Simrad AP25 Autopilot Instruction manual

MANUAL

SIMRAD AP25

Autopilot

20221495F Sw.1.3 English

Instruction manual

Instruction Manual

This manual is intended as a reference guide for operating and correctly installing the AP25 autopilot.

Great care has been paid to simplify operation and set-up of the

Simrad AP25, however, an autopilot is a complex electronic system. It is affected by sea conditions, speed of the vessel, hull shape and size.

Please take time to read this manual to get a thorough understanding of the operation and system components and their relationship to a complete AP25 autopilot system.

Other documentation material that is included in this manual is a warranty card. This must be filled out by the authorized dealer that performed the installation and mailed in to activate the warranty.

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Simrad AP25 Autopilot

Document history

Rev. A First edition.

Rev. B Minor corrections in text. Table with SimNet/NMEA2000 messages included.

Rev. C FU50 substituted by FU25. Part no. for AC40 Power PCB ass’y, page 136 corrected. Added notes in chapter 3.19. Minor corrections in text and display pictures.

Rev. D Figures 3-6, 3-9, 3-19 and drawing/screen picture on page 39 and 50 corrected. Minor corrections in text. Updated according to autopilot SW

1.2.00

Rev. E Virtual feedback implemented. Minor corrections to text. Applies for SW

1.2.01 and onwards.

Rev. F Correction on page 71, 93 and 150 regarding external alarm on AC10. Use of AT10 for connection of NMEA compass when AC10 is used as autopilot computer, page 90.

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Instruction manual

Contents

1

System description ....................................................................................... 9

1.1

General .................................................................................................. 9

1.2

How to use this manual......................................................................... 9

1.3

System components............................................................................. 10

1.4

AP25 Control Unit .............................................................................. 11

1.5

Autopilot Computer ............................................................................ 11

1.6

RF300 Rudder Feedback unit ............................................................. 11

1.7

Heading Sensors.................................................................................. 12

RC36 Rate compass ............................................................................ 12

RFC35 Electronic Fluxgate Compass (optional) ................................ 12

NMEA compass (optional) ................................................................. 12

Simrad gyrocompasses........................................................................ 12

1.8

Optional equipment............................................................................. 13

R3000X Remote Control .................................................................... 13

JS10 Joystick....................................................................................... 13

FU25 Follow-Up Steering Lever ........................................................ 13

TI25 Thruster Interface ....................................................................... 13

Multiple stations.................................................................................. 14

1.9

Software record ................................................................................... 14

2

Operation.................................................................................................... 15

2.1

Overview............................................................................................. 15

2.2

ON/OFF - Standby mode .................................................................... 16

Flashing course knob icon .................................................................. 17

Alarms ................................................................................................. 17

2.3

AP25 with MSD50 Stern Drive unit................................................... 18

Zero point setting ................................................................................ 18

2.4

Follow-Up steering (FU)..................................................................... 19

2.5

Non-Follow-Up steering (NFU) .........................................................19

2.6

R3000X Remote Control (NFU)......................................................... 20

2.7

JS10 Joystick (NFU) ........................................................................... 20

2.8

Automatic Steering ............................................................................. 21

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Simrad AP25 Autopilot

Heading capture .................................................................................. 21

2.9

Automatic control of steering parameters........................................... 22

Power boat........................................................................................... 22

Sailboat................................................................................................ 23

2.10

Manual Selection of HI/LO Parameters.............................................. 23

2.11

PATTERN steering............................................................................. 24

U-turn .................................................................................................. 24

C-turn .................................................................................................. 25

Spiral-turn ........................................................................................... 26

Zigzag-turns ........................................................................................ 27

Square-turn.......................................................................................... 28

Lazy S-turn.......................................................................................... 29

Depth Contour..................................................................................... 30

2.12

Dodge in AUTO.................................................................................. 32

2.13

Thruster Steering (optional)................................................................ 33

2.14

Tacking in Auto mode ........................................................................ 35

2.15

NoDrift ................................................................................................ 35

Dodge in NoDrift mode ...................................................................... 36

2.16

Navigating with the AP25................................................................... 37

Setting the waypoint arrival circle ...................................................... 39

2.17

Dodge in NAV .................................................................................... 40

2.18

Selecting a different Navigation source.............................................. 41

2.19

Wind vane steering.............................................................................. 41

2.20

Tacking and gybing in Wind mode.....................................................43

Tack and gybe operations ................................................................... 44

Tack and gybe prevent ........................................................................ 44

2.21

Wind steering and navigation ............................................................. 45

Operating in WIND

NAV

mode ............................................................. 47

RACING ............................................................................................. 47

2.22

Multiple station system ....................................................................... 48

2.23

Lock function ...................................................................................... 48

2.24

User Set-up Menu ............................................................................... 50

Alternating Course Knob Icon ............................................................ 50

STANDBY Mode ............................................................................... 50

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Instruction manual

AUTO Mode ....................................................................................... 56

NAV Mode.......................................................................................... 58

WIND Mode ....................................................................................... 58

2.25

Quick Setup......................................................................................... 59

VMG optimizing (RACING).............................................................. 59

Layline steering (RACING)................................................................60

2.26

INFO menu ......................................................................................... 60

Course knob icon ................................................................................ 62

INFO menu flowchart ......................................................................... 62

INFO menu and Main Screen, active unit ..........................................63

INFO menu and Main Screen, inactive or locked unit ....................... 63

3

Installation.................................................................................................. 65

3.1

General ................................................................................................ 65

3.2

Installation checklist ...........................................................................65

3.3

Unpacking and handling ..................................................................... 66

3.4

Determine system configuration ......................................................... 66

3.5

AP25 System Layout .......................................................................... 67

3.6

RF300 Rudder feedback installation................................................... 67

3.7

Autopilot computer installation .......................................................... 69

3.8

Cable connections ............................................................................... 70

3.9

Grounding and RFI ............................................................................. 70

3.10

Drive unit installation.......................................................................... 72

Connecting a reversible pump ............................................................ 74

Connecting a hydraulic linear drive.................................................... 75

Connecting a solenoid valve ............................................................... 75

3.11

Control unit installation ...................................................................... 76

Panel mounting ................................................................................... 76

Alternative panel mounting................................................................. 76

Optional bracket mounting ................................................................. 77

3.12

ROBNET2 network cables ................................................................. 77

AP27 connection................................................................................. 79

3.13

RC36 Rate Compass installation ........................................................ 79

3.14

RFC35 Fluxgate Compass installation ............................................... 81

3.15

R3000X Remote Control installation ................................................. 82

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Simrad AP25 Autopilot

3.16

JS10 Joystick....................................................................................... 82

3.17

S35 NFU Lever installation ................................................................82

3.18

Interfacing ........................................................................................... 83

3.19

SimNet................................................................................................. 83

SimNet network cables ....................................................................... 84

SimNet power and termination ........................................................... 84

3.20

Single NMEA input/output................................................................. 89

3.21

Double NMEA input/output ............................................................... 89

3.22

NMEA output on Port 2...................................................................... 90

3.23

NMEA Compass input........................................................................ 90

3.24

Radar Clock/Data................................................................................ 91

3.25

IS15 Instrument installation................................................................91

3.26

External Alarm.................................................................................... 93

3.27

LF3000 Linear Feedback .................................................................... 93

4

Configuration and setup ........................................................................... 95

4.1

First time turn on................................................................................. 95

4.2

Description of Installation Settings.....................................................96

4.3

Installation Menu ................................................................................ 97

Language selection.............................................................................. 98

4.4

Dockside settings .............................................................................. 100

Boat type ...........................................................................................100

Drive unit voltage.............................................................................. 101

Rudder Feedback Calibration ........................................................... 101

Rudder Test ....................................................................................... 103

Drive engage .....................................................................................105

Rudder Deadband.............................................................................. 105

Wind setup ........................................................................................106

Minimum wind angle (NORMAL)...................................................106

Minimum wind angle (RACING)..................................................... 107

Tack angle (RACING)...................................................................... 107

Tack time (RACING)........................................................................ 107

Wind shift limit (RACING) ..............................................................108

Dockside settings when configured for Virtual Feedback................ 109

4.5

Interface Settings...............................................................................113

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Instruction manual

4.6

Display units .....................................................................................113

4.7

Sea Trial ............................................................................................ 114

Set Rudder zero.................................................................................115

Minimum rudder ............................................................................... 115

Compass calibration.......................................................................... 116

Compass Offset .................................................................................118

Set Thrust Direction .......................................................................... 119

Wind Offset....................................................................................... 120

Wind damping................................................................................... 120

Depth Offset...................................................................................... 121

Automatic tuning...............................................................................121

Transition Speed ............................................................................... 123

Init NAV ........................................................................................... 123

NAV change limit .............................................................................124

Rudder play compensation................................................................ 124

4.8

Parameters ......................................................................................... 125

Manual parameter adjust................................................................... 126

Recall Autotuned?.............................................................................128

4.9

Service Menu .................................................................................... 128

System Data Menu ............................................................................ 129

SimNet and NMEA Data Screen ...................................................... 129

NMEA Port test (AC hardware) .......................................................130

Simnet setup......................................................................................131

Master Reset...................................................................................... 132

Final sea trial..................................................................................... 132

Providing user training...................................................................... 133

5

Maintenance .............................................................................................135

5.1

Control unit ....................................................................................... 135

5.2

Autopilot Computer .......................................................................... 135

5.3

Rudder Feedback...............................................................................135

5.4

Compass ............................................................................................135

5.5

Drive unit .......................................................................................... 135

5.6

Exchange of software programme .................................................... 136

Autopilot Computer .......................................................................... 136

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Simrad AP25 Autopilot

Autopilot Control Unit...................................................................... 137

6

Trouble shooting ...................................................................................... 139

6.1

Alarms ............................................................................................... 139

7

Spare Parts List........................................................................................ 144

8

Technical Specifications .......................................................................... 147

8.1

AP25 Autopilot System ....................................................................147

8.2

AP25 Control Unit ............................................................................ 149

8.3

Autopilot Computers......................................................................... 150

8.4

RC36 Rate compass .......................................................................... 152

8.5

RFC35 Fluxgate compass ................................................................. 153

8.6

RF300 Rudder Feedback................................................................... 153

8.7

R3000X Remote Control .................................................................. 155

8.8

JS10 Joystick.....................................................................................155

8.9

FU25 Steering Lever......................................................................... 156

8.10

IS15 Rudder ...................................................................................... 157

8.11

SimNet............................................................................................... 158

8.12

IP protection...................................................................................... 159

8.13

NMEA and SimNet messages...........................................................160

9

Glossary ....................................................................................................164

10

Index.......................................................................................................... 167

SALES AND SERVICE WORLDWIDE

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System description

1 SYSTEM DESCRIPTION

1.1 General

Congratulations on the purchase of your new Simrad AP25 autopilot system and thank you for selecting what we feel is the most advanced autopilot system available on the market today.

Simrad manufactures a complete range of autopilots for all types of vessels, from recreational boats to merchant marine vessels.

The company's involvement in autopilots began in 1953 with equipment for the North Sea fishing fleet under the brand name

Robertson. Professional mariners around the world acknowledge that the Robertson and Simrad brand names are synonymous with the absolute best in autopilot technology.

The Simrad AP25 autopilot represents yet another step forward in autopilot technology with the intent of providing leisure boats between 30 and 80 foot with a host of new features. Among these the new Virtual Feedback algorithms in the autopilot software enable your autopilot to steer without having to mount a conventional rudder feedback unit.

The autopilot system can be expanded and enhanced with a selection of options and accessories.

The brain in the AP25 autopilot system is the single "intelligent" autopilot computer that communicates on the proprietary

Robnet2 network to establish a reliable digital communication and power distribution network between the units in the autopilot system.

The AP25 autopilot is also equipped with the SimNet data and control network. SimNet provides high speed data transfer and control of Simrad products integrated in a total steering and navigation system.

1.2 How to use this manual

This manual is intended as a reference guide for operating, installing and maintaining the Simrad AP25 autopilot. Great care has been paid to simplify operation and set-up of the AP25.

Please take time to read this manual to get a thorough understanding of the operation and system components and their relationship to a complete AP25 autopilot system.

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Simrad AP25 Autopilot

Other documentation material that is provided with your system includes a warranty card. This must be filled out by the authorized dealer that performed the installation and mailed in to activate the warranty.

1.3 System components

A basic AP25 system consists of the following units (refer to

Figure 1-1):

• AP25 Control Unit with accessories

• Autopilot Computer

• Rate compass

• Rudder Feedback Unit with transmission link

• Drive unit

The basic system can be expanded with multiple fixed and hand held full function control units, hand held remote and steering lever.

10

Figure 1-1 AP25 Basic system

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System description

1.4 AP25 Control Unit

A compact autopilot control for panel, bulkhead or bracket mounting. Large LCD 5” display for readout of autopilot data, mode keys and a rotary course knob. It has two Robnet2 connectors for system interconnection and expansion and two

SimNet connectors for control and data sharing with other

Simrad products. A NMEA2000 Adaptor Cable is available for

interface through a SimNet port (page 146).

1.5 Autopilot Computer

The autopilot computer is the heart in the AP25 autopilot system.

It contains the steering computer, interface to other system components, NMEA 0183 interface and drive electronics for the drive unit motor and clutch. Three models, AC10, AC20 and

AC40 are available.

Autopilot computer comparison chart:

Supply voltage 10-28 V 10-40 V

Motor current (continuous/peak) 6/12 A 10/20A (20/40A)

Clutch/bypass current

Number of control units

1,5 A*

2

1,5 A*

7

NMEA 0183 ports (input/output)

Solenoid output

Input for NFU control

External alarm

1 x x

2 x x x

Radar clock/data interface

Input for NMEA compass

* 3A on later models x x

1.6 RF300 Rudder Feedback unit

Rudder feedback unit with transmission link and 10 m (30 feet) of cable. Transforms the angular travel of the rudder to a digital signal read by the autopilot steering computer.

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Simrad AP25 Autopilot

1.7 Heading Sensors

The AP25 autopilot can be used with the following combinations of heading sensors:

RC36 Rate compass

Fluxgate compass with integrated rate sensor. Provides a dramatic improvement to the dynamic performance of both the autopilot and a stabilized radar display.

RC36 comes as standard with the autopilot.

RFC35 Electronic Fluxgate Compass

(optional)

A compact heading sensor from Simrad with 15 m (45 feet) of cable. The direction of the earth's magnetic field is sensed by a floating ring core in a fluxgate coil and transformed to a digital signal read by the autopilot steering computer.

RFC35 can operate as a low cost back-up compass for the AP25 autopilot.

NMEA compass (optional)

A well performing compass that outputs NMEA 0183 HDT or

HDG messages at 10 Hz can be connected directly to the AC20 or AC40 autopilot computer.

The AC10 Autopilot Computer has no port for NMEA compass input.

It is absolutely necessary for the autopilot that the heading rate is minimum 10 Hz.

Simrad gyrocompasses

Depending on the model there is direct NMEA0183 interface or you will need an optional GI51 interface unit to get NMEA0183 interface. Ask your Simrad dealer for information.

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System description

1.8 Optional equipment

A series of optional equipment are available for the basic AP25 system.

R3000X Remote Control

A small handheld remote control with two push buttons for power steering or course selection (port and starboard), and one push button with built-in lighted indicator for limited mode change.

Note !

JS10 Joystick

The JS10 Joystick is a Non-Follow-Up steering lever designed for indoor and outdoor console mount. It has a spring-loaded return-to-mid-position feature and is equipped with 10 m (33’) of cable and installation hardware.

FU25 Follow-Up Steering Lever

Not applicable for Virtual feedback configuration (page 66).

The FU25 Follow-up steering lever features a dial with 5° rudder angle markings. The rudder will move and stop at the angle selected on the dial. The FU25 has a mid-position indent, buttons for (limited) mode selection, and mode indicators. It is designed for indoor and outdoor bulkhead or flush panel-mounting.

Refer to the FU25 manual for more information.

TI25 Thruster Interface

The TI25 Thruster Interface is designed to provide a control signal for operating a thruster interfaced to an AP25 system. It operates on/off solenoids, or a Danfoss PVEM valve. The

Danfoss valve is a proportional valve that will provide full thruster performance with the output from TI25. The thruster output signal is calculated in the TI25 based on the mode of operation and the heading information. Set-up is from the control unit communicated via Robnet2. All settings are stored in the thruster interface unit.

Refer to the TI25 manual.

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Simrad AP25 Autopilot

Multiple stations

Multiple control units can be added to the system. See

comparison chart on page 11.

1.9 Software record

When the system is switched on, a status display shows the software versions for the control unit and the autopilot computer.

See page 16.

Software version Description

SW 1.1.00 First issue

SW 1.2.00

SW 1.2.01

SW 1.3.00

NoDrift mode implemented. Easy access to

NAV source selection. Selectable NAV change limit implemented. Steering parameters can be changed in Auto mode.

User Setup menu re-edited. Outboard selectable as boat type in dockside setup.

Improvement in Wind mode algorithms.

Depth contour pattern implemented. New

INFO page showing SOG/Depth.

Virtual feedback implemented.

Anomalies in Setup and in French and

German language repaired. Updated according to NMEA2000 ver. 1.100.

Note ! Units with SW 1.2.00 and onwards are not compatible with units with SW 1.1.00.

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Operation

2 OPERATION

WARNING ! An autopilot is a very useful navigational aid, but DOES

NOT under any circumstance replace a human navigator.

Do not use automatic steering when:

• In heavy traffic areas or in narrow waters

• In poor visibility or extreme sea conditions

• When in areas where use of autopilot is prohibited by law

When using an autopilot:

• Do not leave the helm unattended

• Do not place any magnetic material or equipment near heading sensor used in the autopilot system

• Verify at regular intervals course and position of vessel

• Always switch to Standby mode and reduce speed in due time to avoid hazardous situations

2.1 Overview

Multifunction LCD

STANDBY mode/POWER on/off

AUTO mode

NAV or WIND mode

INSTRUMENT screens/ setup menus

PORT key

TURN/ DODGE key

STARBOARD key

Course knob

Figure 2-1 AP25 Front Panel

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Simrad AP25 Autopilot

The control unit shown above can operate as a stand alone unit in an autopilot system or combined in a multistation system. In a multistation system the command can easily be transferred from one unit to another. Units not in control will display "Inactive" and/or .

The AP25 system is capable of the following primary steering modes: STBY (power steering), AUTO, NAV and WIND, each mode having a dedicated push button.

Each of the mode push buttons is clearly identified with the primary function in large text, and a secondary function listed in smaller text. Each button provides you with a multiple function mode display.

A group of user adjustable settings are provided in the AP25

User Setup Menu (page 50).

Alarms are presented in plain text to alert you of system and external data failure conditions. Alarms include both audible and

visual presentations. The alarm listing is on page 139.

2.2 ON/OFF - Standby mode

Note !

At first time turn on see chapter 4.1.

A single press on the STBY button switches the system ON and the following status displays are shown:

Autopilot model

Software version

Simrad

AP25

SW 1.2.01

HW rev. 00

Sn xxxxxx

SimNet no.

Software release

Hardware revision

Autopilot computer model

Software version

Simrad

AC20

SW 1.2.01

P00 M00 S000

Power board revision

Main board revision

Software release

Self check

SW and HW revisions shown are examples only.

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Note !

Operation

After approximately 5 seconds, the system is operative and the unit that was turned on will show the Standby mode display.

Other units in a multistation system will display "Inactive".

Control is transferred to any single unit by pressing its’ STBY button.

A long press (2-3 sec.) on the STBY button switches the system

OFF and during this time, the alarm will sound.

In an emergency, it is possible, on a multistation system, to turn

OFF the system at any control unit by pressing the STBY button for 2-3 seconds.

STBY mode is the mode that is used when steering the boat at the helm.

Display information:

− Standby mode

− Current heading 345°

− Rudder angle 1° to starboard.

Note ! When the autopilot operates on Virtual feedback, the numerical indication of the rudder angle is omitted.

Virtual feedback

See pages 67 and 109 about Virtual feedback.

Flashing course knob icon

When the course knob and the PORT/STBD buttons are used for settings etc., an icon will flash on the screen to tell that no course changes can be made unless you press the AUTO button.

Alarms

In the event there is an audible alarm with explaining text on the

control unit, refer to section 6, Trouble shooting.

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Simrad AP25 Autopilot

2.3 AP25 with MSD50 Stern Drive unit

Note ! The information in section 2.3 only applies if your autopilot is driving a Simrad MSD50 Stern Drive.

The MSD50 Stern drive unit has a relative feedback signal which needs a zero point setting after the autopilot has been turned on.

Refer to the MSD50 manual for further information.

Note !

Zero point setting

If you do not need a rudder angle display when leaving the dock, just steer the boat manually on a straight course and press the

AUTO button. The zero point is then set automatically.

If you prefer to use the rudder angle display when leaving the dock, proceed as follows:

After turn on the rudder angle display will alternate between

10 degrees port and starboard to indicate that the "rudder" zero point need be set.

18

Use the wheel to bring the "rudder" to midship position. Turn the wheel from lock to lock (H.O. to H.O.) and count the exact number of turns. Then start from one lock position and turn the half number of turns.

Press AUTO and then STBY. The zero point is now set and the display will show:

Follow the operating instructions on the following pages. There is no further need for zero point settings until next time you turn the autopilot on.

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Operation

2.4 Follow-Up steering (FU)

Note !

Not applicable for Virtual feedback configuration (page 67).

In the Follow-Up steering mode the course knob may be used to set rudder commands. The commanded rudder angle is shown on the display and the rudder will move to the commanded angle and stop.

Press both buttons simultaneously to activate

Follow-Up

Use course knob to command rudder angle

WARNING ! While in Follow-up mode you cannot take manual control of the wheel.

Return to manual control in Standby by pressing the STBY button

2.5 Non-Follow-Up steering (NFU)

In Standby mode, the NFU display is presented when the PORT or STBD button is pressed. The rudder will move as long as the button is pressed and the rudder angle is shown on the display.

Note !

Activates

PORT rudder command

Activates

STBD rudder command

When a NFU steering lever or remote control is operated, other control units become “Inactive”.

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Simrad AP25 Autopilot

2.6 R3000X Remote Control (NFU)

SIMRAD

STBY-AUTO

Simrad R3000X

Push button for

Port and Stbd commands

STBY/automatic.

Automatic modes are active when the lamp is lit.

In STANDBY mode, the rudder will move as long as the Port or Stbd button is pressed.

In AUTO mode and Wind modes the set course or set wind angle will change 1° each time the button is pressed.

Note!

If you keep the button pressed, it will automatically change the setting in increments of 3° per second.

Mode changes are as per table below.

Initial mode 1 st press 2 nd press

STBY

AUTO

NAV

STBY

AUTO

WIND

WINDN

AUTO

STBY

STBY

WIND

STBY

STBY

STBY

STBY

AUTO

AUTO 1)3)

STBY 2)

WIND 2)

WIND 2)

WIND 3)

Notes !

1. When NAV mode is selected in User Setup

2. When WIND mode is selected in User Setup

3. NAV and WIND

N

modes can only be entered from the

Control unit because you have to accept the prompt displays.

2.7 JS10 Joystick (NFU)

Note !

The principle is similar to that of R3000X Remote Control (see above). The rudder will move as long as the lever is offset to

Port or Starboard. JS10 has no mode change feature.

When a NFU steering lever or a remote control is operated, the control units and FU25 become "Inactive".

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Operation

2.8 Automatic Steering

When AUTO mode is selected, the AP25 automatically picks the current boat heading as the set course and maintains the simultaneous rudder angle. This gives a bumpless transfer at the mode change.

Automatic steering mode

Set course: 340 degrees

Compass reading: 340°M

Heading source: Rate compass

Rudder angle: 00°

Speed: 8.1 kt water speed from the log

Steering parameter: LO-A

The AP25 will keep the boat on the set course until a new mode is selected or a new course is set with the course knob or the

PORT or STBD buttons. One revolution of the course knob equals a 45 ° course change.

Note !

Decrease Increase

Course adjust 1°

(or 10°)/ push

Course change

CCW: Decrease CW: Increase

On power boats it is possible in the User Setup menu to set the buttons to change the course by 10° per press (see page

55).

Once the course is changed to a new set course, the boat will automatically turn to the new heading and continue to steer straight.

Heading capture

When in AUTO or NoDrift modes this feature allows you to automatically cancel the turn you are in by an instant press on the AUTO or NAV button (NoDrift). The autopilot will counteract the turn and the boat will continue straight ahead on the heading read from the compass the very moment you pressed the AUTO or NAV (NoDrift) button.

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Simrad AP25 Autopilot

Automatic steering mode

New “captured” heading: 305 degrees

Compass reading: 301° M (Magnetic) or

T (True)

Heading source: Rate compass

Rudder angle: 01° to stbd.

Speed: 8.1 kt water speed from the log

Steering parameter: LO-A

Regain manual steering by pressing the STBY button

2.9 Automatic control of steering parameters

The AP25 provides two different sets of steering parameters for controlling the response of the boat at different speeds or wind directions while in AUTO, NAV or WIND modes.

Power boat

The AP25 selects the LO (response) steering parameters when engaging an automatic mode from STBY provided there is no speed input. This is a safety feature. When entering an automatic mode at low speed, the steering parameters may be changed to

HI automatically by input data from a speed log or a GPS navigator, or manually.

The speed at which the AP25 automatically changes from LO to

HI parameters (or opposite) is determined by the "Transition

Speed" set in the Installation Setup Menu (Sea trial). See diagram below.

Legend

HI-A High response parameters set automatically

LO-A Low response parameters set automatically

HI-M High response parameters set manually

LO-M Low response parameter set manually

22

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Operation

26

24

22

20

18

8

6

4

2

0

16

14

12

10

Speed

HI r esp ons e p ara me ters

LO

res pon se p ara me ters

Transition to LO parameters with increasing speed: 10 Knots

Transition Speed set to 9 Knots

Transition to HI parameters with decreasing speed: 8 Knots

Sailboat

When sailing in WIND mode, the parameters are automatically changed by the direction of the wind as per below or by the boat speed.

The transition between HI and LO parameters and vice versa will have a different characteristics with regards to the wind angle compared with the transition controlled by the speed of the boat.

If you loose too much speed e.g. when tacking, the parameters will change to HI to gain sufficient rudder response. This should be observed when setting the transition speed on sailboats.

2.10 Manual Selection of HI/LO Parameters

Manual selection of HI/LO parameters is necessary if there is no speed input to the autopilot or if you want to override the automatic control.

To toggle between LO and HI parameters, press the "AUTO" button two times quickly.

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Simrad AP25 Autopilot

Quick double press

Notes !

1. If you are in NAV or WIND modes you need not enter AUTO mode to manually change the parameter set. Just make a quick double press on the AUTO button.

2. The manually selected setting (HI or LO) will override the automatic selection and remain in effect until you re-enter any automatic mode from STBY.

2.11 PATTERN steering

The AP25 offers a number of different pattern steering features when in AUTO mode. The U-turn pattern is always available.

Other turn patterns can be selected under the User Set-up 2

menu. Refer to Turn Pattern select on page 55.

U-turn

This feature is very useful in a man overboard situation and whenever you want to steer back on a reciprocal heading.

U-Turn changes the current set course to be 180 degrees in the opposite direction. The user must decide whether the U-Turn should be made to Port or Starboard when bringing the boat on the new course. U-Turn is activated by a quick press on the

TURN/DODGE button. The AP25 will continue on the set course until you press either the PORT or STBD button to select the direction to make the U-Turn. If you do not press PORT or

STBD within 1 minute, the AP25 will return to the AUTO mode and stay on course.

Press

TURN/DODGE to enter TURN mode

Select STBD

U-turn

Boat makes

STBD Uturn

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Operation

C-turn

The AP25 provides a continuous turn feature when in AUTO mode. This may be used for circling fish or a particular object on the seabed.

C-turn makes the boat turn in a circle with a constant rate of turn.

The user decides whether the C-turn should be made to Port or to

Starboard.

Ensure that the C-turn pattern has been selected under the User

Set-up 2 menu. Refer to Turn Pattern select on page 55.

To enter C-turn mode:

First select U-turn with a press of the TURN/DODGE button.

Then select C-turn by another press of the TURN/DODGE button.

The AP25 will continue on the set course until you press either the PORT or STBD button to select the direction in which to make the C-turn. If you do not press PORT or STBD within 1 minute, the autopilot will return to AUTO mode and stay on course.

The turn rate can be adjusted before the turn is initiated and during the turn. Increasing the turn rate yields to a smaller circle and vice versa.

To exit C-turn mode, press any of the mode buttons.

When pressing the AUTO button, the new set course is shown in the upper portion of the display.

Boat turning port

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25

Simrad AP25 Autopilot

Spiral-turn

The spiral turn feature may also be used for circling fish or when searching a particular object on the seabed.

Spiral-turn makes the boat turn in a spiral with a decreasing or increasing rate of turn. The user decides whether the spiral-turn should be made to Port or Starboard.

Ensure that the Spiral-turn pattern has been selected under the

User Set-up 2 menu. Refer to Turn Pattern select on page 55.

To enter Spiral turn mode:

Press the TURN/DODGE button repeatedly until SPIRAL is flashing in the display.

The initial rate of turn can be adjusted before the turn is initiated. Increasing the ROT yields to a smaller circle and vice versa. Adjustable range is 10 to

600°/min.

The AP25 will continue on the set course until you press either the PORT or STBD button to select the direction in which to make the spiral turn. If you do not press PORT or STBD within 1 minute, the autopilot will return to AUTO mode and stay on course.

Boat turning starboard

Select “spiral increase” to move outwards in the spiral and “spiral decrease” to move inwards. Higher number gives a wider spiral. When Spiral 0 the boat will turn in a circle. Range: 0-9.

26

Increase 5

To exit spiral-turn mode, press any of the mode buttons. When pressing the AUTO button, the new set course is shown in the upper portion of the display.

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Operation

Zigzag-turns

A zigzag turn pattern is also available when in AUTO mode.

The user decides whether the first turn should be made to Port or

Starboard.

Ensure that the zigzag-turn pattern has been selected under the

User Set-up 2 menu. Refer to Turn Pattern select on page 55.

To enter zigzag turn mode:

Press of the TURN/DODGE button repeatedly until ZIGZAG is flashing in the display.

The course change can be set before the turn is initiated. (Range: 2-70°).

The AP25 will continue on the set course until you press either the PORT or STBD button to select the direction in which to make the first course change. If you do not press PORT or STBD within 1 minute, the autopilot will return to AUTO mode and stay on course.

Boat turning starboard

While sailing in a zigzag pattern you can alter the course change (4-140°), time on the leg (1-20 min.), and the set course. An arrow shows the direction of the course change.

Initial course change 20°

Main course

Course change 40° Time on leg

To exit zigzag-turn mode, press any of the mode buttons. When pressing the AUTO button, the new set course is shown in the upper portion of the display.

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Simrad AP25 Autopilot

Square-turn

The square turn feature in AUTO mode can also be made a rectangle or any pattern when the next turn is 90°.

The user decides whether the first turn should be to Port or

Starboard.

Ensure that the Square-turn pattern has been selected under the

User Set-up 2 menu. Refer to Turn Pattern select on page 55.

To enter Square turn mode:

Press of the TURN/DODGE button repeatedly until SQUARE is flashing in the display.

The time between each 90° course change can be adjusted before the turn is initiated (1-30 min.).

The AP25 will continue on the set course until you press either the PORT or STBD button to select the direction in which to make the first course change.

If you do not press PORT or STBD within 1 minute, the autopilot will return to AUTO mode and stay on course.

Boat turning to starboard

When the square turn is selected you can change the time between each course change (1-20 min.) hence the length of the leg. While you are on the leg you can also change the time and thus change the shape of the pattern. You can also at any time change the set course.

To exit square-turn mode, press any of the mode buttons. When pressing the AUTO button, the new set course is shown in the upper portion of the display.

Time

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Operation

Lazy S-turn

The AP25 also provides a lazy S-turn feature when in AUTO mode.

The user decides whether the initial turn should be made to Port or to Starboard.

Ensure that the lazy S-turn pattern has been selected under the

User Set-up 2 menu. Refer to Turn Pattern select on page 55.

To enter Lazy S-turn mode:

Press of the TURN/DODGE button repeatedly until LAZY S is flashing in the display.

The course change can be adjusted before the turn is initiated (2-80°).

The AP25 will continue on the set course until you press either the PORT or STBD button to select the direction in which to make the first course change.

If you do not press PORT or STBD within 1 minute, the autopilot will return to AUTO mode and stay on course.

While in a Lazy-S pattern you can alter the course change magnitude (4-160°), the frequency or rate of change (1-9) and the main course. An arrow shows the direction of the turn.

Boat turning to port

Initial course change

Main course

Course change Low rate

High rate

Main course

To exit Lazy S-turn mode, press any of the mode buttons. When pressing the AUTO button, the new set course is shown in the upper portion of the display.

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Simrad AP25 Autopilot

Depth Contour

Steering to a depth contour is also an AUTO mode feature. With input from an echo sounder, the autopilot can be set to steer the boat to a set depth. This is very useful if you want to follow a depth contour.

Smooth seabed Rocky waters

Caution ! Do not use this feature unless the seabed is suitable. Do not use it in rocky waters where the depth is varying significantly over a small area.

Ensure that the depth-turn pattern has been selected under the

User Set-up menu. Refer to Turn Pattern select on page 55.

Make sure you have depth reading available in the system. Press the TURN/DODGE button repeatedly until DEPTH is flashing in the display. The actual depth reading is shown on the display.

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Operation

Select depth slope with the course knob. “/” means shallow is to starboard, “\” means shallow to port.

Steer the boat to the depth you want to track and in the direction of the depth contour (main course).

When the wanted depth is shown in the display, activate the depth contour steering with PORT or

STBD button (any of the two).

If you do not press PORT or STBD within 1 minute, the autopilot will return to AUTO mode and stay on course.

The display has the following menu items:

Reference depth

The reference depth is captured when the Depth pattern is activated. To change the reference simply use the PORT or

STBD button or the course knob.

Depth gain

The autopilot is tracking the depth by computing an x-track error when the boat is off the reference depth. This error automatically adjusts the set course to bring the boat back on track.

Use the gain control to have a firm or smooth response to the variation in depth.

Range: (05-95)

Main course

This should be the main (average) direction of the depth contour you want to follow. If the contour line is making a big change in direction, you should manually adjust the set course to the new direction. This will result in a quicker response from the autopilot. If the course is not adjusted, the autopilot will need more time to turn and steer the boat back to the reference depth.

Contour Cross Angle (CCA)

With this parameter you can make the boat lazy-s across your reference depth. With the CCA set to zero there is no S-ing. The

CCA is an angle that is added to or subtracted from the set

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Simrad AP25 Autopilot course. Each time the boat crosses the reference depth the sign

(+/-) of the CCA is changed and makes the boat turn to cross the reference depth contour in the opposite direction. The larger the

CCA the bigger the turn.

CCA set to 15 degrees

Approaching reference depth from port

Reference depth

CCA set to 15 degrees

Approaching reference depth from starboard

Range: (0-50)

2.12 Dodge in AUTO

Dodging is useful in situations where you need to quickly take control of the helm to steer around an obstruction, and then resume the previous set heading. Dodging is activated by a quick double press on the TURN/DODGE button.

When in DODGE mode the displayed set course is the last one set prior to activating the dodge function. When DODGE is displayed, the AP25 is no longer in control of the steering, and you must either manually steer the boat in STBY mode or take control using Non Follow Up or Follow Up steering. On manual steering (STBY mode) the clutch or bypass valve in the drive unit will be disengaged. The AP25 will remain in the DODGE mode until you exit DODGE by a second press on the

TURN/DODGE button or select a mode.

Quick double press on TURN/

DODGE to activate Dodge mode

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Operation

Perform dodging in one of the following ways:

1. Manually steer the boat by the wheel:

Note !

2. Non Follow Up steering by pressing:

or or using NFU steering lever

3. Follow Up steering by pressing both: and using the course knob

To return from Dodge mode, press one of the following:

Selects AUTO mode and returns to the last set course or

Selects AUTO mode with the current heading as the set course

Using NFU or FU modes while dodging will make “NFU” or

“FU” flash instead of “DODGE”.

2.13 Thruster Steering (optional)

If the boat is equipped with an appropriate thruster (page 13), it

can be connected to the AP25 system and the boat can then be controlled by rudder and thruster.

When the AP25 is controlling the thruster you may:

• Have excellent course and track keeping performance at very low speeds (AUTO or NAV modes).

• Have automatic heading control when stationary, e.g. keep the bow into the wind and/or the waves.

• Provided the warf has no steel construction you can use

AUTO mode to keep the bow steady when docking.

A thruster icon below the mode index confirms that a thruster is connected to the system (via TI25 Thruster Interface).

From the User Set-up Menu (page 52) you can switch the

thruster on and off. When the thruster is switched on, both rudder and thruster is used to maintain the heading. If the boat speed exceeds 6 knots the thruster is automatically disabled.

Examples of display pictures:

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33

Simrad AP25 Autopilot

STANDBY

Non-Follow Up steering mode

AUTO mode

Heading to be maintained by rudder

Heading to be maintained by rudder and thruster

Note !

Heading maintained by rudder

Heading maintained by rudder and thruster

When operating an On/Off thruster be aware that most electrical thrusters have a built in thermal cut-off switch. The switch will shut off the motor if it is overheating and re-engage it when it has cooled down. The water temperature also affects the running time. The On/Off thruster may only run for a few minutes, and the total running time for a longer period should be limited by

increasing the thruster sensitivity value (see page 57).

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Operation

2.14 Tacking in Auto mode

The tack function is only available in sailboats when the system is set up for SAIL boat type in the installation setup.

Tacking in AUTO mode is different from tacking in WIND mode. In AUTO mode the tack angle is fixed and can be set in the Installation/Dockside menu. Default tack angle is 100°.

Tacking should only be performed into the wind and must be tried out in calm sea conditions with light wind to find out how it works on your boat. Due to a wide range of boat characteristics

(from cruising to racing boats) the performance of the tack function may vary from boat to boat. Except for the fixed course change and the difference in displays, the procedure is similar to

that of the U-Turn described on page 24.

Press

TURN/DODGE to enter TACK mode

Select

STBD tack

Boat makes

STBD tack

2.15 NoDrift

Note ! The source when operating in NoDrift mode is the Position (Pos) source.

The NoDrift mode is an alternative to route steering in NAV mode, and is automatically entered when you press the

NAV WIND button provided NoDrift has been selected in the

(user) SETUP menu.

The autopilot will steer to an imaginary waypoint and the bearing is the boat’s heading at the very moment the NoDrift mode is engaged.

Unlike when in Auto mode the vessel will steer a course equal to the bearing line unaffected by wind and current (no drift).

The course to steer to (bearing line) can be changed the same way as when changing course in Auto mode.

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35

Simrad AP25 Autopilot

Note !

Select NoDrift in the Setup menu when in STANDBY or AUTO mode. Press the NAV WIND button to enter NoDrift mode. The NAV

WIND key is now programmed to always activate the NoDrift mode. If you want the key to activate NAV mode, enter the User Setup menu and select NAV.

NoDrift mode

Set course: 345

NoDrift indicator: 0.000nm

Pos Source: CP34

Heading: 345°M

To operate in NoDrift mode your GPS/chart plotter must be turned on.

Dodge in NoDrift mode

This is similar to dodging in Auto mode.

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Operation

2.16 Navigating with the AP25

Note !

Note !

Note !

The source when operating in NAV mode is the Navigation (Nav) source.

The AP25 has the capability to use steering information from an external navigator (GPS, Chart Plotter) to direct the boat to a specific waypoint location, or through a route of waypoints. In the NAV mode, the AP25 uses the compass as heading source for course keeping. The information received from the navigator alters the set course to keep the boat on the track line and direct the AP25 to the destination waypoint.

Navigational steering should only be used in open waters. By selecting the NAV mode, the AP25 is set for automatic steering on the current set course and then waits for the user to accept the course change to the track line or destination waypoint.

To obtain satisfactory navigation steering, the following points must be fulfilled prior to entering the NAV mode:

• The AP25 autosteering must be tested and determined satisfactory.

• The navigation receiver (GPS, Chart Plotter) must be in full operating mode with adequate signal characteristics for valid position and navigation data.

• At least one waypoint must be entered and selected as the current “Go to” waypoint.

• The navigation receiver (source) for the autopilot will be the one that is automatically selected in the interface set-up or manually selected in the User setup2 menu item called

“Source select” (page 52).

The AP25 is designed to steer in “mixed mode” operation. This combines the straight steering capability of cross track error

(XTE) steering in conjunction with the turning capability of bearing mode steering (Course To Steer, CTS) and automatic

Waypoint shift.

If the AP25 is connected to a navigation receiver that does not transmit a message with bearing to next waypoint, it will pick a

XTE message and steer on Cross Track Error only. In that case you have to revert to AUTO mode at each waypoint and manually change set course to equal bearing to next waypoint and then select NAV mode again.

Press the NAV button to activate the NAV prompt display.

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37

Simrad AP25 Autopilot

Note !

Note !

The prompt display shows the name or number of the next waypoint

(WP), the bearing of the track line

(BWW) from the previous waypoint to the destination waypoint, the required course change (CHG) and the direction in which the boat will turn.

If only one waypoint has been entered the bearing will be from the present position to the destination waypoint.

The lower left portion shows the compass heading and the lower right portion shows the rudder angle and speed.

Press the NAV button again to accept the waypoint as the location to steer towards. The autopilot turns the boat onto the track line.

− NAV mode

− Course to steer (CTS): 211 is set internally by the autopilot to steer the boat onto the track line.

− Cross track error (XTE): 0.017 nm to stbd.

− NAV data source: CE34-1

− Compass heading: 345° M.

− Next waypoint: Egersund

− Bearing from current position to the next waypoint (BPW) :

270°M

− Distance to waypoint: 10 nm

For Cross Track Error, the number of decimals shown depends on the output from the GPS/chart plotter. Three decimals give a more accurate track keeping.

When operating the AP25 in NAV mode to steer through a route of waypoints, the AP25 will steer to the first waypoint in the route after you accept the first waypoint as the location to steer towards. When you arrive at the waypoint, the AP25 will output an audible warning, display an alert screen with the new course information, and automatically change course onto the new leg.

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Operation

Note ! If the required course change is more than the NAV change limit

(default 10

°

), you have to verify that the upcoming course

change is acceptable. This is a safety feature. See page 124 on

how to change the ‘NAV change limit’.

Alert screen. Press NAV button to verify course change larger than 10°.

If no verification is received, the

AP25 will continue on the current set course in AUTO mode.

Regain manual steering by pressing the STBY button

Setting the waypoint arrival circle

For route navigation it is recommended to use automatic waypoint shift/change at a set waypoint arrival circle.

The arrival circle should be adjusted according to boat speed.

The higher speed, the wider circle. The intention is to make the autopilot start the heading change in due time to make a smooth turn onto the next leg.

The figure below may be used to select the appropriate waypoint circle on the GPS/chart plotter.

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39

Simrad AP25 Autopilot

Note !

Example: With the speed of 20 knots you should use a waypoint circle with radius 0.09 nm.

The distance between any waypoints in a route must not be smaller than the radius of the waypoint arrival circle when using automatic waypoint shift.

2.17 Dodge in NAV

When dodging in NAV mode, the course displayed as Course To

Steer (CTS) is the boat’s recommended heading. However, the previous set course is stored by the AP25. When DODGE is flashing on the display, the AP25 is no longer in control of the steering and you must either steer the boat manually or take control using either Non-Follow-up steering or Follow-up steering. On manual steering, the clutch (or bypass valve) in the drive unit will be disengaged when dodging. The AP25 will remain in the DODGE mode until you exit DODGE by a second press on the TURN/DODGE button or until you select another mode.

Perform dodging the same way as in AUTO mode above.

Quick double press on

TURN/DODGE to activate Dodge mode

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Operation

To return from Dodge mode, press one of the following:

1.

Returns to NAV mode at present position with a new NAV prompt. Keeps all offset estimates

(Wind/current etc.) in the algorithms

(recommended).

2.

Selects NAV mode at present position with a new NAV prompt. May result in a less accurate return to the track.

3.

Selects AUTO mode with the current heading as the set course.

2.18 Selecting a different Navigation source

If you have more than one navigation source connected to the

AP25, you will be able to choose any for navigation. Refer to the

“Source select” item in the User Set-up 2 menu for details on

selecting a different navigator (page 52).

2.19 Wind vane steering

Note !

Prior to entering WIND mode the AP25 system should be operating in AUTO, with valid input from the selected wind transducer. The WIND mode is only available if the system has been set up for SAIL-boat in the Installation/Dockside Menu, and the NAV/WIND source is set to WIND under the USER

SETUP menu. (Refer to page 50).

Enter the WIND mode by pressing the NAV/WIND button.

The set course to steer (CTS) and set wind angle are entered from the compass heading and the wind transducer when at the moment the WIND-mode is selected. From that point the autopilot will change the course to maintain the wind angle as the wind direction may change.

If the cumulative shift of the wind direction exceeds a set limit from the time a new wind angle is set, a WIND SHIFT alarm will sound.

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41

Simrad AP25 Autopilot

The display will show the set wind angle. Adjustments to this set angle can be made by using the course knob or PORT or STBD button.

The display also presents heading and rudder angle.

Wind (vane) mode

Set wind angle: 044 degrees from stbd.

Measured wind angle: 041°A (apparent)

(T = True)

Course to steer: 309°

Compass reading: 311° M (magnetic)

T (true)

Rudder angle: 01° to port

Speed over ground (SOG): 8.0 kts

Parameter: LO-A (Low response, automatic set)

Steer port Steer stbd.

Adjust set wind angle 1°/push Major wind angle adjust

CCW: Steer port CW: Steer stbd

Regain manual steering by pressing the STBY button

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Operation

2.20 Tacking and gybing in Wind mode

In WIND mode there is a tacking and gybing aid function.

Tacking in WIND mode as compared to AUTO mode can be performed when sailing with apparent or true wind as the reference, and with a true wind angle of less than 90 degrees.

The tacking operation will immediately mirror the set wind angle to the opposite side. A tacking-message will flash on the display for 5 seconds. Any new command given when the message is flashing, will interrupt the tack operation. The rate of turn during the tack will be given by the ‘Tack time’ parameter set in the

Installation/Dockside menu (page 107).

A quick press on the TURN/DODGE button will activate the tack function and the boat will start turning to the same wind angle on the other side.

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43

Simrad AP25 Autopilot

Tack and gybe operations

Gybing is possible when the true wind angle is larger than 120°.

When a gybe is initiated, the wind angle will first be set to

170°T on the same side as the current wind angle. The main sail should now be hauled.

With the main sail safely hauled, the wind side may be changed. This is done by pressing either PORT or

STBD buttons depending on the way the boat should continue to turn. The new set wind angle will then become the same as the wind angle set before the gybe operation started.

The rate of turn when changing wind side in a gybe will be the highest possible, determined by the performance of the drive unit.

Tack and gybe prevent

When beating and running, sailing is at the most critical.

If the sails are unbalanced when beating, yaw forces from the sails can drive the boat into the wind. If the boat is driven beyond the minimum wind angle, the thrust from the sails will suddenly disappear and the boat speed reduced. Then the boat will be even more difficult to steer because the rudder will become less effective.

The tack prevent function in WIND-mode has been implemented to avoid such situations. It will react immediately when the apparent wind angle becomes 5° less than the set minimum wind angle. Additional amount of rudder will be commanded to immediately increase the wind angle.

When running, it is difficult to steer the boat with waves coming sideways or from behind. The waves may yaw the boat so that

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Caution !

Operation the wind side is shifted and an unwanted gybe may happen. This can be hazardous for both the crew and the mast.

The gybe prevent function will be activated when the measured apparent wind angle becomes greater than 175° or when the wind angle gets opposite to the set wind angle. Additional rudder will be commanded to keep the wind on the same side as the set wind angle.

The tack and gybe prevent functions are not a guarantee against getting into a hazardous situation. If the effect of the rudder and/or drive unit is not adequate, it may happen. Pay particular attention in such situations.

2.21 Wind steering and navigation

The autopilot can also steer the boat given both wind data and track data from a GPS/Chartplotter. In this mode called

WIND

NAV

mode the automatic steering is based on a set of criteria (see bullets below). Wind steering and navigation is activated by pressing the NAV/WIND button when in Wind mode. There are two sub-modes under this key: NORMAL

(default) and RACING (see below). The initial course change

(CHG) needed to navigate towards the active waypoint, is calculated by the autopilot. The autopilot will maintain windside in these calculations and the change of course is accepted by pressing the PORT or STBD button [1].

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45

Simrad AP25 Autopilot

[5] [6] [8]

46

Figure 2-2 Wind steering

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Operation

Operating in WIND

NAV

mode

Refer to Figure 2-2 with references [ ] the associated displays

and the criteria (bullets) below.

• The set wind angle should be larger than the ‘Minimum wind angle’ set in the Installation/Dockside menu and smaller than 170° Apparent.

• Information about when it is time to head directly towards the waypoint, Distance To Turn (DTT) and Estimated Time to Turn (ETT) are displayed. These calculations are based on the assumption that the set wind angle will be the same or larger after a tack or gybe towards the waypoint [3] [7].

• A turn prompt will appear when it is time to head towards the waypoint and the autopilot will calculate and display the change of heading by comparing the current heading and the heading towards the waypoint (CHG) [5].

• When heading towards the waypoint, the autopilot utilizes either the XTE from the GPS/Chartplotter to maintain track or a layline calculated by the autopilot. The calculated layline applies when the Cross Track Error (XTE) from the external navigator is larger than 0.15 nm [8].

RACING

If ‘Wind setup’ is set to ‘RACING’ in the Installation/Dockside menu, a more advanced steering is possible:

• Optimising VMG to wind may be enabled when beating and it is not possible to head directly towards the waypoint

[2] [4].

• Layline steering may be disabled when heading directly towards the waypoint. Instead you can optimise the

Waypoint Closure Velocity (WCV) by trimming the sails and the set wind angle. A turn prompt will then be displayed if the difference between Course Over Ground

(COG) and Bearing Position Waypoint (BPW) exceeds 30° when heading towards a waypoint [8].

See chapter 2.25 Quick Setup on how to access these parameters

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Simrad AP25 Autopilot

2.22 Multiple station system

In normal operation control is accessible from every control unit connected to the AP25 system. One control unit is "active" and provides the user with access to all functions. All remaining control units are "inactive" and have no effect on mode changes or course selection. A single press on any of the mode buttons on an "inactive" control unit will allow transfer of command and make it "active".

2.23 Lock function

The "LOCK" function is a safety feature in the AP25 system. It will disable all control units, including the FU25 Follow-up lever, except for a single user selected control unit location.

When the "lock" function is in use, no transfer of command can take place; only the active control unit stays in command.

To enable the "lock" function, make a quick double press on the

STBY button.

48

The display on the active control unit will first show a icon and then the icon will alternate with the mode index.

The "locked" control units in the system will show:

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Operation

The “Lock function is disengaged by one of the following actions:

• The active control unit unlocks the other ones and makes them

“inactive” by another double press on the STBY button. It also displays the icon before it returns to the normal active state.

• The system is switched OFF by any control unit (press STBY for 2-3 seconds).

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Simrad AP25 Autopilot

2.24 User Set-up Menu

In the AP25, all modes except NFU and FU have a complemental User Set-up menu. You can easily access the set-up menu by a quick double press on the

INFO/SETUP button.

Quick double press to access

Scroll through the menu

Use the course knob to change a value or a setting

Alternating Course Knob Icon

When the course knob is used in the User Set-up menu, an icon will alternate with the mode index to tell that no course changes can be made unless you press the mode button.

The user set-up menu times out 30 seconds after the last operation in the menu.

STANDBY Mode

Backlight

The backlight of the display and buttons may be adjusted to 10 levels (10 = brightest). The setting is stored when the system is turned off. Adjustment is local to the control unit you adjust or synchronized with other units

in the Simrad Group (page 131).

NAV source

Select the source for NAV mode steering e.g. CP34.

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Note !

Operation

NAV WIND

This setup will configure the active mode under the NAV WIND button. The following alternatives are available:

• NAV (Ref page 37)

• NoDrift (Ref. page 35)

• WIND Auto

Wind steering will be disabled when ‘NAV’ or ‘NoDrift’ is selected.

Wind steering is only available if ‘Boat type’ is set to ‘Sail’ in the Installation/Dockside menu (see Dockside settings, page

100).

If ‘NAV WIND’ is set to ‘WIND Auto’, wind steering will be enabled. Pressing the NAV WIND button will then initiate the WIND-mode. The autopilot will automatically select between apparent and true wind steering.

True wind steering is used when running. When the boat is running, it will also be surfing on the waves. This may lead to significant changes in boat speed, hence changes in apparent wind angle. Steering to apparent wind is therefore used only when beating or reaching.

Wind, RACING parameters

If ‘Wind setup’ is set to ‘RACING’ in the Installation/Dockside

menu (see page 106), more settings are available as ‘Wind’

parameters:

• WIND Apparent

• WIND True

• WIND Auto

Default: WIND Auto

See also Quick Setup on page 59

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Simrad AP25 Autopilot

The ‘Nav/Wind’ parameter can be set in the User Setup or in the

Quick setup. Quick setup is activated after by quick double press on the NAV WIND button.

‘WIND Apparent’ is selected when you only want to steer to apparent wind. Apparent wind steering is preferred when you want to achieve maximum boat speed. The autopilot will try to maintain a constant apparent wind angle to get maximum thrust from a given trim of the sails.

‘WIND True’ is selected when you only want to steer to true wind. When sailing in closed waters, the apparent wind angle may change temporarily due to wind gusts. It may then be preferred to sail to the true wind.

Thruster

(only available if a thruster is connected as displayed by the thruster icon).

By this parameter the thruster is turned on and off. When the thruster is turned on, both thruster and rudder are used for steering. If the boat speed exceeds 6 knots, the thruster steering is automatically disabled.

Reset trip

The trip log is reset by rotating the course knob.

User setup 2

This is a second set of user settings that normally not need to be changed during day to day use. To activate User setup 2, turn the course knob clockwise.

Source Select

Provides you with automatic or manual selection of interfaced data sources for heading (Compass), Navigation, Position, Wind

Angle, Calculated Wind, Water speed, Water temperature,

Distance log and Depth.

Wind-C (calculated) is a common term for true wind and wind direction.

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Note !

Notes !

Operation

SimNet will automatically select Position source and Navigation source from the same GPS/Chart plotter. If you want them to be different you have to change them manually.

Auto source update

Is used for automatically update of sources if the interfaced units have been removed/added or switched on/off.

Select Auto source update by rotating the course knob. Make sure all interfaced units are powered on

The autopilot will search for new connected sources, and replace sources no longer available.

“SEARCHING” is flashing as long as the autopilot is searching. When the automatic update is finished, the display will read “DONE”.

Press the mode button to leave the User setup.

Manual source select

Step through the list of sources using the PORT or STBD button. Select wanted source by rotating the course knob.

– – indicates that no source supplying the data is available.

1. Simrad products will be identified by the product name provided the data is available on SimNet. If data is provided via an NMEA0183 port on the autopilot computer, the display will read NMEA-1 or NMEA-2.

NMEA2000 products will have a special ID.

2. See note on page

88 and note 3 below.

3. In the event the SimNet is not powered on, sources supplying data to SimNet are not on or malfunctioning, or there is no SimNet installed, it is possible to use any control unit in the system to select NMEA sources. The source select displays are then available on all control units.

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Simrad AP25 Autopilot

Note !

Compass

Select the compass to be used if more than one compass is connected.

Note! Compass can only be selected in STBY mode

Navigation

Select a source for NAV mode steering.

Position

Select the source for position data and NoDrift mode.

Wind Apparent

Select the source for Apparent wind.

Wind Calculated

Select the source for Calculated Wind data for the

Simrad group. The autopilot uses internal source irrespective of the selected source.

Water Speed

Select the source for water speed (normally the same as the source providing Log data).

Water temperature

Select the source for water temperature (normally the same as the source providing depth data).

DisLog

Select the Log source.

Depth

Select the source for depth data.

Depth source information

Set shallow water

Use the course knob to set the shallow water alarm limit.

Range: 0-100,0 m (0-328 ft.)

The setting of the alarm is local. In a multistation system, however, the setting representing the shallowest water limit will activate the alarm even if this setting is on an

“inactive” unit.

The shallow water alarm is activated only when digits are dialled in.

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Note !

Operation

Course Adjust

When using the (PORT) or (STBD) buttons in AUTO mode, you are changing the set course in 1° increments. If you prefer the increments to be 10° each press (does not apply for sailboats), proceed as follows:

Select Course adjust and turn the course knob to change the setting. The default value is 1°, which is the preferred setting.

Select 10° if you want to make major course changes in 10° increments with the buttons and fine-tune the set course with the course knob.

Turn Pattern Select

Only available for power boats (planing, displacement or outboard)

Select the pattern(s) to be available under the

TURN/DODGE button. U-turn is always available.

Step through the list of patterns using the PORT or

STBD button. Select the wanted pattern by rotating the course knob to fill the squares.

Available patterns are: U-turn, C-turn, Spiral,

Zigzag, Square, Lazy S, Depth (contour).

Instrument Select

Select the instrument pages(s) to be available under the INFO/SETUP button. Step through the list of instruments pages by using the PORT or STBD button. Select the wanted pages by rotating the course knob to fill the squares.

Contrast

The contrast of the display may be adjusted to 10 levels (10 = highest contrast). The setting is stored when the system is turned off.

Adjustment is local to the control unit you adjust. At high temperatures, not all levels are available due to automatic temperature compensation.

Press the STBY button to leave the User setup.

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Simrad AP25 Autopilot

AUTO Mode

Settings that are added for the AUTO and WIND modes are shown below. Other relevant settings are described under

STANDBY mode in this chapter.

Response

The Autotune function in the AP25 is so refined that 80-85 % of the boats will need no further adjustments of the steering parameters. On some boats, however, or at particular sea conditions a fine tuning of the steering parameters may improve the performance of the autopilot.

The Response control allows you to make this fine tuning. It can be set to seven levels. Level 3 (default) has the values of Rudder and Counter Rudder parameters set by the Autotune function. If no

Autotune is made (not recommended) the level 3 values are the factory default values.

A low response level reduces the rudder activity and provides a more “loose” steering.

A high response level increases the rudder activity and provides a more “tight” steering.

A too high response level will make the boat start S-ing.

Range: 1 – 7

Default: 3

NAV WIND setting, see page 51

Racing parameters, see page 51

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Operation

Thruster sens

(only available if a thruster is connected).

The Thruster sensitivity determines how many degrees the vessel will deviate from the set course before a thruster command is given. As the vessel deviates from its heading, the thruster will push the vessel back on. A higher value will reduce the thruster activity.

If the thruster commands are hunting from side to side, the set value for Thruster sens may be too low.

Range: 3° to 30° in 1° increments.

Default: 5°.

Seastate filter

OFF: Seastate filter is disabled.

AUTO: Automatically reduces rudder activity and autopilot sensitivity in rough weather by an adaptive process (default).

MANUAL: Manual yaw band adjust (1-10, 10 ≈ ±6°).

The manual setting determines the number of degrees the vessel may deviate from the set course before any command is given to the rudder. The AUTO setting is recommended. The MANUAL settings may be used to find the optimum combination of course keeping and low rudder activity in rough but steady sea conditions.

Reset trip

Same procedure as in STANDBY mode

User setup 2

Refer to User setup 2 for STANDBY mode, page 52.

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Simrad AP25 Autopilot

NAV Mode

The User setup for NAV mode is similar to the User setup for AUTO mode. It does not include the

Nav/Wind and the Source select items.

The User setup 2 contains the Set shallow water alarm and the Contrast setting. Refer to User Set-up for STANDBY mode.

Note !

WIND Mode

The User setup menu for WIND mode is the same as for NAV mode. In addition you have:

Wind response

If the difference between the set wind angle and the actual wind angle is too big, the ‘Wind response’ can be increased to reduce the deviation.

First make sure that the course keeping is acceptable, i.e. the difference between the Course To Steer (CTS) and the actual heading is at a minimum.

If the actual wind angle is S-ing around the set wind angle or the rudder activity is too high, the ‘Wind response’ should be reduced.

Range: 1 – 7

Default: 3

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Operation

WIND Auto

This line will only appear if the autopilot has been set up for

racing in the installation menu (page 106). See page 51 for

information about the RACING parameters.

User setup2

The User setup 2 contains the Set shallow water alarm and the Contrast setting. Refer to User setup 2 for STANDBY mode.

2.25 Quick Setup

Quick Setup gives easy access to the racing parameters provided the Wind setup has been set to

RACING in the Installation/Dockside menu (see

page 106).

The Quick setup menu is activated by a quick double press on the NAV/WIND button.

Step through the menu by using the PORT or STBD button. Select by rotating the course knob. A filled square = On.

VMG optimizing (RACING)

The VMG (to wind) parameter can only be enabled or disabled when ‘Wind setup’ is set to ‘RACING’. It is disabled in the

‘NORMAL’ sub-mode.

When enabled, the VMG optimizing will be active for 5 – 10 minutes after a new wind angle has been set. It will only be activated when beating.

‘VMG’ will be displayed in the upper left corner under the mode index when the VMG optimizing feature is active.

Range: Enabled/Disabled

Default: Disabled

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Simrad AP25 Autopilot

Layline steering (RACING)

‘Layline steering’ can only be enabled or disabled when ‘Wind setup’ is set to ‘RACING’. It is enabled in the ‘NORMAL’ submode.

Layline steering is useful when navigating. It will use the Cross

Track Error (XTE) from the navigator to keep the boat on the track line. If the XTE from the navigator exceeds 0.15 nm, the autopilot will calculate its own layline towards the waypoint and follow that. Layline steering is not active when turning, tacking or gybing.

‘XTE’ will be displayed in the upper left corner under the mode index when layline steering is active.

Range: Enabled/Disabled

Default: Enabled

2.26 INFO menu

A number of instrument pages are available under each mode screen if the required NMEA 0183 sentences are provided (see

paragraph 8.1) or the information is available on SimNet (page

131). The INFO menu is accessed by a single press on the

INFO/SETUP button.

Left hand side of the screen will show the following information depending on mode:

Standby mode

Heading

Heading source

Auto mode

Set course

Heading

Heading source

HI parameters, set automatically

Nav/NoDrift mode

Course to steer.

Cross Track error (XTE)

LO parameters set manually

Wind mode

Set true wind angle

Actual wind angle

LO parameters.

Wind

N

mode

Set true wind angle

Actual wind angle

LO parameters.

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Operation

Step or scroll through the available instrument screens by pressing the PORT or STBD button or using the course knob.

The right hand side of the display will show the following instrument screens:

If you prefer not to have all the instrument pages available in the

INFO menu, you may remove pages under the User setup 2

menu. See page 55.

Return to last instrument screen by a simple press on the INFO button.

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Simrad AP25 Autopilot

Note !

Course knob icon

Initially when the INFO menu is accessed an icon will replace the mode index to tell that no course changes or other course related settings can be made unless you press a mode key. The icon will time out after 3-5 seconds and be replaced by the mode index.

Whenever the INFO menu is active and the mode index is present, operating the PORT and STBD button or the course knob will immediately make the main display reappear.

INFO menu flowchart

62

3-5 sec.

time-out

11

12

9

10

8

7

6

1

5

2

3

4

Toggle

11

12

9

10

8

7

6

1

5

2

4

3

3-5 sec.

time-out

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Operation

INFO menu and Main Screen, active unit

INFO-menu

Main screen

11

10

9

8

7

12

6

1

5

2

4

3

3-5 sec. time out

INFO menu and Main Screen, inactive or locked unit

Previous INFO page

Next INFO page

Last shown INFO page

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Simrad AP25 Autopilot

This page is intentionally left blank

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Installation

3 INSTALLATION

3.1 General

This section provides detailed information required to successfully installing AP25 Autopilot system.

The AP25 system includes several modules that need to be mounted in different locations on the boat, and also need to interface with at least three different systems on the boat:

• The boat's steering system

• The boats electrical system (input power)

• Other equipment on board

In addition, the advanced capabilities of the AP25 require the installer to perform a series of settings and tests to verify proper operation of the system, refer to the check list below.

3.2 Installation checklist

1. Determine the system configuration you are installing

(Figure 3-1)

2. Perform the hardware installation (Page 67)

3. Connect SimNet devices to SimNet (page 83)

4. Connect NMEA2000 devices (page 86)

5. Connect NMEA 0183 devices (inputs and outputs, page 89)

6. Perform Set-up (Section 4, page 95)

7. Perform dockside autopilot tests (refer to Operating

Instructions, page 15)

a) Test all stations (if applicable) - lock/unlock - active/ inactive b) Test Non-Follow Up mode c) Test Follow-Up mode d) Test AUTO mode e) Test NAV mode and input interfaces f) Test WIND and WIND

N interfaces

modes (if sailboat) and input g) Test interface outputs to external equipment (if connected)

8. Perform sea trial settings (Page 114)

a) Rudder zero

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Simrad AP25 Autopilot b) Compass calibration c) Compass Offset adjustment d) Automatic tuning e) Viewing parameters

9. Test Autopilot Operation at Sea (refer to Sea Trial

instructions, pages 114, 132)

10. Provide the user with training (Page 133)

3.3 Unpacking and handling

Care should be taken when unpacking and handling the equipment. A visual inspection should be made to see that the equipment has not been damaged during shipment and that all components and parts are present according to the packing list.

A standard AP25 autopilot system will include:

• Control unit with standard installation accessories and one

15 m (49') Robnet2 cable.

• Autopilot computer (AC10, AC20 or AC40).

• RC36 Rate Compass with 15 m (49') cable attached.

• RF300 Feedback unit with 10 m (33') cable attached and transmission rod.

• Appropriate drive unit for the installation (unless the AP25 is going to operate an existing drive unit or solenoids).

• Optional equipment that may have been ordered for the installation.

3.4 Determine system configuration

It is important to become familiar with the configuration of the system prior to beginning the installation. The AP25 system

layout with options is shown in Figure 3-1

Pay particular attention to the autopilot computer/drive unit

combinations on page 72 and the chart on page 11.

As many of the units are communicating on a common network

(Robnet2), with identical connectors, the installation is simplified. Try to mount the units within the standard cable length supplied with each unit, if possible. Robnet2 Extension

Cable (10m) is available from your distributor.

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Installation

Notes!

1. On boats powered by outboards or stern drives it may be

difficult to install a rudder feedback unit (chapter 3.6 and

3.27). Use of the Virtual feedback algorithms in the software

may then be preferred as this requires no installation of a

rudder feedback unit (page 109). The Virtual Feedback can

be used on boats up to 40 ft.

2. In order to benefit from the virtual feedback technology your autopilot system must be using a Simrad rate compass for heading information.

3.5 AP25 System Layout

STBY

PWR

AUTO

SPEED

NAV

SETUP

INSTR

MENU TURN

STBY

PWR

AUTO

SPEED

NAV

SETUP

INSTR

MENU TURN

STBY AUTO

SIMRAD R3000X

STBY

PWR

NAV

SETUP

AUTO

SPEED

TURN

Figure 3-1 AP25 system layout with options

3.6 RF300 Rudder feedback installation

The RF300 Rudder feedback unit mounts close to the rudder, and is mechanically linked to the rudder tiller arm or rudder quadrant.

Refer to Figure 3-2 for the recommended mounting arrangement.

Note that the RF300 transmitter arm has two slots for the

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Simrad AP25 Autopilot

Note !

Note ! transmission link. The slots enable maximum flexibility to provide the 1:1 mechanical linkage relationship.

Do not try to remove the transmitter arm from the feedback unit.

The unit is factory adjusted and need no further adjustment at installation than described below.

As a starting point, it is desirable to set the transmitter rod to the

inner limit of the outer slot if possible. (Refer to Figure 3-2).

Drill and tap the rudder tiller arm so that the Y1 dimension is equal to the Y2 dimension (Use 4.2 mm drill and 5 mm tap).

Attach the ball joint to the tiller arm, and connect the transmitter rod to the ball joint at the rudder tiller arm.

Turn the helm wheel to set the rudder tiller arm to approximate centre position.

Rotate the RF300 transmitter lever until it is set to centre position. (Use the alignment mark to line up the transmitter lever to be opposite the cable entry into the feedback.).

Carefully observe the alignment marks. A rudder feedback alarm

may be the result if the alignment instructions as per Figure 3-2

are neglected.

Attach the transmitter rod to the RF300. Set the RF300 mounting

location to be in accordance with Figure 3-2. The centre of the

RF300 should be in line with the centre of the rudder post.

Mount the RF300 to a suitable platform using the screws provided. If necessary, add blocking material under the RF300 to adjust the height of the transmission arm to be level with the rudder tiller arm.

68

Figure 3-2 RF300 mounting (019356)

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Note !

Installation

Due to space limitations, it may be necessary to cut the length of the transmitter rod to move the RF300 closer to the rudder post.

Tighten the mounting screws for both the RF300 feedback unit and the transmitter rod ball joint.

Observe the RF300 while someone turns the helm wheel through the complete travel from full port to full stbd. rudder to verify that the mechanical linkage to the RF300 is not obstructed.

AUTOPILOT COMPUTER

MAIN PCB

*

Rudder

Feedb.

* NON POLARIZED

(COLOR INDEPENDENT)

Figure 3-3 RF300 connection

3.7 Autopilot computer installation

Note !

The autopilot computer is designed to operate in a location that provides ambient temperatures below +55°C (+130°F).

The autopilot computer units (AC10, AC20 and

AC40) are not weatherproof and should be mounted vertically as shown in a dry place between the control unit and the drive unit.

Figure 3-4 Autopilot computer mounting

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Simrad AP25 Autopilot

3.8 Cable connections

Use only shielded cables. This includes Mains input, drive units and if necessary for the extension of the RF300 Rudder

Feedback cable. The clutch/bypass cable and the solenoid cable should be 1,5 mm 2 (AWG14). Signal cables should be 0.5 mm 2

(AWG20) twisted pairs.

The mains supply cable and the drive unit motor cable should have sufficient wire gauge. This will minimize voltage drop and allow the drive unit to operate at full power.

Refer to the table below for recommended cable sizes.

Cable length

1. Breaker panel to autopilot computer.

2. Autopilot computer to Drive Unit motor

(Length refers to each of the two cables)

Up to 3 m (10 ft.)

Up to 6 m (20 ft.)

Up to 10 m (32 ft.)

Up to 16 m (52 ft.)

Drive Unit Voltage

12 V 24 V

AWG mm 2 AWG mm 2

12 2,5 12 2,5

10

8

6

4

6

10

10

10

8

2,5

4

6

3.9 Grounding and RFI

The autopilot system has excellent RFI protection and all units use the autopilot computer as a common ground/shield connection. The autopilot computer should therefore have a proper ground connection to the hull/bonding system.

Robnet2 cables and other signal cables (compass, feedback,

NMEA) should not be run in parallel with other cables carrying

RF or high current, such as VHF and SSB transmitters, battery chargers/ generators, winches and thrusters.

Remove the bottom cover to get access to the plug-in terminals.

Strip about 1 cm (0.4") of the cable's insulation and pull the screen backwards to cover the insulation. Position the straps as shown and tighten well to make sure the screen has good contact.

Provide sufficient wire length so that the plug-in terminals can be easily connected/disconnected.

Pull out each terminal before connecting the wires. Remove all strands before putting on the terminal cover.

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Note!

The Mains input is not polarity protected on

AC40.

Installation

Ground terminal

Power Board terminals

TB8, TB9 and TB10 are not on the AC10 Power Board

Main Board terminals

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Simrad AP25 Autopilot

3.10 Drive unit installation

The relations between drive units, drive unit voltage, autopilot computer, drive performance and interface to the steering gear are shown in the tables below.

Refer to the connecting diagram for the different drive units on

page 74 onwards.

Installation instruction for the drive units are found in the manual for the individual units.

The maximum drive current capability of the AC10, AC20 and

AC40 autopilot computers are different. Use the table below as reference and observe the notes on next page.

HYDRAULIC PUMPS

MODEL MOTOR

VOLTS

CAPACITY

AUTOPILOT

COMPUTER

MIN cm 3

(cu. in.)

MAX cm 3

(cu. in.)

FLOW RATE

AT 10 bar cm 3 /min

(cu. in/min)

250

(15,2)

800 (49)

1600 (98) RPU160 12V AC20 160 550

(33,5)

RPU300 12V AC40 290

(17,7)

960

(58,5)

RPU300 24V AC20 290

(17,7)

960

(58,5)

3000 (183)

3000 (183)

MAX

PRESSURE bar

50

60

60

60

PWR.

CONSUM-

PTION

2,5-6 A

3-10 A

5-25 A

2,5-12 A

Steering gear interface: Hydraulic plumbing

Notes !

1. The AP25 system detects whether a reversible motor or a solenoid is connected and outputs the correct drive signal automatically.

2. The drive output of AC10 is sufficient for any type of 12 and

24V solenoids normally found on a recreational boat.

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20221495F

Installation

VOLTS PILOT

COM-

PUTER

MAX

STROKE mm (in.)

LINEAR DRIVE UNITS

PEAK

THRUST kg (lb.)

MAX

RUDDER

TORQUE

Nm

(lb.in.)

(440)

490

(4350)

350 610

(770) (5400)

HARD-

OVER

TIME sec.

(30% load)

19

(1100)

(2310)

1800

(15900)

(2310)

60

(132)

3180

(28000)

PWR.

CON-

SUMP.

3-10 A

TILLER

ARM mm

(in.)

(10,4)

(6,9)

298

(11,7)

(6,9)

(11,7)

Steering gear interface: Connects to quadrant or tiller.

* For stern drive power assisted steering only.

1. The motor voltage is stepped down by the autopilot computer when operating from 24V or 32V mains.

2. The specified autopilot computer is necessary to achieve max drive unit capacity.

3. Recommended operational thrust or torque is 70% of listed peak value.

4. Typical average power consumption is 40% of listed maximum value.

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Simrad AP25 Autopilot

RPU100 (1,0l)

RPU150 (1,5l)

RPU200 (2,0l)

(Reversible hydraulic pump)

RPU1 (1,4/2,0l)

RPU3 (3,8/5,0l) computer

AC20

AC20

AC20

PREVIOUS MODELS DRIVE OF UNITS voltage

12V

12V

24V

Input voltage

(Mains)

Drive output Interface to steering gear

12,24,32V Proportional rate

Hydraulic plumbing

AC10

AC10

12V, 24V

24V, 24V valves, on/off plumbing

MRD100

(Reversible mechanical drive)

MRD150

(USA only)

Note !

AC40

AC20

12V

24V

32V

12,24,32V

24,32V

32V

12V to clutch

24V to clutch

Proportional rate to motor

12V to clutch

32V to clutch

Proportional rate to motor

Chain/ sprockets

Chain/ sprocket

When selecting DRIVE UNIT voltage in the Installation setup, the clutch/bypass voltage is always set equal to the motor voltage. If a retrofit installation where e.g. a HLD2000 has a

12V motor and a 24V bypass valve, the bypass valve solenoid has to be changed back to standard 12V version.

Connecting a reversible pump

AUTOPILOT COMPUTER

POWER PCB

TB1 TB2 TB3 TB4 TB5

TB6

Simrad reversible pump

Figure 3-5 Connecting a reversible pump

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Installation

Connecting a hydraulic linear drive

HYDRAULIC

LINEAR DRIVE

AUTOPILOT COMPUTER

POWER PCB

TB1 TB2 TB3 TB4 TB5

TB6 TB7

Drive

Engage

Single pole clutch/bypass switch

Figure 3-6 Connecting a hydraulic linear drive

Connecting a solenoid valve

SOLENOID

VALVE

AUTOPILOT COMPUTER

POWER PCB

TB1 TB2 TB3 TB4 TB5

TB6 TB7

Sol.

Sol. gnd Sol.

Figure 3-7 Connecting a solenoid valve

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Simrad AP25 Autopilot

3.11 Control unit installation

Avoid mounting the control unit(s) where it is easily exposed to sunlight, as this will shorten the lifetime of the display. If this is not possible, make sure the units are always covered with the white protection cover when not used.

Caution ! Do not install the control unit where moisture at the rear can be present. It could cause damage by entering the breathing hole or by coming into contact with the electrical connectors.

Panel mounting

The mounting surface must be flat and even to within 0.5 mm.

• Drill the 4 mounting holes and make a panel cut-out according to supplied template.

• Use the supplied gasket (P.N. 22084693) between the panel and the unit.

• Use the supplied 19 mm screws to fasten the control unit to the panel.

• Apply the front panel corners.

• Connect the Robnet2 cable(s) to the control unit connector(s).

Alternative panel mounting

This way of mounting may be simpler, but will lift the unit from the panel surface. When installed adjacent to Simrad equipment there will be a 5,5 mm (0,22”) difference in height between the autopilot and the other equipment.

• Use the template and drill hole(s) only for the connectors.

• Place the thick gasket (P.N. 22086029) between panel and unit, correctly orientated (see marking on gasket).

• Follow above panel mounting instructions but use the supplied 32 mm screws to fasten the control unit to the panel

Do not over-tighten the mounting screws!

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Installation

Optional bracket mounting

• Locate the cradle on the mounting site and mark the 4 holes for the fixing screws on the mounting surface.

• Drill the 4 mounting holes and screw the cradle to the mounting surface.

• Use the supplied screws to fasten the control unit to the left and right brackets.

• Apply the front panel corners.

• Use the two locking knobs to assemble the cradle with the left and right brackets and adjust the control head to best viewing angle.

• Connect the Robnet2 cable(s) to the control unit connector(s)

(See note on page 78).

Figure 3-8 AP25 Bracket mounting

3.12 ROBNET2 network cables

As Robnet2 units have two Robnet2 connectors (blue) they can be used as "jack points" for further expansion of the system.

There are no dedicated "in" or "out" connectors. You may connect the cables to any available Robnet2 connector (blue) on the specific unit. The Robnet2 connectors have a locking mechanism for extra safety.

Caution ! Do not mix the blue Robnet2 cables with the yellow SimNet cables.

The 15 m cable to the autopilot computer has a connector only at the control unit end. Robnet2 cables with 5 pin male connector at

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77

Simrad AP25 Autopilot both ends are available in 1, 5 and 10 m length. For cable extension a Robnet2 T-Joiner is required.

When installing a system, try to minimize total Robnet2 cable length by connecting all Robnet2 units to the nearest available

Robnet2 connector.

Total length of Robnet2 cable installed in a system should not exceed 50 m (165').

Examples of interconnecting Robnet2 units:

AUTOPILOT

COMPUTER

CONTROL

UNIT

CONTROL

UNIT

AP27

CONTROL

UNIT

COMPASS

JP27

Figure 3-9 Interconnecting Robnet2 units

A Robnet2 T-joiner P/N 24005662 is available to make the

Robnet2 interconnection more simple by reducing the number of cables or extend cables when necessary.

See table for pin configuration and colour code of the network cable.

Cable pairs Color code Signal

1. pair

2. pair

Brown Bus–

White Bus+

Yellow On - Off

Note !

78

Figure 3-10 Robnet2 Connector

The connectors are weather proof according to IP65, when properly installed. All connectors not in use must be fitted with the plastic cap to protect them against dirt and moisture.

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Installation

AP25

CONTROL UNIT

REAR VIEW

AUTOPILOT COMPUTER

MAIN PCB

TB15

Note !

J1 J3

J2 J4

Bn Wh Pnk Gry Yel

ROBNET

Connect to any of the two

Robnet2 connectors

Figure 3-11 Control unit connection

J1 and J2 (top) are Robnet2 connectors. J3 and J4 are SimNet connectors.

AP27 connection

If a Simrad AP27 is part of the system, use the JP27 Jack Point

and connect as shown on Figure 3-9. Alternatively cut the

connector from the cable and connect the wires in parallel with

the cable shown on Figure 3-11 using the same color code.

The AP27 cable contains an air-breathing tube. Check that the tube is open after you have cut the cable.

3.13 RC36 Rate Compass installation

Figure 3-12

RC36 mounting

The heading sensor is the most important part of the AP25 system and great care should be taken when deciding the

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Simrad AP25 Autopilot

Note !

Note ! mounting location. As the heading is displayed on the AP25

Control Unit, the heading sensor can be mounted at a remote location.

The RC36 rate compass also contains a magnetic heading sensor, so particular attention must be paid to the location. It can be mounted on deck or bulkhead, athwartship or alongship and has a 15 m (99’) cable with a Robnet2 connector. The heading offset feature in the AP25 will compensate for the mechanical offsets that may be a result of the selected location and orientation of the

RC36.

If the RC36 is deck or bulkhead mounted athwartship with the cable gland pointing aft, little if any offset correction is required.

With the cable gland pointing forward a 180° correction is required.

When mounting RC36 on a bulkhead alongship, a +90° or –90° correction is needed dependent on whether it is port or starboard bulkhead.

Offset correction is performed after the calibration (see

paragraph 4.7).

Find a location that provides a solid mounting place free from vibration, and as close to the vessel's centre of roll and pitch as possible, i.e. close to the water line. It should be as far as possible from disturbing magnetic influences such as the engines

(min. 2 meters), engine ignition cables, other large metal objects and particularly the drive unit. On steel hull boats it should be mounted 0,75-1 m above the wheel house on a non magnetic stand.

Use the supplied mounting kit and drill the holes through the centre of the slots in the sensor or the mounting brackets.

The compass face plate on the RC36 is the TOP. Never mount it upside down! Level the sensor as close to horizontal as possible.

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RATE

COMPASS

AP16, AP25, AP26

Figure 3-13 RC36 connection to autopilot control unit

Plug the RC36 into a Robnet2 connector (see Figure 3-9) or cut

the connector from the cable and connect the wires in parallel

with the cable shown in Figure 3-11.

3.14 RFC35 Fluxgate Compass installation

(Optional back-up compass)

The RFC35 Fluxgate Compass is a magnetic sensor, which means you have to take the same precautions at installation as for the standard RC36 (see previous page).

• Connect the RFC35 to the autopilot computer as per Figure

3-14

RFC35

FLUXGATE

COMPASS

AUTOPILOT COMPUTER

MAIN PCB

*

Heading

Sensor

* NON POLARIZED

(COLOR INDEPENDENT)

Figure 3-14 RFC35 connection

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Simrad AP25 Autopilot

3.15 R3000X Remote Control installation

R3000X should be mounted in the supplied bracket that can be fixed by four mounting screws. The unit is weather proof and can be mounted outdoor.

R3000X

REMOTE CONTROL

AUTOPILOT COMPUTER

POWER PCB

T B 1 T B 2 TB3 TB4 TB5

TB6 TB7 T B 8

Yel Gn Red Blu

R E M O T E

Figure 3-15 R3000X connection

3.16 JS10 Joystick

Refer to separate installation instructions supplied with the JS10

Joystick.

3.17 S35 NFU Lever installation

The unit is mounted to a bulkhead or panel by two screws from the front. The cable is connected to the autopilot computer

according to Figure 3-16. Interchange the Port and Stbd wires to

the screw terminals if necessary to make the direction of the lever movement coincide with the direction of the rudder movement.

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S35

STEERING LEVER

AUTOPILOT COMPUTER

POW ER PCB

TB1 TB2 TB3 TB4 TB5

TB7

REMOTE

TB6

NO T E!

Dis r egar d t h e co lor c ode on t he t er mi nal lab el.

Figure 3-16 S35 connection

The unit is opened by removing the three screws on the back cover. Inside are two sets of micro-switches, a printed circuit board with a plug-in terminal and a jumper strap.

3.18 Interfacing

With the AP25 autopilot system there are several possibilities to connect to other equipment for data collection and exchange.

1. Use SimNet

2. Use SimNet via AT10 Universal SimNet/NMEA Converter

3. Connect to a NMEA2000 network via the adapter (drop) cable, part no. 24005729.

4. The AC10 has a single NMEA0183 input/output port.

5. The AC20 and AC40 have two NMEA0183 input/output ports and Clock Data interface to Simrad and Furuno radars.

The NMEA0183 output may also drive Simrad IS15 instruments directly.

The different connecting diagrams on the following pages illustrate the interface possibilities of the AP25 autopilot.

3.19 SimNet

The SimNet cable system with very small plugs in both ends makes it easy to run the cables, only 10 mm (3/8”) holes are required through panels and bulkheads. The SimNet accessory program contains the necessary items to complete a successful installation.

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Simrad AP25 Autopilot

SimNet network cables

A SimNet unit has one or two yellow SimNet connectors. There are no dedicated “in” or “out” connectors. Find the shortest and easiest way to route the SimNet cables from product to product and select the standard length cables from the SimNet accessory program. SimNet cables are available in 0.3 m (1 ft.), 2 m (6.6 ft.), 5 m (16.6 ft.) and 10 m (33 ft.) length all with plugs at both ends. Connect products with two SimNet connectors in a daisy chain and use drop cable and T-joiner for products with only one

SimNet connector.

The SimNet power cable has a red connector with built in terminator.

If you plan to extend your SimNet system in the future it may be an idea to prepare for it by adding a few T-joiners in central locations. The T-joiners provides easy access to the network and can be replaced with a new product, or the new product can be connected via a drop cable.

SimNet power and termination

The following rules should be observed when installing SimNet.

1. It must have a separate 12VDC power from the battery bus or the circuit breaker board to avoid interference

2. It must not be connected to the supply voltage terminals of the Autopilot Computer (introduces interference).

3. It will power an IS12 instrument system. Hence SimNet on other equipment can be connected and powered via IS12.

4. It must be properly terminated.

The SimNet network has to be terminated according to the number and type of products connected.

In a small system consisting of maximum 5 SimNet products and a total length of 5 m SimNet cable you only need the SimNet power cable with built in termination (red disc on cable plug).

On larger systems you will also need a termination at the other end of the chain.

For additional information about SimNet ask for the separate

SimNet Manual.

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COMBI

LIGHT

SIM RAD IS12

COM BI

LIGHT

SIMRAD IS12

DATA

SIM RAD IS12

LIGHT PAGE

UPPER

INFO

LOWER

INFO

STBY

PWR

AUTO

INFO

SETUP

NAV

WIND

10 10

1

TURN

DODGE

1

Figure 3-17 SimNet network, small system

COMBI COMBI DATA

SIMRAD IS12

LIGHT ALARM

TIM ER

UPPER

INFO

LOWER

INFO

SIM RAD IS1 2

LIGHT ALARM

TIM ER

UPPER

INFO

LOWER

INFO

SIMRAD IS12

LIGHT PAGE

UPPER

INFO

LOWER

INFO

STBY

PWR

INFO

SETUP

AUTO

NAV

WIND

10

10

1

TURN

DODGE

1

Figure 3-18 SimNet network, small system with Wind transducer

The wind transducer (*) has a built in terminator.

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Simrad AP25 Autopilot

COM BI

SIM RAD IS1 2

LIGHT

ALARM

TIMER

UPPER

INFO

LOWER

INFO

COM BI

SIM RAD IS12

LIGHT

ALARM

TIM ER

UPPER

INFO

LOWER

INFO

COM BI

SIM RAD IS1 2

LIGHT

ALARM

TIMER

UPPER

INFO

LOWER

INFO

DATA

SIM RAD IS12

LIGHT PAGE

UPPER

INFO

LOWER

INFO

Notes !

STBY

PWR

AUTO

NAV

WIND

Figure 3-19 SimNet network, medium system

1. Maximum total length of SimNet cable is 40 m (130 ft.) excluding the 30 m (99 ft.) of masthead cable.

2. The wind transducer (*) has a built in terminator

3. If there is no wind transducer connected, a SimNet terminator must be connected instead.

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STBY

PWR

INFO

SETUP

AUTO

NAV

WIND

1

10

10

1

COM BI

SIM RAD IS12

LIGHT ALARM

TIM ER

UPPER

INFO

LOWER

INFO

COM BI

SIM RAD IS12

LIGHT ALARM

TIM ER

UPPER

INFO

LOWER

INFO

DATA

SIMRAD IS12

LIGHT PAGE UPPER

INFO

LOWER

INFO

Installation

Figure 3-20 Robnet2 and SimNet network

* The wind transducer has a built in terminator

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Simrad AP25 Autopilot

Notes !

Figure 3-21 Robnet2, SimNet and Roblink network

1. Maximum total length of SimNet cable is 60 m (196 ft.) excluding the 30 m (99 ft.) of masthead cable.

2. It is not necessary to connect all autopilot control units to

SimNet for data sharing. However, if you want to have full redundancy and SimNet control, e.g. select sources, you have to connect the actual unit to SimNet.

3. AT15 is a NMEA0183/SimNet converter for the IS15

Instrument system. IS15 makes no load on SimNet.

4. AT44 is a SimNet interface that is supplied with CX44 and

CX54 products.

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3.20 Single NMEA input/output

NAV RECEIVER

OR PLOTTER

(NMEA talker)

AUTOPILOT COMPUTER

MAIN PCB

TB13 TB14

Caution !

NMEA listener

NMEA

Output1

NMEA

Input 1

Note

IS15 RUDDER

IS15 COMPASS

RADAR

Figure 3-22 Single NMEA connection

If an IS15 Instrument is powered from TB14 Vbat+ and Gnd, please observe that Vbat output voltage will follow mains supply voltage. IS15 Compass can only operate on 12V.

3.21 Double NMEA input/output

GPS or

CHARTPLOTTER

TB8

AC20/AC40 AUTOPILOT COMPUTER

POWER PCB MAIN PCB

TB9 TB10 TB13 TB14

GPS or

CHARTPLOTTER

NMEA

Input2

NMEA

Output2

NMEA

Output1

NMEA

Input 1

Figure 3-23 Double NMEA connection

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Simrad AP25 Autopilot

3.22 NMEA output on Port 2

Output signal

Continuous output of compass heading at 10 Hz (10x/sec.)

Rudder angle output at 5 Hz

NMEA format

Output terminal

Autopilot Computer Power

PCB.

NMEA2, TX2+, TX2–.

Output sentence

HDT (True) or HDG (Magn.) depending on heading source.

RSA Rudder angle

3.23 NMEA Compass input

AC20/AC40 AUTOPILOT COMPUTER

POWER PCB

TB8 TB9 TB10

NMEA

COMPASS

NMEA

Input2

Notes !

Figure 3-24 NMEA compass connection:

1. The compass connected to the NMEA port (RX2) will not be calibrated from the autopilot.

2. The AC10 Autopilot Computer has no port for NMEA compass input. Use the AT10 Universal Converter (P/N

24005936) according to the drawing below.

AUTOPILOT

CONTROL UNIT

AT10

CONVERTER

NMEA

COMPASS

12V SimNet supply

SimNet

White (Rx+)

Brown (Rx-)

Tx+

Tx-

90

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Installation

3.24 Radar Clock/Data

SIMRAD/

ANRITSU

OR

FURUNO

RADAR

AC20/AC40 AUTOPILOT COMPUTER

P O W E R P C B

T B 8 T B 9 T B 1 0

R ad ar

Figure 3-25 Radar Clock/Data connection

3.25 IS15 Instrument installation

For installation and operation of the IS15 instruments refer to separate manuals. There are two options for interfacing the IS15,

SimNet (see page 83) and NMEA0183. The SimNet interface is

recommended and you need the dedicated AT15 Active Tee as

an interface item (page 88, 146).

NMEA In

This connection will provide speed, depth and temperature input to the autopilot. If an IS15 Wind Transducer is connected to the system, wind information will also be transferred to the autopilot.

The connection is made by a Roblink cable from the instrument

NMEA socket (4) to the Autopilot Computer Main Board,

Terminal RX1+ and RX1-. See Figure 3-26.

NMEA Out

This will provide the instrument system with heading data.

The connection is made by a Roblink cable from the Autopilot

Computer Main Board, terminal TX1+ and TX1– to the

instrument NMEA socket (4). See Figure 3-26.

You will need a minimum of two instrument heads to make the system both ‘listen’ and ‘talk’ (I/O).

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Simrad AP25 Autopilot

If IS15 Expander is used in the instrument system, the NMEA

connections are made to this unit. See Figure 3-27.

Figure 3-26 IS15 Instruments / Autopilot computer connection

Figure 3-27 IS15 Expander / Autopilot computer connection

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3.26 External Alarm

The external alarm circuit has an open collector output for an external alarm relay or buzzer (not on AC10). The operating voltage for the circuit is the main supply voltage. Max. load on external alarm output is 0.9 Amp.

AUTOPILOT COMPUTER

POWER PCB

TB6 TB7 TB8 TB9

Ext.

alarm

Figure 3-28 External alarm connection

3.27 LF3000 Linear Feedback

Caution ! The rod of the LF3000 is not locked in place in the cylinder.

Pay attention as it may slip out of its housing and end up on the seabed.

The LF3000 is a waterproof feedback unit. It has a 300 mm

(11,8") stroke and comes with a special mounting bracket which secures the LF3000 to the cylinder of the existing outboard drive unit.

The 8,5 m (28') cable is terminated in the LFI3000 Mk2 Linear

Feedback Interface according to Figure 3-30.

The mounting hardware provided is made to interface with

Teleflex HC5340 cylinders and Hynautic K7 and K10 Cylinders.

The hardware may not be appropriate for other systems.

Center the drives. Loosely secure the LF3000 to the supplied mounting bracket, across the center of the drive unit cylinder.

Either cylinder may be used if there is a dual set up. You may mount the feedback in either direction, i.e. the shaft of LF3000 may point to port or starboard.

Loosen the end bolt (a) used to secure the cylinder to the drive unit mount. Insert the rod retaining assembly (b) and retighten the bolt. Secure the feedback rod to the retainer plate using the

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Simrad AP25 Autopilot two washers and the cap nut provided. Adjust the location of the

LF3000 Linear Feedback to allow full travel of the hydraulic cylinder without causing the retainer plate to hit the end of the cylinder. Check that the outboard motor can be tilted freely.

Tighten all nuts and the mounting bracket.

Turn the helm slowly by hand to the stop on either side, check that the rod does not bind up in any direction. Make a “drip nose” (c) on the cable to the unit and clamp the cable to allow full engine movement to port and starboard.

MOUNTING BRACKET

CLAMPS (2 HALVES) ALLEN HEX SCREWS (2)

FLAT WASHERS (2)

RETAINER PLATE

(END VIEW)

94

CYLINDER

BRACKET

LOCK NUT

LF3000

FLAT WASHERS (2)

LF3000

LINEAR FEEDBACK a b

Figure 3-29 LF3000 mounting

Electrical connection

LFI3000 Mk2

LINEAR FEEDBACK

INTERFACE

TB1 TB2

AUTOPILOT COMPUTER

MAIN PCB c

Rudder

Feedb.

Figure 3-30 LF3000/LFI3000 Mk2 connections

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Configuration and setup

4 CONFIGURATION AND SETUP

4.1 First time turn on

Note !

Before attempting to turn on the AP25 and perform an

Installation Setup, the hardware installation and electrical connections must be completed in accordance with the installation instructions.

The design of the AP25 includes advanced features that have simplified the installation and setup of an autopilot.

If the autopilot is going to use Virtual feedback (page 67) you

must first go to page 109.

This is the start-up screen that is presented the first time you turn on your autopilot by pressing the

STBY/PWR button.

Notes !

1. You can postpone the automatic interface by going directly to the Installation/Dockside setup. Any time the STBY button is pressed the interface prompt will reappear until the automatic interface has been performed.

2. Be aware that you will have no compass reading before the automatic interface is completed.

Continue by pressing the STBD (START) button to start the automatic interface.

The autopilot will search for connected sources, and as the sources are detected a black square appears on the screen.

“SEARCHING” is flashing as long as the autopilot is searching for data.

When the automatic interface setup is finished, “FINISHED PRESS →” is displayed. Press the STBD button to accept.

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Simrad AP25 Autopilot

The display will read ‘SETUP

REQUIRED’.

Continue with the installation setup according to the next chapters.

If you already have completed the installation settings, the autopilot will enter STBY mode.

4.2 Description of Installation Settings

Note ! The installation settings must be performed as part of the installation of the AP25 system. Failure to do so correctly may prohibit the AP25 from functioning properly!

The Installation menu can only be accessed in STBY mode.

The Installation Settings are grouped into the following functional categories:

• Language: Selection of language used for display

information

• Dockside: Items to be set prior to sea trials

These will vary depending on the type of

feedback the autopilot will use (page 67, 100,

109)

• Interface: Setting the format of the clock/data output for radars connected to the Autopilot Computer.

• Display units: Setting the units to be displayed for wind speed, water temperature and depth.

• Sea trial: Presents settings and automatic calibrations to be performed during sea trial.

• Parameters: Permits viewing and changing of basic steering parameters (See also Response

control, page 56).

• Service: System data, NMEA data, NMEA test,

SimNet setup, Master reset of memories.

Each group is designed to focus on specific functions, and enable quick access when changes need to be made.

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Some important points regarding the installation settings:

• When the AP25 is delivered new from the factory AND ANY

TIME AFTER A MASTER RESET OF MEMORIES HAS

BEEN PERFORMED, the installation settings are all reset to factory preset (default) values. The automatic interface

prompt will appear (see page 95) and a complete setup has to

be made.

• The values that are selected from within the Installation

Settings Menu, are stored in the memory of the AP25 system.

No specific action is required to "SAVE" the selected values.

Once the value is changed, it is stored until the next time the menu item is selected and changed.

• The Installation Settings are global except for display units and language, enabling settings to be distributed to all control units in the system.

• The Seatrial settings are dependent on successful completion of the Dockside settings.

4.3 Installation Menu

The Installation Menu is presented on the autopilot display by pressing and holding the INFO/SETUP button for 5 seconds.

Note ! The INSTALLATION MENU is different from the USER SETUP

MENU. Refer to the flow diagram on the next page for a pictorial view of the Installation Menu.

Navigate through the Installation Menu as follows:

• Answer YES to a question by rotating the course knob clockwise.

• Answer NO to a question or proceed to the next menu item by pressing the STBD button.

• Return to the previous menu item by pressing the PORT button.

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Simrad AP25 Autopilot

Note !

• Change the selected item by rotating the course knob in either direction.

• Exit the Installation Menu by pressing STBY, AUTO, or

NAV/WIND buttons.

When using the Installation Menu, refer to the diagram

"Installation settings Menu Flow Chart" on next page.

You may proceed through all items in the installation menu by continuing pressing the STBD button.

Language selection

To access the language selection in the Installation Menu, confirme “Yes” by turning the course knob clockwise

The AP25 can present the display text in eight different languages:

English, Deutsch, Francais, Espanol, Italiano, Nederlands,

Svenska and Norsk.

Turn the course knob to select the language you wish to use.

Continue to next item in the menu by pressing the STBD button, or leave the menu by pressing the

STBY button.

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INSTALLATION

MENU

ENTER INSTALLATION MENU

BY PRESSING AND HOLDING THE

SETUP BUTTON FOR 5 SECONDS

LANGUAGE

LANGUAGE MENU

ENGLISH

DEUTSCH

FRANCAIS

ESPANOL

ITALIANO

NEDERLANDS

SVENSKA

NORSK

SYMBOLS

SELECT OR CONFIRM BY

COURSE KNOB

PROCEED TO NEXT MENU ITEM

BY PRESSING STBD BUTTON

REVERT TO PREVIOUS

MENU ITEM

Mode in

STBY ?

Yes

No

PARAMETERS

SERVICE

DOCKSIDE

INTERFACE

DISPLAY UNITS

SEATRIAL

SYSTEM DATA

SIMNET/NMEA DATA

NMEA PORT TEST

SIMNET SETUP

Master reset?

DOCKSIDE MENU

BOAT TYPE

DRIVE UNIT VOLTAGE

RUDDER CAL STBD

RUDDER CAL PORT

RUDDER TEST?

DRIVE ENGAGE

RUDDER DEADBAND

WIND SETUP

MIN. WIND ANGLE

TACK ANGLE

TACK TIME

WIND SHIFT LIMIT

INTERFACE MENU

RADAR O u t pu t

DISPLAY UNITS

WIND SPEED

WATER TEMP

DEPTH

SEA-TRIAL MENU

RUDDER ZERO ADJUST

MINIMUM RUDDER

COMPASS CALIBRATION

COMPASS OFFSET

THRUSTER DIRECTION

WIND OFFSET

WIND DAMPING

DEPTH OFFSET

AUTOMATIC TUNING

TRANSITION SPEED

INIT NAV

NAV CHANGE LIMIT

PARAMETERS

RUDDER LO

CONT.RUDDER LO

AUTOTRIM LO

RUDDER LIM. LO

RUDDER HI

CONT. RUDDER HI

AUTOTRIM HI

RUDDER LIM. HI

RECALL AUTOTUNED

SERVICE

SYSTEM DATA

STEERING COMPASS

RUDDER

INPUT VOLTAGE

DRIVE OUT

CLUTCH/BYPASS

TURN CCW

SIMNET/NMEA DATA

XTE

BWW

BPW

POS/LAT

POS/LON

COG

SOG

WIND

SPEED

DEPTH

NMEA TEST

LOOPBACK NMEA1

LOOPBACK NMEA2

CONFIRMED

SIMNET SETUP

GROUP SELECTION

BACKLIGHT

INSTANCE NUMBER

SIMNET GATEWAY

GLOBAL SIMNET RESET

Figure 4-1 Installation Menu Flow Chart

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Simrad AP25 Autopilot

4.4 Dockside settings

Note ! If the autopilot has no rudder feedback unit installed (configured

for Virtual feedback), refer to the Dockside settings on page 109-

112.

The following menu items are accessible and can be set up in the

Dockside Menu:

• Boat type

• Drive Unit voltage

• Rudder Feedback calibration

• Rudder test

• Motor drive output

• Drive engage

• Rudder deadband

When Sail is selected as Boat type the following menu items are also accessible in the Dockside Menu:

• Wind setup

• Min. wind angle

If Wind setup is set to RACING the following items are added to the menu.

• Separate (port, stbd) wind angle limits

• Tack angle

• Tack time

• Wind shift limit

Select STANDBY mode and enter the Installation Menu as previously described. Select Dockside by pressing STBD button and confirm by rotating the course knob clockwise.

Boat type

Actual boat type is selected by turning the rotary course knob. The options are: Planing, Displacement,

Sail and Outboard.

Type of boat selected will affect the steering parameters, and the functions available in the autopilot system. Select appropriate Boat

type and press STBD button.

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Caution !

Configuration and setup

Drive unit voltage

Set the drive unit voltage to correct level. The selections are

12V, 24V, or 32V and should be set to the voltage specified for your drive unit.

Refer to the drive unit table on page 72 for information.

The drive engage/bypass clutch output follows the same voltage as set for the drive unit. It is not possible to select a higher voltage than the input voltage.

Selection of improper voltage level for your drive unit may damage both the drive unit and the autopilot computer even if the protection circuits in the autopilot computer are activated.

During the Rudder Test, the AP25 system will automatically detect whether the drive unit is a reversible motor or a solenoid is operated.

To change the voltage selection, rotate the course knob.

Note ! The drive unit voltage setting does not apply when operating solenoids on a continuous running pump/steering gear. Hence, the output voltage to the solenoids will be the same as the input voltage.

Proceed to next menu item by pressing STBD button.

Rudder Feedback Calibration

Make sure the RF300 is installed and aligned as pr. instruction in

section 3.6 (or eventually section 3.27 for LF3000). This

function enables you to compensate for any non-linearity in the transmission between the rudder and the rudder feedback.

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Simrad AP25 Autopilot

Note !

Confirm Rudder feedback calibration to STBD by turning the course knob clockwise.

Manually turn the helm to starboard until the rudder stops at starboard lock (H.O.).

The value on the display is the angle read by the rudder feedback unit before any adjustment is made. If the actual rudder angle is different from that of the display, correct the reading by turning the course knob clockwise to increase the value or counter clockwise to decrease the value. See note.

Advance to the next step by pressing the STBD button.

Manually turn the helm to port until the rudder stops at maximum port rudder.

Adjust the displayed angle the same way as for starboard rudder.

Many boats have ±45° (90° H.O. - H.O.) rudder angle as standard. So if you are not making any adjustment to the display readout (i.e. not turning the course knob), the AP25 will set a

(default) value of 45° to each side. However, you should always simulate an adjustment by turning the course knob clockwise and then back again. This is necessary to prevent the rudder from hitting the end stops.

Rudder zero may still be inaccurate and should be adjusted later during sea trial.

Proceed to next menu item by pressing STBD button.

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Note !

Caution !

Configuration and setup

Rudder Test

If the boat uses power assisted steering, it is important that the engine or electric motor used to enable the power assist steering be turned on prior to this test.

Bring the rudder manually to midship position before starting the test.

Stand CLEAR of the wheel and do not attempt to take manual control of the wheel during this test!

Activate the automatic rudder test by turning the course knob clockwise.

Note!

The automatic rudder test can be aborted any time by pressing

the STBY button.

The AP25 will after a few seconds issue a series of PORT and STBD rudder commands to automatically verify correct rudder direction. It detects minimum power to drive the rudder and then reduces the rudder speed if it exceeds the maximum recommended speed

(8°/sec.) for autopilot operation.

The Rudder test is verified by the display showing ‘Motor OK’,

‘Solenoids OK’, or ‘Failed’. If ‘Failed’ is given, check for correct electrical connection.

When test is finished the display will read:

or

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Simrad AP25 Autopilot

The Motor Drive out (displayed in percentage) is the amount of available power needed to achieve recommended rudder speed when on automatic steering Maximum speed (100%) is used in

NFU mode. See also “Final Sea Trial” on page 132.

The screen also tells whether a clutch is installed or not.

If the Automatic rudder test fails, refer to ”Alarms” beginning on page 139

Test of LF3000/LFI3000 Mk2 feedback

1. Align engines to centre position; “zero rudder”.

2. Rev engines to 3-4000 rev/min and observe the rudder angle indicator on the autopilot, a 2° change in the reading should be accepted.

3. If the rudder angle exceeds 2°, connect the screen on the TB1 cable to the centre block terminal and repeat item 2 (See

Figure 3-30). If this gives a better result keep the screen

connected.

Proceed to next menu item by pressing STBD button.

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Drive engage

This determines the use of the autopilot computer drive engage port (BYPASS/

CLUTCH terminals). The port voltage is the same as the selected drive unit voltage.

Drive engage has the following settings:

Bypass/clutch:

The port will activate (go high), in all autopilot steering modes, and typically engages a bypass valve on a hydraulic linear drive or a clutch on a mechanical drive when entering any of the active autopilot modes. This is the default setting and it allows you to steer the boat with the helm or wheel when in STBY or DODGE modes.

Auto:

This setting is implemented for future use. Always use the

“Bypass/clutch” (default) setting.

Rudder Deadband

The rudder deadband function is adaptive and is continuously operative. It prevents the rudder from hunting and the adaptive function optimizes the deadband to the speed of the boat and the pressure on the rudder.

If the auto-setting does not perform properly due to high inertia from the wheel or a loose steering gear, it can be adjusted manually.

Adjust the Rudder deadband by rotating the course knob. Find the lowest possible value that will prevent the rudder from hunting. A wide deadband will cause inaccurate steering. It is recommended to check rudder stability and accuracy in FUmode when the boat is moving to get pressure on the rudder.

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Simrad AP25 Autopilot

Note !

Range: AUTO, 0.1° to 4.0° in 0.1° increments.

Default: AUTO.

Proceed to the next menu item by pressing the STBD button.

The rudder deadband setting is not available when the autopilot is configured for Virtual feedback.

Wind setup

Wind setup is only available if ‘Boat type’ is set to ‘Sail’ in the

Installation/Dockside menu.

Wind setup has two levels:

NORMAL and RACING. The

RACING level will give access to more wind setup items to achieve optimal performance when sailing. Additional setup items also become available in the User setup and the Quick setup menus.

Range: NORMAL and RACING

Default: NORMAL

Minimum wind angle (NORMAL)

The ‘Minimum wind angle’ is the minimum apparent wind angle that will keep the sails well shaped and give an acceptable thrust. This parameter will vary from boat to boat.

The ‘Minimum wind angle’ applies in the tack-prevent function.

It also applies when the autopilot is navigating in Wind mode.

Range: 15 – 90°

Default: 30°

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Minimum wind angle (RACING)

The minimum wind angle also applies when the autopilot is optimising the VMG (available parameter in the Quick setup menu when ‘Wind setup’ is set to RACING).

Range: 15 – 90°

Default: 30°

If ‘Wind setup’ is set to

RACING, you can set different minimum wind angles for port and starboard. The difference between port and starboard wind angles will be taken into account when calculating the

Estimated Time to Turn (ETT) and Distance To Turn (DTT).

Tack angle (RACING)

The autopilot can also tack in

AUTO-mode. The set tack angle replaces a similar change of the set course using the course knob.

Range: 50 – 150°

Default: 100°

Tack time (RACING)

When performing a tack in

WIND-mode, the rate of turn can be limited. This will give single handed sailors time to handle the boat and the sails during a tack. The tack time is the time needed for the sailor to initiate the tack, start using the winches and haul the foresail from one side to the other.

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Simrad AP25 Autopilot

Note !

A turn performed without shifting wind side, will also be made at a reduced turn rate. Shifting wind side when gybing, however, is an instant action from the autopilot and there is no limitation of the turn rate when making a gybe.

Range: 2 – 50 seconds

Default: 12s

Wind shift limit (RACING)

The monitored wind shift in

WIND-mode is the wind shift angle measured from the last time the wind angle was set on the autopilot. If this wind shift exceeds the ‘Wind shift limit’, a wind shift alarm will be activated.

The wind shift monitoring can be turned off by setting the ‘Wind shift limit’ to ‘OFF’.

A wind shift reading is also presented in the ‘Wind shift’-display.

This is the change of wind direction measured from the last time the autopilot mode was changed, e.g. STANDBY to AUTO,

AUTO to WIND. This wind shift reading is for information only, and not to activate the wind shift alarm.

Range: OFF, 2 – 90°

Default: 30°

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Configuration and setup

Dockside settings when configured for

Virtual Feedback

The Virtual Feedback algorithms in the autopilot software enable your autopilot to steer without having to mount a conventional rudder feedback unit. These algorithms are designed for vessels up to 40 ft. powered by outboard or stern drives only.

Installing a feedback unit, however, will always enhance the performance of an autopilot and provide an accurate rudder angle indicator on the autopilot display. Unless impractical or impossible, a rudder feedback unit should be installed.

The autopilot is automatically configured for Virtual Feedback when there is no feedback unit connected at first time turn on, or

at turn on after a Master Reset has been performed (Page 132).

At first time turn on the autopilot will after approx. 5 seconds sound and display a feedback failure alarm. Press the STBY button to silence the alarm and follow the instructions in the display to initiate

the Setup as described on page 95.

Press and hold the INFO/SETUP button to enter the Installation setup menu. Select “Dockside” and turn the course knob clockwise to open the “Dockside” menu. This will automatically configure the autopilot for Virtual Feedback, and the alternating feedback alarm will disappear from the display.

When the autopilot is configured for Virtual Feedback the Boat type is automatically set to Outboard.

The (autopilot) Drive unit voltage should be set to the voltage specified for your drive unit. See

page 101.

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Simrad AP25 Autopilot

110

Virtual Feedback calibration

To perform the Virtual Feedback calibration and rudder test you must be able to view the movement of the engines/drives (“rudder”).

The Virtual feedback calibration is entered as a numerical value equal to the physical rudder angle observed at the hard over position.

Use the course knob to enter the starboard and port rudder angle.

Rudder test

Activate the automatic rudder test by turning the course knob clockwise.

While observing the rudder position, use the wheel to center the rudder. Confirm by turning the course knob clockwise.

The next step is to enter the correct direction of the rudder movement.

Press and hold the TURN/DODGE button. Observe the rudder movement. Release the button after

3 seconds.

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Configuration and setup

If the rudder is not moving so as to give a starboard turn, press and hold the TURN/DODGE button for another 3 seconds.

When the rudder is moving to starboard, turn the course knob clockwise to confirm.

While observing the rudder, use the wheel to turn the rudder hard over to starboard position. Turn the wheel carefully a little to port just to release the hydraulic pressure.

When ready confirm by turning the course knob clockwise

Press and hold the TURN/DODGE button.

Release the button when the rudder reaches the port hard over position.

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Simrad AP25 Autopilot

The rudder will now be automatically centered.

Note!

The reading in the rudder angle display is not showing a rudder angle, only the direction of the rudder movement.

The Rudder test is verified by the display showing ‘Motor OK’ or

‘Failed’. If ‘Failed’ is given, check for correct electrical connection.

When test is finished the display will read:

Drive Engage

See page 105

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4.5 Interface Settings

Sets the format of the clock/data output for radars connected to the Autopilot Computer.

Step to the Interface part of the Installation Menu.

Turn the course knob clockwise to access the

Interface Setup items.

Use the course knob to select the connected type of radar.

Note!

This setting is not available in the AC10 Autopilot Computer.

4.6 Display units

Select Display units by pressing STBD button and confirm by rotating the course knob clock-wise. The setup is local to each control unit.

This screen gives access to the display unit set-up of the

Wind Speed, Sea temperature and Depth.

Use the STBD button to select an item and the course knob to select the unit.

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Simrad AP25 Autopilot

Available units are: Wind Speed: kt or m/s

Sea temperature: °F or °C

Exit the Display units menu by pressing STBD button to proceed to the Sea trial menu, or press STBY to return to normal AP25 operation.

4.7 Sea Trial

Caution ! The Sea Trial must always be performed in open waters at a safe distance from other traffic.

The Sea-trial menu can only be accessed if the Dockside Settings are completed and confirmed.

The seatrial settings are:

• Rudder zero adjust (To tell the AP25 the precise midships position of the rudder)

• Minimum rudder

• Compass calibration (To automatically compensate for onboard magnetic interference)

• Compass Offset (To compensate for a fixed offset (A-error) in the final compass heading readout)

• Wind Offset (To compensate for a fixed mechanical offset of the Wind vane)

• Wind Damping (To avoid flickering on the wind display)

• Depth offset (To compensate for the distance between the depth transducer and the surface if required)

• Automatic tuning (A method of determining the steering parameters)

• Transition speed (the speed at which you want a power boat to change steering parameters)

• Init NAV (to set the response you prefer when steering onto a track in NAV mode)

• Set thrust direction (optional, only if interfaced to a thruster)

• Drive output adjust (See Final sea trial, page 132).

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Select Seatrial by pressing the STBD button and confirm by rotating the course knob clock-wise.

Set Rudder zero

(Not applicable when configured for Virtual feedback)

This adjustment should be made in calm sea and side forces from wind or current should be avoided.

• Bring the boat up to cruising speed, and head directly into the wind.

• If the boat has twin engines, synchronize the engine RPM's.

• Set the trim tabs and stabilizers to have no effect on the boats heading.

• Steer the boat manually on a steady course.

• Confirm the rudder ZERO position by rotating the course knob clockwise.

Press STBD to proceed to next menu item.

Minimum rudder

Some vessels may have a tendency of not responding to small rudder commands around the “course keeping” position because of a small rudder, a rudder deadband or whirls/disturbance of the water-stream passing the rudder.

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Simrad AP25 Autopilot

By turning the Minimum Rudder function ‘On’, it may hence improve the course keeping performance on some boats, but it will increase the rudder activity.

Turn the minimum rudder on by turning the rotary course knob.

Range: OFF-ON.

Default: OFF

Note !

Notes !

116

During the sea trial, only set Minimum Rudder to ON if it proves to give a better course keeping performance in calm sea. It should be set after the autotune has been performed and a

possible fine tune of the Rudder parameter (page 127).

Compass calibration

This function will activate the compass calibration procedure for

Simrad compasses connected to Robnet2 and the Autopilot

Computer terminals (HS).

1. The RC36 Rate Compass that comes with the autopilot as standard will store the calibration and off-set data in its own memory.

2. Compass calibration for a second compass connected to the

HS terminal will be stored in the Autopilot Computer memory.

3. Calibration is made on the compass that is active for the autopilot. The active compass is the one that is displayed on the compass calibration screen.

RATE-0 = Rate compass, FLUX-0 = Fluxgate compass on

HS terminals.

4. If an optional NMEA compass from Simrad or another manufacturer is installed, also refer to the optional compass’ manual regarding calibration. This compass will not be calibrated by the autopilot.

Before you start the compass calibration, make sure you have enough open water around you to make a full turn with the boat.

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Configuration and setup

The calibration should be done in calm sea conditions and with minimal wind to obtain good results. Use about 60-90 seconds to make a full circle.

Increase speed: >>>>>

Decrease speed: <<<<<

Appropriate speed: > <

1. Select the ‘Calibration’ item on the display

2. Begin turning the boat (port or starboard).

3. Confirm start of calibration by turning the course knob clockwise. The display will flash “Calibrating”. Establish your turning rate using the arrows in the display.

4. When the calibration is completed, (after having made approximately 1 1/4 turns), it will be confirmed by the display reading “Confirmed”.

Compass deviation

The heading from a magnetic heading sensor will normally have a deviation when compared with the actual direction of the earth’s magnetic field. This is caused by interference from the boat’s local magnetic field. The deviation will be at a minimum if the compass is placed as far as possible from any magnetic object on board. On the other hand, you may have to compromise with other requirements for the installation of the

compass (page 79).

During the calibration, the compass will measure the magnitude and direction of the local magnetic field from where the compass is mounted. The magnitude is given in % of the magnitude of the earth’s magnetic field. If the local magnetic field is stronger than the earth’s magnetic field (the local field is reading more than

100%), the compass calibration will fail. If the local field is reading more than 30%, you should look for any interfering magnetic objects and remove them, or you should move the

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Simrad AP25 Autopilot

Note !

Note ! compass to a different location. The local field angle will aid you to the local interfering magnetic object. See drawing.

Lubber line Lubber line

Magnitude of local field in % of earth’s magnetic field.

Direction of local field with respect to lubber line. It can also be on the reciprocal.

In certain areas and at high latitudes the local magnetic interference becomes more significant and heading errors exceeding ±3° may have to be accepted.

Compass Offset

After calibration, also check the compass readout against a known reference, a compensated compass or a bearing. If the reading has a fixed offset, proceed to next menu item by pressing

STBD button or return to STANDBY mode by pressing the

STBY button.

Offset correction is always performed after the calibration. If you use COG as a reference for the offset remember it has to be a magnetic reading.

The compass OFFSET feature allows you to correct for a fixed heading offset. This offset may be present as a result of the compass being installed with a lubber line offset or if a fixed offset remains after the calibration procedure has been completed. The value of compass offset is specific to the heading sensor that is selected at the time the offset is entered. This means that you can have individual offsets for each compass installed.

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Configuration and setup

Select the amount of correction by turning the course knob to offset the heading to agree with the known, accurate heading. The

Offset value can be either positive or negative.

If an OFFSET still exists after having compensated for it, one of the following problems may still exist:

• The heading reference to which you are comparing the compass is not correct.

• The automatic calibration is not correct. Refer to above

“Compass deviation”.

Proceed to the next menu item by pressing the STBD button, or return to Standby mode by pressing the STBY button.

Set Thrust Direction

(Only applicable if a thruster is connected)

Rotate the course knob clockwise to activate the Set

thrust direction setting.

Rotate the course knob CW and verify that the vessel turns to starboard. The thruster stops after 10 seconds, or when the

STBD button is pressed.

If the boat turns to port when the course knob is turned CW, rotate the knob to port to ensure a starboard turn.

The autopilot has now been set to the correct thrust direction.

On thrusters, a change in direction command will always be delayed 1 second to prevent thruster breakage.

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Simrad AP25 Autopilot

Note !

Wind Offset

This offset only applies if you have a wind transducer directly connected to SimNet (IS12TW) or a wind transducer that outputs data on NMEA2000 format.

The Wind Offset feature allows you to correct for a fixed wind angle offset. Steer the boat directly into the wind with a damping of 15s. Keep the bow a steady heading for 15-20 sec. and read the wind angle. If necessary turn the course knob to input an off set that makes the display read Wind 000°.

The Offset value can be either positive or negative.

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Wind damping

Damping of the apparent wind angle is made by the Advanced

Wind Filter (AWF) in the

Autopilot Computer. The inputs to the AWF are heading, boat speed, apparent wind angle and wind speed. Verify that these inputs are available in User Setup2/Source Select.

Heading sensors, speed sensors and wind sensors have variable performance. The measured wind angle can be very erratic when the boat is rolling heavily. In such conditions the AWF gives a better result when the calculations are based more on heading and boat speed inputs to achieve the correct apparent wind angle.

Increasing the ‘Wind damping’, will make the AWF depend more on heading and boat speed to calculate the correct apparent wind angle. Decreasing the ‘Wind damping’, will make the

AWF depend more on the “raw” apparent wind angle data.

The boat speed input to the AWF is primarily Speed Over

Ground (SOG). If this is not available, the AWF will use speed

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Note !

Configuration and setup through water. If none of these are available, the AWF will use a boat speed that is 1.5 times the Transition Speed set in the

Installation/Seatrial menu. Turn the course knob to adjust the wind damping.

Range: 1 – 100 seconds

Default: 15 seconds

Depth Offset

This adjustment only applies to “smart” depth transducers that outputs depth on NMEA2000 format. NMEA0183 sentence

‘DPT’ contains offset and the depth reading is from the surface.

NMEA0183 sentence ‘DBT’ contains no depth offset and the reading will be from the position of the transducer.

When the depth offset is set to zero, the indicated depth is from the transducer to the bottom. To read the depth from the water surface to the bottom you have to set the depth offset according to the vertical distance between the surface and the transducer, i.e. positive

(+) value

To read the depth from the keel to the bottom you have to set the depth offset according to the vertical distance between the transducer and the keel, i.e. negative (–) value.

Automatic tuning

Automatic tuning is a feature that automatically sets the two main steering parameters (Rudder and Counter Rudder) by taking the boat through a number of S-turns. The scaling factors of the parameters are also set automatically as a function of the boat type selection performed in the Dockside menu.

Automatic tuning is an optional procedure that is not required for the AP25 to function. The AP25 is preset with steering parameters that should steer most boats in the 30 - 80 foot range.

It is, however, recommended to perform an automatic turning as part of the sea trial.

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Simrad AP25 Autopilot

Note !

Note !

Caution !

Recommended speed during Automatic tuning varies with the type of boat, but should not exceed 10 knots. It should be performed in calm or moderate sea conditions.

Automatic tuning should not be performed at planing speed or in following seas!

For displacement boats use a speed that is approximately half the normal cruising speed (i.e. if cruising speed is 10 knots, perform the Automatic tuning at about 5 knots).

The parameter values calculated during Automatic tuning becomes the HI parameters. The LO parameters are automatically set to 66% of the HI.

It also is recommended to perform the Automatic tuning steering

East or West, as this will yield the best balanced parameters.

After the Automatic tuning has been completed the rudder must be controlled manually, as the autopilot has returned to STBY mode.

The Automatic tuning function will take control of the boat and perform a number of S-turns. It must always be performed in open waters at a safe distance from other traffic. The

Automatic tuning function may take from 1 to 2 minutes to complete. To stop the Automatic tuning, press the STBY button.

Activate the Automatic tuning, by rotating the course knob clockwise. The display will flash “Automatic tuning”.

122

After an Automatic tuning, there should be no need for further adjustments. “Fine tuning” of these parameters are made by the

response control (see page 56). However, viewing or changing

the parameters can be made from within the Parameter menu

item. See also “Recall Autotune” on page 128.

Proceed to the next menu item by pressing the STBD button, or return to Standby mode by pressing the STBY button.

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Configuration and setup

Transition Speed

The transition speed is the speed where the AP25 will automatically change the steering parameter set from HI to LO

parameters, or vice versa (page 22).

The default setting of transition speed is 5 kts.

It is recommended that you set the transition speed to a speed that represents the speed where the hull begins to plane, or the speed where you change from slow to cruising speed.

The speed used for the automatic transition is obtained with the following priority:

1. Speed through water from the speed log source.

2. Speed Over Ground (SOG) from the GPS/Chartplotter.

If no speed data is available, manual speed selection is required.

See also chapters 2.9 and 2.10.

Rotate the course dial clockwise until the transition speed is set to the desired value in knots.

Range: OFF – 30 knots

Default: 5 knots

Proceed to next menu item by pressing STBD button.

Init NAV

Sets a firm or soft approach to the track line when entering the

NAV mode at the first leg. The approach angle is dependant

(adaptive) on the distance (XTE) from the track line and the boat speed.

Select firm or soft approach to the track line by rotating the course knob.

Range: Soft - Firm

Default: Soft

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Simrad AP25 Autopilot

Notes!

Note !

NAV change limit

In NAV mode, when the required course change at the approaching waypoint is bigger than the set limit, you are prompted to verify that the upcoming course change is acceptable. The limit can be set to 10°, 20° or 30°.

Default: 10°

Rudder play compensation.

(Only applicable when configured for Virtual feedback)

1. To obtain the best possible steering performance the said procedures must be performed in the following order:

- Perform an autotune at 6-8 knots in calm sea.

- If necessary fine tune the Counter Rudder parameter (see

page 126) at cruising speed (LO value) and at slow speed

(HI value)

- Use the response control to obtain the best possible course

keeping (page 56).

2. If the autopilot performance is found satisfactory when the above has been completed, skip the following rudder play compensation procedure. The rudder play compensation procedure is only necessary if the steering gear is sloppy.

Using this procedure when not required may interfere with the steering algorithms and result in poorer steering instead of providing improvements.

A play in the steering gear will always reduce the steering performance of the autopilot. The best result is obtained when sloppy linkages are repaired and this is the recommended course of action.

With a rudder feedback unit installed the effect of the rudder play is significantly lessened.

When rudder play still exists and there is no feedback unit installed, the autopilot will need some assistance from the installer to compensate for this. The effect of the rudder play is

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Configuration and setup different at slow speed as compared to cruising speed and both situations have to be compensated for individually.

This adjustment must be made when steering in dead calm sea. Confirm by turning the course knob clockwise.

Note !

Note!

This menu item can also be accessed directly in Auto mode. Press and hold the

INFO/SETUP button until this

display appears.

The vertical bar is the lubber line (bow). Observe the number of arrows to each side of the bar while the autopilot is working; one

> = 1° off course. Increase the rudder play value in steps by turning the course knob and take time to observe the result of each step before you make further changes. The best setting is when the number of arrows is at a minimum on each side of the bar. This adjustment has to be made at cruising speed (LO setting) and once again at slow speed (HI setting).

Increasing the rudder play compensation will increase the number of rudder commands. Particularly at low speed this may enhance the course keeping performance.

Proceed to the “Parameters” item by pressing the STBD button or return to STANDBY mode by pressing the STBY button.

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Simrad AP25 Autopilot

4.8 Parameters

A boats steering parameters found by the Automatic tuning can be looked at and if needed changed under this menu item. The steering parameters can also be set manually instead of performing an Automatic tuning. The parameters

are divided into two sets (page 23):

• HI value parameters for automatic steering at low speed and when running with a sailboat.

• LO value parameters for automatic steering at high speed and when sailing into the wind or reaching with a sailboat.

Manual parameter adjust

Use course knob to adjust parameters

Displayed parameter

Boat type

Displacem.

& Sail

Planing &

Outboard

Own boat

Automatic tuning

Manual

LOw

Rudder LO

Cont.Rudder LO

Autotrim LO

Rudder Lim LO

0.35

1.00

40 sec.

20°

0.20

1.00

40 sec.

20°

HIgh

Rudder HI

Use PORT and STBD Cont.Rudder HI buttons to step through

Autotrim HI parameters Rudder Lim HI

Note !

Note !

0.50

1.40

40 sec.

20°

0.30

1.40

40 sec.

20°

The values in the table are factory set (default) and listed for information only. After having performed the Automatic tuning, the values may differ from those listed in the table. See also

“Automatic Tuning” previously in this chapter.

With Virtual Rudder Feedback use 20 seconds time constant for

Autotrim.

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Configuration and setup

The two most important parameters that determine the performance of the automatic steering are Rudder and Counter

Rudder.

Rudder sets the rudder gain which is the ratio between the commanded angle and the heading error.

Course to steer

Too little Rudder

Course to steer

Too much Rudder

• Too little Rudder and the autopilot fails to keep a steady course.

• Too much Rudder gives unstable steering and reduces speed.

• Low speed requires more Rudder than high speed.

See also “Minimum Rudder” on page 115.

Counter Rudder is the parameter that counteracts the effect of the boats turn rate and inertia. For a short time period it is superimposed on the proportional rudder response as provided by the heading error. It may sometimes appear as if it tends to make the rudder move to the wrong side (counter rudder).

The best way of checking the value of the Counter Rudder setting is when making turns. The figures illustrate the effects off various Counter Rudder settings.

Counter rudder setting too low, overshoot response

New course

New course

Counter rudder setting too high, sluggish and creeping response

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Simrad AP25 Autopilot

New course

Correct setting of counter rudder, ideal response

Autotrim standard value is 40 sec. which should work well on most boats.

Rudder Limit should be kept at 20 degrees unless there is a need for more rudder when performing dockside manoeuvres.

Recall Autotuned?

To recall the parameter values that were achieved during the

Automatic tuning procedure, rotate the course knob clockwise. When parameter values are recalled, Confirmed is displayed.

Exit the Parameter menu by pressing STBD button to proceed to the Service menu, or press STBY to return to normal AP25 operation.

4.9 Service Menu

Select STANDBY mode and then enter the Installation Menu by pressing and holding the INFO/SETUP button for 5 seconds.

Select "SERVICE" by pressing the STBD button and confirm by rotating the course knob clockwise.

System data and NMEA data are test functions to analyze data processed by the AP25.

Sn 00000 is the unique

SimNet ID number for the specific autopilot control unit.

To exit the menu, press any mode key (STBY, AUTO or

NAV).

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Configuration and setup

System Data Menu

Select System data by rotating the course knob clockwise.

This menu provides you with additional system data that can be useful when testing or trouble shooting the system.

Steer compass

Steering Compass readout, M=Magnetic, T=True

Rudder

Rudder angle. Normally between zero and 45 degrees.

Input voltage

Mains voltage on input terminals

Drive out

Power needed to drive the unit in percent of full (100%) to get satisfactory rudder speed.

Clutch/bypass

Verifies if a clutch or bypass valve has been activated when performing the rudder test.

SimNet and NMEA Data Screen

Select the screen by pressing the STBD button and confirm by rotating the course knob clockwise.

The menu provides you with status information about the different SimNet and/or

NMEA messages used by the system.

Decoding

The incoming signals are decoded according to a built in priority table in the AP25. Cross Track Error and bearing information are taken from the NMEA messages with highest priority.

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Simrad AP25 Autopilot

Note !

Note !

For all data items, one of the following codes will be displayed:

– – – No data or no NMEA sentence containing the data

needed is available at the input port.

OK Valid data found

INV Message with invalid information.

FRM Message has format failure such as a) Incorrect check sum b) Wrong contents in datafield(s)

If data are missing or invalid, perform the following:

• Check the NMEA signal monitor (see below)

• Open the source select page in the User Setup2 menu and check that data are available

• Check the navigator setup and make sure it is transmitting appropriate data.

• Perform a NMEA Port Test (hardware) as per below.

The “WIND” reading is the apparent wind from port (L) or starboard (R). The “SPEED” reading is the speed through water.

NMEA signal monitor

Near the NMEA terminals in the Autopilot Computer you will find a green monitor LED marked “RX”. A flickering LED indicates that a NMEA signal is received. It does not, however, qualify the contents of the message.

Do not mix up the “RX” LED with the LED marked “TX”. The

“TX” LED will always be lit or flickering when the autopilot is on.

NMEA Port test (AC hardware)

Disconnect the cables on the Main PCB in the Autopilot

Computer and connect TX1+ to RX1+ and TX1- to RX1-.

Similarly, on the Power PCB connect the NMEA ports the same way; TX2+ to RX2+ and TX2– to RX2–.

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Configuration and setup

Under Service in the Installation

Menu, select NMEA port test by pressing the STBD button and confirm this by rotating the course knob clockwise.

Verify that the hardware is OK. If not, replace the corresponding

PCB(‘s).

Proceed to the Simnet Setup menu by pressing the STBD button, or press STBY to return to normal AP25 operation.

Simnet setup

Group selection

SIMRAD: Autopilot is part of the

Simrad Group. Source selection will be common for the products in the group (synchronized).

STAND ALONE: Source selection for the autopilot will not be transferred to other products in the

Simrad Group (no synchronization).

Backlight Illumination

Set backlight to synchronize with one of the illumination banks (1-3) available on the SimNet, or to

STAND ALONE for individual control of the autopilot illumination.

Instance number

An item to identify units by a number when the autopilot is connected to a NMEA2000

Network. On SimNet units the

Instance number is added to the product name e.g. AP25-1, AP25-2 for easy identification on various display screens.

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Simrad AP25 Autopilot

Note !

SimNet gateway

Indicates which control unit that transmits and receives information on SimNet. The display verifies by reading ‘Yes’, all other units display

‘No’.

Global SimNet reset

Resets the entire SimNet setup in the

Simrad Group and initiates a new automatic interface setup. See

chapter 4.1.

Master Reset

A Master Reset is part of the final test at the factory, which will reset the memories to factory settings. Unless you need to clear all stored values during the installation setup procedure, you should not perform a Master Reset.

The Master Reset needs a double confirmation to prevent an accidental reset. To perform a

Master Reset, rotate the course knob clockwise and observe the display; then rotate the course knob counter clockwise. The display will then read: “Master

Reset confirmed”.

Unless you have made a Master Reset, exit the Installation Menu by pressing STBY to return to normal AP25 operation.

In the event a Master Reset has been made, refer to chapter 4.2.

Final sea trial

After having completed all settings in the Installation Menu, take the boat out and perform a final sea trial in open waters at a safe distance from other traffic.

• Steer the boat on all cardinal headings in AUTO mode.

• Start with low and medium speeds to get familiar with the response from the AP25.

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Configuration and setup

• If the hardware for automatic HI/LO selection is connected and configured, verify that the HI/LO transition is occurring, and the HI/LO parameters are changing after the transition speed is crossed (by more than 1 Knot higher or lower speed).

• Try the effect of LO and HI parameter settings.

• Try the Dodge and U-turn function.

• If a Non-Follow Up lever (or handheld remote) is connected, test change of modes and verify port and starboard steering commands of the lever.

• Set waypoints into each navigator connected to the system, and verify that the AP25 steers in NAV mode for each NAV source.

• Try the NoDrift mode.

• If the boat is a sailboat use the WIND mode and try the AP25 at different settings of the apparent wind angle. Also try the

WINDN(av) mode, optimized VMG and WCV when sailing

(tacking) to a waypoint.

• If the rudder response feels aggressive during the sea trial, you may want to reduce the rudder speed to get a smoother steering.

Alternatively on a sailboat you may want to have a higher

rudder speed when running. The motor Drive out (page 104)

can be set with this in mind. Never adjust in more than 10% steps with respect to the reading set during the automatic

rudder test (page 103). Always perform a new Autotune after

the adjustment.

• Provide the owner with user training.

Providing user training

The user should be instructed in the "basic" operational functions, such as:

• Turning the system on and off

• Changing modes. Explain briefly what takes place in the different modes.

• Regaining manual control from any mode. Point out in what modes the helm is engaged by the autopilot (bypass/clutch).

• Taking command at an "inactive" station, if applicable.

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Simrad AP25 Autopilot

Note !

• Using the lock mode, how to lock/unlock and how to shut the system down from a locked control unit, if applicable.

• Use of the Non-Follow-up and Follow-up steering modes and learning the difference between the two.

No Follow-up mode when configured for Virtual feedback

• Use of a Non-Follow-up and Follow-up controller, if connected.

• Changing course by rotary knob and buttons.

• Stepping through the User Set-up Menu learning how to (and why to) change the settings.

• How to select alternative sources for heading (compass), navigation (GPS, chart plotter), speed, depth etc. if available.

• Understand the difference between NAV mode and NoDrift mode and their data sources (Nav, Pos).

• Locating compasses and knowing to keep magnetic items away.

• Locating the Mains circuit breaker and the separate SimNet circuit breaker if provided.

• Knowing the use of thrusters with the autopilot.

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Maintenance

5 MAINTENANCE

5.1 Control unit

The AP25 Control Unit will under normal use require little maintenance.

If the unit requires any form of cleaning, use fresh water and a mild soap solution (not a detergent). It is important to avoid using chemical cleaners and hydrocarbons such as diesel, petrol etc.

Make sure that all open Robnet2 connectors are fitted with a protection cap.

It is advisable at the start of each season to check all connections to the control unit head and cover with Vaseline or WD40. If the

Control unit is not removed from the boat, it should be covered with the white protection cover.

5.2 Autopilot Computer

No special maintenance is required. It is advisable, however, at the start of each season to make a visual inspection of the internal and check all connections.

5.3 Rudder Feedback

Make a visual inspection at 2-3 month intervals and at the start of each season. Apply some grease at the ball joints when required (RF300)

5.4 Compass

If the compass is exposed to the weather, make a visual inspection at 2-3 months intervals, and at the start of each season.

5.5 Drive unit

Refer to the drive unit manual for maintenance instructions.

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Simrad AP25 Autopilot

5.6 Exchange of software programme

Autopilot Computer

Autopilot

Computer

EPROM

Caution !

136

Figure 5-1 AC10/AC20/AC40 Main PC-Board

• Remove the EPROM from the socket by means of the special extraction tool (p/n 44139806).

• Insert the tool by pressing the two grip pins down into the two slots in the corners of the socket.

• Squeeze the tool and pull out the EPROM.

• The identification tag indicates:

- Name of unit

- Part number

- Software version

Cut-off corner

When inserting a new EPROM, make sure the cut-off corner matches with the one in the socket. Press it gently into the socket.

Identification tag

Slots

EPROM for AC10, AC20 and AC40

Autopilot Computers:

P/N 22088462

After change of EPROM, perform a master

reset as described on page 132.

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Maintenance

Autopilot Control Unit

You will need a special kit for a PC to perform the programming of the AP25 Control Unit. Order the following from Simrad:

Programming kit P/N 22088595.

Instructions are included.

Software download connector

Figure 5-2 Part of AP25 PCB

Remove the cables and unscrew the six screws that secure the back cover. Apply a firm pull with your fingers to pull the back cover loose from the connector pins. Then you have access to the software download connector.

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Simrad AP25 Autopilot

This page is intentionally left blank.

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Trouble shooting

6 TROUBLE SHOOTING

An autopilot is a complex system. Its performance dependents on a proper installation and a successful sea trial.

In the event of an autopilot failure, the AP25’s numerous test features will assist you in isolating a probable fault.

Audible and visual alarm is provided for every fault being detected.

The audible alarm is reset by pressing any button (e.g. by changing mode from AUTO to STANDBY). All visual alarms will remain and alternate with the operating display until the fault has been rectified. Refer to the table below for hints and try to solve the problem yourself. You may also consult your nearest

Simrad dealer for assistance, if required.

Perform any repair action in the listed sequence.

Notes!

1. ‘Compass difference’, ‘Vessel off course’, and ‘Rudder limit’ warnings are automatically reset when the error is rectified.

2. – – – in a display indicates that data is missing.

6.1 Alarms

Display readout Probable fault

System failure Alarms:

The boat is off course

Boats heading is outside fixed off course limit of 20 deg. (Automatic reset when inside limit.)

Extreme weather conditions, too slow speed.

NAV. data failure Missing or invalid

NAV data.

Recommended action

1. Check steering parameters

(Rudder, Autotrim, Seastatefilter).

2. Increase Rudder value

3. Increase boat speed, if possible, or steer by hand.

1. Check the Nav. Receiver/GPS setup.

2. See Service menu Chapter 4.9

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139

Simrad AP25 Autopilot

Display readout Probable fault

Shallow water The depth is inside the set limit or outside the range, i.e. 100 m

(328’)

Depth data is missing.

Compass data missing

Rudder feedback failure (not applicable for

Virtual feedback installations)

Rudder response failure

No data from selected compass.

Rudder feedback signal missing or erratic

No response to rudder command

Recommended action

1. Carefully observe the actual depth.

2. Adjust the alarm limit if not hazardous.

3. Steer to safe depth, the alarm will reset automatically.

4. Turn off the shallow alarm if

depth data is missing (Page 54).

1. If more that one compass is connected to the system, refer to the User Setup2/Source select menu to select a different compass.

2. Make a source update if no compass is available.

3. Check connections.

4. Replace compass PCB (Note: Do not cut cables. There are screw

terminals inside).

1. Check all connections.

2. Check the alignment as per the installation instructions

3. Replace rudder feedback unit.

Rudder too slow Excessive load on steering gear. Air in hydraulic system.

Insufficient drive unit capacity.

1. Check all connections

2. Check Rudder FB transmission link (not applicable for Virtual feedback installations).

3. Check drive unit motor/brushes.

4. Replace the Autopilot Computer

Power PCB.

1. Look for mechanical obstructions at the rudder/tiller/ quadrant. Check the back drive force.

2. Bleed the hydraulic system.

3. Replace with bigger pump unit.

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Trouble shooting

Display readout Probable fault

Rudder test failed Following conditions may exist: a) Rudder feedback failure b) Autopilot

Computer current overload c) Bypass/clutch overload

Rudder moves in only one direction a) Poor connection to one of the solenoids

(continuously running pump) b) Faulty Power PCB in autopilot computer

Rudder test not completed within 2 min. a) Poor connections to the drive unit b) Faulty Main PCB in the Autopilot

Computer c) Faulty Power PCB in the Autopilot

Computer

Rudder moves at full speed to one side. a) Faulty Power PCB in Autopilot

Computer

Recommended action

Refer to recommended actions for the specific probable faults. a) Check the connections b) Replace the Autopilot Computer

Power PCB a) Check connections b) Replace the Main PCB c) Check the Power PCB for traces of burned transistors. – Change

Power PCB.

Replace Autopilot Computer Power

PCB

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Simrad AP25 Autopilot

Display readout Probable fault

Failure active

Control Unit

ACXX current overload

Low 15 volt

Active control unit goes silent.

The drive unit shut down due to an excessive load or a short circuit.

Internal 15 Volt supply in Autopilot

Computer below limit.

Recommended action

1. Press the STBY button on an

"Inactive" unit to reset.

2. Check/repair RobNet2 cable.

3. Replace the control unit PCB.

1. Check the drive unit and drive unit installation/Manual steering/

Rudder.

2. Disconnect the drive unit. If the fault is still present, replace the

Autopilot Computer Power PCB.

1. Replace Autopilot Computer Main

PCB

2. Replace Autopilot Computer

Power PCB if Mains voltage is

12V.

Bypass/clutch overload

Clutch/bypass current exceeds 2,5

Amps (overload or short circuit).

1. Check actual current

2. Check voltage marking on coil

3. Check coil resistance (through connecting wires)

Bypass/clutch disengaged

Poor connection or open circuit in bypass/clutch coil

1. Check connections

2. Replace bypass/clutch if open.

3. Perform new "Rudder test".

ACXX high temp.

Memory failure

ACXX

Excessive temperature in

Autopilot

Computer (>75°C), possible long term overload.

1. Switch off autopilot

2. Check for backload in Drive unit/steering system.

3. Check that the autopilot computer specifications matches Drive unit.

Wrong checksum on memory parameters or variables.

Autopilot

Computer will use default values.

Perform a "Master reset" and make a new "Dockside set-up". Switch off and on again. If the alarm is repeated, replace Autopilot Computer Main

PCB.

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Trouble shooting

Display readout Probable fault

Com. failure with

ACXX

Faulty Autopilot

Computer or poor

Robnet2 cable connections from the same.

Low supply voltage

High supply voltage

Recommended action

1. Check Robnet2 connectors and cable.

2. Replace Autopilot Computer Main

PCB.

Mains voltage less than 9 Volts

1. Verify in the System Data Menu

2. Switch autopilot off, charge batteries

3. Check/repair battery charger

AC20/AC40 Mains exceeds 44 V

AC10 Mains exceeds 29 V

1. Verify in the System Data Menu

2. Switch the autopilot off

3. Check / repair battery charger

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Simrad AP25 Autopilot

7 SPARE PARTS LIST

AP25 Control Unit

22087811 AP25 Control Unit

22084693 Gasket (2 mm)

22086029 Gasket (7.5 mm)

22084941 Optional mounting bracket consisting of:

22084768 Cradle

144

44163145 Locking washer for left and right bracket

44163160 Cradle, locking washer

22087829 AP25 Front Housing Ass’y

22087894 Back cover with gasket

22087738 AP25 Board Ass'y

Autopilot Computers

22088108 AC10 Autopilot Computer

22088116 AC20 Autopilot Computer

22088124 AC40 Autopilot Computer

22081707 AC20 Installation accessories

22081855 AC10 Installation accessories

22081962 AC40 Installation accessories

22081251 AC20 Power PCB Ass'y

22081715 AC10 Power PCB Ass'y

22088694 AC40 Power PCB Ass'y

22088447 AC Main PCB Ass'y (All models)

22088462 EPROM for all autopilot computers

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Spare parts list

22081434 AC10/AC20 Base plate

22082036 AC40 Base plate

RFC35 Electronic Fluxgate Compass

22086995 RFC35 Fluxgate Compass

20104972 Mounting plate (2)

44140762 Screw 3.5x25 (2)

44140770 Screw 30x9 (4)

22081178 RFC35 PCB Ass'y

RC36 Rate compass

22086920 RC36 Rate Compass

22081442 Installation Accessories Consisting of:

20104972 Mounting plate (2)

44140762 Screw 3.5x25 (2)

44140770 Screw 30x9 (4)

22086938 RC36 PCB Ass'y

24005647 Robnet2 Cable, 15 m with Plug

RF300 Rudder Feedback Unit

20193744 RF300 Rudder Feedback

20193470 RF300 transmission lever

20193454 RF300 transmission link

44133122 Transmission rod M5x325mm

20193624 RF300 Ball joint Ass'y (2)

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Simrad AP25 Autopilot

Robnet2 cables

24005613 Robnet2 cable, 1 m (3’) with two plugs

24005621 Robnet2 cable, 5 m (16’) with two plugs

24005639 Robnet2 cable, 10 m (33’) with two plugs

24005647 Robnet2 cable 15 m (49’) with one plug

SimNet cables and accessories

24005829 SimNet cable 0.3 m (1’)

24005837 SimNet cable 2 m (6.6’)

24005845 SimNet cable 5 m (16.6’)

24005852 SimNet cable10 m (33’)

24005878 SimNet cable gland

24005886 SimNet protection plug

24005894 SimNet termination plug

24005902 2 m (6.6’) SimNet power w/termination

24005910 2 m (6.6’) SimNet power w/o termination

24005936 AT10 Universal NMEA0183 converter

24005944 AT15 Active Tee w/connector, IS15

24005928 SimNet cable protection cap

24005729 SimNet cable to Micro-C. Adapter (drop) cable for

SimNet products in a NMEA2000 network.

Tools

44139806 Extraction tool for EPROM

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Technical specifications

8 TECHNICAL SPECIFICATIONS

8.1 AP25 Autopilot System

Boat size and type:..................... Up to 80 feet, Power, Displacement, Sail

Steering system types: ............... Hydraulic, Mechanical

Inter-unit connection: ................ ROBNET2 network or two-wire supply/data

System ON/OFF: ....................... From control units

Supply voltage:.......................... See autopilot computers

Power consumption: .................. Dependent on system configuration

Environmental Protection:

Control Unit:..................... IP56 from front, IP43 from back.

RC36, RFC35, CDI35: ..... IP56

RF300: .............................. IP56

AC10, AC20, AC40:......... IP44

EMC protection: ........................ EN60945 : 1993, A1 : 1993

Automatic Steering control:

Rudder Drive: ................... Proportional rate or solenoid on/off

Parameter selection:.......... Automatic with manual override

Sea state control:............... Adaptive sea state filter or manual

Language selection: ................... English, Norwegian, French, Spanish, German,

Italian, Dutch, Swedish.

Electronic Interface:

Navigation interface:......... Standard (NMEA 0183)

NMEA inp./outp. ports: Max. 6 (see autopilot computers)

NMEA input sentences:.... APA, APB, BOD, BWC, BWR, BWW, DBT,

DPT, GGA, GLL, MTW, MWV, RMA, RMB,

RMC, VHW, VLW, VTG, XTE.

NMEA output sentences:.. BWC, BWW, GLL, HDG, HDM, HDT, HSC,

RMB, RMC, RSA, VTG, XTE.

See chapter 8.13 for NMEA0183 details.

Optional output: ............... Simrad and Furuno radar display (clock/data)

NMEA2000 interface........ Via SimNet port and SimNet/NMEA2000 adapter cable

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147

Simrad AP25 Autopilot

Heading sensors:

Standard: ........................... RC36 Rate Compass

Options:............................. RFC35 Electronic Fluxgate compass

NMEA Compass (Not AC10)

Simrad RGC50/RGC10 gyrocompasses *

* By GI51

Course Selection:....................... Rotary course dial and push button

Alarms: ...................................... Audible and visual, optional external

Alarm modes: ............................ Off course, system failures, overload

Steering modes: ......................... Standby, Non-follow up, Follow-up, Auto, Nav,

Wind

Special Turn modes: .................. Dodging, Tacking, Gybing, U-Turn, C-Turn,

Spiral, Zigzag, Square, Lazy S, Depth contour.

Instrument screen interface:

Instrument screen

MAIN (HDG+RUDDER)

SPEED/DEPTH

APPARENT WIND

TRUE WIND/WIND

DIRECT

MOTORWAY

NMEA0183 messages and SimNet

ROBNET2 PROPRIETARY, NMEA HDT and HTG, SimNet

VHW + DBT/DPT, SimNet

MWV, SimNet

MWV + VTG/RMC; SimNet

APB + RMB + VTG + GGA/RMC, SimNet

NAV/TRACK DATA APB + VTG/RMC + GGA/RMC +

RMB/BWC, SimNet

LOG/SEA TEMPERATURE VLW + MTW, SimNet

Note ! Alternative messages are separated by slashes.

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Technical specifications

8.2 AP25 Control Unit

Dimensions: ............................... See Figure 8-1

Weight: ...................................... 0,5 kg (1.1 lbs)

Power consumption ................... 3 W

Display:

Type: ................................. Backlit LCD matrix display

Resolution: ........................ 160 x 128 pixels

Colour: ....................................... Black

Illumination: .............................. Adjustable in 10 steps

Environmental Protection:......... IP56 from front, IP43 from back.

Safe distance to compass:.......... 0.5 m (1.6 ft.)

Temperature:

Operating: ......................... 0 to +55 °C (+32 to +130 °F)

Storage: ............................. –30 to +70 °C (–22 to +158 °F)

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Figure 8-1 AP25 Control Unit – dimensions

(Mounting bracket is optional equipment)

149

Simrad AP25 Autopilot

8.3 Autopilot Computers

Dimensions: ............................... See Figure 8-2 and Figure 8-3

Weight:

AC10/AC20 ...................... 1,3 kg (2,9 lbs.)

AC40................................. 2,8 kg (6,2 lbs)

Supply voltage:

AC10................................. 10-28V DC

AC20/AC40 ...................... 10-40V DC

Reverse voltage protection ........ Yes (not AC40)

Power consumption: .................. 5 Watt (electronics)

Motor / solenoid drive:

AC10:................................ 6 A continuous, 12 A for 5 sec.

AC20:................................ 10 A continuous, 20 A for 5 sec.

AC40:................................ 20 A continuous, 40 A for 5 sec.

Heading Sensor input: ............... Composite pulse width modulated

Rudder feedback input:.............. Frequency signal, 3400 Hz., 20 Hz/deg.

Rudder feedback units: .............. RF300, LF3000

NMEA input/output ports:......... AC10: 1 (one)

AC20, AC40: 2 (two)

External Alarm: ......................... Open collector (not AC10)

Temperature range:

Operation: ......................... 0 to +55 °C (+32 to +130 °F)

Storage: ............................. –30 to +70 °C (–22 to +158 °F)

Mounting: .................................. Bulkhead mount

Material:..................................... Anodized aluminium and black ABS cover

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Technical specifications

Figure 8-2 AC10/AC20 Autopilot Computert - Dimensions

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Figure 8-3 AC40 Autopilot Computer - Dimensions

151

Simrad AP25 Autopilot

8.4 RC36 Rate compass

Dimensions: ............................... See Figure 8-4

Weight: ...................................... 0,9 kg (2,0 lbs)

Supply and interface:................. RobNet2

Power consumption: .................. 0,9 watts

Automatic Performance:

Calibration: ....................... Automatically activated by control head

Gain compensation: .......... Automatically adjusted continuously

Rate sensor stabilized heading output

Accuracy:................................... <1.25° (rms)

Repeatability:............................. <0.2° (rms)

Roll/Pitch:..................................

± 35 degrees

Cable supplied: .......................... 15 m TP shielded cable

Temperature range:

Operation: ......................... 0 to +55 °C (+32 to + 130 °F)

Storage: ............................. –30 to +70 °C (–22 to +158 °F)

Environmental Protection:......... IP56

Mounting: .................................. Deck or bulkhead

Material:..................................... White ABS

152

Figure 8-4 RC36 Rate Compass - Dimensions

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Technical specifications

8.5 RFC35 Fluxgate compass

Dimensions: ............................... Same as RC36. See Figure 8-4

Weight: ...................................... 0,9 kg (2,0 lbs)

Supply and output:..................... Polarity independent 2-wire supply with superimposed pulse width modulation

Automatic Performance:

Calibration: ....................... Automatically activated by control head

Gain compensation: .......... Automatically adjusted continuously

Repeatability:.............................

± 0.5 degrees

Roll/Pitch:..................................

± 35 degrees

Accuracy:...................................

± 3 degrees after calibration

Cable supplied: .......................... 15 m TP shielded cable

Temperature range:

Operation: ......................... 0 to +55 °C (+32 to + 130 °F)

Storage: ............................. –30 to +70 °C (–22 to +158 °F)

Environmental Protection:......... IP56

Mounting: .................................. Deck or bulkhead

Material:..................................... Black ABS

8.6 RF300 Rudder Feedback

Dimensions: ............................... See Figure 8-5 and Figure 8-6.

Weight: ...................................... 0,5 kg (1,1 lbs)

Material: .................................... Arnite T06 200 PBT

Environmental Protection:......... IP56

Temperature range:

Operation: ......................... –25 to +55 °C (–13 to +130 °F)

Storage: ............................. –30 to +70 °C (–22 to + 158 °F)

Mounting: ................................. Horizontal, vertical, or upside down

Cable supplied: .......................... 10 m (33 ft.) twisted pair shielded cable

Rudder angle:.............................

± 90 degrees

Output signal: ............................ Polarity independent two wire frequency signal

Frequency resolution: ....... Centre: 3400 Hz, 20 Hz/degree of change

Linearity:...........................

± 3 degrees up to 45 degrees of rudder

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153

Simrad AP25 Autopilot

Transmission link: ..................... Stainless 350mm (13.8") with 2 ball joints.

Ball joint stud for rudder arm requires 4.2mm diameter hole and 5mm tap.

154

Figure 8-5 RF300 Rudder Feedback - Dimensions

Figure 8-6 Transmission link - Dimensions

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Technical specifications

8.7 R3000X Remote Control

Dimensions: .... See Figure 8-7

Weight:............ 0,4 kg (0,9 lbs)

Material:.......... Epoxy coated aluminium

Protection ........ IP56

Safe distance to compass: 0.15 m (0.5 ft.)

Figure 8-7 R3000X - Dimensions

Temperature range:

Operation: ...–25 to +55 °C (–13 to +130 °F)

Storage: .......–30 to +70 °C (–22 to + 158 °F)

Cable length: ... 7 m, shielded

Mounting bracket:....... Supplied

8.8 JS10 Joystick

Figure 8-8

JS10 Joystick

Dimensions

Dimensions: ...............................................See Figure 8-8

Weight: .......................................................0.5 kg (1.1 lbs.)

Environmental Protection:

Joystick.............................................................. IP66

Terminals........................................................... IP20

Safe distance to compass:.......................... 0.15 m (0.5 ft.)

Shock resistance (according to MIL 202 B method 202

A):

1/2 sinusoid 11 ms:

No damage or disassembling at 100 g

Vibration resistance (according to IEC 68-2-6):

16 g with frequency range from 40 to 500 Hz and maximum shifting 0,75 mm (peak -to- peak)

Temperature range:

Operation: .....................–25 to +70°C (–13 to +158°F)

Storage: ........................ –40 to +70°C (–40 to +158°F)

Mounting: ..................................................... Panel-mount

Cable: ..................................................... 10 meters (33 ft.)

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155

Simrad AP25 Autopilot

8.9 FU25 Steering Lever

Dimensions: ............................... See Figure 8-9

Handle can be mounted pointing upwards or downwards.

Weight: ...................................... 1.2 kg (2.6 lbs.) including cable

Material:..................................... Polyacetal (POM)

Environmental Protection:......... IP56

Power consumption: ................. 3W

Safe distance to compass:.......... 0.15 m (0.5 ft.)

Temperature:

Operating: ......................... –25 to +55°C (–13 to +130°F)

Storage: ............................. –30 to +70°C (–22 to +158°F)

Cable:......................................... 10 m (33 ft.) cable with three twisted pairs of wire run through a cable gland.

(cable gland can alternatively be mounted on back cover; see Figure 8-9)

Max. rudder command angle:.... Equal to physical stop minus 2°

Autopilot interface:.................... Via proprietary Robnet2™ bus

Accuracy:................................... ±1° within ±40° of mid-position at 25°C

156

Figure 8-9 FU25 Steering Lever Dimensions

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Technical specifications

8.10 IS15 Rudder

Dimensions: ............................... See Figure 8-9

Weight: ...................................... 225 grams

Environmental Protection:......... IP56 from front, IP44 from rear

Power requirement: .................. 12/24 VDC, 70 mA (100 mA max with max lighting)

Safe distance to compass:.......... 0.15 m (0.5 ft.)

Temperature: Operating: ........ –0 to +55°C (+32 to +130°F)

Storage: ............................. –30 to +70°C (–22 to +158°F)

Scale: ......................................... Full deflection adjustable for any h.o. angle between ±20° and ±45°. Divisions: Marking per each 1/8 of full deflection. Accuracy: ±2° of full scale deflection.

Heading Display (Digital): ........ 0 to 359°

Heading Resolution: .................. 1°

Heading reference:..................... True or Magnetic North

Heading Lock: ........................... Course and direction to steer on digital display

Course to Steer: ......................... Settable on digital display

Display Backlighting:................ Green color with seven levels plus Off

Display Backlighting Control:... Two independent lighting banks or individual settings (bank 0)

Inputs: Rudder Angle: ............ 2-wire p.w.m.

NMEA 0183, RSA

Roblink (IS15 system)

Compass heading: ...... NMEA 0183, HDG, HDM, HDT

Outputs: Rudder Angle:............ NMEA 0183, RSA, 5 Hz*

Compass heading: ...... NMEA 0183, HDG

Other:.......................... NMEA 0183 sentences according to IS15

NMEA in/out table.

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Figure 8-10 IS15 Rudder - Dimensions

8.11 SimNet

Maximum number of products connected in a network:...................................... 50

Maximum cable length:............. .........................................................120 m (400’)

Bit rate of the bus: ..................... ....................................................250 Kbit/second

Maximum DC current through a single SimNet plug ......................................... 5A

SimNet power supply: ............... ................................................................. 12VDC

Maximum drop cable length:..... ...............................................................6 m (20’)

Maximum total length of all drop cables (accumulated):......................60 m (200’)

Environmental protection: Cable and plug/connector system.......................... IP66

Temperature:.............................. ........................................................ 70°C (158°F)

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Technical specifications

8.12 IP protection

Each part of a Simrad autopilot system has a two digits IP protection code.

The IP rating is a method to classify the degree of protection against solid objects, water ingress and impact afforded by electrical equipment and enclosures. The system is recognised in most European countries and is set out in a number of British and European standards.

The first code number describes the protection against solid objects, and the second number describes the protection against liquids.

FIRST NUMBER

Protection against solid objects

SECOND NUMBER

Protection against liquids

IP TESTS

0 No protection

1 Protection against solid objects up to 50 mm, eg. accidental touch by hands.

2 Protection against solid objects up to 12 mm, eg. fingers.

3 Protection against solid objects over 2.5 mm (tools + wires)

4 Protection against solid objects over 1 mm (tools + wires + small wires)

5 Protection against dust - limited ingress (no harmful deposit)

6 Totally protected against dust

IP TESTS

0 No protection

1 Protected against vertically falling drops of water (eg. condensation).

2 Protected against direct sprays of water up to 15° from the vertical.

3 Protected against sprays to 60° from the vertical.

4 Protected against water sprayed from any direction.

5 Protected against low pressure jets of water from all directions - limited ingress permitted.

6 Protected against strong jets of water, eg. for use on shipdecks - limited ingress permitted.

7 Protected against the effects of immersion between 15 cm and 1 m.

8 Protected against long periods of immersion under pressure.

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8.13 NMEA and SimNet messages

NMEA0183 messages and data overview for AC10, AC20, AC40

Message ident.

Data source: (n/p/h=nav/pos/heading source, c=calculated) : h h h c

Accept. cond . (N=nav. flag, P= pos. flag) :

Status flag

Compass_Data Compass heading, M 1)

Compass heading, T

2 1

3

Rudder_Data

Wind_Data

Rudder angle

Apparent wind angle

1)

Apparent wind speed 1)

True wind angle

True wind speed

Velocity made good to windward 1)3)

1

1

1

1

1 p p p

P P P

P* P P

1

Depth_Data Depth ref transducer

Transducer-Keel Offset

Speed_Temp_Data Speed through water

1)

Log distance and trip

Water temperature

Gps_Data Present position Lat, Lon 1)

COG, T

COG, M 1)

Magnetic variation

SOG 1)

Nav_Data To-wp position

1)

To-wp ident.

Bearing wp-wp, T

Bearing wp-wp, M 1)

Bearing pos-wp, T

Bearing pos-wp, M 1)

Distance pos-wp 1)

XTE 1)

Waypoint closure velocity 1)

Heading steering cmd, T / M Steering_contr1

AC NMEA-1 Rx:

AC NMEA-2 Rx:

AC NMEA-1 TX:

AC NMEA-2 TX:

Transmission interval in sec.->

1

1 2

1

1

1

1

2

4 1 2

1

5

1 x x x

1 1 1 1

.1* 1 .1* .2

x x x x x x x x x x x x x x x x x x x x x x

2

1) Information required to operate in WIND

N

mode

2) Recommended sentences for operating in WIND

N

mode

3) If the VPW sentence is not available, the autopilot will calculate the VMG internally.

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Technical Specifications

Indata use Remarks: p p n n n n n n n c

P P* N N N N* N* N N

P N N N d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d x x

* Pos flag or NMEA version 3.01

N/P=nav/pos data warning, *DGPS if flag=2

3

2 3

1

6 4

2 3

3 2

4

4

2 1 3

6 5 1 3 2 4

3 2 1

3 2 1

2 1 3

2 1 3*

2 1 3

3 1 2

1 x x x x x x x x x x x x x x x x x x

2 2 10 10 2 5 10

10 d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d x x x x x x x x x x x x x x * Only if Magnetic variation is present x

* HDG out if magn. sensor, HDT out if true sensor

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Simrad AP25 Autopilot

SimNet/NMEA2000 messages and data overview

Message ident.

Data source:

N=nav, P=pos, H=heading, D=depth, Wa=Wind apparent,

Wt=Wind True, WaS=Water Speed/ WaT=Water temp,

Dl=Distance log, C=Calculated) :

Compass Data Compass heading 1)

Rudder Data

Wind Data

Rudder angle

Apparent wind angle

1)

Apparent wind speed 1)

True wind angle

True wind speed

Depth Data

Speed Data

Distance Log Data

Temperature Data

Position Data

Navigation Data

Steering Data

APXX Gateway

Depth ref transducer

Transducer-Keel Offset

Speed through water 1)

Log distance and trip

Water temperature

Present position Lat, Lon 1)

COG 1)

Magnetic variation

SOG

1)

To-wp position 1)

To-wp ident.

Bearing wp-wp

1)

Bearing pos-wp 1)

Distance pos-wp 1)

XTE 1)

Waypoint closure velocity

1)

Heading steering cmd, T / M

H C

1

1

1

1

1

1

1

1 2

1

1 1

2 1

2 1

3 2 1

2 1 x* x x* x* x* x* x* x*

Additional PGNs supported

Simrad Propriatory

61184 Parameter Command

65480 Parameter Reply

130840 DataUserGroup Configuration

65323 DataUserGroup Request

NMEA2000

59392 ISO acknowledge

60928 ISO Adress claim

1) Information required to operate in WIND

N

mode.

Dl P P P P P P P x* x*

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Technical Specifications

Indata use Remarks:

* SimNet proprietary

N N C d d d d d d d d d d d

1

1

1

1

1

1 x* x* x* x d d d d d d d d d d d d d d d d d d d d d d d d d d d x x d x d x d x x d x x d x d x d x d x d x d x x d x d x d x d x d x d x d x In INFO views Depth+Offset is displayed if x offset is present

*Only transmitted if NMEA183/RC36/RFC35 is source

Date of change: 20.12.2005

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Simrad AP25 Autopilot

9 GLOSSARY

Apparent wind – The speed and direction from which the wind appears to blow with reference to the bow when the boat is moving (also called relative wind).

Arrival alarm – An alarm signal issued by a GPS/chartplotter that indicates arrival at or at a predetermined distance from a waypoint. (see arrival circle).

Arrival circle – An artificial boundary placed around the destination waypoint of the present navigation leg, the entering of which will signal an arrival alarm.

Bearing – The horizontal direction of one terrestrial point from another, expressed as the angular distance from a reference direction, usually measured from 000° at the reference direction clockwise through 359°.

BPW – Bearing to a specified waypoint from present position.

BWW – Bearing waypoint to waypoint - Bearing angle of the line between the “TO” and the “FROM” waypoint, calculated at the “FROM” waypoint for any two arbitrary waypoints.

COG - Course Over Ground - The actual direction of progress of a vessel, between two points, with respect to the surface of the earth, The vessel’s heading may differ from the course over ground due to the effects of wind, tide, currents.

GPS - Global Positioning System - This system is based on satellites in fixed orbits, circling the earth at an altitude of approximately 20,200 km. The system will provide the user with

24 hour a day all weather position coverage, with an accuracy of

5 to 30 meters.

Magnetic bearing – Bearing relative to magnetic north; compass bearing corrected for deviation.

Magnetic deviation – A local magnetic field onboard a vessel.

Can interfere with the earth’s magnetic field and create compass readings that may deviate from the actual magnetic heading. The deviation will vary with the actual heading.

Magnetic heading – heading relative to magnetic north.

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Glossary

Magnetic variation - A magnetic compass points to the magnetic north pole. The difference between this direction and true north is the magnetic variation. The amount and direction of this variation is dependent upon where on the earth you are located.

NMEA0183 - A format (language) designed to permit communication between various types of marine electronic equipment. In essence this is a two-wire shielded, serial data link, permitting one device to talk while other devices listen.

Numerous different sentences are available, permitting communication between various different devices.

NMEA2000 – A modern serial-data communications network to interconnect marine electronic equipment onboard vessels.

Equipment designed to this standard will have the ability to share data, including commands and status, with other compatible equipment over a single signalling channel.

Product ID – A number, suffix, acronym or term that can identify a product.

Product name – The name of a Simrad product known from sales and other literature.

Route - A stored sequence of waypoints. These waypoints will be listed in the order in which you desire to follow them.

SimNet Source – Any product or device directly connected to

SimNet or NMEA2000, or interfaced to SimNet via NMEA0183 or Robnet2.

Simrad Group – A number of Simrad products that are selecting and sharing the same data sources via the SimNet network.

Simrad Class 1 products – Simrad products that are SimNet controllers, i.e. they have an appropriate display and routines that can set up and control the SimNet.

Simrad Class 2 products – Simrad products that do not contain a SimNet controller. When connected to SimNet they will automatically pick the first available source on SimNet and lock on to that. When a Class 1 product is added to the Simrad Group,

Class 2 products will automatically subordinate themselves to the Class 1 source selection.

SOG - Speed over ground is the actual speed of the vessel relative to the ocean floor.

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Simrad AP25 Autopilot

True bearing – Bearing relative to true north; compass bearing corrected for compass error.

True heading – Heading relative to true north (the meridian).

Waypoint - A discrete point, stored in a navigator, located on the surface of the earth. Normally this point will be identified by

Lat/Lon coordinates although in some systems it may be shown by T.D.'s.

XTE - Cross Track Error - Used to identify a vessels position relative to a straight line drawn between two waypoints. The amount the vessel is off to the left or to the right of this line is known as the track. It is normally displayed in thousands of a nautical mile, equal to 6 ft or 1.85 m.

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Index

10 INDEX

A alarm external, 93 listing, 139 apparent wind, 42, 47, 164 arrival circle, 39 auto source update, 53 automatic tuning, 121 autopilot computer installation, 69 maintenance, 135 autotrim, 128

B backlight, 50 boat type, 100

BPW, 38, 47, 164

C cable

Robnet, 77 specifications, 70 compass calibration, 116 maintenance, 135 offset, 118 selection, 54 contrast, 55 control unit front panel, 16 installation, 76 maintenance, 135 specifications, 149 counter rudder, 56 setting, 127 course adjust, 55 course detector interface specifications, 152 course knob icon, 50 course over ground, 47 course to steer, 37, 58 cross track error, 37, 47, 166

C-turn, 25, 55

D depth offset, 121 depth source, 54 depth unit, 113 depth-turn, 30, 55 deviation, 117 display units, 113 dockside settings, 100 dodging, 32 drive engage, 105

Drive out, 104 drive unit hydraulic pumps, 72 installation, 72 linear drive, 72 maintenance, 135 reversible pump, 74 solenoid valve, 75 stern drive, 18 voltage, 101

DTT, 47, 107

E

ETT, 47, 107

F fluxgate compass installation, 80 specifications, 153 follow-up steering, 19

G grounding, 70 gybing, 43, 44

H heading capture, 21

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Simrad AP25 Autopilot

I illumination. See backlight

Init NAV, 123 instrument installation, 91 log, 55, 61 main, 55, 61 menu, 60 motorway, 55, 61 nav data, 55, 61 position, 55, 61 screen, 60 select, 55, 61

SOG/depth, 55, 61 speed/depth, 55, 61 wind angle, 55, 61 wind direction, 55, 61 wind shift, 55, 61 interface setting, 113 interfacing, 83

IP protection code, 159

J junction unit specifications, 150

L language, 98 layline, 47, 60 lazy S-turn, 29, 55 linear feedback installation, 93 lock function, 48 log source, 54

M master reset, 132

Minimum rudder, 115 minimum wind angle, 106 modes of operation auto, 21 nav(igating), 37

NoDrift, 35

168 standby, 16 turn, 24 wind, 41 multiple station, 48

N

NAV change limit, 124

NAV source, 50

Nav/Wind, 51 navigating, 37 navigation source, 54

NFU Steering lever, 13

NMEA compass, 12, 90

NMEA data, 129

NMEA input/output, 89

NMEA messages, 160

NMEA test, 130

NMEA0183, 165

NMEA2000, 53, 86, 165

NoDrift, 35, 50, 54 non-follow-up steering, 19

P parameter selection automatic, 22 manual, 23 position source, 54

Q quick setup, 59

R racing, 47, 51, 106 radar connection, 91 radar interface, 113 rate compass installation, 81 recall autotuned, 128 remote control installation, 82 specifications, 155 response, 56 rudder, 56

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Rudder deadband, 131 rudder feedback calibration, 102 installation, 67 maintenance, 135 specifications, 153 rudder limit, 128

Rudder play compensation,

124 rudder test, 103 rudder zero, 115

S sea trial, 114, 132 seastate filter, 57 shallow water, 54, 58

SimNet, 9, 11, 53, 83 backlight, 131 gateway, 131 number, 131 reset, 131 setup, 131 source, 131

SimNet messages, 162

SimNet source, 165

Simrad group, 131 software program exchange,

137 software setup, 95 source manually update, 53 source select, 53 specifications, 147 spiral-turn, 26, 55 square-turn, 28, 55 steering lever installation, 82 system basic, 10 components, 10 specifications, 147 system data, 128

Terms of Warranty

T tack angle, 107 tack time, 43, 107 tacking in auto mode, 35 in wind mode, 43 thrust direction, 119 thruster, 52 thruster interface, 13 thruster sensitivity, 57

Thruster steering, 33 transition speed, 123 trip reset, 52, 57 true bearing, 166 true heading, 166 turn on, 95 turn pattern, 55

U user training, 133

U-turn, 24, 55

V

Virtual feedback, 100, 109,

124, 125

VMG, 47, 59, 107

W water speed source, 54 water temperature source, 54 water temperature unit, 113 wind damping, 120 offset, 120 wind angle source, 54 wind apparent, 52 wind auto, 51 wind calculated source, 54 wind response, 58 wind setup, 51, 106 wind shift limit, 108, 109 wind speed unit, 113 wind true, 52

169

Simrad AP25 Autopilot wind vane steering, 41 Z zigzag-turn, 27, 55

170

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