Raytheon ST6000 Plus Owner's Handbook Manual
Raytheon ST6000 Plus helps you maintain course and navigate your boat. The device features multiple steering modes including Auto mode for a selected course, which can be temporarily interrupted by the user to avoid obstacles, and WindTrim mode to steer into or away from the wind. It also offers programmable alarms and a customizable interface to improve compatibility with your boat.
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ST6000 Plus
Autopilot
Control Unit
Owner’s
Handbook
Document number: 81133_3
Date: 1st April 1999
2 Title of handbook
Preface
1
Raytheon Electronics, as part of its commitment to continuous imrovement and updating, reserve the right to make changes, without prior notice, to the equipment, equipment specifications, and the instructions contained within this handbook.
To the best of our knowledge, the information contained within this handbook was correct as it went to press.
A great deal of care has been taken to ensure that this handbook is as accurate as possible. However, liability cannot be accepted for inaccuracies or omissions.
Autohelm and SeaTalk are registered trademarks of Raytheon Electronics
WindTrim, AutoTack, AutoTrim, AutoSeastate, AutoAdapt, AutoRelease and CodeLock are trademarks of Raytheon Electronics
Copyright © Raytheon Electronics 1996
2 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Preface
Preface
This handbook contains information on the operation and installation of your new equipment. In order to obtain the best performance from your autopilot, please read this handbook thoroughly.
How this handbook is organised
This handbook is divided into the following chapters:
Chapter 1: Introduces the autopilot, its features and its use.
Chapter 2: Covers basic autopilot operation.
Chapter 3: Explains how to use Track and Vane (WindTrim)
modes and adjust autopilot performance, and summarises the
ST6000 Plus alarms.
Chapter 4: Explains how to use the CodeLock security feature.
Chapter 5: Provides details on how to make adjustments to
customise the autopilot to your particular vessel.
Chapter 6: Explains how to install the ST6000 Plus.
Chapter 7: Covers functional testing and initial calibration
procedures after installation, and intial sea trials.
Chapter 8: Provides general maintenance procedures.
Chapter 9: Provides information to help you resolve any
problems you may encounter with your autopilot.
An index is included at the end of this handbook, followed by a template for the installation of the control unit.
Safety information
Passage making under autopilot control is an enjoyable experience that can, if you are not careful, lead to the relaxation of the permanent watch. A permanent watch MUST be maintained no matter how clear the sea may appear to be.
WARNING:
Remember, a large ship can travel two miles in five minutes just the time it takes to make a cup of coffee.
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4 ST6000 Plus Autopilot Control Unit Owner,s Handbook
EMC conformance
All Raytheon equipment and accessories are designed to the best industry standards for use in the leisure marine environment.
Their design and manufacture conforms to the appropriate
Electromagnetic Compatibility (EMC) standards, but correct installation is required to ensure that performance is not compromised.
Warranty
The following rules should always be observed:
• Maintain a permanent watch and regularly check all around for other vessels and obstacles to navigation – no matter how clear the sea may appear a dangerous situation can develop rapidly.
• Maintain an accurate record of the vessel’s position either by use of a radio navigation receiver or visual bearings.
• Maintain a continuous plot of position on a current chart. Ensure the locked autopilot heading steers you clear of all obstacles. Make proper allowance for Tidal Set – the autopilot cannot!
• Even when your autopilot is locked onto the desired Track using a radio navigation receiver, always maintain a log and make regular positional plots. Radio navigation signals can produce significant errors under some circumstances and the autopilot cannot detect this situation.
• Make sure that all members of crew are familiar with the procedures to disengage the autopilot.
Your Raytheon autopilot will add a new dimension to your boating enjoyment. However, it is the responsibility of the skipper to ensure the safety of the vessel at all times by careful observance of these basic rules.
To verify the ownership of your new autopilot, please take a few minutes to complete the warranty card. It is important that you complete the owner information and return the card to the factory to receive full warranty benefits.
Preface
Contents
Preface ..................................................................................... 3
How this handbook is organised ....................................... 3
Warranty ............................................................................ 3
Safety information ............................................................. 3
EMC conformance ............................................................ 4
Chapter 1: Introduction ......................................................... 1
1.1 Overview ..................................................................... 1
1.2 Specification ............................................................... 2
Chapter 2: Basic Operation ................................................... 3
2.1 Key functions .............................................................. 3
2.2 Display layout ............................................................. 4
2.3 Using Auto mode ........................................................ 5
Engaging the Autopilot (Auto) .................................... 5
Disengaging the autopilot (Standby) to return to hand steering ........................................................................ 5
Changing course in Auto mode ................................... 5
Dodging obstacles in Auto mode ................................ 6
Returning to the previous locked heading ................... 6
Automatic tack (AutoTack) ......................................... 7
AutoTack to starboard ........................................... 7
AutoTack to port .................................................... 8
Off course alarm .......................................................... 8
Operating hints ............................................................ 9
Making major course changes ............................... 9
Course changes under autopilot control ................ 9
Sailboats in gusty conditions ............................... 10
2.4 Using Manual mode .................................................. 10
2.5 Display and keypad illumination .............................. 10
5
6 ST6000 Plus Autopilot Control Unit Owner,s Handbook
2.6 Data pages ................................................................. 11
Chapter 3: Advanced Operation ......................................... 13
3.1 Operation in Track mode .......................................... 13
Initiating Track mode ................................................ 13
Automatic acquisition .......................................... 14
Manual acquisition .............................................. 15
Cross track error ........................................................ 16
Tidal stream compensation ........................................ 16
Waypoint arrival and advance ................................... 17
Arrival.................................................................. 17
Skipping a waypoint ............................................ 18
Advance ............................................................... 18
Dodges....................................................................... 18
Initiating a dodge manoeuvre .............................. 18
Cancelling a dodge manoeuvre ............................ 18
Safety ......................................................................... 18
Position confirmation at the start of a passage .... 19
Verifying computed positions .............................. 19
Plot frequency ...................................................... 19
Setting waypoints ................................................. 19
General ................................................................ 19
3.2 Operation in Vane mode (WindTrim) ....................... 19
Selecting Vane mode ................................................. 20
Adjusting the locked wind angle ............................... 20
Returning to the previous apparent wind angle ......... 21
Dodges....................................................................... 21
Wind shift alarm ........................................................ 22
Using AutoTack in Vane mode .................................. 22
Operating hints .......................................................... 23
Preface
7
3.3 Adjusting autopilot performance .............................. 23
Changing the response level (AutoSeastate) ............. 23
Changing the rudder gain .......................................... 24
3.4 Alarms ....................................................................... 24
SeaTalk failure ..................................................... 25
No link ................................................................. 25
Off course ............................................................ 25
Wind shift ............................................................ 25
Large cross track error ......................................... 25
Drive stopped....................................................... 25
Data not received ................................................. 26
Waypoint advance ................................................ 26
Low battery .......................................................... 26
Watch alarm ......................................................... 27
Man overboard (MOB) ........................................ 27
Chapter 4: CodeLock ............................................................ 29
4.1 CodeLock Modes ...................................................... 29
4.2 Setting Up CodeLock ................................................ 29
Initial Setup ............................................................... 29
Changing the code or master unit .............................. 31
4.3 Entering your code (Manual mode only) .................. 31
4.4 Code number problems ............................................. 32
Chapter 5: Customising the System .................................. 33
5.1 User setup ................................................................. 33
Compass deviation correction ................................... 35
Deviation display....................................................... 35
Heading alignment .................................................... 35
Heading mode ........................................................... 35
Bar selection .............................................................. 35
8 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Rudder calibration ..................................................... 36
Data pages ................................................................. 36
5.2 Dealer setup: Type 100/300 Course Computer ......... 38
Recommended settings .............................................. 39
Pilot type ................................................................... 39
Calibration lock ......................................................... 40
Rudder gain ............................................................... 40
Rate level ................................................................... 40
Rudder offset ............................................................. 41
Rudder limit............................................................... 41
Turn limit ................................................................... 41
Cruise speed .............................................................. 42
Off course alarm ........................................................ 42
AutoTrim ................................................................... 43
Power steer ................................................................ 43
Drive type .................................................................. 44
Rudder damping ........................................................ 44
Variation .................................................................... 45
AutoAdapt ................................................................. 45
Latitude ..................................................................... 46
Wind Trim ................................................................. 46
Tack angle ................................................................. 46
AutoRelease .............................................................. 47
Response ................................................................... 47
Recording calibration settings ................................... 47
Chapter 6: Installation ........................................................ 49
6.1 Planning the Installation............................................ 49
EMC installation guidelines ...................................... 49
Connections to other equipment ................................ 50
Cabling ...................................................................... 50
Preface
9
6.2 Control head .............................................................. 50
Siting ......................................................................... 51
Mounting procedure .................................................. 51
Connections to the SeaTalk bus................................. 52
SeaTalk cables ..................................................... 52
Cable types .......................................................... 52
Typical SeaTalk cabling ....................................... 53
6.3 NMEA interface ........................................................ 53
Cabling ...................................................................... 53
NMEA cable connectors ........................................... 54
NMEA data transmission .......................................... 54
Transmission of NMEA data on SeaTalk .................. 55
6.4 Functional test (repeater unit) ................................... 55
Switch on ................................................................... 56
Navigation interface (GPS, Decca, Loran) ................ 56
SeaTalk interface ....................................................... 57
Chapter 7: Post Installation Procedures ........................... 59
7.1 Functional test and initial calibration ........................ 59
Switch on ................................................................... 59
Initial calibration ....................................................... 59
Operating sense ......................................................... 59
Navigation interface (GPS, Decca, Loran) ................ 60
Wind transducer interface ......................................... 61
SeaTalk interface ....................................................... 61
7.2 Initial sea trial ........................................................... 62
EMC conformance .................................................... 62
Overview ................................................................... 62
Automatic compass deviation correction .................. 63
Further heading alignment adjustment ...................... 65
10 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Checking autopilot operation .................................... 66
Checking the rudder gain .......................................... 66
Chapter 8: Maintenance ...................................................... 69
General ............................................................................ 69
Servicing and safety ........................................................ 69
Advice ............................................................................. 69
Chapter 9: Fault Finding ...................................................... 71
Index ...................................................................................... 73
Chapter 1: Introduction
Chapter 1: Introduction
1.1 Overview
The ST6000 Plus is a SeaTalk
®
compatible autopilot control unit. It is designed for use as a repeater in an autopilot system, allowing autopilot control from a secondary location, or as the control unit for a
Type 100/300 Course Computer. It can also repeat instrument data in a programmable selection of Data Pages.
The ST6000 Plus can share all data transmitted from other Raytheon
SeaTalk instruments:
Wind information from a wind instrument can be used for wind trim
(Vane) steering without the need to install a separate vane.
Track information, from a navigation instrument, provides waypoint control from the autopilot.
Boat speed from the Speed instrument provides optimum trackkeeping performance.
The ST6000 Plus autopilot can also be used with any navigator (GPS,
Decca, Loran) transmitting NMEA 0183 data.
There are five operating modes:
Standby: Autopilot disengaged
Auto: Autopilot engaged and locked onto a heading
Track: Autopilot maintains a track between two waypoints created using a navigation system
Vane: Autopilot maintains a course relative to an apparent wind angle
Manual: Autopilot power steers rudder using joystick control
When the ST6000 Plus is being used to repeat instrument data, pop-up pilot pages are displayed for 5 seconds whenever a change in autopilot control is made.
The ST6000 Plus also provides the following:
Automatic tack facility, which can be used in Auto and Vane modes
Automatic compass deviation correction
Northerly/Southerly heading compensation
Automatic heading deadband seastate control
Waypoint advance feature
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2 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Setup and calibration options to suit each installation, giving maximum performance with many types of boat, with three calibration menus (user, intermediate and dealer)
Raytheon CodeLock security support
1.2 Specification
Power Supply: 10 to 15 V dc
Current consumption:
Standby: 60 mA (less than 200 mA with full lighting)
Operating temperature: 0°C to +70°C (32°F to 158°F)
Eight button illuminated digital keypad
LCD display of heading, locked course and navigational data, with three levels of illumination
Input connections for SeaTalk and NMEA
Output connection for SeaTalk
Chapter 2: Basic Operation
Chapter 2: Basic Operation
This chapter first provides summary diagrams of the key functions and screen layout. It then gives operating instructions for engaging the autopilot and using Auto mode, changing the lighting, and displaying
Data Pages.
2.1 Key functions
The autopilot is controlled using simple push-button operations, all of which are confirmed with a beep. In addition to the main single key functions, there are several dual key functions.
3
-1 plus -10
Press together for AutoTack to port
DISP
Press for
Data Page
Press for 1 second for lamp control
-1 plus +1
Press for Response level
Press for 1 second for Rudder Gain
+1 plus +10
Press together for AutoTack to starboard
TRACK
Press for Track mode from Auto
Press to accept waypoint advance
Press for 1 second to skip waypoint
STANDBY
Press for Standby mode
Press and hold for
Setup modes
Course Change Keys
Port 1˚ Starboard 1˚
Port 10˚ Starboard 10˚
STANDBY plus AUTO
Press for Vane mode
Press for 1 second for Last Wind
Press again to accept Last Wind
AUTO
Press for Auto mode
Press for 1 second for Last Heading
Press again to accept Last Heading
D3447-1
The autopilot always powers up in Standby mode. (If the text CODE
LOCK is displayed, enter your code as described in Chapter 4.)
Course changes can be made at any time using the –1, +1, –10 and
+10
keys.
You can return to manual steering at any time by pressing standby.
4 ST6000 Plus Autopilot Control Unit Owner,s Handbook
2.2 Display layout
The following illustration shows all the elements, together with a brief description, that make up the ST6000 Plus autopilot LCD display.
MANUAL 3
Rudder or Steer Direction Indicator
D3507-1
The bar graph at the bottom of the display is normally a rudder bar.
If it has been set as a direction-to-steer indicator, the display depends on the current mode, as follows:
Mode
Standby
Bar
Not used
Auto
Track
Heading error bar
Cross track error (XTE) bar, in 0.02 nm increments
Vane Wind angle error bar
If neither distance units (nm or SM) is displayed, the distance is in Km.
Chapter 2: Basic Operation
2.3 Using Auto mode
Engaging the Autopilot (Auto)
1. Steady the vessel on the required heading.
2. Press auto.
5
In Auto mode, the display shows the locked autopilot heading.
Disengaging the autopilot (Standby) to return to hand steering
Press standby.
In Standby mode, the display shows the vessels current compass heading.
The previous autopilot heading is memorised and can be recalled
(see Returing to the previous locked heading).
Changing course in Auto mode
The +1 and +10 (starboard) and –1 and –10 (port) keys are used to change the locked heading, in increments of 1° and 10°, when the autopilot has control.
Example: a 30° course change to port = press –10 three times.
6 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Dodging obstacles in Auto mode
In order to avoid an obstacle when your vessel is under autopilot control, select a course change in the appropriate direction (for example, port 30° = press –10 three times).
When safely clear of the obstacle, you can reverse the previous course change (for example, press +10 three times), or return to the previous locked heading (LAST HDG).
Returning to the previous locked heading
(LAST HDG)
If for any reason the vessel is steered away from the selected locked heading (for example, executing a dodge manoeuvre or selecting
Standby) you can return to the previous locked heading:
Chapter 2: Basic Operation
1. Press auto for 1 second. The previous locked heading (LAST
HDG?
) is displayed for 10 seconds.
7
1
Note: A direction-to-steer indicator is displayed to show you the direction the vessel will turn.
2. To accept this heading, and resume the original course, press auto once within this 10 second period.
If you do not press auto while the display is flashing, the current heading will be maintained.
Automatic tack (AutoTack)
The ST6000 Plus has a built in automatic tack facility that turns the vessel through a predetermined angle (the factory default is 100°) in the required direction.
AutoTack to starboard
Press the +1 and +10 keys together to tack to starboard.
8 ST6000 Plus Autopilot Control Unit Owner,s Handbook
AutoTack to port
Press the -1 and -10 keys together to tack to port .
Off course alarm
The off course alarm will sound if the locked autopilot heading and the vessels current heading differ for more than 20 seconds, by more than the alarm angle set in calibration (the factory default is 20°).
Chapter 2: Basic Operation
1. To cancel the off course alarm, press standby to return to hand steering.
2. Check whether your vessel is carrying too much sail, or whether the sails are badly balanced. Significant improvements in course keeping can usually be obtained by improving sail balance.
Operating hints
Making major course changes
It is sound seamanship to make major course changes only when steering manually.
Manual course changes ensure that obstructions or other vessels can be cleared properly, and due account taken of the changed wind and sea conditions on the new heading prior to engaging the autopilot.
Course changes under autopilot control
It is important to understand the effect of sudden trim changes on steering performance. When a sudden trim change occurs, due, for example, to weather helm or sail imbalance, there will be a delay before the automatic trim applies rudder to restore the locked heading. This correction can take up to one minute.
Large course changes which change the apparent wind direction can produce large trim changes. In these situations, the autopilot will not immediately assume the new automatic heading, and will only settle onto course when the automatic trim has been fully established.
To eliminate this problem, the following procedure can be adopted for large course changes:
1. Note the required new heading.
2. Select standby and steer manually.
3. Bring the vessel onto the new heading.
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10 ST6000 Plus Autopilot Control Unit Owner,s Handbook
4. Select auto and let the vessel settle onto course.
5. Bring the vessel to the final course with 1° increments.
Sailboats in gusty conditions
In gusting conditions, the course may tend to wander slightly, particularly if the sails are badly balanced. A significant improvement in course keeping can always be obtained by improving sail balance.
Bear in mind the following important points:
Do not allow the yacht to heel over excessively
Ease the mainsheet traveller to leeward to reduce heeling and weather helm
If necessary, reef the mainsail a little early
It is also advisable, whenever possible, to avoid sailing with the wind dead astern in very strong winds and large seas.
Ideally, the wind should be brought at least 30° away from a dead run and, in severe conditions, it may be advisable to remove the mainsail altogether and sail under headsail only.
Provided these simple precautions are taken, the autopilot will be able to maintain competent control in gale force conditions.
2.4 Using Manual mode
If your system is fitted with a joystick, the ST6000 Plus will enter
Manual mode when the joystick is used.
The ST6000 Plus will return to Standby mode when the joystick button is released, or if you press the standby key on the ST6000 Plus.
2.5 Display and keypad illumination
Press disp for 1 second, from any mode, to enter illumination adjustment mode and turn the lights on.
Subsequent presses of the disp key cycles the possible illumination settings: L3, L2, L1, OFF, L1, L2, L3 etc. where L3 is the brightest setting.
Chapter 2: Basic Operation
11
1
The display times out to normal operation after 10 seconds of keypad inactivity.
Pressing any other key before the 10 second time-out will select the mode assigned to that key (for example, auto selects Auto mode,
standby
selects Standby mode).
Note: If other SeaTalk instruments or autopilot control units are connected to SeaTalk, the illumination can be adjusted from these units.
Any adjustments to the illumination are lost when the unit is switched off.
The keys are still lit at a courtesy level when the display lighting is off.
2.6 Data pages
The disp key is used to cycle pages of SeaTalk or NMEA data. Once a Data Page is selected, this page becomes the principle autopilot display. The autopilot mode displays (Standby, Auto, Track Vane and
Manual) then become pop-ups, and are displayed for 5 seconds when the autopilot mode is changed or a course change is made.
Press disp to display each Data Page in turn.
When the last Data Page is cycled, the display returns to the current autopilot mode display (for example, Standby).
To return to a previous Data Page, press disp for 1 second within 2 seconds of displaying a page. You can continue to move backwards through the Data Page sequence in this way.
12 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Up to 7 Data Pages are available using the disp key. The number of pages, and the information displayed on each page, depends on the the selections made in User Setup (see section 5.1).
The following illustration shows the default settings for the Data Pages.
D3581-1
If the required data for a page is not available, dashes are displayed instead of a value.
Most displays are repeated data, and cannot be adjusted. The exceptions are the Response and Rudder Gain pages (if selected for display), which can be adjusted using the +1 and -1 keys.
The current autopilot mode is shown at the left of the display, and the autopilot bar graph remains in use.
The direction-to-steer arrows relate to the Data Page information.
Chapter 3: Advanced Operation
Chapter 3: Advanced Operation
This chapter provides information on:
Operation in Track mode
Operation in Vane mode (WindTrim)
Adjusting the response level and rudder gain
Alarms
3.1 Operation in Track mode
Track mode is used to maintain a track between two waypoints created on a GPS, Decca, or Loran navigation system. The ST6000 Plus will then compute any course changes to keep your boat on track, automatically compensating for tidal streams and leeway.
The ST6000 Plus can receive cross track error (the distance your vessel is from a planned track) from:
(a)A SeaTalk navigation instrument or chartplotter or
(b)A non-SeaTalk navigation system transmitting data in the
NMEA 0183 format this can be connected directly to the ST6000
Plus NMEA input, as described in the Installation Chapter).
Track mode is selected by pressing the track key, but can only be selected from Auto mode. You can return to either Auto or Standby mode from Track mode, as follows:
Press auto to leave Track mode and return to Auto mode.
Press standby to leave Track mode and return to manual steering.
Note: The ST6000 Plus control head can be programmed to display various pages of navigation data, such as XTE, BTW etc. Please refer to page 37 for details.
Initiating Track mode
When initiating Track mode, the track can be acquired in one of two ways:
Automatic acquisition, when cross track error and bearing to waypoint data are available
Manual acquisition, when cross track error is the only available data
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14 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Automatic acquisition
Automatic acquisition can only be achieved if the pilot is receiving cross track error and bearing to waypoint information (via SeaTalk or
NMEA 0183). It is initiated as follows:
1. Bring the vessel to within 0.1nm of track
2. Press auto.
3. Press track to enter Track mode, with the current locked heading displayed.
After a short delay for data acquisition, the Waypoint Advance alarm will sound, and the display will show the planned bearing to waypoint alternating with the direction in which the boat will turn.
Note: If the vessel is further than 0.3nm from the track, the Large
Cross Track Error alarm will sound. Press standby to cancel the alarm, hand steer closer to the track, and press auto and track again.
4. Check that it is safe to turn onto the new course.
5. Press the track key. The boat will turn on to the new course and the alarm will be cancelled.
Chapter 3: Advanced Operation
Previous
Heading
D3505-1
The display shows the new bearing to waypoint.
Manual acquisition
For manual track acquisition, when only cross track error data is available:
1. Steer the vessel to within 0.1nm of track.
2. Bring the heading to within 5° of the bearing to the next waypoint.
3. Press auto.
4. Press track to enter Track mode.
The display shows the locked pilot heading.
Note: At low speeds, the effect of tidal streams is far more significant than it is at higher speeds. Providing the tidal flow is less than 35% of the vessels speed, no noticeable difference should occur in the performance of Track mode. However, extra care should be taken during manual acquisition, as follows:
Ensure that the vessel is as close as possible to track, and the direction made good over the ground is as close as possible to the direction of the next waypoint, before selecting Track mode.
Make positive positional checks at regular intervals, especially if navigational hazards are close by.
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16 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Cross track error
Cross track error (XTE) is the distance between the current position and a planned route. This is displayed in nautical miles (nm), statute miles (SM) or kilometres, and is taken directly from your navigator.
The Large XTE alarm sounds if the XTE exceeds 0.3nm.
The direction of the error is identified as Pt port or Stb starboard.
To cancel the alarm and leave track mode, press standby to return to hand steering, or auto to return to Auto mode.
Note: If the Large Cross Track Error alarm sounds, it is usually an indication that the cross tide is too great for the vessels current speed.
Tidal stream compensation
Under most conditions, Track mode will hold the selected track to within ±0.05 nm (300 ft) or better. The autopilot takes account of vessel speed when computing course changes to ensure optimum
Chapter 3: Advanced Operation
17 performance over a wide range of vessel speeds. If speed data is available, the ST6000 Plus uses the measured vessel speed. Otherwise, the Speed Over Ground (SOG) or specified cruise speed is used, depending on the calibration setting (see Dealer Setup in Chapter 5).
Vessel's speed
Vessel's
Waypoint arrival and advance
If your navigation receiver transmits valid NMEA waypoint number and bearing to waypoint data, it is possible to advance from one waypoint to the next by simply pressing track (only the last four characters of waypoint names are recognied and, therefore, adjacent waypoint names must be different.)
Arrival
As the vessel passes the target waypoint, the navigation receiver should select (manually or automatically) the next target waypoint.
The ST6000 Plus detects the new target waypoint number, sounds the
Waypoint Advance alarm and displays the Waypoint Advance information. This display shows the new bearing to waypoint and the direction the boat will turn to acquire the new track.
D3457-1
18 ST6000 Plus Autopilot Control Unit Owner,s Handbook
To accept the new target waypoint, press track.
Skipping a waypoint – SeaTalk navigators only
If you wish to advance to the next waypoint before you have arrived at the target waypoint, press track for 1 second. The Waypoint Advance information for the next waypoint is displayed.
Advance
While the waypoint advance alarm is sounding, Track mode is suspended and the ST6000 Plus maintains the current boat heading.
1. Check that it is safe to turn onto the new track.
2. Press the track key. This will cancel the waypoint arrival alarm and turn the boat towards the next waypoint.
Unless the Waypoint Advance is accepted in the above manner, the alarm will continue to sound and the current heading will be maintained.
Dodges
Full control is still available from the keypad when the autopilot is in
Track mode.
Initiating a dodge manoeuvre
In track mode, dodge manoeuvres are accomplished by simply selecting the desired course change using the course change keys
(-1, +1, -10 or +10).
Cancelling a dodge manoeuvre
Once the hazard has been avoided, the course change selected for the dodge manoeuvre should be cancelled by selecting an equal course change in the opposite direction.
Note: Provided the vessel remains within 0.1 nm of track, there is no need to steer back towards the track.
Safety
Passage making in Track mode removes the chores of compensating for wind and tidal drift, and will aid precise navigation. However, it is important to maintain an accurate log with regular plots.
Chapter 3: Advanced Operation
19
Position confirmation at the start of a passage
At the start of a passage you must always confirm the fix given by the position transducer, using an easily identifiable fixed object. Check for fixed positional errors and compensate for them.
Verifying computed positions
Verify the computed position with a dead reckoned position, calculated from the average course steered and the distance logged.
Plot frequency
In open water, plots should be at least hourly.
In confined waters, or when potential hazards are near, plots should be more frequent.
Local variations in radio signal quality, and changes in the tidal stream, will produce deviations from the desired track.
Setting waypoints
When setting waypoints, remember that deviations will occur.
Thoroughly check along each track.
Check up to 0.5 nm each side of the track to ensure that there are no hazards within the zone.
General
The use of track mode will enable accurate track keeping even in complex navigational situations. However, it cannot remove the responsibility of the skipper to ensure the safety of his vessel at all times by careful navigation and frequent position checks.
3.2 Operation in Vane mode (WindTrim)
Vane mode, also known as WindTrim, allows the ST6000 Plus to maintain a course relative to an apparent wind angle. It uses wind trim to eliminate the effects of turbulence and short term wind variations, and provides smooth precise performance under Vane mode operation with minimal power consumption.
Vane mode uses the fluxgate compass as the primary heading reference and, as changes in the apparent wind angle occur, the locked compass heading is adjusted to maintain the original apparent wind angle.
20 ST6000 Plus Autopilot Control Unit Owner,s Handbook
To use Vane mode, the ST6000 Plus must receive wind information from one of the following sources:
SeaTalk Wind instrument, connected to a ST6000 Plus via SeaTalk
NMEA wind information
Raytheon wind vane connected to a SeaTalk interface box
Selecting Vane mode
Vane mode can be selected from either Standby or Auto modes, as follows:
1. Steady the vessel onto the required apparent wind angle.
2. Press standby and auto together to select Vane mode and lock the current apparent wind angle.
The locked heading is displayed along with the apparent wind angle.
The boat heading is adjusted by the pilot to maintain the locked apparent wind angle.
Adjusting the locked wind angle
The locked wind angle can be adjusted by changing course using the -1,
+1
, -10 and +10 keys.
For example, to bear away by 10° when the vessel is on starboard tack, press -10 to turn the vessel 10° to port. The locked apparent wind angle and locked heading both change by 10°. The new apparent wind angle is maintained, and the locked heading adjusted by the autopilot as required.
Note: This method should only be used for minor adjustments to the apparent wind angle, since turning the boat affects the relationship between the true and apparent wind angles. For major changes, return to Standby mode, steer onto the new heading, and reselect Vane mode.
Chapter 3: Advanced Operation
21
Returning to the previous apparent wind angle
(LAST WND)
If for any reason the vessel is steered away from the selected apparent wind angle (for example, a dodge manoeuvre or selecting Standby) you can return to the previous locked wind angle:
1. Press standby and auto together for 1 second to display the previous apparent wind angle (LAST WND?).
1
The LAST WND? text alternates with the previous wind angle and direction. The previous locked heading is displayed, with an indicator to show you the direction in which the vessel will turn.
2. Check that it is safe to turn on to this course.
3. To accept this apparent wind angle, press standby and auto together within 10 seconds.
If you do not accept the previous wind within this time, the autopilot will lock on to the current apparent wind angle.
Dodges
Full control is still available from the keypad when the autopilot is in
Vane mode.
Dodge manoeuvres are accomplished by simply selecting the desired course change using the course change keys
(-1, +1, -10 or +10). Both the locked heading and locked apparent wind angle are adjusted.
Once the hazard has been avoided, you can reverse the previous course change, or return to the previous apparent wind angle
(LAST WND).
22 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Wind shift alarm
The wind shift alarm sounds, and the text WINDSHIFT is displayed, if a wind shift of more than 15° is detected.
1. Press standby to cancel the alarm and return to hand steering, and steer onto the required heading.
2. Press standby and auto together to return to Vane mode with the new apparent wind angle.
Using AutoTack in Vane mode
The automatic tack function tacks the vessel through a set angle (the factory default is 100°). The locked heading can then be adjusted until the required apparent wind angle is achieved.
To tack to starboard, press the +1 and +10 keys together.
To tack to port, press the -1 and -10 keys together.
Note: If you use the Autotack function in Vane mode, it is important to check that the wind vane has been centred accurately when it was installed.
AutoTack
Angle
Course adjustment may be necessary to mirror the previous apparent wind angle
Apparent Wind Angle
D4373_1
Chapter 3: Advanced Operation
23
Operating hints
Major changes to the selected apparent wind angle should be made by returning to Standby mode, changing course manually, then reselecting Vane Mode.
Vane mode filters the windvane output. This provides the optimum response for off-shore conditions where genuine shifts in wind direction occur gradually.
In gusty and unsteady inshore conditions, it is best to sail a few degrees further off the wind so that changes in apparent wind direction can be tolerated.
It is important to ensure that the amount of standing helm is minimised by careful sail trimming and positioning of the mainsheet traveller.
The headsail and mainsail should be reefed a little early rather than too late.
3.3 Adjusting autopilot performance
The response level and rudder gain can be adjusted during normal operation using a combined key-press. Alternatively, you can set up these two control displays as default Data Pages (see section 2.5).
The default calibration settings for response and rudder gain (refer to
Dealer Setup) are restored when the system is powered on.
Changing the response level (AutoSeastate)
The response level controls the relationship between the autopilots course keeping accuracy and the amount of helm/drive activity.
Response Level 1, AutoSeastate (Automatic Deadband), causes the autopilot to gradually ignore repetitive movements of the vessel and only react to true variations in course. This provides the best compromise between power consumption and course keeping accuracy, and is the default calibration setting.
Response Level 2 (Minimum Deadband) provides the tightest course keeping possible. However, tighter course keeping results in increased power consumption and drive unit activity.
Response Level 3 (also Minimum Deadband) provides the tightest course keeping possible by introducing yaw damping.
24 ST6000 Plus Autopilot Control Unit Owner,s Handbook
The response can be changed at any time. To do so:
1. Press the +1 and -1 keys together momentarily to display the
RESPONSE screen.
2. Press +1 or -1 to change the response level.
3. Wait for 10 seconds, or press disp , to return to the previous display.
D3606-1
Changing the rudder gain
Press the +1 and -1 keys together for 1 second to display the Rudder
Gain screen, and adjust the setting in the same way as for the response level. Refer to Chapter 7, Post installation procedures, for instructions on how to check that the rudder gain is set correctly.
WARNING:
It is important that the rudder gain is correctly set on planing craft. Incorrect adjustment will lead to poor steering performance and is dangerous at high speeds.
3.4 Alarms
This section summarises the alarms (in order of priority) that are reported by the ST6000 Plus.
Press standby to clear an alarm and return to hand steering, unless indicated otherwise.
Chapter 3: Advanced Operation
25
SeaTalk failure
ST FAIL
This silent alarm indicates that there is a wiring fault in the SeaTalk connection.
No link
NO LINK
This silent alarm indicates that there is no link between the ST6000
Plus and the course computer.
Off course
OFFCOURSE
This alarm is activated when the vessel has been off course from the locked heading by more than the specified angle for more than
20 seconds (see section 2.3, Using Auto mode).
The alarm is cleared if the heading recovers or the course is changed, or if the operating mode is changed.
Wind shift
WINDSHIFT
This alarm is activated when a change in the apparent wind angle requires an adjustment of the locked heading by more than 15° (see section 3.2, Operation in Vane mode).
Large cross track error
LARGE XTE
This alarm is activated when the cross track error exceeds 0.3 nm (see section 3.1, Operation in Track mode.
The alarm is cleared if the heading recovers or the course is changed, or if the operating mode is changed.
Drive stopped
DRIVESTOP
This alarm is activated if the autopilot is unable to turn the rudder. This occurs if the weather load on helm is too high, or if the requested rudder position is past the pre-set rudder limits or the rudder end-stops.
26 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Data not received
NO DATA
This alarm is displayed in the following circumstances:
Track mode is engaged and the autopilot is not receiving SeaTalk navigation data.
Track mode is engaged and the position transducer (GPS, Loran,
Decca) is receiving a low strength signal this will clear as soon as the signal strength improves.
Vane mode is engaged and the autopilot has not received wind angle data for 30 seconds.
The autopilot stops adjusting the locked heading as soon as data is lost.
Waypoint advance
NEXT WPT?
The waypoint advance alarm sounds whenever the target waypoint number changes, which occurs in the following circumstances:
Automatic acquisition is selected by pressing track from Auto mode
Waypoint arrival. Vessel arrives at the target waypoint and moves onto the next waypoint in the route.
Waypoint advance is requested by pressing track for 1 second in
Track mode (SeaTalk Navigators only).
When the alarm sounds, the pilot continues on its current heading, but displays the bearing to the next waypoint and the direction in which the boat will turn to take up that bearing.
Check that it is safe to turn onto the new track, and press track to accept the waypoint advance.
To cancel the alarm without accepting the waypoint advance, press
standby
to return to hand steering, or auto to return to Auto.
Note: The waypoint advance will only operate on pilots receiving valid bearing to waypoint and waypoint number information.
Low battery
LOW BATT
The Low Battery alarm sounds when the supply voltage drops below acceptable limits.
Chapter 3: Advanced Operation
27
Press standby to clear the alarm and return to hand steering.
Start the engine to recharge the battery.
Watch alarm
WATCH ALM
The Watch alarm is activated in Watch mode when the timer reaches
4 minutes. It is not available from Standby mode.
If you wish to set the Watch mode, the WATCH screen must be configured as one of the Data Pages for display, as described in section
5.1.
To set and control the Watch alarm:
1. Select Auto, Track or Vane mode.
2. Press the disp key until the WATCH Data Page is displayed.
The watch timer starts counting.
When the timer reaches 3 minutes, the text on the display starts flashing to indicate the last minute of Watch alarm.
When the timer reaches 4 mins, the audible Watch alarm activates.
3. Press auto at any time to silence the alarm and reset the timer to
4 minutes. (Pressing any other key resets the timer and perform the keys normal function.)
4. To clear Watch mode, press disp to display a different page, or press standby.
Note: You cannot engage Auto mode from Watch mode pressing auto only resets the Watch timer.
Man overboard (MOB)
If a man overboard (MOB) message is received from another instrument on the SeaTalk system, the text MOB is shown instead of the waypoint number for the XTE, DTW and BTW Data Pages.
If the autopilot is operating in Track mode, the Waypoint Advance alarm will sound to notify the change in waypoint.
28 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Chapter 4: CodeLock
29
Chapter 4: CodeLock
CodeLock is a personal four-digit security feature designed to protect your valuable instruments against theft. You dont have to activate the system, but its there if you need to. You can activate it using any
CodeLock-compatible control unit on your SeaTalk system.
When you first enter a code and activate CodeLock, the code is sent to all the CodeLock-compatible units on the system. After this, whenever you power on the system, the units will only start up if they receive the correct code.
Remember to fix a CodeLock sticker by each instrument, to deter potential thieves.
4.1 CodeLock Modes
When you set up CodeLock, you can choose whether the code will be sent automatically or must be entered manually at power on, as follows:
Auto mode is used when there is a display unit situated in a secure location, ideally below deck, or one which can be unplugged and removed to a secure location. You enter your chosen code on this
master unit when you first activate CodeLock. This code is then automatically sent to all CodeLock-compatible display heads on
SeaTalk, without further intervention, every time the system is powered on.
Manual mode is used to provide a higher degree of security, perhaps when all your instruments are mounted in exposed locations. In this case, you must enter your personal code every time the system is switched on. The code can be entered into any convenient CodeLock-compatible control unit, and is then sent to all the other compatible units via SeaTalk.
4.2 Setting Up CodeLock
CodeLock is set up and activated on the ST6000 Plus using the
Intermediate Setup options.
Initial Setup
When you first install your ST6000 Plus, CodeLock is set OFF. To activate CodeLock, refer to the flow diagram on the next page.
30 ST6000 Plus Autopilot Control Unit Owner,s Handbook
. Make sure that the autopilot is in Standby mode before accessing
Intermediate Setup.
If the CAL LOCK screen is displayed instead of the VERSION screen, you need to turn off the lock feature in Dealer Setup.
Chapter 4: CodeLock
31
The Intermediate Setup displays have the following functions:
Version numbers: Displays the current ST6000 Plus version number, alternating with the Course Computer version number (if applicable). You cannot adjust these displays.
CodeLock status: Reports the current status, which can be OFF or
SET
. You cannot adjust this display directly.
CodeLock entry: Used to enter a new code if CodeLock is OFF, or to turn CodeLock off if it is already set.
CodeLock mode: Used to select Auto or Manual CodeLock mode, when a new code has been entered.
Changing the code or master unit
You can change the code from any CodeLock compatible control unit on your SeaTalk system, provided you know the current code.
Note: If you set up CodeLock in Auto mode, the unit on which you enter the new code becomes the new master unit.
To change the code:
1. Display the CodeLock entry screen and enter your current code, as shown in the flowchart.
The code is checked. If it is incorrect, the four dashes are redisplayed and you must enter the code again. If it is correct, the
CodeLock status screen is displayed, with the status set to OFF.
2. Press disp to display the CodeLock entry screen again.
3. Enter the new code and move on to the CodeLock mode selection screen.
4. Set the mode to Auto or Manual, as required.
5. Press and hold standby for 1 second to exit Intermediate Setup and save the new settings.
4.3 Entering your code (Manual mode only)
If CodeLock has been set up in Manual mode, the correct code must be entered on one of the control units every time the system is switched on.
The code number created on the master is entered via the keypad from any CodeLock-compatible instrument, and this code is then sent to all compatible instruments on the same SeaTalk bus. Once this code has been received the instruments operate in the normal way.
32 ST6000 Plus Autopilot Control Unit Owner,s Handbook
To enter your chosen code number on the ST6000 Plus display unit, use the keys as shown.
Move the flashing cursor to the next position
Adjust value at the cursor
Adjust value at the cursor
D3394-1
To enter the code on any other master display unit, refer to the handbook for that unit for details of the code entry procedure.
4.4 Code number problems
If an incorrect code number has been entered, the four dashes are redisplayed, with the prompt enter code. Repeat the procedures illustrated above entering the correct four digit number.
If you forget your code number, you must take your master unit to an authorised dealer, together with appropriate proof of ownership such as the original invoice. The dealer will be able to reset the unit so that you can enter a new code.
Chapter 5: Customising the System
Chapter 5: Customising the System
The ST6000 Plus provides setup and configuration options that are used to adjust the settings for the ST6000 Plus itself, the compass, and the autopilot.
Note: You should perform the post installation procedures described in Chapter 7 before adjusting any other calibration features.
There are three setup levels:
User Setup, which controls compass setup, rudder calibration and the ST6000 Plus display features
Intermediate Setup, which controls the CodeLock security feature and displays status and version number information (see Chapter 4)
Dealer Setup, which controls the autopilot settings, and also the calibration lock which can be used to prevent accidental access to
User and Intermediate Setup
The Dealer Setup options described in this chapter only apply if you have installed the ST6000 Plus as the control unit for a Type 100/300 course computer. If you have installed the ST6000 Plus as a repeater unit on an autopilot system, please refer to the Dealer Setup instructions in the handbook for the main control unit.
Note: If the vessel type is changed, you must then relinearise the fluxgate compass.
If an ST4000/5000 control unit is used, please refer to the appropriate manual for system calibration.
5.1 User setup
The flow chart on the following page shows the User Setup control procedure, and the setup screens with their default settings. Information on the functions of the different settings is given in the remainder of this section.
The following points should be considered:
Make sure that the autopilot is in Standby mode before you access
User Setup
If the CAL LOCK screen is displayed instead of the initial page, you need to turn off the lock feature in Dealer Setup
Setup options are always saved on exit
33
34 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Chapter 5: Customising the System
35
Compass deviation correction (SWING COMPASS)
The compass deviation correction option allows you to correct the compass for deviating magentic fields. The procedure must be performed as the first item in your initial sea trial, and is described in detail in Chapter 7, Post Installation Procedures.
Deviation display (DEVIATION)
The deviation screen shows the current deviation value, calculated from the correction procedure (Swing Compass). You cannot edit this value.
Heading alignment (HDG ALIGN)
The heading alignment screen shows the current reported heading.
Note: You should always check the compass alignment after performing a compass deviation correction (see Post Installation
Procedures). However, once the initial correction procedure has been performed, you can make adjustments to the alignment as often as you wish, without re-correcting your compass.
Steer your vessel onto a known heading, and check the heading displayed.
If required, adjust the heading value to match the known value, using the +1, -1, +10 and -10 keys.
Heading mode (HDG)
Select either magnetic or true heading mode. When heading data is displayed in normal operation, the screen indicates whether true or magnetic mode has been selected.
Bar selection (RUDD BAR)
Select the type of bar graph that is shown at the bottom of the SeaTalk displays. The options are as follows:
RUDD BAR: This shows the rudder position, and is the default setting.
Note that a rudder reference transducer is required for accurate rudder position information.
STEER BAR: The bar graph is used as follows:
36 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Mode
Standby
Auto
Track
Vane
Bar
Not used
Heading error bar
XTE bar
Wind angle error bar
Rudder calibration (DOCKSIDE RUDD CAL)
The Dockside Rudder Calibration function performs an automatic calibration of the rudder range, for systems with a rudder reference unit.
If a rudder reference unit is not installed, the function determines the helm drive speed.
WARNING:
This procedure moves the helm, and should only be used when the vessel is at the dockside. For sterndrive systems, the engines must running before you start the procedure.
The auto dockside procedure is not available if the ST6000 Plus is used with a Type 100/300 Course Computer.
If you start the procedure by mistake, press any key to cancel it.
Data pages (DATA PAGE)
The next 7 pages of User Setup allow you change the default settings for the Data Pages. These are the pages of SeaTalk or NMEA data available for display using the disp key during normal operation (see section 2.5).
Each of the setup pages initially shows the title DATA PAGE. After
1 second, this changes to show the title of the data currently set for that page.
The available pages are as follows:
Chapter 5: Customising the System
Data
Speed Knots
Log
Trip
Average Speed, Knots
Wind Direction
Wind Speed
Depth Metres
Depth Feet
Depth Fathoms
Heading
Water Temperature, Degrees C
Water Temperature, Degrees F
Course Over Ground
Speed Over Ground, Knots
Cross Track Error
Distance to
Bearing to Waypoint
Rudder Gain
Response
Watch
Univeral Time Constant
DEPTH FA
HEADING
WATER ºC
WATER ºF
COG
SOG KTS
XTE
WaypointDTW
BTW
RUDD GAIN
RESPONSE
WATCH
UTC
Displayed as
SPEED KTS
LOG XXXX.X
TRIP XXX.X
AV. SPD KTS
E.g. WIND PORT
WIND KTS
DEPTH M
DEPTH FT
37
38 ST6000 Plus Autopilot Control Unit Owner,s Handbook
The default pages are:
Data Page
1
Default Setting
XTE Cross Track Error
Sequence Number
12
4
5
2
3
6
7
BTW Bearing to Waypoint
DTW Distance to Waypoint
NOT USED
NOT USED
NOT USED
NOT USED
19
19
14
13
19
19
For each setup page, scroll forwards or backwards using the +1 or -1 keys, until the required page title is displayed.
Notes: If you set a page to NOT USED, it is omitted from the display cycle during normal operation. For example, with the default page settings only three pages are displayed in the sequence.
There are 3 depth pages and 2 water temperature pages. Data is displayed in the units defined by the selected page.
Press disp to move on to the next Data Page selection screen, and repeat the selection procedure.
Note: If a man overboard (MOB) message is received by the autopilot, the BTW and DTW pages will display the bearing and distance to the
MOB location, so it is good practice to retain these pages for display.
5.2 Dealer setup: Type 100/300 Course Computer
This section applies if you have installed the ST6000 Plus as the control unit for a Type 100/300 Course Computer. If you are using the ST6000
Plus as a repeater for another autopilot system, refer to the Dealer Setup instructions in the handbook for the main control unit.
Dealer Setup is used to customise the autopilot to your boat. However, once the Pilot Type is set, the factory defaults will provide safe performance for initial sea trials, and fine tuning is not normally required. The flow chart below shows you how to enter Dealer Setup, scroll through the setup displays, adjust the values and exit.
Chapter 5: Customising the System
SECONDS
-1
OR
+1
39
Recommended settings
The following pages list the default calibration settings for sailing/ power displacement and planing power vessels. Once you have set the
Pilot Type, these will provide good performance for initial sea trials and can be fine tuned later to optimise performance.
After initial calibration has been carried out, further adjustment can be made at any time.
The features that can be adjusted are listed in the table at the end of this chapter, where you can record your settings for future reference.
Information on the functions of the different settings is given in the remainder of this section.
The following points should be noted:
Make sure that the autopilot is in Standby mode before you access
Dealer Setup
Setup options are always saved on exit
Pilot type
This should be set when the system is first switched on. The default settings for other Dealer Setup options depend on the pilot type you select here.
40 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Setting
DISPL MNT
SEMI DIS
PLANING
STERN DRV
Default:
Description
Displacement
Semi-displacement
Planing
Sterndrive
Displacement
Calibration lock
Calibration lock controls whether User Setup and Intermediate Setup are available, and is intended for charter boat users.
Setting
ON
OFF
Default:
Description
Setup ON
Setup OFF
OFF
Rudder gain
This must be set while under way, as described in Chapter 7, Post
Installation Procedures.
Range:
Default:
1 to 9
5 (Displacement)
5 (Semi-displacement)
4 (Planing)
3 (Sterndrive)
Rate level
Rate Level applies rudder to reduce rate or changes of course. Rate level will, if the rate at which the vessel is turning is too fast, counter this turn with opposite rudder.
Chapter 5: Customising the System
The settings available are as follows:
Range:
Defaults:
1 to 9
7
7
7
5
Displacement
Semi-displacement
Planing
Sterndrive
Rudder offset
You only need to set this option if your system includes a rudder reference unit.
Manually place the helm in a central position. The reported rudder angle is indicated on the rudder bar graphic at the bottom of the screen.
Adjust the offset value, using the +1 and -1 keys, until the rudder position is shown as central on the rudder bar. The offset must be within the range -7° to +7°.
Range:
Default:
–7° to +7°
0
Rudder limit
Rudder Limit restricts autopilot rudder movement to just less than the steering systems mechanical stops. This avoids putting the steering system under unnecessary load.
The range available is as follows:
Range:
Defaults:
15° to 40°
30° Displacement, semi-displacement, planing
20° Sterndrive
Turn limit
This limits the rate of turn of your vessel when making a course change under pilot control. The value must be within the range 5 to 20°. For sailboat applications it should be set to 20°.
41
42 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Range:
Default:
5° to 20° per second
20° (Displacement)
15° (Semi-displacement)
08° (Sterndrive)
Cruise speed
Cruise speed should be set to the boats normal cruising speed if boat speed is not aviailable via SeaTalk or NMEA SeaTalk boat speed is used in preference to SOG.
Range:
Defaults:
4 to 60 knots
6 Displacement
8 Semi-displacement
15 Planing
15 Sterndrive
Off course alarm
This feature controls the alarm that warns you if the pilot is unable to maintain its set course. The alarm operates if the autopilot strays off course by more than the alarm angle limit for more than 20 seconds.
The value must be within the range 15 to 40°, and can be adjusted in 1° steps.
Range:
Default:
15 to 40°
20°
Chapter 5: Customising the System
AutoTrim
The AutoTrim level setting determines the rate at which the autopilot applies standing helm to correct for trim changes caused by varying wind loads on the sails or superstructure. The settings are:
Recommended for: Setting
Off
1
Effect
No trim correction
Slow trim correction
2
3
4
Defaults:
Medium trim correction
Fast trim correction
Super fast correction
Displacement
Semi displacement
Planing
Sterndrive
Heavy displacement vessels, with full keel or transom rudder.
3
3
2
3
Heavy displacement vessels.
Moderate to light displacement vessels.
Planing power vessels
The default setting (Level 3) should provide optimum performance with the ST6000 Plus autopilot. However, depending on the vessels dynamic stability, an incorrect rate of trim application may result in poor course keeping due to autopilot instability.
After gaining experience with the ST6000 Plus, you may wish to change the setting. The effect of the setting must be evaluated while under sail.
Decrease the AutoTrim level if the autopilot gives unstable course keeping or excessive drive activity with a change in the heel angle.
Increase the AutoTrim level if the autopilot reacts slowly to a heading change due to a change in the heel angle.
For systems without a rudder reference unit, these settings have no effect and trim is set to level 3.
Power steer
Power steer selects the Joystick mode of operation: Proportional or
Bang-Bang.
43
44 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Proportional applies rudder in proportion to Joystick movement - the further the Joystick is held over the greater the applied rudder.
Bang-Bang applies continous rudder drive in the direction of lever movement. To improve control the speed of rudder movement changes with the angle of the lever. For maximum speed push the lever hardover. If the lever is returned to the center position the rudder will remain in its current position.
The settings available are as follows:
Range:
Default:
0 = Off
1 = Proportional
2 = Bang-bang
Off
Drive type
The drive type controls the way which the autopilot drives the steering system. The default setting should be retained for mechanically driven vessels.
Range:
Default:
1 = Mechanically driven vessels without a rudder reference unit
2 = Hydraulic, no rudder reference unit
3 = Linear, rotary and sterndrive with a rudder reference unit
4 = Hydraulic with rudder reference unit
Displacement 3, semi displacement 4, planing and
4 sterndrive 3
Rudder damping
Set this option only if your system includes a rudder reference unit, and the drive hunts when trying to position the rudder.
Test for this when your vessel is moored dockside, by pressing auto and then +10. If the helm overshoots and has to drive back, or starts to hunt back and forth, increase the damping level.
Alternatively, you can set a value between1 to 9. Adjust the damping one level at a time, and always use the lowest acceptable value.
Chapter 5: Customising the System
Range:
Default:
Variation
If required, set this value to the level of magnetic variation present at your vessels current position. +ve variation = East, -ve variation =
West. The variation setting is sent to other instruments on the SeaTalk system, and can be updated by other SeaTalk instruments.
Range:
Default:
-30° to +30°
Off
AutoAdapt
1 to 9
2
45
The patented AutoAdapt feature allows the ST6000 Plus to compensate for heading errors at higher latitudes, which are caused by the increasing dip of the earths magnetic field. The increased dip has the effect of amplifying rudder response on northerly headings in the northern hemisphere, and on southerly headings in the southern hemisphere.
Set AutoAdapt to nth in the northern hemisphere, or sth in the southern hemisphere. You then need to enter your current latitude in the next setup screen, so that the ST6000 Plus can provide accurate course keeping by automatically adjusting the rudder gain depending on the heading.
46 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Range:
Default:
0ff = Off nth = North
Sth = South
Off
Latitude
This screen is only used if AutoAdapt is set to North or South.
Use the +1, -1, +10, and -10 keys to set the value to your vessels current latitude, to the nearest degree.
Range:
Default:
0 to 80°
Off
Note: If valid latitude data is available via SeaTalk or NMEA, it will be used instead of this calibration value.
Wind Trim
This varies the response of the autopilot when in wind mode.
The settings available are as follows:
Range:
Default:
1 Normal setting
2 Faster response for wind shifts
1
Tack angle
This adjusts the heading change controlled by the Auto Tack feature
(+1 and +10 or 1 and 10)
The settings available are as follows:
Range:
Default:
40 to 125 degrees
100 degrees
Chapter 5: Customising the System
47
AutoRelease
AutoRelease provides emergency manual override, should it be necessary, to avoid an obstacle at the last moment. This option only applies to cable operated sterndrive actuators for all other systems this option should be set to off.
Range:
Defaults:
Off
On
0 for Displacement, Semi-displacement &
Planing
1 for Sterndrives
Response
This is the power-on response setting. The response level can be changed during normal operation (see section 3.3) or via the Response
Data Page, if this is set for display (see section 2.6).
Range:
Default:
Level 1 (Auto Seastate)
Level 2 (Auto sea state inhibit)
Level 3 (Auto sea state inhibit counter rudder)
Level 1
Recording calibration settings
Having fine-tuned the calibration settings during initial sea trials, record them for future reference, in the table on the following page.
48
Feature
Pilot Type
Calibration Lock
Rudder gain
Response
Turn rate Limit
Rudder Offset
Off Course Alarm
AutoTrim
Drive Type
Variation
AutoAdapt
Latitude
Rudder Damping
AutoRelease
Cruise Speed
Power Speed
Rudder Limit
Rate Level
ST6000 Plus Autopilot Control Unit Owner,s Handbook
Setting
Chapter 6: Installation
Chapter 6: Installation
6.1 Planning the Installation
This chapter explains how to install and connect the ST6000 Plus autopilot control unit. Before starting the installation, decide how you will site the unit and run the cables.
EMC installation guidelines
All Raytheon equipment and accessories are designed to the best industry standards for use in the leisure marine environment.
Their design and manufacture conforms to the appropriate
Electromagnetic Compatibility (EMC) standards, but correct installation is required to ensure that performance is not compromised.
Although every effort has been taken to ensure that they will perform under all conditions, it is important to understand what factors could affect the operation of the product.
To minimise the risk of operating problems, all Raytheon equipment and cables connected to it should be;
At least 1m (3 feet) from any equipment transmitting or cables carrying radio signals e.g. VHF radios, cables and antennas. In the case of SSB radios, the distance should be increased to 2 m (7 ft).
More than 2 m (7 ft) from the path of a radar beam. A radar beam can normally be assumed to spread 20 degrees above and below the radiating element.
The equipment should be supplied from a different battery than the one used for engine start. Voltage drops below 10 V in the power supply to our products can cause the equipment to reset. This will not damage the equipment, but will cause the loss of some information and can change the operating mode.
Raytheon specified cables should be used at all times. Cutting and rejoining these cables can compromise EMC performance and so must be avoided unless doing so is detailed in the installation manual.
If a suppression ferrite is attached to a cable, this ferrite should not be removed. If the ferrite has to be removed during installation it must be reassembled in the same position.
49
50 ST6000 Plus Autopilot Control Unit Owner,s Handbook
The following illustration shows the typical range of suppression ferrites fitted to Raytheon equipment. Always use the ferrites specified by Raytheon.
Connections to other equipment
If your Raytheon equipment is going to be connected to other equipment using a cable not supplied by Raytheon, a suppression ferrite MUST always be fitted to the cable close to the Raytheon unit.
Cabling
Avoid running cables through bilges where possible
Secure coiled lengths at regular intervals
Avoid running cables close to fluorescent lights, engines, radio transmitting equipment etc
6.2 Control head
110mm (4.33in)
24mm
(0.95in)
17mm
(0.67in)
D3242-1
Chapter 6: Installation
51
Siting
The control head is completely waterproof and should be sited where it is:
Within easy reach of the steering position
Protected from physical damage
At least 230 mm (9 in) from any compass
At least 500 mm (20 in) from any radio/radar receiving/transmitting equipment
Note: The back cover is designed to breath through the cable boss to prevent moisture accumulation. This must be protected from the weather by following the mounting procedure.
Mounting procedure
1 2 3
D3243-1
1 Cable boss 2 Fixing studs 3 Thumb nuts
Note: Always leave a 6 mm (1/4 in) gap between adjacent display heads to allow the protective sun covers to be fitted.
1. Use the template provided (near the end of this handbook) to mark the hole centres for the fixing stud and the cable boss.
2. Drill 4 mm (5/32 in) diameter holes for the fixing studs.
3. Taking great care not to cut the hole for the cable boss too big, use a 90 mm (3 boss (1).
1
/
2 in) diameter cutter to drill the hole for the cable
52 ST6000 Plus Autopilot Control Unit Owner,s Handbook
4. Screw the fixing studs (2) into the display head.
5. Pass the cables (SeaTalk, NMEA) through the bulkhead.
6. Fit the cables to the appropriate terminals (see relevant subsection for connection details of each item)
7. Fit the display head to the bulkhead.
8. Assemble the thumb nuts (3) onto the fixing studs (2).
9. Tighten the thumb nuts by hand until the display head is secure.
Under no circumstances must wrenches be used to tighten the thumb nuts.
Connections to the SeaTalk bus
SeaTalk cables
The ST6000 Plus is supplied with a 9 m SeaTalk cable as standard.
The following table lists other cables available from your dealer:
Part No:
D187
D188
D284
D285
D286
D287
Type
Flat to a male round connector
Flat to a female round connector
Flat moulded plugs at both ends
Flat moulded plugs at both ends
Flat moulded plugs at both ends
Flat moulded plugs at both ends
Length
0.15 m (6 in) long
0.3 m (12 in) long
1 m (3 ft 3 in) long
3 m (9 ft 9 in) long
6 m (19 ft 6 in) long
9 m (29 ft 3 in) long
Cable types
The following illustration shows the different types of SeaTalk cables available.
Chapter 6: Installation
Typical SeaTalk cabling
ST6000 Plus
Repeater
SeaTalk
Instrument
100/300 Course
Computer
D3445-1
SeaTalk Bus
ST6000 Plus
Control Head
D3446-1
6.3 NMEA interface
ST6000 Plus accepts NMEA navigation data for display and use in
Track and Vane modes. The required NMEA data formats are shown in the table at the end of this section.
Cabling
The NMEA port should be connected to a Navigator or Wind instrument.
53
54
Navigator with NMEA output
ST6000 Plus Autopilot Control Unit Owner,s Handbook
Red
(Data In +ve)
Blue
(Data In -ve)
D3442-1
NMEA cable connectors
NMEA connections are made using spade connectors.
When fitting the spade connectors, make sure the connector fits securely over the blade and not between the connector and its plastic insulating boot incorrect fitting will give intermittent contact which will lead to faulty autopilot operation.
NMEA data transmission
If you wish to transmit NMEA information to other equipment a
SeaTalk Interface should be installed.
Chapter 6: Installation
The following NMEA 0183 wind and navigation data can be decoded by the ST6000 Plus.
Data NMEA 0183
Latitude and Longitude GLL, RMC, RMA, GLP, GOP, GXP, GGA,
GDP
Course Over Ground VTG, RMC, RMA
Speed Over Ground VTG, RMC
Cross Track Error APB, APA, RMB, XTE
Bearing to Waypoint APA, APB, BWR, BWC, RMB
Distance to Waypoint BWR, BWC, RMB
Waypoint Number APB, APA, BWR, BWC, RMB
Apparent Wind Speed VWR
Apparent Wind Angle VWR, MWV
Speed Through Water VHW
Depth DBT
Water Temperature MTW
55
Transmission of NMEA data on SeaTalk
If any of the above NMEA data is received and the equivalent data is not present on SeaTalk, the autopilot will transmit the data onto
SeaTalk to make it available to other SeaTalk compatible instruments.
Depth is transmitted in the units defined by the first page in the data page rollover. Water temperature is always transmitted in ºC.
6.4 Functional test (repeater unit)
If you have installed your ST6000 Plus as a repeater unit on an autopilot system, you should perform the functional test described in this section. However, if you have installed the ST6000 Plus as the only control unit for a Type 100/300 course computer, you should skip to
Chapter 7, Post Installation Procedures, and follow the instructions given there.
56 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Switch on
Having installed your ST6000 Plus, switch on the main power breaker.
If the control head is active and the system operating, the following will occur:
The control head beeps and displays the pilot type, ST6000.
After the pilot type has been displayed for 2 seconds, the Standby mode screen should be displayed.
This shows that the control head is active. If the head does not beep, check the fuse/circuit breaker.
If the text ST FAIL or NO LINK is displayed, check the SeaTalk cables between the ST6000 Plus control head and the Course Computer.
Navigation interface (GPS, Decca, Loran)
If the ST6000 Plus is interfaced to a navigator, via its NMEA data port, the interface can be checked by displaying the default Data Pages.
These are XTE, BTW, and DTW.
Press disp to display the first page, and check that the expected data is displayed. Press disp again to check each successive page.
If dashes are displayed instead of data values, the cause could be one or more of the following:
A cabling error. Check for an open circuit, short circuit or reversed wires.
The navigator is not configured to transmit the required data format.
The signals being received by the navigator are too weak for reliable navigation. Refer to the navigator handbook for further action.
Chapter 6: Installation
57
SeaTalk interface
If the ST6000 Plus has been linked to other SeaTalk instruments via
SeaTalk, the link can be checked as follows:
1. Press standby.
2. Select display illumination level 3 on any other SeaTalk instrument or autopilot control unit.
The ST6000 Plus should immediately respond by switching on its display illumination.
If the illumination does not switch on then a cabling fault exists in the
SeaTalk cabling between the ST6000 Plus control head and the instruments/control unit.
58 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Chapter 7: Post Installation Procedures
Chapter 7: Post Installation Procedures
This chapter applies to systems where the ST6000 Plus has been installed as the only control unit for a Type 100/300 Course Computer.
Once you have installed the system, you need to confirm that it is wired correctly and is also set up to suit your type of boat.
This chapter provides instructions for the following procedures:
Functional test, consisting of a few simple tests to confirm that the system is wired correctly
Initial sea trial, to swing the compass and align the heading, check the autopilots operation and check the rudder gain
Further customisation can be performed after the sea trial, as described in Chapter 5.
7.1 Functional test and initial calibration
Switch on
Having installed your ST6000 Plus system, switch on the main power breaker. If the control head is active and the system operating, the following will occur:
The control head beeps and displays the pilot type as ST6000.
After 2 seconds the Standby screen is displayed.
This shows that the control head is active.
If the head does not beep, check the fuse/circuit breaker.
If the SEATALK FAIL or NO LINK alarm is displayed, check the
SeaTalk connections.
Initial calibration
Use the Dealer Setup function (see Chapter 5) as soon as you have completed this functional test.
Operating sense
The operating sense defines the direction the helm will be applied when a course change key is pressed or the vessel goes off course. Check the operating sense as follows:
59
60 ST6000 Plus Autopilot Control Unit Owner,s Handbook
1. Press auto.
2. Press the +10 key. The helm should move to produce a turn to starboard.
D3393-1
3. If the helm produces a turn to port, reverse the motor connections at the course computer.
4. If the helm overshoots and has to drive back or starts to hunt back and forth, you need to increase the Rudder Damping option in
Dealer Setup (see Chapter 5).
Navigation interface (GPS, Decca, Loran)
If the ST6000 Plus is interfaced to a navigator, via its NMEA data port, the interface can be checked by displaying the default Data Pages.
These are XTE, BTW, and DTW.
Press disp to display the first page, and check that the expected data is displayed. Press disp again to check each successive page.
If dashes are displayed instead of data values, the cause could be one or more of the following:
A cabling error. Check for an open circuit, short circuit or reversed wires.
The navigator is not configured to transmit the required data format.
The signals being received by the navigator are too weak for reliable navigation. Refer to the navigator handbook for further action.
Chapter 7: Post Installation Procedures
Wind transducer interface
If the ST6000 Plus is connected to a wind instrument via its NMEA data port or SeaTalk, then the link between the two instruments should be checked as follows:
Press standby and auto together.
The ST6000 Plus should display the Vane mode screen, with the locked wind angle and locked heading as shown.
61
Alternatively, if the wind data is not received , the ST6000 Plus will display a NO DATA error message.
SeaTalk interface
If the ST6000 Plus has been linked to other SeaTalk instruments via
SeaTalk, the link can be checked as follows:
1. Press standby.
2. Select display illumination level 3 on any other SeaTalk instrument or autopilot control unit.
The ST6000 Plus should immediately respond by switching on its display illumination.
If the illumination does not switch on then a cabling fault exists in the
SeaTalk cabling between the ST6000 Plus control head and the instruments/control unit.
62 ST6000 Plus Autopilot Control Unit Owner,s Handbook
7.2 Initial sea trial
EMC conformance
Always check the installation before going to sea to make sure that it is not affected by radio transmissions, engine starting etc..
In some installations, it may not be possible to prevent the equipment from being affected by external influences. In general this will not damage the equipment but can lead to it resetting, or momentarily may result in faulty operation.
Overview
Having checked that the system is functioning correctly, a short sea trial is now required to complete the setup. It involves the following procedures:
Automatic compass deviation correction
Heading alignment adjustment
Autopilot operation check
Rudder gain adjustment
Note: The ST6000 Plus has a built-in calibration capability which enables it to be fine tuned to suit the individual vessel, its steering system and dynamic steering characteristics. As supplied from the factory the unit is calibrated to provide safe stable autopilot control for the majority of vessels.
The initial sea trial should be performed in the following circumstances:
After all the installation, functional test and initial calibration have been completed successfully
Before any other changes have been made to the default calibration settings: check and, if necessary, reset the values to the recommended levels, as described in Chapter 5
In conditions of light wind and calm water, so that autopilot performance can be assessed without the influence of strong winds or large waves
In waters clear of any obstructions
Note: At any time during the sea trial you can press standby to return to hand steering.
Chapter 7: Post Installation Procedures
Automatic compass deviation correction
The ST6000 Plus will correct the fluxgate compass for most deviating magnetic fields. Compass errors due to deviating magnetic fields can be up to 45°, depending on your vessel type. The correction procedure reduces these to a few degrees, so it is essential to perform the procedure as the first item in your initial sea trial.
CAUTION:
Failure to carry out the deviation correction may result in impaired autopilot performance on some compass headings.
To allow the system to determine the deviation and calculate any correction required, you must turn your vessel in slow circles. This procedure must be carried out in calm conditions and preferably in flat water.
To perform the deviation correction:
1. Make sure that the autopilot is in Standby mode .
2. Press and hold the standby key for 2 seconds to display the User
Setup entry page.
63
D3448-1
If CAL LOCK is displayed, you need to turn off the lock feature contained in Dealer Setup (see Chapter 5).
3. Press the disp key to move on to the Swing Compass page.
D3460-1
64 ST6000 Plus Autopilot Control Unit Owner,s Handbook
4. Press the +1 or -1 key to change the setting from OFF to YES. The
Turn Boat page is then displayed.
D3451-1
5. Keeping the boat speed below 2 knots, turn the vessel in slow circles. It should take at least 3 minutes to complete 360°.
6. Keep turning your boat until the unit beeps and the Deviation screen is displayed.
This shows the maximum deviation detected, and indicates that compass correction has been completed successfully.
Note: If the deviation value exceeds 15°, you should consider moving the fluxgate compass to a better location.
7. Press the disp key to move on to the Heading Alignment page.
Chapter 7: Post Installation Procedures
65
8. Use the +1 and -1 keys, or the +10 and -10 keys, to increase or decrease the displayed heading, until it agrees with the ships steering compass or a known transit bearing.
9. Press and hold standby for 2 seconds to exit calibration and save the new settings.
Note: Setup options are always saved on exit.
Further heading alignment adjustment
You should always check the compass alignment after swinging the compass. However, once the initial deviation correction procedure has been performed, you can make adjustments to the alignment as often as you wish, without swinging the compass again.
Although the compass deviation correction procedure removes most of the alignment error, you will probably be left with small errors (of the order of a few degrees) that will vary depending on the heading.
Ideally, you should check the heading reading against a number of known headings, plot a deviation curve, and determine the heading alignment value that will give the lowest average alignment error. This value can then be entered on the Heading Alignment screen, as described above.
If the average heading error is more than 5°, you should perform the compass deviation correction procedure again.
66 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Checking autopilot operation
Having calibrated the compass the following proceedure is recommended to familiarise yourself with autopilot operation:
1. Steer onto a compass heading and hold the course steady.
2. Press auto to lock onto the current heading. A constant heading should be achieved in calm sea conditions.
3. Use the -1, -10, +1 and +10 keys to alter course to port or starboard in multiples of 1° and 10°
4. Press standby and disengage the autopilot to return to hand steering.
Checking the rudder gain
The factory set rudder gain level will provide stable control for initial sea trials. However, vessels can vary widely in their response to the helm, and further adjustment to the rudder gain may improve the autopilots steering characteristics.
It is particularly important that the rudder gain is set correctly on highspeed craft. Incorrect adjustment will lead to poor steering performance and is a dangerous condition at high speed.
The following test will determine whether the rudder gain is set too high or too low.
1. In clear water and with the autopilot in Auto, alter course to starboard by 40° by pressing the + 10 key four times.
At cruising speeds, course changes of 40° should result in crisp turns followed by an overshoot of no more than 5°. If this occurs the rudder gain is adjusted correctly.
An excessively high rudder setting results in oversteer. This is recognised by a distinct overshoot of more than 5° (A). This condition can be corrected by reducing the rudder gain setting.
Similarly, an insufficient rudder control setting will result in understeer which gives sluggish steering performance (B). If the vessel takes a long time to make the turn and there is no overshoot then the rudder setting is too low.
Chapter 7: Post Installation Procedures
67
These actions are most easily recognised in calm sea conditions where wave action does not mask basic steering performance.
2. Refer to Chapter 5, Customising the System, for instructions on how to adjust the default rudder gain setting. Note that you can also make temporary adjustments to rudder gain during normal operation (see section 3.3).
3. Repeat the test until a crisp course change with no more 5° of overshoot is achieved.
The rudder control setting should be set to the lowest setting consistent with accurate course keeping. This will minimise helm movements and hence reduce power consumption and wear and tear.
68 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Chapter 8: Maitenance
Chapter 8: Maintenance
General
In certain conditions, condensation may appear on the LCD window. This will not harm the unit, and can be cleared by switching on the illumination for a while.
Never use chemical or abrasive materials to clean your autopilot. If the pilot is dirty, wipe it with a clean, damp cloth.
Periodically check the cabling for chafing or damage to the outer casing replace any damaged cables.
Servicing and safety
Raytheon equipment should be serviced only by authorised
Raytheon service engineers. They will ensure that service procedures and replacement parts used will not affect performance.
There are no user serviceable parts in your autopilot control unit.
Some products generate high voltages, and so never handle the cables/connectors when power is being supplied to the equipment.
Always report any EMC related problem to your nearest Raytheon dealer. We will use any such information to improve our quality standards.
Advice
Should any difficulties arise with this product, please contact the
Raytheon Product Support department in the UK, or your own national distributor who will be able to provide expert assistance.
The working parts of the drive system are sealed and lubricated for life during manufacture servicing is not required.
Before you consider returning the autopilot, make sure that the power supply cable is sound and that all connections are tight and free from corrosion.
If the connections are secure, refer to the Fault Finding chapter of this handbook. If the fault cannot be traced or rectified, please contact your nearest Raytheon dealer or Service Centre.
Always quote the product serial number, which is printed on the rear cover of the autopilot, and the software version number, which is displayed when you enter Intermediate Setup (see Chapter 5).
69
70 ST6000 Plus Autopilot Control Unit Owner,s Handbook
Chapter 9: Fault Finding
71
Chapter 9: Fault Finding
All Raytheon products are subjected to a comprehensive test procedure prior to packing and shipping. In the unlikely event that a fault does occur with your autopilot, the following check list should help identify the problem and provide a cure.
The autopilot display is blank
No power check the fuse/circuit breaker.
The autopilot display shows CODE LOCK at power on
The CodeLock code must be entered manually (see Chapter 4).
The displayed compass heading does not agree with the ships compass
The compass has not been corrected for deviation carry out the deviation and alignment procedures.
Vessel turns slowly and takes a long time to come on to course
Rudder gain too low.
Vessel overshoots when turning on to a new course
Rudder gain too high.
The autopilot appears to be unstable in Track mode, or trackholding is slow
If tide speed exceeds 35% of boat speed, and boat speed is not available via SeaTalk, change the Cruise Speed setting in Dealer
Setup to the boats cruising speed.
The autopilot appears to be unstable on Northerly headings in the Northern hemisphere and Southerly headings in the
Southern hemisphere
Northerly/Southerly heading correction not set up.
Display shows CAL LOCK when entering calibration
Calibration locked out calibration protection feature is turned on in
Dealer Setup.
72 ST6000 Plus Autopilot Control Unit Owner,s Handbook
The autopilot will not “talk” to other SeaTalk instruments
Cabling problem make sure all the cables are connected properly.
Position information not received
Navigator not transmitting the correct position data.
The autopilot will not auto advance to the next waypoint
No bearing to waypoint information received from the navigator.
A series of rotating dashes are displayed on screen
Compass deviation correction or dockside rudder calibration is running.
The display shows a series of stationary dashes
Data is not being received check the cabling.
The display shows NO DATA
The signals received from the navigator are too weak refer to the navigator handbook for further action.
Index
Index
A
Adjusting the Locked Wind Angle 20
Advance 18
Advanced Operation 13
Advice 69
Alarms 24
Apparent wind angle
Adjusting 20
Previous 21
Auto mode 5
AutoAdapt 45
Automatic Acquisition 14
Automatic Compass Deviation Correction 63
Automatic Deadband 23
Automatic track acquisition 14
AutoRelease 47
AutoSeastate 23
AutoTack 7
To Port 8
To Starboard 7
Vane mode 22
AutoTrim 43
B
Bar graph 4
Bar Selection 35
Basic Operation 3
C
Cabling 50, 69
Calibration Lock 40
Cancelling a Dodge Manoeuvre 18 changed, or if the operating mode is changed.Wind 25
Changing course 5
Changing Course in Auto Mode 5
Changing the Response Level 23
Changing the Rudder Gain 24
Checking Autopilot Operation 66
Checking the Rudder Gain 66
Code number 31
Code Number Problems 32
73
74
Compass alignment 64
Compass Deviation Correction 35
Compass deviation correction 35, 63
Connections to the SeaTalk Bus 52
Control Head 50
Course changes 5 operating hints 9
Course Changes Under Autopilot Control 9
Cross Track Error 16
Cross track error (XTE) 16
Cruise Speed 42
Cruise speed 47
Customising the autopilot 3348
D
Data Not Received 26
Data Pages 11, 36
Setting up 36
Deadband 23
Dealer Setup 38, 3848
Deviation 64
Deviation Display 35
Disengaging the autopilot 5
Display layout 4 djusting Autopilot Performance 23
Dodges 18, 21
Dodging Obstacles 6
Dodging obstacles
Auto mode 6
Track mode 18
Vane mode 21
Drive Stopped 25
Drive Stopped alarm 25
Drive type 44
E
EMC
Conformance 62
Installation Guidelines 49
Engaging the autopilot 5
Entering Your Code 31
ST6000 Plus Autopilot Control Unit Owner,s Handbook
Index
F
Fault Finding 71
Fault finding 71
Functional test 5557 course computer installations 59
Functional Test (Repeater Unit) 55
Further Heading Alignment Adjustment 65
G
Graph use 35
H
Hand steering 5
Heading 6
Heading alignment 35
Heading alignment adjustment 65
Heading mode 35
I
Illumination 10
Initial calibration 59
Initiating a Dodge Manoeuvre 18
Initiating Track Mode 13
Installation 49
Interfaces 56, 60
Intermediate Setup 29
K
Key functions 3
Keypad Illumination 10
L
Large Cross Track Error 25
Large Cross Track Error alarm 16
LAST HDG 6
LAST WND 21
Latitude 46
Lighting 10
Locked Wind Angle 20
Low Battery 26
Low Battery alarm 26
75
76 ST6000 Plus Autopilot Control Unit Owner,s Handbook
M
Maintenance 69
Major Course Changes 9
Man Overboard (MOB) 27
Manual Acquisition 15
Manual mode 10
Manual steering 5
Manual track acquisition 15
Master unit (CodeLock) 29
Minimum Deadband 23
N
Navigation data displays 11
Navigation Interface 56, 60
Navigation interface (GPS, Decca, Loran) 56, 60
NEXT WPT 26
NMEA Cable Connectors 54
NMEA Data Transmission 54
NMEA Interface 53
No Data alarm 26
No Link 25
O
Off Course 25
Off Course Alarm 8, 42
Off Course alarm 8
Default angle 42
Operating Hints 9, 23
Operating modes 1
Operating sense 59
Operation in Vane Mode 19
Overview 1
P
Performance 23
Pilot type 39
Planning the Installation 49
Plot Frequency 19
Position Confirmation at the Start of a Passage 19
Post Installation Procedures 59
Power Steer 43
Previous Apparent Wind Angle 21
Previous heading 6
Previous Locked Heading 6
Index
R
Recommended Settings 39
Recording Calibration Settings 47
Response 41
Response level 23
Default setting 41
Returning to the Previous Locked Heading 6
Rudder bar 35
Rudder Calibration 36
Rudder damping 46
Rudder Gain 40
Rudder gain 24, 40, 66
Rudder Limit 41
Rudder offset 41
S
Safety 18
Sea trial 62
SeaTalk data displays 11
SeaTalk Failure 25
SeaTalk interface 57, 61
Servicing 69
Servicing and Safety 69
Setting Waypoints 19
Skipping a Waypoint 18
Specification 2
Standby mode 5
Steering bar 35
Swinging the compass 63
Switch On 59
T
Testing autopilot operation 66
Testing the system 5557, 59
Tidal stream compensation 16
Track acquisition 13
Track Mode 13
Track mode 1314
Typical SeaTalk Cabling 53
U
User Setup 33
77
78
V
Vane Mode 20
Vane mode 1920
Variation 45
Verifying Computed Positions 19
Version number 31
W
Watch alarm 27
Waypoint Advance 26
Waypoint arrival and advance 17
Wind Shift alarm 22
Wind transducer interface 61
Wind Trim 47
WindTrim 19, 1920
ST6000 Plus Autopilot Control Unit Owner,s Handbook
Limited Warranty Certificate
Raytheon Marine Company warrants each new Light Marine/Dealer Distributor Product to be of good materials and workmanship, and will repair or exchange any parts proven to be defective in material and workmanship under normal use for a period of 2 years/24 months from date of sale to end user, except as provided below.
Defects will be corrected by Raytheon Marine Company or an authorized Raytheon dealer. Raytheon Marine
Company will, except as provided below, accept labor cost for a period of 2 years/24 months from the date of sale to end user. During this period, except for certain products, travel costs (auto mileage and tolls) up to 100 round trip highway miles and travel time of 2 hours, will be assumed by Raytheon Marine Company only on products where proof of installation or commission by authorised service agents, can be shown.
Warranty Limitations
Raytheon Marine Company Warranty policy does not apply to equipment which has been subjected to accident, abuse or misuse, shipping damage, alterations, corrosion, incorrect and/or non-authorized service, or equipment on which the serial number has been altered, mutilated or removed.
Except where Raytheon Marine Company or its authorized dealer has performed the installation, it assumes no responsibility for damage incurred during installation.
This Warranty does not cover routine system checkouts or alignment/calibration, unless required by replacement of part(s) in the area being aligned.
A suitable proof of purchase, showing date, place, and serial number must be made available to Raytheon
Marine Company or authorized service agent at the time of request for Warranty service.
Consumable items, (such as: Chart paper, lamps, fuses, batteries, styli, stylus/drive belts, radar mixer crystals/ diodes, snap-in impeller carriers, impellers, impeller bearings, and impeller shaft) are specifically excluded from this Warranty.
Magnetrons, Cathode Ray Tubes (CRT), hailer horns and transducers are warranted for 1 year/12 months from date of sale. These items must be returned to a Raytheon Marine Company facility.
All costs associated with transducer replacement, other than the cost of the transducer itself, are specifically excluded from this Warranty.
Overtime premium labor portion of services outside of normal working hours is not covered by this Warranty.
Travel cost allowance on certain products with a suggested retail price below $2500.00 is not authorized. When/ or if repairs are necessary, these products must be forwarded to a Raytheon Marine Company facility or an authorized dealer at owners expense will be returned via surface carrier at no cost to the owner.
Travel costs other than auto mileage, tolls and two (2) hours travel time, are specifically excluded on all products. Travel costs which are excluded from the coverage of this Warranty include but are not limited to: taxi, launch fees, aircraft rental, subsistence, customs, shipping and communication charges etc..
Travel costs, mileage and time, in excess to that allowed must have prior approval in writing.
TO THE EXTENT CONSISTENT WITH STATE AND FEDERAL LAW:
(1) THIS WARRANTY IS STRICTLY LIMITED TO THE TERMS INDICATED HEREIN, AND NO
OTHER WARRANTIES OR REMEDIES SHALL BE BINDING ON RAYTHEON MARINE COMPANY
INCLUDING WITHOUT LIMITATION ANY WARRANTIES OF MERCHANTABLE OR FITNESS FOR
A PARTICULAR PURPOSE.
(2) Raytheon Marine Company shall not be liable for any incidental, consequential or special (including punitive or multiple) damages.
All Raytheon Marine Company products sold or provided hereunder are merely aids to navigation. It is the responsibility of the user to exercise discretion and proper navigational skill independent of any Raytheon equipment.
44592_4
21st October 1998
United States of America
Raytheon Marine Company
Recreational Products
676 Island Pond Road
Manchester, NH 03109-5420
U.S.A.
UK, Europe, Middle East, Far East
Raytheon Marine Company
Recreational Products
Anchorage Park, Portsmouth
PO3 5TD, England
Tel
Fax
Tel
Fax
Fax
603-647-7530
603-634-4756
(44) 1705 693611
(44) 1705 694642
Customer support (44) 1705 661228
Factory Service Centers
United States of America
Raytheon Marine Company address as above
UK, Europe, Middle East, Far East
Raytheon Marine Company address as above
Stick barcode label here
Purchased from
Dealer Address
Purchase date
Installed by
Commissioned by
Installation date
Commissioning date
Owner’s name
Mailing address
This portion of card should be completed and retained by the owner.

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Key features
- Autopilot Control Unit
- Multiple steering modes
- Auto mode
- WindTrim mode
- Temporary user control
- Programmable alarms
- Customizable interface