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Solid State Heading Sensor (SSHS) Owner’s Manual

2

INSTALLATION

Choosing a Mounting Location

The selection of a suitable mounting location is vital to the optimal performance of the Solid 
State Heading Sensor. The mounting location and orientation of the SSHS should be:

1.

Level with the Earth’s Horizontal Plane –

 Although the SSHS can be calibrated in the 

vessel to compensate for pitch and roll installation-offset, it is best to mount the 
compass as level as possible to maximize its pitch and roll operational range.

2.

Oriented with Arrow Pointing to Bow Parallel to Vessel Centerline – 

Although the 

SSHS can be calibrated in the vessel to compensate for heading installation-offset, it is 
best to mount the compass pointed towards the bow and parallel to the vessel 
centerline.

3.

Near the Center of Gravity (CG) of the Vessel –

 The compass experiences the least 

amount of movement when located at the CG, which allows the most accurate 
readings. This is similar to a traditional card / needle compass, where the farther the 
compass is from the CG, then the more the fluid sloshes around, making accurate 
readings more difficult.

4.

Away from Structures Containing Ferrous Metals –

 The earth’s lines of magnetic 

flux tend to become distorted in the vicinity of ferrous metals, which can potentially 
cause errors in the compass’s indicated heading. The SSHS can be calibrated to 
compensate for these errors, but it is still best to minimize errors by placing the 
compass as far away from ferrous metals as is practical.

5.

Away from Magnetic Field Sources –

 Power or ignition cables, electric motors, and 

other electronic equipment can create magnetic fields. The earth’s lines of magnetic flux 
tend to become distorted in the vicinity of magnetic field sources, which can potentially 
cause errors in the compass’s indicated heading. Magnetic fields tend to fluctuate as 
power is switched on and off, which makes compensation impractical. Therefore, try to 
mount the compass as far from these magnetic field sources as is possible.

Tip: Doubling the distance between a magnetic field source and the compass 

will 

reduce the field strength by a factor of approximately 

8

. Also, always observe any 

“compass-safe distance” markings on other electronic equipment.

6.

In a Location with Minimal Vibration –

 Although the SSHS is more tolerant of 

vibration than a fluxgate compass, it is best to mount the compass in a location free of 
vibration as opposed to a location with vibration.

Содержание Nobeltec Solid State Heading Sensor

Страница 1: ...www nobeltec com Nobeltec Owner s Manual Solid State Heading Sensor SSHS RAHSU00001 rev 03 07...

Страница 2: ......

Страница 3: ...Always consult your ship s wiring schematics The Nobeltec Solid State Heading Sensor has an International Protection IP code of IP67 and has a water ingress protection against the effects of temporary...

Страница 4: ...Solid State Heading Sensor SSHS Owner s Manual ii...

Страница 5: ...Turn Damping Period Selection by NMEA 0183 Interface 14 Rate of Turn Zeroing 14 PERIODIC MAINTENANCE 15 TROUBLESHOOTING 16 TECHNICAL SPECIFICATIONS 17 Specifications 17 Certifications 17 Electrical 20...

Страница 6: ...Solid State Heading Sensor SSHS Owner s Manual ii...

Страница 7: ...ithin a rugged compact case that protects against harsh marine environments Nobeltec s SSHS is designed to be virtually maintenance free and easy to install However marine electronic equipment cannot...

Страница 8: ...way from Structures Containing Ferrous Metals The earth s lines of magnetic flux tend to become distorted in the vicinity of ferrous metals which can potentially cause errors in the compass s indicate...

Страница 9: ...e The printing process may have distorted the dimensions Please check dimensions before using the following diagrams as templates for drilling the mounting holes Figure 1 Vertical Mounting Surface Tem...

Страница 10: ...l Surface Mounting the SSHS compass to a vertical surface requires that the provided mounting brackets be fastened to the side of the SSHS using the provided brass flat head screws Once the mounting b...

Страница 11: ...nting brackets be fastened to the bottom of the SSHS using the provided brass flat head screws Once the mounting brackets are securely fastened to the bottom of the SSHS attach the SSHS securely to th...

Страница 12: ...gure 5 NMEA 2000 NMEA 0183 Interface Connector Locations Connecting to an NMEA 0183 Interface The SSHS connects to an NMEA 0183 interface through an eight pin male connector using the 10 meter NMEA 01...

Страница 13: ...igure 7 Ensure that the cable is connected securely and that the collar on the cable connector is firmly tightened Connect the other male end of the cable to the NMEA 2000 network in the same manner T...

Страница 14: ...r the NMEA 2000 interface as of this printing The SSHS can be simultaneously connected to both an NMEA 2000 network and an NMEA 0183 network providing that power is supplied only through the NMEA 2000...

Страница 15: ...e procedures Method 1 Automatically at Power Up see Page 14 Method 2 Through the NMEA 0183 Interface see Appendix A Method 3 Through the NMEA 2000 Interface see Appendix B Method 1 is automatic when p...

Страница 16: ...that the SSHS successfully completed a deviation calibration is to observe three or more Course Over Ground COG readings directly from your GPS device or through your Nobeltec Navigation Software and...

Страница 17: ...2000 interface 3 Through manual variation entry Normally the SSHS will automatically use variation from either the NMEA 0183 or NMEA 2000 interface However you can force the SSHS to use variation from...

Страница 18: ...lly looks for variation data coming from the NMEA 2000 interface The SSHS accepts variation data from the Magnetic Variation PGN 127258 If the SSHS receives variation information from the NMEA 2000 in...

Страница 19: ...user to adjust variation with changes in position Variation Source Selection As shipped from the factory the SSHS automatically looks for variation from both the NMEA 0183 and NMEA 2000 interfaces If...

Страница 20: ...tion may be zeroed to correct for any temperature induced offset The SSHS can be programmed with different damping periods and have the rate of turn indication zeroed using the NMEA 0183 Interface See...

Страница 21: ...on the Solid State Heading Sensor as such cleaners may remove markings or corrode the compass enclosure or seals Ensure the unit is mounted securely and cannot be moved relative to the mounting surfac...

Страница 22: ...noperative Please do not open the SSHS as this will automatically void the warranty If service is required please return the unit to an authorized Jeppesen Marine service location see Page 38 Symptom...

Страница 23: ...Initiated through Interfaces Pitch and Roll Range 1 45 Pitch and Roll 15 C to 35 C Rate of Turn Range 0 90 per Second Rate of Turn Accuracy 1 per Second 0 Pitch and Roll 15 C to 35 C Parameter Parame...

Страница 24: ...18 Protocol PGNs 059392 ISO Acknowledge N A 059904 ISO Request N A 060416 ISO Transport Protocol Connection Management N A 060160 ISO Transport Protocol Data Transfer N A 060928 ISO Address Claim N A...

Страница 25: ...iation 10 Times Second HDM Heading Magnetic Not normally transmitted see Appendix A N A HDT Heading True Not normally transmitted see Appendix A N A ROT Rate of Turn 5 Times Second PMAROUT Manufacture...

Страница 26: ...or bulkhead Parameter Value IEC 60954 Classification Exposed Degree of Protection IP67 Operating Temperature 25 C to 55 C Storage Temperature 40 C to 70 C Relative Humidity 93 RH 40 per IEC60945 8 2...

Страница 27: ...TECHNICAL SPECIFICATIONS Jeppesen Marine 21 Safety Precautions Dangerous Voltage Electromagnetic Radio Frequency per IEC 60945 12...

Страница 28: ...Solid State Heading Sensor SSHS Owner s Manual 22...

Страница 29: ...heading sensor including deviation in tenths of degrees B Deviation always reads 0 0 because it the deviation value is included in field A C Although this field reads as E this value is meaningless a...

Страница 30: ...Manufacturer s Proprietary Output Sentence Since there is no standard NMEA 0183 sentence for indicating the vessel s attitude pitch and roll the SSHS uses a proprietary sentence to indicate pitch and...

Страница 31: ...5 Deviation Calibration Turning Too Slow During calibration the vessel must not turn too slowly where the SSHS is unable to reliably develop deviation data If the SSHS senses the vessel turning to slo...

Страница 32: ...s for transmission of the HDG and HDT sentences The SSHS uses an aging technique referred to as Variation Lifetime where variation data is output in the HDG and HDT sentences for a period of 5 seconds...

Страница 33: ...current or known heading is 177 0 then a value of 1770 should be programmed PMAREXE SSHS 5D 0 variation CR LF This command causes the SSHS to use a manual entry for variation variation is programmed u...

Страница 34: ...for these sentences and the Variation Lifetime see RMC on Page 26 and VTG on Page 27 can be programmed using this sentence PMARSETPX SSHS A B hh CR LF Field A Identifier code identifies the sentence o...

Страница 35: ...0183 initiated deviation calibration is accomplished by turning the vessel through at least 3 complete circles after the SSHS receives a manufacturer s proprietary NMEA 0183 sentence The procedure is...

Страница 36: ...rietary NMEA0183 sentence to the SSHS PMAREXE SSHS FD 1 CR LF 7 Proceed to Installation Offset Correction SSHS NMEA 0183 Installation Offset Correction Installation offset correction can be performed...

Страница 37: ...d at slightly different times 2 Heading Sensor Reading This field is used to report the vessel s heading and includes deviation assuming a deviation table has been successfully loaded through the magn...

Страница 38: ...c Variation The SSHS may or may not periodically transmit this PGN depending on whether or not it has been programmed with the local magnetic variation Programming the magnetic variation through a Nob...

Страница 39: ...e of the values from the following table see Table 5 Status Code Message Name Description 01 Deviation Calibration Started This message is transmitted at the beginning of the magnetic deviation calibr...

Страница 40: ...7 Nobeltec Vendor ID and Industry Code 16 bits set this field s value to 0x9889 8 Number of Second Commanded Parameter 8 bits set this field s value to 0x02 9 Product Code 16 bits set this field s va...

Страница 41: ...rved field of this size 5 Number of Pairs of Commanded Parameters to Follow 8 bits set this field s value to 0x4 indicating that four parameters will follow 6 Number of First Commanded Parameter 8 bit...

Страница 42: ...MEA 2000 initiated deviation calibration is accomplished by turning the vessel through at least 3 complete circles after the SSHS receives a Manufacturer s proprietary NMEA 2000 PGN The procedure is a...

Страница 43: ...rors Jeppesen Marine does not warrant the accuracy of such information and you are advised that errors in such information may cause the Nobeltec Solid State Heading Sensor to malfunction or give inco...

Страница 44: ...lation physical damage abuse tampering lightning or other abnormal electrical discharge or to units with defaced or altered serial numbers or to units repaired by unauthorized persons or repaired in a...

Страница 45: ...INE Return your product to Jeppesen Marine ONLY if you cannot receive service from your original dealer as described in Step 2 GETTING SERVICE on this page From North America only A Contact Jeppesen M...

Страница 46: ...ical or editorial errors or omissions contained herein nor for incidental or consequential damages resulting from furnishing this material or the performance or use of this product Jeppesen Marine res...

Страница 47: ...APPENDIX B NMEA 2000 INTERFACING Jeppesen Marine 41...

Страница 48: ...beltec com Support WEBSITE www nobeltec com Printed in USA Press Date March 2007 2007 Jeppesen Marine Inc All rights reserved Part RAHSU00001 Customer Support Phone Numbers North America 800 732 2800...

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