KVH IndustriesメーカーG4の使用説明書/サービス説明書
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Satellite T elevision KVH T racV ision ® G4 technical manual • Installation • Configuration • Maintenance A Guide to T racV ision G4.
TVG4 _ TM_cover_540147_Rev .K 12 1 1 10 9 8 7 61 2 5 4 3 13 14 23 22 21 20 19 18 24 17 16 15 25 26 35 34 33 32 31 30 36 29 28 27 48 47 38 39 40 41 42 43 37 44 45 46 60 59 50 51 52 53 54 55 49 56 57 58.
GyroT rac Mode Menus Setup display type? Enter Next Return Setup data outputs? Yes Next Return Setup configuration? Yes Next Return Get Antenna status? Enter Next Return control antenna? Enter Next Re.
T racVision G4-HP T echnical Manual Addendum (ECO #7622) The following changes apply to Revision K of the T racV ision G4-HP T echnical Manual (KVH Part Number 54-0147). 5.3 T racVision G4 Field Replaceable Units T able 5-1 has been updated to show the new part number for the RF PCB.
T racVision G4-HP T echnical Manual Addendum Sky Mexico Customers Only (ECO #7247) The following changes apply to Revision K of the T racV ision G4-HP T echnical Manual (KVH Part Number 54-0147). Installed Satellites The Sky Mexico satellite TV service is broadcast via the P AS 9 satellite located at 58º W est longitude.
LNB “Skew” Adjustment Unlike most satellite TV signals in North America, which are circularly polarized, the P AS 9 signal is linearly polarized, which means it is transmitted in a certain orientation. Y our Sky Mexico- configured antenna is equipped with a special LNB that collects these linear signals.
Finding the Correct Skew for Y our Location Y ou can find the correct skew for your location by either: A. Querying the antenna (by entering commands via a laptop connection), or B. Finding your location on the P AS 9 skew map. Option A - Querying the Antenna T o find the correct skew , follow the steps below .
Option B - Using the P AS 9 Skew Map If you do not have a laptop, you can find the approximate skew for your location using the map below . When to Change the Skew In general, if your LNB’s skew is set to within ± 8º of the ideal skew for your location, the antenna should continue to provide good satellite TV reception.
Setting the Skew T o set your LNB to the proper skew , follow the steps below . 1. T urn off the power to the antenna. 2. Remove the radome and set it aside in a safe place. 3. Loosen the two wing screws securing the LNB within the choke feed, as shown in Figure 5.
T racVision G4-HP T echnical Manual Addendum (ECO #7243) The following changes apply to Revision K of the T racV ision G4-HP T echnical Manual (KVH Part Number 54-0147). “Instant On” Mode Default Setting Is OFF The default setting for Instant On Mode is now OFF , not ON.
1 54-0147 Addendum to Re v . K T racVision G4-HP T echnical Manual Addendum (ECO #7134) The following changes apply to Revision K of the T racV ision G4-HP T echnical Manual (KVH Part Number 54-0147). The “=TV” configuration command printed in the manual is incorrect.
T racV ision G4 T echnical Manual This manual provides detailed instr uctions on the proper installation, configuration, troubleshooting, and maintenance of the KVH T racV ision G4 system. Complete instructions on how to use the T racV ision G4 system is provided in the T racV ision G4 User ’ s Guide.
T racVision ® and KVH ® are registered trademarks of KVH Industries, Inc. GyroT rac ™ and T racNet ™ are trademarks of KVH Industries, Inc. DV B ® (Digital Video Broadcasting) is a registered trademark of the D VB Project. DIRECTV ® is a registered trademark of DIRECTV , Inc.
54-0147 i T able of Contents T able of Contents 1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 1.1 T racVision G4 System Overview . . . . . . . . . . . . . . . . . . . . .3 1.2 T racVision G4 Components . . . . . .
4 T roubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .91 4.1 T roubleshooting Matr ix . . . . . . . . . . . . . . . . . . . . . . . . . . . .93 4.2 Causes and Remedies f or Common Operational Issues . . . . . . . . . . . . . .
Introduction 54-0147 1 1 – Introduction This section provides a basic overview of the T racVision G4 system. It explains how the system works and describes the function of each component. Contents 1.1 T racVision G4 System Over view . . . . . . . . .
Introduction 54-0147 3 1.1 T racVision G4 System Over view A complete satellite TV system, illustrated in Figure 1-1, includes the T racV ision G4 antenna unit connected to the GyroT rac digital gyro-stabilized sensor , Advanced Digital Contr ol Unit (ADCU), an IRD (satellite TV receiver), and a television set.
54-0147 4 T racVision G4 T echnical Manual Satellite Librar y Y our T racV ision G4 includes a pre-pr ogrammed satellite library of North American and European satellite services. When configuring the T racV ision G4, you may choose a pair of satellites from the library to be active in the system and with your IRD.
1.2 T racVision G4 Components Y our T racV ision G4 system includes the following components: Antenna Unit The antenna unit houses the antenna positioning mechanism, low noise block (LNB), power supply , and control elements within a molded ABS radome.
1.3 Materials Provided With the T racVision G4 T able 1-3 lists the components and materials in the T racV ision G4 shipping carton. Component KVH P art No.
Installation 54-0147 7 2 – Installation This section explains how to install, configure, and test the T racVision G4 system. Follow the simple procedures in this section sequentially to ensure a safe and effective installation. Contents 2.1 Planning the Installation .
Installation 54-0147 9 2.1 Planning the Installation Who Should Install the T racVision G4 KVH recommends that a KVH-authorized technician install the T racV ision G4 system. Installers should have experience installing electronic equipment on a vessel.
• Power cable to connect the ADCU to ship’s power (T able 2-2 provides proper gauge and length specifications). Cable Length Cable Gauge to 50 ft (15 m) 14 A WG (1.
Pa r t Q ty . Tie-wrap scre w mount 6 T erminal str ip connectors 5 Sensor module to ADCU power wire f errite 1 #4-24 thread-f orming screws 4 Choosing Component Locations The major considerations in locating the T racV ision components are described below .
Choosing the Best Location for the T racVision Antenna There ar e several factors to consider when choosing the location for the T racV ision antenna. • Since the T racV ision antenna requires a clear view of the southern sky to receive satellite signals, the ideal antenna site has an unobstructed view of the horizon/satellite all around.
Radar Concerns The T racV ision antenna must be kept out of line with nearby radars, as their energy levels may overload the antenna’s fr ont- end circuits. In an ideal installation, the antenna is mounted four feet (1.2 m) above and four feet (1.2 m) away from the radar (measured fr om the center of the antenna dome to the center of the radar).
Choosing the Best Location for the GyroT rac Sensor • Ideally , the sensor module should be mounted as low as possible in the center of the vessel – but NOT in the bilge. • The mounting surface should be free of excessive vibration and flexing. • Maintain at least four feet (1.
2.2 Mounting the T racVision Antenna 1. Make sure that you have chosen a suitable mounting location based upon the guidelines in “ Choosing the Best Location for the T racV ision Antenna” on page 12 .
6. Remove and save the three scr ews securing the radome to the baseplate. Carefully lift the radome straight up until clear of the antenna assembly and set it aside in a safe place. If you bring the radome topside, be sure to secur e it with a lanyard so that it does not fall overboard.
10. Position the baseplate assembly in place over the mounting holes and cable access, with the baseplate’s “Forward” arr ow (shown in Figure 2-6) pointing toward the bow . Ensure that all holes line up and that the connectors are center ed over the cable access.
13. Place the antenna baseplate over the holes drilled in the foundation, ensuring the “Forward” label (shown in Figure 2-6) points towar d the bow . 14. At each of the four baseplate mounting holes, place a 1 ⁄ 4 " flat washer on a 1 ⁄ 4 "-20 bolt and insert the bolt into the hole from above, as shown in Figure 2-8.
Installation 54-0147 19 2.3 Mounting the GyroT rac Sensor GyroT rac comes with the following two mounting brackets: Horizontal Sensor Bracket Attaches directly to the sensor module housing and must be.
Option 1 - Mounting the Sensor to a Horizontal Surface 1. Choose a mounting location based upon the guidelines in “ Choosing the Best Location for the GyroT rac Sensor” on page 14 . 2. Orient the sensor so that the forward r eference on the end cap is pointed forward and is parallel to the vessel’s fore-and-aft axis (to ±5°).
Installation 54-0147 21 5. Insert #8 fiber washers into the mounting bracket’s four mounting holes on both sides of the mounting bracket (see Figure 2-12). 6. Insert #8 flat washers and #8 Phillips screws into the mounting bracket’s four mounting holes from above.
Option 2 - Mounting the Sensor to a Vertical Surface 1. Choose a mounting location based upon the guidelines in “ Choosing the Best Location for the GyroT rac Sensor” on page 14 .
6. Secure the vertical sensor bracket to the mounting surface with #8 Phillips screws and flat washers (see Figure 2-14). 7. Position the horizontal sensor bracket over the mounting holes in the vertical sensor bracket, as shown in Figure 2-13. 8. Insert fiber washers into both sides of the mounting brackets, as shown in Figure 2-15.
2.4 Mounting the ADCU Mount the ADCU using either of the following options: Option 1 - V elcro Fastening on a Horizontal Surface Option 2 - Flush-mounting The following sections describe how to mount the sensor for both of these options. Option 1 - Velcro Fastening on a Horizontal Surface 1.
Option 2 - Flush-mounting 1. Choose a location based upon the guidelines in “ Choosing the Best Location for the ADCU” on page 14. 2. A template has been provided in Appendix C on page 129 as a guide to mark and cut the proper hole for the flush mount bracket.
2.5 Connecting the IRD(s) For the T racV ision system to work, you must connect the following cables to your satellite TV receiver(s) (IRDs): • RF Cable • Ground W ire Connecting the RF Cable(s) Each RF cable must be an RG-1 1 (75 ohms) or RG-6 (75 ohms) cable fitted with F-type connectors.
Option 3 - Connecting Three or More IRDs (North American Systems only) T o connect three or four IRDs to the T racV ision antenna, you will need to install an active multiswitch (Channel Master model 6214IFD or equivalent) between the antenna and the IRDs.
Multiple Multiswitch Installation If you need to connect more than four IRDs to the T racV ision antenna, you may carry out a multiple multiswitch installation, as shown in Figure 2-19. Connecting the IRD Ground Wire A grounding wir e has been provided to connect your IRD to a suitable ground.
2.6 Wiring the ADCU All other wiring for the T racV ision system connects at the rear panel of the ADCU. Included in the GyroT rac kitpack are five terminal strip connectors with terminal connectors numbered 1 through 60 (see Figur e 2-20).
54-0147 30 T racVision G4 T echnical Manual 25 26 35 34 33 32 31 30 36 29 28 27 Ground TX3B(-) TX3A(+) Ground TX2B(-) TX2A(+) Data H Data L Ground Shift H Shift L Ground FUR UNO D ATA 13 14 23 22 21 2.
Tips for Safe and Successful Wiring • When inserting a wire into a terminal connector , make certain that the wire insulation is not pinched in the connector . • After inserting and securing wire, tug gently to ensure that the connection is solid.
Connecting the Antenna Power Cable For single-switch convenience, the ADCU has been designed to serve as a junction box between ship’s power and the antenna unit. Connect the antenna power cable to the red ADCU terminal strip connector as shown in Figure 2-23.
Connecting the GyroT rac Sensor Cable 1. Connect the connectorized end of the sensor cable to the GyroT rac sensor module. T wist until locked in place. 2. Connect the other end of the sensor cable to the blue ADCU terminal strip connector as shown in Figure 2-25.
Connecting External Devices to the ADCU (Optional) GyroT rac can be integrated with many types of onboard equipment, including autopilots, radars, remote displays, plotters, global positioning systems (GPS), and computers.
Connecting the Sine/Cosine Interface (Optional) The GyroT rac ADCU sine/cosine interface provides the following outputs: • sine • cosine • inverse sine • inverse cosine • refer ence voltage .
T o adjust the GyroT rac reference to match the r eference of the autopilot (or other system), connect a voltmeter to GyroT rac ADCU terminal (#8) and the refer ence terminal of the autopilot (or other system).
Connecting the ADCU to Vessel Power Short circuits may r esult in severe electrical shock or burns. T urn off vessel power and test the cir cuit to ensure that no power is present befor e connecting any power cables.
Connecting the T erminal Strip Connectors to the ADCU Now that you have connected all wires to the terminal strip connectors, insert the connectors into the ADCU’s rear panel as shown in Figure 2-29. Be sure to attach the terminal strip connectors in their correct positions, as shown in Figure 2-30.
Effective Strain Relief for ADCU T erminal Connections Due to both the potential number of wires that connect to the rear of the ADCU and the dynamic environment aboar d ship, it is critical that the terminal connections be properly strain-r elieved using tie-wraps (a number of which are included in the Gyr oT rac kitpack).
2.7 Calibrating the Sensor Every sensor module is calibrated at the factory in a perfect- world environment. However , hard and soft iron ef fects on your vessel can distort the local magnetic field, causing errors in the reported heading.
Installation 54-0147 41 The Calibration Score Each calibration results in a calibration scor e that is stored in the system’s memory . Accuracy (ACC) The ACC data indicates the degree of accuracy the GyroT rac will provide based on the quality of the last calibration.
54-0147 42 T racVision G4 T echnical Manual 2.8 Activating/Programming the IRD Before it can be used, your IRD (satellite r eceiver) must be activated and/or programmed, as described below . DIRECTV Activation KVH makes it easy to activate your DIRECTV IRD.
Installation 54-0147 43 Programming DSS Plus IRDs If you are using multiple DSS Plus IRDs and intend to shift fr om one satellite to another , only one of the IRDs can be configured as a two-satellite receiver . All other IRDs must be configur ed as one- satellite receivers.
54-0147 44 T racVision G4 T echnical Manual 2.9 Installing Satellites Using the ADCU The T racV ision G4 can track a variety of DVB-compatible and DIRECTV (DSS) satellites. The system contains a prepr ogrammed library of North American and European satellites.
Installation 54-0147 45 Installing Y our Selected Satellites T o install your selected satellites as Satellite A and B, follow the steps below . 1. Apply power to the ADCU. 2. Following the startup sequence, press the center button until the “Control Antenna?” screen appears.
54-0147 46 T racVision G4 T echnical Manual Proceed to "Setting Latitude and Longitude" Install Satellite? Yes Next Return Install A <SAT NAME> Yes Next Cancel Install B <SAT NAME&g.
Installation 54-0147 47 Programming User -defined Satellites The T racV ision G4 satellite library has the capacity for two user- defined satellites in case you want to track a satellite that is not currently pr eprogrammed in the library . User-defined satellites can only be configured via the ADCU’s maintenance port.
54-0147 48 T racVision G4 T echnical Manual Connecting a PC to the ADCU Maintenance Port T o program your user-defined satellites into the T racV ision G4 satellite library , you need to connect a PC to the ADCU’s maintenance port. This procedur e requires W indows Hyperterminal (or other terminal emulation software, such as PROCOMM).
Installation 54-0147 49 Entering User -defined Satellite Data T o configure your user-defined satellites, follow the steps below . 1. Using your PC’s terminal emulation program, type HAL T<cr> (<cr> indicates a carriage return/ENTER key) .
54-0147 50 T racVision G4 T echnical Manual 5. Repeat Step 4 for each of the following transponder categories: • vertical high • vertical low • horizontal high • horizontal low OR • right • left T racV ision G4 requires that the data fields for all transponder categories be provided.
Installation 54-0147 51 Installing User -defined Satellites via the Maintenance Port 1. T ype HAL T<cr> to put the antenna in Idle mode. 2. Enter the SA TINST ALL parser command: Command: SA TIN.
54-0147 52 T racVision G4 T echnical Manual An Example of Configuring a User -defined Satellite (N. America) The following is an example of configuring the fictional YOURSA T 123 as the USER1 configured satellite.
Installation 54-0147 53 An Example of Configuring a User -defined Satellite (Europe) The following is an example of configuring the fictional YOURSA T 123 as the USER1 configured satellite. Prior to configuring this satellite or any others, be certain to get the most up-to-date information from one of the sour ces previously discussed.
54-0147 54 T racVision G4 T echnical Manual 2.10 Setting the Skew Angle (European Systems Only) T o optimize channel reception, the antenna’s LNB skew angle must be adjusted. Refer to your satellite service provider for the proper skew angle for your selected satellite service and geographical location.
Installation 54-0147 55 2.11 Checking Out the System Now that you’ve installed the T racV ision G4, you need to verify that the system functions properly . Check the system startup routine to ensur e that the system is operating within normal parameters.
54-0147 56 T racVision G4 T echnical Manual 4. After completing the review of the startup and operational routines, turn on the IRD and television and check the channels on the selected satellites. For European systems, check both horizontally and vertically polarized channels, if possible.
Installation 54-0147 57 2.12 Changing Geographic Location If you move to a differ ent geographic area, you will need to modify your T racV ision G4 system to receive satellite TV signals in the new location. T o begin receiving satellite signals in the new area, perform the following steps.
Using the ADCU Interface 54-0147 59 3 – Using the ADCU Interface This section explains how to use all of the ADCU functions. Y ou will use the ADCU to operate, control, and monitor the T racVision G4 and GyroT rac. Contents 3.1 Startup and Self-test .
Using the ADCU Interface 54-0147 61 3.1 Startup and Self-test 1. T urn on the IRD and television. 2. If a GPS receiver is connected, ensur e that it has obtained an accurate position. 3. Apply operating power to the ADCU. 4. W ait while the system conducts a brief self-test sequence.
T racVision Startup and Self-test Screens When configured as a component of a T racV ision system, GyroT rac conducts a series of startup routines and self-tests to verify antenna operation.
3.2 Data Display and Accessing the Main Menu As soon as the self-test routine is completed, the LCD panel shows one of five data displays selected in the Display Setup Mode (described in Section 3.
Main Menu Pressing the center key will cycle the Main Menu thr ough the available functions as follows: 54-0147 64 T racVision G4 T echnical Manual Setup display type? Enter Next Return Magnetic Heading ###.
Alert Screens Certain operations requir e GyroT rac to temporarily cease its data output or alter its configuration so that new parameters or configurations may be entered. When you enter one of these functions, a pair of alert screens will appear , informing you of what will happen.
Antenna Error Messages At times, the ADCU will display error messages alerting you to a specific problem (e.g., you have selected an invalid satellite pair). There ar e also two general antenna error messages that are not related to a specific action.
3.3 Setup Display Mode The Setup Display mode selects the data that will be displayed on the ADCU LCD after startup and self-test; it does not control the data sent to remote heading display units, north-up radars, autopilots, etc.
3.4 Set Data Outputs Mode The Set Data Outputs function is used to select several types of data formats available from the Gyr oT rac. The message formats are as follows: • 1 sine/cosine (either 4-w.
Setting the Sine/Cosine Data Output The sine / cosine setup is done in three stages: first the magnetic or true heading option is selected, then the r eference voltage is set, and finally the swing voltage is set. The valid range for refer ence and swing voltages is between 0 and 6.
Setting the Serial Outputs The GyroT rac can output as many as three serial messages simultaneously in any combination of NMEA version 2.2, KVH RS-422, or Cetrek pr oprietary format. NMEA message options and the KVH and Cetrek formats ar e described briefly in Appendix G on page 145.
Setting the NMEA Outputs GyroT rac is fully compatible with NMEA input versions 1.5 and 2.2. However , the individual serial ports can only be programmed to use NMEA version 2.
Setting the Furuno Output This option selects two available options for the Furuno output: magnetic or true heading r eference and 25 millisecond or 200 millisecond data output rate.
3.5 Set Configuration Mode The Set Configuration function is used to set the display brightness, select an internal or external source for heading data, enter offset values that corr ect for mechanical mounting alignment errors, r eset the system to its factory defaults, and turn TV communications on/off.
Setting Display Brightness The ADCU display’s brightness may be adjusted to suit your prefer ences. Press the right key to make the display brighter , the left key to make it dimmer . When you are satisfied with the setting, press the center key to accept the setting.
Entering Gyro Offset Values The sensor module housing must be mounted as close to level in pitch and roll as possible, with its long axis parallel to the vessel’s centerline. Sometimes allowances must be made for the particular installation where pitch, r oll, and azimuth references cannot be met.
Choosing the Default Display This option resets the ADCU display settings to their factory defaults (i.e., compass, 50 percent brightness). Selecting T racVision or GyroT rac-only Operations GyroT rac’s factory default configuration is to operate as a stand- alone system (Antenna Comm: OFF).
3.6 Control Compass Mode These screens are only seen if heading reference is INTERNAL. The Control Compass function pr ovides control over the GyroT rac sensor module, including turning autocalibration on and off, r eading the calibration score, and manually clearing the compass calibration.
Reading the Calibration Score These screens are only seen if heading reference is INTERNAL. The calibration score should be checked during the installation process and whenever adjustments ar e made to vessel equipment that can affect the compass’ accuracy .
3.7 Antenna Status Mode These screens are only seen if Antenna Comm is turned ON. This sequence of steps allows a user to scan for system errors, access antenna type, version, and serial number information, check the signal and noise levels, indicate the skew angle, and display the bit error rate.
Antenna Status Data Screens These screens are only seen if Antenna Comm is turned ON. Figure 3-26 shows the information available thr ough the Get Antenna Status mode. The Skew Angle and Bit Error rates are only available when the GyroT rac ADCU is connected to a T racV ision G4.
3.8 Control Antenna Mode These screens are only seen if Antenna Comm is turned ON. This sequence of steps allows a user to adjust the antenna’s azimuth and elevation manually , restart the antenna, .
Manually Controlling the Antenna In certain circumstances, you may need to contr ol the azimuth, elevation, and tracking of the T racV ision G4 antenna manually , using the process shown in Figur e 3-28. Use the + and - keys to manually move the dish.
Restarting the Antenna After resetting satellite parameters, it is necessary to r estart the antenna before the new settings take ef fect. T urning Sleep Mode On/Off Sleep Mode turns off conical scan tracking if the antenna holds the same position for one minute.
Installing a New Satellite Pair These screens are only seen if the GyroT rac ADCU is connected to a T racVision G4. T racV ision G4 permits two satellite services (Satellites A and B) to be installed simultaneously . There is also an option for NONE on Satellite B, permitting single satellite operation.
Using the ADCU Interface 54-0147 85 T able 3-2 A vailable Satellite Pairs - Europe (European LNB r equired) T able 3-1 A vailable Satellite Pairs - North America (North American LNB requir ed) DSS_101.
Setting Latitude and Longitude These screens are only seen if the GyroT rac ADCU is connected to a T racVision G4. When installing a satellite pair , it is also necessary to enter the vessel’s latitude and longitude to ensure that the installed satellites are viewable as well as to permit the system to set several internal parameters.
Selecting Active Satellite These screens are only seen if the GyroT rac ADCU is connected to a T racVision G4. After installing the active pair of satellites, use the Select Satellite menu to choose which of the installed satellites will be active.
Updating Satellite Frequency Data If the antenna is unable to find a satellite, the satellite’s frequency data may have changed. The Satellite Frequency Scan featur e allows you to update the frequency data of any satellite stor ed in the system’s library .
Using the ADCU Interface 54-0147 89 Return to "Manually Controlling the Antenna" Sat frequency Scan? Yes Next Return Symbol Rate: XXXXX - Enter + Set FEC Code: X/X - Enter + Scan frequencies Please Wait Update frequency? YES NO Updating frequency Please wait Restart antenna? YES NO Use the -/+ ke ys to select each number .
T roubleshooting 54-0147 91 4 – T roubleshooting This section identifies basic trouble symptoms and lists their possible causes and solutions. Contents 4.1 T roubleshooting Matrix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .93 4.
T roubleshooting 54-0147 93 4.1 T roubleshooting Matrix The troubleshooting matrix shown in T able 4-1 identifies some trouble symptoms, their possible causes, and r eferences to troubleshooting solutions.
54-0147 94 T racVision G4 T echnical Manual 4.2 Causes and Remedies for Common Operational Issues There ar e a number of common issues that can affect the performance of the T racV ision G4. The following sections address these issues and potential solutions.
Incorrect Satellite Configuration (European Systems Only) The satellite configuration on European IRDs must match the satellite settings on the T racV ision G4 system. • Satellite A on the T racV ision G4 must be the same satellite as IRD Alternative 1 (or A, based on your IRD) and must be assigned the IRD DiSEqC 1 setting.
Satellite Frequency Data Changed If some channels work, while one or more other channels do not, or the antenna cannot find the satellite, the selected satellite’s frequency data may have changed. T o update this frequency data, refer to “Updating Satellite Fr equency Data” on page 88.
4.3 GyroT rac-specific Issues The GyroT rac is designed for reliable, easy use. This section provides a brief overview of some potential operational issues. Issue 1: System is installed correctly and power is available, but the system is non-functional.
Issue 4: There is no data output thr ough Serial Port #3. Solution: Serial Port #3 provides no output when Gyr oT rac is configured as a component within a Gyr oT rac-compatible T racV ision system. 4.4 IRD T roubleshooting The IRD that was provided with your satellite television service may also be the cause of less-than-ideal operation.
The diagnostics procedur e requires W indows Hyperterminal (or other terminal emulation software, such as PROCOMM). Use the settings appropriate to your application. 1. Connect one end of the PC data cable to the DB9 maintenance port connector on the rear of the ADCU.
Maintenance 54-0147 101 5 – Maintenance This section identifies system components that may be replaced in the field, details how to replace those components, and lists preventive maintenance routines. Contents 5.1 Warranty/Service Information . . . .
Maintenance 54-0147 103 5.1 W arranty/Ser vice Information For information on KVH warranty , repair , and liability policies, please refer to the complete warranty statement pr ovided at the conclusion of this manual.
54-0147 104 T racVision G4 T echnical Manual 5.3 T racVision G4 Field Replaceable Units The T racV ision G4 has been designed with durability and low maintenance in mind. If you experience an operating problem or otherwise requir e technical assistance, please contact your local authorized T racV ision G4 dealer/installer or distributor .
The antenna unit’s printed circuit boar ds (PCBs), gyro, LNB, elevation motor , and elevation drive belt may be removed and replaced on site using common hand tools. Other T racV ision G4 service must be done by your authorized dealer/installer , distributor or by KVH.
5.4 Replacing the Main PCB and Fuses The main PCB is protected by a cover fastened to the antenna support frame. This cover must be removed to gain access to the main PCB and fuses discussed in the following sections.
Replacing the Main PCB 1. W ith a PC connected to the ADCU’s maintenance port, apply power to the antenna unit. 2. Record the system serial number for later r e-entry (the serial number is listed at the beginning of the startup sequence, as shown in Appendix F on page 143 ).
54-0147 108 T racVision G4 T echnical Manual 6. Remove the nine #6-32 screws that secur e the PCB to the antenna frame (see Figure 5-4). 7. Remove the PCB from the antenna frame. 8. Reverse this process to install the r eplacement PCB. Reconnect all connectors removed in Step 5.
Maintenance 54-0147 109 Replacing a Fuse T wo 5x20 mm, 3.15-amp, 250-volt fast-blow fuses are mounted to the main PCB (see Figure 5-3 on page 107). If one of these fuses has blown or been broken, simply r emove the bad fuse and replace with a good fuse of the same rating.
3. Unplug the Molex connectors from the RF PCB (see Figure 5-6). 4. If the top RF cable is not already marked, label it so that the RF cables can later be plugged into the proper positions on the new PCB. 5. Using a 7 ⁄ 16 " wrench, car efully remove the two RF cables from the RF PCB.
5.6 Replacing the Antenna Gyro Assembly 1. Remove the main PCB cover , as described in “Removing the Main PCB Cover” on page 106 . 2. Remove the four Phillips screws, four washers, and the counterweight from the end of the antenna gyro (see Figur e 5-8).
6. Connect the new antenna gyro’s Molex connector to the main PCB. 7. Replace the antenna gyro gasket (see Figur e 5-8). 8. Using the standoffs and washers r emoved in Step 3, secure the new antenna gyr o to the reflector bracket. The antenna gyr o should be oriented so that the cable extends from the top of the gyro, as shown in Figur e 5-8.
9. T ype HAL T<cr> . 10. T ype DEBUGON<cr> . 1 1. T ype =LSTEST<cr> . 12. T ype EL,300<cr> . 13. T ype =CALGYRO<cr> . V erify that the Antenna Gyro Azimuth scale factor is between -0.00090 and -0.001 10 and the Antenna Gyro Elevation scale factor is between 0.
5.7 Replacing the Elevation Motor and Belt The elevation motor is mounted to the inside of the support frame. Machine screws and washers hold the drive motor in position to maintain proper tension on the toothed drive belt. Figure 5-9 shows the arrangement of motor , drive belt, and antenna pulley .
4. Loosen the screws and gently pr ess downward on the motor hub until the drive belt is at proper tension. Adjust the belt tension for a maximum of 1 ⁄ 8 " (3 mm) deflection with moderate finger pressur e between the motor and antenna pulley .
5.8 Replacing the LNB The LNB assembly receives power fr om the IRD via the RF PCB. Be certain that the IRD is turned off or disconnected fr om its power source befor e removing or reconnecting the LNB. Replacing a North American LNB 1. Using a 7 ⁄ 16 " wrench, car efully disconnect both RF connectors from the LNB.
Replacing a European LNB 1. Using a 7 ⁄ 16 " wrench, car efully disconnect the RF connectors from the LNB. 2. Note the currently set skew value, as indicated by the stickers on the LNB and choke assembly (see Figure 5-1 1). 3. Loosen the wing screws and r emove the LNB from the choke assembly as shown in Figure 5-12.
5.9 GyroT rac Field Replaceable Units GyroT rac has been designed with durability and low maintenance in mind. If you are experiencing an operating problem or otherwise r equire technical assistance, please contact your local KVH dealer or distributor .
5.10 Preparing for Shipment If you need to repack the antenna unit for shipment, the shipping restraints r emoved during installation must be replaced. Follow these steps to reinstall the r estraints. 1. Rotate the azimuth mechanism slowly to find the limit switch stop.
4. W ith the antenna reflector slightly elevated, slip the narrow end of the elevation shipping r estraint beneath the lip of the reflector . Gently wedge the restraint inside the baseplate as shown in Figure 5-15. 5. Pack the T racV ision G4 antenna unit in its original package.
Appendices 54-0147 121 Appendices This section contains several appendices of supplemental information, including mounting templates, wiring diagram, and parser commands. Contents Appendix A System Specifications . . . . . . . . . . . . . . . . . . . .
System Specifications 54-0147 123 Appendix A System Specifications A.1 Antenna Specifications Physical Characteristics Antenna Unit 21" (53 cm) h x 19.2" (49 cm) d; 30 lbs (13.6 kg) Exter nal Sensor 7.8" (19.8 cm) l x 5" (12.7 cm) w x 5" (12.
54-0147 124 T racVision G4 T echnical Manual A.2 GyroT rac Compass Specifications P erformance Data Accuracy ±3.0° peak; ±1.0° typical 1 Repeatability ±0.
Interface Data (Choice of 4 Simultaneous Outputs) NMEA 0183 ve r . 2.2: BWC Bearing, distance to wa ypoint GGA GPS fix data GLL GPS latitude, longitude HDG Stabiliz ed magnetic heading HDM Magnetic he.
Appendix B T racVision G4 Baseplate Mounting Holes T emplate A template for the four mounting holes is presented on the following page. T racVision G4 Baseplate Mounting Holes T emplate 54-0147 127.
Appendix B T racV ision G4 Baseplate Mounting Holes T emplate Drill 3/8" (10 mm) Bolt Hole 9" (229 mm) 3" (80 mm) Drill 3/8" (10 mm) Bolt Hole Drill 3/8" (10 mm) Bolt Hole Dri.
8.87" (225 mm) 7.62" (194 mm) .63" (16 mm) 3.08" (78 mm) 1.83" (46 mm) .63" (16 mm) 4x .19" (5 mm) Thr u 4x R .63" (16 mm) Appendix C ADCU Flush Mount Panel T e.
Comprehensive T racVision G4 System Wiring Diagram 54-0147 131 Appendix D Comprehensive T racVision G4 System Wiring Diagram The wiring diagram is presented on the following page.
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Optional Rotating Card Display 54-0147 135 Appendix E Optional Rotating Card Display The optional rotating car d display presents true or magnetic heading using a compass card r otating under a fixed lubber line, with user-selectable r ed or green backlighting.
54-0147 136 T racVision G4 T echnical Manual Option 2 - Flush Mounting 1. Using T emplate E-2, mark the cutout area in the mounting surface. Cut out the marked area and smooth the edges with a file. T est-fit the display unit in the cutout opening. 2.
Optional Rotating Card Display 54-0147 137 3. Refer to Figure E-3 below; connect the power and data wires to the terminal block as listed in T able E-1.
54-0147 138 T racVision G4 T echnical Manual 5. Check that the backplate gasket is in place. Return the power and data pigtail plugs to their respective PC boar d connectors. 6. Arrange the internal wiring before r eplacing and tightening the backplate screws.
Optional Rotating Card Display 54-0147 139 T emplate E-1 Rotating Card Display Bracket Mounting 6.02" (153 mm) 2.04" (52 mm) 3.43" (87 mm) 0.
Optional Rotating Card Display 54-0147 141 T emplate E-2 Rotating Card Display Panel Mounting 5.4" (137 mm).
Startup Data Sequences 54-0147 143 Appendix F Startup Data Sequences The data on the following pages presents a sample startup data sequence register ed by the T racV ision G4. These sequences may vary based on the software version loaded onto the T racV ision G4 system.
54-0147 144 T racVision G4 T echnical Manual *** Initializing Rate Bias *** RF: S,B,V,U,V A/D: 2134 2034 456 A/D: 2139 2016 425 RF: S,B,H,U,V A/D: 2125 1992 370 A/D: 2117 2112 384 Gyro Bias: Az = 2118.22, El = 2024.11---------Expected range is 1700-2300 Gyro Uncertainty: Az = 3.
GyroT rac Data Outputs 54-0147 145 Appendix G GyroT rac Data Outputs The GyroT rac transmits up to five selectable message types simultaneously to external navigation devices connected to the ADCU.
54-0147 146 T racVision G4 T echnical Manual G.2 Serial Port Outputs Serial ports #1 and #2 may be individually programmed to output any of the message formats described on the following pages. Up to four NMEA 0183 listening devices can be connected to each of the serial ports.
GyroT rac Data Outputs 54-0147 147 NMEA2 Magnetic Heading (HDG) Communication: 4800 baud, 1 start bit, 8 data bits, 1 stop bit, no parity Update rate: Selectable at 1 to 20 Hz (10 Hz def ault) Sentence type: $HCHDG,XXX.X, *hh <cr> <lf> Sentence breakdown: HCHDG NMEA talker and sentence ID XXX.
54-0147 148 T racVision G4 T echnical Manual KVH Format Special Output Sentence (Set at Factory Only) Communication: 9600 baud, 1 start bit, 8 data bits, 1 stop bit, no parity Update rate: Selectable .
GyroT rac Data Outputs 54-0147 149 G.3 Furuno Output The Furuno output is a pr oprietary message format typically used with Furuno and other brands of radars and autopilots. T wo user-configurable options ar e available: true or magnetic heading and 25 millisecond (40 Hz) or 200 millisecond (5 Hz) data rate.
54-0147 150 T racVision G4 T echnical Manual 1 Step Line 1 Red 23 2 Step Line 2 Y ellow 22 3 Step Line 3 Green 21 4 O V Common Blue 24 5 Step O/P Line 1 -VE Switch Line (Open Drain) Load 6 Step O/P Li.
Maintenance Port Parser Commands 54-0147 151 Appendix H Maintenance Port Parser Commands The T racV ision G4 system parser commands are parsed when the system receives an ASCII carriage return (Hex 0D). An ASCII line feed (Hex 0A) is permitted but is ignored in any transmitted command.
54-0147 152 T racVision G4 T echnical Manual Help on P arser Commands Function: lists parser commands Command: HELP Response: lists all parser commands T urn On Sleep Mode Function: turns on Sleep Mod.
Maintenance Port Parser Commands 54-0147 153 Enter Serial Number Function: enters system serial number Command: =SERNUM,XXXXXXXX Where: XXXXXXXX = the system’ s ser ial number Response: SN = XXXXXXXX Configure System Function: configures software f or a par ticular system model Command: =TVXXXX Where: XXXX = system model (i.
54-0147 154 T racVision G4 T echnical Manual Azimuth CW Step Function: commands a manual 0.1° cloc kwise step in azimuth angle Command: 6 Response: echoes the command Azimuth CCW Step Function: commands a manual 0.1° counter-cloc kwise step in azimuth angle Command: 4 Response: echoes the command Elev ation UP Step Function: commands a manual 0.
Maintenance Port Parser Commands 54-0147 155 H.4 T racking and Conical Scan Commands T arget Location Function: repor ts the target location in antenna frame; data f ormat is E### for ele v ation in d.
54-0147 156 T racVision G4 T echnical Manual Compass Calibration Function: calibrates the sensor module Command: = CALGYRO Response: system initializes rate bias and calibrates the azimuth and ele vation axis gyros H.
Maintenance Port Parser Commands 54-0147 157 Report RF T racking P arameters Function: repor ts all RF tracking par ameters f or primar y & secondar y satellites* Command: @SA TCONFIG Response: F .
54-0147 158 T racVision G4 T echnical Manual Set RF T racking P arameters Function: sets RF trac king parameter Command: @SA TCONFIG,X,N,F ,S,C,ID,P ,B,D<cr> Response: Echoes the input data Wher.
Maintenance Port Parser Commands 54-0147 159 Frequency Scan Function: updates satellite frequency data Command: @SC,XXXXX,YY Where: XXXXX = symbol rate (010000 - 399999) YY = FEC code (e.
54-0147 160 T racVision G4 T echnical Manual H.7 Installation Commands Set/Report GPS Position Function: repor ts or sets default GPS position Command: GPS<cr> GPS,XX,D ,YYY ,E Response: GPS = X.
Maintenance Port Parser Commands 54-0147 161 Configure Longitude of a User-configurab le Satellite Function: configures one of the user-configurab le satellites with the longitude provided Command: SA.
54-0147 162 T racVision G4 T echnical Manual Apply Default V alues to Default Satellites Function: updates the def ault satellites to the def ault v alues Command: SA TP AIR,X Response: displays n ume.
KVH Industries Limited W arranty T racVision G4 Limited Warranty on Hardware KVH Industries, Inc. warr ants the KVH product purchased against def ects in materials for a period of TWO (2) y ears and against f actor y labor costs f or a period of ONE (1) year from the date of original retail purchase by the original purchaser .
12 1 1 10 9 8 7 61 2 5 4 3 13 14 23 22 21 20 19 18 24 17 16 15 25 26 35 34 33 32 31 30 36 29 28 27 48 47 38 39 40 41 42 43 37 44 45 46 60 59 50 51 52 53 54 55 49 56 57 58 Ground +12VDC Ship’ s P owe.
デバイスKVH Industries G4の購入後に(又は購入する前であっても)重要なポイントは、説明書をよく読むことです。その単純な理由はいくつかあります:
KVH Industries G4をまだ購入していないなら、この製品の基本情報を理解する良い機会です。まずは上にある説明書の最初のページをご覧ください。そこにはKVH Industries G4の技術情報の概要が記載されているはずです。デバイスがあなたのニーズを満たすかどうかは、ここで確認しましょう。KVH Industries G4の取扱説明書の次のページをよく読むことにより、製品の全機能やその取り扱いに関する情報を知ることができます。KVH Industries G4で得られた情報は、きっとあなたの購入の決断を手助けしてくれることでしょう。
KVH Industries G4を既にお持ちだが、まだ読んでいない場合は、上記の理由によりそれを行うべきです。そうすることにより機能を適切に使用しているか、又はKVH Industries G4の不適切な取り扱いによりその寿命を短くする危険を犯していないかどうかを知ることができます。
ですが、ユーザガイドが果たす重要な役割の一つは、KVH Industries G4に関する問題の解決を支援することです。そこにはほとんどの場合、トラブルシューティング、すなわちKVH Industries G4デバイスで最もよく起こりうる故障・不良とそれらの対処法についてのアドバイスを見つけることができるはずです。たとえ問題を解決できなかった場合でも、説明書にはカスタマー・サービスセンター又は最寄りのサービスセンターへの問い合わせ先等、次の対処法についての指示があるはずです。
