SEA SYSTEMS S.R.L Control Panels, Button Panels and Pre-wired Systems for Elevators Via San Carlo 13 - 20010 Bareggio - Milan - ITALY Tel: +39 02 90 36 34 99 - Fax: +39 02 90 36 35 00 Internet: www.seasystems.it - e-mail: [email protected]MSTK3-GB Rev.04 05/02/12 MANUAL FOR INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring For Hydraulic Elevators
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SEA SYSTEMS S.R.L Control Panels, Button Panels and Pre-wired Systems for Elevators Via San Carlo 13 - 20010 Bareggio - Milan - ITALY Tel: +39 02 90 36 34 99 - Fax: +39 02 90 36 35 00 Internet: www.seasystems.it - e-mail: [email protected]
MSTK3-GB Rev.04
05/02/12
MANUAL FOR
INSTALLATION AND USE
STK3-GMV10 Control panel and Pre-wiring
For Hydraulic Elevators
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
Thank you for choosing the STK3 Control panel for your system.
Please read this booklet carefully in order to learn about all of the features and the potential of this device.
The control panels with microprocessors in the STK3 family are specifically designed for controlling hydraulic and traction elevators in Universal or Simplex (grouped ascent and/or descent) operation.
Using the PT01 programmer it is possible to set a secret Access Code, determine the conditions of elevator operation, monitor what malfunctions or breakdowns occurred and how many times they occurred, control the operation of the elevator and its doors, and modify the functional characteristics of the elevator.
Many specific functions for a particular system can be programmed without having to modify the cabling of the Control panel.
The functional diagnostics for the system is provided by the PT01 programmer and by the LED signals on the STK3-B board.
WARNING This As our products are continuously evolving, the SEA SYSTEMS reserves the right to
alter the information contained in this manual without prior notice.
Support documentation will be supplied for the additional or modified functions of customized products.
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
A) FUNCTIONAL AND TECHNICAL FEATURES .................................. 4
A1) FUNCTIONAL FEATURES .............................................................................................4 A2) TECHNICAL SPECIFICATION........................................................................................5
B) INSTALLATION .................................................................................. 6
B.1) GENERAL NOTES ......................................................................................................7 B.2) SAFETY MEASURES ..................................................................................................8 B.3) TERMS USED............................................................................................................8 B.4) PRELIMINARY OPERATIONS........................................................................................9 B.5) FASTENING CONTROL PANEL ...................................................................................10 B.6) CONNECTIONS FOR PRE-INSTALLATION OPERATIONS.................................................11 B.7) IN SHAFT MOUNTING AND CONNECTIONS..................................................................14 B.8) CAB ROOF MOUNTINGS AND CONNECTIONS..............................................................17 B.9) CONNECTIONS TO PANEL AND POWER-ON ................................................................29 B.10) ISOLATION TEST .....................................................................................................30 B.11) TESTS FOR AMENDMENT A3 OF EN81.2...................................................................31
C) PROGRAMMING AND DIAGNOSTICS............................................ 32
C.1) CHARACTERISTICS OF THE PT01 PROGRAMMER .......................................................32 C.2) WAIT CONNECTION AND MODE .................................................................................32 C.3) PROGRAMMER PARAMETERS AND USE .....................................................................33 C.4) IDENTIFICATION AND ACCESS...................................................................................34 C.5) LEVEL OF ACCESS ..................................................................................................34 C.6) PARAMETERS .........................................................................................................35
D.1) BATTERY REPLACEMENT .........................................................................................67 D.2) SHAFT SENSORS ....................................................................................................67 D.3) REPLACEMENT OF THE STK3-B BASIC ELECTRONIC BOARD ......................................68
E) SOLUTIONS TO MOST FREQUENT PROBLEMS .......................... 69
E.1) STK3-B BOARD IN ALARM (ALARM LED ON)...........................................................69 E.2) INCORRECT READINGS BY THE SHAFT SENSORS .......................................................69
- SIMPLEX UNIVERSAL - SIMPLEX GROUP DESCENT - SIMPLEX GROUP ASCENT-DESCENT
NUMBER OF STOPS - FOR UNIVERSAL AND GROUP DESCENT:
BASIC 12 STOPS / 12 SERVICED EXPANSION FOR 12 SERVICED (TOTAL 12 STOPS / 24 SERVICED) - - FOR GROUP ASCENT-DESCENT: BASIC 7 STOPS / 7 SERVICED EXPANSION FOR 12 SERVICED (TOTAL 12 STOPS / 12 SERVICED)
DOOR CONTROL - AUTOMATIC ON FLOORS AND IN CAB UP TO 2 OPERATORS WITH
ALTERNATING/CONTEMPORARY/SELECTIVE OPENING - PHOTOCELL, OPEN/CLOSE DOOR BUTTON - VARYING DOOR OPEN/CLOSED STOP ON DIFFERENT FLOORS
VARIOUS FUNCTIONS
- VIEW AND DELETE BREAKDOWN/MALFUNCTION CODES - SAFETY CONTROL - PHASE SEQUENCE AND FAILURE - TIMER MANAGEMENT (RUN TIME, LOW SPEED TIME) - INTERMEDIATE CONTROL 15 S (HYDRAULICS) - MAIN FLOOR STOP - ADJUSTMENT OF LEVELING SPACE - EARLY DOOR OPEN - RESERVED/PREFERENTIAL/FIREMAN/FIRE OPERATION - CUSTOMER SECRET ACCESS CODE - PROGRAMMING OF INPUTS AND OUTPUTS FOR SPECIAL FUNCTIONS
IN CAB BUTTON PANEL
- POSITION DISPLAY - NEXT DIRECTION ARROW - SENT AND RECEIVED ALARM, INTERCOM - EMERGENCY LIGHT - OVERLOAD - GONG - OUT OF SERVICE - CALL BUTTON (also for the EN 81-70 version)
FLOOR BUTTON PANEL - POSITION DISPLAY
- NEXT DIRECTION ARROW - CALL BUTTONS (also for the EN 81-70 version)
FLOOR INDICATOR - MAGNETIC PICK-UP, ENCODER EMERGENCY
- EMERGENCY DESCENT AND DOOR OPENING for hydraulic elevators (Data sheet EM01)
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
NOTE Read the warnings contained in this manual very carefully as they provide important information for safety during installation, use and maintenance.
• Current norms must be respected for installation and maintenance, which are to be performed according to the manufacturer's instructions by qualified professional personnel.
• Improper installation or poor maintenance may cause damage to persons, animals or things, for which the manufacturer is not responsible.
• If the equipment is sold or transferred to another owner, always make certain that all of the documentation listed in the following point is provided with the equipment so that the new owner and/or installer can consult it.
• The documentation to use for installation is the following: - System design diagram (not provided by SEA SYSTEMS) - Manual for Installation and Use - Electric circuit diagrams - Electric installation diagrams
• This documentation must be kept by the system manager for correct and safe installation and maintenance of the elevator. This documentation is considered an integral portion of the system and must not be damaged. Pages must not be removed. During use have care not to dirty the pages in order to preserve its legibility.
• The terms of warrantee are indicated on the back of the product transport documents. This warrantee provides the security that SEA SYSTEMS S.r.l. will support its products should defects manifest within the established period. The warrantee is null if the product is used incorrectly or is modified to alter its performance beyond the original factory specifications.
• If it is necessary to con our Technical Service, provide the serial number for the system. The serial number can be found: - On the adhesive label located on the outer side of the housing of the control panel On the first page of the electronic circuit diagram for the system On the programming page of the panel On the Compliance Declaration for the panel
• The serial number is essential for tracing the technical features of the system. The address and the telephone number for our technical service can be found on the cover of this manual.
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
• The installation of the equipment must be performed by a qualified technician, who under his/her own responsibility guarantees following the standards for good workmanship.
• Before performing any cleaning of maintenance operations, disconnect the equipment from the electric mains using the general system switch.
B.4) Preliminary Operations Prior to beginning the installation procedure, perform the following controls and preparatory steps: A) PREPARATION OF THE PLACE OF INSTALLATION
• Check that there is an efficient lighting system in the room. • Check that the room and pit are clean. • Check that the mains electricity has sufficient grounding (if this is not the case, halt
installation until the Customer has rectified the situation). • Check that the shaft entrances are closed suitably. • Set up a materials storage area near the shaft that is easily accessible for the
installers and not exposed to the elements. • Check that all of the conduits and holes for the electric cables are free, available for
inspection, and well finished.
B) MATERIALS UNLOADING AND STORAGE • Ensure that the characteristics of the Control Panel (Type of panel, meters, start-
ups ...) correspond to what was ordered and what is listed on the order confirmation.
• Check that all of the material needed for installation is available, according to the list attached to the documents for the panel. The part numbers for the materials are located on the bags that contain the parts and are called out in the installation instructions in this manual.
• Check the status of all components and materials upon receipt on site in order to identify any possible damages due to transport. Immediately notify SEA SYSTEMS S.r.l. is there are any missing or damaged parts.
• Store the electric and electronic components in a dry cool place, in their original packaging.
• If, for any reason, immediate installation of the plant is not possible, periodically check on the stored components to avoid damages caused by extended storage under unfavorable conditions.
C) SCAFFOLDING
• Use regulation scaffolding for the installation. The scaffolding must have work levels at each stop, approximately 0.5 m lower than the floor.
CAUTION Scaffolding made completely or partially from metal must be grounded and
comply with the current safety standards.
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
B.5) Fastening Control panel a) Mounting the panel in a traditional Machine Room
- Fasten the two supports to the upper and lower parts of the control panel. - Fix the panel to the wall
b) Mounting the panel in a Machine Room Cabinet
- Fasten the two supports to the upper and lower parts of the control panel. - Hook the panel on the upper guide at the bottom of the cabinet - Fasten the panel to the lower guide at the bottom of the cabinet
c) Mounting the panel on MRL systems guides
- Fasten the two supports on the upper and lower parts of the control panel. - Fasten the support plates to the system guides at a distance equal to the height of
the control panel. - Hook the panel on the upper support plates fixed on the guide - Fasten to the lower support plates fixed on the guide
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
B.6) Connections for Pre-installation Operations 1. Check that the general mains switch of the Control panel (CP) is in the OFF position 2. Connect the tractor power line (L1, L2, L3), the pump motor (MC) the solenoid valves
(YD, YL, YP, YE), the temperature and pressure sensors (RT, STO, SPO1, SPO2, SPO4) to the control panel as shown in the schematic diagram Dia. 2.6.1
3. Connect the use and installation button panel (p/n PBU01) to the control panel using flexible cable No. 1 and the connection contained in kit PBU02 as shown in the schematic diagram Dia. 2.6.2
4. Connect the connectors with the integrated bridges (p/n PBU02) according to the schematic diagram Dia. 2.6.2 and based on they type of system:
- MRL System Insert Connector XV6 - TR System (Reduced Head) Insert Connector XV7 - FR System (Reduced Pit) Insert Connector XV8 - Systems with GEV valve Insert Connector XG1 (only during self-
tuning phase)
CAUTION After the pre-installation operations all inserted connectors must be unplugged.
The connectors have bridges on the safeties.
5. Turn on the control panel using the general switch of the CP 6. Select the type of operation, Installation, using the PT01 keyboard (parameter 4.1) 7. Search by elimination for any eventual problems (see menu 1. Diagnostics) 8. Check the pump motor rotation
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
B.7) In Shaft Mounting and Connections B.7.1 SHAFT LINE (SHAFT UPRIGHT) 1. The shaft line is made up of a taped coil of colored or numbered wires, with insert connectors
and labeled for the panel side.
2. Fasten the shaft line conduit (p/n P-00060) using the provided plugs (p/n P-00075) near the floor button panel, keeping it at most 1 m from the door. If two operators, install the same conduit closest to the side with most services
NOTE Insert the strap (p/n P-00074) in the plug (p/n P-00075) before fastening the conduit. (Fig. 1).
3. Fasten the coil temporarily at the top of the shaft and lower it into the shaft from the top, allowing it to descend along the side with the insert connectors, to the control panel. (Fig. 2)
Fig. 1 Fig. 2
4. Connect the connectors of the upright to the operations panel according to the installation schematic diagrams.
5. Extend the coil starting from the panel side, fastening it with a few straps to the plugs that hold the conduit until you reach the very top of the shaft.
CAUTION If the cable is tool long when it reaches the top, cut the wires and isolate them using electrical tape, or use the same connectors which were just removed.
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
B.7.2. SHUNT CONNECTIONS TO THE SHAFT LINE The shunt connections to the line (see the installation schematic diagram) must be performed using the red connectors for 0,75 mm2 cables and blue connectors for 2,5 mm2 ground cables (p/n P-00084, P-00085) following the sequence shown in Figure 3.
Fig. 3 – Sequence of operations for shunt connections to the shaft line
NOTE In general, the equipment that requires shunt connections are: - Overrun - Floor button panels - Alarm sirens - Shaft stop...
B.7.3. SERIES CONNECTIONS TO THE SHAFT LINE The series connections to the line (see the installation schematic diagram) must be performed using the orange connectors following the sequence shown in Figure 6.
Pay particular attention to connect the last device of the series according to Figure 4, whereas the first devices in the series should be connected according to Figure 5.
Fig. 4 Fig. 5 Last Connection in the Series First Connection in the Series
NOTE In general, the equipment that requires shunt connections are: - Contacts for floor door open safety blocks
WIRE COLORS:
PINK
ORANGE
YELLOW / GREEN
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
B.8) Cab Roof Mountings and Connections B.8.1. MOUNTING THE CONNECTION BOX (BOX) AND MAKING FLEXIBLE CABLE CONNECTIONS 1. Attach the connection box using the screws provided
2. Bring the coils of flexible cables into the pit of the shaft
3. Connect the flexible cables (side where ground has eyelets) to the connectors of the cab box according to the installation schematic diagrams and fasten them to the box using the ties provided (p/n P-00074)
4. Fasten the flexible cables to the car using the cable-holder brackets supplied (p/n P-00089) and the plugs (p/n P-00102) on the roof and bottom of the cab
5. Connect the flexible cables (side where grounds is without eyelets) of the operations panel according to the installation schematic diagrams.
6. Fasten the wedge support bracket provided (p/n P-00086) in the shaft at approximately the mid-point of the travel distance using the plugs supplied (p/n P-00102),
7. Fasten the flexible cables to the wedge support bracket in a position so that when the cab is at the absolute end of run, the winds of the flexible cable do not touch the bottom of the shaft.
NOTE To eliminate the problem of excess bagginess and winding of the flexible cables in the shaft, move the wedge support bracket upwards. Bear in mind that for every meter the wedge support bracket is raised, it corresponds to approximately ½ meter of lifting of the cables below the cabin.
8. Check that the flexible cables are not knotted in the shaft. If they are, disconnect the
connectors to the operations panel, straighten them, and reconnect them.
9. Fasten a bracket provided (p/n P-00089) to the wall of the pit at the point in which the flexible cables start to rise vertically along the shaft.
B.8.2. CONNECTIONS TO THE CABIN BUTTON PANEL AND THE DOOR OPERATOR Connect the cabin button panel and the operator according to the installation schematic diagram.
NOTE When it is necessary to use the conduit (p/n P-00087) to hold the cables on the roof of the cab, fasten it to the roof using the screws provided (p/n P-00101).
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
2. Connect the impulse generators as shown in the installation schematic drawings
3. Set the operation mode to normal using menu 4.1.1 Service\Operation\Mode
.1 Mode.. Normal
4. Commutate the shunt of the Inspection button panel on the roof of the cab to the maintenance mode.
5. Position the pair of magnets for the SRD and SRS timing devices according to the schematic diagram Dia.2.8.3.2 at the distances from the end floors indicated in table Tab. 2.8.3.1 shown below.
6. Position the magnetic strips for stopping and speed changes as shown in the schematic diagram Dia. 2.8.3.2 and table Tab. 2.8.3.1;
Tab. 2.8.3.1 Speed Change Distances Recommended for Traditional Shaft and Valve 3010
Cabin Speed (m/s)
KS:Speed Change Distance When Rising (mm)
KD:Speed Change Distance When Descending (mm)
0.01 ÷ 0.30 250 350
0.31 ÷ 0.40 350 450
0.41 ÷ 0.50 450 550
0.51 ÷ 0.60 600 700
0.61 ÷ 0.70 800 900
0.71 ÷ 0.80 1000 1100
7. Adjust the stop strips for intermediary floors so that the floor of the cab comes to the same level of the floor threshold.
8. Should it be desirable to create a zone of non-detection during decent larger than that set by the hysteresis of the monostable contacts, perform the following procedure: Lower the IS contact strip to the space equal to that of non-detection desired. Adjust the timing parameter 3.3.7 so that the cab again stops level with the floor
9. Adjust the stop strips for the other floors so that the cab floor reaches the floor threshold in a level manner.
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
B.8.4. SHAFT WITH ENCODER SENSOR MOUNTING AND CONNECTIONS
A) Description The shaft houses the following sensors:
• Two timing devices (SRD, SRS) for the end floor speed change, toggle contacts SRS also identifies the unblock zone of the lower end floor for emergency descents
• A monostable contact (SIM) for the floor zone information and encoder count check
• A monostable contact (SIZ) for the control of the second safety circuit channel; it uses the same magnet as the SIM sensor
• Incremental encoder installed on the roof of the cab for speed change control, electronic valve speed measurement, floor stop, and doors open/closed detection
The floor area, understood to be the space above and below the floor where it is possible to perform detection with the doors open, is defined by a magnetic strip that works with the SIM and SIZ sensors.
B) Installation 1. Mount the two bracketed shaft impulse generator kits (p/n PIV01 and PIV02) on the roof of
the cab as shown in the schematic diagram Dia. 2.8.4.1 shown below.
Dia. B.8.4.1- Sensor Fastening Schematic Diagram For Shaft With Encoder
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
2. Connect the impulse generators as shown in the installation schematic drawings.
3. Set the operation mode to normal using menu 4.1.1 Service\Operation\Mode
.1 Mode.. Normal
4. Commutate the shunt of the Inspection button panel on the roof of the cab to the maintenance mode.
5. Position the pair of magnets for the SRD and SRS timing devices according to the schematic diagram Dia. 2.8.4.2 at the distances from the end floors indicated in table Tab. 2.8.4.1 shown below.
6. Position the magnetic strips correctly straddling each floor as shown in the schematic diagram Dia. 2.8.4.2 (the diagram refers to a shaft with normal story heights, or >= 30 cm)
NOTE It is necessary that they are positioned correctly, straddling the floor. Errors of a few cm can be corrected by manual adjustments, however the reduce the door open detection area in one of the two operation directions.
NOTE:Reduced Storey Height Of the distance between two adjacent floors is < 30 cm, the storey height is considered 'reduced'. In this case, it the magnetic strips between the two floors must be continuous, and menu 3.3.1 Set-up\Shaft Info\Distance Type must be set to Reduced.
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
6. Perform the self-tuning of the car using menu 4.3.1 Service\Calibraion\Shaft\Encoder
.1 Shaft Self-tuning ENT = Start
Execute the shaft self-tuning operation. Press ENT to start the operation.
7. The elevator will automatically perform the decent and rise maneuvers. The maneuver diagnostics will be displayed as shown on the sample display below:
STS RD RS IM E
The operations will be automatically performed in descent and ascent • STS
Indicates the status of the maneuver execution: 0 = Test lowest floor 1 = Run up to highest floor 2 = Run down to lowest floor ERR0 alarms in plant ERR1 invalid shaft signal status for RS, RD, and IM (RD=0, RS=0, IM=0 at lowest floor). ERR2 = encoder count between two minor 50 mm strips ERR3 = No. programmed stops different from No. magnetic strips counted (also considering the programmed reduced floors) ERR4 = Magnetic strips, count when rising differs from count when descending ERR5 = Encoder count during rise different than decent run, difference greater than 20 mm.
• RD Indicates the Status of the decent timing device SRD: 0 = open 1 = closed
• RS Indicates the Status of the rise timing device SRS: 0 = open 1 = closed
• IM Indicates the Status of the SIM impulse generator 0 = open 1 = closed
• E a variable number that indicates that the encoder is functioning.
The operation can be interrupted at any time using the ESC key
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
8. At the end of the operation, the message 'End' will appear on the display if the shaft reading
has been performed correctly. Otherwise, under STS the type of error/anomaly found will be indicated.
9. Pres ESC to end the shaft reading and exit the menu.
.1 Shaft Self-tuning Complete
Operation finished correctly. Press ESC to exit.
NOTE During this maneuver, all of the quotas relative the magnetic strips of the floors are recorded. The threshold of the floor is set to half of the distance of the measurement of the relative magnetic strip. Furthermore, the stopping space for all of the floors has been measured and set both when rising and descending.
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
C) Adjustment of Shaft with Encoder 1. Check that the values of the speed change space set in menu 3.3.5 Set-Up\Shaft
Info.\Speed Change are suitable for the plant speed with reference to table Tab. 2.8.4.1 or 2.8.4.2 shown below.
2. When stopped at each floor, confirm that there are no misalignments between the threshold of the cab and that of the floor. If necessary, modify the relative quota of the floor using menu 3.3.2 Set-Up\Shaft Info.\Floor Threshold
3. If misalignments persist between decent and rise runs, adjust the value of the rise/decent stop space on menus 3.3.3 and 3.3.4.
4. At the end of the operation, record the values using Menu 5, Save Data.
NOTE If for any reason the timing device magnets or magnetic strips are moved, the Shaft Self-Tuning must be repeated.
Tab. 2.8.4.1 Speed Change Distances Recommended for Shaft with Encoder and Valve 3010
Cabin Speed (m/s)
Parameter 3.3.5.1:
Speed Change Distance When Rising (mm)
Parameter 3.3.5.2:: Speed Change Distance When Descending (mm)
KRS:
Rise Timing Device Magnet Distance (mm)
KRD:
Decent Timing Device Magnet Distance (mm)
0.01 ÷ 0.30 250 350 350 450
0.31 ÷ 0.40 350 450 450 550
0.41 ÷ 0.50 450 550 550 650
0.51 ÷ 0.60 600 700 700 800
0.61 ÷ 0.70 800 900 900 1000
0.71 ÷ 0.80 1000 1100 1100 1200
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
D) GEV valve Self-Tuning When first installed and/or when a valve part is replaced, or if the STK3-EV01 board is replaced, the valve must be calibrated using the self-tuning maneuver in menu 4.3.2 Service\Calibration\GEV Self-Tuning. This maneuver can be performed in two plant operation modes:
• 4.1.1 Service\Operation\Mode : Installation In this case, commutate the shunt on the installation button panel, close the oil shutter, bridge XG1-XG2, and execute the command in menu 4.3.2 Service\Calibration\GEV Self-Tuning
• 4.1.1 Service\Operation\Mode : Normal In this case, make certain that the safeties are closed, close the oil shutter, bridge XG1-XG2, and execute the command in menu 4.3.2 Service\Calibration\GEV Self-Tuning
In either case, a lifting movement will be controlled for approx. 40 seconds during which the valve is calibrated.
At the end of the operation, save the parameters (Menu 5 Save Data), remove the XG1-XG2 bridge, and open the shutter.
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
B.9) Connections to Panel and Power-on 1. Disconnect the Use-Installation button panel of the control panel. 2. Connect the flexible cables and the shaft lifting cable to the control panel according to
the installation schematic diagrams. 3. Connect the traction power line (L1, L2, L3), the pump motor (MC), the solenoid valves
(YD, YL, YP, YE), and the temperature and pressure sensors (RT, STO, SPO1, SPO2, SPO4) to the control panel as shown in the installation schematic diagram.
NOTE The items called out in point 3 should have already been connected during the pre-installation phase as indicated in Paragraph 2.6 - Connections for Pre-Installation Operations.
4. Turn on the panel and verify that the following LED turn on:
H1, H2, H2E, H7, H8, H10, H+24E, POWER; 5. Select the NORMAL type of operation using the PT01 keyboard (parameter 4.1). 6. Search and eliminate any eventual problems (see menu 1. Diagnostics).
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
B.10) Isolation Test Prior to performing the Isolation tests shown in the table below, perform the following steps: 1 Stop the cab off floor 2 Remove power to the QFM motor power and QL light 3 Disconnect and insulate the earth wire from the power supply device AL01 4 Disconnect the pressure transducer 5 Disconnect the telephone line to the dialer.
FROM
TO
Engine Power, Motors
R,S,T, U,V,W, U1,V1,W1 U2,V2,W2
Safeties
1..10
Cabin lights
L1,L,N
Continuous door motor
OP02, OP03, OP05, OP06, OP07, OP08
Indicators
OC, FS
Ground Engine Power, Motors
R,S,T, U,V,W, U1,V1,W1 U2,V2,W2
NO Safeties
1..10 NO NO Alarms
+AL, -AL-, AL NO NO Cabin lights
L1, L, N NO Indicators
OC, FS NO Safety Circuit
ID1, ID2, IS1, IS2, IZ
NO NO = Perform isolation test.
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
B.11) Tests for Amendment A3 of EN81.2 B.11.1) INSTRUCTION TO CHECK THE IDENTIFICATION AND INTERRUPTION OF THE UNINTENDED CAR MOVEMENT
NOTE The Control panel STK3 identifies and interrupts the uncontrolled movement with the safety circuit integrated in the STK3b board and put the lift out of order with
the alarm 88. To check this control follow the next instruction
1. Command the car to the second floor with doors closed 2. Open the door safety chain (clamp XV1.10 of the control panel) 3. Command the car downward with the parameter 4.2.6 of the programmer; 4. When the car goes out of the unlocking zone, the lift goes out of order with alarm
88; 5. Close the door safety chain (clamp XV1.10 of the control panel); 6. Command the car to the last floor but one with doors closed; 7. Repeat the operations between 2 and 7 (operation 3 with the parameter 4.2.6 for
upwards)
B.11.2) INSTRUCTION TO CHECK THE SELF-MONITORING OF HYDRAULIC VALVES NORMALLY OPERATING
NOTE The Control panel STK3 monitors the two valves once a day after the automatic
dispatch to the lowest floor. The operation checks separately each valve is closed. If during the check a second re-leveling occurs, the valve is considered
broken and the lift goes out of service with alarm 81.
1. Turn off and turn on the control panel (QFM switch for MR lifts or SFMR for MRL lifts);
2. Set the time for the automatic dispatch to the lowest floor, to 1’ (parameter 3.8.4 of the programmer);
3. Command the car to the second floor; 4. When the car goes to the lowest floor, keep active mechanically/electrically the
valve YD (VMD); 5. The car re-leveling twice. At the second re-leveling the lift goes out of service with
alarm 81. 6. Reset the alarm 81 with SW switch on the board or with the parameter 1.4 of
programmer. 7. Repeat the operations between and 6 (at the operation 3 keep active the YD1
(DLV); 8. Set the time for the automatic dispatch to the lowest floor, to 15’ (parameter 3.8.4 of
the programmer)
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
C) programming and diagnostics C.1) Characteristics of the PT01 Programmer The system is programmed and diagnosed using the PT01 programmer, which has the following specification:
• 2 row x 16 character, LCD alphanumeric display, backlit
• 4 keys for paging through the menus and sub-menus to change parameter values.
• Standard removable connection cable, RJ45 direct (not crossed), max. length 10 m.
• Direct connection to the base board or to the Remote Button panel without power switch.
C.2) Wait Connection and mode When the connection is performed, the background of the display illuminates and the following message is displayed:
Where xx.x and yy.y are the numbers relative to the Version and Release of the firmware installed on then STK3-B board of the operations panel.
At this point the programmer will be in stand-by mode and ready for use.
NOTE If the message does not appear, disconnect and reconnect the programmer.
STK3-B Board or
Remote Button Panel
X12
STK3-GMV10 Vxx.x Ryy.y
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
C.3) Programmer Parameters and Use The information relative to the configuration of the plant and its diagnostics is organized in parameters which are identified in menus and submenus.
The programmer works in two separate modes:
• Parameter Selection The keys perform the operations to reach a specific parameter
• Modify Parameter The keys perform the operations needed to modify the value of the selected parameter
There are two types of parameters:
• List Parameter Parameters where the value can be selected from a set of possible values
• Numerical Parameters Parameters represented by a numerical value
Key Functions:
Modify Parameter Symbol Parameter Selection List Numerical ESC
Return the next higher level menu Annul the change and return to selection
Move the cursor one position to the right
Page upwards through the menu Shows the previous menu item Shows the previous element Increases the numerical value
Page downwards through the menu Shows the next menu item
Shows the next element Decreases the numerical value
ENT Activates the selected item: If it is a menu, the menu is openedIf it is a parameter, it goes to the mode for modification
Accept the selection made and return to selection
End editing. If the value inserted is not valid, the cursor will be shown again.
NOTE For some parameters the keys perform special functions which are described in the explanations for the specific parameters.
The 1. Diagnostics menu parameters are only readable, with the exception of the alarm reset parameter.
For safety reasons, the 2. Configuration menu parameters can only be modified with the FA valve disconnected; however they can be read at any time.
.
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
C.6) Parameters 1. Diagnostics 1.1 Oper. Status Normal
Displays the current operation status:
• Normal Operation • Installation • Emergency • Out of Service
• Inspection • Fireman • Reserved • Preferential
1.2 Position NN zone <|> >|<
1 2 3 4
Displays the position of the cab and the door status: 1 Indicates the position of the cab, 01…12. If it has not been already
rephased the following is displayed: -- Not Rephased 2 indicates if the cabin is in floor zone, above or below the floor indicated 3 indicates the status of the door 1, <|> means open, >|< means closed 4 indicates the status of door 2, <|> means open, >|< means closed
1.3 Alarms
Display of the currently active alarms Press ENT to access the list Each alarm is identified by a code described in the Alarm code Table
1.4 Reset Alarms
Permanent elimination of the alarms. Press ENT, confirmation for elimination will be requested. If after the elimination of the alarms, other alarms appear in parameter 1.3, it means that these alarms are still active.
1.5 Alarm History
Display the last 16 alarm codes recorded. Press ENT to access the list The alarms are displayed in the format xxx:yy, where: xxx = alarm code and yy = number of consecutive times
1.6 Voltage 24 V xx.x V DC
Displays the current value of the voltage feed to the board.
1.7 Room Temp. xx °C
Displays the current room temperature measured by the board.
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
1.9 Diagnostics\Inputs-Outputs RD RS ID IS CS M 0 0 0 0 0 0
Displays the status of the floor indicators and safety circuit • RD, RS Ascent and Descent re-phase • ID, IS Stop/Change speed impulse
When Shaft Encoder is selected, they display that equivalent state of the stop contacts on the contact shaft.
• CS, status of the door safety circuit • M, status of the IM impulse, used only with encoder shafts
0= Open Contact, 1= Closed Contact
H10 8 7 5 2E 2 1 0 0 0 0 0 0 0
Displays the status of the safety chain indicators to the board terminals: 10,8,7,5,2E,2,1 0= Open Contact, 1= Closed Contact
IP.. 987654321 000000000
Displays the status of the input signals IP9…IP1. 0= Open Contact, 1= Closed Contact
HC.. 87654321 00000000
Displays the status of the input signals 8(X9.3), 7(X9.4), 6(HC6), 5(HC5), 4(HC4), 3(HC3), 2(HC2), 1(HC1) 0= Open Contact, 1= Closed Contact
FA1 FC1 FA2 FC2 0 0 0 0
Displays the status of the door limit switch input signals: FA1, FC1, FA2, and FC2. 0= Open Contact, 1= Closed Contact
CM1 CM2 FT1 FT2 0 0 0 0
Displays the status of the input signals relative to the safety device and door photocell: CM1, CM2, FT1, and FT2. 0= Open Contact, 1= Closed Contact
MR PA1 PA2 PCP 0 0 0 0
Displays the status of the Cabin Button Panel input signals MR Reserved Operation Key PA1, Open Door 1 Button PA2, Open Door 2 Button PCP; Close Door Button 0= Open Contact, 1= Closed Contact
E.. 210987654321 000000000000
Displays the status of the floor call input signals E12…E1. 0= Open Contact, 1= Closed Contact
ES. 432109876543 000000000000
Displays the status of the floor call input signals E24…E13, Call Expansion 0= Open Contact, 1= Closed Contact
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
Displays the status of the Cabin 1 Button Panel call input signals I12…I1 0= Open Contact, 1= Closed Contact
IB. 210987654321 000000000000
Displays the status of the Cabin 2 Button Panel call input signals I12…I1 0= Open Contact, 1= Closed Contact
OUT 210987654321 000000000000
Displays the status of the output relay commands on the STK3-B board K12,K11,K10,K9…K1 0= Relay at rest, 1= Relay excited
BUTTON PANEL CAB.1 OK XX XX XX XX
Displays the communication status with the Cabin 1 Button Panel OK, correct connection --, no connection The numbers XX must be communicated to the Technical Service if requested.
BUTTON PANEL CAB.2 OK XX XX XX XX
Displays the communication status with the Cabin 2 Button Panel OK, correct connection --, no connection The numbers XX must be communicated to the Technical Service if requested.
EXPANSION CH.1 OK XX XX XX XX
Display communication status with Call Expansion (EC01) OK, correct connection --, no connection The numbers XX must be communicated to the Technical Service if requested.
EXPANSION IN.1 OK XX XX XX XX
Display communication status with Input Expansion 1 OK, correct connection --, no connection The numbers XX must be communicated to the Technical Service if requested.
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
3.1 Settings \Valve GEV This menu is displayed if the parameter 2.3 is set like GEV
3.1.1 Settings \ Valve GEV \ Ascent .1 Ascent Nom Speed:x.xx m/s
Nominal ascent speed (range 0.2…1.00 m/s)
.2 Int. Ascent Offset:±xx%
Correction of the intermediate ascent speed (range +20…+99) STK3 automatically calculates the value of the speed during the runs between neighboring floors. This parameter allows the calculated speed to be modified in percentages.
.3 Lev. Speed Ascent:0.xx m/s
Ascending leveling speed. (range 0.04…0.20 m/s)
.4 Insp. Speed Ascent:0.xx m/s
Ascending inspection speed (range 0.2…0.63 m/s)
.5 Ascent Offset Vinsp:xx%
Ascending inspection speed during installation (range 01..99% of the inspection speed 3.1.1.4)
.6 Ascent Normal Acc.
Ascent Acceleration • Slow Acc. • Normal Acc. • Fast Acc.
.7 Ascent Normal Decel.
Ascent deceleration • Slow Decel. • Normal Decel. • Fast Decel.
.8 Ascent Soft Stop Normal
Soft Stop • Soft Stop Slow • Soft Stop Normal • Soft Stop Fast
.9 Ascent t. Soft S.:x.x s
Soft Stop time at the end of operation in ascend (range 0.2…3.0 s)
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
3.1.2 Settings \ Valve GEV \ Descent .1 Descent Nom Speed:x.xx m/s
Nominal descent speed (range 0.2…1.00 m/s)
.2 Int. Descent Offset :±xx%
Correction of the intermediate descent speed (range +20 … +99) STK3 automatically calculates the value of the speed during the runs between neighboring floors. This parameter allows the calculated speed to be modified in percentages.
.3 Descent Lev. Speed:0.xx m/s
Descending leveling speed. (range 0.04…0.20 m/s)
.4 Descent Insp. Speed:0.xx m/s
Descending inspection speed (range 0.2…0.63 m/s)
.5 Descent Vinsp Offset:xx%
Descending inspection speed during installation (range 01..99% of the inspection speed 3.1.2.4)
.6 Descent Normal Acc.
Descent acceleration • Slow Acc. • Normal Acc. • Fast Acc.
.7 Descent Normal Decel.
Descent deceleration • Slow Decel. • Normal Decel. • Fast Decel.
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
Gain P (range 0…9, standard set-point= 4) Adjusts the response speed of the adjustment Increase if the plant is low, decrease if the plant tends to vibrate
.2 Gain I: x
Gain I (range 0…9, standard set-point= 0) Adjusts the response speed of the adjustment Increase if the plant is elastic, decrease if it is slow
.3 Gain S: x
Gain S (range 0…9, standard set-point= 4) Adjusts the departure response speed Increase if slow starting, decrease if it jerks when starting
.4 Ratio 1:1 short
Cab/piston run ration and piston length • 1:1 short • 1:1 long • 2:1 short • 2:1 long
.5 Reset Gains
Reset the GEV adjustment gains to the standard values
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
3.1 Settings \Valve GEV-DLV This menu is displayed if the parameter 2.3 is set like GEV
3.1.1 Settings \ Valve GEV-DLV \ Ascent .1 Ascent Nom Speed:x.xx m/s
Nominal ascent speed (range 0.2…1.00 m/s)
.2 Int. Ascent Offset:±xx%
Correction of the intermediate ascent speed (range +20…+99) STK3 automatically calculates the value of the speed during the runs between neighboring floors. This parameter allows the calculated speed to be modified in percentages.
.3 Lev. Speed Ascent:0.xx m/s
Ascending leveling speed. (range 0.04…0.20 m/s)
.4 Insp. Speed Ascent:0.xx m/s
Ascending inspection speed (range 0.2…0.63 m/s)
.5 Ascent Offset Vinsp:xx%
Ascending inspection speed during installation (range 01..99% of the inspection speed 3.1.1.4)
.6 Ascent Normal Acc.
Ascent Acceleration • Slow Acc. • Normal Acc. • Fast Acc.
.7 Ascent Normal Decel.
Ascent deceleration • Slow Decel. • Normal Decel. • Fast Decel.
.8 Ascent Soft Stop Normal
Soft Stop • Soft Stop Slow • Soft Stop Normal • Soft Stop Fast
.9 Ascent t. Soft S.:x.x s
Soft Stop time at the end of operation in ascend (range 0.2…3.0 s)
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
3.1.2 Settings \ Valve GEV-DLV \ Descent .1 Descent Nom Speed:x.xx m/s
Nominal descent speed (range 0.2…1.00 m/s)
.2 Int. Descent Offset :±xx%
Correction of the intermediate descent speed (range +20 … +99) STK3 automatically calculates the value of the speed during the runs between neighboring floors. This parameter allows the calculated speed to be modified in percentages.
.3 Descent Lev. Speed:0.xx m/s
Descending leveling speed. (range 0.04…0.20 m/s)
.4 Descent Insp. Speed:0.xx m/s
Descending inspection speed (range 0.2…0.63 m/s)
.5 Descent Vinsp Offset:xx%
Descending inspection speed during installation (range 01..99% of the inspection speed 3.1.2.4)
.6 Descent Normal Acc.
Descent acceleration • Slow Acc. • Normal Acc. • Fast Acc.
.7 Descent Normal Decel.
Descent deceleration • Slow Decel. • Normal Decel. • Fast Decel.
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
3.1.3 Settings \ Valve GEV-DLV \ Gains .1 Gain P: x
Gain P (range 0…9, standard set-point= 4) Adjusts the response speed of the adjustment Increase if the plant is low, decrease if the plant tends to vibrate
.2 Gain I: x
Gain I (range 0…9, standard set-point= 0) Adjusts the response speed of the adjustment Increase if the plant is elastic, decrease if it is slow
.3 Gain S: x
Gain S (range 0…9, standard set-point= 4) Adjusts the departure response speed Increase if slow starting, decrease if it jerks when starting
.4 Ratio 1:1 short
Cab/piston run ration and piston length • 1:1 short • 1:1 long • 2:1 short • 2:1 long
.5 Reset Gains
Reset the GEV adjustment gains to the standard values
3.1.4 Settings \ Valve GEV-DLV \ DLV-VMD Test .1 DLV-VMD Test xx s
Activation Time to check the valves DLV and VMD during the monitoring according to Amendment A3 (range 3…10 s)
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
3.3 Set-Up\Shaft Info (Shaft with Contacts without Encoder) This menu is displayed if the parameter 2.12 is like contact
Installation of Shaft sensors Follow the Diagram 2.8.3.2 to install the shaft sensor system without encoder
Application limit to install the shaft sensors without encoder Should the storey height be less than Kd + 215 mm, the shaft with only contact cannot be used and it is necessary to use a shaft with encoder.
3.3.1. Set-up\Info. Shaft\Distance Type Floors 01 <> 02 Normal
… …
… … Floors 11 <> 12 Normal
Inter-floor distance: • Normal. When the between floor distance is > Ks + Kd • Short (*). When the inter-floor distance is < (Ks + Kd) and > (Kd
+ 215 mm) Where: Ks = Speed Change Distance When Rising Kd = Speed Change Distance When Descending
(*) Short Inter-floor distance If the inter-floor is 'short', the speed change strips must be positioned in an inverted sequence compared to the sequence for normal storey heights, and the space between them must be greater than 100 mm.
3.3.2. Set-up\Info. Shaft\Door Opening .1 Enabled NO
Enable advance opening of the door when arriving on floor: • NO • YES
.2 Delay x.x s
Delay time for activating closure of the door. The timer starts when the safety circuit closes (range 0 to 3.0 s)
3.3.3. Set-up\Info.Shaft\Leveling 1 Delay x.x s
Delay time for stopping upwards (range 0.0…3.0). The timer starts when SIS closes. Serves to create a neutral rise zone (zone of non-detection) larger than that set by the hysteresis of the monostable contacts.
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
Installation of Shaft sensors Follow the Diagram 2.8.4.2 to install the shaft sensor system with encoder
3.3.1 Set-up\Info. Shaft\Distance Type Floors 01 <> 02 Normal
… …
… … Floors 11 <> 12 Normal
Inter-floor:
• Normal. When the inter-floor distance is > 30 cm • Close. When the inter-floor distance is < 30 cm
3.3.2 Set-up\Info. Shaft\Floor threshold 2 Floor Threshold Floor 01:xxxxx mm
… …
… … 2 Floor Threshold Floor 12:xxxxx mm
Floor Threshold It is automatically calculated during the automatic reading of the shaft. Set-up to be performed after automatic reading of shaft.
3.3.3 Set-up\Info. Shaft\Ascent Stop 3 Ascent Stop Floor 01: xx mm
… …
… … 3 Ascent Stop Floor 12: xx mm
Ascent stop (range 0…63) Set the quota referring to the floor threshold corresponding to the ascent stop command. It is automatically calculated during the automatic reading of the shaft. Set-up to be performed after automatic reading of shaft.
3.3.4 Set-up\Info. Shaft\Descent Stop 4 Descent Stop Floor 01: xx mm
… …
… … 4 Descent Stop Floor 12: xx mm
Descent stop (range 0…9) Set the quota referring to the floor threshold corresponding to the ascent stop command. It is automatically calculated during the automatic reading of the shaft. Set-up to be performed after automatic reading of shaft.
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
ESC: Return to the previous menu ENT: Resets the menu 3.5.2, 3.5.3, 3.5.4, .5.5, 3.5.6 with default values
3.5.2 Settings \Service\Cab .1 Input: I1 Internal xx y
…
…
…
… 12 Input: I12 Internal xx y
Call Inputs in the car For each input it is necessary to set the floor number and the side where the doors open Scroll the list up to display the desired input Press ENT to change the value
xx = Floor number (range 1…12) y = Door opening side (range: A, B)
3.5.3 Settings \Services\ External Base .1 Input: E1 External xx y
… …
… … .12 Input: E12 External xx y
Call Inputs at the landings For each input it is necessary to set the floor number and the side where the doors open Scroll the list up to display the desired input Press ENT to change the value
xx = Floor number (range 1…12) y = Door opening side (range: A, B)
3.5.4 Settings \ Services \ External Expansion .1 Input: E13 External xx y
… …
… … .12 Input: E24 External xx y
Call Inputs at the landings For each input it is necessary to set the floor number and the side where the doors open Scroll the list up to display the desired input Press ENT to change the value
xx = Floor number (range 1…12) y = Door opening side (range: A, B)
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
3.5.5 Settings \ Services \ Emergency .1 Service Side A
Select the door opening side at the lowest landing in emergency operation
• Side A • Side B • Both
3.5.6 Settings \ Services \ Opening stop Floor 01 Side A Open
… …
… … Floor 12 Side B Open
Door state with two accesses at the same landing: • Open • Closed • Open, Selective open if two on • Closed, Selective open if two on • Open, Contemporary open if two accesses • Closed, Contemporary open if two accesses
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
Max Room Temperature If the temperature overcomes the setting, it signals the alarm 306 If the setting is 00, the alarm is disabled
.2 On floor readings max: xx
Max re-levellings at the landing (range 0…99) If the count overcomes the setting, it signals the alarm 004 If the setting is 00, the alarm is disabled
.3 Timer max. Run:
Maximum time of a run between two landings (range20…255 s) If the time overcomes the setting, it signals the alarm 001 If the setting is 00, the alarm is disabled
.4 Low Speed Timer: xxx s
Maximum time of a journey in slow speed (range20…255 s) If the time overcomes the setting, it signals the alarm 002 If the setting is 00, the alarm is disabled
.5 Max Occupied Timer: xxx s
Maximum engaged time at landing (range20…255 s)
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
Stopping time at landing after the doors open (engaged time) (range 3…25s) It is reset by a command in the car and by the door closing button with recorded command
3.8.2 Photocell Stop Timer: x.x s
Stopping time at landing after the activation of door photocell during door closure for a departure. (range 0…25 s)
Waiting time before the returning to the lowest landing (1…15s)
3.8.5 Door 1 Timer max:xx s
Maximum time allowed for the operation of the door prior to the intervention of the Open/Close limit switch of the 1° operator (range 0…25 s)
3.8.6 Door 2 Timer max:xx s
Maximum time allowed for the operation of the door prior to the intervention of the Open/Close limit switch of the 2° operator (range 0…25 s)
3.9 Settings \Set .1 Set? ESC=NO ENT=YES
ESC: Return to the previous menu ENT: the functions are automatically linked to the inputs (menu 4.4.1) and to the outputs (menu 4.4.2) according to the parameters set in the menu 2 and 3 If it is necessary to link manually the inputs and outputs, link the input functions of the tab. F5 to the menu 4.4.1 and link the output functions of the tab. F6 to the menu 4.4.2 To reset the inputs and outputs with the default functions, use the menu 4.4.4 or the menu 4.4.5
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
Calls to the ultimate landings: • None • Lowermost Floor • Uppermost Floor
During execution of a journey it is displayed the message operating... .2 Auto Calls None
Automatic calls • None: Deactivates automatic execution • Ends: Calls to the ultimate landings are performed continuously • All: Calls to each landing are performed continuously
To perform the calls, the Parking Floor timing is used, menu 3.4.3.2. .3 Door 1 (A) ENT = Activate
Commands to close and open the door at side A When this function is active, the elevator does not respond to the floor/cabin calls ENT: actives the following commands:
ESC = to exit = to open = to close
.4 Door 2 (B) ENT = Activate
Commands to close and open the door at side B When this function is active, the elevator does not respond to the floor/cabin calls ENT: actives the following commands:
ESC = to exit = to open = to close
.5 Operation ENT = Activate
Commands to move the car upwards and downwards When this function is active, the elevator does not respond to the floor/cabin calls ENT: actives the following commands:
ESC = to exit = to go upwards = to go downwards
.6 Mov. Test A3 ENT = Activate
Commands to move the car upwards and downwards to test the unintended car movement (A3 Amendment) When this function is active, the elevator does not respond to the floor/cabin calls. Follow the instruction at the paragraph B.11.1 ENT: actives the following commands:
ESC = to exit = to go u pwards = to go downwards
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
4.3 Service \ Taring 4.3.1 Service \ Taring \ Shaft Encoder This function is only enabled if the shaft with encoder type has been selected in parameter 2.12. Otherwise the following message will be displayed: Not required! This operation must .1 Shaft Self-tuning ENT = Start
Execute the shaft self-tuning operation. Press ENT to start the operation.
STS RD RS IM E
The operations will be automatically performed in descent and ascent STS Indicates the status of the maneuver execution: 0 = Test lowest floor 1 = Run up to highest floor 2 = Run down to lowest floor ERR0 alarms in plant (See menus 1.3 and 1.5) ERR1 invalid shaft signal status for RS, RD, and IM (RD=0, RS=0, IM=0 at lowest floor). ERR2 = encoder count between two minor 50 mm strips ERR3 = No. programmed stops different from No. magnetic strips counted (also considering the programmed reduced floors) ERR4 = Magnetic strips, count when rising differs from count when descending ERR5 = Encoder count during rise different than decent run, difference greater than 20 mm.
• RD Indicates the Status of the decent timing device SRD: 0 = open 1 = closed
• RS Indicates the Status of the rise timing device SRS: 0 = open 1 = closed
• IM Indicates the Status of the SIM impulse generator 0 = open 1 = closed
• E a variable number that indicates that the encoder is functioning.
The operation can be interrupted at any time using the ESC key
.1 Shaft Self-tuning Complete
Operation finished correctly. Press ESC to exit.
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
4.3.2 Service\Taring\GEV Self-tuning This function is only enabled if the shaft with GEV valve type has been selected in parameter 2.3. Otherwise the following message will be displayed: Not required!
..2 Self-tuning ENT = Start
Execute GEV valve self-tuning operation Follow the instructions manual for the execution of this manoeuvre Press ENT to start the operation The motor-pump will be controlled automatically and readings will be taken from the valve with the following comment messages:
• 2 GEV Self-tuning Not valid Temp. The test cannot be performed
• 2 GEV Self-tuning XX bar ESC=Stop test running, xx indicates the instantaneous pressure read Press ESC to interrupt the test
• 2 GEV Self-tuning ..Complete Test completed successfully
4.3.3 Service\Taring\VS Valve ..3 VS Test ENT = Start
Execute safety valve taring operation Follow the instructions manual for the execution of this manoeuvre Press ENT to start the operation The motor-pump will be controlled and the following message will appear:
3 VS Valve XX bar ESC=Stop test running, if the pressure transducer is installed, xx indicates the instantaneous pressure read Press ESC to end the adjustment
4.3.4 Service\Taring\Safety Valve ..4 SV Test ENT = Start
Execute safety taring operation of the safety valve Follow the instructions manual for the execution of this manoeuvre Press ENT to start the operation The following commands will be performed upon request:
• .1 SV Test ENT = Ascent Send the cab to the uppermost floor
• .1 SV Test ENT = Descent A call to the lowermost floor is performed
• .1 SV Test ESC = Stop Stop the operation
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
4.4 Service\Programming 4.4.1 Service\Programming\Inputs This menu allows the operations to be performed by each individual programmable input to be set up. Each function can be used with activation by either Normally Open (NO) or Normally Closed (NC) contacts. The functions available are listed in Tab. F5.
..1 Input IP1 FUN yy zz
… …
… … .22 Input FT2 FUN yy zz
Select the input desired, then press the ENT key to enter the mode of modification. Select the desired function according to Tab. F5, then press ENT again to confirm the selection, or press ESC to leave the mode of modification without performing any changes.
4.4.2 Service\Programming\Outputs This menu allows the operations to be performed by each individual programmable output to be set up. The functions are in positive logic, output ON with the function is active.
The functions available are listed in Tab. F6.
..1 Output HU1 FOUT xx
… …
… … ..8 Output HAC FOUT xx
Select the output desired, then press the ENT key to enter the mode of modification. Select the desired function according to Tab. F6, then press ENT again to confirm the selection, or press ESC to leave the mode of modification without performing any changes.
4.4.3 Service\Programming\Advanced This menu allows the modification of internal parameter programming in numerical format. The addresses of the parameters and the values to be inserted or modified are indicated case by case by specialized personnel.
Improper use of this programming mode may lead to the improper function of the elevator.
.3 Advanced Rxxx : nnnnn
Use the , keys to select the parameter, press ENT to modify the value, and ENT again to confirm the change.
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
This command reset all the parameters with default values. After this command it is necessary to set the parameters of the menu 2 and 3 with the values according to the characteristics of the lift NB: To perform this command the FA valve must be disabled
This command reset all the parameters with default values except: - lift well parameters - self-tuning GEV valve
After this command it is necessary to set the parameters of the menu 2 and 3 with the values according to the characteristics of the lift NB: To perform this command the FA valve must be disabled
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
D) maintenance Before performing any cleaning or maintenance operations, disconnect the equipment from the electric mains using the general switch. During maintenance operations refer to the safety precautions outlined in Paragraph 2. SEA SYSTEMS S.r.l. declines all responsibility due to the disregard of the instructions listed below and for any alterations, attachments, or connections which do not comply with original supply of the equipment. D.1) Battery Replacement The control panel is equipped with a battery: • 12 V DC 2 Ah.
• 12 V DC 7.5 Ah. The battery has a life of approximately 3 years if always charging. Check it annually and if necessary replace it with one with the same characteristics. D.2) Shaft Sensors The shaft sensors are made up of monostable and/or bistable impulse generators and the relative magnets for performing the commutation. In order to guarantee correct commutation of the impulse generators when they are in front of the relative magnets, it is necessary to periodically check that: - The distance between the impulse generators and the magnets is constantly 1 to 1.5
cm, even during mechanical operations - The movement of the impulse generators occurs on axis with the magnets - The magnets do not have any metal bodies attached - The impulse generator support brackets remain well attached to the roof of the cab
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
D.3) Replacement of the STK3-B Basic Electronic Board
CAUTION The GMV 10 board contains circuits connected to the safety chain exclusively for monitoring information in compliance with the harmonized standard EN 81. Should it be necessary to remove the board and replace it, pay attention to the information listed below in order to avoid compromising the safety of its operation.
1. Prior to performing any operations, make certain that the panel is not powered. 2. Visually check that the board support frame and the board are in suitable condition,
that they do not show any dents that may cause short circuits 3. To attach the board, use only M3 x 8 screws and a suitable Phillips head screwdriver,
avoiding to damage the board 4. Insert all of the screws so that the board is well tightened to the frame 5. Insert all of the connectors from the panel cabling 6. When pealing the wires for the connections, face outwards from the cabinet in order
to avoid that copper wires get projected toward the board 7. Visually verify that there are no foreign bodies on the board, such as detritus, pieces
of electric wire, or conductive material 8. When tightening the screws of the removable terminals, on the bottom side of the
board, use a suitable flat head screwdriver and avoid damaging the board
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INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
E) Solutions to most FREQUENT problems E.1) STK3-B Board in Alarm (ALARM LED on) Should the board be in alarm (the red ALARM LED is on), find the error code using the PT01 programmer (see Breakdown Code Table in Menu PT01 1.Diagnostics).
NOTE If error 9 is displayed (inverted input phases), turn off the panel (QM in OFF position), invert 2 input phases, and then turn the panel back on. If the motor turns the wrong way, invert two output phases from the panel.
E.2) Incorrect Readings by the Shaft Sensors See Paragraph 5.2.
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
4 Service ...................................................................................................................................................................... 61 4.1 Service\Functioning .......................................................................................................................................... 61 4.2 Service\Commands and Test ............................................................................................................................. 61 4.3 Service \ Taring ................................................................................................................................................. 62
F.2) Signals table and STK3-B board terminals LED Terminal Function HZ Enable channel 1, controlled by impulse IS and ID HC1 Control safety circuit status HD3 POWER
Power LED, on and steady for correct power, blinking: power out of range
HD1 COMM
Cab serial communications LED: off: OK, on: connection error
HD2 ALARM
Plant alarm LED, blinking
H0C Occupied LED (can be grouped with the OC output) HC2 X11.1 Presence/sequence phase control HC3 X10.4 Emergency device active HC4 X9.5 KY connection/stick control HC5 X9.6 K∆ connection/stick control HC6 X9.7
X10.3 KM connection/stick control Enable emergency output
HU1 X5.7 Command K8, Door 1 Closure HU2 X5.6 Command K7, Door 1 Opening HU3 X5.3 Command K3, Door 2 Closure HU4 X5.2 Command K2, Door 2 Opening HAC X6 Command K6, VMP valve HU5 X7 Command K10, depends on start-up type: Command KY/K∆, Enable Soft Starter,
Command KE HU6 X8 Command K11, YPT HU7 X9.1-2 Command K1, enable remote alarm system output HAS X4.2 Command K5, Ascent HAD X4.5 Command K4, Descent, VMD HAV X3 Command K9, High Speed, VML (8-7)
Safety Circuit enable (8-6) H1 X1_1
X1_1 XV1_1
Control 1, start safety chain
H2 X2_2 XV1_2
Control 2, Pit stop
H2E X2_2E XV1_2E
Control 2E, Overrun
H5 X2_5 XC1_5
Control 5, Maintenance
H7 X2_7 XV1_7
CONTROL 7, PRELIMINARY DOOR/FLOOR CONTACTS
H8 XC1_8 XV1_8
CONTROL 8, DOOR FLOOR APPROACHING
H10 XV1_10 Control 10, Cab Door/block floor door HIZ XC1_IZ Control floor zone safety circuit status HIS XC2_IS1
XC2_IS2 IS Impulse, channel A encoder
HID XC2_ID1 XC2_ID2
ID Impulse, Channel B encoder
HRS XC2_RS Ascent phase HRD XC2_RD Descent phase HIM XC3_IM Supplemental impulse HOC XV2_OC Busy signal on floors Descent arrow on floors
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
001 1 The car running time between two floors is too long. The time has overcome the value set at the parameter 3.7.3.
002 1 The car re-leveling time is too long. The time has overcome the value 3.7.4 003 1 The temperature of the pump motor winch is too high. Thermal sensor is connected to the
clamps RT1-RT2 004 1 The number of re-levelings has overcome the value set at the parameter 3.7.2 005 1 The main contactor KM is stuck. Input X9.7 active, led HC6 on with lift still 006 1 The contactor KS is stuck. Input X9.6 active, led HC5 on with lift still 007 1 The contactor KT – KE is stuck. (not used) 008 1 The contactor KD is stuck (not used) 009 1 Lack of one phase or wrong phase sequence. Input X11.2 not active, led HC2 off (see the led
HSF of the board AL01) 010 1 Terminal 1 of the Safety Chain is without tension, LED H1 off. The automatic contact is opened,
the 48Vdc fuse is opened 011 4 No tension at Terminal 2 of the Safety Chain, LED H2 off. "Pit Stop" safety contact open 012 1 No tension at Terminal 2E of the Safety Chain, LED H2E off. "Overrun" safety contact open 013 4 No tension at Terminal 7 of the Safety Chain, LED H7 014 4 No tension at Terminal 8 of the Safety Chain, LED H8 015 4 The main contactor KM has not been excited. Input X9.7 not active, led HC6 off at starting 016 4 The up contactor KS has not been excited. Input X9.6 not active, led HC5 off at starting 017 4 The contactor KT / KE has not been excited. The signal of the ‘end of ramp’ of the soft starter
has not been recognized during the starting of the car 018 Not used 019 4 The Safety circuit by-pass is closed when the car is out of the un-locking zone (with firmware
version previous V04) 020 4 The Safety circuit by-pass is open when the car is within the un-locking zone (with firmware
version previous V04) 021 5 No closure of the Door Safety Contacts during the leaving from the landing 01. 022 5 No closure of the Door Safety Contacts during the leaving from the landing 02. 023 5 No closure of the Door Safety Contacts during the leaving from the landing 03. 024 5 No closure of the Door Safety Contacts during the leaving from the landing 04. 025 5 No closure of the Door Safety Contacts during the leaving from the landing 05. 026 5 No closure of the Door Safety Contacts during the leaving from the landing 06. 027 5 No closure of the Door Safety Contacts during the leaving from the landing 07. 028 5 No closure of the Door Safety Contacts during the leaving from the landing 08. 029 5 No closure of the Door Safety Contacts during the leaving from the landing 09. 030 5 No closure of the Door Safety Contacts during the leaving from the landing 10. 031 5 No closure of the Door Safety Contacts during the leaving from the landing 11. 032 5 No closure of the Door Safety Contacts during the leaving from the landing 12.
040 4 The Safety circuit by-pass is closed when the car is out of the un-locking zone (with firmware
version later than S2V04) 041 4 The Safety circuit by-pass is open during the car stopping to the landing (with firmware version
later than S2V04) 042 4 The Safety circuit by-pass is open when the car is still at landing or during the car leaving from
landing (with firmware version later than S2V04)
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
045 5 Opening of the Door Safety Contacts during the passing of the car at landing 01 046 5 Opening of the Door Safety Contacts during the passing of the car at landing 02 047 5 Opening of the Door Safety Contacts during the passing of the car at landing 03 048 5 Opening of the Door Safety Contacts during the passing of the car at landing 04 049 5 Opening of the Door Safety Contacts during the passing of the car at landing 05 050 5 Opening of the Door Safety Contacts during the passing of the car at landing 06 051 5 Opening of the Door Safety Contacts during the passing of the car at landing 07 052 5 Opening of the Door Safety Contacts during the passing of the car at landing 08 053 5 Opening of the Door Safety Contacts during the passing of the car at landing 09 054 5 Opening of the Door Safety Contacts during the passing of the car at landing 10 055 5 Opening of the Door Safety Contacts during the passing of the car at landing 11 056 5 Opening of the Door Safety Contacts during the passing of the car at landing 12
069 5 Opening of the Door Safety Contacts during the re-phasing operation
076 5 The door opening time of the operator 1 is too long. The time has overcome the value set at the
parameter 3.8.5 077 078 5 The door opening time of the operator 1 is too long. The time has overcome the value set at the
parameter 3.8.6 079 2 The contact SED is closed with car at the top floor. Input X9.4 with tension 080 1 The contacts SED and SEB are open with the car at the bottom floor 081 4 The outputs RUN and READY of NGVA3 have been in the same sate for more than 1 s
088 4 An unintendent car movement has occurred. The car is out of the un-locking zone
090 3 The oil temperature is too high. . Thermal sensor is connected to the clamps T01-T02 091 4 The Oil Pressure is too low. It is under the minimum pressure 092 4 The Oil Pressure is too high. It is over the maximum pressure
095 3 General alarm related to the activation of the programmed input with function 28 096 1 General alarm related to the activation of the programmed input with function 48 097 5 No departure
101 5 No recognition of the IS signal during the stopping at the 2° floor in up direction 102 5 No recognition of the IS signal during the stopping at the 3° floor in up direction 103 5 No recognition of the IS signal during the stopping at the 4° floor in up direction 104 5 No recognition of the IS signal during the stopping at the 5° floor in up direction 105 5 No recognition of the IS signal during the stopping at the 6° floor in up direction 106 5 No recognition of the IS signal during the stopping at the 7° floor in up direction 107 5 No recognition of the IS signal during the stopping at the 8° floor in up direction 108 5 No recognition of the IS signal during the stopping at the 9° floor in up direction 109 5 No recognition of the IS signal during the stopping at the 10° floor in up direction 110 5 No recognition of the IS signal during the stopping at the 11° floor in up direction 111 5 No recognition of the IS signal during the stopping at the 12° floor in up direction
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
124 5 No recognition of the ID signal during the stopping at the 1° floor in down direction 125 5 No recognition of the ID signal during the stopping at the 2° floor in down direction 126 5 No recognition of the ID signal during the stopping at the 3° floor in down direction 127 5 No recognition of the ID signal during the stopping at the 4° floor in down direction 128 5 No recognition of the ID signal during the stopping at the 5° floor in down direction 129 5 No recognition of the ID signal during the stopping at the 6° floor in down direction 130 5 No recognition of the ID signal during the stopping at the 7° floor in down direction 131 5 No recognition of the ID signal during the stopping at the 8° floor in down direction 132 5 No recognition of the ID signal during the stopping at the 9° floor in down direction 133 5 No recognition of the ID signal during the stopping at the 10° floor in down direction 134 5 No recognition of the ID signal during the stopping at the 11° floor in down direction
149 5 No recognition of the IS signal during the speed changing at the 2° floor in down direction 150 5 No recognition of the IS signal during the speed changing at the 3° floor in down direction 151 5 No recognition of the IS signal during the speed changing at the 4° floor in down direction 152 5 No recognition of the IS signal during the speed changing at the 5° floor in down direction 153 5 No recognition of the IS signal during the speed changing at the 6° floor in down direction 154 5 No recognition of the IS signal during the speed changing at the 7° floor in down direction 155 5 No recognition of the IS signal during the speed changing at the 8° floor in down direction 156 5 No recognition of the IS signal during the speed changing at the 9° floor in down direction 157 5 No recognition of the IS signal during the speed changing at the 10° floor in down direction 158 5 No recognition of the IS signal during the speed changing at the 11° floor in down direction
173 5 No recognition of the IS signal during the speed changing at the 2° floor in up direction 174 5 No recognition of the IS signal during the speed changing at the 3° floor in up direction 175 5 No recognition of the IS signal during the speed changing at the 4° floor in up direction 176 5 No recognition of the IS signal during the speed changing at the 5° floor in up direction 177 5 No recognition of the IS signal during the speed changing at the 6° floor in up direction 178 5 No recognition of the IS signal during the speed changing at the 7° floor in up direction 179 5 No recognition of the IS signal during the speed changing at the 8° floor in up direction 180 5 No recognition of the IS signal during the speed changing at the 9° floor in up direction 181 5 No recognition of the IS signal during the speed changing at the 10° floor in up direction 182 5 No recognition of the IS signal during the speed changing at the 11° floor in up direction
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
197 5 No recognition of the ID signal during the speed changing at the 2° floor in down direction 198 5 No recognition of the ID signal during the speed changing at the 3° floor in down direction 199 5 No recognition of the ID signal during the speed changing at the 4° floor in down direction 200 5 No recognition of the ID signal during the speed changing at the 5° floor in down direction 201 5 No recognition of the ID signal during the speed changing at the 6° floor in down direction 202 5 No recognition of the ID signal during the speed changing at the 7° floor in down direction 203 5 No recognition of the ID signal during the speed changing at the 8° floor in down direction 204 5 No recognition of the ID signal during the speed changing at the 9° floor in down direction 205 5 No recognition of the ID signal during the speed changing at the 10° floor in down direction 206 5 No recognition of the ID signal during the speed changing at the 11° floor in down direction
221 5 No recognition of the ID signal during the speed changing at the 2° floor in down direction 222 5 No recognition of the ID signal during the speed changing at the 3° floor in down direction 223 5 No recognition of the ID signal during the speed changing at the 4° floor in down direction 224 5 No recognition of the ID signal during the speed changing at the 5° floor in down direction 225 5 No recognition of the ID signal during the speed changing at the 6° floor in down direction 226 5 No recognition of the ID signal during the speed changing at the 7° floor in down direction 227 5 No recognition of the ID signal during the speed changing at the 8° floor in down direction 228 5 No recognition of the ID signal during the speed changing at the 9° floor in down direction 229 5 No recognition of the ID signal during the speed changing at the 10° floor in down direction 230 5 No recognition of the ID signal during the speed changing at the 11° floor in down direction 231 3 The ID signal has switched on before the IS signal in down direction 232 3 The IS signal has switched on before the ID signal in up direction
244 5 The RD signal has opened before the correct sequence 245 3 The RD contact is open during the car leaving from landings except from the lower floor 246 5 The RS signal has opened before the correct sequence 247 3 The RS contact is open during the car leaving from landings except from the top floor 248 3 The RD and RS contacts are open.
250 4 Bus Channel ID1-ID2 open or disconnected 251 4 Bus Channel IS1-IS2 open or disconnected
301 4 The pressure is down at least 1.5 sec. during the running of the car in down direction (with GEV
valve) 302 4 Interruption of proportional valve coil (with GEV valve) 303 4 Short circuit of the proportional valve coil (with GEV valve) 304 4 The self-tuning of the well magnet positions has not been done 305 3 Power +24Vdc is out of admissible range (18…33 V DC).
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring
306 3 The temperature of the control panel is too high. The temperature has overcome the value
set at the parameter 3.7.1 or it is lower than 3 C° 307 4 Oil temperature is out of range for self-tuning 308 4 The speed changing has not occurred at the top floor. The distance to extreme floor < 300
mm in high speed. (with encoder) 309 4 No recognition of the Encoder during the cab moving 310 1 Double safety intervention (with GEV valve) 311 4 No correct count of the Encoder 312 4 The Power supply has lack for less than 200ms
426 5 The number of magnets detected by the SIM sensor is no coherent with the instant count of
the encoder when the cab is at the 1° floor 427 5 The number of magnets detected by the SIM sensor is no coherent with the instant count of
the encoder when the cab is at the 2° floor 428 5 The number of magnets detected by the SIM sensor is no coherent with the instant count of
the encoder when the cab is at the 3° floor 429 5 The number of magnets detected by the SIM sensor is no coherent with the instant count of
the encoder when the cab is at the 4° floor 430 5 The number of magnets detected by the SIM sensor is no coherent with the instant count of
the encoder when the cab is at the 5° floor 431 5 The number of magnets detected by the SIM sensor is no coherent with the instant count of
the encoder when the cab is at the 6° floor 432 5 The number of magnets detected by the SIM sensor is no coherent with the instant count of
the encoder when the cab is at the 7° floor 433 5 The number of magnets detected by the SIM sensor is no coherent with the instant count of
the encoder when the cab is at the 8° floor 434 5 The number of magnets detected by the SIM sensor is no coherent with the instant count of
the encoder when the cab is at the 9° floor 435 5 The number of magnets detected by the SIM sensor is no coherent with the instant count of
the encoder when the cab is at the 10° floor 436 5 The number of magnets detected by the SIM sensor is no coherent with the instant count of
the encoder when the cab is at the 11° floor 437 5 The number of magnets detected by the SIM sensor is no coherent with the instant count of
the encoder when the cab is at the 12° floor
451 5 The SIM signal has not been detected at the 1° floor. The count of the encoder is correct 452 5 The SIM signal has not been detected at the 2° floor. The count of the encoder is correct 453 5 The SIM signal has not been detected at the 3° floor. The count of the encoder is correct 454 5 The SIM signal has not been detected at the 4° floor. The count of the encoder is correct 455 5 The SIM signal has not been detected at the 5° floor. The count of the encoder is correct 456 5 The SIM signal has not been detected at the 6° floor. The count of the encoder is correct 457 5 The SIM signal has not been detected at the 7° floor. The count of the encoder is correct 458 5 The SIM signal has not been detected at the 8° floor. The count of the encoder is correct 459 5 The SIM signal has not been detected at the 9° floor. The count of the encoder is correct 460 5 The SIM signal has not been detected at the 10° floor. The count of the encoder is correct 461 5 The SIM signal has not been detected at the 11° floor. The count of the encoder is correct 462 5 The SIM signal has not been detected at the 12° floor. The count of the encoder is correct
900 3 The bus channel S1-S2 open or disconnect (used for connection with BC01 board)
901
1 Installation operation mode is selected and the electrical connections are for normal operation mode (cab button panel connection detected) (see Par.4.1)
999 1 Parameter memory checksum is fault
SEA SYSTEMS
INSTALLATION AND USE STK3-GMV10 Control panel and Pre-wiring