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Diomedes Control Cabinet, User`s Manual and

1. MACHINE ROOM 8 FLOOR n 7 FLOOR ET 6FLOOR ur 5FLOOR E 4FLOOR 3 FLOOR L3 2FLOOR m C me 1 FLOOR d Figure 5 18 Loom connections down collective automatic doors LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL
2. MACHINE ROOM 9 6FLOOR i F1 H 5FLOOR J LE 1 4 10 ___ i Bie 4 3 FLOOR 22 Il 1 2FLOOR 71 ch we 9 1FLOOR r 1 a Figure 5 19 Loom connections full collective selective bus doors LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL MACHINE ROOM s LE 6FLOOR 5FLOOR 7 ud OD os 9 4FLOOR C 3FLOOR D 2FLOOR ol 1FLOOR PIT
3. 7 3 2 7 Power supply cable for a DC 7 3 2 8 Direct grounding of the motor s metallic cover 7 3 2 9 Maximum permissible length of the motor s cabling inside the control cabinet 7 3 2 10 Encoder s Cabling etr rire rero aea car e aue Ree us 8 3 3 Control Cabinet s Maintenance and Repair 8 3 3 1 a 8 3 3 2 ID 8 3 3 3 8 4 LIFT ELECTRONIC CONTROLLER 9 4 1 Technical Characteristics aa dt ee HY ER Ye epe etn 9 4 2 M 10 4 3 eI cR 16 4 4 COMMUNICATIONS det 20 4 5 Thermo elements erre ener a E tace E e uk 21 4 6 Programmer LCD SCreen Et een aoa 22 LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU mda USER S MANUAL 4 6 1 REUS 32 4 6 2 Jig 41 4 7 Operation Systems adu E ME vn a e LEER a o EE Te dE DAN 43 5 CO
4. PHOENIX CONTROLLER d CALL 16 4 Rg y W CALL 15 a CALL 14 x 9 T 13 d 4 5 1 i 12 9 __ 5 7 B 58 En CALL 11 lt De a a L CALL 10 S8 1 at s aly CALL 9 x st 3 55 E lt 2E Og 5 7 i4 sE s 4 CALL 8 2 sE 98 gt 1 az 28 7 3E DM 9 86 CALL 6 i E 5 lt i CALL 5 E b r amp 6 i CALL 4 I CALL 3 I ale CALL 2 8I CALL 1 424 SCHEMATIC DIAGRAM OF CALL CONNECTIONS GND Ld I CALL 8 88 77 1 1 r T CALL 3 d 5 d x lt e o8 2 5 E dm S n m s T CALL 1 ors 1 ee 81 _ 24V bt GND HOENIX CONTROLLER CALL 1 plor cu PHOENIX CONTROLLER CALL CONNECTIONS SCHEMATIC 1 8 SAME AS THE SCHEMATIC 9 16 Figure 4 2 Call Inputs The table below shows the call inputs and their functionality in regard to the calling system that the electronic controller is programmed to operate LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL
5. 9409 9 SIHSI1 14 5 abed abed ard S1H9I1 unoias 3119 H LIMS noray 1 SLON x ven d9 NOILO3NNOO 1 L3VHS YNOLAY 3TIV NOILVOIQNI 3 S1H9I1 SLHOIT AJN3983N3 v nouina fL 4 4 LAVHS D NOLING SAHIN SLHOIT LAVHS R NOILO3NNOO 1 1 1 HOLV1 3NOHd 5 Et EC Dorz anoo _ c sun pero wes S S 39Vd nan a CEH oq 2L dS ions Figure 5 13 Terminal Block X5 and X13 Connect INNOVATION THAT LIFTS YOU LAMDA ELECTRONICS S A 5 7 wiring USER S MANUAL 5 7 1 Car pre wiring The internal connections as well the signal connections are shown in wiring diagrams 5 14 5 15 5 16 The wiring diagram 5 14 refers to the case of using up to 2 bus doors
6. Y DOOR A CLOS ON FLOOR 0 DOOR A CLOS ON FLOOR 1 DOOR CLOS ON FLOOR 2 DOOR CLOS ON FLOOR 3 DOOR CLOS ON FLOOR 4 DOOR CLOS ON FLOOR 5 DOOR CLOS ON FLOOR 6 DOOR CLOS ON FLOOR 7 DOOR CLOS ON FLOOR 8 DOOR CLOS ON FLOOR 9 DOOR CLOS ON FLOOR 10 DOOR CLOS ON FLOOR 11 DOOR CLOS ON FLOOR 12 CLOS ON FLOOR 13 DOOR CLOS ON FLOOR 14 DOOR CLOS ON FLOOR 15 DOOR TYPE B 0 1 DOOR OPENING TIME B 0 99 sec DOOR CLOSING TIME B LAMDA ELECTRONICS S A USER S MANUAL 4 A Car call or a Landing call is received for the station where the car is stopped We enter the desired number of continuous attempts to close the doors before the controller decides not to try closing the doors for another 5 minutes The counter is activated with obstruction The time that the door closing command stays active after the door has closed The time that the door closing command is delayed right after a stop at a station NO Inactive YES Active Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the sp
7. 5 7 47 T1 77 21 53 55 Nl 40 Two 34 35 U UP COLLECTIVE cccream 43 LAMDA ELECTRONICS S A USER S MANUAL am 47 52 53 V V V F 16 17 47 48 49 50 51 52 53 54 V V V F RESISTOR 47 VALVE Down direction fast speed 47 Down direction slow speed 47 su eeens ul S ere xar aenea usas 47 Up direction fast speed 47 Up direction slow 5 47 Voltage roD eds 33 ES 41 Z ZONE A 48 B 48 INNOVATION THAT LIFTS YOU f USER S MANUAL 8 Pictures Tables Figures Catalogue e 47 Piclure 5 2 Air Filter eio 47 Picture 5 3 Emergency STOP CABIN AT STATION LED Indicator sene 47 c LR S B T 60 Piclure 6 1 Electric Power a dui ve dvd uda pee ap re veg 77 Picture 6 2 ree 78 6 3 5 at 79 Table 2 1 Symbol Interpretation uo esee
8. 2 PENCIL SWITCHES iS aS OVERLOAD 4 C TEMPORARY BLOWER 7 PERMANENT Z N CAR VS CAR LIGHTS LIGHTS Figure 5 14 wiring up to 2 bus doors LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU fN amda USER S MANUAL The wiring diagram 5 15 refers to the case of using up to 2 automatic doors ff TRAVELLING CABLE PHOTOCELL AUTOMATIC DOOR 1 AUTOMATIC DOOR2 AUTOMATIC DOOR CONTACT PENCIL SWITCHES AD OVERLOAD PERMANENT JN CAR CY TEMPORARY Sp BLOWER AS CAR LIGHTS Figure 5 15 Car wiring connection up to 2 automatic doors LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU fN amda USER S MANUAL The wiring diagram 5 16 presents the internal connections of the car top control box xoa uni f RANA 7 EEN evec SPEAKER Figure 5 16 Car top control box internal wiring LAMDA ELECTRONICS S A INNOVATION T
9. CALL APB DCS UCS FCS Input 01 CAR LND 01 CAR 01 CAR 01 CAR 01 Input K02 CAR LND 02 CAR 02 CAR 02 CAR 02 Input CAR LND 03 CAR 03 CAR 03 CAR 03 Input 04 CAR LND 04 CAR 04 CAR 04 CAR 04 Input 5 CAR LND 05 CAR 05 CAR 05 CAR 05 Input KO6 CAR LND 06 CAR 06 CAR 06 CAR 06 Input KO7 CAR LND 07 CAR 07 CAR 07 LND 02 DOWN Input 08 CAR LND 08 CAR 08 CAR 08 LND 03 DOWN Input 09 CAR LND 09 LND 01 UP LND 01 UP LND 04 DOWN Input K10 CAR LND 10 LND 02 DOWN LND 02 UP LND 05 DOWN Input K11 CAR LND 11 LND 03 DOWN LND 03 UP LND 06 DOWN Input K12 CAR LND 12 LND 04 DOWN LND 04 UP LND 01 UP Input K13 CAR LND 13 LND 05 DOWN LND 05 UP LND 02 UP Input K14 CAR LND 14 LND 06 DOWN LND 06 UP LND 03 UP Input K15 CAR LND 15 LND 07 DOWN LND 07 UP LND 04 UP Input K16 CAR LND 16 LND 08 DOWN LND 08 DOWN UP LND 05 UP The rest of the inputs are activated with voltage of 48VDC and are grounded also per octade Table 4 2 Table of Calls groups of eight in detachable modules see Figure 4 3 4 4 and 4 5 LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU fN amda USER S MANUAL PHOENIX CONTROLLER 69 NORMAL RUN 70 MAINTENANCE UP a 71 MAINTENANCE DOWN B 50 ELEMENT CHECK 88 B H zB H 28 H 8 111605 51 5 aa 8
10. 6 Table 4 1 Technical Characteristics esses ENEE 9 Table 4 2 Table of Calls deat dva ar A e HERR one eee 12 Table 5 1 X1 Terminal Block Description esee ennt tnihi theatre etna 49 Table 5 2 X2 Terminal Block 49 Table 5 3 Terminal Block Description 49 Table 5 4 X4 Terminal Block 50 Table 5 5 X5 Terminal Block Description enenatis 50 Table 5 6 X6 Terminal Block Description nn nuna 51 Table 5 7 X7 Terminal Block Description u 51 Table 5 8 X8 Terminal Block Description 52 Table 5 9 X13 Terminal Block Description eese sesenta 52 Tabie 5 10 Color Coding eL Eee 52 Table 5 11 Component Naming RE Tt op 54 Table 5 12 LOOM description esie tn ia S Ranae ko AERA KAANAA ihid nata natn theses 76 4 1 Power supply connections pt EOE EANO 10 FIQUIC SOCIETE 11 Figure 4 3 Inputs of
11. 45 46 77 78 79 80 Lock contact 33 LOOM 47 5 Menu 24 27 28 29 30 38 76 Modular 11 13 MOTOR 41 47 34 35 16 47 53 Overheating 41 41 PO aes ce 21 Photocell 34 35 Power Drill 44 Power supply 7 8 10 76 PRE LIMIT 48 lioc 3 48 WINING 68 Programmer 22 23 28 29 30 32 38 R Relevelling 32 40 41 52 34 35 31 38 76 23 32 33 76 78 79 ROM 28 a 20 20 INNOVATION THAT LIFTS YOU 5 ia ale dad ie 44 Semiautomatic 34 35 Shaft WANG 47 7 8 SIMPLE rie rie er 42 Single signal with permanent closing command O 34 35 Single signal with permanent opening command n 34 35 T Terminal blocks
12. Figure 5 20 Loom connections full collective selective automatic doors LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL The following table shows the description of each loom s cable TERMINAL CROSS SECTION 2 CABLE DESCRIPTION aau 5 7 1241220 075 WHE Call2 Callbwn2 4BU 075 5WHTE Call 5 Call up 3 75 Call 6 8 Call Down 4 unau 075mm Call 7 Call up 4 i850 075mm 00 amp WHHTE Call 8 Call Down 5 DU 075mm 9wHtE Calup5 105 0 75 mm 11 WHITE Arrow Down 106 075mm 12 Armowup 58 075mm WHITE Overoadsgnal MR 075mm azLWHTE s4NDC 24 075mm ad amp WHTE 24 075m NDC SLO 0 75 mm 20 WHITE Up final switch start 511 0 75 mm 21 WHITE Up final switch return Down final switch start SL2 0 75 mm 22 WHITE Down final switch return SL3 0 75 mm 23 WHITE Shaft stop start 514 0 75 mm 24 WHITE Shaft stop return 515 0 75 25 Manual doors start Short circuit in case of automatic doors 516 0 75 26 Manual doors return Short circuit in case of automatic doors Table 5 12 Loom description LAMDA ELECTRONICS S A INNOV
13. T 1 1 i UE 1 1 UE Ea VR2 2 1 1 1 n 1 1 1 ae C RLy 3 m 1 b G VR3 Hs d 1 1 1 1 1 2 1 T loa riya 1 4 a um i 1 1 1 1 1 1 1 d L i 1 1 1 ae 1 RLY 5 1 1 4 5 VR5 Z LD5 1 1 1 1 1 1 1 1 1 1 1 B 5 1 1 I I 171 VRE T T I NEN 1 1 ES 1 1 1 1 1 1 I 1 1 1 i I 1 art 017 T H t 1 1 e i did 1 1 1 1 1 1 174 I VRE ew 1 L I I 1 1 1 12V PHOENIX CONTROLLER POWER RELAY SECTION Figure 4 7 Internal Connections of Inverter V V V F type elevator Power Relays LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU fN amda USER S MANUAL BU VRI 2 3S 150 VR2 D lt lt Zoos m 20 gt 1236 22 s lt e aD 5 4 IES VR5 x 306 82 gom VR6 BY 56 X zc 2 89 3 80 VR7 lt gt BG 80 86 OWA 052 IN S 6 ATH OL L ATH H3MOd RLY 1 RLY
14. E OA 1 i VR37_ 120 COMMON FOR 121 124 5 NOTE ALTERNATIVE USE OF I 52 1 121 PROGRAMMABLE OUTPT 2 OUTPUTS 101 192 OUTPUT CLOSE DOOR Due mw OUTPUT OPEN DOOR I lt 1 122 OVERLOAD INDICATOR OUTPUT OPEN DOOR ANNOUNCEMENT I OUTPUT CLOSE DOOR ANNOUNCEMENT one 8 o T 123 NEXT MOTION UP ARROW B 1 tor Ria Lia Lut Ve 124 NEXT MOTION DOWN ARROW 54 3 vs te 1 1 i f 107 LANDING ARRIVAL GONG Lost won 1 i RE 1 1 1016 1 gt T 5 106 UP ARROW 28 1 1 5 i aL 8 5 8 105 DOWN ARROW x 3 m um 2 T Riva L Z 4 x i M 98 1 t ud 104 BCD D OR PROGRAMMABLE OUTPUT 3 z 1 5 i Ll 8 lt 1 gt 103 BCD C OR DECIMAL 3 x x trara I g 2 I 8 2 gt 102 BCDB OR DECIMAL 2 t 2 1 e 1 Los lt I 1 5 E I gt 1 101 BCD AOR DECIMAL 1 c 3 cmt Vrat 1 100 COMMON FOR 101 107 tat 3 1 __ PHOENIX CONTROLLER SIGNAL RELAY SECTION 1 SCHEMATIC DIAGRAM FOR SIGNAL RELAY OUTPUTS Figure 4 6 Signal Relay Outputs Power outputs are dry contacts which drive the whole of the motion
15. BR 1 ZX s fN H 7 n WY K5 202 12 87 201NC 80 200 ovac 82 z s 5 5 210 INPUT424 VDO 020 z 211 INPUT 24VDC S b R i S2 220 221 SM 55 aa gt gt a VDC PCB 1 1024 312 VDC PCB 1 8 202 12 97 1 5 ruz 1 1029 5 VDC PCB 201 NC FILTER gt 1 1 U du 200 1 I L MAX 4A LD 210 INPUT 24 VDC PI 24 VDC PCB 211 INPUT 24 VDC 24VDC 220 221 PHOENIX CONTROLLER POWER SUPPLY SECTION l l 24 VDC OUT 24 VDC OUT SCHEMATIC DIAGRAM FOR POWER SUPPLY Figure 4 1 Power supply connections 4 2 Inputs The inputs of the controller depending on the type of incoming signals are designated into two groups e Call inputs and e Inputs of control cabinet peripherals LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU fN amda USER S MANUAL Call inputs are activated via the grounding of the 24VDC and are grouped per octad groups of eight in detachable modules This modular design offers the advantage of immediate resolve of any problem by replacing them see figure 4 2
16. _ k sss RN 2 2 4 2 2 LE 7 f A bad ME aa as IE Iu EN 1 Reaches the top and bottom stations S SPECIAL FUNCTIONS GROUP OPERATION 0 SIMPLEX 0 1 1 Group Operation FW nom ID ELEVATOR ADDRESS 7 DUPLEX TIMER Ed time of call execution in group operation If an elevator does not SEC execute a call within time then a different elevator picks up the calls FW 0 99 sec LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL 83 GSM ERROR TRANSMISSION VIA GSM FW 54 SERIAL VOICE ANNOUNCER 0 Deactivation of serial announcer 1 Activation of serial announcer 85 MODULE FW 56 TELEMETRY FW V EVENT RETRIEVE The event retrieve menu option recalls from memory the most recent events It can recall up to 16 events E ERROR RETRIEVE The error retrieve menu option recalls from memory the most recent errors It can recall up to 91 errors EEPROM READ Reads the stored parameters held in the EEPROM of the programmer EEPROM WRITE Stores the parameters on the EEPROM of the programmer SAVE TO CONTRLR Stores the parameter settings on the main board of the controller It is necessary to be performed every time changes of the paramete
17. m R In this screen the GEN PARAMETERS option is flashing and if it is selected pushing the ENTER button we will see on the screen the first group of parameters of the GEN PARAMETERS to be in a state of change correction mode I PING 1 se eee eee eee eee G1 ELEVATOR MODEL 1 4 3 LEFT RIGHT ENTER Pep ey l The parameter can be changed with the buttons UP increase and DOWN decrease The values that can be accepted are from 1 to 4 as it is shown in the picture above and is described in the paragraph 4 6 1 parameter G1 If we wish to change this parameter in a hydraulic elevator we have to push the down button DOWN twice The value that flashes will change to 2 and then to 1 As long as we are sure about the value by checking it with the user s manual we press ENTER Then we press ESC to return at the starting menu GEN PARAMETERS TIMERS E It is recommended that after any parameter change we reinsure its change by re entering in the parameter section and by checking if that changed value is flashing As long as we are sure about the value of the parameter we press the button RIGHT and we go to the EEPROM WRITE SAVE TO CONTRLR screen and we select the SAVE TO CONTRLR option LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL EEPROM WRITE SAVE TO CONTRLR m d B
18. 3 2 8 Direct grounding of the motor s metallic cover The motor s metallic cover should be grounded through the control cabinet s grounding 3 2 9 Maximum permissible length of the motor s cabling inside the control cabinet The maximum permissible length from the control cabinets terminal where the grounding is plugged in is 30cm LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU f USER S MANUAL 3 2 10 Encoder s Cabling Encoder s cabling should be shielded and 360 grounded on the control cabinet The cable terminal which is connected to the inverter is already shielded and grounded therefore it needs no further protection In order to check out that the shielding is not connected on the motor s side the encoder s connection is deducted from the inverter and it is confirmed by measuring the presence of high impedance between the shielding and the encoder s or motor s metallic housing 3 3 Control Cabinet s Maintenance and Repair 3 3 1 Care The control cabinets should be installed following the installation guides and regulations They don t need any particular maintenance It is forbidden to wipe them with a wet cloth The power supply should always be switched off before you proceed to the maintenance repair or cleaning procedure 3 3 2 Service All junction screws on the control cabinet should be re screwed two weeks after the initial delivery The same procedure should be repeated every year If any
19. Always the active choice will be the flashing one If we select YES and then press ENTER momentarily the screen will display this message CONTROL PANEL REVISION LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU mda USER S MANUAL CONTROL PANEL REVISION ESC o LEF m 3IGHT ENTER o 6 During this function the parameters been loading from the motherboard and we option to change all the parameters After this screen we enter the main menu with the buttons LEFT or RIGHT and we will go to E ERROR RETRIEVE V EVENT RETRIEVE E ERROR RETRIEVE V EVENT RETRIEVE mn The default selection here is the ERROR RETRIEVE and if we press the ENTER button we will go to the first error display screen LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL gt se eee eee eee ER CAR CONTACTS FL 01 1 02 LEF 0 Sor we see the last error Its description is located first line At the second line we can see the floor that the error occurred FL 01 the ascending number of the error I 02 and finally the frequency that this error has occurred 001 With the buttons UP and DOWN we can move to the list of the errors If we reach at the end of the list a message will be displayed END LIST or START LIST If we wish to exit from the error retri
20. G14 G15 G16 G17 G18 G19 G20 MARGINAL FL SPEED 0 4 OPERATION SYSTEM 4 7 NUMBER 5 0 9 NUMBER OF STATIONS 2 16 RELEVELLING 0 1 CALL OPERATION 0 1 BACKLIGHT 0 50 POS INDICATOR TYPE 0 2 DIRECTION ARROWS 0 5 GONG TYPE 0 5 FIRE ALARM 0 1 FIRE ALARM STATION 0 15 OUTPUT FROM FIRE ALARM 0 1 PARKING STATION 0 15 SPECIAL PARK STATION 0 15 INVERTER TYPE 0 2 LOW CONSUMPTION Y N LAMDA ELECTRONICS S A USER S MANUAL It is the minimum distance between floors over which maximum speed is used Only for elevators with Inverter and 3 speeds Normal Function FW Motion to the upper most floor with mid speed FW Motion to the lower most floor with mid speed FW Motion to the upper most and lower most floors with mid speed FW SIMPLE SIMPLE CALLS Collective down Collects in down dir Selective Up Dwn 1 Button per floor FW Selective Up Dwn 2 Button per floor Collective Up 1 Button per floor Mixed Up Up Dwn Dwn FW We enter the number of basements of the building 5 1 5 FULL SELECTIVE 28 2 8DWN COLLECTIVE 3 8 COLLECTIVE 1B 4 16 SIMPLE CALLS 5 CALLS FW Relevelling Deactivation 0 Relevelling Activation 1 Required for pre open door system also 0 The activated call buttons are f
21. PHOENIX CONTROLLER 19 29 29 9 99 99 19 89 Y lt 89 K3 gt 49 D 99 99 v9 9 29 19 SCHEMATIC DIAGRAM FOR 48 VDC INPUTS FROM PANEL PHOENIX CONTROLLER 61 68 Figure 4 5 Inputs of the left side of the Controller B LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU gt f N USER S MANUAL 4 3 Outputs The outputs of the controller are of two types e Signal Outputs Power Outputs Signal outputs are dry contact relays which drive indicators and devices outside the control panel Generally there is the ability to drive low current devices See Fig 4 6 PHOENIX CONTROLLER ze RY40 C Via 2 lt 8 nas C VR u O ves RY4s C 5 zl Spee ey ee wre 1 E I o Cos 1 4 i 130 COMMON FOR 131 132 x3 uve 5 1 VR32 e T I 5 avas 2 o 19 PROGRAMIABLE OUTPUT 1A ves rote s 5 ave 8 o i 180 PROGRAMMABLE OUTPUT 18 i Load L 1 VR36
22. m 2 NOTE 2 THE MODULE ON THE SIL TERMINAL 1 IS USED ONLY IN THE CASE OF 5 EXTERNAL ANALOG SENSOR CONNECTION THE TERMINAL 98 55 BLOCK 254 255 IN THIS CASE THE MANUFACTURER MUST CALIBRATE THE MODULE IN ORDER TO CONNECT THE EXTERNAL SENSOR ON THE TERMINAL BLOCK 254 256 THE FACTOR DEFAULT SENSOR IS THERMISTOR 530083 5 oH e SCHEMATIC DIAGRAM FOR TEMPERATURE CONTROL Figure 4 11 PTC Thermistor Inputs Internal Connections LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU 4 6 Programmer LCD Screen The controller comes with a programmer and an LCD screen used for the change and or the correction of the parameters as well as for the presentation of the operational state and the error history USER S MANUAL sete eee d A a PROGRAMME FIE PF JE Figure 4 12 Programmer LCD Screen As you start the operation of the board the screen which will be programmed should display this message SLAVE FUNCTION LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL oe mn RGA oa 5 Laue re oB le oB 8 llo O In normal operation the screen presents the current operation state of the elevator In order to activate the Revision Process from th
23. anda DIOMEDES V2 0 LIFT ELECTRONIC CONTROL CABINET USER S MANUAL amp INSTALLATION GUIDE LAMDA ELECTRONICS S A mda USER S MANUAL Copyright 2011 Lamda Electronics All Rights Reserved This document may not be reproduced electronically or mechanically in whole or in part without written permission from Lamda Electronics Warning and Disclaimer Although every effort has been made to make this document as complete and accurate as possible Lamda Electronics and the document authors publishers distributors and representatives have neither liability nor responsibility for any loss or damage arising from information contained in this document or from informational errors or omissions Information contained in this document shall not be deemed to constitute a commitment to provide service equipment or software by Lamda Electronics or the document authors publishers distributors or representatives Limited Warranty Lamda Electronics manufacturer warrants its products for a period of 15 months from the date of shipment from its factory to be free from defects in workmanship and materials Any defect appearing more than 15 months from the date of shipment from the factory shall be deemed to be due to ordinary wear and tear Manufacturer however assumes no risk or liability for results of the use of the products purchased from it including but without limiting the generality of the forgoing 1 The use in co
24. automatic doors a 73 Figure 5 19 Loom connections full collective selective bus doors seen 74 Figure 5 20 Loom connections full collective selective automatic 5 75 LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU 9 Revision history USER S MANUAL The revision dates and content of the revised manual appear on the following table Date of publication Revision number Revised content October 2010 1 First edition May 2011 2 Pre wiring LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU electronics 4 Riga Fereou Str XANTHI GREECE TEL FAX 3025410 78852 www ElevatorElectronics com E mail info lamdaelectronics com
25. 3000 3000 340 38012 0 NONNO wood El Aidans 4000 a EMEN nvsin3N Alddns v v NOLLO3dSNI N 4 dn 4 AT A8 IILYWOLNY NOLLOAdSNI SNILYN3dO HOLIMS MXN LIWI1 HOLIMS v 49 318 1518 LWIT lt wavisia v 11 5 NOD NMOG NOLLVIS df 5 dn novas v 49 NOILVIS 49 an NOLIVIS 9 v 83NOZ 49 t L doL v V 3NOZ SIL3NSVN 68 2 Figure 5 6 Terminal Block X3 6 Connections INNOVATION THAT LIFTS YOU While performing the revision process we could install the floor selector The correct positioning of the magnets is shown in the figure below LAMDA ELECTRONICS S A f amda USER S MANUAL HYDRAULIC LIFT CASE USING RECTANGULAR BISTABLE PU PD ZA MAGNETIC SWITCH N O FOR ZONE A ZB MAGNETIC SWITCH FOR ZONE SU MAGNETIC SWITCH FOR ST
26. LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU __ 9 1 MANUAL LANDING DOOR CONTACT sur sur S ses sS GND GD GND GROUND gt gt LOCKS Table 5 8 X8 Terminal Block Description TERMINAL BLOCK 2 SPEED HYDRAULIC DESCRIPTION wa SHAFT LIGHTS 220VAC NSL SHAFT LIGHTS NEUTRAL SLB SLB SLB SHAFT LIGHTS LATCH RELAY BUTTON SLB SLB SLB SHAFT LIGHTS LATCH RELAY BUTTON Table 5 9 X13 Terminal Block Description 5 4 Cable Color Coding The coding of the cables has been done according to the I E C International Electrotechnical Commission directive and is shown in the table below COLOR SYMBOL VOLTAGE OPERATION RED RD 220 VAC 48 VDC 38 PHASE R SAFETY VAC CIRCUIT 48VDC BN 2 HPHASEES BLACK BK 22VAC PHASET BLUE BU NEUTRL PNK FK 41VvDC 12 VDC BATTERY ae 12 VDC 24 VDC 48 VDC 110 VDC YELLOW YE av CAR CALLS PURPLE VT 110 VDC ZHMATA V V V F SIGNALS V V V F WHITE WH 12VACN 20VACN 38 VACN ORANGE OG 20VAC 24 VDC POWER SUPPLY 20VAC 24 VDC GREEN GN 24 VDC FLOOR CALLS YELLOW GREEN GNYE GROUND GROUND Table 5 10 Color Coding LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL USER S MANUAL 5 5 Component naming legend The naming of the components has
27. 1 1 1 1 To 1 N l T T 1 1 I 1 1 1 E E 1 1 1 8 I 1 1 1 I I 1 1 I 1 1 1 U s I 1 1 i I 1 8 1 1 I 1 I NN LY 1 4 9 1 49 l 1 I 1 1 1 I 1 I 1 8 1 1 1 1 t 1 1 1 EN T 1 5 1 I 1 1 1 1 1 1 1 PHOENIX CONTROLLER POWER RELAY SECTION 1 Figure 4 8 Internal Connections of Two Speed type elevator Power Relays LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU fN amda USER S MANUAL 405 COMMON DIRECTION 406 DOWN SIGNAL Rdown PHOENIX CONTROLLER RLY 1 Out 82 VR1 u 2 1 E VR2 27 B z lt gt 7 22 E RLY 3 uos t I gt 0 2 26 RLY 4 m d I ae ainn 0 zm 4 PE Ve 2 420 LIGHT EN RLY 5 1 ig 202 RLY 1 S s lt X i z 85 419 COMMON LIGHT Lo 1 5 82 RLY 6 m i 5 86 gt u 802 418 OUTPUT CLOSE DOOR A RLY 7 lt 8 417 COMMON CLOSEDOORA i gt 45 RLY 8 mm 82 ro 89
28. This way the parameters are being transferred in the ROM memory As soon as the saving finishes the screen returns to the first group of parameters G GEN PARAMETERS T TIMERS With a press of ESC the exit screen is being displayed D PRG 1 EXIT NO YES We can select the YES option by pressing the DOWN button Now YES is flashing and by pressing ENTER the programmer will exit from the programming menu and the starting message will be displayed SLAVE FUNCTION LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU mda USER S MANUAL LEII RGI mn ENIER e o n o n o 10 oB 6 8 Now we the elevator with the new updated parameters The pair of 7 segment displays on the Phoenix board will display St as the internal controls are in progress Then we can see 00 and the first restart begins If the setting of the parameters has successfully ended it is recommended to save them at the removable memory DIP EEPROM of the programmer The procedure is rather simple we enter the main menu and we are moving with the LEFT or RIGHT buttons on our screen to the option EEPROM WRITE SAVE TO CONTRLR EEPROM WRITE SAVE TO CONTRLR m ENTER i T 88 In this screen the active option is the interests us so with press of the ENTER button all the parameters will be saved in the DIP EEPROM of
29. USER S MANUAL 1 TABLE OF CONTENTS 1 TABLE CONTENTS Gere ter rider d shea dete aetna 3 2 SAFETY PRECAUTIONS icit et tete i t e aive qoe 5 2 1 Information on Safety restet VR 5 2 2 Personnel s Safety Precautions u uuu unu oix 5 2 3 Product s Safety Precautions 5 2 4 5 e 6 3 PREPARATION nee EUH mU 6 3 1 Reading the Manual te ditte ees 6 3 2 Hardware Usage 6 3 2 1 Boxes and Cabinets aan innen nsns en nennen neas 6 3 2 2 Control Cabinet s Grounding Terminal Blocks 6 3 2 3 Minimum distance between power cabling and signal 7 3 2 4 Shielding of an AC motor Power Supply 7 3 2 5 The grounding of a shielded power supply cable AC motor 7 3 2 6 Omit direct grounding of the shielding
30. control cabinet is stored for more than two years the capacitors might have been discharged It is recommended that the capacitors of these devices should be recharged for two hours while the control cabinet is under power supply and in a standby mode After the above actions the control cabinet is ready to be installed without any problem 3 3 3 Repairs All electronic boards should be repaired by specialized personnel that are certified by the manufacturer You should never repair anything by yourself When you order spare parts indicate not only the electronic board s type but also the serial number of your control cabinet LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU gt f amda 4 LiFT ELECTRONIC CONTROLLER Phoenix 4 1 Technical Characteristics USER S MANUAL The electronic controller s dimensions are 29 5X15 7cm The electronic controller has holes on the board in order to be mounted Use 8 metallic separators M3 in order to mount the electronic controller CON20POLE F MODULE 0 8 PROGRAMMER D PRG X N LATCH 8 INPUTS INPUT MODUL NON LATCH 0 8 3 INPUTS INPUT MODULE 0580 NON LATCH 8 INPUTS INPUT MODULE 0 8 NON LATCH 8 INPUTS INPUT MODULE 0 84 LATCH 8 INPUTS INPUT MODULE 0 84 8INPUTS 16 POLE F 16 POLE F TEMP MODULE MD AT X CON 8 POLE F g
31. the programmer By doing this all the range of the parameters will be saved If for any reason we want to return to the previous set of saved parameters we will have to go to the main menu and select the X SUPERVISOR EEPROM READ option The EEPROM READ option will transfer the parameters from the DIP EEPROM to the menu of the programmer Next we should check the parameters one by one if they are the appropriate for the elevator to function properly If we are sure for the proper functionality of the elevator we have to download the parameters in the Phoenix board with the option SAVE TO CONTRLR LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU mda 4 USER S MANUAL P The PHOENIX board has the ability to record the errors that occurred and display them on the screen Moreover it can record and display all the latest functions SLAVE FUNCTION 1454 mn ENIEK a Q er ei Q If we want the main menu to be displayed on the screen we have to press the buttons PRG and ENTER the same time and the option to enter the MENU screen or not is being given T MENU NO YES RIGHT ENTER First of all we can see the NO option flashing ot the screen which is the factory setting and if we press now the ENTER button we will return to the default state of the programmer using the buttons UP and DOWN we can change the selection between YES and
32. the right side of the Controller sss 13 Figure 4 4 Inputs of the left side of the Controller A u 14 Figure 4 5 Inputs of the left side of the Controller 15 Figure 4 6 Signal Relay Oultp ls err tr dte get Red po rad pem i E EER 16 Figure 4 7 Internal Connections of Inverter V V V F type elevator Power Relays 17 Figure 4 8 Internal Connections of Two Speed type elevator Power 18 Figure 4 9 Internal Connections of Hydraulic type elevator 19 Figure 4 10 Connections of serial ports 9 485 89 232 20 Figure 4 11 Thermistor Inputs Internal Connections tnnt nnns 21 Figure 4 12 Programmer LGD 5 iA RES IDE Y 22 Figure 5 1 Casing Dimensions iiec deoa e Rea E 47 Figure 5 2 Terminal Block X1 Connections V V V F Lift Control 8 55 Figure 5 3 Terminal Block X1 Connections for Hydraulic Lift Control Cabinet 57 Figure 5 4 Terminal Block X1 Con
33. valves Follow the directions of either figure 5 3 or figure 5 4 for the connection of the valves At terminals H1 and H2 connect the oil thermistor If the motor is of a traction 2 Speed lift then make connections as shown in figure 5 5 At terminals U1 V1 W1 of Terminal Block X1 we connect the respective U1 V1 W1 terminals of the motor while at terminals 02 V2 W2 of Terminal Block X1 we connect the respective U2 V2 W2 terminals of the motor The motor thermistor is connected at terminals O1 and O2 At terminals and B you connect the motor s brake LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU VS abed abed SNOILVOIIdd A9010NH931 EN HOLOMW V1 13d NOLLO3NNOO 5 3MOd pefoud USER S MANUAL 333 HL 1 4 1 1 5 dn X isv4 X MOTS Sdn INWA INWA 1 4 1ndino NOSN3S 1 SIHIN 804 MOISIS3N 10 24 9 1 39Vd Figure 5 3 Terminal Block X1 Connections for Hydraulic Lift Control Cabinet amda 4 INNOVATION THAT LIFTS YOU LAMDA ELECTRO
34. 2 RLY 3 RLY 4 RLY 5 RLY 6 RLY 7 RLY 8 RLY 9 102 ELECTRIC TWO SPEED Ous B 105 106 LD7 LD8 09 420 LIGHT 419 COMMON LIGHT 418 OUTPUT CLOSE DOOR A 417 COMMON CLOSE DOOR A 416 OUTPUT OPEN DOOR A 415 COMMON OPEN DOOR A 414 SLOWIFAST 413 COMMON R4 412 SAFETY SIGNAL R4 NC 411 R3 NO 410 COMMON R3 409 SAFETY SIGNAL R3 NC 408 R2 407 COMMON R2 406 DOWN SIGNAL Rdown 405 COMMON DIRECTION 404 UP SIGNAL Rup 403 SIGNAL UP OR DOWN 402 R1 401 COMMON Rt SCHEMATIC DIAGRAM FOR POWER RELAYS 7 8 1 I T3 1 VRI Z k 1 1 1 1 1 1 1 1 I 1 I I 1 1 1 1 4 W e 1 1 1 I 1 1 1 1 MES I 1 1 I R3 11 1 LoT di i 1 1 1 l l I 1 MEC 5 T 1 1 1 1 1 I 1 1 I 1 1 1 1 i 35 I x 1 I I Td 1 VRS Ais gt f 1 1 1 1 1 1 I 1 1 I 1 SS 1 1 1 1 S
35. 3 PREPARATION 3 1 Reading the Manual The current User s Manual is for use only by technical personnel specialized in the Lift market The thorough knowledge of the Lift Installation is mandatory as well as the good knowledge of electrical installations This manual also covers extensively the use of the PHOENIX electronic board controller as a separate as well as the Lift Electronic Control Cabinet DIOMEDES 3 2 Hardware usage 3 2 1 Boxes and Cabinets All metallic boxes and cabinets which are installed doors included should be grounded directly to the grounding installation If the boxes and the cabinets are painted the paint should be removed at the connection points as well as at the points where they will be hanged on the wall AN Anodized aluminum is not a good conductor 3 2 2 Control Cabinet s Grounding Terminal Blocks LAMDA ELECTRONICS lift control cabinets have a grounding bar metallic terminal block with screws which should be connected with the grounding installation LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU mda 4 USER S MANUAL 3 2 3 Minimum distance between power cabling and signal cabling The minimum distance between the parallel signal cabling and the power cabling is 30cm Cabling cross sections should take place a 90 angle 3 2 4 Shielding of an AC motor Power Supply The power supply of an AC motor should be set up with the use of a shielded four pole cable th
36. 416 OUTPUT OPEN DOOR A to e RLY 9 I ue RLy 3 1 VR3 Fus E 415 COMMON OPEN DOOR A I 44 SIGNAL NO y HYDRAULIC LIFT RET 413 COMMON DELTA m 42 SIGNAL NC L S 1 OR SNL 5 En VRS 410 COMONSTAR ji 1 2 1 oi m 409 SIGNAL lt gt gt 5 L Bg 408 MOTOR START I lt x RIY gt D e 4 8 VRE 18 407 COMMON 1 E o 404 UP SIGNAL Rup 403 SIGNAL UP OR DOWN 402 FAST SPEED 401 COMMON FAST SPEED SCHEMATIC DIAGRAM FOR POWER RELAYS 1 1 1 l 1 1 a l RLY 7 e cto I E RLY 8 1 9 i 1 I 1 N 1 E 1 VR8 o 1 1 I 1 L Figure 4 9 Internal Connections of Hydraulic type elevator Relays LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU fN amda 4 4 Communications The Controller can communicate with external devices through serial ports RS 485 and RS 232 Figure 4 10 The RS 485 serial port provides the ability to connect the controller with external devices up to 1800m distance Examples of such devices are the Voice Announcer the Car module etc Furthermore computers can be connected to the controller th
37. 885 1 52 BRAKE 8 8 88 53 CAR OVERLOAD H B 36 54 90 FULL LOAD 88 B 88 YB n HH H 888 8 208 L 55 60 HALF LOAD z Ba B 58 QB 9 SB L 56 MAINS PPR B B 28 208 L 57 REOPEN 9 88 B 38 58 CLOSE DOOR 88 H 88 28 2 59 DOOR DETECTOR 88 8 18 99 _ ji 598 99 OBSTRUCTION 858 AS 75 98 PROGRAMMABLE INPUT 1 97 PROGRAMMABLE INPUT 2 SCHEMATIC DIAGRAM FOR 48 VDC INPUTS FROM PANEL 69 NORMAL RUN OF S u 1 2 3 xo Rx 2 69 gt T 1 x 08 1 ae 2 8 99 OBSTRACTION A u 98 5 98 PROGRAMMABLE INPUT 1 gt 4 4 Rx 9 1 a 97 PROGRAMMABLE INPUT 2 1 1 SCHEMATIC DIAGRAM FOR 48VDC INPUTS FROM PANEL Figure 4 3 Inputs of the right side of the Controller LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL The modular designing offers the advantage of the fast problem solving by easily substituting the faulty modules on site PHOENIX CONTROLLER 2 IL gt E 38 SC DOOR LOCKS 2 8 84 88 lt 2 37 SC CAR DOOR sN asa a gt 36 SC LANDING DOOR 18 67 8 8 8 35 SC CAR ELEMENTS 8 v 34 SC WELL ELEMENTS A ay P B HB 2 33 SC E
38. 8in Slotted n 5 5 x 100 0 2165 x 3 937 Phillips PH1 PH3 depending on the wattage of the lift motor Power Drill Power drill with a 10 mm drill 0 3937 Clamp LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU 5 2 Control Cabinet casing The casing dimensions can be seen in figure 5 1 As it appears in the figure we have accounted space for a Fan picture 5 1 and an air filter picture 5 2 The Fan works along with the cabin lights and is necessary for the reduction of the heat produced inside the control cabinet The air filter is used to block dust from entering the casing On the front of the case one can notice a STOP button as well as a CABIN AT STATION LED Indicator picture 5 3 All control cabinets are equipped with a fluorescent bulb light with local switch USER S MANUAL 4 30 LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU Grande electronics USER S MANUAL Figure 5 1 Casing Dimensions Picture 5 1 Fan 24244444444 4644461 Picture 5 2 Air Filter Picture 5 3 Emergency STOP CABIN AT STATION LED Indicator LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU 5 3 Control Cabinet s Terminal Blocks USER S MANUAL The terminal blocks of the control cabinet are being described in the following tables Each terminal block has its own label starting with the letter X and each of its outputs has its own label depend
39. ARK station changes 5 Reserved 6 Reserved 7 Reserved 9 Shooting Bolts 1 Reserved 2 Reserved 3 Reserved 4 Reserved 5 Reserved 6 Reserved 7 Lock Lift 8 Reserved 0 9 14 FUNCTIONS PRO 2 0 8 115 FUNCTIONS PRO_INP 3 0 Reserved 0 7 1 2 3 Reserved 4 Reserved 5 Reserved 6 Reserved 7 ZONE B 116 INPUT FOR FIRE NC NO Open Contact 48Vdc trigger Y Y NC Closed Contact 0Vdc trigger 68 17 EXPRESS INP NC NO Open Contact 48Vdc trigger Y NC Closed Contact 0Vdc trigger LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU Grande USER S MANUAL 118 FUNCTIONS PRO_OUT_ 1 0 Door Commands 131 close 132 open Door B 0 2 1 131 open command 132 close command for door announce 131 132 serial 2 RESERVED 119 FUNCTIONS PRO OUT 2 0 ALARM FILTERING 0 2 1 Reserved 2 Reserved 121 3 Reserved 4 Reserved 5 Reserved 6 STATION 5 7 Reserved 120 FUNCTIONS 3 0 0 2 1 Reserved 2 Reserved 104 3 Reserved 4 Reserved 5 Reserved 6 STATION 4 7 Reserved 121 LIGHT OUTPUT NC NO Open Contact Y Closed Contact 420 COUNTING SYSTEM COUNTING SYSTEM 0 OTINOR FW 0 1 1 LAMDA FLOOR 1 9
40. ATION IN UPWARD N DIRECTION CHANGE SPEED IN UPWARD DIRECTION HH SD MAGNETIC SWITCH N O FOR STATION IN DOWNWARD DIRECTION CHANGE SPEED IN se Oz DOWNWARD DIRECTION PU RECTANGULAR BISTABLE MAGNETIC SWITCH FOR PRE LIMIT UP PD RECTANGULAR BISTABLE MAGNETIC SWITCH FOR PRE LIMIT DOWN LAST FLOOR PLASTOFERRITE 20 CM FOR SPEED CHANGE ROUND MAGNET BLACK SIDE n INTERMEDIATE FLOOR n ATTENTION NEVER PLACE THE MAGNETS THIS WAY ROUND MAGNET WHITE SIDE PLASTOFERRITE 20 CM FOR STATION GROUND FLOOR N Pr TT ILITIILIIIIIIITIILIITIIIIITIIIILLILIII SPEED 0 3 0 3 SPEED 0 6 0 7 SPEED 1 2m Sec 1 5 SPEED 1 6 2 1 Figure 5 7 Hydraulic Lift Floor Selector LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU f amda TRACTION LIFT CASE USING RECTANGULAR BISTABLE LAST FLOOR ROUND MAGNET BLACK SIDE n n ROUND MAGNET WHITE SIDE GROUND FLOOR 0 3 0 3 SPEED 0 6 0 7 SPEED 1 2 1 5 SPEED 1 6 2 1 LAMDA ELECTRONICS S A PU PD SU MAGNETIC SWITCH N O FOR STATION IN UP i DIRECTION CHANGE SPEED IN
41. ATION THAT LIFTS YOU ee e USER S MANUAL TROUBLESHOOTING Follow the procedure below in order to check out for any faults that have occurred 1 Look at the controllers display for errors occurred Look for help the troubleshooting tables and correct the problem Stop switch off the control cabinet s operation and restart it after 30secs If the car cannot move look in the menu in the error retrieve tab and find out the errors that exist Erase the errors in the error retrieve tab inside the menu Look in the help menu for the programming There must be at least one error that holds the control cabinet at this stage If the error retrieve table is empty then look at the event retrieve tab in the menu 6 1 The lift doesn t move in the Revision state 1 2 3 4 Check the voltage the power supply input terminals 5 the neutral in the terminal block N Picture 7 1 Picture 6 1 Electric Power Circuit Check the Phase minder Both LEDs should be on Picture 7 1 Check the fuses Picture 7 1 and the motor s temperature for a hydraulic lift Check the motor s connections Picture 7 1 LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL 5 Check the voltages on the boards 48V DC on the LRS electronic board 24V DC the led LED 24 on the LRS electronic board 12V DC at the LED 12 on the LRS electronic boar
42. Contact YIN Y NO Open Contact 66 X12 DOWN PRE LIM SWITCH NO N NC Closed Contact YIN Y NO Open Contact 65 X13 ERROR REPEAT LOCKING PANEL After an error in the traveling timer the 1 9 control panel blocks 1 9 Number of attempts before the control panel blocks FW X14 GONG OFF TIME SEC Delay time between 2 gongs when the 2 0 5 gong function is active The indication FW in the comments column of the parameters refers to Future Work LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU f amda 4 6 2 Errors CATEGORY 7 Seg ERROR Error DISPLAY 5 NORMAL 4 FLOOR OPERATION LIFT TYPE Bs NUMB OF 2 SPEED G2 3 STATIONS SET A G3 4 F ALARM STATI A G4 5 PARK STATION A G5 6 SP PARK STATI A G6 7 PRE OPENING A G7 8 FAST SPEED TM B 1 9 SLOWSPEED 2 10 MAINTENANCE T 11 RELEVELLING T B T5 12 CAMDL TIMER T6 13 CLOS TIME D A T7 14 CLOS TIME D B T8 PRE TERM Reset 16 Hi 17 COUNTING UP 2 COUNTING Reset 18 Reset 19 STP SWITCH UP H4 LAMDA ELECTRONICS S A USER S MANUAL POSSIBLE CAUSE DESCRIPTION There are no errors ERRORS RELEVANT TO THE PARAMETERS G1 0 G2 1 With Inverter G2 3 Without Inverter Wrong value in parameter G6 Number of Stations 2 5 for call collection with 2 buttons 2 8 for with 1 button 2 16 for APB Car and Landing calls
43. D 2 250 251 252 253 254 255 End 252 253 254 255 n 1 DR EE i nc l 1 20 lt E ES 1 L 1 19 522 g 1 18 5 X zou 55 17 53 5 1 1 16 amp amp 5 o 15 1 x x Z 14 656 1 l uou oc my y 4 t LL LL LL 4 l 13 1 T z E 43 12 lt 1 11 e 5 7 10 1 1 5 9g s MN i re 8 1 7 7 n 1 6 l L 12 1 5 B 1 1 i 1 4 4 1 1 1 3 3 1 i 1 2 2 1 a T T I 1 l 1 1 1 1 I 1 I 1 1 PHOENIX CONTROLLER TEMP CONTROL SECTION Esa 22 CUR 5 2 E x x E NOTE 1 IN THE CASE MODULE ABSENCE amp 6 E OPTIONAL FOR AMBIENT TEMPERATURE MEASUREMENT 5 5 JUMPER LINK MUST PLACED BETWEEN PINS 6 7 He THE SIL TERMINAL MD 2 ay E
44. DIATIONC s4 s4 CAR STOP sto SUB S 16 ste CAR DOOR s S QJ s 53 5 53 OVERLOAD 48 48 48 GND GND GND GROUND Table 5 2 X2 Terminal Block Description TERMINAL V V V F 2 SPEED HYDRAULIC DESCRIPTION BLOCK TRACTION ZA ZA ZONA 7 L COMMON ZONE A 2 ZB ZONE B ZBC COMMON ZONE B SD SD 602 STATION DOWN X3 lu i re PU 7 PU PRE LIMIT UP PD PD PRE LIMIT DOWN 48 48 48 PRE LIMIT COMMON Table 5 3 X3 Terminal Block Description TERMINAL V V V F 2 SPEED HYDRAULIC DESCRIPTION BLOCK TRACTION 1 4 80 8 n 6 63 C CARCALS ae SSS CARCALS lt c c c CARCAL7 c CG CARCAL8 LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU mda SAISON USER S MANUAL COM COM COM CAR CALL COMMON Table 5 4 X4 Terminal Block Description TERMINAL 2 SPEED HYDRAULIC DESCRIPTION BLOCK TRACTION 12 12 12 12 VDC 12 12 12 12 VDC VL VL VL EMERGENCY LIGHTS LV LV LV TEMPORARY CAR LIGHTS LCL LCL LCL PERMANENT CAR LIGHTS NL NL NL CAR LIGHTS NEUTRAL OVERLOAD INDICATION Lr jw GONG a ia PR v2 SPEAKER 01 1T 1424 ALARM FILTERING TF Ht 1 TELEPHONELINE TF2 TF2 TF2 TELEPHONE LINE
45. GND GND GND GROUND Table 5 5 X5 Terminal Block Description TERMINAL V V V F 2 SPEED HYDRAULIC DESCRIPTION BLOCK TRACTION 6X REVISIONUINORMAL SIGNAL SIGNAL ND ND ND DOORNEUTRAL D X tib bD OORUNE COMMON 1 cs DOORCLOSESIGNALT OPN ON OoN DOOR OPEN SIGNAL DOOROBSTRUCTONT 8 5 PHOTOCEL 58 58 58 DOOR CLOSE BUTTON 57 57 57 DOOR OPEN BUTTON COM2 COM2 COM2 DOOR SIGNAL COMMON 2 LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU Grande SAISON USER S MANUAL cts DOORCLOSESIGNAL2 oPN ON OPN DOOROPENSIGNAL2 MB MB CAM 24 MB Me Me CAM 2 98 98 DOOROBSTRUCTION2 48 48 8 H8VDC Lx JJ j GND GND GD GROUND Table 5 6 X6 Terminal Block Description NI BLOCK TRACTION Table 5 7 X7 Terminal Block Description TERMINAL 2 SPEED HYDRAULIC DESCRIPTION BLOCK TRACTION 105 105 105 DOWN ARROW x 8 106 106 106 UP ARROW A A 12 INDICATIONA 7 B B B lNDCATONB c c C INDCAIONC 53 53 53 OVEROAD s8vDC 4 ADE a so 840 650 so sa SWICHUP SWITCH 52 sc s2 1 S3 s3 SHAFT STOP 54 2584 95 85 SEB
46. HAT LIFTS YOU 5 7 2 Shaft wiring USER S MANUAL Diomedes is using dedicated pre wired shaft units in order to fulfill the EN 81 1 2 norms This pre wiring technique allows the installer to finish the electrical installation quick and easy During the installation the technician should follow the steps below 1 Install plastic or metal trunk EN 81 72 in the shaft 2 Place the loom inside the trunk From the one side of the loom there are three male terminal blocks Connect the terminal to X7 X8 and X13 of the control cabinet Tie the ends of the loom to the trunk 3 Place all the shaft components into the shaft final switches lamps etc Connect the components using the connectors provided by Lamda Electronics Follow the below wiring diagrams according to your installation MACHINE ROOM B 8 FLOOR 7 FLOOR 6 FLOOR 5 FLOOR 4 FLOOR 3 FLOOR 2 FLOOR 1 FLOOR PIT Figure 5 17 Loom connections down collective bus doors LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL
47. NGINE ROOM ELEMENTS gs B 8 2 o 32 UP FINAL SWITCH 8 A Bg B 84 faa Yama gt 31 DOWN FINAL SWITCH 2 amp B B 84 P B B L 300 NC 38 SC DOOR LOCKS 5 Rx z 5 37 SC DOOR 1 g 37 u 36 SC LANDING DOOR i Lp lt LED a g 36 2 35 SC CAR ELEMENTS LX 9 nn be gt Lt 1 35 34 SC WELL ELEMENTS 1 5 Rx z a g 34 m 33 SC ENGINE ROOM ELEMENTS Rx to gt S GO 32 FINAL SWITCH N Ls 32 31 DOWN FINAL SWITCH t 31 300 NC 1 l l l 1 l I SCHEMATIC DIAGRAM FOR 48VDC FROM PANEL SAFETY CIRCUIT Figure 4 4 Inputs of the left side of the Controller A LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU fN amda USER S MANUAL 68 6l D 65 64 6 6 48 VDC INPUTS FROM PANEL 6 6 67 66 65 6 6 48 VDC INPUTS FROM PANEL 62 6 FIRE ALARM 67 CAR PREFERANCE EXPRESS UP PRELIMIT SWITCH DOWN PRELIMIT SWITCH LEVELING COUNT DOWN SWITCH LEVELING COUNT UP SWITCH DOOR ZONE A DOOR ZONE B PRO INPUT 3 FIRE ALARM CAR PREFERANCE EXPRESS UP PRELIMIT SWITCH DOWN PRELIMIT SWITCH LEVELING COUNT DOWN SWITCH LEVELING COUNT UP SWITCH DOOR ZONE A DOOR ZONE B PRO INPUT 3
48. NICS S A USER S MANUAL amda 4 VS 59 193713 A9010NH331 SSATVA 1 18915 NOILO3NNOO 5 H3MOd 5654 pa pelold seq 30 4716 3SVHd 1 1 N 1 s 9 1 39Vd 1719110 804 44 8 Y3MOd 3SVHd 3 MOIS X 1573 3 01553 10 INNOVATION THAT LIFTS YOU Figure 5 4 Terminal Block X1 Connections for Hydraulic Lift Control Cabinet LAMDA ELECTRONICS S A USER S MANUAL amda 4 A9010NH231 V S NOLLO3NNOO YOLOW NOLLO3NNOO 5 abed abed aed TATATATA 03348 9 1 3SVHd 33HHL 1 1 1 5 51 911 304 YIMOd YOLOW Figure 5 5 Terminal Blo
49. NTROL CABINET INSTALLATION eene enne enne nennen ineat naris isse 45 5 1 Tools to be used during nnn nnne nnne 45 5 2 Control Cabinet CASING to te 46 5 3 Control Cabinet s Terminal 48 5 4 Cable 8 EEEE Eaa 52 5 5 Component naming legend Lu 53 5 6 Connecting the Control u uu eir erre tate etre dea aL reed e 54 5 7 PLO WINING seek ine 69 5 7 1 Car pre 69 5 7 2 Shaft ONS Wining as aaa Pee OE ee 72 6 TROUBLESHOOTING 77 6 1 The lift doesn t move in the Revision state 77 6 2 The Lift does not move downwards while it is in the Revision 5 79 6 3 The Lift does not move upwards while it is in the Revision Stage 79 6 4 The Lift does not move while it is in the normal operation 80 6 5 The Lift does not stop at the station when we reset it 80 6 6 The Lift stops at the station but it s n
50. S YOU mda USER S MANUAL YASKAWA L1000 V V V F CARLO CAVAZZI MODULE Relevelling Module M7 Fan H3 Control Cabinet Light P1 Power socket F Thermal Relay X Terminal Blocks Table 5 11 Component Naming 5 6 Connecting the Control Cabinet Step 1 Connect to the mains all three phases neutral and ground Figure 5 1 If there is no neutral then you should short the connection with the ground Open the switch Q1 and check whether the sequence of the phases is correct on the phase sequence relay PSP In order for the phase sequence to be correct both LEDS should be turned on on the PSP If it seems to be incorrect then change the connection between two phases At DIN rail terminals R and N you should connect the single phase supply for the lighting When using a UPS Universal Power Supply device which is required in the case of a V V V F control cabinet for cabin and door rescue and in the case of a Hydraulic control cabinet for automatic door rescue you should perform the following connections Connect the UPS inputs to DIN rail terminals N and S and connect the UPS outputs at DIN rail terminals NU and SU Step 2 Connect the Motor If the motor is installed along with a V V V F then you should follow the connection scheme shown in figure 5 1 At DIN rail terminals U V W we connect the motor At terminals O1 and O2 we connect the motor thermistor At terminals and B we connect the motor brake and finally at terminal
51. SIDE UP MAGNET 20 CM FOR STATION MAGNET BLACK SIDE VTN GROUND FLOOR SPEED 0 3 n 03m SPEED 0 6 n 07m SPEED 1 2m Sec 15 SPEED 1 6 21 m Figure 5 9 Hydraulic Lift Floor Selector using pencil bistable LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU f amda TRACTION LIFT CASE USING PENCIL BISTABLE PU PENCIL BISTABLE MAGNETIC SWITCH PD PENCIL BISTABLE MAGNETIC SWITCH ATTENTION PLACE THE TWO MAGNETS AS FOLLOWS THE FIRST MAGNET SHOULD BE PLACED YELLOW SIDE UP AND MAGNET YELLOW SIDE THE SECOND ONE BLACK SIDE UP MAGNET BLACK SIDE ATTENTION PLACE THE TWO MAGNETS AS FOLLOWS THE FIRST MAGNET SHOULD BE PLACED YELLOW SIDE UP AND MAGNET YELLOW SIDE THE SECOND ONE BLACK SIDE UP MAGNET BLACK SIDE LAST FLOOR INTERMEDIATE FLOOR GROUND FLOOR KN n n SPEED 0 3 m Sec SPEED 0 6 m Sec SPEED 1 2 m Sec SPEED 1 6 m Sec n 03m 21 SU MAGNETIC SWITCH FOR STATION UPWARD DIRECTION CHANGE SPEED IN UPWARD DIRECTION 50 MAGNETIC SWITCH FOR STATION IN DOWNWARD DIRECTION CHANGE SPEED IN DOWNWARD DIRECTION MAGNET 20 CM FOR STATION USER S MANUAL MAGNET 20 FOR SPEED CHANGE NEVER PLACE THE MAGNETS THIS WAY Figure 5 10 Traction Lift Floor Selector using pencil bistable Step 5 Connect t
52. TER Y LANGUAGE PARAMETER TRAV TIME FAST SP SEC 0 99sec SLOW SEC 0 50sec MAINTENANCE TIMER 0 50sec LIGHT TIMER 0 99 sec STOP TIMER 0 10 sec STAR DELTA TIMER 0 20 sec RELEVELLING TIMER 0 30 sec LOCK TIMER 0 40sec CAM DELAY TIMER 0 10sec PUMP DELAY TIMER 0 0 4 0sec PARK TIMER 0 99min PARK HYDRAUL TIMER 0 99min ARRIVAL GONG 0 9 sec LOW CONSUMPTION TIME 0 99min DELAY ON RELEASE 1 9 sec USER S MANUAL Y If the photocell is not active and there are over 5 calls FW N Inactive Function FW 0 English FW 1 Greek FW Etc T TIMERS The maximum travel time between two consecutive stations The maximum travel time allowed for the car at slow speed during normal operation The maximum time allowed for the car to move at maintenance speed The waiting time until the car light turns off The minimum time at station for a car with semi automatic doors It clears to zero value once the doors open The time in seconds that the STAR stays active during start The maximum time required for the completion of relevelling The maximum time that lapses between the events of CAM activation and the lock contact closing The time in seconds that the CAM stays active after a stop The delay in multiples of 0 1 seconds of the pump after a stop If set to 0 zero is deactivated The time that the con
53. UP DIRECTION SD MAGNETIC SWITCH N O FOR STATION IN DOWN DIRECTION CHANGE SPEED IN DOWN DIRECTION PU RECTANGULAR BISTABLE MAGNETIC SWITCH FOR PRE LIMIT UP PD RECTANGULAR BISTABLE MAGNETIC SWITCH FOR PRE LIMIT DOWN MAGNET 20 CM FOR SPEED CHANGE MAGNET 20 CM FOR STATION Figure 5 8 Traction Lift Floor Selector USER S MANUAL ATTENTION NEVER PLACE THE MAGNETS THIS WAY INNOVATION THAT LIFTS YOU USER S MANUAL HYDRAULIC LIFT CASE USING PENCIL BISTABLE ZA MAGNETIC SWITCH FOR ZONE A PU PENCIL BISTABLE MAGNETIC SWITCH gt ZB MAGNETIC SWITCH FOR ZONE FOR PRE LIMIT UP 9 is ES nze SU MAGNETIC SWITCH FOR STATION UPWARD i se DIRECTION CHANGE SPEED IN UPWARD DIRECTION PD PENCIL BISTABLE MAGNETIC SWITCH N M se Oz SD MAGNETIC SWITCH FOR STATION IN FOR PRE LIMIT DOWN N N DOWNWARD DIRECTION CHANGE SPEED IN DOWNWARD DIRECTION ATTENTION PLACE THE TWO MAGNETS AS FOLLOWS n THE FIRST MAGNET SHOULD BE PLACED YELLOW SIDE UP AND sine MAGNET 20 CM FOR SPEED CHANGE THE SECOND ONE BLACK SIDE UP MAGNET BLACKSIDE 4 n INTERMEDIATE FLOOR ATTENTION NEVER PLACE THE MAGNETS THIS WAY ATTENTION PLACE THE TWO MAGNETS AS FOLLOWS THE FIRST MAGNET SHOULD BE 7 PLACED YELLOW SIDE UP AND MAGNET YELLOW SIDE THE SECOND ONE BLACK
54. Wrong value in parameter G15 FIRE ALARM Allowed values 0 Number of Floors Wrong value in parameter G17 PARKING STATION2 Allowed values 0 Number of Floors Wrong value in parameter G18 SPECIAL PARK STATION pa Allowed values 0 Number of Floors Wrong value in parameter G5 The relevelling G8 must be active TIMER ERRORS The Fast speed timer has elapsed Performs as many resets as set with parameter X13 and then the control panel blocks The Slow speed timer has elapsed Performs as many resets as set with parameter X13 and then the control panel blocks The Maintenance timer has elapsed The elevator stops for 30 sec and then restarts operation The Relevelling timer has elapsed Performs as many resets as set with parameter X13 and then the control panel blocks Timer has elapsed Timer has elapsed FW FLOOR SELECTOR COUNTING SYSTEM Both Pre limits open Missing counting during the upward motion Floor Selector Missing counting during the downward motion Floor Selector No signal from the magnetic switch Magnetic switch fault or bad connection or wrong placement of the magnet INNOVATION THAT LIFTS YOU f N USER S MANUAL Reset No signal fro
55. been done according to I E C International Electrotechnical Commission directive and is as follows Capacitors Diodes Fuses Thermo magnetic switches Thermal switches Generators Batteries Optical and Audio Indicators Connectors Power relays Coils Motors Fans Power sockets Quadruple circuit breaker circuit breaker Relays Resistors Sensors switches Transformers Terminal Blocks brakes electro valves electromagnets lt BESCRPTION 000 pt Quadruple CircuitBreaker 00 Q2 Ground Fault Current circuit breaker Transformer circuit breaker 00 Q5 Car Lights circuit breaker Shaft Lights circuit breaker Q7 Power Socket circuit breaker Q8 Doors circuit breaker Q9 UPS circuit breaker Q10 Oil Thermistor circuit breaker Motion Power Relay Pump On Relay Motion Power Relay Delta Power Relay K3 Brake Power Relay Star Power Relay Mains Supervisor Relay PSP Phase Sequence Relay Transformer Lamda Relay System Base Module ee C C Lamda Relay System Hydraulic Modue CamDrveModle LDR Automatic Door Drive Module LRK1 Shaft Lights Latch Relay Button Overspeed Governor Testing PHOENIX LamdalifControlr 8 LAMDA ELECTRONICS S A INNOVATION THAT LIFT
56. calls in series The aim of this call system is to serve faster the car in its upward motion Generally it is used in residential buildings where landing calls are mostly demanding the move of the elevator to the ground floor Examples 1 The car is at the ground floor and the controller receives a landing call from the 5 floor The car starts moving upwards During its motion and BEFORE the car reaches the 3 floor someone pushes the call button from the 3 floor The car will NOT stop at the 39 floor but only during its downward motion This means that once it reaches its target floor 5 floor and the user inside the car chooses to travel to the ground floor the car will stop at the 34 floor during its downward motion 2 The car is at the 5 floor and it receives a landing call from the ground floor The elevator starts moving downwards During its motion and BEFORE the car reaches the 3 floor someone presses the call button at the 3 floor In this case the car will stop at the 3 floor and then continue its motion towards the target floor ground floor LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU 04 FULL COLLECTIVE FCS This system requires separate calls for the car and separate calls for the floors as well as the intention for upward motion and separate landing calls with the intention for downward motion This system finds applications in office buildings where people are moving in both directions In this system land
57. circuit of the elevator In Fig 4 7 4 8 and 4 9 the internal connections of the Power Relays for the Inverter V V V F and the Hydraulic type elevators are given respectively LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU fN amda USER S MANUAL K1 Sv Q 2 36 22 FANN 22 56 22 301 82 8 22 86 80 SY Y S OA 092 6 OL L ATH SLNdLNO YIMOd OVA 052 9 6 OL L ATH YSMOd RLY 1 Bi VR2 RLY 2 VR3 RLY 3 VR4 ELLE RLY 4 VR5 RLY 5 ARS RLY 6 RLY 7 _VR7 RLY 8 VR8 RLY 9 VVVF INVERTER LD1 02 103 105 7106 Jur jus PHOENIX CONTROLLER 420 LIGHT 419 COMMON FOR LIGHT 418 OUTPUT CLOSE DOOR A 417 COMMON CLOSE DOOR A 416 OUTPUT OPEN DOOR A 415 COMMON OPEN DOOR A 414 RI NO 413 COMMON R4 412 SAFETY SIGNAL R4 NC 411 R3 NO 410 COMMON 409 SAFETY SIGNAL R3 NC 408 R2 407 COMMON R2 406 DOWN SIGNAL Rdown 405 COMMON DIRECTION 404 UP SIGNAL Rup 403 SIGNAL UP OR DOWN 402 R1 401 COMMON SCHEMATIC DIAGRAM OF POWER RELAYS 8 1 VRI
58. ck X1 Connections for Traction 2 Speed Lift Control Cabinet INNOVATION THAT LIFTS YOU LAMDA ELECTRONICS S A es Step 3 Enter Inspection mode The switch on the LRS B picture 5 4 should be turned on the REVISION position By pressing COM and UP buttons we perform upward revision By pressing COM and DOWN USER S MANUAL buttons we perform downward revision At this stage we check the turning direction of the motor and its correct connections If the turning direction is not the desired one then we change the connection between two phases Picture 5 4 L R S B 1 Step 4 Connect the magnetic switches and the maintenance box At this stage you should also connect the car emergency stop The proper connection set is shown in figure 5 9 LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU abed Burns ER E 3 HOLIMS USER S MANUAL IOA 89 NOLLONYLSAO WNSIS 340 4000 IVNSIS 35012 4000 NOWWOS 3000 A1ddns s3Mod 2 2 000 1 38010 24000 1 24000 804 NOD TI32010Hd para v e 1 Nowonuseo 4 90 4 35010 a Two 1E
59. d 4 7 Operation Systems 01 SIMPLE In this system calls are performed the way they did in the early versions of elevators that had no memory chips ONE call is executed each time 02 AUTOMATIC PUSH BUTTON CONTROL APB In this system the landing and car calls are uniform and are executed depending on the direction of the car motion In simple terms all calls are considered as car calls and are executed as the car passes from the relevant floors Example car is at the ground floor and the controller receives call from the 5 floor The car moves upwards During its motion and before it reaches the 3 floor someone calls it from the 3 floor The car will perform a stop at the 3 floor and then will continue its motion towards the target floor which remains the 5 floor 03 DOWN COLLECTIVE DCS In this system landing calls and car calls are considered to be different Car calls have a priority in execution and landing calls are executed during the downward motion of the elevator The change to the direction of the elevator happens when there are no more car calls to be executed in the current direction This means that the elevator moving upwards will execute all of its car calls in series When they are all executed it will check if there are any other calls in the same direction and it will execute them as well If there are no other calls in the same direction it will start its downward motion and execute all its car and landing
60. d 5V DC at the LED 5 on the Phoenix electronic board Picture7 3 red LED Picture 6 2 Power Supply 6 Check safe brackets of the terminal blocks 31 32 33 34 35 36 37 38 firstly look at the electronic board s LEDs 31 32 33 34 35 36 37 38 Measure also the voltage at the terminal block 31 32 33 34 35 36 37 38 The voltage should be between 40VDC and 50 VDC The LEDs simply shows that voltage exists in each terminal They can t give a feedback if there is low voltage at the terminals LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL Picture 6 3 Safety Circuit 7 Check the pre terminal switches at the PU and PD terminals look at the LEDs 65 66 on the controllers board Measure also the voltage at the PU and PD terminals The voltage should be between 40VDC and 50 VDC Look at Picture 7 3 8 Check the LED s state on the controller s board If the LEDs of the Rup relays upgoing and Rdwn relays downgoing are lit when you are trying to give motion to the car it means that the controller is operating properly and the error is due to a problem in the Power Circuit 6 2 TheLift does not move downwards while it is in the Revision Stage 1 Check the valve s junctions 2 Check the connections of the motion relays as well as the connections of the rest relays 3 Check the limit switch at the bottom PD terminal 6 3 The Lift does not move upwa
61. e programmer we must push buttons PRG and ENTER at the same time and we get the following screen message At first the word NO flashes on the screen as a pre selected option If we press ENTER then will go back to the initial state of the operation Using the UP and DOWN buttons we may choose the YES or NO the flashing option is the selectable one By choosing YES and then ENTER we get the following message LOAD PARAMETERS FROM CONTROLLER ul z CK uw td udi MENU NO YES LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU mda USER S MANUAL LOAD PARAMETERS FROM CONTROLLER LEFT ENTER ot 9 SJ o 5 Q At this stage the parameters are loaded from the Controllers main board and we are able to modify the parameters As soon as we get into the main menu the first screen appears with the group of messages GEN PARAMETERS TIMERS m When we press the LEFT the RIGHT button screens of the rest options will appear LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU mda USER S MANUAL LEFT RIGFT ENTER LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU mda USER S MANUAL LEFT RIGFT LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU mda USER S MANUAL O
62. ecific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 0 NO Door FW 1 Semiautomatic Bus FW Two signal FW For Future Use FW Single signal with permanent closing command FW Two signal with permanent closing command FW 6 Single signal with permanent opening command FW Time at a station with doors open FW Time in which the door has to close so that no error occurs FW INNOVATION THAT LIFTS YOU f amda D28 D29 D30 D31 D32 D33 D34 D35 D36 D37 D38 D39 D40 D41 D42 D43 D44 D45 D46 D47 D48 0 99
63. en at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 Opens Normally 1 Will not open at the specific floor 0 I PARAMETERS N NO 48Vdc trigger It will go into revision we send 48VDC Y NC trigger It will go into revision in we send OVDC Maintenance Input if activated the control panel enters into maintenance mode and motion can take place only from Car calls 0 kai INNOVATION THAT LIFTS YOU USER S MANUAL 1 from the programmable inp
64. eve screen we press the button ESC The board returns to the normal operation and the screen displays SLAVE FUNCTION The total amount of saved errors is 91 If we wish to reset the saved errors we have to press the PRG and ENTER button at the same time and then the ESC button The board will return to its normal operation and the screen will display the SLAVE FUNCTION message The same procedure is been followed when we wish to check the latest events occured V EVENT RETRIEVE The total amount of events occurred is 16 R REVISION In case that the car revision is activated Input 69 0 there is no motion ability with the use of the UP DOWN buttons In order to exit this screen CONTROL PANEL we press the ESC button REVISION In different case Input 69 1 the Revision process is taken over by the programmer and the car can move using the UP DOWN buttons In order to exit this screen we press the ESC button 46 1 Parameters G GENERAL PARAMETERS LIFT TYPE 1 Hydraulic Elevator G1 1 4 2 Hydraulic Elevator with soft start FW 3 Mechanical Conventional Elevator 4 Mechanical Conventional Elevator with Inverter 2 SPEEDS 1 One Speed FW 1 3 2 2 speed elevator 3 3 speed elevator Inverter only FW G3 MID SPEED FLOORS Only for elevators with Inverter and 3 speeds 0 4 LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU f amda G4 G5 G6 G7 G8 G9 G10 G11 G12 G13
65. fter as much time as set at parameter X5 has passed the counter D5 has been expired A contact has failed during motion The car stops and restarts 99 COCKS after as much time as set at parameter 5 has passed 36 LOCKS STUCK A 9 Without input from the the locks are closed FUNCTIONS ELEMENT au 37 CHECK F1 Element Check circuit interrupted 38 POWER RELAY C F2 The Power Relay did not open at stopping Or it did not close after a command Used in VVVF The Break Relay did not open at stopping 39 BREAK RELAY c F3 Or it did not close after a command Used VVVF 40 MOTOR THERMIS 4 Motor overheating 41 OIL THERMISTO 5 overheating Hydraulic Elevator 42 AMBIENT TEMP F6 Car overheating 43 INVERTER ERR 7 Error Input INVERTER FW MAX NUMB 44 LINK A F8 Elevator Lock FW 45 VOLT MONITOR F9 Power Outage 46 OVERLOAD F10 Overload Input 47 PHOTOCELL A 11 Activated for 2min continuously override 48 PHOTOCELL B 12 Activated for 2 continuously override FW MEMORY 49 PARAMETER B E1 Distortion of Parameter Data FW LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU mda f N USER S MANUAL DAT 50 ERROR DATA B E2 Distortion of Error Data FW 51 MEMORY ERROR B E3 Will not store parameters in memory FW A Blocks the Control Panel B Programmable depending on the Block State C Does not Block and continues operation as soon as the error is remove
66. he safety circuit and the car doors Connect the overload switch Test the safety circuit connections During inspection check the CAM and the door operation If everything works well then turn the inspection switch on the car top control box to OPERATION also turn the switch on the LRS B module picture 5 4 to NORMAL The car will move downwards if it is above the pre limit and it will stop at the first floor If the car is already at the first floor and below the pre limit then it will move upwards and it will stop at the second floor If there are automatic doors present then the control cabinet will first open and then will close the doors If there are bus doors present then they will open and stay open The above mentioned procedure is called RESET LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL amda 4 Step 6 Connect Car and Floor calls indicators and the rest of the signals lights gong emergency lights etc Follow the instructions in figures 5 9 5 10 kai 5 11 ADOTONHOAL D DUID Y S NOILO3NNOO SNILVi3dO 110 A134VS 93 TIVO paloid abed aed 118 916 OL LOVINOD SNA 193NNO2 YOON OILWNOLNVINAS 804 12 1 02 19 A
67. ing calls are recognized upward or downward motion and executed with the same priority as car calls in the same direction When there no car or landing calls in the current direction the calls made in the opposite directions are being executed while maintaining the motion of the elevator For example if during the change of speed for stopping at the 3 floor there no car calls for upper floors or there are no landing calls for floors higher than the 3 floor then the controller considers whether there are car calls for the 4 or upper floors In case that there are more than two such calls for downward motion the higher one is being executed and thereafter we have a change in direction If the car is in a downward motion the exact opposite procedure is being followed USER S MANUAL 05 UP COLLECTIVE UCS This system operates with the exact opposite logic as in the down collective system Meaning that all car calls are being executed during the downward motion and landing calls are being executed during the upward motion This system finds applications in underground parking lots and generally when there are many basements LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU 5 CONTROL CABINET INSTALLATION USER S MANUAL 5 1 Tools to be used during installation The necessary tools for the control cabinet installation Diomedes MR V1 0 are the following Screwdrivers Slotted n 3 5 x 75 0 1378 x 2 952
68. ing on its control operation Our terminal blocks have been designed in order to make the installer s work easier Terminal block X1 is related to the machine room connections Terminal blocks X2 X3 X4 X5 X6 are related to the cabin wiring trailing cables while terminal blocks X7 and X8 are associated with the shaft wiring LOOM We also offer the option for shaft lighting to either use a push button and a latch relay or a switch with all retour connection on terminal block X13 TERMINAL V V V F 2 SPEED BLOCK TRACTION R R s s T T N N SU NU 5 0 01 V V1 W1 U2 V2 W2 U1 U1 U2 U2 1 2 LAMDA ELECTRONICS S A HYDRAULIC VSU VFU VSD VFD 48 53 H1 DESCRIPTION PHASE PHASE S PHASE T PHASE N UPS OUTPUT UPS INPUT MOTOR BRAKE BRAKE V V V F RESISTOR V V V F RESISTOR LOW PRESSURE SWITCH EMERGENCY VALVE UP DIRECTION VALVE SLOW SPEED UP DIRECTION VALVE FAST SPEED DOWN DIRECTION VALVE SLOW SPEED DOWN DIRECTION VALVE FAST SPEED OVERLOAD OIL THERMISTOR INNOVATION THAT LIFTS YOU Grande xia USER S MANUAL 1 J Jj m i Table 5 1 X1 Terminal Block Description TERMINAL BLOCK V V V F 2 SPEED HYDRAULIC DESCRIPTION TRACTION 24 24 24 COP POWER SUPPLY 24 24 24 105 105 105 DOWN ARROW 106 106 106 UP ARROW A INDICATIOA y B B B INDCATONB Cc CG IN
69. ion Terminals 61 62 63 64 on the controller terminals ZA ZB SU SD at the control cabinet s terminal block Check the voltage at these terminals It should be between 40VDC and 50VDC Check the placement of the ferromagnets Observe the error on the controller s display Get a help from the Table of Errors and remove the error occurred LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU 6 6 Lift stops at the station but it s not operational for any further calls USER S MANUAL 1 Check the COMPONENTS CHECK LED terminal 50 on the controller The LED SHOULD be lit when the car is at a station 2 Check the POWER RELAYS CHECK LED terminal 51 on the controller The LED SHOULD be lit when the car is at a station 3 Check the FIRE ALARM input terminal 68 on the controller The LED SHOULD NOT be lit when the car is at a station 4 Check the Re Leveling electronic board with the doors open Carlo Cavazzi NA12D The SAFETY LED SHOULD lit If it doesn t either the electronic board or the magnetic switches do not operate properly 5 Observe the error on the controller s display Get a help from the Table of Errors and remove the error occurred 6 7 The Lift counts two stations instead of one 1 Check the operation of the ferromagnetic switches 2 Check the distance between the ferromagnetic switches and the ferromagnets It should 1cm at most 3 Check the Termi
70. lashing near approach FW 1 The activated call buttons are on until the call is executed light emission percentage of Buttons FW ABCD binary indications Decimal indications ABCD 1 0 1 2 0 Arrows are active only during motion 1 Arrows are active during motion and with next direction 2 next direction Hall Lantern 3 next direction with Flickering during motion FW 4 next direction stay switched on for 2sec and then they switch off 5 next direction permanently switched on in upward and downward motion 0 Simple GONG at speed change 1 Direction Gong at speed change 2 Simple GONG at landing 3 Direction Gong at landing 5 GONG OFF output 107 is used for Fire Fighting BUZZER 0 Moves to the firefighting floor and stays idle with doors closed FW 1 Moves to the firefighting floor and stays idle with doors open FW We set the floor at which the car will stop after a Fire Alarm FW If a Reset or Revision needed after the Fire Alarm procedure FW We set the floor at which we want the car to PARK This is the PARK station floor when Input 8 Park is active 0 FUJI multy FW 1 FUJI FRENIC FW 2 YASKAWA Y After the end of the Low Consumption time the displays switch off FW N No Function FW INNOVATION THAT LIFTS YOU f amda G21 G22 T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 D1 D2 D3 D4 CALLING FIL
71. lddvs 4 4015 avo rh MOSN3S 59 09 64 6 1 FTIV Figure 5 11 Terminal Block 4 2 Connections INNOVATION THAT LIFTS YOU LAMDA ELECTRONICS S A USER S MANUAL SNOLLVOIIdd A9010NH931 H9IH Dp VS S9INONI23T3 abed Al34VS LJVHS STIVO TANVd seg 915 SIS OL V LO3NNOO SILVWOLNY 304 2 ALON 818 716 OL LOVLNOD DU b 1 2 LOVLNOD LOVLNOD 4 TWANVIN i 4000 ALON i XIVS T YOSNIS 9 N30 N 309 V3 09 N30 5 30 40 IQA HZ DGA 87 MON BE Figure 5 12 Terminal Block 7 8 Connections INNOVATION THAT LIFTS YOU LAMDA ELECTRONICS S A USER S MANUAL fN amda EA 4 SUAMVAdS ADOTONHOAL HIH DD UID i
72. m the magnetic switch 20 STP SWITCH DN H5 Magnetic switch fault or bad connection or wrong placement of the magnet Reset H H H H H H H 24 ZONE SWITCH A H6 ets Landing or Relevelling there is no signal is ZONE switch R H H H H H H H 22 ZONE SWITCH B ese H7 ee Landing or Relevelling there is no signal is ZONE switch Reset 23 NO ZONE H8 During Landing or Relevelling there is no signal from the SF Reset i iti i 24 WRONG ZONE H9 Signal from the SF at a position that is not expected FW Error in pre open Reset 25 OSCILLATION HB Oscillation around the position of the station during relevelling 26 RELEV NO ZONE Reset HC During relevelling the car got out of the zone SAFETY CIRCUIT 27 UP TERMINAL A 1 Up PRE LIMIT has been reached DOWN 28 TERMINAL A A2 Down PRE LIMIT has been reached 29 STOP ENG _ STOP has occurred during motion car stops and restarts ROOM after as much time as set at parameter X10 has passed 30 STOP WELL _ 4 5 occurred during motion The car stops and restarts after as much time as set at parameter X10 has passed 32 CAR STOP A5 A STOP has occurred during motion The car stops and restarts after as much time as set at parameter X10 has passed 33 STATION CONTA _ A6 A contact has failed during motion The car stops and restarts after as much time as set at parameter X5 has passed A contact has failed during motion The car stops and restarts 34 CAR CONTACTS A7 UD a
73. mbination with any electrical or electronic components circuits systems assemblies or any other material or equipment 2 Unsuitability of this product for use in any circuit assembly or environment Purchasers rights under this warranty shall consist solely of requiring the manufacturer to repair or in manufacturer s sole discretion replace free of charge F O B factory any defective items received at said factory within the said 15 months and determined by manufacturer to be defective The giving of or failure to give any advice or recommendation by manufacturer shall not constitute any warranty by or impose any liability upon the manufacturer This warranty constitutes the sole and exclusive remedy of the purchaser and the exclusive liability of the manufacturer AND IN LIEU OF ANY AND ALL OTHER WARRANTIES EXPRESSED IMPLIED OR STATUTORY 5 TO MERCHANTABILITY FITNESS FOR PURPOSE SOLD DESCRIPTION QUALITY PRODUCTIVENESS OR ANY OTHER MATTER In no event will the manufacturer be liable for special or consequential damages or for delay in performance of this warranty Products that are not manufactured by LAMDA ELECTRONICS are not covered under the above warranty terms LAMDA ELECTRONICS however extends the same warranty terms that the original manufacturer of such equipment provide with their product refer to the warranty terms for such products in their respective manual LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU mda
74. nal Limit Switches 4 Check if there are screws or screw nuts near the ferromagnets if they are close to them they might perform as ferromagnets themselves 5 Observe the error on the controller s display Get a help from the Table of Errors and remove the error occurred 6 8 The Lift changes its speed when it reaches a station and stops at the next station 1 Check the ferromagnetic switches state and their proper placement 2 Check the distance between the ferromagnetic switches and the ferromagnets It should be 1cm at most 3 Check if there are screws or screw nuts near the ferromagnets if they are close to them they might perform as magnets themselves 4 Observe the error on the controller s display Get a help from the Table of Errors and remove the error occurred LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU 7 INDEX 2 2 Speed traction 47 2 SPEED TRACTION 48 49 50 51 A AC 7 ALARM FILTERING 37 49 TU Lo Qam natas karapay 32 AUTOMATIC PUSH BUTTON CONTROL 42 B BRAKE tete 47 52 Cabin WINING 47 Calling 11 33 40 41 49 64 cete eee 34 35 42 43 Ga
75. nections for Hydraulic Lift Control Cabinet Y 58 Figure 5 5 Terminal Block X1 Connections for Traction 2 Speed Lift Control 59 Figure 5 6 Terminal Block and X6 Connections u 61 Figure 5 7 Hydraulic Lift Floor Selector essentiae nnne nnne nnne 62 Figure 5 8 Traction Lift Floor Selector u umn ii OE a 63 Figure 5 9 Hydraulic Lift Floor Selector using pencil bistable essen 64 Figure 5 10 Traction Lift Floor Selector using pencil bistable sess 65 Figure 5 11 Terminal Block X4 and X2 66 Figure 5 12 Terminal Block X7 and X8 67 LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU mda 4 USER S MANUAL Figure 5 13 Terminal Block X5 and X13 68 Figure 5 14 Car pre wiring up to 2 bus doors tnnt nennen tnter 69 Figure 5 15 Car pre wiring connection to 2 automatic doors essere 70 Figure 5 16 Car top control box internal 71 Figure 5 17 Loom connections down collective bus doors sse 72 Figure 5 18 Loom connections down collective
76. ontrol cabinet or a part of it be sure that there are no people close to you that could be hurt by the lifts move or any part of it All safety components should be checked for their proper functionality In any case the lift should be in the inspection position 2 3 Product s Safety Precautions plug or unplug electronic boards or electronic components under voltage e Do not use a megometer when the electronic boards PCBs are plugged in Megometers operate under high voltage and can easily destroy the PCB s semiconductors e Do not force the terminal blocks while you install them They are designed for easy use and installation If you cannot install them easily it s probably because either you try to install them up side down or they are not aligned e Do not install the product near heating sources vibrating sources or sources of high humidity e Check out and be sure about the grounding quality All groundings should have star type connections Groundings of bad quality can cause interference in the proper operation of the system e Use proper material for packaging the entire product or parts of it LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU f USER S MANUAL 2 4 Symbols and Safety terms The symbols below might appear either on the product or in the installation manual 28 DANGER ATTENTION NOTE GROUNDING HIGH VOLTAGE Table 2 1 Symbol Interpretation
77. ot operational for any further calls 81 6 7 The Lift counts two stations instead 81 6 8 Lift changes its speed when it reaches a station and stops at the next station 81 T INDEX mam aris 82 8 Pictures Tables Figures 22 2 nnne 84 9 Revision 86 LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU mda USER S MANUAL 2 SAFETY PRECAUTIONS 2 1 Information on Safety Please read this manual carefully before you proceed to the installation of the Control Cabinet the cabling and the regular inspection of the cabinet Keep this manual in a safe place and available to all installation and engineering personnel during the operation of the lift control cabinet The product that is described in this manual can be adjusted so that it can comply with the international norms and EE derivatives LAMDA ELECTRONICS shall take no responsibility if the installation company does not adjust the product according to the current laws which are effective in the country which the installation process is taking place 2 2 Personnel s Safety Precautions Do not touch any of the electric electrical or electronic part of the system which is under voltage Before you start operating the lift c
78. r calls tineis 36 hana 45 CHAMP 44 ette ede ha dE Vas 71 Control cabinet5 7 8 10 44 45 47 53 64 71 76 79 COUNTING SYSTEM 37 40 D DO Iotor diate 7 ica is recte 2 33 39 Detachable modules 11 12 DIP EEPROM iir eun to inca es 28 29 DOOM 32 34 35 37 39 53 64 75 79 DOOR 35 DOWN COLLECTIVE 42 E Element 21 41 8 Error 22 31 34 35 38 39 42 76 78 79 80 ERROR 42 Error inn aa 22 Event retrieve 2 22 38 76 F u Sau 33 Firefighting 33 G GONG 32 33 39 49 GROUND 48 49 50 51 LAMDA ELECTRONICS S A USER S MANUAL H Hydraulic 16 19 32 41 52 53 55 56 57 61 63 I Inputs 10 11 12 36 53 79 INSPECTION Bm 49 jp TID 49 Hew 8 1 Landing 34 35 Landing 42 43 ato us 22
79. rds while it is in the Revision Stage 1 Check the valve s junctions LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU 6 USER S MANUAL 2 Check the connections of the motion relays as well as the connections of the rest relays 3 Check the limit switch at the bottom PU terminal 6 4 The Lift does not move while it is in the normal operation Check the operation while the lift is in the Revision stage The car should be able to move in both directions Check the operation of the car door The door should be able to close LED 39 Check what might keep the door open e Terminal 99 Forcing Terminal 59 Photo sensor s signal e Terminal 57 Open door Button e Check if inputs 99 59 are properly programmed see chapter 4 paragraph 4 6 about the controller s programming Check all parameters that do not allow the control cabinet to become operational Terminal 53 Overweight e Terminal 67 Express e Terminal 68 Fire alarm input e Check if inputs 53 67 are properly programmed see chapter 4 paragraph 4 6 about the 5 programming Check motor and the valves Check the motion relays Observe the error the controller s display Get a help from the Table of Errors and remove the error occurred 6 5 The Lift does not stop at the station when we reset it 1 Check the ferromagnets at the stat
80. ree cables for the three phases and one yellow green cable for the grounding or with the use of an unshielded cable which is installed in the metallic trunking It is important that the connection of the AC motor with the control cabinet s grounding should be done with the use of a shielded cable 3 2 5 The grounding of a shielded power supply cable AC motor The shielding of the power supply cable should be grounded on both sides so that it can provide full protection This can be done by using appropriate metallic cables which are grounded 360 grounding both at the side of the control cabinet and at the side of the AC motor If this connection is not applicable the shielded cables should be connected in the control cabinet with the use of an Omega connector Regarding the side of the AC motor connection if the full shielding at the terminal blocks is not applicable the shielding should be grounded before it reaches the terminal blocks The grounding is achieved by the use of an Omega Q connector at the metallic supporting brackets of the AC motor When a metallic trunking is used it should also be shielded 360 wherever this is applicable 3 2 6 Omit direct grounding of the shielding The shielding of the grounding should be done with the use of an Omega Q connector 360 grounding and never directly 3 2 7 Power supply cable for a DC motor The power supply cable of a DC motor is not necessary to be shielded
81. rough RS 232 serial port Figure 4 10 USER S MANUAL PHOENIX CONTROLLER PHOENIX CONTROLLER 1 gt iHi ERN m Qr I a MEER BY M 52 525252 e PHOENIX CONTROLLER 2 SERIAL COMS T 52 RS 232 8 089 FEMALE 233 Rx 232 Tx 231 Tx 230 Rx 8 1 RS 485 AN 002 102 202 OAR Liz DS So 220 221 CONNECTION TERMINALS FOR CAR MODULE RS 232 AND RS 485 VOICE ANNOUNCER DEVICE N Rx Rx Rx Tx Lao Tx Lgs Te Leg sh TE T Ric 3 CONNECTION CAPABILITY UP TO 256 DEVICES x IN TOTAL SCHEMATIC DIAGRAM FOR SERIAL COMMUNICATIONS RS485 Figure 4 10 Connections of serial ports RS 485 RS 232 LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL 4 5 Thermo elements The elevator s manufacturer places a thermistor P T C in the oil if it is for a hydraulic lift and in the motor When an overheating problem arises the thermistor s resistance increases lot P T C and the Element Check continuity is interrupted Its connection diagram is presented in Figure 4 11 PHOENIX CONTROLLER MD MODULE PLUGG IN AMBIENT TEMPERATURE gt M
82. rs are made X SUPERVISOR PARAMETERS 1 MAINTENANCE LIMITS Y N N Default While in Maintenance we can move up to the final stations Y While in Maintenance we can move up to Pre limits x2 RESET STATION Y N N Default Performs a reset at the bottom floor FW Y Performs a reset at the top floor FW NUMBER OF CONTINUOUS RESETS If this many continuous RESETS occur 2 9 then the elevator expects a call for a new RESET FW MAINT DRIVE K1 K2 NE UD Y 1 UP FAST NE UD N N 1 Function RESTART TIME AFTER A SF The minimum time required for restarting 0 10 sec the car after an SF TIME FOR NEW RELEVELLING The minimum time required to start a new 0 10 sec attempt for relevelling ______ a DELAY at station after a stop switch input ______ a 5 sec active DELAY ON CHANGE Delay at change of speed after a change 0 5 sec of speed input becomes active LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU AN amda ama USER S MANUAL DEPARTURE TIME The maximum time for departing from a 0 3 sec station when no reason for delay is present IDLE TIME AFTER A STOP The maximum time that the 0 99 sec remains idle after a stop If after a stop the door opens or a call is given this timer becomes equal to timer T4 X11 UP PRE LIMIT SWITCH NO N NC Closed
83. s B1 and B2 we connect the V V V F resistor LAMDA ELECTRONICS S A INNOVATION THAT LIFTS YOU USER S MANUAL amda 4 SNOILWONdd A9010NH231 VS 521 0419313 M SI NOILO3NNOO SOLON NOILO3NNOO A lddf S abed pa 5 1 1 5 1fidNI 1 41 YOLOW S1H9I1 804 14405 YIMOd 3SVHd 5 53 AANA Figure 5 2 Terminal Block X1 Connections for V V V F Lift Control Cabinet INNOVATION THAT LIFTS YOU LAMDA ELECTRONICS S A f USER S MANUAL In case the motor is installed on a Hydraulic lift we have two discrete cases Case 1 Delta Drive In this case the motor is connected as shown in figure 5 3 At terminals U V W we connect the motor while at terminals O1 and O2 the motor thermistor Case 2 Star Delta Drive In this case the motor is connected as shown in figure 5 4 At terminals U1 V1 W1 of Terminal Block X1 we connect the respective U1 V1 W1 terminals of the motor while at terminals U2 V2 W2 of Terminal Block X1 we connect the respective U2 V2 W2 terminals of the motor The motor thermistor is connected at terminals O1 and O2 Then we must connect the
84. sec OF CLOS RETRIES B 2 9 TIME OP DOOR gt REOPEN 0 99sec EXTENDED DOOR CLOS TIME B 0 3 sec DELAY ON OPEN DOOR B 0 3 sec PRE OPENING ACTIVE Y DOOR B CLOS ON FLOOR 0 DOOR CLOS ON FLOOR 1 DOOR CLOS ON FLOOR 2 DOOR B CLOS ON FLOOR 3 DOOR B CLOS ON FLOOR 4 DOOR B CLOS ON FLOOR 5 DOOR B CLOS ON FLOOR 6 DOOR CLOS ON FLOOR 7 DOOR B CLOS ON FLOOR 8 DOOR B CLOS ON FLOOR 9 DOOR B CLOS ON FLOOR 10 DOOR B CLOS ON FLOOR 11 DOOR B CLOS ON FLOOR 12 DOOR B CLOS ON FLOOR 13 DOOR B CLOS ON FLOOR 14 DOOR B CLOS ON FLOOR 15 MAINTENANCE NC Y N 69 LAMDA ELECTRONICS S A USER S MANUAL We enter the desired number of continuous attempts to close the doors before the controller decides not to try closing the doors for another 10 minutes FW The Reopen command is given for the following reasons 1 Photocell FW 2 Obstruction FW 3 Reopen Car Button FW 4 A Car call or a Landing call is received for the station where the car is stopped FW The time that the door closing command stays active after the door has closed FW The time that the door closing command is delayed right after a stop at a station FW NO Inactive FW YES Active FW Opens Normally 1 Will not op
85. t CON2POLE F CONGPOLE F 7 CON4POLE F 7 ANEIKONIZH TOY PHOENIX CONTROLLER Power Inputs Terminal Voltage Current Temperature Comments Blocks 12VAC typical The bridge output CPU 10 VAC min non stabilized electronic circuit 200 kai 202 14VAC max 2 A max 12VDC powers the 14VDCmin output relay coils 20VDCmax Power and Signal 61 68 Typical 8mA 31 38 48VDC 6mA min Panel Signals 69 54 35 51VDC A max per Common at 48VDC 5 55 97 input Typical 8mA Calls 81 96 Ga cave Ms depen I Common at 24VDC input 230V AC DC Power Relays non 401 420 220 250VAC DC 5A max inductive load 2 125VAC 0 5A Sianal Rel 5 5 RLY 10 23 130 100 24VDC 1 0A Relays 60VDC max 0 5A max inductive Problem when there o Motor 252 253 PTC 75 C is large resistance or E E Problem when there 2 Oil 254 255 PTC 75 C is large resistance or absence of PTC LAMDA ELECTRONICS S A Table 4 1 Technical Characteristics INNOVATION THAT LIFTS YOU fN amda USER S MANUAL The power supply connections are shown in Figure 4 1 that follows PHOENIX CONTROLLER LD24 025 1027 QZ 006 m VAS 19 z9 t9 v9 59 99 9 89 n on IC 23 1 24
86. troller awaits the PARK command If set to 0 zero is deactivated After the time set for this timer the car moves to the lowest station If set to 0 zero is deactivated The duration in seconds of the GONG pulse The maximum allowed idle time until the indicators are switched off After an event of a voltage drop the time set in this parameter to elapse before the start of release process evacuation D DOOR PARAMETERS DOOR TYPE A 0 6 DOOR OPENING TIME A 0 99 sec DOOR CLOSING TIME A 0 99sec TIME OP DOOR A gt REOPEN 0 99sec LAMDA ELECTRONICS S A NO Door Semiautomatic Bus Single signal with permanent closing command Two signal Two signal with permanent closing command For Future Use Single signal with permanent opening command O Time at a station with doors open If it is set at 99 it is to floor with door open Time in which the door has to close so that no error occurs The Reopen command is given for the following reasons 1 Photocell 2 Obstruction 3 Reopen Car Button INNOVATION THAT LIFTS YOU f amda D6 07 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 NUMB OF CLOS RETRIES A 2 9 EXTENDED DOOR CLOS TIME A 0 3 sec DELAY ON OPEN DOOR 2 A 0 3
87. uts 1 and 2 FW 12 NO Open Contact 48Vdc trigger Y Y NC Closed Contact 0Vdc trigger 53 If activated while not in motion it triggers the relay output OVERLOAD I3 FULL LOAD NC NO Open Contact 48Vdc trigger Y N Y NC Closed Contact 0Vdc trigger 54 If activated while not in motion it triggers the relay output OVERLOAD 14 HALF LOAD NO Open Contact 48Vdc trigger NAI Y NC Closed Contact 0Vdc trigger 55 I5 VOLTAGE MONITORING NO Open Contact 48Vdc trigger Y Y NC Closed Contact 0Vdc trigger 56 l6 REOPEN NC NO Open Contact 48Vdc trigger Y N Y NC Closed Contact 0Vdc trigger 57 I7 CLOSE DOORS NC NO Open Contact 48Vdc trigger Y N Y NC Closed Contact 0Vdc trigger 58 18 Open Contact 48Vdc trigger Y Y NC Closed Contact 0Vdc trigger 59 I9 OBSTRUCTION A NC NO Open Contact 48Vdc trigger Y N Y NC Closed Contact 0Vdc trigger 99 110 1 Open Contact 48Vdc trigger Y Y NC Closed Contact OVdc trigger 98 111 2 Open Contact 48Vdc trigger Y Y NC Closed Contact 0Vdc trigger 97 12 PRO INP NC NO Open Contact 48Vdc trigger FW Y Y Closed Contact 0Vdc trigger FW 64 113 FUNCTIONS PRO NP 1 1 PHOTOB 3 5 PARK When activated the P

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