mbr300 man ing rv04
TRANSCRIPT
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REF: MBR300-MAN-ING
REV DATE REVISION01 10-11-07 -----
02 10-01-10 P 762
03 03-03-10 P 762-2
04 12-03-10 P 762-3
USER MANUAL
ROTATING BEACON
MBR 300
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USER MANUALMBR300
1 GENERAL DESCRIPTION. ...........................................................................................3
1.1MAINCOMPONENTSDESCRIPTION....................................................................41.2FEATURES ..............................................................................................................51.3LUMINOUSFEATURES ..........................................................................................51.4 BEACONBLOCKDIAGRAM ..................................................................................6
2. INSTALLATION AND CONFIGURATION ...................................................................7
2.1UNPACKINGANDUNBLOCKINGTHELANTERN. ...............................................82.2.MOUNTING LEVELLING.............................................................................................112.3WIRING TO THE POWER SUPPLY. ..............................................................................132.4VERIFY THE FOCUSSING. ..........................................................................................152.5.BEACON CONFIGURATION. ......................................................................................16
2.5.1. Rotating speed configuration..........................................................................172.6.1. Functions configuration. .................................................................................202.6.1.1. Rotation mode configuration. ......................................................................202.6.1.2. Monitoring control configuration. .................................................................20
2.6.1.3. Lamp configuration. .....................................................................................20
3 MAINTENANCE...........................................................................................................22
3.1LAMPREPLACEMENT..........................................................................................223.2VERIFICATIONANDFOCUSADJUSTMENT. .....................................................243.3RECOMMENDEDPERIODICMAINTENANCE ....................................................25
4 REMOTE MONITORING CONTROL SENSORS .......................................................26
5 TROUBLESHOOTING................................................................................................27
6 OPTIONS.....................................................................................................................29
7. COMMISIONING CHECKLIST...................................................................................30
8. DRAWINGS.................................................................................................................31
9. ANNEX ........................................................................................................................31
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1 GENERAL DESCRIPTION.The beacon, model MBR 300, is a medium and long range marine rotating beacon forremote solar installations onand offshore, able to reach 31 nautical miles.
Its particular design, optimum optical efficiency and manufacturing materials, such asUV stabilised acrylic lenses, glass and anodized aluminium, compound a watertightbeacon very resistant to corrosive marine environment, with minimum maintenance.
All related IALA Recommendations are met.
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1.1 MAIN COMPONENTS DESCRIPTION
Optical SystemMaximum efficiency.Moulded acrylic Fresnel lenses.6 or 8lens panels with dioptric and catadioptric prisms.105mm focal distance.UV Resistant lenses.3lamps Pr30s automatic Lampchanger.Nominal visibility range up to 20.0 n.m. (T=0.74).
Rotating MotorBrushless DC directdrive motor (step by step)
Electronic motor control (microprocessor).Rotating speeds from 0.5 to 15 rpm.64 programmed rotating speeds (accuracy better than 0.1 %).100 mA rotation power consumption.More than 20 years duty life.Maintenancefree.
Electronic Control PPC02Microprocessor based circuit.Easily programmable rotation speed by microswitches or PC softwareInput voltage: 10 to 36 V DC.
Day/Night control.
Lampchanger control MF14.High precision lamp power voltage regulation (PWM).Short circuit protection.Reverse polarity protection.Overtemperature protection.Transient overvoltage protection.Status and alarms available from remote monitoring by optoisolated signals andRS 232 serial port.
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1.2 FEATURES
Maximum lamp power 250 WVoltage range 10 to 36V dc.
Rotating Consumption 90 to 135 mA see speed table
Colours available Red, green, white, amber.
Visibility 360
Vertical Divergence 3 to 50% de Io
Temperature range -30 to 70C
Lamp control MF-14
Lampchanger 3 Positions MLC-03
0.5 to 15 R.P.M.Rotating speeds
64 programmable by 6 mini DIPsLens Focal Distance 105 mm.
Base Material Aluminium L5754
Lens Material Methacrylate
Photocell Photo sensor Tread M20.
Watertightness IP66 according to IEC 60529
Weight 17 Kg.
Factory Programmed
Selection by mini DIPsProgramming modes
By PC and Software.
1.3 LUMINOUS FEATURES
High Intensity Halogen Lamps 12V 100WMBR 300
Stationnary Intensity: 332,000 Cd
Speed of
Rotation(rpm) 0.50 1 1.5 2 3 4 5 7.5 10
Effective Intensity
(Cd)265,600 221,000 189,700 166,000 132.,800 110,600 94,800 69,900 55,300
Nominal Range(m.n.) (T = 0.74)
22.2 21.7 21.3 21.0 20.4 20.0 19.6 18.8 18.2
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1.4 BEACON BLOCK DIAGRAM
The following diagram shows the internal structure of the MBR300 beacon and theconnection between its elements.
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2. INSTALLATION AND CONFIGURATION
The installation process for the MBR300 requires the next process:
- Unpacking the beacon and unblocking the rotating system.- Mounting and levelling- Wiring to the power supply.- Verify the focussing.- Beacon Configuration..- Verify and testing.- Commissioning checklist testing process.
Required too ls:
The installation process for the MBR300 beacon requires the next tools:
-16mm Flat key- Medium size 5 adjustable wrench- Medium size 10adjustable wrench- 2 mm Flat-blade small screwdriver- 4 mm Flat-blade small screwdriver- 6 mm Star-blade small screwdriver
- Bubble levelling bar.- Allen keys set
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2.1 UNPACKING AND UNBLOCKING THE LANTERN.
The transport and storage of MBR300 beacon has to be done always in an uprightposition as indicated by the arrows in the carton box.
Open the box in an upright position, opening by a side of the box.
- Remove the whole beacon with the protective foams.- Remove the upper block which protects the conic top.
The accessories supplied with the beacon (fixing set, birdspike, extra lensesand blank panels) are in the upper block.
- Remove the central blocks.
- Remove the beacon from the lower protective foam.
The beacon is supplied with the rotation system locked to prevent damage duringtransport.
Once the MBR300 installed and levelled on its final location, the rotation system has tobe unlocked following the steps described:
UPPER LOCK:- Open the conic top by removing the screw and pulling it with caution.- Remove the two blue foams by pulling them.
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- Place in its position the O-Ring gasket located in the inside of the conic topby stretching it slightly.
- Check the lenses and aluminium blank panels are fully inserted into the spot of
the cage.
- Place the conic top, pressing down slightly.- Place the birdspike with a key to close the beacon, pressing until the rubberwasher fits well compressed.
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LOWER LOCK:- Open the beacon to access to the base by removing the six closing screws.
- Open the base only when the beacon is fixed with screws, as by opening thebase is unstable and may drop.- Remove the two blue foams by pulling them.- Check the rotation system has been unlocked correctly, by turning the lensesmanually.
Remove the third blue foam, blocking the control box.
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2.2. Mounting levelling.
Follow the next steps:1. Locate the hardware needed: 4 M10 bolts. 16 M10 nuts , 8 rubber washers and 16M10 metallic washers.2. Make 4 holes of 12mm diameter spaced 90 on a 355mm diameter. Hole template isshown in drawings.3. Mount the levelling hardware as shown in Figure.4. Check visually the levelling by adjusting the nuts as per required.5. Level the lantern base by using the bubble level device in X direction.6. Check visually the levelling by adjusting the nuts as per required.7. Level the lantern base by using a bubble level device in Y direction.
8. Check visually the levelling by adjusting the nuts as per required.9. Repeat steps 6 and 8 if required.10. Once the lantern is levelled. fix the upper nuts smoothly to fix the lantern.11. Finally place the last nuts to block the hardware and torque both nuts firmly toprevent loosening by vibrations.
Base
Flat Washer
Hex. bolt
Hex nut.
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CAUTIONUse the rubber washers for galvanic isolation to prevent corrosion in thelantern base.These washers must be placed in contact with the aluminium basesurface in order to prevent corrosion damages in the paint.
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2.3 Wiring to the power supply.
The beacon external connecting wiring ONLY require to connect the DC power supply
To connect the beacon, it has to be previously fixed and levelled as indicated in theprevious pages.
The beacon has to be opened in its base.Open the control box to connect in the DC supply wiring. Select the rubber grommetsaccording to the cable diameter used in the installation. Blue and brown colourgrommets are included in the accessories box.
WIRING SECTION OBSERVATIONS
1 + BATTERY 4 to 10 mm2
2 - BATTERY 4 to 10 mm2
Voltage lossesV
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ACCESSORIES FOR BEACON SEALING.
To choose the minimum cable section required for the installation, the distancebetween the beacon and the battery, as well as the lamp power used, have to be takeninto account.The selection of the cable has to be done following the table :
12V WIRING RECOMENDATIONSWIRING LAMP (A)LENGHT(m) 20W 35W 50W 100W
5 1 1,5 2,5 4
10 1,5 4 6 615 2,5 6 6 1020 2,5 6 10 1025 4,0 10 10 1630 4,0 10 10 1635 4,0 10 10 25
SECTIONS CALCULATED IN SQUARE MILIMETERS
VOLTAGE LOSSES
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2.4 Verify the focussing.
The MBR rotating beacon are focused in factory during the test process, but forrefocusing the beacon the next process has to be followed:
The lamp focussing is adjusted using 3 adjustment nuts.
The focus adjustment is made in factory and the position of the adjustment is lockedwith a second nut to avoid regulation changes during transport.
The focus nuts are labelled to avoid its manipulation during the maintenance.
- To start the focus process, disconnect the beacon power supply.
- The focussing process has to be made using a white background, which permits tosee clearly the position of the filament.- The lenses have a small central circle that is used as reference and the blank panelsa drill hole identifying the centre.- The focussing/checking process requires checking through a lens that the filament isaligned with the marks of both lenses. Check in two different directions.- The alignment can only be performed with the beacon closed
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2.5. Beacon Conf iguration.
The flash character configuration in the rotating beacon will require the configuration inthe rotating speed and also will require the use of the black panels instead of lenses inorder to obtains group of flashes Fl(2) Fl(3).
To select the different lenses configuration and speed you will use the table annex inthe next pages.
To set the beacon speed, it is necessary to access to the control board located at thebase of the beacon.
For that purpose, open the beacon from the bottom part.The setting of the beacon, model MBR300, can be performed through a computer andadjusting the positions of the DIP microswitches of the control board.
To access to the PPC control board, follow these instructions:1- Open the beacon from the bottom part.Remove the six screws with a screwdriver and with the care not to damage the
paint of the base of the beacon.
2- Open the control box of the beacon.The base of the MBR300 beacon contains a control card where the regulationcircuit is located.Open the top of the box with a 5mm flat screwdriver.
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2..1. Rotating speed configuration.The rotation speed is configurable in the control circuit by setting the microswitches 1to 6 according to the next tables:
PositionSWITCH
RevolutionsTime per Rotation Rotation
N 1=ON 0=OFF per minute revolution Consumption Consumption
123456 RPM in sec. (s) (mA) Ah/Day (*)
0 000000 0,5 120 110 2,64
1 100000 0,5357 112 105 2,52
2 010000 0,5769 104 97 2,33
3 110000 0,625 96 95 2,28
4 001000 0,6667 90 95 2,28
5 101000 0,6818 88 95 2,286 011000 0,7143 84 95 2,28
7 111000 0,75 80 95 2,28
8 000100 0,7692 78 95 2,28
9 100100 0,8333 72 95 2,28
10 010100 0,9091 66 95 2,28
11 110100 0,9375 64 95 2,28
12 001100 1 60 95 2,28
13 101100 1,034 58 95 2,28
14 011100 1,0714 561 95 2,28
15 111100 1,1111 54 95 2,28
16 000010 1,154 52 95 2,28
17 100010 1,2 50 95 2,28
18 010010 1,25 48 95 2,28
19 110010 1,304 46 95 2,28
20 001010 1,364 44 95 2,28
21 101010 1,4286 42 95 2,28
22 011010 1,429 42 95 2,28
23 111010 1,5 40 95 2,28
24 000110 1,5789 38 93 2,23
25 100110 1,6667 36 93 2,23
26 010110 1,7647 34 93 2,23
27 110110 1,875 32 93 2,23
28 001110 2 30 93 2,2329 101110 2,069 29 92 2,21
30 011110 2,1429 28 92 2,21
31 111110 2,2222 27 92 2,21
32 000001 2,3077 26 92 2,21
33 100001 2,4 25 90 2,16
34 010001 2,5 24 90 2,16
35 110001 2,6087 23 90 2,16
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PositionSWITCH
RevolutionsTime per Rotation Rotation
N 1=ON 0=OFF per minute revolution Consumption Consumption
123456 RPM in sec. (s) (mA) Ah/Day (*)
36 001001 2,7273 22 91 2,18
37 101001 2,8571 21 91 2,18
38 011001 3 20 91 2,18
39 111001 3,1579 19 91 2,18
40 000101 3,3333 18 89 2,14
41 100101 3,5294 17 89 2,14
42 010101 3,75 16 90 2,16
43 110101 4 15 89 2,14
44 001101 4,2857 14 92 2,21
45 101101 4,6154 13 93 2,23
46 011101 5 12 95 2,28
47 111101 5,4545 11 102 2,45
48 000011 6 10 105 2,52
49 100011 6,25 9.6 105 2,52
50 010011 6,6667 9 107 2,57
51 110011 7,5 8 110 2,64
52 001011 8,3333 7.2 117 2,81
53 110101 10 6 123 2,95
54 110110 11 5,45 125 3,00
55 110111 12 5 127 3,05
56 111000 12,5 4,80 129 3,10
57 111001 13 4,62 131 3,14
58 111010 14 4,29 133 3,19
59 111011 15 4 135 3,24
60 001111 user user -- --
61 101111 user user -- --
62 011111 user user -- --
63 111111 user user -- --
(*) Calculation for 24h/day rotation
REMARK: The maximum possible speed to configure is 15 r.p.m.
CONFIGURATION EXAMPLE FOR 1.2 rpm.
17 1 0 0 0 1 0 1.2 rpm
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2.5.2 LENSES AND BLACK PANELS CONFIGURATION.
The flash character configuration in the rotating beacon will require the configuration inthe rotating speed an also will require the use of the black panels instead of lenses inorder to obtains group of flashes Fl(2) Fl(3).
The lenses and the black panels have to be replaced accessing from the upper part ofthebeacon, and following the steps:- Unscrew the stainless steel bird spike.
- Remove the conic top, pulling it up.
- Rotate manually the lenses cage, until achieve the access which permit to removeone lens pulling it up.
- Introduce the new lens pushing it till the bottom. Insure that it has been introducedcompletely to enter into contact with the lower ring.
- Replace the lenses avoiding the contact with the fingers, thus we recommend the useof thin gloves which avoid leaving fingerprints or marks onto the lenses plastic.
- The process with all lens and black panels is the same.
- Close the beacon after replacing all the elements.
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2.6.1. Functions configuration.
2.6.1.1. Rotation mode configuration.The mini Dip n 8 permits the rotation mode selection. The recommended mode is the24 hours rotation in order to prevent sun damages in the lampchanger turret andlamps.
DESCRIPTION DIP 8
24 Hours rotation ON
Night rotation only * OFF
* Not recommended.
In order to inverse the rotation clockwise of the beacon, it is necessary to change the red andblue cables.
2.6.1.2. Monitoring control configuration.The remote control outputs must be disabled to reduce power consumption if they arenot used in the beacon control.
DESCRIPTION DIP 7
Remote control andmonitoring enabled
OFF
Remote control andmonitoring disabled
ON
2.6.1.3. Lamp conf iguration.The lamp control MF14is programmable with 12 microswitches.Description:
DIP 1 to 8: ON Position, (DO NOT MODIFICATE).DIP 9 and 10: OFF Position, (DO NOT MODIFICATE).
DIP 11 an 12 : Lamp Output Voltage selection.
Voltage DIP 11 DIP 12
6.2V ON OFF
10.3V ON ON
12V OFF OFF
24V ON OFF
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LAMP VOLTAGE TESTING
LAMP VOLTAGETo measure the voltage of the lamp, a multimeter has to be used in orderto make measures for true RMS in alternative and continuous (True RMS
AC+DC), since this voltage is modulated by pulses (PWM). However, thevalue measured at DC with a conventional digital multimeter willcorrespond to an average value, and not to the effective one, and couldhave important mistakes.
POLARITYIn case of power supply connection with reversed polarity, the twooutputs of the flasher will be activated, so the lampchanger wil l bealso activated or the two lamp filaments will switch on .
PROCEDURE TO TEST THE LAMP VOLTAGE USING PWM REGULATIONThe lamp voltage testing in the MBR300 lanterns requires the use of a voltmeter with thefunction fortesting Volts in TRUE-RMS (AC+DC). The standard voltmeters in the market can only test VDCand VAC
(senoidal).The next process is an option to verify the lamp voltage with PWM, but using a standard DCvoltmeter.-1 Test the battery voltage. (Vbat).-2 Test the Lamp voltage (Vm) in VDC mode. (Equivalent to the average voltage).-3 Apply the next formula to obtain the lamp voltage in Vrms (AC+DC):
Vrms= Vbat x Vm
Vm= V Lamp (Tested in Vdc)
Vbat= V battery Vdc
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3 MAINTENANCE
CAUTIONNEVER make internal beacon maintenance operations
under DC supply
ALWAYS remove the power supply .
3.1 LAMP REPLACEMENT
The failed lamps must be replaced from the lampchanger following the next process:
- Open the beacon base.- Using a start screwdriver unlock the 4 lampchanger bolts.
- Turn slightly the set flasher/lampchanger until release it from the screws in order toextract it out of the lenses. Caution with not to hit the lamps.- Place the set on the control box and replace the fused lamps.
CAUTIONNEVER touch the clear envelope of a Quartz Halogen lamp with barefingers. The oil from your sk in will damage the lamp glass after it isheated and will fail in a very sort time in service.under DC supply. Use plastic gloves for handling.
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Subsequently the lampchanger has to be rearmed by rotating it manually up to lamp 1position, which is indicated by the red painted lampholder.
The new lamps used must be the same type and power to the replace fused lamps.
Only the original spare parts lamps will keep the original luminous performance. Neveruse equivalent lamp for replacement.
Lamp description Part number
10 W 12V Halogen 304847013
20 W 12V Halogen 304847038
35W 12V Halogen 304847085
50 W 12V Halogen 304847086
100 W 12V Halogen 304847040
150 W 24V Halogen 304847046
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3.2 VERIFICATION AND FOCUS ADJUSTMENT.
After replacing the lenses, lampchanger or flasher, you have to check that the lampposition is the correct one, and in case it is necessary, to adjust the lamp focusing byadjusting the three adjusting bolts.
The lampchanger set is suspended on a levelling and focus ring by the means of 3springs and bolts.
To check the lamp focusing, you will have to place the beacon on a levelled surface,close the beacon and look through a lens, you shall visualize the centre of the lampfilament with the centre of the black panel, indicated by the hole. The process has to berepeated at least in two directions to ensure the focus onto the axes x-y.
The alignment and focusing of the lamps is ESSENTIAL to obtain the maximumluminous performance.
In case of lamchanger replacement the new unit had changed the lamp position, it willbe necessary a new focusing. You will need to regulate the levelling ring position bytightening up the three bolts described by means of a flat screwdriver of 4 mm, byblocking the screws and tightening the nut to compress or enlarge the spring.
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The focusing only can be checked with the lenses in a vertical position, therefore allchanges in the adjustment require to open and close the beacon.
3.3 RECOMMENDED PERIODIC MAINTENANCE
Cleaning of the beacon and Glazing
-It is advisable to clean the lens cover outer face every two months, although this taskdepends on the beacon operational conditions, so that period may be extended orshortened at the responsible criteria.
Never use alcohol or petrol derived products to clean they will damage the galssealants, plastics and paints. USE ONLY NEUTRAL SOAP AND WATER.
The lens panels should be cleaned every 12 months with an antistatic soap solution, inorder to avoid easy dust adherence. Likewise, the lens cover inner face should becleaned.The lens panels can be removed from the beacon pulling from the lens array top side,and can be easily cleaned out of the beacon.
Be careful about that neither water nor wetness comes into the beacon during themaintenance operations, to avoid possible condensation in the optical elements. Incase of external humidity, it is advisable the use of silica gel, by putting one or two
bags into the base so that they can absorb possible condensations.
Recommended Part replacement
The next parts are recommended to be replaced under a regular maintenance programand will contribute to keep the original beacon performances and service quality.
Replacement every 7 years:- Ventilation Valve M12x1.5 GoreValve.- O-Ring seal lantern base
- Bird spike rubber Washer
Replacement every 10 years:
- Motor set assembly.- Daylight sensor.- Lamp light sensor.- Rubber gaskets for cable glands.
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4 REMOTE MONITORING CONTROL SENSORSThe MBR300 Rotating Beacon includes several sensors, in order to check theoperation status and to provide alarms:
-Lamp detector: It is a LDR photocell that tests the light emitted by the lamps.-Lampchanger position: It includes a magnetic sensor in the lampchanger, inorder to detect the last lamp n3 in service.-Rotation detector: It is a rotating pair composed by a Hall-Effect magneticsensor and a small magnet, located on the lenses lower ring.
Lamp detector Rotation detector
These sensors are not used for the beacon control operation (lamp changing or speedregulation), they are only supervisors of the status, in order to give information to aRemote Monitoring System about the real status in the lantern.
The lamps are changed by the MF14 unit and it uses lamp current sensing to detectthe lamp status (for remote monitoring, as well).
Lamp detector Rotation detector
Finally, the 3 black lampchanger terminals are the connection for the lamp positionsensor included in the lampchanger, also for remote monitoring purposes.
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5 TROUBLESHOOTINGIn case of malfunction of a beacon, we recommend the following:
Before proceeding to do any tests, check that the power supply is correctly functioningat the correct voltage and that the wiring operates properly.
If the motor rotation is stopped or irregular, the PPC02 board must be tested.
Once all the general considerations have been taken into account and ruled out, thefollowing malfunctions and their possible reasons must be considered:
1) The rotation speed exceeds the programmed speed.Possible reasons:a) Wrong Speed selection with the microswitches.b) Malfunction in the PPC02 Board.
Solutions:a) Select the rotation speed according to the table.b) Replace the faulty board using a new spare part.
2) The rotation speed is lower that the programmed speed.Possible reasons:a) Wrong Speed selection in the microswitches.b) Malfunction in the PPC02 Board.c) Malfunction in the motor or elastic coupling.
Solutions:a) Select the rotation speed according to the table.b) Replace the faulty board using a new spare part.c) Check the screw tightness in the elastic coupling and motor.d) Check the motor wiring and connectors.e) Replace the motor.
3) The rotation stopped and lamp ON/OFF according to the Daylight Photocell.Possible reasons:
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a) Malfunction in the PPC02 Board.
b) Malfunction in the motor or elastic coupling.
Solutions:a) Select the rotation speed according to the table.b) Replace the faulty board using a new spare part.c) Check the screw tightness in the elastic coupling and motor.d) Check the motor wiring and connectors.e) Replace the motor.4) Constant rotation and lamp ON/OFF according to the Daylight Photocell.Possible reasons:
a) 24h rotation mode selected in the microswitch N 8 = ON.b) Malfunction in the PPC02 Board.
Solutions:
a) 24h rotation mode selection in the microswitch N 7 = ONb) Replace the faulty board using a new spare part.
5) Rotation and lamp Failure.Possible reasons:
a) Daylight Photocell failure.b) Power supply failure.
Solutions:
a) Disconnect the daylight photocell wires, if the beacon starts, replace the photocell.b) Check the input voltage of the PPC02 board and the IN/OUT of the DC/DC
converter.
6) Continuous lampchanger actions replacing lamps.Possible reasons:
a) All lamps are failed.b) Failure in the lampchanger contacts or terminals.c) Wrong micro DIP selection in the MF14 flasher.
Solutions:
a) Replace the failed lamps.b) Replace the MLC03 lampchanger.
7) Failure in the monitor ing Signals
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Possible reasons:
a) Monitoring disabled mode selected in the microswitch N 7 = OFF.b) Jumper Removed in the PPC02 Board.
Solutions:
a) Enable the monitoring outputs mode selection in the microswitch N 7 = ONb) Place the Jumper in the board following the General Diagram.
6 OPTIONSThe MBR 300 beacon can be equipped with optional modules of communications
MTU100 GSM alarm communicator moduleMobile telephone GSM, transmitting alarms and status for the maintenance staff bySMS messages.
MTU200 Inmarsat D+ alarm communicator moduleSatellite Inmarsat, transmitting alarms and status for the maintenance.For remote locations.
MTU300 VHF Radio alarm communicator module
VHF radio transmitting alarms and status for the maintenance.
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USER MANUAL
MBR300 ROTATING BEACON
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7. COMMISSIONING CHECKLIST
MBR300 ROTATING BEACONInstallation Date: Beacon serial Number:
Commissioning Date: Flash Rhythm:
Site Name: Light Colour:
Nominal lamp power: w Rotation Speed:
Tested battery voltage v PPC micro dip selection:
Wiring length/section used m mm2 MF14 micro dip selection:
Test descrip tion Values Pass/fail
Paint and surface defects?Glass windows defects?
Beacon levelling?
Stoppers removed ?
Top Cover O-ring gasket installed?
Cable terminals torque and cable gland torque?
Motor rotation speed time? s
Photocell function test?
Initial Motor current consumption?
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USER MANUAL
MBR300 ROTATING BEACON
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8. DRAWINGS
1
General dimensions.2Main Components.3Fixings4External Wiring.5General Diagram.6Lampchanger Diagram.
9. ANNEXES1Lenses and speed configuration table.2 - Lamp regulation PWM process description.
3 - CE conformity declaration.
MEDITERRANEO SEALES MARITIMAS S.L.L.POL. IND. MAS DE TOUS
C/ BELGRADO, NAVE 646185 LA POBLA DE VALLBONAVALENCIA (SPAIN).TEL.: +34 96 276 10 22FAX: +34 96 276 15 [email protected].
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PWM MODULATION VOLTAGE VALUES.
Vbat DUTY Vm Vrms
11,8 100 11,80 11,8
12 100 12,00 12,0
12,25 96 11,76 12,0
12,5 92 11,50 12,0
12,75 88 11,22 12,0
13 85 11,05 12,0
13,25 82 10,87 12,0
13,5 79 10,67 12,0
13,75 76 10,45 12,0
14 73,4 10,28 12,0
14,25 71,5 10,19 12,0
14,5 68,4 9,92 12,0
14,75 66,2 9,76 12,0
15 64 9,60 12,0
15,25 62 9,46 12,0
15,5 60 9,30 12,0
15,75 58 9,14 12,0
16 56,2 8,99 12,0
16,25 54,5 8,86 12,0
16,5 53 8,75 12,0
16,75 51,3 8,59 12,0
17 50 8,50 12,0
17,25 48,4 8,35 12,0
17,5 47 8,23 12,0
17,75 46 8,17 12,0
18 44,5 8,01 12,0
18,25 43 7,85 12,0
18,5 42 7,77 12,0
18,75 41 7,69 12,0
19 40 7,60 12,0
19,25 39 7,51 12,0
19,5 38 7,41 12,0
19,75 37 7,31 12,0
20 36 7,20 12,0
Vbat Battery voltage tested in Vdc
Vm Lamp voltage tested in Vdc
Vrms Lamp voltage in Vrms(AC+DC)
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DECLARACION DE CONFORMIDADDECLARATION OF CONFORMITY
COMPAA: MEDITERRANEO SEALES MARITIMAS S.L.L.
COMPANY
DIRECCCION: POLIGONO INDUSTRIAL MAS DE TOUSADDRESS C/ BELGRADO NAVE 6
46185 LA POBLA DE VALLBONAVALENCIA- ESPAA
Declaro bajo mi propia responsabilidad que el producto:Declare under our sole responsibility that the product:
APARATO: BALIZA GIRATORIA MARINA DE LAMPARAS.
Appliance: LAMP MARINE ROTATING BEACON.
MARCA: MEDITERRANEO SEALES MARITIMAS.BRAND
MODELO COMERCIAL: MBR300Commercial Name:
Al que se refiere esta declaracin esta en conformidad con las siguientes normas:To which this declaration relates is in conformity with the following standards:
EN61000-6-4( 2001) EMISIN ELECTROMAGNTICA / EM Emission.
-EN 55022 (2006): Radiada / Radiated(Clase A/Class A).-EN 55022 (1998) Emisin conducida continua/ Cont. Conducted emisin (Clase A/Class A).
EN61000-6-2 (2001) INMUNIDAD ELECTROMAGNTICA / EM Immunity.-EN 61000-4-2 (1995) / A1 (1998) / A2 (2001): Descarga electrosttica / ESD;-EN 61000-4-3 (2006): Campo radiado EM de RF / EM radiated field of RF;-EN 61000-4-8 (1996) / A1 (2001); Inmunidad radiada / Radiated immunity;
-EN 61000-4-4 (2004), Rfagas de transitorios rpidos /EFT burst;-EN 61000-4-5 (2006), Onda de choque / Surges;-EN 61000-4-6 (2007), RF en modo comn / RF common mode.
Siguiendo las prescripciones de las directivas:Following the provision of Directives:
Directiva de compatibilidad Electromagntica ( 89/336/EEC)Electromagnetic Compatibility Directive ( 89/336/EEC)Modificada por la Directiva de Marcado CE ( 93/68/EEC)
Amended by CE Marking Directive ( 93/68/EEC)
Firmado:Signed
Pilar Haro Martnez