e y FUSE2A q w ANT BOW ANT STERN DISP r t RADAR NMEA OPTION u i GND DC12V/24V o !0 Fig. 2-2 No. Name Function q Power Switch When the switch is pressed, the lamp is lit and the power is turned on. When the switch is pressed again, the lamp and the power are turned off. w Fuse e Bow Antenna Connector Connector for the bow antenna cable. r Stern Antenna Connector Connector for the stern antenna cable. t Display Connector Connector for the Display Unit cable (CFQ-6557). y Radar Connector Connector for the radar cable (CFQ-6558). u NMEA Connector Connector for an optional NMEA cable (CFQ-6560). i Option Connector Connector for an optional OPTION cable (CFQ-6559). o DC12V/24V Connector !0 Terminal “GND” A 2A power fuse is provided. Connector for the power cable (CFQ-6556). Terminal for hull ground connection. 19 JLR-10 GPS Compass 2.3 Display Unit 2.3.1 Operation Panel of the Display Unit The illustration shows the keys on the operation panel and their functions. q PUSH MODE w e MENU MOB CONT DIM GOTO r PWR OFF t y u EVENT CLR OFF GPS COMPASS oi Fig. 2-3 No. Name Function q Mode • Press this key in any mode exept “MOB” to select main display mode. • Press this key in the “Select Mode” display to return to previous display mode. w Dial • Turn to select menu. (Turn dial counterclockwise to scroll downward and turn it clockwise to scroll upward.) • Selects menu items. • Sets numeric values when menu items are numeric entry. (The numbers change faster, when the dial is turned faster.) Down Up Ent (Press dial) 20 • Press the dial to select a menu or to enter a setting. • When following a route sequence manually, use the dial to step the next waypoint. This function is available in the following display modes: “HEADING”, “POSITION”, “NAVIGATION” and “CDI” displays JLR-10 GPS Compass No. Name Function e Menu Displays the menus for each display mode. r GOTO Use this key to select “to” destination (see Section 4.10, “Navigation Using Direct Route [GOTO].” This key function is available in the following display modes: “HEADING”, “POSITION”, “NAVIGATION”, “CDI” and “PLOT” displays t Event Registers the current position (buoy or fishing point) as a waypoint. This key function is available in the following major display modes: “HEADING”, “POSITION”, “NAVIGATION”, “CDI”, “PLOT” and “MOB” displays y Power Turns on the power. • Press this key and the key to turn off the power. • Press this key while holding down the key to perform a soft reset. Soft reset: All registered data except waypoints and route plan are set to the default Values (factory settings). u Clear • Resets changed items before the dial was pressed to enter them. • In the Select Mode display, press this key to return to the previous display. i Contrast Adjusts contrast and brightness of the backlight. This key function is available in all display modes. o MOB Man overboard (position where a person fell overboard). This key function is available in all display modes. (To return to previous display mode, press this key for 3 seconds.) 21 JLR-10 GPS Compass 2.3.2 Rear Panel of the Display Unit !0 GPS/DGPS !1 DC PWR/DATA !2 E !3 Fig. 2-4 No. Name !0 Release button !1 GPS/DGPS !2 DC PWR/DATA !3 Terminal “E” 22 Function Press this button to remove the display unit from the bracket. Connector for the Display Unit cable (CFQ-6557). A power is also supplised from the Processing Unit. Connector for external devices. Terminal for hull ground connection. JLR-10 GPS Compass 3. Installation 3.1 Installation of the Antenna 3.1.1 Choosing the Location CAUTION When connecting the cable attached to the equipment, do not bend it to an acute angle, twist it, or impart excessive force. Cracks or damage to the coating can cause a fire or electric shock. Do not install the antenna where there is excessive vibration. Accidents can be caused by receiving poor. Install the antenna where there is no viewing obstacle, in order to ensure that GPS signals can be directly received from satellites without interference or reflection of signals from surrounding objects. Whenever possible, select a place having the following characteristics. 1. 2. 3. 4. An open space which allows uniform reception of satellite signals. Far away from any high power transmission antennas. Outside of any radar beams. Away from the inmarsat antenna by at less 5 meters and below the level of its antenna. 5. Away from the antenna of a direction finder, VHF or MF/HF by 5 meters or more. 6. Away from a magnetic compass by at least 1 meter. If it is difficult to find an ideal site, select a place temporarily and install the antennas. Conduct a test to make sure that the proper performance can be obtained and then fix the antenna in position. If it is installed at an improper place, bearing accuracy is poorer, and accidents can be caused. 23 JLR-10 GPS Compass 3.1.2 Assembling Method of the Antenna • The head of the M8x120 bolt should always be facing in the heading direction of the ship. • Do not apply excessive pulling or twisting force on the coaxial cable because doing so can damage the cable. • Always wind waterproofing tape on the exposed connecting part of the coaxial cable to avoid damage to the cable and connectors. q Pass the tie wraps through the holes in the (two) fixing brackets beforehand. w Connect and fix the coaxial cable, and temporarilly assemble the fixing brackets. Tie wrap (six places) Antenna (NAY-1000) Bolt (M8 x 25) Wind water proofing tape at the connection. (See to step e) Flat washer Wind water proofing tape at the connection. (See to step e) Flat washer Nut Lock Nut Heading Flat washer Fixing bracket Bolt (M8 x 120) Bolt head Flat washer Fixing bracket Lock Nut Caution Pass the tie wraps through the holes in the (two) fixing brackets before assembling. Nut Connect the “BOW” cable to the antenna in the bow direction and the “STERN” cable to the stern direction antenna. Fig. 3-1 24 JLR-10 GPS Compass e Apply waterproofing processing to the cable connection section. Seal the junction of connectors with self-bonding tape and PVC tape for waterproofing. Seal the junction of connectors with self-bonding tape and PVC tape for waterproofing. Fig. 3-2 (1) Self-bonding tape for seal Coil the self-bonding tape to connectors with three layers, covering the joint to double it’s length. After coiling, make a quick bonding by pressure of fingers. Coiling direction To the Processing Unit To the Antenna Unit Connector q PVC tape w Self-bonding Fig. 3-3 (2) PVC tape for protection Coil PVC tape to three layers without stretching. After coiling, make a perfect bonding by pressure of fingers. 25 JLR-10 GPS Compass 3.1.3 Installation Method of the Antenna CAUTION If the Antenna is installed at a location with severe vibration or shock, take some measures to prevent such vibrations of the Antenna. • When installing the antenna, make sure that the “BOW” arrow mark faces the bow. To install an antenna in a direction other than facing the bow, a separate setting is required. • Since this unit uses GPS, make sure that there are no obstructions that interfere with radio waves above or around the installed unit. • Tighten four bolts A gradually and firmly with equal strength. If any one of the bolts is quickly tightened separately, the nut may strip the thread of the screw. Fix the Antenna on a mast, etc. q Place the Antenna on the mast, and make the “BOW” arrow mark face in the heading of the ship. w Tighten the bolts of the fixing bracket in the order A-B. 26 JLR-10 GPS Compass Mast Heading Mounting torque 1715N·cm (175Of·cm) The top of the mast Mounting torque 784N·cm (80Of·cm) Let the top of the mast go to the top of the line. Fixing bracket Mast (dockyard supply) Outer diameter of the mast ø42.7 to ø48.6 (1.25 to 1.5 inch) Fig. 3-4 27 JLR-10 GPS Compass 3.2 Installation of the Processing Unit 3.2.1 Installation on the Floor • Always install the Processing Unit so that the connector surface having labels for each connector is facing upward as shown in Fig. 3-5. • Make sure the “BOW” mark faces the bow. If not facing the bow, a separate setting is required. This unit can be removed by merely loosening the screws and sliding the unit. The actual fixing with screws will be about 8mm to the front or back from the position shown in the figure. To install the Processing Unit on the floor, allocate installation space as shown in Fig. 3-5. Then, install the unit according to the following procedure. q Decide on a Processing Unit installation position. Mark four sections for installation of screw positions. See Fig. 3-5 for the hole size of the installation screws. w Screw in the attached tapping screws in the marked positions leaving them about 3mm above the floor. e Screw the tapping screws to the Processing Unit installation holes and attach the Processing Unit on the floor. r While attaching the Processing Unit on the floor, slide the Processing Unit so that the tapping screws are set at the end of the installation holes and tighten the screws. Since the Processing Unit may move while the screws are tightened, press the Processing Unit while tightening the screws. t Check that the Processing Unit is firmly fixed on the floor. 28 MIN178 Install the four attached M5 screws. 6 Details figure of part A (1:1) MIN20 ✽ MIN177 157 22 16 R5 Heading MIN400 Part A MIN20 R3 MIN92 230 137 MIN150 ✽ MIN92 175 MIN48 JLR-10 GPS Compass The size indicated by “✽” also indicates the minimum maintenance space. MIN100 ✽ 120 MIN320 MIN100 ✽ Unit : mm Fig. 3-5 29 JLR-10 GPS Compass 3.2.2 Installation on the Wall • Always install the Processing Unit so that the connector surface having labels for each connector is facing upward as shown in Fig. 3-6. • Make sure the “BOW” mark faces the bow. If not facing the bow, a separate setting is required. • After replacing the installation stand, tighten the screws that are attached to the screw holes for installing on a wall through the screw holes for installation on the floor and cover the screw holes. If the holes are not covered, water may penetrate. This unit can be removed by merely loosening the screws and sliding the unit. The actual fixing with screws will be about 8mm to the front or back from the position shown in the figure. To install the Processing Unit on a wall, allocate installation space as shown in Fig. 3-6. Then, install the unit according to the following procedure. q Remove the installation stand of the Processing Unit and re-install the Processing Unit on the side as shown in Fig. 3-6. w Determine the Processing Unit installation position. Mark four section for installation of screws position. See Fig. 3-6 for the hole size of the installation screw. e Screw in the attached tapping screws in the marked positions leaving them about 3mm from the wall. r Push the tapping screws through the Processing Unit installation holes and attach the Processing Unit to the wall. t While attaching the Processing Unit on the wall, slide the Processing Unit so that the tapping screws are set at the end of the installation holes and tighten the screws. Since the Processing Unit may move while the screws are tightened, press the Processing Unit while tightening the crews. y Check that the Processing Unit is firmly fixed on the wall. 30 JLR-10 GPS Compass Installation stand MIN92 Part A Heading MIN48 175 MIN178 MIN400 MIN100 ✽ MIN350 150 Install the four attached M5 screws. MIN100 ✽ ✽ MIN150 230 167 MIN92 ✽ MIN20 MIN20 Screws are tightened. 127 6 R5 R3 MIN147 The size indicated by “✽” also indicates the minimum maintenance space. 16 22 Details figure of part A (1:1) Unit : mm Fig. 3-6 31 JLR-10 GPS Compass 3.2.3 Installation toward the Side When the Processing Unit cannot be installed by facing it to the heading, the installation direction must be entered from the Display Unit. Use the following procedure for installation. q Determine the installation direction. Determine in the clockwise direction using the heading as 0˚. See Fig. 3-7. Any direction can be set, however, since the setting error becomes the bearing error, it is recommended to match to the orientation of 45˚, 90˚, 180˚, etc. w Fix the Processing Unit in the same method by placing it on the floor or hooking on the wall. e After installing all the units, set the setting direction from the Display Unit. See Section 4.8.3, “Setting the Installation Direction of Processing Unit”. Heading Heading Heading Standard installation direction 90˚ 180˚ Heading Heading 270˚ 45˚ Fig. 3-7 32 JLR-10 GPS Compass 3.3 Installation of the Display Unit CAUTION Install this unit at least 1 meter away from a magnetic compass. Otherwise, an error araises with the magnetic commpass, and accidents can be caused. 3.3.1 Choosing the Location When choosing a location to mount this unit, please consider the following two criteria for the site. • The best location to provide ease of operation and viewing of the unit. • The best location to provide protection from environmental elements. Avoid locations exposed to direct sunlight and salt spray. Also avoid improperly ventilated locations and places exposed to high temperatures. The unit can be screw-mounted on a chart tabletop. Fig. 3-8 shows the mount of free space required around the unit. Unit : mm 10 Fig. 3-8 Tabletop Make sure that these space requirements are met. 33 JLR-10 GPS Compass 3.3.2 Mounting the Unit CAUTION When installing this unit on a tabletop, use the designated screws to secure the bracket to a stable wooden surface. Otherwise, the unit could fall and it may cause human injury or property damage. Mount the unit according to the following steps. (1) Determine the mounting location of the unit and mark the holes of the four screws. Fig. 3-9 shows the distance between the holes. (2) Press the release button to remove the unit from the bracket. (See Fig. 3-10) (3) Secure the bracket to the mounting location with the four supplied tapping screws. (4) Mount the display unit to the bracket. Make sure that the display unit is firmly attached to the bracket. 74.2 (5) Adjust the unit to the best viewing angle. (See Fig. 3-11) Unit : mm 84 Fig. 3-9 Bracket dimensions Fig. 3-10 34 JLR-10 GPS Compass Fig. 3-11 As shown below, an optional flush mount kit can be used to wallmount the navigator. For information on mounting, refer to the instruction manual supplied with the kit. Fig. 3-12 35 JLR-10 GPS Compass 3.4 Connection of the Equipment 3.4.1 Connection of the Power Supply Cable A 2m long DC power supply cable is included in the equipment, which needs to be securely inserted all the way into the DC 12V/24V connector provided on the Processing Unit. Red + Black – DC power supply source side Processing unit side Fig. 3-13 Outline drawing of power supply cable connector 2 1 Pin No. 1 2 Remarks GND DC 12V/24V input Pin arrangement of DC12V/24V connector on Processing Unit Fig. 3-14 Connect the red cable to the plus terminal of the battery or power distribution panel and the black cable to the minus terminal. The equipment needs to be connected to the DC power supply source having the voltage range of DC 10.8V to 31.2V. The power consumption of the equipment is 10 W or less with the Display Unit and the Antenna connected to it. Use an AWG #17 cable or greater if the attached CFQ-6556 power supply cable (2m long) needs to be extended. 36 JLR-10 GPS Compass 3.4.2 Connection of the Grounding Line The Processing Unit needs to be grounded to protect it from the static electricity and to avoid possible noise generation. Connect the terminal “GND” provided on the Processing Unit to the nearest vessel frame with the copper plate (25Wx2,000x0.3t) etc. 3.4.3 Connection of the Antenna Cable To run the preamplifier that is incorporated in the antennas, DC +5V is applied to the antenna connectors “ANT BOW” and “ANT STERN” of the Processing Unit (central conductor “+”). Check that the connector of the antenna cable is not short circuited before connecting. q Connect the cable with “BOW” indicated to “ANT BOW” of the Processing Unit. w Connect the cable with “STERN” indicated to “ANT STERN” of the Processing Unit. Fig. 3-15 Outline drawing of antenna cable connector 37 JLR-10 GPS Compass 3.4.4 Connection of the Display Unit Cable See the description under the Section 2.3.2, “Rear Panel of the Display Unit” for the connector provided to connect to the Processing Unit. Keep the excessive the Processing Unit connection cable away from the Display Unit by a minimum of 30 cm after connecting it. Failure to observe the instruction can cause interference to other radio equipment. The Processing Unit supplies 12 VDC power to the Display Unit. After the Processing Unit is turned on the Display Unit can be turned on. The Processing Unit receives information from the satellites and sends it to the Display Unit. Fig. 3-16 Outline drawing of display unit cable connector (1) Securely insert the CFQ-6557 Display Unit cable plug into the “DISP” connector provided on the Processing Unit. 5 1 6 2 4 3 Pin No. 1 2 3 4 5 6 Pin arrangement of DISP connector on Processing Unit Fig. 3-17 38 Remarks DC 12V output Ground Data common (Ground) Display data output Setting data input DGPS input TTL TTL TTL TTL JLR-10 GPS Compass (2) Securely insert the CFQ-6557 Display Unit cable plug into the “GPS/DGPS” connector provided on the rear panel of the Display Unit. Pin No. 1 2 3 4 5 6 5 1 6 2 4 3 Remarks DC 12V input Ground Data common (Ground) Display data input Processing Unit setting data output Open TTL TTL TTL Pin arrangement of GPS/DGPS connector on Display Unit Fig. 3-18 (3) Then, mount the suppression ferrite on the cable at a position closest to the GPS/DGPS connector to eliminate any unwanted noise. Cable Suppression ferrite (E04SR301334 or equivalent) Fig. 3-19 39 JLR-10 GPS Compass 3.4.5 Connection of the Radar Cable Use the attached CFQ-6558 radar cable to connect to the JMA-3900 Series radar that is manufactured by JRC. Connect the radar cable to the RADAR connector of the Processing Unit. Connect to the NSK input terminal on the radar side. And when inputing position data to radar, connect pins #5 and #6 to the radar. See the instruction manual of radar for details. Radar side Processing unit side Fig. 3-20 Outline drawing of radar cable connector 1 7 2 6 3 5 4 Pin No. 1 2 3 4 5 6 7 Remarks Data output Data output Bearing data output Bearing data output Data common (Ground) GPS display data Open RS-422 + RS-422 – RS-422 + RS-422 – TTL TTL Pin arrangement of RADAR connector on Processing Unit Fig. 3-21 J5 on CQD-1546 terminal circuit 5 : Green 6 : Blue GPS RX– in TB4302 on CQD-1546 terminal circuit GPS RX+ in TB4302 on CQD-1546 terminal circuit Fig. 3-22 Connection of JMA-3900 RADAR seriese 40 JLR-10 GPS Compass 3.4.6 Confirmation after Installation Confirm the installation condition. If the unit is connected properly, turn on the power. When the screen is displayed in English, change the screen to another language if desired, according to the procedure described in Section 4.3, “Selecting Display Language”. See Section 4.6, “Basic Menu Selection Operations” for key operations to be used for menu selection setting on the display window. q Turn on the power of the Processing Unit and then the Display Unit. Processing unit : Turn on the "POWER" switch. The lamp is lit. Display unit : Turn on the "PWR" switch. w When a GPS satellite signal is received, the satellite count is increased and when fixing is completed (calculation of latitude and longitude), the mode is automatically changed to the [HEADING] display mode. When bearing calculation is not completed, the value display blinks. (When the unit is delivered from the factory, the mode is set to a Cold Start mode so that about 3 minutes are required for fixing.) e When the Processing Unit is installed in a direction other than the heading, the installation direction must be input. 1) Press 2) Turn in the “ HEADING ” display mode. to select [NEXT PAGE] and press . [Heading] display mode 0 to 359˚ (1˚ step) 3) Press Turn Press and display the value in reverse video. to set the Processing Unit installation direction and press . to return to the “ HEADING ” display mode. 41 JLR-10 GPS Compass r Check that the bearing is calculated correctly in the “ HEADING ” display mode. Assume that the calculation is correct when the value blinking stops and no alarm is issued. t When a true bearing is available by using a GPS compass, the antenna installation bearing can be set. 1) Press in the “ HEADING ” display mode. 2) Select [TRUE HEADING] and press 3) Turn . to set a true bearing and press . The GPS compass outputs the true bearing by calculating the difference between its bearing and the bearing that was set. Execute Master Reset to reset the bearing that was set. When setting the bearing , be carefule of the following two points. • After turning on the power or excuting Master Reset, set the bearing after it is first measured and more than 3 minutes pass. If the bearing is set within 3 minutes, error may become large. • Set the bearing while the ship is relatively stable. Otherwise, the setting error may become large. y If a fix is not completed after 20 minutes, check the receiving condition in the “ STATUS ” display mode. 1) Check the bearing alarm is not blinking. When a digit between “2” and “6” is displayed, check that there is no obstruction that interferes with radio waves near the antenna such as a pole, mast, building, or mountain. Alternatively, change the antenna installation position or move the ship. 2) Check that the antenna alarm is not blinking. Check the BOW antenna and STERN antenna. To switch the bow and stern, press . When “O” is blinking, the connection is opened. Check if there is any unconnected connector or cable rupture. When “S” is blinking, short-circuit is assumed. Check if the cable is short circuited. 3) Check the satellite reception condition. Check the bow receiver and stern receiver. To switch the bow and stern, press . Check that the satellite number, bearing angle, and elevation are displayed and that there are five or more satellites of level 40 or higher. When the level is 0, check the installation status again. 42 JLR-10 GPS Compass 3.5 Connection of the Optional Equipment 3.5.1 Connection of the GPS Repecon By connecting the NID2001 Repecon that is made available as an option, a repeater (90X) can be used. Connect the GPS Repecon to the OPTION connector of the Processing Unit using the OPTION cable. Use pins #3 and #4 of the OPTION connector. The data format is NSK (the format for JRC radar). (The initial setting of the Processing Unit is “NSK”.) See the instruction manual of GPS Repecon for details. Processing Unit POWER FUSE2A ANT BOW ANT STERN DISP RADAR NMEA OPTION GND DC12V/24V GPS Repecon OPTION connector (Pin No.3 [Orange] and 4 [Yellow]) GPS-REPECON OPTION cable CFQ-6559 NID2001 POWER (3A) REPEATER COMPASS NAVIGATION EQUIPMENT GYRO COMPASS SYNCHRO SYGNAL FUSE FUSE FUSE FUSE FUSE SYNCHRO ADJUST DEC. INC. LOCK NAVIGATION EQUIPMENT REPEATER COMPASS POWER REPEARER COMPASS GYRO COMPASS GPS GYRO COMPASS GPS Fig. 3-23 1 2 7 8 3 6 5 4 Pin No. 1 2 3 4 5 6 7 8 Remarks Open Open Bearing data output Bearing data output Data common (Ground) Bearing data output Open Open RS-422 + RS-422 – TTL Pin arrangement of OPTION connector on Processing Unit Fig. 3-24 43 JLR-10 GPS Compass q Connect a AC 100V power to the terminals R1 and R2 of the "AC100V" terminal box. w Connect the bearing data output #3 (Orange) and #4 (Yellow) of OPTION cable to RX+ and RX- terminals of the NSK. NSK RX+ RX– G AC100V Gyro signal IN R1 R2 R1 R2 S1 S2 S3 Repeater Nautical instrument R1 R2 S1 S2 S3 R1 R2 S1 S2 S3 Fig. 3-25 Arrangement of internal terminals e Connect the synchronization signal from the gyro compass to the synchronization signal IN terminal. 44 JLR-10 GPS Compass 3.5.2 Connection of the DGPS Beacon Rceiver This unit have been designed to receive the correction data of measuring error in RTCM SC-104 format from JRC-made NRB-2J DGPS beacon receiver (option). The precision of the position and speed can be enhanced by receiving this correction data. (The bearing precision is not enhanced.) The correction data from the DGPS beacon receiver is directly sent to the Processing Unit. As Fig. 3-26 shows, “Y” cable is interface which simplifiers a connection with the DGPS beacon receiver. Fig. 3-27 shows the connection. DGPS Beacon receiver NRB-2J Processing Unit CFQ-6557 Display Unit cable 5 cores cable CFQ-6722 6 cores cable “Y” cable Display Unit side Fig. 3-26 Connection of the DGPS Beacon Rceiver Processing Unit side DGPS Beacon side Red Black White Green Yellow + 1 1 DC 2 2 + DC - Data Data Setting DGPS common output input input 3 4 5 6 3 4 5 6 + 1 DC 2 Data Data Setting common output input 3 4 5 Data Data Setting NC common input output Display Unit side Fig. 3-27 Wiring diagram 45 JLR-10 GPS Compass 3.5.3 Connection of the DGPS Rceiver This unit can output hight precision data of the position and speed that the DGPS receiver calculates to the Display Unit or external equipments by connecting with the DGPS receiver (DGPS 212). The measured data from the DGPS receiver is directly sent to the Processing Unit, and the Processing Unit outputs this data. As Fig. 3-28 shows, “Y” cable is interface which simplifiers a connection with the DGPS receiver. Fig. 3-29 shows the connection. When the DGPS receiver is connected, not only the infomation of the bow side or stern side GPS receiver but also the information of the connected DGPS receiver can be displayed. When [DGPS] is set in “Selected receiver”, this information is displayed. For information on how to switch selected receiver, see Section 4.5.8, “STATUS Display Mode”. When the DGPS receiver is connected and selected receiver is set [DGPS], GNS sentence of navigation information from the NMEA connector is not output. If you output GNS sentences, set [BOW] or [STERN] in “Selected receiver”. Processing Unit DGPS rceiver CFQ-6557 Display Unit cable 5 cores cable CFQ-6722 6 cores cable “Y” cable Display Unit side Fig. 3-28 Connection of the DGPS Rceiver Processing Unit side DGPS receiver side Red Black White Green Yellow + 1 1 DC 2 2 + DC - Data Data Setting DGPS common output input input 3 4 5 6 3 4 5 6 + 1 DC 2 Data Data Setting common output input 3 Data Data Setting NC common input output Display Unit side Fig. 3-29 Wiring diagram 46 4 5 JLR-10 GPS Compass 3.5.4 Connection of the Other Equipment Use the NMEA connector for connecting various navigation equipment devices. Use the optional NMEA cable, CFQ-6560. 1 3 6 2 4 7 10 5 8 11 13 9 12 14 Pin arrangement of NMEA connector on Processing Unit Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Remarks NMEA0183 Navigation data NMEA0183 Navigation data NMEA0183 HDT NMEA0183 HDT NMEA0183 ROT NMEA0183 ROT Alarm (Contact signal) + Alarm (Contact signal) – Log pulse (Contact signal) + Log pulse (Contact signal) – NMEA0183 Display data NMEA0183 Display data Open Open RS-422 + RS-422 – RS-422 + RS-422 – RS-422 + RS-422 – RS-422 + RS-422 – Fig. 3-30 47 JLR-10 GPS Compass 3.6 Measures for the Electromagnetic Interference The equipment needs to be installed properly in order to ensure its successful operation even though it has been designed to satisfy the requirements stipulated by the electromagnetic compatibility (EMC) requirements. Several factors that can affect the equipment performance are shown below. 3.6.1 Checks before the Connection Observe the following instructions to avoid possible electromagnetic interference when connecting a cable (Antenna, Display unit, Radar or Power supply cable) to the equipment. • • • • Keep this equipment away from another equipment (minimum of 1 meter) that is transmitting high frequency signals or any cable transmitting such signals. Some examples of such equipment include the VHF transmitter and receiver and antenna cable. Keep a minimum distance of 2 meters in the case where the equipment needs to be installed near a SSB transmitter/receiver. Keep the equipment away from the radar beam by a minimum of 2 meters. In general, for this purpose, the radar beam is understood to be covering from its source in the range of 30 degrees above and below its center axis (a total of 60 degrees). Do not use the same power supply to start the engine as the power supplied for this equipment. The equipment may be reset if its power supply voltage drops below DC 10V, which in turn may result in the loss of some data or change in the operation mode even though the equipment itself will not be damaged. Use only the cables specified by us. The cable may fail to satisfy the EMC performance requirements if it is cut or reconnected after cutting. Thus, the cable should never be tampered with unless otherwise specified in the instruction manual. 3.6.2 Checks before the Navigation • • 48 Check the equipment before starting navigation that it is free from any problems related to radio communication, starting the engine, battery voltage, and so on. This equipment may be affected by such external factors. In general, the equipment will not be damaged due to such external factors, however, it may be reset or malfunction momentarily or inaccurately. JLR-10 GPS Compass 4. Operation 4.1 Overview When the setup operations described in Chapter 3 have been completed, turn on the power at the order of the Processing Unit and the Display Unit to start operation. This chapter describes the basic flow of operations. The bold line boxes indicate user operations. Power on (See Section 4.2.) Self-test GPS status information display Position fixing completed “ HEADING ” display mode Initial position bearing measurment after a master reset takes about 5 minutes. Subsequent position fixing after power on takes about 3 minute. This display mode is always shown when first turning on. Display language selection Select from seven languages; the default language is English. Set to a desired language. (See Section 4.3.) Contrast and backlight adjustment Adjust LCD contrast and LCD/keyboard backlighting as required. (Use .) (See Section 4.7.) Settings You can customize the navigation system to your own needs by making settings in the various display modes. Waypoint setting Route plan setting • Set fishing points, harbors or other waypoints (up to 499 can be set). A single press of the key can turn the current position to a waypoint. (See Section 4.18.) • Also set the route plan. A total of 20 route plans with up to 199 waypoints can be set. (See Section 4.19.) Direct route setting or selecting route plan number • Press and select a waypoint registered in memory to steer towards this waypoint. (See Section 4.10.) • Select a route plan to navigate according to this plan. (See Section 4.11.) • An alarm can be set to go off when the ship reaches a waypoint. Switching navigation plans Go between the five main display modes: “ HEADING ”, “ POSITION ”, “ NAVIGATION ”, “ CDI ” and “ PLOT ” to view different navigation information. (See Section 4.4.) Power down All current settings are saved. (When the power is turned off, the internal batteries in the Processing Unit and the Display Unit will back up the memory. The life of battery is more than five years.) For information on messages output during operation, see Appendix 3-A, “Message List”. 49 JLR-10 GPS Compass 4.2 Turning the Unit ON/OFF Processing Unit • Press the POWER switch (the lamp light up) to turn on the Processing Unit. • Press this switch again (the lamp put out the light) to turn off the Processing Unit. Display Unit • Press to turn on the Display unit. • Press and simultaneously to turn off the Display unit. Even if the power of the Display Unit is turned off, the power of the Processing Unit is not turned off. ● Display shown when the unit is turned on When the Display unit is turned on after turning on the Processing Unit, the displays are shown in the order given below: When position fixing is completed, the “ HEADING ” display is shown. [Version] [Self-test result] GPS status information After position fixing • • Position bearing measurment the first time the unit is used or after a master reset takes about 5 minutes. (Subsequent position fixing takes about 3 minute.) For information on data error display, see Appendix 3-A, “Message List”. ● Master reset This unit is equipped with the following reset functions. For example, if the internal battery or the ROM IC is replaced, a master reset would have to be performed. When resetting the unit, perform Initializing GPS as described in Section 4.20.2 when correcting for local time. 1. Soft reset This reset clears all data except registered waypoints and route plans. • Key operated soft reset Press while holding down . • Menu select soft reset See Section 4.22, “Performing Master Reset.” 50 JLR-10 GPS Compass 2. Hard reset This reset clears all data including registered waypoints and route plans. • Key operated hard reset Press while holding down . • Menu select hard reset See Section 4.22, “Performing Master Reset.” 4.3 Selecting Display Language The display language is set to English at the factory before shipment and reverts to this setting after a master reset. Use the following steps to set it to any desired language. One of the following seven languages can be set. LANGUAGE: English (default)/Deutsch/Francais/Español/Norsk/Italiano/ ニホンゴ ● Display example [Select Mode] [Navigation] [Navigation Menu] (1) After position fixing, the “ HEADING ” display mode appears. to display the Select Mode. Press (2) Turn to select “ NAVIGATION ” and press to confirm it. This action displays the “ NAVIGATION ” display mode. (3) Press (4) Turn to display the “ NAVIGATION MENU ”. to select “ LANGUAGE ” and press . “ ENGLISH ” is now highlighted. (5) Turn to select desired language and press . Check that the selected language is displayed. (6) Press to return to “ NAVIGATION ” display mode. 51 JLR-10 GPS Compass 4.4 Switching between Main Display Modes This section describes how to switch between the Main display modes, then what screens can be selected from which main display mode. There are eight Main display modes. When the unit is turned on and GPS position fixing is performed, the “ HEADING ” display mode shows. • HEADING : Displays the true bearing of the bow and some navigation information • POSITION : Displays the current position and some navigation information • NAVIGATION : Displays bearing, distance, course deviation and other navigation information • CDI : Shows a graphic representation of course deviation from intended course to steer • PLOT : Shows a graphic representation of past track line and route lines • WAYPOINT : Mode for displaying and setting waypoints • ROUTE : Displays route plan numbers • STATUS S/F : Displays a variety of GPS satelite information including beacon information 1. Switching between Main display modes The example given below shows how to switch from the “ HEADING ” display mode to the “ NAVIGATION ” display mode. (The numbers in the text correspond to numbers in the illustration.) q Press to display the “ Select Mode ” display mode. w Turn to select the “ NAVIGATION ” display mode. “ NAVIGATION ” is highlighted. e Press (Dial). (In descriptions given below, pressing will be used to mean pressing .) The “ NAVIGATION ” display mode appears. All eight main display modes can be displayed in the same manner. 2. Screens that can be selected from the main display modes As shown in the figure, the keys that can be used in each display mode are shown. As you get used to operating the navigator, a glance at the figure will be all you need to know how to operate the navigator. The following is a brief description of keys used in main display mode operations. • : Displays the “ Select Mode ”. This key is available in all modes except “ MOB ” . • : Emergency Man-Over-Board key used to mark a spot someone fell overboard. (This key is available in all modes.) • • : Selects the menu for the Main display mode you are presently in. / : Sets the “ DIRECT ROUTE ” and “ EVENT ”. (These keys are available in the “ HEADING ”, “ POSITION ”, “ NAVIGATION ”, “ CDI ” and “ PLOT ” display modes.) • : Adjust contrast and backlighting brightness. (This key is available in all displays) • in the “ PLOT ” display mode : Plot scale can be selected. 3. Select displays from the eight Main display modes As shown in the figure, the “ Select Mode ” display shows the Main display modes and the selection screen for them. The following operations can be performed in these two modes. • • 52 : Selects (highlights) Main display mode. or : Displays previous Main display mode. JLR-10 GPS Compass Display Changes [Main display modes] [[STATUS] display mode] [[ROUTE] display mode] [Select Mode display] [[WAYPOUNT] display mode] [Plot scale] display mode w [[PLOT] display mode] [[CDI] display mode] 0.5 sec [[NAVIGATION] display mode] e [[POSITION] display mode] To previous display mode [[HEADING] display mode] q 53 JLR-10 GPS Compass 4.5 Main Display Modes This section describes how to interpret the eight main display modes. • Display modes where waypoints and route plans have already been set are used in the examples. • For information on items shared by each display mode, see Section 4.5.1, “HEADING Display Mode.” 4.5.1 HEADING Display Mode This display mode shows the true bearing of the bow and navigation information. The following items are displayed in the “ HEADING ” display mode. The data displayed in this display mode can be changed in the menus. [Heading] display mode q Display mode name r Waypoint number w Time e Route plan number t Waypoint name y Heading u Bearing alarm i Navigation information o Position fix status !0 Navigation alarm q Display Mode name Indicates that the “ HEADING ” display mode is shown. w Time (hour: min) Displays the current time derived from GPS data. The character L (default value) indicates local time and U indicates universal time (GMT). (For more information, see Section 4.16, “Setting CDI Range and Display Time Format.”) e Route plan number Displays the currently selected route plan number (R01 to R20). The symbol A indicates that route legs are automatically stepped. No symbol is displayed for manual step. (See Section 4.11, “Navigation according to Route Plans.”) The message “WPT NO DEST” is showed when no waypoint has been selected in a route plan or by direct route selection. r Waypoint number Displays the number of currently selected waypoint for destination. Example: WPT 001 WPT: waypoint 001: waypoint number When waypoints are registered through an key pressing, a “D” or “G” is appended to the waypoint number to indicate the position fixing of GPS or DGPS, respectively. 54 JLR-10 GPS Compass t Waypoint name Displays the name registered for a waypoint. y Heading Displays the current heading in true bearing. u Bearing alarm The following bearing alarms can be displayed. •2 : Fixing calculation disabled (the case of receiving from five or more satellites) •3 : Fixing calculation un-completing •4 : Common reception satellites for two antennas (BOW, STERN) are three or less •6 : Fixing calculation disabled (the case of receiving from four satellites) •7 : Aux. sensor is failure (the bearing of heading) •8 : Aux. sensor is failure (the bearing of roll) •9 : Aux. sensor is failure (the bearing of pich) i Navigation information Displays one of the following data - selectable 1. BRG/DTG/COG/SOG (default) 2. BRG/DTG/XTE/TTG 3. CMG/VTD/COG/SOG 4. BRG/VAH/COG/SOG • BRG : Bearing to destination (unit: °) • DTG : Distance to go to destination Unit : nautical miles (nm default, sm, km available) • COG : Course over ground (unit: °) • SOG : Average speed of ship (speed over ground ) Unit : kt (knots) (default) (when the distance unit is nm), mh (when the distance unit is sm), kh (km/hour) (when the distance unit is km) • XTE : Cross track error. Deviation from course and direction to steer (unit: 0.01 nautical miles) Steering required to return to the planned course is indicated by L (left) and R (right). • TTG : Time to go until arrival at destination (unit: hour, minute) • CMG : Bearing (unit: °) to the current position as viewed from the origin • VTD : Velocity toward destination Unit : kt (knots) (default) (when the distance unit is nm), mh (when the distance unit is sm), kh (km/hour) (when the distance unit is km) • VAH : Velocity toward heading Unit : kt (knots) (default) (when the distance unit is nm), mh (when the distance unit is sm), kh (km/hour) (when the distance unit is km) (See Section 4.15, “Setting Navigation Display Modes and Units.”) A “t” after the figure for BRG, COG and CMG indicates true bearing, while “m” indicates that magnetic compass correction has been made.) 55 JLR-10 GPS Compass o Position fix status This position is displaying the Processing Unit (or DGPS receiver) position fix status. When GPS reception is stopped or when a problem has occurred in position fixing, HDOP or NO FIX alarm is displayed. Be careful! The accuracy of heading lowers when the alarm is displayed. For information on alarms, see Appendix 3-A, “Message List.” • When Processing Unit (or DGPS receiver) calculate the position after receiving at last one position fix, the message “ NO FIX ” is displayed and the alarm sounds. The alarm sounds can be canceled by pressing . • The alarm sounds once when Processing Unit (or DGPS receiver) switches from DGPS position fixing to GPS position fixing. (When DGPS alarm is set.) !0 Navigation alarm Displays alarms if selected. • ARV (arrival alarm) The alarm sounds and the characters ARV flash when the ship comes inside a set distance from a waypoint. • ANC (anchor alarm) When the ship drifts beyond the set distance from a waypoint, the alarm sounds and the characters ANC flash. • XTE (off-course alarm) When the ship strays off course by more than the set distance, the alarm sounds and the characters XTE flash. (See Section 4.9, “Setting Alarms (Arrival/Anchor/Off-course/DGPS)”.) ● Canceling alarms • Press to cancel the alarm sounds. • To disable the alarm display, set 0.00 as the alarm range. (See Section 4.9, “Setting Alarms (Arrival/ Anchor/Off-course/DGPS)”.) 56 JLR-10 GPS Compass The operation of each alarm is described in the figures shown below. ARV (arrival alarm) The alarm goes off when the ship comes inside a set distance of a waypoint. ANC (anchor alarm) The alarm goes off when the ship goes beyond a set distance. Alarm range Waypoint Position Waypoint Set distance Set distance Fig. 4-1 Alarm range XTE (Off-course alarm) The alarm goes off when the ship strays more than a set distance beyond its intended course. Alarm range Fig. 4-2 Waypoint Planned course Origin Set distance Fig. 4-3 57 JLR-10 GPS Compass 4.5.2 POSITION Display Mode This display mode shows current position and navigation information. The following items are displayed in the “ POSITION ” display mode. The data displayed in this display mode can be changed in the menus. [Latitude/Longitude] display mode q Current position q Current position Latitude and longitude are displayed. For details, see Section 4.5.1, “HEADING Display Mode” 4.5.3 NAVIGATION Display Mode This display mode shows the following navigation information. The type of data displayed in this display mode can be selected in the menus. Navigation information “ NAVIGATION ” display mode is the some type of information indicated in i, “Navigation information” described in Section 4.5.1, “HEADING Display Mode.” For details, see Section 4.5.1, “HEADING Display Mode.” 1. BRG/DTG/COG/SOG (default) 2. BRG/DTG/XTE/TTG 3. CMG/VTD/COG/SOG 4. BRG/VAH/COG/SOG The above display mode appears when 1. is selected. 58 JLR-10 GPS Compass 4.5.4 CDI Display Mode This display mode offers a graphic representation of course deviation. It displays the data shown below. The data displayed in this display mode can be changed in the menus. q Course deviation w COG Waypoint symbol e SOG Ship symbol r Range of CDI Track line q Course deviation Shows the deviation from the set course and the direction to steer. (unit: 0.01 nm). The ( ) symbol indicates that the ship should be turned left and the ( ) symbol indicates that it should turn right to return to the set course. When the display indicates a deviation of 0.00, the ship will reach its destination by the shortest route. w COG Course over ground (unit: °) “t” indicates true bearing and “m” indicates magnetic compass corrected value. e SOG Displays the average speed (speed over ground) in kt (knots), mh, kh r CDI Range Displays 0.1 (default), 0.3, 0.5 nm depending on setting. (See Section 4.16, “Setting CDI Range and Display Time Format.”) 59 JLR-10 GPS Compass 4.5.5 PLOT Display Mode and Setting the Plot Scale 1. PLOT display mode This display mode offers a graphic representation of track line and the direct route from the vessel to a waypoint. The data displayed in the different display modes can be changed in the menus. e Plot scale Waypoint and direct route of ship q Waypoint symbol w Current position mark Ship track line q Waypoint symbol Displays the first character in the registered waypoint name. The waypoint symbol can be turned on (default value) or off. (See Section 4.17, “Setting Plotting Information.”) w Current position mark A “+” mark shows the current position of the ship. e Plot scale Plot scale The plot scale can be set in 10 steps between 0.125 nm to 100 nm. Scale refers to the size of the horizontal area that the display shows. 2. Setting plot scale (1) Press in the “ PLOT ” display mode. This action displays the “ PLOT SCALE ” selecting mode. (2) Turn to select plot scale and press . This action returns to the “ PLOT ” display. Setting scale: 0.125 (default), 0.25, 0.5, 1, 2, 5, 10, 20, 50, 100 nm 60 JLR-10 GPS Compass 4.5.6 WAYPOINT Display Mode This display mode shows a list of registered waypoints. w Waypoint name q Waypoint number e Date (date entered waypoint) t D: registered DGPS position G: registered GPS position No indication: registration other than EVENT r Waypoint position u Distance to current position y Bearing to current position Turn to scroll waypoint numbers and display each waypoint. The waypoints registered in this display can be edited. (See Section, 4.18.1, “Editing Waypoint Lists”.) 4.5.7 ROUTE Display Mode This display mode shows a list of registered route plan numbers. The number of the route that is used is highlighted. Number of route plan being used Number of registered route plan For information on how to execute route plans, see Section 4.11, “Navigation according to Route Plans”. 61 JLR-10 GPS Compass 4.5.8 STATUS Display Mode The “ STATUS ” display mode shows all relevant satellite data. q Satellite number e Azimuth angle r Elevation angle t Receiving level y Antenna alarm u HDOP value i Antenna height o Beacon status !0 Date w Selected receiver !1 Bearing alarm q Satellite number Displays numbers for the receiving satellites (12 of 01 to 32) w Selected receiver Displays whether information of the GPS receiver on the BOW side or the STERN side is displayed. Press the dial ( ) to switch. (When the DGPS receiver is connected with the Processing Unit, information (DGPS) of the DGPS receiver can be also displayed.) e Azimuth angle Displays the azimuth angle: N, NE, E, SE, S, SW, W, NW r Elevation angle Displays the elevation angle to each satellite. t Receiving level Displays the receiving level of each satellite. The greater the number, the higher the level is. y Antenna alarm Displays the antenna status. • No display : Normal •O : Open (No antenna is connected) •S : Short (Antenna fault) 62 JLR-10 GPS Compass u HDOP value Indicates HDOP value. Position becomes more accurate as the HDOP value decreases. When the HDOP value exceeds 4, the HDOP indicator flashes to notify that the positioning accuracy is poor. Tip HDOP level A standard for assessing accuracy of position fixing. HDOP is based on the shape formed by the positions of satellites and the receiver; a good shape yields a low HDOP level and an accurate position fix value. A poor shape produces a high HDOP level and an inaccurate position value. Satellites A poor geometrical shape produces a high HDOP level A good geometrical shape produces a low HDOP level Fig. 4-4 i Antenna height In 3D mode, the height of the Antenna obtained from position fixing is displayed. Initial value are displayed when initialization is performed in 2D mode. (For details, see Section 4.20.2, “Initializing GPS”). Initial values or the height obtained in previous 3D measurements are displayed in an automatic mode. o Beacon status Displays the frequency, Baud rate and RSSI of DGPS beacon receiving signal. RSSI: Receiving Signal Strength Indication !0 Date Displays date derived from position fix. (month/day/year) !1 Heading alarm Displays the heading calculation status or failure status of aux. sensor. • No display : Normal •1 : Common reception satellites for two antennas (BOW, STERN) are four •2 : Heading calculation disabled (the case of receiving from five or more satellites) •3 : Heading calculation un-completing •4 : Common reception satellites for two antennas (BOW, STERN) are three or less •6 : Heading calculation disabled (the case of receiving from four satellites) •7 : Aux. sensor is failure (the bearing of heading) •8 : Aux. sensor is failure (the bearing of roll) •9 : Aux. sensor is failure (the bearing of pich) 63 JLR-10 GPS Compass 4.6 Basic Menu Selection Operations The use of the has already been described in Sections 4.3, “Selecting Display Language” and 4.4, “Switching between Main Display Modes.” This section will describe menu selections in detail. The can be turned and pressed to select and confirm selected menus. Familiarize yourself with it and you will be able to speedily select menus and confirm selections. Read through this section carefully since what follows assumes a knowledge of what is described here. ●Keys used to select and set menus : selects menu or menu items. • Turn • Press (Press by turning. • is used to mean press ): Menus and menu items that have been selected are entered. Press : - When pressed before a menu item has been set or entered, it cancels that selection and returns you to the previous menu. - When pressed after a menu item has been set or entered, it returns you to the previous menu. • The next menu item to be selected is highlighted first then a comfirmed by puressing ( ). Thus select and confirm items as they are highlighted to complete all the settings in a menu. • Brief key instructions are given along the bottom of the screen to help you with entries. Example: (DIAL/ENT/CLR ➝ EXIT) in the figure below means: Turn return to previous menu). to select /press to confirm/press ● Operation examples Detailed descriptions for setting in position correction menu in the [POSITION MENU]. Press in the “ POSITION ” display mode to display this menu. N [Position] display mode S Menu 64 Selection item 00.000' W 00.000' E Select All (Items cannot be displayed due to lack of space appear when selected.) to JLR-10 GPS Compass Position Correction (latitude, longitude) menu setting (1) Turn in the “ POSITION MENU ” display and press to select the [POS CORR] menu. [POS CORR] is highlighted and the currently set value is displayed. (2) Press to confirm [POS CORR]. The next item, [N] is highlighted. (3) If [N] is the selection you wish to make, press press . If you wish to select [S], turn to select [S] and to confirm the selection. [00] is now highlighted. (4) Turn to select the desired value and press to confirm the selection. [000] is highlighted. (5) Turn to select the desired value and press to confirm the selection. This action corrects the latitude setting. The next item to be set, [W] is highlighted. (6) Repeat steps (3) to (5) to set longitude. The [POS CORR] menu is displayed and [POS CORR] is highlighted. to return to the previous display. (7) Press • Use the key to amend number entries during settings. Example: Amending a number entry made in step (3) above When [00] has been confirmed, [000] is highlighted. Before confirming [000], press . This action causes [00] to be highlighted and allows you to amend the [00] setting. • Turning rapidly, changes the figures at high speed. 65 JLR-10 GPS Compass 4.7 Adjusting Contrast and Backlighting This function adjusts contrast and backlighting in all screen displays. (1) Press . This action displays the screen for changing the contrast and backlighting. (2) Turn to select the desired contrast. Range of contrast selection: 00 to 15 (default value: 07) (3) Press . Each press of the key toggles the setting between High and Low. Backlight setting: HI/LOW (default) (4) Press or wait for 5 seconds to return to the previous display mode. 4.8 Setting the Heading When the power supply to the Processing Unit is switched ON, the position fixing will be started automatically, and the heading will be calculated in about three minutes. For information on entry operations given below, see Section 4.6, "Basic Menu Selection Operations" 4.8.1 Manually Setting the Heading Normally, initial settings need not be made because the true heading is displayed after position fixing. However, if the heading is already known using a gyro compass etc., and has to be matched with that heading, it is possible to set the heading manually. Do not set the pitch or roll, only the heading, because doing so may cause errors in the heading. ● Display example [Heading] display mode (1) Press in the “ HEADING ” display mode. This action displays “ HEADING MENU ”. (2) Turn 66 to select [TRUE HEADING] and press . JLR-10 GPS Compass (3) Turn and set the heading orientation to a correct heading (such as the orientation indicated by a gyro compass, etc.,) and press . Set value range: 0.0 to 359.9˚. When setting the bearing , be carefule of the following two points. • After turning on the power or excuting Master Reset, set the bearing after it is first measured and more than 3 minutes pass. If the bearing is set within 3 minutes, error may become large. • Set the bearing while the ship is relatively stable. Otherwise, the setting error may become large. 4.8.2 Selecting the Output Format of Heading Data It is possible to select the heading data format of the output made to external devices, depending on the application at hand. (1) Press in the “ HEADING ” display mode. This action displays “ HEADING MENU ”. (2) Turn to select [NSK / NMEA] and press . (3) Turn to select one of the following and press . • NSK (defauit) :Data output format for the Radars manufactured by JRC. • NMEA :HDT Sentence conforming to the NMEA0183 format. 4.8.3 Setting the Installation Direction of Processing Unit When the Processing Unit is installed in a direction of heading, it is not necessary to input the installation direction. When the Processing Unit is installed in a direction other than the heading, the installation direction must be input. (1) Press (2) Turn in the “ HEADING ” display mode. to select [NEXT PAGE] and press . [Heading] display mode 0 to 359˚ (1˚ step) (3) Press Turn Press and display the value in reverse video. to set the Processing Unit installation direction and press . to return to the “ HEADING ” display mode. 67 JLR-10 GPS Compass 4.9 Setting Alarms (Arrival/Anchor/Off-course/DGPS) The navigator is provided with four types of alarms that can be set to inform you of important changes during navigation. Note that set alarms will go off whether you have selected a route plan or when you use the function (see Section 4.10, “Navigation Using Direct Route [GOTO].” ). Before reading the following sections, read Section 4.6, “Basic Menu Selection Operations.” 1. Selecting displays (1) Press in the [ROUTE] display mode. (2) Turn to select [Alarm] and press . This action displays the “ Alarm ” setting mode. (3) To return to the [ROUTE] display mode, press twice. ● Display example [Route] display mode 2. Setting 1) Arrival alarm The arrival alarm can be set to alert you when you are within a specified distance from your waypoint. The arrival alarm can be set within a range of 0.00 to 9.99 nm. • A setting of 0.00 turns off the alarm. • This alarm is also valid in direct route navigation. • When following a route plan, the arrival alarm selected in setting up the route plan takes priority. (See Section, 4.11, “Navigation according to Route Plans.”) 68 Alarm range Position Waypoint Set distance Fig. 4-5 JLR-10 GPS Compass 2) Anchor alarm The anchor alarm is intended to be used to monitor your ship’s position while at anchor. The alarm goes off when the ship drifts beyond the entered distance. This distance beyond which the alarm will be triggered can be set in a range of 0.00 to 9.99 nm. • A setting of 0.00 turns off the alarm. Waypoint Set distance Alarm range Since the settings of the arrival alarm and anchor alarm conflict, you can only set an arrival alarm or an anchor alarm, but not both together. When both alarms are set, the last made setting is valid. Fig. 4-6 3) Off-course alarm This alarm sounds when you stray more than a set distance off a set course. A distance in a range of 0.00 to 9.99 nm can be set. • A setting of 0.00 turns off the alarm. Alarm range Waypoint Planned course 4) DGPS alarm This alarm sounds once to notify that Processing Unit (or DGPS receiver) position fix values will be used instead of DGPS position fix values. DGPS alarm: on (default)/off Origin Set distance Fig. 4-7 69 JLR-10 GPS Compass 4.10 Navigation Using Direct Route [GOTO] A registered waypoint number can be selected as a direct destination by pressing number. The function is available in the following five main display modes: • and entering a waypoint [HEADING], [POSITION], [NAVIGATION], [CDI] and [PLOT] display modes The procedure to make direct route selection is the same in four display modes. In the example below, shows how to do this from the [CDI] display mode. (1) Press . The “ DIRECT ROUTE ” display mode appears and “ GOTO WPT _ _ _ ” on the second line is highlighted. (2) Select the number of the desired waypoint in registerd waypoints. Example: To set 050 Turn until 050 is displayed and press to confirm the selection. You can now use the [CDI] display mode to steer you towards the selected waypoint. ● Canceling a direct route To cancel a direct route (or a route plan in operation), press a new direct route, perform steps (1) to (2) above. When a direct route is used in the plot display mode, press the 70 and enter waypoint number [000]. To enter to display the waypoint numbers beside the waypoint symbols. JLR-10 GPS Compass 4.11 Navigation according to Route Plans Select the number of the route plan you wish to follow. When the number of the route plan has been selected, perform the settings in the displays that appear. For information on route plans, see Section 4.19, "Setting Route Plans." ● Display example [Route Plan] display mode (1) Press (2) Turn in the “ ROUTE ” display mode to display the [Route Menu]. to select “ FOLLOW ROUTE ” and press to confirm the selection. This action displays the “ FOLLOW ROUTE ” display. (3) Turn to select desired route plan number (04 for the example) and press . (4) This action selects [SEQUENCE MODE]. (5) Turn to select one of the following and press • Auto : automatic step of waypoints • Manual : manual step of waypoints • Off : no route plan is set . (6) [DIRECTION] is now selected. (7) Turn to select one of the following and press . • Forward : Displays waypoints of the route plan in the order they were set • Reverse : Displays waypoints of the route plan in the reverse order 71 JLR-10 GPS Compass (8) Turn to select values for [SET ARRIVAL DISTANCE] and press . Setting range: 0.00 to 9.99 nm The [Position] display mode is now displayed automatically. The alarm setting made in Section 4.9, “Setting Alarms (Arrival/Anchor/Off-course/DGPS)” are replaced by the arrival alarm distance made here. • • • The route plan numbers entered here are highlighted in the [Route] display mode. An automatic step cannot be performed by selecting [Auto] in step (5) when [0.00] is set in [Set Arrival Distance]. To make an step, press , like in manual step, to step the waypoint. When a value between 0.01 to 9.99 is entered, the alarm sounds when the vessel enters within the set arrival alarm zone from the waypoint. Auto step : Function that automatically steps from one waypoint to the next when the arrival perpedicular point has been passed. Manual step : The next waypoint is stepped by pressing . When alarm zone to step to the next waypoint, the alarm is canceled. If is pressed as the vessel enters the set arrival is not pressed to perform a step when the vessel enters the set arrival alarm zone, the alarm will ring until turned off by pressing . (Manual stepping is valid in “ HEADING ”, “ POSITION ”, “ NAVIGATION ” and “ CDI ” display modes.) 4.12 Entering Current Position as a Waypoint [EVENT] The current position (buoy or fishing ground) can be turned into a waypoint simply by pressing . The function is available in the following six main display modes. • “ HEADING ” , “ POSITION ” , “ NAVIGATION ” , “ CDI ” , “ PLOT ” and “ MOB ” display modes. The procedure to enter the current position as a waypoint is the same in five display modes. The example below shows how to do this from the “ POSITION ” display mode. (1) Press at the position you wish to add as a waypoint. The “ EVENT ” display appears in place of the “ POSITION ” display. After “ EVENT ”, the lowest unregistered number is displayed on the second line. (2) The current position is now registered to the desired number. • When you wish to register the waypoint to the number that is first displayed, press seconds until the “ EVENT ” display disappears. • Use the following procedure to register the waypoint to a different number. and turn to select a number. Then press . Press . Or just wait 5 • Number of registration: 001 to 499 • When a number where a registration has already been made is selected for registration, the message, “NOW USING”, “IN ROUTE”, “DEST PT” are indicated and no registration is made. • Events cannot be registered when the GPS/DGPS receiver is not position fixing. When events are registered during Processing Unit (or DGPS receiver) position fixing, the following symbols are appended to the waypoint list: DGPS position fixing : D GPS position fixing : G 72 JLR-10 GPS Compass 4.13 Man-Over-Board Mode [MOB] The MOB function (Man-Over-Board) is useful if something or someone falls overboard. Press and the navigator shows a graphic display of the position allowing you to steer back to the position where the event occurred. The function is available in all display modes. (1) Press . This action enters the display mode. The ship and the MOB position are connected by a dotted line. (The alarm can be canceled by pressing .) (2) The display shows the bearing, distance and elapsed time (minutes and seconds) from the MOB position. You can now steer back to the MOB position using the display information. • The plot scale is automatically set to 0.5 nm. An arrival alarm sounds when the ship is inside 0.1 nm of the MOB position. (The alarm can be canceled by pressing .) (3) The MOB function can be canceled and the previous display mode can be redisplayed by pressing for 3 seconds. Pressing does not store the MOB position in memory. To store the MOB position in memory, press and register the MOB position to desired number. (For details, see Section 4.12, “Entering Current Position as a Waypoint [EVENT].”) 4.14 Position Correction/Geodetic System Correction/Magnetic Compass Correction CAUTION Make it a rule to check the geodetic system marine chart and this unit’s setting before going to sea. If both geodetic systems are different, the displayed latitude and longitude indications will differ from those of the chart, which could lead to a marine accident. The automatically corrected compass value is an approximate value. For this reason, manually enter the correct value when you wish to steer the ship on a correct course according to corrected magnetic compass values. See Section 4.6, "Basic Menu Selection Operations" for information on setting procedures. 73 JLR-10 GPS Compass 1. • • Display operations Press in the “ POSITION ” display mode. To return to the “ POSITION ” display mode, press . ● Display example [Latitude, Longitude display] 2. Setting (1) Position correction Use this function to adjust the positioning Processing Unit (or DGPS receiver) sensor to marine chart. N 00.000’ for latitude correction S for longitude correction W 00.000’ E (2) Geodetic system correction The latitude and longitude of the positioning data can be converted to latitude and longitude data of another geodetic system. There are a total of 46 geodetic systems. The names of the first nine systems are displayed by name and the rest are displayed by number. The names of the other geodetic systems are listed in Appendix 3-B, “Geodetic System Tables.” GEODETIC See Appendix 3-B, “Geodetic System Tables.” (3) Magnetic compass correction MAG CORR AUTO MANU E W 00˚ (Automatic magnetic compass correction) (Manual magnetic compass correction) In a manual setting, it is possible to read the magnetic compass variation from the compass chart of a marine chart. Example: When the magnetic compass shows a reading of 60˚ and the navigator indicates 40˚, the (W) 20˚ difference can be used to correct the navigator setting. The correction value may differ with the sea area. If so, correct as required. 74 JLR-10 GPS Compass 4.15 Setting Navigation Display Modes and Units 1. • • Display operations Press in the “ NAVIGATION ” display mode. To return to the “ NAVIGATION ” display mode, press . 2. Setting (1) Navigation information type The navigation information can be displayed in one of the following type. DSP TYPE : BRG/DTG/COG/SOG (default format) BRG/DTG/XTE/TTG CMG/VTD/COG/SOG BRG/VAH/COG/SOG CMG and VTD are described in the figure below. CMG : Bearing of the current position as viewed from origin of route VTD : Velocity toward destination VAH : Velocity toward heading North North Planned route b Origin Waypoint VTD a c Current position VAH V (velocity) Heading VTD = V cos a˚ CMG = b˚ VAH = V cos c˚ Fig. 4-8 (2) Unit The following navigation information units can be set. UNIT : NM/KT SM/MH KM/KH (3) Display language One of the following seven languages can be set. LANGUAGE: English (default)/Deutsch/Francais/Español/Norsk/Italiano/ ニホンゴ 75 JLR-10 GPS Compass 4.16 Setting CDI Range and Display Time Format 1. • • Display operations Press in the “ CDI ” display mode. To return to the “ CDI ” display mode, press . 2. Setting (1) CDI range The CDI range can be set as follows: CDI RANGE: 0.1 (default), 0.3, 0.5 nm (2) Display time format Time can be displayed according to the following formats: TIME DSP: Local, UTC (universal time) (default) 4.17 Setting Plotting Information 1. • • Display operations Press in the “ PLOT ” display mode. To return to the “ PLOT ” display mode, press . 2. Setting (1) Track storage interval The Display Unit can record the track line by time or by distance. A total of 499 points can be recorded and the memory is updated as new data is received. TRACK INTERVAL: .5/1/3/5/10 minutes (approx. 250 min to 83 hours total track time) .2/.5 nm/off (no data is stored) (default) (approx. 100/250 nautical miles total track distance) Setting a shorter storage interval, increases the accuracy of the track line, but uses up the total of 499 points in a shorter time. Longer intervals increase storage time but reduces accuracy of the track line. (2) Erasing track line This function cancels track line displayed in the “ PLOT ” display mode. TRACK ERASE (3) Displaying track line The track line display can be turned on and off. TRACK LINE: on (default)/off (4) Waypoint symbol It is possible to display the first letter of the waypoint name as a waypoint mark on the display. This display function can be turned on and off. MARKS: on (default)/off 76 JLR-10 GPS Compass 4.18 Entering Waypoints Waypoints can be entered in one of the following three ways: • Using to store a waypoint Press when you pass a fishing point or buoy and enter the desired waypoint number. (See Section 4.12, “Entering Current Position as a Waypoint [EVENT].”) • Entry of latitude/longitude Direct entry of latitude/longitude coordinates from marine charts or other navigation information. • Entry of bearing and distance Direct entry of bearing and distance from current position of the ship can be calculated. Up to 499 waypoints can be entered which are numbered from 001 to 499. To store new numbers and to recall old ones, a number must be entered. Thus it is a good idea to record the waypoint number and waypoint name in the waypoint list in Appendix 6. (Or in a copy of this list.) The following function can be used to look for a registered waypoint. • Sorting the waypoint list in number order (default) or in alphabetic order. ● WAYPOINT display mode and waypoint menu • The “ WAYPOINT ” display mode is used for displaying and editing waypoints. (See Section 4.18.1.) • The following settings can be made in the “ WAYPOINT MENU ” displayed by pressing in the “ WAYPOINT ” display mode. - Waypoint setting (by latitude, longitude or bearing/distance) (See Section 4.18.2.) - Erasing, copying and measuring waypoints (See Section 4.18.3.) - Sorting waypoint names (See Section 4.18.4) ● Display example [WAYPOINT] display mode [WAYPOINT Menu] display For information on entry procedures, see Section 4.6, “Basic Menu Selection Operations.” 77 JLR-10 GPS Compass 4.18.1 Editing Waypoint Lists Registered waypoints can be displayed in the “ WAYPOINT ” display mode and then edited. (1) Scroll the list in the “ WAYPOINT ” display mode and select the number to be edited and press This action displays the “ WAYPOINT LIST EDIT ” display. . (2) Edit the waypoint and enter it again. This returns you to the “ WAYPOINT ” display mode. [WAYPOINT] display mode [WAYPOINT LIST EDIT] display 4.18.2 Storing Waypoints 1. Storing by LAT/LON (When the [L/L] is selected.) Use the following procedure to enter waypoint by latitude and longitude. (1) Press in the “ WAYPOINT ” display mode. This displays the “ WAYPOINT MENU ”. (2) Press to select “ ENTER NEW WPT BY L/L ” and press . The lowest waypoint number that can be entered is displayed. (For the example 001 has been registered.) ● Display example [First Display] [Display showing made entries] [WAYPOINTMENU] (3) Select waypoint number and press . If the displayed number is the right one, just press 78 [Bearing, distance calculation results] [WAYPOINTMENU] . JLR-10 GPS Compass (4) Enter the name of the waypoint in up to 8 characters. The alphabet (26 characters), numbers (0 to 9), symbols (6) and spaces can be used for name entries. Symbol: ( ) Example: ⊿ Fish 3 • Turn to select symbol [ ⊿ ] and press • Turn to select space and press . . • Enter up to 8 characters using this procedure. Since the first character of a waypoint name is displayed as a symbol of the waypoint in “ PLOT ” display mode. It is a good idea to select a symbol or alphabetic character for the first letter. Also see Section 4.18.4, “Sorting Waypoint Names”. (5) Set latitude and longitude in stated order. N XX° ➝ XX. ➝XXX' ➝W XX° ➝ XX. ➝ XXX' S E When the entry has been made, the message “CALCULATING” is displayed indicating that the bearing and distance from current position is being calculated. The calculation result is displayed at the bottom of the screen. 2. Storing by bearing and distance Use the following procedure to enter bearing and distance to be used in calculating waypoint position. (1) Press in the “ WAYPOINT ” display mode. This displays the “ WAYPOINT POINT ”. (2) Turn to select “ ENTER NEW WPT BY B/R ” and press . ● Display example [First Display] [Display showing made entries] [WAYPOINT MENU] (3) As in step (1), enter waypoint number and name, and press [WAYPOINT MENU] . (4) The bearing and distance from current position is entered. When the entry is complete, the message “CALCULATING” is displayed. 79 JLR-10 GPS Compass 4.18.3 Erasing, Copying and Measuring Waypoints The following three functions are described below. • Erasing function of waypoints no longer required. You can overwrite an existing waypoint. • Copying function of registered waypoints. For information on how to edit copied waypoints, see Section 4.18.1, “Editing Waypoint Lists.” • Measuring function of bearing and distance between any two registered waypoints. ● Display example [ERASE/COPY/MEASURE] display [ERASE] display [MEASURE] display [COPY] display [WAYPOINTNEMU] 1. Erasing waypoints (1) Press in the “ WAYPOINT ” display mode. (2) Turn to select “ ERASE/COPY/MEASURE ” and press (3) Turn to select “ ERASE WAYPOINT ” and press . . (4) Turn to select the number of the waypoint to erase and press The message [ARE YOU SURE? ENT] appears. • Press to erase. • Press 80 to cancel erasure. . JLR-10 GPS Compass 2. Copying waypoints (1) Press in the “ WAYPOINT ” display mode. (2) Turn to select [ERASE/COPY/MEASURE] and press (3) Turn to select [COPY WAYPOINT] and press . . (4) Enter the number of the waypoint to be copied in the [FROM] field. (5) Enter the number of the destination of the waypoint in the [TO] field. The waypoint has been copied. If the number of an already registered waypoint is selected as the destination, it will be overwritten by the copied waypoint. 3. Measuring between waypoints (1) Press in the “ WAYPOINT ” display mode. (2) Turn to select [ERASE/COPY/MEASURE] and press (3) Turn to select [MEASURE WAYPOINT] and press . . (4) Enter the number of the waypoint to be used as the origin in the [FROM] field. (5) Enter the number of the waypoint to be used as the end point in the [TO] field. The bearing and the distance between the waypoints is calculated and the result is displayed at the bottom of the screen. 81 JLR-10 GPS Compass 4.18.4 Sorting Waypoint Names The waypoint list can be sorted either in number order or in the alphabetic order of the waypoint names. In alphabetic order, characters are sorted in the following order: symbols, alphabetic characters, numbers and spaces. (1) Press in the “ WAYPOINT ” display mode. This displays the “ WAYPOINT MENU ”. (2) Turn to select [WPT SORT] and press (3) Turn to select 123 or ABC and press . . 123 (default) : sorts the waypoints in number order ABC : sorts the waypoints in alphabetic order. ● Display example [Waypoint display for ABC sort] [WAYPOINT MENU] 4.19 Setting Route Plans A route consisting of several connected waypoints is called a route plan. For example, say that you go from a harbor (waypoint number 010), to a fishing point (waypoint number 011), to another fishing point (waypoint number 012) and then return to a different harbor (waypoint number 013). Fishing point Harbor BB Harbor AA (waypoint number 011) (waypoint number 013) Fishing point (waypoint number 010) (waypoint number 012) Fig. 4-9 This route plan thus consists of harbor AA and the destinations which are the two fishing points (waypoint numbers 011 and 012) and harbor BB (waypoint 013). In following a set route plan, the navigator switches from one waypoint to another when it comes within a certain distance of the first waypoint (automatic stepping) or by manually stepping to the next waypoint. • • 82 For information on entry operations given below, see Section 4.6, “Basic Menu Selection Operations.” For information on how to follow route plans, see Section 4.11, “Navigation according to Route Plans.” JLR-10 GPS Compass 4.19.1 Making a Route Plan The following displays are used for making route plans. ● Display examples Repeat [Route Plan] display mode (1) Press in the “ ROUTE ” display mode. This displays the “ ROUTE MENU ”. (2) Turn to select “ MAKE ROUTE ” and press . This displays the “ MAKE ROUTE ” display and the numbers that can be used for a new route plan. (The display above shows that 02, 04, 07-09, 11, 13, 16, 18 and 19 are already taken.) (3) Turn to select desired route plan number (01 in the example) and press The display title changes to “ MAKE ROUTE #01 ”. . (4) Enter the origin of waypoint number 001 in the [FROM] field for the first route (LEG 001) of route plan #01. (The name of route number 001 is shown in the display.) (5) Enter the number of the next waypoint in the [TO] field. The entries made for route (LEG 001) and the calculated bearing and distance between the two waypoints are displayed. • Press to end a route plan. • To enter the next route (LEG 002 to), repeat steps (4) and (5). You can use steps (4) and (5) to enter up to 20 routes consisting of up to 199 waypoints. 83 JLR-10 GPS Compass 4.19.2 Editing Route Plan Waypoints can be inserted to or deleted from registered route plans as you wish. Use and in the [Edit Route] display mode as shown below. • : Key for inserting waypoint numbers • : Key for deleting waypoint numbers ● Display examples [ROUTE] display mode [Delete] [Insert] [Made Route] Leg 001 Leg 002 [Erase waypoint 003] Leg 001 Leg 001 Leg 003 (2) Turn (3) Turn Leg 004 Leg 002 Fig. 4-10 (1) Press [Insert waypoint 005] Leg 002 Leg 003 in the “ ROUTE ” display mode. to select [EDIT ROUTE] and press . to select desired route plan number (02 for the example) and press The display mode title changes to [EDIT ROUTE #02]. 84 . JLR-10 GPS Compass (4) This example will show how to delete waypoint 003 from LEG 002 and to insert a new waypoint 005. • Deleting waypoint #003 As shown above, turn to select LEG002 and press to confirm LEG002. Press to delete #003 of LEG002. This deletes waypoint #003 and the total number of legs are decremented. • Insert waypoint #005 As shown above, turn to select LEG002 and press to confirm LEG002. Press , enter #005 for #003 and press . Waypoint #005 is inserted and the number of leg are incremented. You cannot edit a route plan that is being executed. 4.19.3 Erasing Route Plans Registered Route plans can be erased using the procedure described below. ● Display example [Route Menu] [ROUTE] display mode (1) Press in the “ ROUTE ” display mode. (2) Turn to select [ERASE ROUTE] and press . (3) Turn to select the desired route plan number (02 for the example) and press This displays the message [ARE YOU SURE? ENT]. . (4) Press once more to erase the selected route plan after which the “ ROUTE MENU ” appears. • To cancel deletion, press instead. 85 JLR-10 GPS Compass 4.20 Setting GPS Information For information on entry operations given below, see Section 4.6, “Basic Menu Selection Operations.” ● Display examples [STATUS] Display Mode [STATUS/SF Menu] 4.20.1 Setting Position Fix Mode and Averaging for GPS 1. Setting position fix mode (1) Press in the “ STATUS ” mode display. This action displays the “ STATUS/SF MENU ”. (2) Turn to select [FIX MODE] and press . (3) Enter 2D or Auto (default) • 2D • Auto (2D or 3D are automatically selected) : Normally, set to “AUTO”. When the mode is set to "2D", the bearing precision may deteriorate. During DGPS position fixing, “auto” is used regardless of selection in [FIX MODE]. 2. Setting Averaging Time This Processing Unit (or DGPS receiver) calculates position, ship speed and course using signals sent from GPS satellites. This data is subject to jitter introduced by satellite location and receiving conditions. To average this jitter, you can set a longer averaging time from 01 to 99 seconds. Large values reduces jitter. Small values increases jitter, but you can more rapid changes in position and navigation data. (1) Press in the “ STATUS ” mode display. This action displays the “ STATUS/SF MENU ”. (2) Turn to select [AVERAGING] and press . (3) Enter averaging time (01 to 99 seconds). (default value: 10 seconds) 86 JLR-10 GPS Compass 4.20.2 Initializing GPS During fixing after the power is turned on, the "HEADING" display mode is displayed. Therefore, initial settings are enabled by selecting the "STATUS/SF MENU". ● Display example [STATUS/SF Menu] [ESTIMATED L/L] [ESTIMATED L/L] (1) Press in the “ STATUS ” display mode. This action displays the “ STATUS/SF MENU ”. (2) Turn to select [ESTIMATED L/L] and press The [ENTER YOUR LATITUDE] is highlighted. . (3) Enter the estimated position of the ship. (within a deviation range of 1˚). [ANT HT] is now highlighted. (4) Enter the height of the ship’s antenna. [DATE] is now highlighted. (5) Enter local time (date). (month/day/year) [TIME] is now highlighted. (6) Enter local time (time). (hour /minute/second) There is no need to enter the second value, only press . 87 JLR-10 GPS Compass 4.20.3 Setting DGPS Beacon The frequency and Baud rate of the beacon station received on the DGPS receiver (option) or DGPS beacon receiver can be set. ● Display example [STATUS/SF Menu] display mode [STATUS/SF MENU DGPS] display mode (1) Press in the “ STATUS ” display mode. This action displays the “ STATUS/SF MENU ”. (2) Turn to select [DGPS Beacon] and press . When a DGPS beacon receiver or DGPS receiver (DGPS212) is not connected, the message [No CONNECT] shows. (3) Setting Receive mode Turn to select mode and press . When [Auto] is selected, the display returns to [STATUS/SF Menu]. (4) Enter the frequency and Baud rate. When [Manual] is set, enter the values in [FREQUENCY] and [BAUD RATE]. 88 JLR-10 GPS Compass 4.21 Setting Output Level and Transmitting/Receiving Memory Data When a Personal Computer (PC) is connected to Display Unit, the output level must be set to TTL when data is input from the PC since an RS-422 setting could damage the PC and Display Unit. Data transmission/reception with external equipment can be performed using the DATA IN/DATA OUT lines of the Display Unit Data Cable (option). • Output level The output level can be set to TTL or RS-422 when data is exchanged with external equipment (NMEA0183 data output, memory data I/O). The output level must be set before data is exchanged with external equipment. The following two types of data are supported in communications with external equipment. • Output data GPS data conforming to the NMEA183 format and navigation data are output (For details, see Appendix 4, “Data Output”) • Memory data I/O The JLR-10 can transfer the waypoint and route memory contents of the internal memory to external equipment (PC) and re-load back from to the JLR-10. (See Appendix 5, “Waypoint/Route Plan Data In/ Output.”) ● Display example [STATUS S/F MENU] display mode [Special Function] display mode [Special Function Data Output] display mode [Special Function Memory In/Out] display Mode 89 JLR-10 GPS Compass 1. Output level setting (1) Press in the “ STATUS ” display mode. This action displays the “ STATUS/SF MENU ”. (2) Turn to select [SPECIAL FUNCTION] and press The “ SF MENU ” display mode appears. . (3) Turn to select [DATA OUTPUT] and press . The “ SF MENU DATA OUTPUT ” display mode appears. (4) Turn to select [OUTPUT LEVEL] and press . (5) Set the output level (RS-422/TTL (default)) 2. Transmitting/Receiving Memory Data (1) Press in the “ STATUS ” display mode. This action displays the “ STATUS/SF MENU ”. (2) Turn to select [SPECIAL FUNCTION] and press The “ SPECIAL FUNCTION ” display mode appears. . to select [MEMORY IN/OUT] and press . (3) Turn This displays the “ SPECIAL FUNCTION MEMORY IN/OUT ” display mode. (4) Memory Data Output Waypoint and route plan data can be uploaded separately to external equipment such as a PC. This data can be saved and edited on external equipment. During the upload the message [UPLOADING] is displayed. The time required for the transfer depends on the amount of data transferred. • Waypoint data output . Select [OUTPUT WPT DATA] and press • Route plan data output Select [OUTPUT ROUTE DATA] and press . (5) Memory data input Waypoint and route plan data can be downloaded separately from external equipment such as a PC. During the download the message [DOWNLOADING] is displayed. When the message “DOWNLOADING” is displayed, inputs are received from external equipment. The time required for the transfer depends on the amount of data transferred. • Waypoint data input Select [INPUT WPT DATA] and press . • Route plan data input Select [INPUT ROUTE DATA] and press The transfer rate is one memory per second. 90 . JLR-10 GPS Compass 4.22 Performing Master Reset • A master reset clears registered data. Use this function with care. • After resetting this equipment, perform GPS Initialization. (See Section 4.20.2, “Initializing GPS”.) There are soft and hard reset functions. A soft reset clears all data except waypoint and route plan data. Thus items set or selected through operation are all returned to their default values. A hard reset clears all data including waypoints and route plans. ● Display example [STATUS/SF Menu] display mode (1) Press [SF Menu] display mode in the “ STATUS ” display mode. This action displays the “ STATUS/SF MENU ”. (2) Turn to select [SPECIAL FUNCTION] and press . The “ SPECIAL FUNCTION ” display mode appears. (3) Turn to select [MASTER RESET] and press (4) Select soft or hard reset and press . . A soft or hard reset is performed. 91 JLR-10 GPS Compass 5. Maintenance and Inspection WARNING No attempt shall be made by the user to inspect or repair the equipment. Inspections or repairs carried out by unauthorized personnel can cause a fire or electric shock. Consult our local sales office or a dealer nearby your location for any inspection or repair that requires the equipment disassembly. CAUTION Use only the specified fuse. Failure to observe the instruction can cause a fire or equipment failure. Model : MF51NN-2A 2 amp Do not use a non specified battery. Failure to observe this instruction can cause equipment failure or malfunction. The Display Unit and the Processing Unit is equipped with a lithium battery to back up the RAM in the event of a power failure. The lithium battery has an average life of approx. five years, however, scheduled replacement is recommended before it is completely depleted to ensure proper equipment operation. Consult our local sales office or your distributor to have the battery replaced. Model : CR2032-THD Model : CR2354-1VC Model : CR2477-1VC JRC code : 5ZBBJ00006 (NWZ-4551G) JRC code : 5ZBAB00108 (NNN-10) JRC code : 5ZBBD00012 (NNN-10) Daily maintenance and inspections will keep your equipment in good working conditions and prolong its service life. We would recommend you to make the following inspections before commencing the equipment operation. ● ● ● ● ● 92 Is the equipment properly secured? Are any of the mounting screws loosened? ➔ Secure it as required. Are the connecting cables securely connected? ➔ Connect them securely. Is the fuse blown? ➔ Replace the fuse with a specified one. Is the equipment damaged? ➔ Consult our local sales office or your distributor if an equipment malfunction is noted. Is any connecting cable damaged? ➔ Use of damaged cables can cause a fire, electric shock or equipment failure. Consult our local sales office or your distributor for repair or replacement. JLR-10 GPS Compass 6. Measures for the Operating Environment Do not install the equipment in any one of the following environments. Failure to observe this instruction can cause equipment failure or reduced service life. ● Locations that are subject to direct intense sunlight for extended periods Failure to observe the instruction can cause erratic contrast of the screen display. In addition, the service life of the LCD will be reduced. ● Locations nearby the equipment that are generating a magnetic field Failure to observe this instruction can cause equipment malfunction or display noise. ● Locations with poor ventilation Failure to observe this instruction can cause equipment over-heating, which in turn can cause failure of the power supply unit. 93 JLR-10 GPS Compass 7. After-sale Services ■ When asking for service When you think the equipment is not operating properly, consult our local sales office or your nearby authorized JRC dealer. ■ ● Repairs during the warranty period Should a malfunction or failure occur when the equipment is operated according to the descriptions and instructions contained herein, it will be repaired free of charge during the warranty period. However, any repair for failures resulting from misuse, abuse, fire, or other unforeseeable incident will be charged. ● Repairs after the warranty period Repairs to restore the proper equipment operation can be made at a specified rate with the user’s consent. ● Information that needs to be provided when you ask for the service ⃝ Name, model and serial number of the equipment ⃝ Description of the malfunction (as detailed as possible) ⃝ Name, address, and phone number of your company or organization Recommended checks and inspections The equipment performance is subject to decay due to age and change of component values over time. Thus, it is recommended to consult with our local sales office or your dealer for periodic inspection and maintenance in case of loss in performance, in addition to your own routine inspection and maintenance. This inspection is not covered by warranty. Note that, however, the user needs to pay for such a periodic inspection and maintenance. Direct your inquiries to any one of our local sales offices or your distributors listed at the end of this manual. 94 JLR-10 GPS Compass 8. Disposal WARNING Insulate the used lithium battery, such as placing a piece of insulation tape both on the anode and cathode terminals of the battery before disposing of it. Failure to observe the instruction can cause a fire, explosion, or other hazards due to shorted battery. 8.1 Disposal of the Equipment ● Observe all the applicable acts and regulations specified by the local authority. 8.2 Disposal of the Used Battery A lithium battery is mounted in the Processing Unit and Display Unit to back up data. ● Dispose of the used lithium battery each time as a piece of non-combustible garbage without storing it. ● Insulate the used lithium battery, such as placing a piece of insulation tape both on its anode and cathode terminals before disposing of it. Note that the battery needs to be disposed of according to the rules specified by the applicable local authority, if any. Consult our local sales office, your distributor, or local authority for further details on the disposal method. 95 JLR-10 GPS Compass 9. Specifications 1. Function specifications (1) True bearing output : 0.0 to 359.9˚ (2) Data output : NMEA0183 Heading : HDT Navigation data : HDT, GGA, GLL, RMC, VTG, GNS, ROT, DTM etc. NSK format (for JRC radar) (3) Data input : RTCM SC-104 (DGPS correction data) (4) Input voltage : DC +12V/24V (DC 10.8V to 31.2V) 2. Performance specifications (1) Direction accuracy : 1˚rms (2) Resolution : 0.1˚ (3) Tracking rate of turn : More than 25˚/sec. (4) Tracking acceleration : 1G (5) Maximum roll and pitch angle : ±30˚ (6) Data output : Heading NMEA (HDT) Display data Rate of turn Navigation data 3. 96 4800 bps output rate 50 msec., 100 msec. NSK format 9600 bps output rate 20 msec. NMEA (ROT) 4800 bps output rate 1 sec. 4800 bps output rate 50 msec. 4800 bps output rate 1 sec. Environment (1) Operating temperature : Antenna Unit -25˚C to +55˚C Processing Unit, Display Unit -15˚C to +55˚C (2) Operating humidity : 93%, 40˚C (3) Storage temperature : -30˚C to +70˚C (4) Vibration : IEC60945 comormity (5) EMC : IEC60945 comormity (6) Waterproof : Antenna Unit CFR46 equivalent Processing Unit JIS Drop proof type II (IPX2 equivalent) Display Unit JIS Jet proof (IPX5 equivalent) JLR-10 GPS Compass Appendices 97 JLR-10 GPS Compass Appendix 1 Optional Unit ● Summary of GPS Repecon ◆ Key specifications (1) Repeater compass angular velocity (max.) : 14˚/sec. (2) Input voltage : AC100, 60Hz, 40VA (3) Outside dementions : W 300mm ✕ H 300mm ✕ D 120mm (4) Mass : 10O (5) Operation environment (inboard) : Temparature -15˚C to +55˚C Humidity 40˚C, 93% (No dew condensation) ◆ Connection ◆ Outline drawing Steerage stand Navigation equipment of every company Course setting Unit Repeater AC100V 60Hz Power R1 R2 S1 S2 S3 U V E R1 R2 S1 S2 S3 E GPS-REPECON GPS Repecon NID2001 POWER (3A) REPEATER COMPASS NAVIGATION EQUIPMENT GYRO COMPASS SYNCHRO SYGNAL FUSE FUSE FUSE FUSE FUSE (made by AIDEN) REPEATER COMPASS REPEARER COMPASS GYRO COMPASS GPS E NSK› Synchro converter GPS compass R1 R2 S1 S2 S3 ES-11A GPS compass made by TOKIMEC Fig. A-1 98 DEC. INC. LOCK POWER Rx+ Rx- E SYNCHRO ADJUST Fig. A-2 NAVIGATION EQUIPMENT GYRO COMPASS GPS JLR-10 GPS Compass ● Summary of DGPS Beacon Receiver ø110±2 (42) 129±4 (ø198) (ø150) ø52±2 NOTE : ( ) indicate a reference value. Unit : mm Mass : approx. 1.3O (including the cable, excluding the whip antenna) Fig. A-3 Outline drawing of NRB-2J DGPS beacon receiver 5 1 4 2 3 Pin No. Color of wire 1 Red 2 Black 3 White 4 Green 5 Yellow Remarks DC 12V GND Data common Data output Setting data input Pin arrangement of connector Fig. A-4 99 JLR-10 GPS Compass ● Summary of DGPS Receiver 135 ø126 500 ø40 1inch 14 UNS-28 Unit : mm Mass : approx. less than 1.1O Fig. A-5 Outline drawing of JLR-4331 DGPS receiver 5 1 4 2 3 Pin No. Color of wire 1 Red 2 Black 3 White 4 Green 5 Yellow Pin arrangement of connector Fig. A-6 100 Remarks DC 12V GND Data common Data output Setting data input JLR-10 GPS Compass ● Summary of OPTION Cable 15000±200 50±5 55.5 25±5 2±1 ø6.7 Unit : mm Fig. A-7 Outline drawing of CFQ-6559 OPTION cable 7 6 1 8 5 2 3 4 Pin No. Color of wire 1 Brown 2 Red 3 Orang 4 Yellow 5 Green 6 Blue 7 Purple 8 Gray Remarks Open Open Heading data output RS-422 + Heading data output RS-422 – Data common (Ground) Heading data output TTL Open Open Pin arrangement of connector Fig. A-8 101 JLR-10 GPS Compass ● Summary of NMEA Cable 15000±200 41.5 50±5 25±5 2±1 ø6.7 Unit : mm Fig. A-9 Outline drawing of CFQ-6560 NMEA cable 2 5 9 1 4 8 12 3 7 11 14 6 10 13 Pin arrangement of connector Pin No. Color of wire 1 Brown 2 Red 3 Orang 4 Yellow 5 Green 6 Blue 7 Purple 8 Gray 9 White 10 Black 11 Pink 12 Brown/White 13 Red/White 14 Black/White Fig. A-10 102 Remarks NMEA0183 Navigation data NMEA0183 Navigation data NMEA0183 HDT NMEA0183 HDT NMEA0183 ROT NMEA0183 ROT Alarm (Contact signal) + Alarm (Contact signal) – Log pulse (Contact signal) + Log pulse (Contact signal) – NMEA0183 Display data NMEA0183 Display data Open Open RS-422 + RS-422 – RS-422 + RS-422 – RS-422 + RS-422 – RS-422 + RS-422 – JLR-10 GPS Compass Appendix 2 Cable Connection of the Attached Connector (N-P-5-2) 1. Pealing sheath of the cable • Remove sheath of the cable in the length shown in the Fig. A-11. Don’t put a wound on shielding wire at this time. 12.7 Fig. A-11 2. Fixing parts Washer Tightening parts Gasket • Fix a tightening parts, washer, gasket and clamp according to Fig. A-12. Clamp Fig. A-12 3. Teratment of shielding wire Insulator and foil • Turn up shielding wire on the clamp and cut it to an even length. Fig. A-13 4. Fixing a bushing and cutting a insulator Bushing Core wire Central contact 6.0 • Fix a bushing, cut insulator and foil of the cable on the edge of the bushing, and remove them. Don’t put a wound on core wire at this time. Match the length of core wire with the length shown in Fig. A-14 Fig. A-14 103 JLR-10 GPS Compass 5. Solering a center contact Soldering • Solder core wire for preparation, insert a center contact, and solder it pouring solder from the hole of center contact. • Solder not to make a gap between the center contact and the insulator. Check solder leaking and fillet, and confirm whether solder is firmly attached by pulling the center contact. • Using solder : RH-60 1.0 Solder iron Temperature sensor Insulator of the cable • Insert a insulator of the connector into a block soldered the center contact. Fig. A-15 6. Fixing a insulator Fig. A-16 7. Fixing into a connector • Fix the cable block into the connector with warning against gaps between each parts. • Thrust by hand at first, and bound tight using a torque wrench. Tightening with spanner CAUTION) 1. When tightening with spanner, don't scar the connector or tightning parts. 2. Don't keep loosen the tightning parts. Fig. A-17 104 JLR-10 GPS Compass Appndix 3-A Message List ● Error message Message Description RAM NG Display RAM failure. Contact JRC sales department or local branch. ROM NG Display ROM failure. Contact JRC sales department or local branch. RCV NG Processing Unit is not connected or is malfunctioning. Connect Processing Unit properly. If the message still persists, contact JRC sales department or local branch. ● Navigation alarms Message ARV Description Arrival alarm. The ship has come inside set arrival range. Press to silence alarm. The alarm is off when the distance is set to 0.00 m. ANC Anchor alarm. The ship has drifted outside the set distance range. Press to silence alarm. The alarm is off when the distance is set to 0.00 m. XTE Off-course alarm. The ship has drifted more than the set distance off course. Press to silence alarm. The alarm is off when the distance is set to 0.00 m. HDOP Indicates poor HDOP value. The HDOP indicator flashes when HDOP exceeds 4. Since HDOP is poor, Processing Unit (or DGPS receiver) position accuracy is poor. The alarm goes off when HDOP improves. NO FIX Processing Unit (or DGPS receiver) is not position fixing. Press alarm. Install antenna in location with better reception. GPS DGPS alarm. When a DGPS alarm is set to on and the Processing Unit (or DGPS receiver) goes from DGPS to GPS position fixing, the buzzer sounds once. MOB MOB function (displayed in the title area). The MOB function is canceled when is pressed for 3 seconds or longer. NO HWADING Processing Unit is not outputing effective heading. Press to silence alarm. to silence 105 JLR-10 GPS Compass ● Operation message Message Description EVENT FULL Too many events (waypoints) registered. This message is displayed when an attempt is made to register a new event when all event points are being used. Delete old data before making new registration. WPT FULL Too many waypoints registered. Delete old data before making new registration. This message is displayed when an attempt is made to set a waypoint by entering positions, bearings or distance after the waypoint list is full. NO WAYPOINT No waypoint has been registered. Register a waypoint. ROUTE FULL Too many routes registered. Delete old route before making new registration. NO ROUTE No route has been registered. Register a route. NOW USING, IN ROUTE, DEST PT A registered waypoint number has been specified in the registration of an event. Register the event in a free waypoint number. ARE YOU SURE? ENT Confirmation message asking if a waypoint or route plan should be deleted. to delete. To cancel deletion, press . Press CALCULATING The program is calculating distance or position of waypoint or route plan. Please wait. DOWNLOADING The unit is downloading data from external equipment. Please wait. UPLOADING The unit is uploading data to external equipment. Please wait. WPT NO DEST No waypoint was set in a route plan or in direct route. 106 JLR-10 GPS Compass ● Bearing alarms Message Description 0 (No display) Normal 1 Common reception satellites for two antennas (BOW, STERN) are four This message shows only STATUS display. 2 Heading calculation disabled (the case of receiving from five or more satellites) 3 Heading calculation un-completing 4 Common reception satellites for two antennas (BOW, STERN) are three or less 6 Heading calculation disabled (the case of receiving from four satellites) 7 Aux. sensor is failure (the bearing of heading) 8 Aux. sensor is failure (the bearing of roll) 9 Aux. sensor is failure (the bearing of pich) ● Antenna alarms Message Description No display Normal O Open (No antenna is connected) S Short (Antenna fault) 107 JLR-10 GPS Compass Appndix 3-B Geodetic System Tables ◆ Geodetic systems that are displayed by the respective names (Nos. 1 to 9) Table 1 Names displayed on the screen 108 Geodetic systems WGS-84 WGS-84 WGS-72 WGS-72 JAPAN Japanese geodetic system NAD27 USA North American 1927 (USA) NAD27 CAN North American 1927 (Canada and Alaska) EUROPE 50 Europe 1950 (Europe) AUSTRA 66 Australian geodetic 1966 (Australia) OSGB-36 Ordnance Survey of Great Britain (UK) NAD-83 NAD-83 JLR-10 GPS Compass ◆ Geodetic systems that are displayed in numbers Table 2 Names displayed on the screen Geodetic systems 11 Adindan (Ethiopia and Sudan) 12 ARC 1950 (Botswana) 13 Australian Geodetic 1984 (Australia) 14 Bermuda 1957 (Bermuda islands) 15 Bogota Observatory (Columbia) 16 Compo Inchauspe (Argentina) 17 Chatham 1971 (Chatham islands) 18 Chua Astro (Paraguay) 19 Corrego Alegre (Brazil) 20 Djakarta (Batavia) (Sumatra) 21 European 1979 (Europe) 22 Geodetic Datum 1949 (New Zealand) 23 Guam 1963 (Guam) 24 Hayford 1910 (Finland) 25 Hjorsey 1955 (Iceland) 26 Indian (India and Nepal) 27 Ireland 1965 (Ireland) 28 Kertau 1948 (West Malaysia and Singapore) 29 L.C.5 Astro (Cayman Black Islands) 30 Liberia 1964 (Liberia) 31 Luzon (Philippines) 32 Merchich (Morocco) 33 Minna (Cameroon) 34 Nahrwan (Oman) 35 Naparima, BWI (Trinidad and Tobago) 36 Old Egyptian (Egypt) 37 Old Hawaiian (Hawaii Islands) 38 Pico de las Nieves (Canary islands) 39 Provisional South American 1956 (South America) 40 Provisional South Chilean 1963 (Southern Chili) 41 Puerto Rico (Puerto Rico and Virgin Islands) 42 Qornoq (Southern Greenland) 43 RT90 (Sweden) 44 Santa Braz (San Miguel and Santa Maria Islands) 45 South American 1969 (South America) 46 Southwest Base (Faial, Graciosa, Pico, Sao Jorge, and Terceira Islands) 47 Timbalai 1948 (Brunei and East Malaysia) 109 JLR-10 GPS Compass Appendix 4 Data Output Attention 1. Sentences are not always output in the ordar indicated below. For receiving sentences, enable it take in, no matter sentences may be located in a line with what turn. 2. Each sentence is variable length. For receiving sentences, enable it to take in the data of variable length. ● Data output from Processing Unit (1) Data output of each output connector • “DISP” connector : Display data • “RADAR” connector : NSK data or heading data F (alternative) Display data • “OPTION” connector : NSK data or heading data F (alternative) • “NMEA” connector : Navigation data Display data Heading data S Rate of turn data (2) NMEA0183 output sentences GGA : GPS fix data RMC : Recommended minimum specific GPS data GLL : Geographic position - Latitude/Longitude VTG : Course over ground and ground speed HDT : True bearing of ship heading ROT : Rate of turn and direction of turn GSA : GPS DOP and active satellites GSV DTM GNS ZDA : : : : GPS satellites in view Datum reference GNSS fix data Time and date (3) Output timing q Dispaly data GGA / RMC / GLL / VTG / HDT : 1 sec. interval GSV / GSA / DTM : 3 sec. interval w Navigation data GNS / RMC / VTG / HDT / ROT : 1 sec. interval DTM/ ZDA : 2 sec. interval (✽ When the DGPS receiver is connected, GNS sentences are not output.) e Heading data Heading data F HDT : 50 msec. interval Heading data S HDT : 100 msec. interval r Rate of turn data ROT 110 : 50 msec. interval JLR-10 GPS Compass (4) Serial format Baud rate Data bits Parity Start bit Stop bit : : : : : 4800 bps 8 bits None 1 bit 1 bit (5) Data format GGA (GPS fix data) $GPGGA,hhmmss,ddmm.mmmm,a,ddmm.mmmm,a,x,xx,xx,uxxxx,M,uxxx,M,www,wwww*hh 1 1 2, 3 4, 5 6 : : : : 7 8 9, 10 11, 12 13 14 15 : : : : : : : 2 3 4 5 6 7 8 9 10 11 12 13 14 15 UTC of position fix (Hour, Minute, Second) Latitude (Degree, Minute), N/S Longitude (Degree, Minute), E/W GPS quality indicator 0 = GPS No Fix 1 = GPS Fix 2 = Differential GPS Fix Number of satellites in use for position fix Hrizontal dilution of precision (HDOP) Antenna altitude above/below mean-sea-level (m) u : sign (+, –) Geoidal height (m) u : sign (+, –) Age of Differential GPS data ("00" field when DGPS is not used) Differential reference station ID ("0000" field when DGPS is not used) Checksum RMC (Recommended minimum specific GPS data) $GPRMC,hhmmss,f,ddmm.mmmm,a,dddmm.mmmm,a,xxx.x,xxx,xxxxxx,,*hh 1 1 2 3, 4 5, 6 7 8 9 10 2 3 4 5 6 7 8 9 10 : UTC of position fix (Hour, Minute, Second) : Data Status A = valid V = invalid : Latitude (Degree, Minute), N/S : Longitude (Degree, Minute), E/W : Speed over ground (knot) : Course over ground, degrees True : Data : Day, Month, Year (UTC) : Checksum 111 JLR-10 GPS Compass GLL (Geographic position - Latitude/Longitude) $GPGLL, dd.mm.mmmm, a, dddmm.mmmm, a, hhmmss.ss, A*hh 1 1, 2 3, 4 5 6 2 3 4 5 6 7 : : : : Latitude (Degree, Minute), N/S Longitude (Degree, Minute), E/W UTC of position fix (Hour, Minute, Second) Data status A = valid V = invalid : Checksum 7 VTG (Course over ground and ground speed) $GPVTG,xxx.x,T,,,xxx.x,N,xxx.x,K*hh 1 1, 2 3, 4 5, 6 7 2 : : : : 3 4 5 6 7 Course, degree, true Speed (knots) Speed (km/hr) Checksum HDT (True bearing of ship's heading) $GPHDT,xxx.x,T*hh 1 1 2 2 : True bearing (0 to 359.9˚) : Check sum ROT (Rate of turn and direction of turn) $GPROT,uxxxx.x,A*hh 1 1 2 3 112 2 3 : Rate of turn (0 to 9999.9) (Degree, Minute) u : sign (+, –) : Data Status A = valid V = invalid : Checksum JLR-10 GPS Compass GSA (GPS DOP and active satellites) $GPGSA, a, x,xx,xx,xx,xx,xx,xx,xx,xx,xx,xx,xx,xx,xx.x,xx.x,xx.x*hh 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 1 : Mode M = Manual (fixed in 2D or 3D) A = Automatic 2 : Dimension mode 1 = Fix not available 2 = 2D 3 = 3D 3 to14 : PRN numbers of satellites used in solution ("00" field when satellites are less than 12) 15 : PDOP (fixed length with 4 digits) 16 : HDOP (fixed length with 4 digits) 17 : VDOP (fixed length with 4 digits) 18 : Checksum GSV (GPS satellites in view) $GPGSV, x, x, xx,xx,xx,xxx,xx,xx,xx,xxx,xx,xx,xx,xxx,xx,xx,xx,xxx,xx*hh 1 2 1 : 2 : 3 : 4 : 5 : 6 : 7 : 8 to 11 : 12 to 15: 16 to 19: 20 : 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Total number of GSV messages (1 to 3) GSV message number (1 to 3) Total number of satellites in view (fixed length with 2 digits) 1st satellite PRN number (01 to 32) (fixed length with 2 digits) 1st satellite's elevation (00 to 90˚) (fixed length with 2 digits) 1st satellite's azimuth (000 to 359˚ true) (fixed length with 3 digits) 1st satellite's SNR (C/No) (00 to 99 dB) (fixed length with 2 digits) 2nd satellite's data (same procedure as 4 to 7) 3nd satellite's data (same procedure as 4 to 7) 4nd satellite's data (same procedure as 4 to 7) Checksum DTM (Datum reference) $GPDTM, ccc, a,,,,,,ccc*hh 1 1 2 3 4 2 3 4 : Local datum W84 - WGS84 W42 - WGS72 IHO - datum code ✽✽✽ - another datum number : Local datum subdivision code : Reference datum Null or W84-WGS84 : Checksum 113 JLR-10 GPS Compass GNS (GNSS fix data) $GPGNS, hhmmss, ddmm.mmmm, a, dddmm.mmmm, a, c, xx, xx, uxxxx, uxxxx, xx, xxxx*hh 1 1 2, 3 4, 5 6 : : : : 7 8 9 10 11 12 : : : : : : 2 3 4 1 2 3 4 5 114 : : : : : 6 7 8 9 10 UTC of position fix (Hour, Minute, Second) Latitude (Degree, Minute), N/S Longitude (Degree, Minute), E/W GPS quality indicator 0 = GPS No Fix 1 = GPS Fix 2 = Differential GPS Fix Number of satellites in use for position fix Horizontal dilution of precision (HDOP) (0 to 20) Antenna altitude above/below mean-sea-level (m) u : sigh (+, –) Geoidal height (m) Age of Differential GPS data (null field when DGPS is not used) Differential reference station ID (0000 to 1023) ZDA (Time and data) $GPZDA, hhmmss, xx, xx, xxxx,, *hh 1 5 2 3 4 5 UTC time (Hour, Minute, Second) DAY (UTC) (01 to 31) Month (UTC) (01 to 12) Year (UTC) Checksum 11 12 13 JLR-10 GPS Compass ● Data output from Display Unit (1) NMEA0183 output sentences RMC : Recommended minimum specific GPS data. RMB : Recommended minimum navigation information. APB : Autopilot sentence “B”. BWC : Bearing and distance to waypoint. GLL : Geographic position - Latitude/Longitude. GGA : GPS fix data. VTG : Course over ground and ground speed. HDT : True bearing of ship heading (2) Output timing 2 seconds interval (3) Serial format Baud rate Data bits Parity Start bit Stop bit : 4800 bps : 8 bits : None : 1 bit : 1 bit (4) Data format RMC (Recommended minimum specific GPS data) $GPRMC,hhmmss,A,ddmm.mmm,a,dddmm.mmm,a,xx.x,xxx,xxxxxx,xx,a*hh 1 2 3 4 5 6 7 8 9 10 11 12 1 2 : UTC of position fix (Hour, Minute, Second) : Data status A = valid V = invalid 3, 4 : Latitude (Degree, Minute), N/S 5, 6 : Longitude (Degree, Minute), E/W 7 : Speed over ground (knot) 8 : Course over ground, degrees True 9 : Date : Day, Month, Year (UTC) 10, 11 : Magnetic variation, E/W 12 : Checksum 115 JLR-10 GPS Compass RMB (Recommended minimum navigation information) $GPRMB,A,x.xx,a,cccc,cccc,llll.ll,a,yyyyy.yy,a,xxx.x,xxx,uxx.x,A*hh 1 1 2 3 4 5 6, 7 8, 9 10 11 12 13 14 2 3 4 5 6 7 8 9 10 11 : Data status A = valid V = invalid : Cross track error (NM) : Direction to steer L = left R = right : Origin waypoint ID : Destination waypoint ID : Destination waypoint latitude, N/S : Destination waypoint latitude, E/W : Range to destination (NM) : Bearing to destination, degree true : Destination closing velocity (knot) : Arrival status A = Arrival circle entered V = not entered/passed : Checksum APB (Autopilot sentence “B”) $GPAPB,A,,x.xx,a,N,A,,xxx,a,cccc,xxx,a,,*hh 1 1 2 3 4 5 6, 7 8 9, 10 11 116 2 3 4 5 6 7 8 9 10 11 : Data status A = valid V = invalid : Magnitude of XTE (cross-track-error) : Direction to steer L = left R = right : XTE units (NM) : Arrival status A = Arrival circle entered V = not entered/passed : Bearing origin to distination M = Magnetic T = True : Destination waypoint ID : Bearing, present position to destination M = Magnetic T = True : Checksum 12 13 14 JLR-10 GPS Compass BWC (Bearing and distance to waypoint) $GPBWC,hhmmss,llll.ll,a,yyyyy.yy,a,xxx,T,xxx,M,xxx.x,N,cccc*hh 1 1 2, 3 4, 5 6, 7 8, 9 10, 11 12 13 : : : : : : : : 2 3 4 5 6 7 8 9 10 11 12 13 UTC of position fix (Hour, Minute, Second) Waypoint latitude, N/S Waypoint longitude, E/W Bearing, degrees true Bearing, degrees magnetic Distance (NM) Waypoint ID Checksum GLL (Geographic position - Latitude/Longitude) $GPGLL,ddmm.mmm,a,dddmm.mmm,a,hhmmss,A*hh 1 1, 2 3, 4 5 6 7 2 3 4 5 6 7 : : : : Latitude (Degree, Minute), N/S Longitude (Degree, Minute), E/W UTC of position fix (Hour, minute, Second) Data status A = valid V = invalid : Checksum GGA (GPS fix data) $GPGGA,hhmmss,ddmm.mmm,a,dddmm.mmm,a,x,x,xx,uxxxx,M,,M,,*hh 1 1 2, 3 4, 5 6 : : : : 7 8 9, 10 11 : : : : 2 3 4 5 6 7 8 9 10 11 UTC of position fix (Hour, Minute, Second) Latitude (Degree, Minute), N/S Longitude (Degree, Minute), E/W GPS quality indicator 0 = GPS No Fix 1 = GPS Fix 2 = Differential GPS Fix Number of statellites in use for position fix Horizontal dilution of precision (HDOP) Antenna altitude above/below mean-sea-level (m) u : sign Checksum 117 JLR-10 GPS Compass VTG (Course over ground and ground speed) $GPVTG,xxx,T,xxx,M,xx.x,N,,*hh 1 1, 2 3, 4 5, 6 7 2 : : : : 3 4 5 6 7 Course, degree true Course, degree Magnetic Speed (knots) Checksum HDT (True bearing of ship's heading) $GPHDT,xxx.x,T*hh 1 1 2 118 2 : True bearing (0 to 359.9˚) : Check sum JLR-10 GPS Compass Appendix 5 Waypoint/Route Plan Data In/Output Serial format Baud rate Data bits Parity Start bit Stop bit : : : : : 4800 bps 8 bits None 1 bit 1 bit Waypoint data I/O $PJWPL,llll.lll,a,yyyyy.yyy,a,ccc*hh 1 2 1, 2 3, 4 5 6 Example 3 : : : : : 4 5 6 Latitude (Degree, Minute) Longitude (Degree, Minute) Waypoint number Checksum $PJWPL,3543.501,N,13934.020,E,001*7D $PJWPL,3543.324,N,13933.786,E,002*7O : : Route plan data I/O $PJRTE,xxx,xxx,a,ccc,ccc,------------------,ccc*hh 1 2 1 2 3 4 5 6 Example 3 : : : : : : : 4 5 5 6 Total number of ROUTE messages ROUTE message serial number Message mode C Route plan number Waypoint number of route plan Checksum $PJRTE,003,001,C,001,001,002,003,004,005,006,007,008,009,010,011,012,013,014*2E $PJRTE,003,002,C,001,015,016,017,018,019,020,021,022,023,024,025,026,027,028*27 $PJRTE,003,003,C,001,029,030,031,032,033,034,035,036,037,038*28 $PJRTE,001,001,C,002,001,005,007*37 : : 119 JLR-10 GPS Compass Appendix 6 Waypoint List Waypoint No. 120 Waypoint name Remarks JLR-10 GPS Compass Waypoint No. Waypoint name Remarks 121 JLR-10 GPS Compass INDEX A Adjusting Contrast and Backlighting .................... 66 After-sale Services ............................................... 94 Antenna alarms .................................................. 107 Antenna ................................................................ 18 Appearance of the Equipment ............................... 5 Assembling Method of the Antenna ..................... 24 B Basic Menu Selection Operations ....................... 64 Bearing alarms ................................................... 107 Before Commencing the Equipment Operation ..... 2 Disposal of the Equipment ................................... 95 Disposal of the Used Battery ............................... 95 Disposal ............................................................... 95 E Editing Route Plan ............................................... 84 Editing Waypoint Lists .......................................... 78 Entering Current Position as a Waypoint [EVENT] ....................................................... 72 Entering Waypoints .............................................. 77 Entering, Copying and Measuring Waypoints ...... 80 Equipment Overview ............................................ 11 Erasing Route Plans ............................................ 85 Error message ................................................... 105 C Cable Connection of the Attached Connector (N-P-5-2) .................................................... 103 CDI Display Mode ................................................ 59 Checks before the Connection ............................ 48 Checks before the Navigation .............................. 48 Choosing the Location ......................................... 23 Choosing the Location ......................................... 33 Configuration ........................................................ 13 Confirmation after Installation .............................. 41 Connection of the Antenna Cable ........................ 37 Connection of the DGPS Beacon Receiver ......... 45 Connection of the DGPS Receiver ...................... 46 Connection of the Display Unit Cable .................. 38 Connection of the Equipment .............................. 36 Connection of the GPS Repecon ........................ 43 Connection of the Grounding Line ....................... 37 Connection of the Optional Equipment ................ 43 Connection of the Other Equipment .................... 47 Connection of the Power Supply Cable ............... 36 Connection of the Radar Cable ........................... 40 Construction ......................................................... 14 D Data output from Display Unit ............................ 115 Data output from Processing Unit ...................... 110 Data Output ........................................................ 110 Display Unit .......................................................... 20 122 F Features ............................................................... 12 Foreword ................................................................ 1 Functions ............................................................. 11 G General System Diagram .................................... 17 Geodetic System Tables .................................... 108 H HEADING Display Mode ...................................... 54 I Initializing GPS .................................................... 87 Installation Method of the Antenna ...................... 26 Installation of the Antenna ................................... 23 Installation of the Display Unit ............................. 33 Installation of the Processing Unit ....................... 28 Installation on the Floor ....................................... 28 Installation on the Wall ......................................... 30 Installation toward the Side .................................. 32 Installation ............................................................ 23 JLR-10 GPS Compass K R Key Terms .............................................................. 9 Rear Panel of the Display Unit ............................. 22 ROUTE Display Mode .......................................... 61 L List of Offices ...................................... (Back Cover) S Operation message ........................................... 106 Operation Panel of the Display Unit ..................... 20 Operation ............................................................. 49 Optional Unit ........................................................ 98 Overview .............................................................. 49 Selecting Display Language ................................ 51 Selecting the Output Format of Heading Data .... 67 Setting Alarms (Arrival/Anchor/Off-course/DGPS) ............... 68 Setting CDI Range and Display Time Format ...... 76 Setting DGPS Beacon ......................................... 88 Setting GPS Information ...................................... 86 Setting Navigation Display Modes and Units ....... 75 Setting Output Level and Transmitting/Receiving Memory Data ................................................ 89 Setting Plotting Information ................................. 76 Setting Position Fix Mode and Averaging for GPS ......................................................... 86 Setting Route Plans ............................................. 82 Setting the Heading ............................................. 66 Setting the Installation Direction of Processing Unit ........................................ 67 Sorting Waypoint Names ..................................... 82 Specifications ....................................................... 96 STATUS Display Mode ......................................... 62 Storing Waypoints ................................................ 78 Summary of DGPS Beacon Receiver .................. 99 Summary of DGPS Receiver ............................. 100 Summary of GPS Repecon ................................. 98 Summary of NMEA Cable .................................. 102 Summary of OPTION Cable .............................. 101 Switching between Main Display Modes ............. 52 P T Performing Master Reset ..................................... 91 PLOT Display Mode and Setting the Plot Scale .. 60 Position Correction/Geodetic System Correction/ Magnetic Compass Correction ..................... 73 POSITION Display Mode ..................................... 58 Precautions Upon Equipment Operation ............... 3 Processing Unit .................................................... 19 Turning the Unit ON/OFF ..................................... 50 M Main Display Modes ............................................. 54 Maintenance and Inspection ................................ 92 Making a Route Plan ........................................... 83 Man-Over-Board Mode [MOB] ............................. 73 Manually Setting the Heading .............................. 66 Measures for the Electromagnetic Interference ... 48 Measures for the Operating Environment ............ 93 Message List ...................................................... 105 Mounting the Unit ................................................. 34 N Names and Functions of Parts ............................ 18 Navigation according to Route Plans .................. 71 Navigation alarms .............................................. 105 NAVIGATION Display Mode ................................. 58 Navigation Using Direct Route [GOTO] ............... 70 O W WAYPOINT Display Mode ................................... 61 Waypoint List ...................................................... 120 Waypoint/Route Plan Data In/Output ................. 119 123 Main Office & Plants ●Main Office Akasaka Twin Tower(Main) 17-22,Akasaka 2-chome, Minato-ku,Tokyo 107-8432 JAPAN Maritime Sales Department Phone:+81-3-3584-8833 Fax  :+81-3-3584-8757 International Business Department Phone:+81-3-3584-8836 Fax  :+81-3-3584-8878 Communications Equipmennt Marketinng Department Phone:+81-3-3584-8845 Fax  :+81-3-3584-8879 Overseas Subsidiaries ●JRC (UK) Limited 136, 1st Floor, Friars House, 157/168 Blackfriars Road, London SE18 EZ, U.K. Phone:+44-20-7261-1188 Fax  :+44-20-7803-0996 Overseas Branch Offices ●U.S.A. U.S.A. Japan Radio Co.,Ltd./Seattle Branch 1011 SW Klickitat Way Bldg.B, Suite 100 Seattle, WA 98134 U. S. A. Phone:+1-206-654-5644 Fax  :+1-206-654-7030 Overseas Liaison & Service Offices ●U.S.A. U.S.A. Japan Radio Co.,Ltd. Nisshin foods Building, Suite 208 2125 Center Avenue, Fort lee N. J. 07024, U. S. A. Phone:+1-201-242-1822 Fax  :+1-201-242-1885 ●Indonesia Japan Radio Co.,Ltd. GRAHA SURYA INTERNUS 7th F1. (suite 703A) J1. H.R. Rasuna Said Kav. X-O. Jakarta 12950, INDONESIA Phone:+62-21-527-3010 Fax  :+62-21-527-3013 ●Philippines Japan Radio Co.,Ltd. 2320 Taft Avenue Malate,Manila PHILIPPINES Phone:+63-2-524-8565・525-3589 Fax  :+63-2-521-5049 ●Thailand Japan Radio Co.,Ltd. Charturong Arphon Building 457 Phra Sumaru Street Bangkok 10200 THAILAND Phone/Fax:+66-2-280-0401 ●India Japan Radio Co.,Ltd. Best Western Surya Hotel, Business Centre New Friends Colony, New Delhi 110065, INDIA Phone: +91-11-691-9294・691-9297 Fax  : +91-11-691-9305 Overseas Service Center ●Mitaka Plant 1-1,Shimorenjaku 5-chome,Mitaka Tokyo 181-8510 JAPAN Phone:+81-422-45-9111 Fax  :+81-422-45-9110 ●Taiwan Japan Radio Co.,Ltd. 7F No.146,Sung Chiang Road Taipei TAIWAN Phone:+886-2-2571-3100 Fax  :+886-2-2571-2999 ●Spain Japan Radio Co.,Ltd. Calle Luis Doreste Silva, 50-1-B De Las Palmas De Gran Canaria SPAIN Phone:+34-928-290076 Fax  :+34-928-293755 ●Singapore Japan Radio Co.,Ltd. c/o CODAR(PTE.)LTD. 315 Outram Road #11-06/07 Tan Boon Liat Building Singapore 169074 SINGAPORE Phone:+65-2229190 Fax  :+65-2229398 ●Greece Japan Radio Co.,Ltd. 57, Akti Miaouli Piraeus GREECE Phone: +30-1-429-3304・429-3305 Fax  : +30-1-429-3306 ●Korea Japan Radio Co.,Ltd. Room 202, Whadong Bldg. 84-18, 4-GA Chungang-Dong, Chung-Ku, Pusan, KOREA Phone: +82-51-441-0035 Fax  : +82-51-464-0695    ●Netherlands Japan Radio Co.,Ltd. Cessnalaan 40-42,1119NL Schiphol-Rijk THE NETHERLANDS Phone:+31-20-658-0750 Fax  :+31-20-658-0755 00.12