INSTRUCTION MANUAL Simrad AP50 Autopilot
Note! Simrad AS makes every effort to ensure that the information contained within this document is correct. However, our equipment is continuously being improved and updated, so we cannot assume liability for any errors which may occur. Warning! The equipment to which this manual applies must only be used for the purpose for which it was designed. Improper use or maintenance may cause damage to the equipment or injury to personnel.
General Information Instruction Manual This manual is intended as a reference guide for the correct installation and operation of the Simrad AP50 autopilot. Great care has been taken to simplify the set-up and operation of the AP50; however, an autopilot is a complex electronic system. It is affected by sea conditions, speed of the vessel, and vessel hull shape and size.
Simrad AP50 Autopilot Document revisions Rev Date Written by Checked by Approved by A 03.06.02 NG GK GHR B 18.06.03 Document history 2 Rev. A Original Issue Rev. B Updated according to software revision V1R2. Minor corrections in text. RF14XU added.
General Information Contents 1 GENERAL INFORMATION .............................................................................11 1.1 Introduction ..................................................................................................11 1.2 How to Use This Manual..............................................................................12 1.3 System Components .....................................................................................13 1.4 AP50 Control Unit.......................
Simrad AP50 Autopilot 2.6 2.7 2.8 2.9 2.10 2.11 2.12 2.13 2.14 2.15 F1/2 (NFU) Push Button Remote Control....................................................25 R3000X Remote Control (NFU) ..................................................................26 S35 NFU Steering Lever ..............................................................................26 Automatic Steering .......................................................................................27 AUTO Mode.........................
General Information 3.7 3.8 3.9 3.10 3.11 3.12 3.13 3.14 3.15 3.16 3.17 3.18 3.19 3.20 3.21 3.22 3.23 3.24 4 CD100A Course Detector.............................................................................55 CD109 Course Detector................................................................................55 RI35 Mk2 Rudder Angle Indicator...............................................................56 RF300S Rudder Feedback Unit ....................................................................
Simrad AP50 Autopilot 4.10 Drive Unit Installation ..................................................................................89 Connecting a Reversible Pump.....................................................................91 Connecting a Hydraulic Linear Drive...........................................................92 Solenoids (externally powered, common positive)..................................92 Solenoids (externally powered, common negative).................................
General Information 5.3 5.4 6 Master Operation ...................................................................................121 Boat Type...............................................................................................121 Boat Length............................................................................................121 Drive Unit Voltage.................................................................................121 Rudder Feedback Calibration ..............................
Simrad AP50 Autopilot W Autotrim ............................................................................................148 Autotrim.................................................................................................148 Course Adjust.........................................................................................149 Compass difference................................................................................149 Off Heading lim .................................................
General Information 7.1 7.2 7.3 7.4 7.5 7.6 Control unit.................................................................................................161 Junction Unit...............................................................................................161 Rudder Feedback ........................................................................................161 Compass (RC25/RFC35R) .........................................................................161 Drive unit .......................
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General Information 1 GENERAL INFORMATION 1.1 Introduction Congratulations on the purchase of your new Simrad AP50 autopilot system and thank you for selecting what we feel is one of the most advanced autopilot systems available on the market today. Today, Simrad manufactures a complete range of autopilots for all types of vessels, from leisure boats to advanced steering systems for merchant marine vessels.
Simrad AP50 Autopilot While the AP50 may be installed on vessels not needing to comply with the Marine Equipment Directive, those requiring compliance must have one AP50 Control Unit set-up as a “master unit” in order for the installation to be approved.
General Information At the end of this manual, you will find an index and a glossary, which will help you when studying the manual. Other documentation provided with your system includes a warranty card. Note ! The Warranty Card must be completed by the authorized dealer that performed the installation and mailed-in to activate the warranty. 1.
Simrad AP50 Autopilot 1.4 AP50 Control Unit This compact autopilot control for panel, bulkhead- or bracketmounting has a rotary course knob and a large LCD for readout of autopilot data. It also has two RobNet connectors for system interconnection and expansion. 1.5 Junction Units The junction unit in the AP50 autopilot system contains the steering computer, interface circuits to all system components, and drive circuits for the drive unit motor and clutch. Two models, J50 and J50-40, are available.
General Information RF45X Rudder Feedback Unit This rudder feedback unit with T45 transmission link and 2 m (6 feet) of cable transforms the angular travel of the rudder to a digital signal read by the autopilot steering computer. It is to be used on medium to large size vessels. RF14XU Rudder Feedback Unit This unit can replace the RF45X Rudder Feedback Unit in installations where a more rugged construction of the feedback unit is preferred.
Simrad AP50 Autopilot The sensor unit contains two GPS sensors and an inertial element. This unit is to be mounted on the vessel mast. The interface unit contains the main CPU and serial interface with high-speed communication. The display unit contains a LCD for navigation information and buttons for user control and command. The interface unit and the display unit may be mounted on the bridge. Refer to the HS50 manual.
General Information S100 NFU Steering Lever The S100 Non-follow-up steering lever is designed for indoor console mounting and it has a spring-loaded return-tomid-position feature. S35 NFU Steering Lever The S35 is designed for indoor and outdoor bulkhead-mounting and is made of shock resistant polyxymethylene. The lever has a spring loaded return-to-mid-position feature. Its push button with light indicator is used for (limited) mode selection when connected to an autopilot junction unit.
Simrad AP50 Autopilot AD50 Analog Drive The AD50 Analog Drive is designed to provide a control signal for operating an analog rudder in an AP50 system by either analog or proportional ±10V control, or Danfoss PVEM valve. The analog rudder output signal is calculated in the AD50 based on operational mode and heading information received over RobNet from other system units. Set-up from the control unit and errors in the analog rudder interface are to be communicated via RobNet.
Operation 2 OPERATION OF THE AUTOPILOT Caution ! An autopilot is a very useful navigational aid, but it DOES NOT under any circumstance replace a human navigator.
Simrad AP50 Autopilot Buttons Action Single short press: Selects AUTO mode and sets the heading reference. Second short press Sets new heading reference. Short press: Selects NAV mode prompt screen from AUTO mode. AUTO Verifies new course to steer when alert screen is shown (can also use the course knob, see below). NAV S ETUP WORK Function Quick double press: Selects User Set-up menu for selected mode. Long press (5 sec.): Selects Installation menu.
Operation Buttons Course knob Action Function Press simultaneously Activates Follow-up steering mode. Rotate in Follow-up steering mode: Sets commanded rudder angle. Rotate in AUTO mode: Counter clock-wise = Port course change Clock-wise = Starboard course change Rotate in NAV mode: Verifies new course to steer when alert screen is shown. Rotate in User Set-up Adjusts or confirms reading.
Simrad AP50 Autopilot The control unit shown in Figure 2-1 on page 19 can operate as a stand-alone unit in an autopilot system or it can be combined in a multistation system. In a multistation system, command can easily be transferred from one unit to another and units not in control will display "Inactive". The autopilot system may also be disabled from the ships’ steering system with an external switch.
Operation Junction unit model Simrad Software V(ersion) and R(elease) J50 SW V1R2 P05 M00 S000 Power board revision, Main board revision and Self check (SW and HW revisions shown are examples only) 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".
Simrad AP50 Autopilot 2.3 AP50 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.
Operation 2.4 Follow-Up (FU) Steering When both the (PORT) and (STBD) buttons are pressed simultaneously, the AP50 will enter Follow-Up steering mode and the course knob may be used to set rudder commands. One revolution of the knob equals a 45° rudder change. The rudder will move to the selected angle and stop. P FU 340.7 Display information: • Follow-Up mode RUDDER • Commanded rudder angle: 3° to starboard 02 • Rudder angle: 2° • The small starboard arrow shows that the rudder is moving.
Simrad AP50 Autopilot R3000X Remote Control (NFU) SIMRAD Push buttons for Port and Stbd NFU commands STBY-AUTO STBY/AUTO mode button. AUTO or NAV mode is when lamp is lit In STANDBY mode, the rudder will move as long as the Port or Stbd button is pressed. In AUTO mode the set course will change 1° each time the button is pressed. Note! If you keep the button pressed, it will automatically change the course in increments of 3° per second.
Operation Note ! NAV STBY AUTO NAV-WORK STBY AUTO-WORK NAV-WORK mode can only be entered from a control unit or AP51 Remote Control Unit. 2.6 Automatic Steering AUTO Mode AUTO AUTO mode is used to make the AP50 steer the vessel automatically on a set heading. AUTO mode is always available from any mode or function within the AP50 by a single push of the AUTO button.
Simrad AP50 Autopilot STBY Press the STBY button to regain manual steering AUTO-WORK Mode The AUTO-WORK mode is an automatic steering mode to be used under operational conditions different from those normally found when a vessel is in transit on a pre-set course. Examples are trawling, towing, trolling on one engine, slow speed etc. WORK In such situations, some boats may need different settings. By pressing the WORK button, a separate set of steering and turning values will be used.
Operation 2.7 Thruster Steering If the vessel is equipped with a thruster, it can be connected to the AP50 system and the vessel can then be controlled by rudder, thruster, or both rudder and thruster. After connecting a thruster to the autopilot system (see the TI50 manual) the thruster type must be selected under the Installation Dockside menu (see page 126). A thruster icon below the mode index indicates that a thruster is connected to the system.
Simrad AP50 Autopilot Caution ! When operating an On/Off thruster it is important to note that most electrical thrusters have a built in thermal cut-off switch that will shut off the electromotor if it is overheating and reengage 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 its total running time for a longer period should be limited by increasing the thruster sensitivity value (see page 156). 2.
Operation WP: BWW : Chg : SIMRAD 270° 70° OK? Press NAV RUDDER 340.7 01 Gyro1 The lower left portion shows the compass heading and the lower right portion shows the rudder angle and port direction. NAV SETUP 340° CTS GPS1 XTE 340.7 Gyro1 The upper half of the prompt display shows the name of the next waypoint (WP), the bearing to the waypoint (BWW), and the required course change (Chg) with the direction in which the vessel will turn. .
Simrad AP50 Autopilot Origin The new heading is accepted automatically after the NAV/SETUP button is pressed BPW WP1 BWW WP2 Waypoint arrival zone (determined by the navigator) Regain manual steering at any time by pressing the button. Note ! STBY (STBY) If the AP50 is connected to a navigation receiver that does not transmit a message with the bearing to the next waypoint, it will pick a Cross Track Error message and steer on Cross Track Error only.
Operation Caution ! If an ECS is selected as a navigator, the course change verification is waved. This is done so the AP50 is capable of following a route in which the radius of the course change is pre-set in the chart system. Users navigating in this mode must use extra caution. Selecting a Different Navigator If you have more than one navigation source connected to the AP50, you may choose any for navigation.
Simrad AP50 Autopilot • Navigation source: GPS1. The boat is located on the starboard side of the track • Cross track error (XTE): 0.023 nautical mile • Compass heading from Gyro1: 340.
Operation 2. Manually steer the vessel by wheel: or Non-Follow-Up: or or Follow Up: Both or NFU steering lever. and course knob. To return from DODGE mode, press one of the following: DODGE T URN AUTO Note ! Selects AUTO mode with the last set course. Selects AUTO mode with the current heading as the set course. If using Non-Follow-up or Follow-up steering modes while dodging, “NFU” or “FU” flash. Dodging in NAV Mode DODGE T URN N GPS1 DODGE XTE 340.7 Gyro1 350° CTS .
Simrad AP50 Autopilot DODGE T URN AUTO NAV SETUP Note ! Returns to NAV mode at the current track. (May result in a drastic course change). Selects AUTO mode with the current heading as the set course. Selects NAV mode at present position with new bearing to waypoint prompt. If using Non-Follow-up or Follow-up steering modes while dodging, “NFU” or “FU” flash. 2.10 TURN Mode U-turn The AP50 provides a special U-turn feature when in AUTO or AUTO-WORK modes.
Operation C TURN PORT 90 °/min Press STBD 340.7 RUDDER 02 Gyro1 C TURN 90 °/min STBD 340.7 RUDDER 05 Gyro1 Vessel turning starboard The AP50 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 AP50 will return to AUTO mode and stay on course. The turn rate can be adjusted either before the turn is initiated or during the turn.
Simrad AP50 Autopilot When the "LOCK" function is in use, no transfer of command may take place; only the "active" control unit stays in command. Note ! On a locked control unit, backlight and contrast can be directly adjusted through the course knob. STBY STBY 340.7 Gyro1 RUDDER To enable the "LOCK" function, quickly double-press the (STBY) button on the “active” unit.
Operation To unlock the locked remote units, you have to take control from the master unit by quickly double-pressing its (STBY) button. STBY 2.13 External system selection 340.7 Gyro1 Disengaged RUDDER 02 An external system selector can be used to change from automatic to manual steering and vice versa (refer to IMO resolution MSC.64 sec.4). The selector switch must adequately indicate which method of steering is in operation at any given moment.
Simrad AP50 Autopilot Adjustment is local to the control unit you adjust. At high temperatures, not all steps are available due to automatic temperature compensation. Steering function (only available if Thruster is selected in the Installation Dockside Menu, see page 126). Select between the following steering functions: The boat is steered by the rudder; by the thruster; or by a combination of the rudder and the thruster, dependent on the selected mode.
Operation AUTO Mode A 341° CTS 340.7 Gyro1 SETUP Move : Adjust : , Backlight Contrast Steering function Rudder Seastate AUTO Rudder 0.50 Count rudder 1.40 Backlight Same procedure as in STANDBY mode. Contrast Same procedure as in STANDBY mode. More Steering Function (only available if Thruster is selected in the Installation Dockside Menu, see page 126). Same procedure as in STANDBY mode.
Simrad AP50 Autopilot Rudder Rudder sets the rudder gain, which is the ratio between the commanded angle and the heading error (p-factor). The default value depends on the boat length. The value (ranging between 0.05 and 4.00) is determined during Sea trial (see page 140), but can easily be adjusted in the User Set-up menu. Counter Rudder Counter Rudder is the parameter that counteracts the effect of the boat’s turn rate and inertia. The default value depends on the boat length.
Operation Thruster Sens (only available if Thruster is selected in the Installation Dockside Menu, see page 126). The Thruster sensitivity determines how many degrees the vessel must 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. A higher value will reduce the thruster activity and extend the lifetime, especially for on/off thrusters.
Simrad AP50 Autopilot NAV Mode N .12NM 340.7 Gyro1 SETUP Move : Adjust : , Backlight Contrast Steering function Rudder Seastate AUTO Rudder 0.50 Count Rudder 1.40 The NAV mode will not work satisfactorily before AUTO mode is set-up and working properly. Backlight Same procedure as in STANDBY mode. More Contrast Same procedure as in STANDBY mode. Steering Function Same procedure as in STANDBY mode. Seastate Filter Same procedure as in AUTO mode. Rudder Same procedure as in AUTO mode.
Operation Thruster Sens Same procedure as in AUTO mode. NAV-WORK Mode NAV S ETUP NAV S ETUP Nw .12NM 340.7 Gyro1 SETUP Move : Adjust : , Backlight Contrast Steering function Rudder W Seastate AUTO W Rudder 0.50 W Count Rudder 1.40 More To enter the User Set-up menu when in NAV-WORK mode, quickly double press the NAV-button.
Simrad AP50 Autopilot 2.15 Instrument Screens and Menu A number of instrument screens are available under each mode screen if the required NMEA 0183 sentences are provided (see page 68). Activate the instrument screen by pressing the (INFO) button. INFO Note ! The Instrument screens are also available on locked units. The left-hand side of the display will show the following information, depending on the mode: Nw Nw Aw Aw 340.7 Gyro1 STANDBY. Heading. Heading input source.
Operation GPS1 POSITION N 58° WIND DIRECTION 27.209 E 005° 58.322 COG SOG 274°T 12.40kt 270 P 180 046° 8 S Stern Wind direction WIND 046° 8 090 m/s Nav Data P Bow m/s WP SIMRAD BPW 272 °T DST 32.2 NM XTE 0.
Simrad AP50 Autopilot Screen Selection If you do not need all of the instrument screens to be present in the screen menu, you may temporarily remove screens by quickly double-pressing the (INFO) button. Move through the screens by pressing the (PORT) and (STBD) buttons. Each screen can be removed or selected by rotating the course knob.
Technical Specifications 3 TECHNICAL SPECIFICATIONS 3.1 AP50 Autopilot System Boat size and type:............................................................................Up to 200 feet, power Steering system types: ................................................... Hydraulic, mechanical, solenoids Inter-unit connection: ........................................RobNet network or two-wire supply/data System ON/OFF: ................................................................
Simrad AP50 Autopilot 3.2 AP50 Control Unit Dimensions: ................................................................................................. See Figure 3-1 Weight: ...................................................................................................... 0.9 kg (2.0 lbs.) Material:........................................................................................Epoxy coated aluminum Supply:.....................................................................
Technical Specifications 3.3 AP51 Remote Control Dimensions: ................................................................................................. See Figure 3-2 Weight: .................................................................................................. 0.57 kg (1.25 lbs.) Material:.................................................................................................................PC-ABS Supply......................................................................
Simrad AP50 Autopilot 3.4 Junction Units Dimensions: ........................................................................ See Figure 3-3 and Figure 3-4 Weight: J50.................................................................................................. 1.6 kg (3.5 lbs.) J50-40 ............................................................................................ 2.8 kg (6.2 lbs.) Material:...........................................................
Technical Specifications Figure 3-3 J50 Junction Unit - Dimensions Figure 3-4 J50-40 Junction Unit Dimensions 3.5 RC25/RFC35R Rate Compass Dimensions: ................................................................................................. See Figure 3-5 Weight: ...................................................................................................... 0.9 kg (2.0 lbs.) Power consumption: ............................................................................................. 0.
Simrad AP50 Autopilot Mounting: ........................................................................ Deck-mount or bulkhead-mount Cable:...............................................................15 m (49 ft.) RobNet cable with connector Automatic Performance: Calibration: ............................................. Automatically activated by control head Rate sensor stabilized heading output Accuracy:..................................................................<1.
Technical Specifications Cable:.................................................................15 m (49 ft.) single twisted pair, shielded Automatic Performance: Calibration: ............................................. Automatically activated by control head Repeatability: .................................................................................................± 0.5° Accuracy:....... ± 1,0° after calibration (not including errors from course detector) 3.7 CD100A Course Detector Dimensions: ....
Simrad AP50 Autopilot 3.9 RI35 Mk2 Rudder Angle Indicator Dimensions: ................................................................................................. See Figure 3-7 Weight: ...................................................................................................... 1.0 kg (2.2 lbs.) Material:........................................................................................Epoxy coated aluminum Supply voltage: .........................................
Technical Specifications 3.10 RF300S Rudder Feedback Unit Dimensions: ........................................................................ See Figure 3-8 and Figure 4-2 Weight: ...................................................................................................... 0.5 kg (1.1 lbs.) Material: .............................................................................................Arnite T06 200 PBT Environmental Protection:..............................................................
Simrad AP50 Autopilot 3.11 RF45X Rudder Feedback Unit Dimensions: ...................................................See Figure 3-9, Figure 3-11 and Figure 4-4 Weight: ...................................................................................................... 1,0 kg (2,2 lbs.) Material: .................................................................................................Polyacetal (POM) Supply voltage: ................................................
Technical Specifications 3.12 RF14XU Rudder Feedback Unit Dimensions: .............................................................................................. See Figure 3-10 Weight: ...................................................................................................... 2,8 kg (4,9 lbs.) Material:............................................................................Reinforced glass fibre polyester Environmental Protection: .........................................................
Simrad AP50 Autopilot Figure 3-11 RF Standard Transmission Link - dimensions 3.13 GI50 Gyro Interface Dimensions: ............................................................................................... See Figure 3-12 Weight: ...................................................................................................... 0.7 kg (1.5 lbs.) Material:........................................................................................Epoxy coated aluminum Environmental Protection:...........
Technical Specifications Figure 3-12 GI50 Gyro Interface Dimensions 3.14 CI300X Compass Interface Dimensions: ............................................................................................... See Figure 3-13 Weight: ...................................................................................................... 0.9 kg (2.0 lbs.) Material:....................................................................................... Epoxy-coated aluminum Environmental Protection:...............
Simrad AP50 Autopilot Figure 3-13 CI300X Compass Interface and NI300X NMEA Interface Dimensions 3.15 NI300X NMEA Interface Dimensions: ............................................................................................... See Figure 3-13 Weight: ...................................................................................................... 0.9 kg (2.0 lbs.) Material:......................................................................................
Technical Specifications 3.16 TI50 Thruster Interface Dimensions: ............................................................................................... See Figure 3-13 Weight: ....................................................................................................... 0,8 kg (1.8 lbs) Material:...................................................................................... Epoxy coated aluminium Environmental Protection: ...........................................................
Simrad AP50 Autopilot Rudder drive interface: Danfoss PVEM:................... Nominal UDC=12/24V, I=0.25/0.5mA, neutral 0.5*Un, control range 0.25*UDC to 0.75*UDC, valve saturated for<0.25*UDC or >0.75*UDC. Analog control, internal supply: ...Control range±10V, max. 5 mA, galvanic isolated Analog control, external supply: ............... UDC 12-24VDC, control range 0- UDC or ±UDC/2, max. 5 mA ON/Off valve:...............................
Technical Specifications 120 (4,75") 3.19 S100 NFU Steering Lever Dimensions: ....................................... See Figure 3-15 Weight:.................................................0.5 kg (1.1 lbs.) Environmental Protection: ............ Not for outdoor use Safe distance to compass: .....................0.15 m (0.5 ft.) Temperature range: Operation:................ –25 to +55°C (–13 to +130°F) Storage: ................... –30 to +80°C (–22 to +176°F) Mounting:.....................................
Simrad AP50 Autopilot Figure 3-16 S35 NFU Steering Lever Dimensions 3.21 F1/2 Remote Control 210 (8.3") 76 (3.0") 65 (2.6") Dimensions:...................... See Figure 3-17 Weight: ............1.2 kg (2.6 lbs.) incl. cable Material: ....................... Painted aluminum Environmental Protection:.................. IP56 Safe distance to compass:.... 0.1 m (0.3 ft.) Max. inductive load: ............. 4A/24 VDC, 60mA/110 VAC, 25mA/220 VAC. Temperature range: Operating: ..........................
Technical Specifications 3.22 FU50 Steering Lever Dimensions: ............................................................................................... See Figure 3-18 Handle can be mounted pointing upwards or downwards. Weight: .............................................................................1.2 kg (2.6 lbs.) including cable Material:..................................................................................................Polyacetal (POM) Environmental Protection:................
Simrad AP50 Autopilot 3.23 Environmental Protection Each part of a Simrad autopilot system has a two-digit 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 recognized in most European countries and is set out in a number of British and European standards.
7 3 3 4 4 4 3 4 5 3 2 2 1 1 1 1 1 2 2 2 2 1 1 1 5 C A A A Remarks: * DGPS if flag=2 3 2 3 1 2 2 1 3 2 5 1 6 2 3 1 4 3 1* 2 *Only applicable if received on set nav. source ch. 1 1 2 3 2 2 1 1 1** 1 3 2* 3 TX * Calculated as magn. heading + magvar. TX ** Relative (geared synch./step) if PSIM identifier 2 TX TX TX TX TX TX TX TX TX TX x x x x x x x x x x x x .1 .
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Installation 4 INSTALLATION 4.1 General This section provides detailed information required to properly install the AP50 Autopilot system.
Simrad AP50 Autopilot 4. Set the language (see page 120) 5. Select the dockside settings and perform tests (see page 119) a) Master operation b) Boat type selection c) Boat length selection d) Drive unit voltage selection. e) Rudder calibration f) Automatic rudder test g) Rudder limit h) Rudder deadband i) Thruster type (optional) 6. Interface set-up for Junction Unit, GI50, NI300X and CI300X (if installed; see page 126) 7.
Installation 4.4 Determining System Configuration It is important to become familiar with the configuration of the system prior to beginning the installation. The AP50 Basic system is shown in Figure 1-1 on page 13 and an extended system is shown in Figure 4-1 on page 73. Pay particular attention to the junction unit/drive unit combinations on page 89 and the junction units chart on page 14.
Simrad AP50 Autopilot 4.6 RF300S Rudder Feedback Unit (For small to medium size vessels) The RF300S Rudder feedback unit mounts close to the rudders, and is mechanically linked to the rudder tiller arm or rudder quadrant (refer to Figure 4-2 on page 75 for the recommended mounting arrangement). Note that the RF300S transmitter arm has two slots for the transmission link. The slots enable maximum flexibility to provide the 1:1 mechanical linkage relationship.
Installation Figure 4-2 RF300S Rudder Feedback Unit Mounting (019356) Note ! Due to space limitations, it may be necessary to cut the length of the transmitter rod to move the RF300S closer to the rudderpost. Tighten the mounting screws for both the RF300S Rudder Feedback Unit and the transmitter rod ball joint.
Simrad AP50 Autopilot 4.7 RF45X Rudder Feedback Unit (For medium to large size vessels) The RF45X Rudder Feedback Unit is normally installed with the shaft pointing upwards. However, it can be mounted with the shaft pointing downwards for increased convenience. The deflection can then be inverted in the AP50 software or as illustrated in Figure 4-5 on page 77. An “upside-down” installation will make access to the unit more efficient as it can be opened without moving it from the mounting base.
Installation Electrical Connection Use a twisted-pair shielded cable, 0.5 mm2 (AWG20), between the breakout box and the J50 Junction Unit. The cable length is not critical but should be kept to a minimum. The cable should be connected to the junction unit according to Figure 4-5. When splicing the cables in the breakout box, crimp the enclosed pins on each wire of the extension cable to avoid cutting off the wires at the terminal point when the screws are tightened.
Simrad AP50 Autopilot Figure 4-6 RF45X Connection to RI9 Rudder Angle Indicators and RI35 Mk2 (optional) The above connection diagram shows how to connect an RI9 Rudder Angle Indicator to a system with RF45X Rudder Feedback Unit. For connection of RI35 Mk2 Rudder Angle Indicators only, refer to the RI35 Mk2 manual. This connection gives full functioning indicator(s) also with the autopilot switched off.
Installation Mechanical Alignment The purpose of this procedure is to find the zero point and to allow the feedback unit to operate within its active segment. If the unit operates outside this segment, there will be a feedback failure alarm. ve Ac ti ent gm se 1. Position the rudder amidships. 2. Loosen the two screws that secure the transmission lever to the RF45X shaft. Fe edb ack failure zone Slot 3.
Simrad AP50 Autopilot 4.8 RF14XU Rudder Feedback Unit Mechanical mounting Before installation check that the alignment mark on the mounting plate agrees with the mark on the shaft. Bring the rudder to Midships position. The feedback unit should be mounted on a plane surface and secured by bolts through the three holes in the mounting plate. It should be linked to the rudder in accordance with Figure 4-7. It is important that the linkage is linear, i.e. the A-a and D-d are pairs of equal length.
Installation The feedback unit has an external ground terminal an must have a proper ground connection to the hull. The grounding wire should be as short as possible and at least 10 mm wide. The RF14XU can be powered either from the rudder angle indicator supply (19-40V DC) or directly from the autopilot junction unit. If a rudder angle indicator is connected, the RF14XU is powered from the rudder angle indicator supply.
Simrad AP50 Autopilot VIOLET R F14X U EL EC TR ONIC MOD ULE BROWN (VIE WED FROM BACK S IDE) PINK N OT E 2 BLUE (GND) YELLOW (+ 5V) N OT E 1 8 9 9 8 10 7 6 RED BLAC K W HITE W HITE RED BLACK BROWN GR EEN (WI PER) TO POT . MET ER 5 NOTE 1: Brown lead normally connected to 8 . Move to 9 to invert the rudder indicator deflection. NOTE 2: Normally connected for +/-45˚ rudder angle (violet, brow n and pink leads are not connected).
Installation The RI9 Rudder Angle Indicator is connected to the U-terminal on RF14XU, while RI35 Mk2 Rudder Angle Indicator is connected in parallel with the feedback signal for the junction unit. Use the same supply for RI35 Mk2 as for the autopilot. The connection shown below gives full functioning indicator(s) also with the autopilot switched off. To have the indicator(s) switched off with the autopilot, connect indicator(s) and rudder feedback supply+ to J50 Vbat+ instead of J50 Supply+.
Simrad AP50 Autopilot Final check After installation, the cable glands must be sealed with silicon to prevent water from seeping in. Also apply silicon grease to the gasket between the bottom and top cover. On the inside of the feedback unit cover, a piece of moisture protecting sponge is attached. The sponge produces a corrosion preventive gas, and to increase the efficiency of the gas the cover must be kept tight.
Installation 4.9 J50 Junction Unit The J50 Junction Unit is designed to operate in a location that provides ambient temperatures below +55°C (+130°F). Note ! The junction units (J50 and J50-40) are not waterproof and should be mounted vertically, as shown in Figure 4-11, in a dry place between the control unit and the drive unit. Figure 4-11 J50 Junction Unit Mounting Cable Connections Use only shielded cables.
Simrad AP50 Autopilot Grounding and Radio Frequency Interface (RFI) The AP50 system has excellent radio frequency interference protection and all units use the junction unit as a common ground/shield connection. The junction unit must therefore have a proper ground connection to the hull. RobNet cables and other signal cables (i.e.
Installation J50-40 Power Board Terminals Main Board Terminals System Select The “System select” (Sys. Sel.) input signal of the J50 can be used to alternate between the boat’s own steering and the autopilot system from an external system selector (refer to IMO resolution MSC. 64 sec. 4). A ground on TB14 Sys. Sel. will force the system into Disengage mode.
Simrad AP50 Autopilot External Alarm (Non Wheelmark System) The external alarm circuit has an open collector output for an external alarm relay or buzzer. The alarm voltage is the same as the main supply voltage. The maximum load on the external alarm output is 0.75 ampere. Figure 4-13 External Alarm Connections (Non Wheelmark System) External Alarm (Wheelmark System) Note ! Wheelmark installation requires separate monitoring of power failure.
Installation 4.10 Drive Unit Installation The relation between drive units, drive unit voltage, input voltage, drive output, and interfacing to steering gear are shown in Table 4-2 and Table 4-3. The AP50 system detects whether a reversible motor or a solenoid is connected and outputs the correct drive signal automatically. Refer to the connecting diagrams for the different drive units on pages 91 through 93. Installation instructions for the drive units are found in the manuals for the individual units.
Simrad AP50 Autopilot LINEAR DRIVE UNITS MODEL MOTOR JUNCTION MAX. PEAK MAX. HARDPWR. TILLER VOLTS UNIT STROKE THRUST RUDDER OVER CONARM mm (in.) kg (lb.) TORQUE TIME SUMP. mm Nm sec. (in.) (lb./in.) (30% load) MLD200 12 J50 300 (11.8) 200 (440) 490 (4350) 15 1.5-6 A 263 (10.4) HLD350 12 J50 200 (7.9) 350 (770) 610 (5400) 12 2.5-8 A 175 (6.9) HLD2000L 12 J50 340 (13.4) 500 (1100) 1460 (12850) 19 3-10 A 298 (11.7) HLD2000D 24 J50 200 (7.
Installation PREVIOUS MODELS Simrad Drive Unit type Drive unit voltage Input voltage (Mains) Drive output Interface to steering gear RPU100, RPU150, (Reversible hydraulic pump) 12 12, 24,32 Proportional rate Hydraulic plumbing MRD100 (Reversible mechanical drive) 12 24 12, 24, 32 24, 32 12V to clutch 24V to clutch Proportional rate to motor Chain/ sprockets MRD150 12 32 12, 24 32 12V to clutch 32V to clutch Proportional rate to motor Chain/ sprocket Table 4-4 Previous Models Drive Units
Simrad AP50 Autopilot Connecting a Hydraulic Linear Drive HYDRAULIC LINEAR DRIVE JUNCTION UNIT POWER PCB TB1 TB2 TB3 TB4 Sol. -Motor Sol.
Installation Solenoids (externally powered, common negative) JUNCTION UNIT + POWER PCB SOLENOID VALVE TB1 3 2 1 TB2 S1 TB4 TB3 Solenoid isolated Hi2 Lo2 Hi1 Lo1 Figure 4-18 Connecting Externally-powered Solenoids with a Common Negative Caution ! To prevent damage of the J50 Power PCB, ensure that the S1 jumper switch on the Power PCB is set to position 2-3.
Simrad AP50 Autopilot 4.11 Control Unit 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 protective cover when not in use. Panel-mounting The mounting surface must be flat and even to within 0.5 mm. • Drill the 4 mounting holes and make a panel cutout according to the supplied template. • Use the supplied gasket between the panel and the unit.
Installation Figure 4-20 AP50 Bracket mounting RobNet Network Cables As most RobNet units have 2 RobNet connectors, they can be used for further expansion of the system. There are no dedicated "in" or "out" connectors. You may connect the cables to any available RobNet connector on the specific unit. The RobNet cables are available in 7 and 15 m lengths and they contain a 6-pin male connector at one or both ends. The 15 m cable to the junction unit has a connector only at the control unit end.
Simrad AP50 Autopilot Use the following table as a guideline. Number of RobNet units 1 2 3 4 5 6 7 8 9 10 Maximum cable length in m (feet) 390 (1270’) 195 (640’) 130 (425’) 95 (310’) 75 (245’) 65 (210’) 55 (180’) 50 (165’) 45 (150’) 40 (130’) If the total length exceeds the recommended length, please contact your Simrad distributor on how to arrange the system to minimize the voltage drop.
Installation See Table 4-5 for pin configuration and color code of the network cable. DO NOT MIX THE PINS AND THE CABLE COLORS! Note ! Apply a thin layer of pure Vaseline (petroleum jelly) on the connector threads and make sure the connectors are properly secured to the receptacle by the coupling ring. When properly installed, the connectors are weatherproof according to IP56. All unused RobNet plugs must be fitted with plastic caps to keep the connectors free of dirt and moisture.
Simrad AP50 Autopilot AP51 Remote Control Connection If the AP51 Remote Control is part of the system, use the RobNet connector in a free receptacle (see Figure 4-21). Alternatively, cut the connector from the cable and connect the wires in parallel with the cable shown on Figure 4-23 using the same color code. Note ! The AP51 cable contains a ventilation tube. Check that the tube is open after you have cut the cable.
Installation JUNCTION UNIT MAIN PCB Alarm On-Off Vsys Vsys+ Bus+ Bus AP51 CONTROL UNIT Bn Wh Pnk Gry Yel Gn ROBNET JP21 JACKPOINT 7m cable 7m cable Figure 4-24 JP21 Jack Point Mounting 4.12 RC25/RFC35R Rate Compass Figure 4-25 RC25/RFC35R Rate Compass Mounting The heading sensor is the most important part of the AP50 system and great care must be taken in choosing the mounting location.
Simrad AP50 Autopilot If the compass is deck-mounted or bulkhead-mounted athwartship with the cable gland pointing aft, little if any offset correction is required. When the cable gland points forward, a 180° correction is required. When mounting the compass on a bulkhead alongship, a +90° or -90° correction is needed, dependent on whether it is a port or starboard bulkhead.
Installation JUNCTION UNIT RATE COMPASS J1 NMEA J2 ROBNET J3 EXT.COMP JUNCTION UNIT MAIN PCB WHITE PINK Vsys Vsys+ Bus+ Bus BROWN GREY RFC35R RATE COMPASS TB15 Bn Wht Pnk Gry Robnet RATE PCB GREY PINK WHITE BROWN JUNCTION UNIT MAIN PCB TB15 GREY WHITE Bn Wht Pnk Gry Robnet PINK GREY WHITE BROWN RC25 RATE COMPASS Vsys Vsys+ Bus+ Bus PINK BROWN Figure 4-27 Alternative Connection to J50 Junction Unit RobNet Terminal • Change in the Installation Interface menu: Select FLUX = ROBNET.
Simrad AP50 Autopilot RFC35 Fluxgate Compass The RFC35 Fluxgate Compass can be connected to the J50 Junction Unit, but the compass is not recommended for commercial use. RFC35 FLUXGATE COMPASS JUNCTION UNIT MAIN PCB HSHS+ Heading Sensor * * NON POLARIZED (COLOR INDEPENDENT) Figure 4-28 RFC35 connection • Change in the Installation Interface menu: Select FLUX = J50-HS. 4.13 FU50 Steering Lever For connection of the FU50 Steering Lever, see the FU50 manual. 4.
Installation 4.16 R3000X Remote Control The R3000X Remote Control is weather proof and can be mounted outdoors in the supplied bracket that is fixed by four mounting screws. JUNCTION UNIT R3000X REMOTE CONTROL POWER PCB TB1 TB2 TB3 TB5 TB4 Yel G n R ed Blu RE EM R MOOTE TE Gnd Port Stbd Lamp Figure 4-29 R3000X Remote Control Connection 4.17 S100 NFU Lever Installation The S100 Steering Lever is for indoor mounting in panels up to 8 mm (5/16 in.) thick.
Simrad AP50 Autopilot 4.18 S35 NFU Steering Lever The S35 NFU Steering Lever may be mounted to the bulkhead or to a panel by two screws from the front. The cable is connected to the junction unit according to Figure 4-31. If necessary, interchange the Port and Stbd wires to the screw terminals in the junction unit to make the direction of the lever movement coincide with the direction of the rudder movement.
Installation 4.20 Interfacing to Optional Equipment (THD, Navigation Receiver, etc.) With the AP50 autopilot system, there are several options for connection to other equipment for data exchange: 1. The J50 Junction Unit includes two NMEA input/output ports and a Clock Data heading interface to Simrad and Furuno radars. Only the J50-2 port (NMEA input 2) accepts NMEA heading sentences. 2. The optional NI300X NMEA Interface (expansion) Unit includes 4 additional NMEA input/output ports.
Simrad AP50 Autopilot Double NMEA input/output JUNCTION UNIT TB6 GPS/PLOTTER MAIN PCB POWER PCB GPS or ECS TB7 NMEA COMPASS TB13 TB8 NMEA Input2 TB14 NMEA Output1 NMEA Output2 NMEA Input 1 Gnd RX1 Sys. sel. RX1+ Vbat+ TX1+ TX1 TX2 RX2 TX2+ RX2+ Figure 4-34 Double NMEA Connection Output signal Continuous output of 10 Hz NMEA compass heading Output terminal Output sentence Junction unit, Power PCB, NMEA2, TX2+, TX2– HDT or HDG (steering compass dependent; ref.
Installation Radar Clock/Data RADAR JUNCTION UNIT PO W ER PCB TB6 TB7 TB8 R ad ar Clk_c Clk_h Data_h Data_c Figure 4-36 Radar Clock/Data Connections Analog Heading Repeater Figure 4-37 AR77 and AR68 Analog Heading Repeater Connections 20221032B 107
Simrad AP50 Autopilot Digital Heading Repeater Figure 4-38 DR75 Digital Heading Repeater Connections 108 20221032B
Installation GI50 Gyro Interface The GI50 Gyro Interface is required when a gyrocompass with geared synchro or stepper signal output is connected to the AP50. The GI50 is also required when a speed log signal with 200 pulses/NM is connected to the system. All cable conductors are terminated in screw terminals on the GI50 PCB. For cabling and connections, see Figure 4-39. Figure 4-39 GI50 Gyro Interface Connections There are also three plug-in jumpers on the PCB, one for each phase.
Simrad AP50 Autopilot The potentiometer VR1 is factory set to a reference voltage of 2.5V, and should not be readjusted. Power Turn-on After power turn-on, verify that the LED D8 is lit. This indicates that the regulated 5V is OK. If step-signals are connected, observe if the LED’s D1, D2 and D3 are lit. If so, pull out the plug-in jumpers and insert them in the vertical direction. The LEDs D5, D6 and D7 shall turn on and off in a Gray-code sequence when changing the gyro heading.
Installation NI300X NMEA Interface Unit The NI300X NMEA Interface Unit is normally installed inside of a console or locker close to navigation receivers, radar, and instruments to keep the cables short. The unit does not have controls that need to be operated during installation or use, but you should be able to take the lid off for inspections and to view LED indication of received signals. It should be installed with the cable inlet and the RobNet connectors facing down.
Simrad AP50 Autopilot The NI300X NMEA Interface (expansion) Unit is designed for installations in which more NMEA lines have to be tied into the system. Four NMEA ports, which are identical in hardware and software, are available and can be connected as desired. An additional output data-port with a DATA/CLOCK signal is capable of generating heading data in the format used by some radar displays made by Simrad and Furuno.
Installation CI300X COMPASS INTERFACE ALARM TB5 ALARM OUTPUT (Normally open) ROBNET CONNECTIONS TB4 RGC10/RGC50 GYRO COMPASS NFU ENAB PORT STBD COM NON FOLLOW UP STEERING LEVER TB3 S2 S1 R2 R1 FLUXGATE COMPASS WITH SINE/COSINE OUTPUT TB2 GND COS SIN SIN Vref LO HI CD100 CONNECTIONS: ALT. 1 MAGN. COMP TB1 COS DC SUPPLY MAGNETIC COMPASS WITH CD100A COURSE DETECTOR 4 5 3 1 2 MAGN. COMP MAGN. COMP ANALOG GYRO S3 COS SIN Vref LO HI ALT.
Simrad AP50 Autopilot CD109 Course Detector MAGN. COMP For retrofit installations a CD109 Course detector may be connected to the CI300X according to Figure 4-43: TB1 COS SIN Vref LO HI PLUG 11 10 Vref SIN 9 13 COS 12 LO HI 9 10 11 12 13 MAGNETIC COMPASS WITH CD109 COURSE DETECTOR 9 10 11 12 13 Figure 4-43 CD109 connections to CI300X CD100A Course Detector The owner may prefer to use the boat’s own compass.
Installation CDI35 Interface Install the CDI35 Interface as close to the compass as possible so that it will be easy to find in the event of servicing. Put the two fixing screws in the slots and secure the unit to the bulkhead. Open the unit to access the screw terminals. Connect the cables as shown in Figure 4-45. Figure 4-45 CDI35 Interface Connections Note ! The CD100 is a previous model and its cable has a connector that must be cut off for connection in the AP50 system (e.g.
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Software Set-up Procedure 5 SOFTWARE SET-UP PROCEDURE 5.1 Description of Installation Set-up The design of the AP50 includes advanced features that have simplified the installation and set-up of an autopilot. The principle advantage is that the manual adjustments that needed to be made on previous models are no longer necessary with the AP50. The Installation Set-up must be performed as part of the installation of the AP50 system.
Simrad AP50 Autopilot stored in the memory of the AP50 system. No specific action is required to save the selected values to memory. Once the value is changed, it is stored until the next time the menu item is selected and changed. • The Installation Set-up is considered global (except language), which enables the values to be available to all control units in the system. • The values in the Seatrial Settings are dependent on the successful completion of the Dockside Settings.
Software Set-up Procedure • Exit the Installation Menu by pressing STBY, AUTO or NAV buttons. On new installations, and whenever a junction unit or software is replaced in an AP50 system, it is recommended that a Master Reset be performed as described under SERVICE in the Installation Menu (see page 147) prior to proceeding with the set-up procedure.
Simrad AP50 Autopilot INSTALLATION MENU ENTER INSTALLATION MENU BY PRESSING AND HOLDING THE NAV BUTTON FOR 5 SECONDS LANGUAGE MENU LANGUAGE Mode in STBY ? ENGLISH DEUTSCH FRANCAIS ESPANOL ITALIANO NEDERLANDS SVENSKA NORSK Yes SYMBOLS SELECT OR CONFIRM BY ROTARY COURSE SELECTOR PROCEED TO NEXT MENU ITEM BY PRESSING STBD BUTTON REVERT TO PREVIOUS MENU ITEM DOCKSIDE MENU DOCKSIDE No Note! Dockside and Interface Menus accessible only in STBY mode.
Software Set-up Procedure Master Operation DOCKSIDE Master operation Yes Boat type Displacement Boat length --Drive unit voltage --Rudd feedb cal STBD --Rudd feedb cal PORT --- For vessel that comply with the European Marine Equipment directive, one control unit must be set for Master operation, if more than one control unit is connected. The other unit(s) is then automatically set as a “slave”. The system can only be switched off from the master unit (see also page 37).
Simrad AP50 Autopilot Refer to the drive unit tables on pages 89 and 90 for information. The clutch/bypass voltage is automatically set to coincide with the drive unit voltage. During the rudder test, the AP50 system will also automatically detect whether the drive unit is a reversible motor or whether it is solenoid 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.
Software Set-up Procedure Adjust the displayed angle the same way as for starboard adjustment (if the rudder feedback unit is upside down, you need not correct for the opposite side this time). Note ! If no adjustment has been made to the display readout (i.e. not turning the course knob), the AP50 will set the physical stop to 45°. “Max. rudder limit” will be set to 2° less. Note ! Rudder-zero may still be inaccurate and should be adjusted later during sea trial.
Simrad AP50 Autopilot Rudder Test (Not applicable for analog drives) Note ! Bring the rudder manually to midship position before starting the test. If the boat uses power-assist steering, it is important that the engine or electric motor used to enable the power-assist steering is turned on prior to this test.
Software Set-up Procedure Set Rudder Zero DOCKSIDE Set rudder zero --- Rudder limit 10° Thruster ---- This setting is only shown when analog rudder is used for steering. No value is shown before you start turning the course knob. When activated, the AD50 will take control over the rudder. Adjust the rudder to mid-position. Rudder Limit DOCKSIDE Rudder test Done Solenoid drive Clutch NOT installed Rudder limit Rudder deadband Thruster 10° 0.
Simrad AP50 Autopilot Thruster DOCKSIDE Rudder test Done Solenoid drive Clutch NOT installed Rudder limit 10° Rudder deadband 0.2° Thruster ------Danfoss Continuous On/Off Select the type of thruster connected to the autopilot system. Select between: – –- – – (no thruster connected), Danfoss (Danfoss PVEM valve), Continuous (analog ±10V internal or ±12-24V external), or On/Off (On/Off solenoid). Note that for full range of analog control, “Continuous” must be selected.
Software Set-up Procedure Abbreviated name Equipment / Usage NOTES GPS1 Primary GPS/Chart Plotter GPS2 Backup GPS/Chart Plotter ECS1 * Primary Electronic Chart System ECS2 * Backup Electronic Chart System GYRO1 Any primary gyro GYRO2 Backup gyro for GYRO1 THD1 Transmitting Heading Device THD2 Transmitting Heading Device MAGN1 Magnetic compass with course detector (CD100A) 1) CD100A + CDI35 connected to J50 MAGN2 Magnetic compass with course detector (CD100A) 2) CD100A directly conne
Simrad AP50 Autopilot The Interface Set-up Menu presents names so that they can be assigned to the hardware input or output port (see Table 5-1 on page 127. Each abbreviated name is then presented in the appropriate locations of the User Set-up Menu (see page 39) to provide the user with choices of data sources. Upon completion of the Interface Set-up, it is recommended that the configuration be recorded in the Interface Set-up Table on page 129.
Software Set-up Procedure Interface Set-up - Input Signal Set-up item (abbrev.
Simrad AP50 Autopilot Set-up item (abbrev.
Software Set-up Procedure Set-up item (abbrev.
Simrad AP50 Autopilot Set-up item Equipment connected INSTR Instrument system Instrument system Voyage Data Recorder J50, Main PCB 1 Hz* 5 Hz VDR Radar Radar Future option J50, Power PCB, TB9 Simrad* Furuno Special ** RADAR Connected to terminal Assignment * Default setting ** For future use. Table 5-3 Interface Set-up - Output Signal Port 1 Sea Trial Caution ! The Sea Trial must always be performed in open waters at a safe distance from other traffic.
Software Set-up Procedure The Sea Trial menu is selected by rotating the course knob clockwise. LANGUAGE DOCKSIDE INTERFACE SEATRIAL SERVICE SETTINGS SW V1R2 June 26 2003 No Yes Compass Calibration This function will activate the automatic compass calibration procedure (for Simrad compasses connected through RobNet and through J50 Junction Unit Heading Sensor (HS) terminal, and compasses connected through CI300X).
Simrad AP50 Autopilot After calibration, check the compass readout against a known reference, compensated compass, or leading line. If the reading is correct (±3° for magnetic compass, ±0.5° for gyrocompass) except for a fixed offset, proceed to the next menu item by pressing the (STBD) button or return to STANDBY mode by pressing the (STBY) button. S TB Y Note ! If an optional NMEA compass from Simrad or another manufacturer is installed, refer to the optional compass’ manual regarding calibration.
Software Set-up Procedure Set Thrust Direction, On/Off Thruster (ONLY IF ON/OFF THRUSTER IS SELECTED, proceed to page 136 if continuous thruster or Danfoss thruster is selected) SEATRIAL Compass Flux1 Calibration Offset +005° Heading 288° Set thrust direction Speed source Man Set cruising speed 15kt No Yes P Rotate the course knob to starboard and verify that the vessel turns to starboard. The thruster stops after 10 seconds, or when the (STBD) button is pressed.
Simrad AP50 Autopilot Direction and Maximum Thrust STBD, Analog Thruster SEATRIAL Thruster zero 00% Maximum thrust STBD ---% Maximum thrust PORT ---% Minimum thrust 00% No Yes SEATRIAL Maximum thrust STBD P S (ONLY IF CONTINUOUS THRUSTER IS SELECTED) THRUSTER OR DANFOSS Rotate the course knob clockwise to activate the Maximum thrust STBD setting. Rotate the course knob to starboard and verify that the boat turns to starboard. Adjust the bargraph until maximum thrust is obtained.
Software Set-up Procedure Minimum Thrust, Analog Thruster (ONLY IF CONTINUOUS THRUSTER IS SELECTED) SEATRIAL Thruster zero 00% Maximum thrust STBD 080% Maximum thrust PORT 079% Minimum thrust 00% THRUSTER OR DANFOSS The Minimum thrust determines the amount of power (in % of the maximum control signal) that is applied as the "first command signal". No Yes +10V (100%) U The example shows 30% of the control signal applied as Minimum thrust.
Simrad AP50 Autopilot Set Cruising Speed SEATRIAL Compass Flux1 Calibration Offset +005° Heading 288° Speed source Man Set cruising speed 15kt Steer the boat at cruising speed. The speed is shown at the Set cruising speed line. Rotate the course knob clockwise to confirm the cruising speed. If Speed source is set to Man, adjust for actual cruising speed by the course knob. Proceed to the Set rudder zero item by pressing the button or return to STANDBY mode by pressing the button.
Software Set-up Procedure automatic modes (Ref. User Set-up, page 39). The Turn gain may also be readjusted (Refer to Turn Gain on page 155). Note ! The Set rate of turn function is only activated when using the course knob, NOT the Port and STBD buttons. Proceed to the next function by pressing the (STBD) button.
Simrad AP50 Autopilot Manual Tuning If the boat steers satisfactorily, there is no need to perform the Manual or Automatic tuning. The two most important parameters that determine the performance of the automatic steering are Rudder and Counter Rudder. These parameters have already been automatically set in the Installation Dockside menu as scaling factors of the boat type and boat length. These settings may also be accessed at any time in the User Setup menu (see section 2.
Software Set-up Procedure While at cruising speed, adjust the Rudder value by turning the course knob until the autopilot keeps the boat on a steady course. Counter Rudder SEATRIAL ADJUST CTS 340 340.7 RUDDER Gyro1 02 Next SEATRIAL ADJUST COUNT RUDDER? 1.00 340 340.7 02 RUDDER Gyro1 Back Press the (STBD) button to display the set course. Make a 90° course change (CTS) by rotating the course knob and observe the transition to the new set course.
Simrad AP50 Autopilot Selecting the boat type and length has set default values for these parameters (Installation Dockside menu). Before doing any parameter tuning, check if the boat steers satisfactory with the default setting (can be checked as described under Manual Tuning or by normal Auto steering). Recommended speed during Automatic tuning varies with the type of boat, but it should not exceed 10 knots.
Software Set-up Procedure Speed Response To make this adjustment you need speed input from either SOG or Log. The Speed response adjusts the relationship between speed and amount of rudder, with lower speed requiring more rudder. This adjustment should be done at slow speed as follows: For displacement and planing boats, steer at minimum operating speed. SEATRIAL Set rudder zero Done 00 Set rate of turn 210 Done 000°/min Manual tuning Automatic tuning Speed response No Yes SEATRIAL ADJUST CTS 340 340.
Simrad AP50 Autopilot • 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 AP50 steers in NAV mode for each Nav. source. • Provide user training. 5.4 Providing User Training The user should be instructed in the "basic" operational functions, such as: • Turning the system on and off. • Changing modes.
Advanced Settings 6 ADVANCED SETTINGS 6.1 Service Menu Select STANDBY mode and then enter the Installation Menu by pressing and holding the NAV/SETUP button for 5 seconds. (STBD) button and Select "SERVICE" by pressing the confirm by rotating the course knob clockwise. “SYSTEM DATA” and “NMEA DATA” are test functions to analyze data processed by the AP50. SYSTEM DATA NMEA DATA NMEA PORT TEST To exit the menu, press any mode key (STBY, AUTO or NAV).
Simrad AP50 Autopilot Clutch/bypass Verifies if a clutch or bypass valve has been activated when performing the rudder test. FUV1R2 Shows the software version for a connected FU50 Steering Lever NMEA Data --OK INV OK OK OK INV OK FRM INV NMEA DATA XTE ---NM BWW 270° BRG POS-WP ---° POS/LAT N 58°33.222' POS/LON E 10°50.013' COG 270° SOG ---kt WIND R 45.3° SPEED ---kt DEPTH ---m Select the "NMEA DATA" by pressing the (STBD) button and confirm this by rotating the course knob clockwise.
Advanced Settings NMEA Signal Monitor Near the NMEA terminals in the junction unit you will find a green monitor LED (Refer to Junction Unit Terminals, page 86). A flickering LED indicates that a NMEA signal is received. It does not, however, qualify the contents of the message. Note ! Do not confuse this “RX” LED with the LED marked “TX”. The “TX” LED will always be lit/flickering when the autopilot is on.
Simrad AP50 Autopilot 6.2 Settings Menu Select SETTINGS in the Installation Menu by pressing the (STBD) button and confirm this by rotating the course knob clockwise. SETTINGS STEERING THRUSTER No Yes Note ! Two groups of settings are available; Steering and Thruster (only when thruster is installed). If a thruster is not installed, the Steering menu appears when entering the Settings menu. Use the (PORT) or (STBD) buttons to move through the menu items.
Advanced Settings The Autotrim parameter is reset every time the AUTO mode is entered or when a course change greater than approximately 20° is made by the course knob. Autotrim is automatically disabled during a turn. Course Adjust (PORT) or (STBD) buttons in AUTO When using the mode, you are changing the set course in 1° increments. If you prefer the increments to be 5° or 10° each press, proceed as follows: (PORT) or (STBD) button.
Simrad AP50 Autopilot Drive engage This determines the use of the J50 Drive Engage port. The port voltage is the same as the selected Drive Unit voltage. Drive engage has the following different settings: Bypass/clutch: This port will activate (go high), in all modes except for STANDBY and DODGE hand-steering. It is typically used to engage a bypass valve for a hydraulic linear drive. It may be used to start a hydraulic pump when entering Follow-up, Non-Follow-up, AUTO and NAV. modes.
Advanced Settings Drive type This indicates the type of drive installed. The display will show “Motor”, “Solenoid”, “Proportional” or “Analog”, respectively. The reading is obtained from the Automatic rudder test under the Dockside menu. The set value may be changed here. Drive out Not applicable for “Analog” drives. Shows the amount of power needed to achieve the correct rudder speed. The reading is obtained from the Automatic rudder test under the Dockside menu.
Simrad AP50 Autopilot Counter rudder Counter Rudder is the parameter that counteracts for the effect of the boats turn rate and inertia. The default value depends on boat length. Range: 0.05 to 8.00. W Seastate As for Seastate above but applies for the Work-modes. W Rudder As for Rudder above but applies for the Work-modes. W Count rudder As for Counter rudder above but applies for the Work-modes.
Advanced Settings Transition Speed (Only appears in the Settings menu when “Planing” or “Waterjet” is selected as the “Boat type”. To make this adjustment you need speed input from either SOG or Log. Planing boats may often have very different steering characteristics before and after planing. The same may apply for water jet driven boats at low and high speed. AP50 offers the possibility of using the Auto-Work mode values for Rudder and Counter Rudder at low speed.
Simrad AP50 Autopilot Minimum Rudder 4.0° Rudder deadband 0.3° P-factor/Counter Rudder 1.0° Total rudder amount 5.3° Range: 0 to 10° in 0.1° increments Default: 0° Turn mode This allows for the selection of Rate of Turn (ROT) steering or Radius (RAD) steering. When ROT steering is selected, Rate of Turn and W Rate of Turn are shown in the Settings menu. If RAD steering is selected, Radius and W Radius are shown.
Advanced Settings Default: 0 seconds. Init NAV Sets a firm or soft approach to the rhumb line when entering the NAV mode at the first leg. The approach angle is dependant (adaptive) on the distance (XTE) from the rhumb line and the boat speed. Range: Soft - Firm Default: Firm Turn Gain Turn gain determines the initial rudder command when turning in AUTO and NAV modes. Increase this value if the amount of rudder is too small when starting a turn.
Simrad AP50 Autopilot Thruster Select Thruster in the Settings menu by pressing the (STBD) button and confirm this by rotating the course knob clockwise (only available when Thruster is selected for steering). SETTINGS STEERING THRUSTER No Yes SETTINGS Thruster inhibit 10kt Thruster sens 01° Thruster gain 1.00 Minimum thrust 00% Thruster hyst 00% Thruster drive Continuous Response delay 0.
Advanced Settings When operating in “Continuous” mode, the thruster gain setting determines the power from the thruster versus heading error. For higher values, the power increases with the same error signal. If the vessel tends to oscillate around set heading, the value should be decreased. If the vessel has a slow approach to set heading, the value should be increased. When operating in “Adaptive on/off” mode, the setting determines the fixed power from the thruster. Higher value gives more power.
Simrad AP50 Autopilot Thruster hyst (Only applicable for Continuous and Danfoss thrusters) When applying a command signal to a proportional valve, a certain amount of deadband may occur, dependant on the directional change of the command. Therefore, a certain “extra” menu-adjustable command signal is generated and either added or subtracted to the command signal in order to compensate for the deadband. Hence the command signal gives the required power without the “loss of deadband signal”.
Advanced Settings SETTINGS Displayed parameter Boat type (Default settings) Displacement Planing Waterjet Dockside Menu Master Operation No No No Boat length 0-50 feet 0-50 feet 0-50 feet Drive unit voltage 12V 12V 12V Rudder limit 10° 10° 10° Rudder deadband AUTO AUTO AUTO Thruster ---------Settings Menu W Init rudder Actual Actual Actual W Autotrim Yes Yes Yes Autotrim 48 sec 40 sec 40 sec Course adj. 1° 1° 1° Compass diff.
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Maintenance 7 MAINTENANCE 7.1 Control unit Under normal use, the AP50 Control Unit will require little maintenance. The case is made from seawater resistant aluminum and it has a polyester coating to withstand the rigorous conditions of an exposed cockpit. It is recommended that units kept clean of salt, since salt will corrode metal over time. If the unit requires any form of cleaning, use fresh water and a mild soap solution (not a detergent).
Simrad AP50 Autopilot 7.
Maintenance • Remove the Programmable Read-Only Memory (PROM) from the socket with the PROM extraction tool (part number 44139806). • Insert the tool by pressing the two grip pins down into the two slots in the corners of the socket. PROM extraction tool Cut-off corner • Squeeze the tool and pull out the PROM. Identification tag • When inserting new PROMS, make sure its cut-off corner matches with the corner in the socket. Press the PROM gently into the socket.
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Troubleshooting 8 TROUBLESHOOTING 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 AP50’s numerous test features that 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).
Simrad AP50 Autopilot Display readout No rudder response (Remains in actual mode without any rudder command) Probable fault − Steering gear not operative − Broken connection − Missing power − Defective electronics Rudder too slow Excessive load on steering gear, air in the hydraulic system or insufficient drive unit capacity. Rudder test failed The following conditions may exist: a) Rudder feedback failure. b) J50 current overload. c) Bypass/clutch overload.
Troubleshooting Display readout Rudder test failed (continued) Steering compass missing Probable fault Rudder test not completed within 2 min. a) Poor connections to the drive unit. b) Faulty Main PCB in the junction unit. c) Faulty Power PCB in junction unit. Rudder moves at full speed to one side. a) Faulty Power PCB in junction unit. No data from the selected compass. Monitor compass missing Failure active Control Unit Active control unit goes silent.
Simrad AP50 Autopilot Display readout Probable fault Recommended action Memory failure J50 Wrong checksum on memory parameters or variables. Perform a "Master reset" and make a new "Dockside set-up". Switch off and on again. If the alarm is repeated, replace Junction unit Main PCB. 1. Check the RobNet connectors Com. failure with Faulty junction unit or and cable. J50 poor RobNet cable connections from the 2. Replace the junction unit Main junction unit. PCB.
Troubleshooting Display readout Vessel off course NAV. data failure (---). Refer to page 145. 20221032B Probable fault Recommended action 1. Check the steering parameters Extreme weather (Rudder, Autotrim, Seastate conditions, very slow filter). speed, or boats heading is outside the fixed Off 2. Increase the Rudder value heading limit of 20° 3. Increase the boat speed, if (automatic reset when possible, or steer manually. inside the limit). 4. Check the steering gear and autopilot interface.
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Spare Parts List 9 SPARE PARTS LIST 20212221 20212247 20212130 20211819 20212213 20211728 44169662 20211868 44162840 20212189 AP50 Control Unit AP50 Control Unit Installation Accessories Bracket Protection Cover AP50 Front Housing Ass’y Back Cabinet Gasket AP50 Board Ass'y Cover for Plug PROM (programmed) V..R..
Simrad AP50 Autopilot 22081368 Terminal Cover RF300S Rudder Feedback Unit 20193645 20193470 20193454 22011290 22011217 22011266 22011183 22501654 22500300 22500458 22501605 44105120 44105146 44118388 44132033 22500284 22500276 22504005 RF300S Rudder Feedback RF300 Transmission Lever RF300 Transmission Link 44133122 Transmission Rod M5x325mm 20193624 RF300 Ball Joint Ass'y (2) RF45X Rudder Feedback Unit RF45X Rudder Feedback Unit Mounting Kit RF45X PCB Ass’y with Potentiometer RF45 Transmission Link 44
Spare Parts List 22081442 22081178 Installation Accessories Consisting of: 20104972 Mounting Plate (2) 44140762 Screw 3.5x25 (2) 44140770 Screw 30x9 (4) 22081376 Plug (2) RFC35 PCB Ass'y RC25 Rate compass 22084438 22081442 22084370 22082440 RFC35R Rate Compass Installation Accessories Consisting of: 20104972 Mounting plate (2) 44140762 Screw 3.
Simrad AP50 Autopilot 22081319 22081327 22081483 22081335 22081384 44140788 44140796 44140804 44141174 44135333 44133601 Bottom Housing Top Housing Cable 15 m Gasket for Housing Gasket for Screws Screw 3x20 Cable Gland PG7 Nut GL7 O-ring 10x1.
Spare Parts List 23240096 44190114 44140796 Spring Gasket Cable Gland 20104923 44117646 20105839 S100 NFU Steering Lever S100 NFU Steering Lever with Cable S100 only Cable, 10 m 22022289 20184552 20184545 20184578 20184586 44190114 20184594 44114145 22022396 44149680 44193422 44158186 R3000X Remote Control R3000X Remote Control Mounting Kit PCB Ass’y Cable Front Housing Gasket Back Plate Screw M4x8 Front Panel Cable Gland Diode 1N4148 Switch (S1, S2, S3) F1/2 Remote Control 23099021 44105146 23020142
Simrad AP50 Autopilot 44160851 44139707 44139806 44161792 176 Female connector - Crimp Type (for extension cable only) Tools Key for Lock Ring on RobNet Receptacles PROM Extraction Tool RobNet Pin Extraction Tool (for crimp type connectors) 20221032B
Glossary 10 GLOSSARY Apparent wind – see relative wind Arrival alarm – An alarm signal issued by a voyage-tracking unit 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.
Simrad AP50 Autopilot Heading – The horizontal direction in which a ship actually points or heads at any instant, expressed in angular units from a reference direction, usually from 000° at the reference direction clockwise through 359°. IMO MSC(64)67 – (International Maritime Organization) Performance standards for heading control system. ISO 11674:2000(E) – (International Organization for Standardization) Specifies the structure, performance, inspection and testing of heading control systems.
Glossary SOG - Speed over ground is the actual speed of the vessel relative to the ocean floor. True bearing – Bearing relative to true north; compass bearing corrected for compass error. True heading – Heading relative to true north. VDR – Voyage Data Recorder. Recording and storing all information that can be relevant for reconstructing accidents, such as time, date, position, speed, heading, depth, video, communication, etc. Performance requirements are specified in the IMO A.
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Index 11 INDEX A Offset, 134 Actual rudder, 148 selection, 40 Added stop time, 155 steering, 40 Adjust rudder angle, 139 Compass interface Alarm installation, 112 external, 88, 165 Configuration, 73 internal, 165 Continuous thrusters, 43, 136, 157 Analog drive, 18, 25, 166 Analog Heading Repeater, 107 Contrast, 39 Control unit Analog rudder, 18, 21, 23, 123, 125, 139, 165 Bracket mounting, 94 Installation, 94 Analog thruster, 135, 136 Apparent wind, 47, 177 AUTO button, 20 AUTO Mode, 27 A
Simrad AP50 Autopilot Dockside settings, 119 Hydraulic pumps, 89 DODGE button, 20 I Dodging Illumination.
Index Maximum rudder limit, 123, 125 P Maximum thrust, 136 P-factor, 41, 42, 140, 151, 154 Midship rudder, 125, 148 Physical stop, 122, 123, 125 Minimum rudder, 153 PROM, 163 Minimum thrust, 137, 157 Prop.
Simrad AP50 Autopilot Connection, 109 Rudder cal, 123 Rudder calibration, 123 System data, 145 Rudder deadband, 125, 154 System Filter Values, 145 rudder feedback System select, 39, 87 installation, 80 System Select, 119 specifications, 59 T Rudder feedback Calibration, 122 Thruster calibration, 135 Rudder limit, 125 Thruster drive, 158 Rudder test, 124, 151 Thruster gain, 157 Rudder zero, 125, 138 Thruster hyst, 158 S Thruster inhibit, 156 Sea Trial, 132 Thruster sensitivity, 43, 156
Index STANDBY Mode, 39 W Seastate, 152 U-turn, 36 W Turn Gain, 155 V Warnings listing, 165 VDR, 127, 179 20221032B W Waterjet, 153 W Autotrim, 148 Waypoint, 179 W Count rudder, 152 W Initial rudder, 27, 148 Wheelmark, 11, 23, 37, 38, 88, 98, 121 W Radius, 154 WORK button, 20 W Rate of Turn, 154 Work Turn Gain, 155 W Rudder, 152 X W Rudder limit, 152 XTE, 30, 179 185
Simrad AP50 Autopilot 186 20221032B