Furuno SATELLITE COMPASS SC-33 Operator's Manual
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Furuno SATELLITE COMPASS SC-33 Operator's Manual

Furuno SATELLITE COMPASS SC-33 Operator's Manual

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OPERATOR'S MANUAL
SATELLITE COMPASS
TM
SC-33
Model

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Summary of Contents for Furuno SATELLITE COMPASS SC-33

  • Page 1 OPERATOR'S MANUAL SATELLITE COMPASS SC-33 Model...
  • Page 2 How to discard a used battery Some FURUNO products have a battery(ies). To see if your product has a battery, see the chapter on Maintenance. If a battery is used, tape the + and - terminals of the battery before disposal to pre- vent fire, heat generation caused by short circuit.
  • Page 3 The voltage rating appears on the inlet of power. A warning label is attached to the equipment. Do not remove the label. If the label is missing or illegible, contact a FURUNO agent or dealer CAUTION about replacement. Observe the following compass safe...

  • Page 4: Table Of Contents

    TABLE OF CONTENTS FOREWORD ........................iv SYSTEM CONFIGURATION ..................vi MOUNTING ....................... 1 1.1 Equipment Lists ......................1 1.2 Mounting Considerations....................3 1.3 Mounting Procedure ......................8 WIRING ........................10 2.1 NMEA 2000 Network Connection................10 2.2 NMEA 0183 Network Connection................11 2.2.1 How to connect the Cable Assembly (FRU-NMEA-NFF-R15/30) ......11 2.2.2 How to connect the Cable Replacement Kit (OP20-50)........12 2.2.3 How to secure and waterproof the cable connections .........15 ADJUSTMENTS .....................

  • Page 5: Foreword

    Congratulations on your choice of the FURUNO SC-33 SATELLITE COMPASS™. We are confi- dent you will see why the FURUNO name has become synonymous with quality and reliability. Since 1948, FURUNO Electric Company has enjoyed an enviable reputation for quality marine electronics equipment.
  • Page 6 FOREWORD Program No. : 2051593-01.** APL : 2051594-01.** GNSS: 48505230** ** denotes minor modifications.

  • Page 7: System Configuration

    SYSTEM CONFIGURATION Connection with the NMEA2000 network SATELLITE COMPASS SC-33 Network Power Marine Instrument NavNet Series, etc,. Source Junction Box : Standard supply : Optional supply : Local supply Backbone* *: Termination resistors must be installed at both ends of the boackbone. Connection NMEA0183 connection with the IF-NMEASC SATELLITE COMPASS SC-33...

  • Page 8: Mounting

    MOUNTING Equipment Lists Standard supply Name Type Code No. Remarks SATELLITE SC-33 COMPASS™ Installation CP20-04400 000-035-094 For NavNet Series, etc,. Materials (Select) With cable FRU-NMEA-PMMFF-060 (6 m) and Installation materials CP20-04401 CP20-04410 000-035-095 For connecting IN-NMEASC, With cable FRU-NMEA-NFF-R15 (15 m) and Installation materials CP20-04401 CP20-04401 001-508-130...
  • Page 9 1. MOUNTING Optional supply Name Type Code No. Remarks Interface Unit IF-NMEASC See OME-72651-x attached to the Interface Unit. NMEA Data IF-NMEA2K2 Converter Cable Assembly FRU-NMEA-NFF-R15 001-507-080 For IF-NMEASC, 15m, φ6.7 FRU-NMEA-NFF-R30 001-507-090 For IF-NMEASC, 30m, φ6.7 Cable OP20-50 001-506-810 Replacement kit for SC-30 Conversion kit ?(MJ-A10SPF0015-xxxC)

  • Page 10: Mounting Considerations

    1. MOUNTING Mounting Considerations In addition to the considerations described in this section, keep the length of the SC-33 cable in mind when selecting a mounting location. General considerations Mount the SC-33 above radar mast As shown in the figure below, mount the SC-33 above a radar mast. This provides an unobstruct- ed path between the SC-33 and the satellite, regardless of vessel heading.
  • Page 11 1. MOUNTING Selecting the installation site The installation site must satisfy the four conditions described in this section. After choosing the site, determine installation height, following the procedure in the next section. CONDITION 1: Locate the SC-33 away from masts that might prevent reception of the GNSS signal •...
  • Page 12 1. MOUNTING CONDITION 3: Locate the SC-33 out of Inmarsat Separate the SC-33 from an Inmarsat Fleet Broadband Antenna by at least 3 m. SC-33 Satellite Compass Inmarsat Fleet Broadband Antenna More than 3 m Separation distance from Inmarsat Fleet Broadband Antenna CONDITION 4: Locate the SC-33 away from communication (VHF, etc.) antennas Separate the SC-33 as far as possible from communication antennas.
  • Page 13 1. MOUNTING Installation height After choosing the installation site, determine the installation height, considering composition of the deck and surrounding area. The deck is flat and metallic, or the area around the installation site is metallic • If metallic surface is wider than the area of the top view of the SC-33, install the SC-33 at least 800 mm above the deck.
  • Page 14 1. MOUNTING Installation examples for a pleasure boat No tuna tower Fixing holes should "surround" the sensor. Further, fix the mounting pole at a right angle. The recommended dimensions Fixing hole for the pole are: Sensor fixed to Diameter: more than φ80 mm a platform Length: less than 500 mm...

  • Page 15: Mounting Procedure

    1. MOUNTING Mounting Procedure Note 1: The bird-repellent fixtures (optional supply) can be attached to the antenna cover to pre- vent birds from landing on the cover. If it is more convenient to attach the bird-repellent fixtures before securing the antenna unit to the mounting location, do step 6 below before fixing the an- tenna unit.
  • Page 16 1. MOUNTING Note: Fasten the double nuts as Note: Fasten the double nuts as shown in the figure to the shown in the figure to the right. Use spanners with a right. Use spanners with a length of approx. 200 mm. length of approx.

  • Page 17: Wiring

    All the CAN bus devices can be incorporated into the CAN bus network. For detailed information about CAN bus wiring, see “Furuno CAN bus Network Design Guide” (Type: TIE-00170) on Tech-Net.

  • Page 18: Nmea 0183 Network Connection

    2. WIRING Guideline for Connecting Follow these guidelines when selecting a mounting location. • Where the cable connectors and CAN bus/NMEA2000 connectors are subjected to moisture or water spray, waterproof the connectors as shown below. 1. Wrap the connection point with a single layer of vinyl tape. 2.

  • Page 19: How To Connect The Cable Replacement Kit (Op20-50)

    2. WIRING 2.2.2 How to connect the Cable Replacement Kit (OP20-50) Use a waterproof relay box (JPBS06) to relay connection when connecting to the SC-33 with the MJ-A10SPF0015-150C/300C cable used in SC-30. 1) Unfasten four washer head screws on the top of the waterproof relay box to remove the cover. 2) Fabricate the MJ-A10SPF0015-150C/300C as follows.
  • Page 20 2. WIRING 3) Fabricate the FRU-NMEA-PFF-060 cable as follows. 1) On the end of the side without the FRU connector, cut into the one end part of the FRU connector. Expose inner vinyl sheath by approx. 40 mm. Be careful not to damage inner shield and cores.
  • Page 21 2. WIRING 4) Connect the cables to the waterproof relay box. Connect the CAN cable (FRU-NMEA-PFF-060) included to the cable replacement kit and the cable for SC-30 (MJ-A10SPF0015-150C/300C) to the internal terminal box. MJ-A10SPF0015-150C/300C MJ-A10SPF0015-150C/300C FRU-NMEA-PFF-060 FRU-NMEA-PFF-060 Waterproof Relay Box (JPBS06) Waterproof Relay Box (JPBS06) 5) Fit the rubber bush, ring and cap, in that order.

  • Page 22: How To Secure And Waterproof The Cable Connections

    2. WIRING 2.2.3 How to secure and waterproof the cable connections Cable connection for the waterproof relay box, whether exposed to weather or otherwise, should be waterproofed and secured after making the connection. 1) Wrap the cap with several layers of self-bonding tape (supplied), to reduce the height differ- ence between the cap and the box.

  • Page 23: Adjustments

    ADJUSTMENTS When the unit is powered, it is in a “cold start” state. There is no satellite data (almanac data) stored. In this state, the unit searches for, and stores, satellites to find its heading. This process takes approximately 90 seconds. If the heading is not found within 30 minutes, the antenna instal- lation location may not be suitable.

  • Page 24: Sensor] Menu

    3. ADJUSTMENTS Menu item Description GLONASS1 You can ignore satellites of the GLONASS system by specifying the sat- ellite number. A maximum of three satellites can be registered to be ig- GLONASS2 nored. GLONASS3 Note: When [GLONASS All] is set to [YES], the setting values for [GLON- ASS1] to [GLONASS3] are automatically changed to “0”.
  • Page 25 3. ADJUSTMENTS Menu item Description Air Temperature Offset the air temperature value. Note: The displayed temperature appears lower than the actual temperature immediately after the power is turned on. It takes approximately one hour for the equipment to display the correct temperature in a stable manner. Smoothing Set the time delay (smoothing) for ROT data output.

  • Page 26: Input/Output] Menu

    3. ADJUSTMENTS Menu item Description CALN-SPD-POSN Set the height for calculating the 3-axis speed. Enter the distance from the bot- Z (Height) tom of the ship to the position where you want to measure the ship’s speed. For example, enter the draft value when you want to measure the speed at draft position.

  • Page 27: System] Menu

    3. ADJUSTMENTS [System] Menu You can check the system information, perform the diagnostic test and restore the factory default from the [System] menu. Menu item Description System Information Main PCB Version of the Main board. Sub IMU PCB Version of the SUB IMU board. When the SUB IMU board is not installed, “- -”...

  • Page 28: Advanced Sensor Setting] Menu

    3. ADJUSTMENTS Menu item Description Sub IMU Rate Gyro Status X Test result for the gyro sensor on the SUB IMU board (OK or NG). X-axis, Y-axis and Z-axis test results are shown. When the Sub IMU Rate Gyro Status Y SUB IMU board is not installed, check result indicates “”- -”.
  • Page 29 3. ADJUSTMENTS Menu item Description Sub IMU X Offset* Adjusts the offset setting of the gyro sensor on the SUB IMU board. The setting values for X-axis, Y-axis and Z-axis can be adjustable. Sub IMU Y Offset* Sub IMU Z Offset* Accelerometer Main X Percent Shows the gain setting of the acceleration sensor on the MAIN...

  • Page 30: Nmea 2000 I/O Data

    Function used Furuno proprietary PGN. Name 126720 Variable Sensor Calibration Control Status 130817 FURUNO GNSS Control Status 130818 Heading & Attitude Sensor Control Status 130819 Motion Sensor Control Status 130833 Device Position and Ship Dimension Report 130834 Position of Speed Measurement...

  • Page 31: Output Data

    250 ms 130816 Self Test Report - Proprietary PGN - Output for Self Test Group Function received. 130817 Furuno GNSS Control Status Note 2 - Proprietary PGN 130818 Heading & Attitude Sensor Control Status Note 2 - Proprietary PGN 130819...
  • Page 32 4. NMEA 2000 I/O DATA Name Remarks 130822 Unit Division Code Note 2 - Proprietary PGN 130823 Blower Control Status Note 2 - Proprietary PGN 130826 Multi Sats in View 1000 ms - Proprietary PGN 130833 Device Position and Ship Dimension Report Note 2 - Proprietary PGN 130834...

  • Page 33: Maintenance, Troubleshooting

    MAINTENANCE, TROUBLE- SHOOTING This chapter provides the information for keeping your unit in good working order. NOTICE Do not apply paint, anti-corrosive sealant or contact spray to coating or plastic parts of the equipment. Those items contain organic solvents that can damage coating and plastic parts, especially plastic connectors.
  • Page 34 5. MAINTENANCE, TROUBLESHOOTING Symptom Possible cause and remedy Heading is not output. Check installation site; • Check for interfering objects near the antenna. • Check the installation site and mounting base for vibration. • Check for antenna of radar, radio equipment, etc. near the instal- lation site.

  • Page 35: Menu Tree

    APPENDIX 1 MENU TREE This manual provides the SC-33 setting menu that you can access from the compatible equip- ment. For the menu tree of the SC setting tool, see the operator’s manual provided with the SC setting tool (OME-72851). Menu Bold Italic: Default GNSS Setup...
  • Page 36 APPENDIX 1 MENU TREE PGN:129539 (GNSS DOPs) (0 to 2000 msec; 1000 msec) PGN:129540 (GNSS Sats in View) (0 to 2000 msec; 1000 msec) PGN:130310 (Environmental Parameters) (0 to 2000 msec; 500 msec) PGN:130312 (Temperature) (0 to 2000 msec; 2000 msec) PGN:130314 (Actual Pressure) (0 to 2000 msec;...
  • Page 37 APPENDIX 1 MENU TREE Advanced Sensor Rate Gyro Main X Percent Setting Main Y Percent Main Z Percent Main X Offset Main Y Offset Main Z Offset Sub IMU X Percent (-8.0 to 8.0 %; 0.0 %) Sub IMU Y Percent (-8.0 to 8.0 %; 0.0 %) Sub IMU Z Percent (-8.0 to 8.0 %;...

  • Page 38: What Is Sbas

    APPENDIX 2 WHAT IS SBAS? A satellite based augmentation system, or SBAS (Satellite Based Augmentation System), is an augmentation system that uses additional messages from satellite broadcasts to support regional and wide area augmentation. SBAS provides GPS signal corrections to SBAS users, for even bet- ter position accuracy, through the GPS error corrections that are widely broadcasted from the geo- stationary satellite.

  • Page 39: Specifications

    FURUNO SC-33 SPECIFICATIONS OF SATELLITE COMPASS SC-33 GENERAL Frequency L1 1575.42MHz (GPS/Galileo/QZSS), 1602.5625MHz (GLONASS) Tracking code C/A (GPS/QZSS), E1B (Galileo), L1OF (GLONASS) Attitude accuracy Heading/ Roll/ Pitch: 0.4° rms Follow-up 45°/sec Heave accuracy 30 cm Attitude setting time 90 s approx.
  • Page 43 26/Feb/2021 H.MAKI...

  • Page 44: Interconnection Diagram

    インターフェイスユニット INTERFACE UNIT IF-NMEASC サテライトコンパス SATELLITE COMPASS SC-33 NMEA FRU-NMEA-NFF-R15/30,15/30m,φ6.7 SHIELD TTYCSLA-1Q 0.8m 航法装置 TD-A NET_S アカ NET_S TD-B NET_C クロ NET_C NAV EQUIPMENT NET_H シロ NET_H (IEC61162-1) NET_L アオ NET_L NMEA ケーブル変換キット OP20-50 TTYCSLA-1Q CABLE ADAPTER 航法装置 TD-A TD-B NAV EQUIPMENT 防水中継ボックス...

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