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BLUELIGHT SJT-NS05-I-B40-B-1/0 Series User Manual

Villa lift control cabinet
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NS05 Series
Villa Lift Control Cabinet
User Manual
Ver Number: V1.9

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Summary of Contents for BLUELIGHT SJT-NS05-I-B40-B-1/0 Series

  • Page 1 NS05 Series Villa Lift Control Cabinet User Manual Ver Number: V1.9...
  • Page 2 Content Content Content .............................. 1 FOREWORD ............................8 Chapter 1 SAFETY INFORMATION......................9 1.1. LABEL DESCRIPTION ............................... 9 1.2. SAFETY PRECAUTIONS ............................9 Chapter 2 Introduction and Installation .................... 12 2.1. System Composition and Model Description ....................... 12 2.2. Nameplate Information ............................13 2.3.
  • Page 3 Content 2.8.3 Protect the controller from Foreign Object ....................44 2.8.4 Removing and attaching the Terminal Cover ..................... 44 2.8.5 Installation of braking resistor box ......................46 2.9. Product Function ..............................47 Chapter 3 Wiring ..........................55 3.1. Cautions of wiring ..............................55 3.2.
  • Page 4 Content 4.2. Structure and Switch process of the Operator Interface ..................69 4.3. Parameter Setting ..............................70 4.4. Commissioning Parameters ..........................71 4.5. Save Parameter ..............................74 4.6. Hoistway Learning ..............................74 4.7. Motor Auto-tuning ............................... 75 4.8. Motor Load Tuning ............................... 75 4.9.
  • Page 5 Content 5.4.6 Motor Setup Parameters (F5-F6) ....................... 92 5.4.7 Multiple PI Setup Parameters (F7) ......................93 5.4.8 Encoder Setup Parameters (F8) ......................... 94 5.4.9 Control Setup Parameters (F9)........................94 5.4.10 No-load Compensation Setup Parameters (FA) ..................94 5.4.11 Special Parameters (FC) ........................... 95 5.4.12 Spare parameters(FD).........................
  • Page 6 Content 6.6. Parking Function Setup ............................108 6.7. Fireman Operation Function Setup ........................109 6.8. Rear Door Control Setup ............................ 110 6.8.1 Different Mode Selection ......................... 110 6.8.2 Rear Door Condition Setup ........................111 6.9. Input Type Setup ..............................111 6.10.
  • Page 7 Content 7.4. Parameter Setup ..............................127 7.5. Motor Initial Angle Tuning ..........................127 7.6. Inspection Running ............................128 7.6.1 Inspection Running in Machine Room ..................... 128 7.6.2 Inspection Running on Car Top/Cabin ..................... 129 7.7. Hoistway Learning .............................. 129 7.8. Normal Speed Running ............................130 7.9.
  • Page 8 Content 9.5. Warranty ................................161 Chapter 10 Controller installation with EMC Standard ..............162 10.1. EMC Briefing ..............................162 10.2. EMC Characteristics of Integrated Controller ....................162 10.3. EMC Installation Guide ............................. 162 10.3.1 Noise Control ............................162 10.3.2 Wiring ..............................163 10.3.3 Ground Connection ..........................
  • Page 9 Content FOREWORD Thank you for using NS05 series villa lift control cabinet. NS05 series villa lift control cabinet is new generation control cabinet for villa lift. It combines elevator intellectual logic control and high-performance VVVF drive control. With user friendly interface and advanced technology integrated together, the system not only has outstanding performance, but also shows strong reliability in practice.

  • Page 10: Chapter 1 Safety Information

    Chapter 1 Safety Information Chapter 1 SAFETY INFORMATION 1.1. LABEL DESCRIPTION The following conventions are used to indicate precautions in this user guide. Failure to notice the precautions provided in this user guide can result in serious or even fatal injury to damage to the products or to related equipment and systems.

  • Page 11: Trial Operation

    Chapter 1 Safety Information  Wiring  Always turn OFF the input power supply before wiring terminals. Otherwise, an electric shock or fire can occur.  Wiring must be performed by an authorized person qualified in electrical work. Otherwise, an electric shock or fire can occur. ...
  • Page 12 Chapter 1 Safety Information  Do not touch the radiation fins (heat sink), braking resistor, or Braking Resistor Unit. These can become very hot. Otherwise, a burn injury may occur.  Do not touch the braking resistor. Doing so can result in electric shock. ...

  • Page 13: Chapter 2 Introduction And Installation

    Chapter 2 Introduction and Installation Chapter 2 Introduction and Installation This chapter introduces models, specifications, product appearance, size, and product function of the NS05 series villa lift control cabinet, and describes the checks required upon receiving or installing an Inverter. 2.1.

  • Page 14: Nameplate Information

    Chapter 2 Introduction and Installation 2.1.2 Model description The model of NS05 series villa lift control cabinet on the nameplate indicates the specification, voltage level, and maximum motor capacity of the controller in alphanumeric codes. Refer to Figure 2.2 for example (5.5kw, 400V rank). SJT -...

  • Page 15: Specifications

    Chapter 2 Introduction and Installation 2.3. Specifications Specifications of NS05 series villa lift control cabinet in chart 2.1. Chart 2.1 Specifications : ODEL 4002 4003 4005 SJT-NS05-I-B40□□-B-1/0-□ (KW) MAX MOTOR POWER (KVA) RATED OUTPUT CAPACITY RATED OUTPUT CURRENT , AC380 (C MAX OUTPUT VOLTAGE PHASE ORRESPONDING TO THE INPUT VOLTAGE...
  • Page 16 Chapter 2 Introduction and Installation 2.1 S ’ HART PECIFICATIONS PWM(SVPWM) C ONTROL MODE PACE VECTOR LOSED LOOP VECTOR CONTROL (6~15KH ARRIER FREQUENCY DJUSTABLE 1:1000 PEED CONTROL RANGE ±0.05%(25̊ C ±10̊ C ) PEED CONTROL ACCURACY PEED RESPONSE ORQUE LIMIT ET BY PARAMETER ±5% ORQUE ACCURACY...
  • Page 17 Chapter 2 Introduction and Installation 2.1 S ’ HART PECIFICATIONS VER SPEED PROTECTION ROTECT AT SPEED EXCEED THE MAXIMUM ALLOWABLE SETTING PEED DEVIATION PROTECTION ROTECT AT SPEED DEVIATION EXCEEDS ALLOWABLE VALUE FAULT PROTECTION ROTECT AT DISCONNECTION PHASE ERROR TUNING PROTECTION ROTECT AT AUTO TUNING FAULT PHASE PROTECTION...
  • Page 18 Chapter 2 Introduction and Installation 2.4. Appearance and External Dimension The product can be separated to main control cabinet and ARD cabinet two parts, and can be multiple installed or separately installed. ( ) 2.4 A IGURE PPEARANCE AND EXTERNAL DIMENSION OF INTEGRATED CABINET UNIT Chart 2.2 Cabinet dimension Exterior Dimension...
  • Page 19 Chapter 2 Introduction and Installation 2.5. Cabinet Layout diagram 2.5 L IGURE AYOUT DIAGRAM OF MAIN CABINET IGURE LAYOUT DIAGRAM OF CABINET...
  • Page 20 Chapter 2 Introduction and Installation 2.6. Introduction of control cabinet parts 2.6.1 Integrated controller of NS05 series villa lift NS05 series villa lift controller is split type design. Pin definition is in chart 2.3 2.3 I HART NPUT AND OUTPUT DEFINITION ON MAINBOARD EFINITION EFINITION EFINITION...
  • Page 21 Chapter 2 Introduction and Installation 2.6.2 iBL6-DIO-V6.6 car top interface board Car top interface board has fixed car top wiring port, which make it easy for customer operation. If customer use integrated car top inspection box from our company, only external cable is needed. Making cable according to the diagram we supplied is also possible.
  • Page 22 Chapter 2 Introduction and Installation Chart 2.4 car top interface board iBL6-DIO-V6.6 port introduction Plug Port Signal function CLF-1 PE CLF-3 N1 Car fan AC220V-N CLF-4 N1 Car lamp AC220V-N CLF-5 PE CLF-7 L32 Car fan AC220V-L(NC) CLF-8 L33 Car lamp AC220V-L(NC) CLF1-1 N1 Car fanAC220V-N CLF1-2 N1...
  • Page 23 Chapter 2 Introduction and Installation car top interface board iBL6-DIO-V6.6 port introduction (cont’) Chart 2.4 Plug Port Signal function Car top intercom power DC0V ICU6-1 GND (output) ICU6-2 #2 Car top intercom #2 ICU6 ICU6-5 #1 Car top intercom #1 Car top intercom power DC12V ICU6-6 DC12 (output)...
  • Page 24 Chapter 2 Introduction and Installation car top interface board iBL6-DIO-V6.66 port introduction (cont’) Chart 2.4 Plug Port Signal function Door bypass warning output OUT2-1 BY0 (Note:Relay close when action,output DC24V) OUT2 OUT2-2 GND DC 0V OUT2-3 Null Null OUT2-4 Null Null WMQ-1 +24V DC +24V output...
  • Page 25 Chapter 2 Introduction and Installation car top interface board iBL6-DIO-V6.66 port introduction (cont’) Chart 2.4 Plug Port Signal function AC220V-N (Note: output, for rear door light curtain power) KAB2-1 201 KAB2-3 PE KAB2-4 GND DC 0V(car top board input GND) DC +24V (output)...
  • Page 26 Chapter 2 Introduction and Installation car top interface board iBL6-DIO-V6.66 port introduction (cont’) Chart 2.4 Plug Port Signal function DC2-1 117B Car door sub contact + DC2-2 116A Car door sub contact - DC +24Vinput(car top and car power) DC2-3 +24V DC 0Vinput (car top and car power \inter GND)...
  • Page 27 Chapter 2 Introduction and Installation car top interface board iBL6-DIO-V6.6 port introduction (cont’) Chart 2.4 Plug Port Signal function Emergency bell output (*connect to GND DC9-2-4 B3 to bell)(rear door) DC9-2-5 +24V DC +24Voutput(for car) DC9-2-6 +24V DC +24Voutput(for car) DC9-2-7 C+ Car CAN communication CAN-H(Sub COP)...
  • Page 28 Chapter 2 Introduction and Installation 2.6.3 HPOB.VH1.2 brake power board Brake power board, to supply DC110 to cabinet and DC24V power. Figure 2.9 HPOB.VH1.2 brake power board Chart 2.5 Brake power board port definition Plug Port Signal Function CN2-1 BK2- Brake power-(DC110)...
  • Page 29 Chapter 2 Introduction and Installation 2.6.4 BL2000-JDB-V6.4 car top board Figure 2.10 BL2000-JDB-V6.4 car top board Figure 2.11 Component location and dimension of BL2000-JDB-V6.4...
  • Page 30 Chapter 2 Introduction and Installation Chart 2.6.1 Port of car top board Plug Port Signal function J1-1 J1-2~J1-7 output COM J1-2 nudge close2output J1-3 Close 2output J1-4 Open 2output J1-5 nudge close1output J1-6 Close 1output J1-7 Open 1output J1-8 Arrival gone output J1-9 Fan output J1-10...
  • Page 31 Chapter 2 Introduction and Installation Chart 2.6.2 Port of car top board (cont’) Plug Port Signal function J3-1 RS485 RT- J3-2 RS485 RT+ J3-3 J3-4 J4-1 J4-2 [V6.3] J4-3 I2C SDA VCC COM SDA SCL J4-4 I2C SCL J2-1 Spareinput0 J2-2 Spareinput1 [note2]...
  • Page 32 Chapter 2 Introduction and Installation Chart 2.6.2 LED indicator on car top board Function Working indicator of car top board Power indicator CAN receive indicator CAN send indicator Indicator of communication with main board(ON:with communication; OFF:no communication) Indicator of communication with sub command board(ON:with communication;OFF:no communication)...
  • Page 33 Chapter 2 Introduction and Installation 2.6.5 BL2000-ZLB-V6.1 car command board Car command board BL2000-ZLB-V6.1 has several input and output ports, and has 16 car call buttons. It can be extended by BL2000-CEB extension board( each board has 8 buttons) maximun up to 64 floors.
  • Page 34 Chapter 2 Introduction and Installation Chart 2.7 Port of car command board Plug Port Signal function JNn-1 Answer output JNn-2 JN1-JN16 JNn-3 JNn-4 car call input JN17 14P 90 degree pins car call extension J1-1 Open door answer J1-2 J1-3 J1-4 Open door input J2-1...
  • Page 35 D I P OFF:IC card disable SW3: IC card enable set ON:IC card enable OFF:With Bluelight IC card SW4: IC card mode set [note2] ON:With other IC card Note 1:If taking J6-2 as fireman input, F1-23 should be set to 2; Under the other fire mode,J6-2is considered as non-stop input.
  • Page 36 Chapter 2 Introduction and Installation Chart 2.7.1 function setting SW DIP switch Select function Function introduction SW-1 SW-2 SW-3 SW-4 Main COP board–Standard Work as main COP board Single COP for through door Can be configured for through-door Sub COP board Work as normal sub COP board Rear door COP board Work as rear door COP board...
  • Page 37 Chapter 2 Introduction and Installation 2.6.6 HSPG_V6F interface board 2.6.7.1 Interface board HSPG_V6F interface card is a type of SIN/COS encoder for general gearless motor. This card works with 5V SIN/COS encoder. Gearless motor use signal(A/B/R/C/D).(Suit for Heidenhan 1387 encoder).HSPG_V6F interface board is shown in figure 2.14.
  • Page 38 Chapter 2 Introduction and Installation 2.6.7 HARD-V5 emergency power board This power board combines emergency rescue and electric brake release function together. According to system running status, it will automatically judge and decide system to enter status, without gap, intelligent and reliable.
  • Page 39 Chapter 2 Introduction and Installation Chart 2.9 HARD-V5 Emergency power board port introduction(Cont’) Plug Port Signal Function J2-1 24V Power COM J2-2 Phase lost detection signal input J2-3 Main contactor control output J2-4 CAN+ J2-5 ARD+13V power ARD to IO interface J2-6 +24V power board...
  • Page 40 Chapter 2 Introduction and Installation 2.10 HART CAR TOP BOX PORT INTRODUCTION Plug Port Signal function CLF-1 PE CLF-3 N1 Car fan AC220V-N CLF-4 N1 Car lamp AC220V-N CLF-5 PE Car fan AC220V-L(Disconnect when CLF-7 L32 turn off fan) Car lamp AC220V-L ( Disconect CLF-8 L33 whenturn off lamp)...
  • Page 41 Chapter 2 Introduction and Installation 2.10 (Cont’) HART CAR TOP BOX PORT INTRODUCTION Plug Port Signal function Emergency power GND (DC 0V) IPS-1 GND Emergency light power input (DC 12V) IPS-2 YJD AC220V-N (*output, Emergency power IPS-4 N1 charge port) (Internal Emergency bell input(*connect to GND IPS-5 B3...
  • Page 42 Chapter 2 Introduction and Installation 2.10 (Cont’) HART CAR TOP BOX PORT INTRODUCTION Plug Port Signal function CZ1-1 L31 Car top lamp AC220V-L (Internal CZ1-2 N1 Car top lamp AC220V-N wiring) CZ1-3 PE DC3-1 200-1 Door controller power input AC 220V-L DC3-3 PE Safety circuit(start point of car top safety DC3-4 116...
  • Page 43 Chapter 2 Introduction and Installation 2.6.9 Operation box in cabinet 1. Interface of operation box Figure 2.18 Operation interface Chart 2.11 Test and emergency operation on panel Function Lable Description Main Power Switch Main Power SW. Control contactor for power control of cabinet Safety Switch STOP Cut off or recover safety circuit...
  • Page 44 Chapter 2 Introduction and Installation 2. Monitor function of operation box 1)Show floor and running direction of elevator in normal condition. 2)Show fault code of elevator when in fault status. 3)Enter to small keypad adjusting interface through menu function key, which includes: H-01:Current elevator speed H-02:Hoistway learning H-05:Angle tuning...

  • Page 45: Installation Site

    Chapter 2 Introduction and Installation 2.7. Confirmation upon Delivery Check below items when receiving the products. Chart 2.12 Things to check upon delivery OTES ETHOD Check if product model is correct. Check the model on the nameplate. Check if product is broken. Check exterior for any damage caused by shipment.
  • Page 46 Chapter 2 Introduction and Installation  Wall-mounted type Both integrated installation and split installation can be selected. Use M8 expansion bolt and mount cabinet on the wall. Please notice the distance between cabinet and all around to ensure heat dissipation. Installation dimension is shown in following drawing. ( Uint:mm) Figure 2.20 Wall-mounted installation(...

  • Page 47: Floor Type

    Chapter 2 Introduction and Installation  Floor type Floor type installation can be not fixed on the wall, but need to ensure its stability of installation. Ensure the cabient will not move because of some reason. Figure 2.22 Floor type installation ...

  • Page 48: Product Function

    Chapter 2 Introduction and Installation 2.9. Product Function Functions list shown in chart 2.14-2.17 . Chart 2.14 Basic Function List Name Purpose Description Note 1.Door auto open at stop; 1. Turn all inspection switch to 2.Door auto close in delay time; normal state;...
  • Page 49 Chapter 2 Introduction and Installation Cart 2.14 Basic Function List (Cont’d) Name Purpose Description Note Full-load drive nearest At full load, car only respond to car Elevator back to normal state when by pass registered call, not to landing call. overload is cleared.
  • Page 50 Chapter 2 Introduction and Installation Cart 2.14 Basic Function List (Cont’d) Name Purpose Description Note Elevator enters parking mode at electric lock closed. 1.Elevator does not respond to landing call, service all car call and return to parking floor (adjustable); 2.
  • Page 51 Chapter 2 Introduction and Installation Chart 2.15 Special Function List (Cont’d) Name Purpose Description Note Press car call button again could Double press Cancel Such function is also achievable cancel such call. (Button answer light Cancellation call when elevator is not running. off) 1.
  • Page 52 Chapter 2 Introduction and Installation Chart 2.15 Special Function List (Cont’d) Name Purpose Description Note 1. Time is set by 24hrs 2. Cancel this function by setting both on/off time to 00. 3. This function is only available with electric lock open, otherwise elevator in Auto Automatic parking mode.
  • Page 53 Chapter 2 Introduction and Installation Chart 2.15 Special Function List (Cont’d) Name Purpose Description Note After power cut, elevator powered by emergency leveling device and level to nearby landing zone free passenger. Such function must meet certain requirements: 1. After power cut, elevator powered by emergency leveling device.
  • Page 54 Chapter 2 Introduction and Installation Chart 2.16 Main safety protection Function Name Elevator Description Safety Circuit Safety circuit open, entire system stops immediately. Elevator can only run with all door interlock closed, otherwise entire system Door interlock stops immediately. System check operation contactor constantly, if found any abnormality, system Operation Contactor stop immediately.
  • Page 55 Chapter 2 Introduction and Installation Chart 2.17 Optional Function List Name Elevator Description Remote Monitoring Monitor elevator running status in monitor current through wire/wireless network; Arrival Gong Clock announce; Voice Synthesizer Voice announce; Identity Control ID/IC Car control; Weighing device Weighing device for elevator;...
  • Page 56 Chapter 3 Wiring Chapter 3 Wiring This chapter describes the terminals and wiring specifications for main circuit, control circuit and PG card of the integrated controller. This chapter introduces the wiring and installation of cabinet. Facing with different type of environment, customer need to select suitable cabinet and wire installation according to site condition.
  • Page 57 Chapter 3 Wiring Chart 3.1 Main circuit terminal Label function (N)、L1、L2、L3 3-Phase input power, N is neutral B1、B2 Connect to braking resistor U3、V3、W3 Cabinet output terminal, connect to motor Note 1: When install, please notice main circuit phase and input /output cable are correct or not, Otherwise, cabinet cannot work normally.
  • Page 58 Chapter 3 Wiring Figure 3.2 Port definition of interface board (Cont’d) Plug Port Signal function D3-1 BK2- DC110V-(Brake power board output) D3-2 Null D3-3 Null D3-4 119 Brake control D3-5 101 Safety circuit power-(24V) D3-6 100 Safety circuit power+(24V) D3-7 GND Control system power GND D3-8 BK1+ DC110V+(Brake power board output)...
  • Page 59 Chapter 3 Wiring Figure 3.3 Introduction of interface board----machine room (Cont’d) Plug Port Signal function T5-1 Speed governor reset T5-2 Speed governor remote testing(GND) T5-3 Speed governor test T5-4 Null T6-1 +24V Spare output T6-2 Spare output T6-3 Spare input T6-4 Spare output T6-5...
  • Page 60 Chapter 3 Wiring Figure 3.4 Interface board port introduction--traveling cable (Cont’d) Plug Port Signal function GC3-1 200 Door controller power input AC 220V-L GC3-2 Null Null GC3-3 PE Safety circuit(start point of car top safety GC3-4 116 and car door circuit) GC3-5 117 Front hall door and car door shorting point GC3-6 117F...

  • Page 61: Grounding Terminal

    Chapter 3 Wiring Figure 3.5 Interface board port introduction--shaft cable (Cont’d) Plug Port Signal function HC5-1 PE HC5-2 106 Safety circuit(Short when emergency running) HC5-3 109 Safety circuit(Short when emergency running) HC5-4 117A Safety circuit(start point of front hall door) HC5-5 103 Safety circuit(Pit safety return point)...
  • Page 62 Chapter 3 Wiring 3.3. Introduction of main electric circuit This section mainly introduce main schematic diagram of NS05 cabinet. When customer do wiring or use, the content and diagram can be taken as reference to ensure it works normally. 3.3.1 Elevator main circuit To meet leakage current protection requirement in GB7588.1, leakage current detection function need to be added in safety circuit, refers to diagr am 3.5.

  • Page 63: Brake Circuit

    Chapter 3 Wiring By switching cabinet emergency running switch or car top inspection switch, elevator can enter to inspection mode. After operating car top inspection switch, ID12 on car top board inspection signal will be valid. Meanwhile, inspection switch will cut off inspection circuit. Only when operating car top inspection button and direction button, it will connect safety circuit and make e levator move in inspection mode.

  • Page 64: System Wiring Diagram

    Chapter 3 Wiring 3.4. System wiring diagram Figure 3.5 Main circuit diagram Figure 3.6 Safety circuit diagram...
  • Page 65 Chapter 3 Wiring 3.5. Precautions with Wiring 1. Before connection, please pay attention to the precautions mentioned in chapter 1.2, especially the “warning” and “caution” part. 2. Before connection,make sure that the power supply is off, and the charge indicator LED is out. 3.

  • Page 66: Chapter 4 Digital Operator

    Chapter 4 Operator Chapter 4 Digital Operator NS05 series villa lift control cabinet is equipped with LCD digital operator OP-V6. It is a tool for commissioning and maintenance of control system. It provides a nice and easy human-machine interface with both Chinese and English on display.
  • Page 67 Chapter 4 Operator 4.1.2 Operator Keys Chart 4.2 Operator Keys names and functions Keys Name Function Description Run the controller in keypad control mode; button is [RUN] disabled in program control mode. Enable/disable is set through parameters. Stop the controller in keypad control mode; button is [STOP] disabled in program control mode.

  • Page 68: Current Fault

    Chapter 4 Operator 4.1.3 LCD Display Controller enters the main interface after power on. The main interface is shown in Figure 4.2. The main interface displays the main information of the elevator in present status, including floor number, elevator speed, running direction, door lock status, running model, fault code and else. On the main interface, the above information is live updated.
  • Page 69 Chapter 4 Operator 2. Setting log in level and corresponded password. 3. Adjusting the settings of quick menu 4. Monitor the status of the elevator and the controller. 5. Parameter check, setting and save. 6. Hoistway learning 7. Motor parameter learning 8.
  • Page 70 Chapter 4 Operator 4.2. Structure and Switch process of the Operator Interface The structure and interface switch process of the digital operator, as shown in Figure 4.3. Elevator Control INSP ER :01 FLOOR13A 1.00m/s CLOSE FULL [ENTER] [ESC] MonitorPara(U) MonitorPara(U) Hoistway(U0) [ENTER] [ENTER]...

  • Page 71: Parameter Setting

    Chapter 4 Operator 4.3. Parameter Setting Floor Data(F0) Floor Data(F0) Floor Data(F0) SettingPara(F) [ENTER] [ENTER] Total Floor Total Floor Total Floor Floor Data(F0) F0-00: 6 F0-00: 6 F0-00: 06 Run Data(F1) [ESC] [ESC] 2 ~ 64 2 ~ 64 2 ~ 64 Time Data(F2) Floor Data(F0) Floor Data(F0)
  • Page 72 Chapter 4 Operator Input Type(F3) Input Type Input Type [ENTER] [ENTER] Input Type F3-00: F3-00: F3-00=4294967295 00:ON 00:ON [ESC] [ESC] 0 ~ 4294967295 Input Type(F3) Input Type Input Type Car Input Type F3-00: F3-00: F3-01=4294967295 01:ON 00:OFF 0 ~ 4294967295 Input Type F3-00: 31:ON...
  • Page 73 Chapter 4 Operator Door open and close flowchart is shown in Figure 4.7. 4.7 D IGURE ONTROL INTERFACE In Motor Control interface: Press [UP]/ [DOWN] key to select the running mode is continuous running or JOG. In continuous running mode, press [RUN] key to start motor first, press [UP]/ [DOWN] key to increase/decrease the motor given speed.
  • Page 74 Chapter 4 Operator Modified(D) Call Test(D3) [ENTER] Door Ctrl(D1) 01 call test Motor Ctrl(D2) D3-00:Success [ESC] Call Test(D3) Call Test(D3) 02 call test D3-01:Success Call Test(D3) 06 call test D3-05:Success 4.9 E IGURE LEVATOR ALL TESTING NTERFACE The interface of communication testing is shown in the Figure 4.10. 4.10 C IGURE OMMUNICATION...

  • Page 75: Save Parameter

    Chapter 4 Operator Duplex control communication Duplex control system communication good ET/ER Duplex control system communication abnormal (When choose this option) 4.5. Save Parameter In the interface of saving parameter, press the [ENTER] to save all the parameters in the F menu. During saving process, LCD will display “Waiting”;...

  • Page 76: Motor Auto-Tuning

    Chapter 4 Operator 4.6.1 For controller program of new version In new version, hoistway learning can be started at any position. After hoistway learning start, elevator will return to bottom limit and stop for 10 seconds, then automatically run upward until top limit to complete hoistway learning. 4.7.

  • Page 77: Time Setting

    Chapter 4 Operator Load Tune Load Tune Load Tune Load Tune Light Loaded Light Loaded Light Loaded Light Loaded [ENTER] Waiting Success Failure [ENTER] to start Load Tune FULL Loaded [ENTER] …… [ENTER] to start 4.14 M IGURE OTOR UNING ROCESS 4.9.
  • Page 78 Chapter 4 Operator [ESC] 01:Er2 01:Er2 Fault Reaport 01:Er2 [ENTER] 12:10:36 E1: 1234567890 Elevator Fault Floor:6 ↑ [ESC] 1.00m/s E2: 0000000000 ControlerFault 2010-11-10 E3: 0000000000 Err 02:001 Floor:12 ↑ 2007-11-10 Fault Reaport [ENTER] Elevator Fault [ESC] ControlerFault 4.16 F IGURE AULT ECORD Press [ESC] key to return to the Previous Menu.
  • Page 79 Chapter 4 Operator Language Selection The flowchart for the language selection is shown in the Figure 4.18. 4.18 L IGURE ANGUAGE ELECTION Press [UP] or [DOWN] to select language, and press [ENTER] key to save the selection. User password input and setting In the interface of password, press the [LEFT] or [RIGHT] key to move the arrow to the pointed position, press [UP] or [DOWN] key to increase or decrease the pointed value, press the [ENTER] key to input the password.

  • Page 80: Parameter Copy

    Chapter 4 Operator 4.12. Parameter Copy The function parameter copy is to simplify the parameter setting and commissioning process, especially for multiple elevators with same configurations. After finishing the parameter setting and commissioning of one elevator, this function can copy all the parameters (Saved in the digital operator memory), take the digital operator and connect to other elevators, copy all the parameters to the controller, check parameters, and the elevator can run normally.
  • Page 81 Chapter 4 Operator 4.14. Blue-Light Traction machine Parameter Input When using Blue-Light Integrated Controller, if the traction machine is also made by Blue-Light, you only need to input the machine model number and encoder information on the machine name plate to finish the parameter setting of the machine.

  • Page 82: Chapter 5 Parameters

    Chapter 5 Parameters Chapter 5 Parameters 5.1. Parameters Function Classifications According different function, parameters are divided into groups as shown in chart 5.1. Chart 5.1 Parameter Functions List Function Symbol Function Name Monitoring Parameters Setup Parameters Environment Initialization Commissioning Parameters 5.2.

  • Page 83: Monitoring Parameters

    Chapter 5 Parameters 5.3. Monitoring Parameters 5.3.1 Hoistway Location (U0) Hoistway location parameters refer to the hoistway switches (top/bottom terminal/limit switches) position data on each floor recorded in the controller after hoistway learning process, and the unit is m (meter). If need to calculate the distance between two floors, simply minus the calibration data on these two floors.
  • Page 84 Chapter 5 Parameters 5.3.2 Monitoring Parameter for I/O Status, Cabin Signal & Interference Appraisal (U1-U5) Chart 5.3 U1~U5 Monitoring Parameter List Para Display Content Range Unit Page Controller input data show in decimal type. It U1-00 Input Data will be turned into binary type to show the logical status of the input port.
  • Page 85 Chapter 5 Parameters Chart 5.3 U1~U5 Monitoring Parameters List (Cont’d) Para Display Content Range Unit Ref Page Show the elevator control software information. U5-00 CtrlSoftWare NO Provide the current software version for factory maintenance and software upgrading. Show the drive control software information. U5-01 DriveCodeVer Provide the current software version for factory...
  • Page 86 Chapter 5 Parameters 5.3.3 Drive Monitoring Parameters (U6) Chart 5.5 U6 Drive Monitoring Parameters List Para Display Content Range Unit Page U6-00 Power Rated power class U6-01 Ref Speed Reference Speed Feedback Speed U6-02 Feedback Speed Load U6-03 The current load in % of full load DC Voltage U6-04 DC BUS voltage...
  • Page 87 Chapter 5 Parameters 5.4.2 Parameters for Running Setup (F1) Chart 5.7 Running Setup Parameters List Para Factory Live Content Range Unit Display Setting Change Page Elevator speed at motor rated speed. Calculate through motor Car Speed F1-00 rated rev, traction ratio, 0~4.0 deceleration ratio and traction...
  • Page 88 Chapter 5 Parameters Chart 5.7 Running Setup Parameters List (Cont’d) Para Factory Live Content Range Unit Display Setting Change Page B1 refers to the acceleration speed curve changing rate, smaller value F1-10 Acceleration B1 0.1~1.0 means elevator start with smooth and gentle increase of speed.
  • Page 89 Chapter 5 Parameters Chart 5.7 Running Setup Parameters List (Cont’d) Para Factory Live Content Range Unit Display Setting Change Page Selection of driving mode, when setting “1”, attendant/VIP mode close door manually; when setting “3”, elevator automatically do test run, other value is invalid.
  • Page 90 Chapter 5 Parameters 5.4.3 Time Setup Parameters (F2) Chart 5.8 Time Setup Parameters List Para Factory Live Display Content Range Unit Setting Change Page Brake open first then run elevator speed curve. This is to improve the elevator start F2-00 Brake ON Time 0.00~9.99 1.00...
  • Page 91 Chapter 5 Parameters Chart 5.8 Time setup Parameters List (Cont’d) Para Factory Live Content Range Unit Display Setting Change Page In Auto mode, if have no car/landing F2-11 Lamp Off Time call during set time, system will cut 0~999 car light power from COP. To prevent wire rope slipping or elevator stuck,...
  • Page 92 Chapter 5 Parameters 5.4.4 Input type setup Parameters (F3) Chart 5.9 Input Type Setup Parameters List Para Factory Live Display Content Range Setting Page Setting the input type on main control panel. Each bit corresponds to one terminal. Set default level of 4024434 Input F3-00...
  • Page 93 Chapter 5 Parameters Chart 5.10 Service Setup Parameters List (Con’d) elevator front door enable /disable at floor 4294967295 F4-04 Door Select A1 corresponds to each bit 4294967295 (1~32) (ON/OFF: Front door enable /disable at this floor) elevator rear door enable /disable at floor Door Select B1 F4-05 corresponds to each bit...
  • Page 94 Chapter 5 Parameters Chart5.11 Motor Setup Parameters List (Con’d) For asynchronous machine, F5-09 NO-Load Current 0.1~50 no-load excitation current. For asynchronous machine F5-10 Rated Slip 0.1~10 rated slip. (Nameplate) controller carrier Carrier Freq F6-00 2~12 frequency. Speed Zoom (Reduce elevator F6-02 SpeedZoom 0~100...
  • Page 95 Chapter 5 Parameters 5.4.8 Encoder Setup Parameters (F8) Chart 5.13 Encoder Setup Parameters List Para Factory Live Display Content Range Unit Setting Change Page The encoder pulse count F8-00 Encoder PPR 100~8192 2048 98/99 per-revolution. PG card type F8-02 PGType (0: Incremental encoder, 98/99 1: Sine/Cosine encoder)...
  • Page 96 Chapter 5 Parameters Chart 5.15 No-load Compensation Setup Parameters List (Con’d) Para Factory Live Display Content Range Unit Setting Change Page compensation effect FA-09 PLTime 1~1000 time compensation effect FA-11 PLKP2 0~50000 proportional gain 2 compensation effect FA-12 PLKPMOD 0~50000 proportional factor 5.4.11 Special Parameters (FC) Special parameters (FC) are mapping a part of factory parameters (FX) in customer level;...
  • Page 97 Chapter 5 Parameters 5.4.12 Spare parameters(FD) Spare parameter (FD) is reserve parameter group, FD-00 to FD-39, totally 40 spare parameters. Bit setting group (FD-05、FD-21、FD-22、FD-23): Each parameter can be set in a numerical range of 0~65535, which is split into 16 special functions of the ON/OFF set in binary way, which opens (ON) for the binary value of 1, and the 0 is closed (OFF).
  • Page 98 Chapter 5 Parameters Chart 5.18 Spare parameter 6 (FD-05) (Con’d) Function Num. Meaning definition Inspection run in power off ON: Inspection can run in power off emergency operation; OFF: Inspection cannot FD-05-02 emergency run in power off emergency operation. operation ON: ER39 error can only be reset once the system successful complete braking force ER39 reset FD-05-03...
  • Page 99 Chapter 5 Parameters Chart 5.19 Spare parameter 22 (FD-21) (Con’d) Num. Function definition Meaning default FD-21-08 Spare Factory spare, do not set it FD-21-14 Set to 1, increase deceleration rate of torque Increase deceleration rate of cancellation when stop. Sometimes need to increase FD-21-15 torque cancellation when stop F2-10 to ensure the integrity of torque cancellation...
  • Page 100 Chapter 5 Parameters Byte setting group (FD-04, FD-07, FD-25, FD-26, FD-27): Chart 5.22 Spare parameter (Byte setting group) Num. Function definition Meaning Range If one elevator in duplex is busy, the other elevator will FD-00 Duplex support time 1~30s support it after support time. FD-01 Single leveling sensor When set to 1, it permits single leveling sensor.

  • Page 101: Chapter 6 Parameters Setup

    Chapter 6 Parameters Setup Chapter 6 Parameters Setup 6.1. Elevator Running Speed Setup 6.1.1 Elevator Rated Speed, Motor Rated Speed, Encoder pulses Setup 1. Elevator rated speed (F1-00) can be calculated through motor RPM, traction ratio, reduction ratio and traction sheave diameter.
  • Page 102 Chapter 6 Parameters Setup If bottom/top terminal (X8/X7) is valid, elevator slow down to 1/2 inspection speed to prevent exceeding the limit. When up/down jogging is cancelled, speed given will be instantly 0 without deceleration curves. 6.1.3 Rescue Speed In both case the elevator will run in rescue speed (F1-05): 1.
  • Page 103 Chapter 6 Parameters Setup 5. F1-14 (S curve P3) 6. F1-15 (S curve P4) P3, b2, P4 P1, b1, P2 Decrease Increase P3, b2, P4 P1, b1, P2 Increase Decrease 6.2 P IGURE ARAMETERS DJUSTMENTS FOR PEED URVE  Elevator running comfort level can be set through the above 6 parameters. (Comfort level is also related to the drive control parameters.) The relationship between b1, b2, P1, P2, P3, P4 and running curve are shown in Figure 6.2.
  • Page 104 Chapter 6 Parameters Setup Speed (F1-06~F1-00) Threshold of smooth speed for start(F1-04) Zone Speed(F1-16) Load Compensation Torque Inner Running Direction Inner Running Release Running Contactor(Y4) Inner Running Brake Release Output(Y7) Running Speed Zero Speed Arrival at speed deceleration point for t8 t9 t10 t0 t1 t2 t3 destination floor...
  • Page 105 Chapter 6 Parameters Setup Chart 6.1 Timing definition for Elevator Normal Running (Cont’d) Time Definition and Setup Instruction Zero speed time (F2-04): When elevator runs to the destination floor and speed is lower than the zero-speed limit (F1-16), after zero speed time (F2-04), brake release output is disabled. If zero t6~t7 speed time is set too short, brake may close before elevator completely stop.
  • Page 106 Chapter 6 Parameters Setup Definitions and instructions for timing diagram above are shown below in Chart 6.2. Chart 6.2 Timing Definition for Elevator Inspection Running Time Definition and Setup Instruction t0~t9 Definition for t0~t9 are the same with elevator normal running Inspection braking time (F2-02): At inspection running stop, system will not wait for elevator zero speed to close brake.

  • Page 107: Door Control

    Chapter 6 Parameters Setup 6.3.4 Timing Diagram for Recalibration Running Leveling Speed (F1-05) Half Speed Threshold of Zero Speed(F1-16) Load Compensation Torque Inner Running Direction Inner Running Release Running Contactor(Y4) Inner Running Brake Release Output(Y7) Running Speed Zero Speed Leveling Zone Signal 1(X9) Leveling Zone Signal 2(X10) Leveling Enter into...
  • Page 108 Chapter 6 Parameters Setup Door Operator Running Door Lock Door Close Limit Door Close Output 6.8 T IGURE IMING IAGRAM FOR LOSE T0: The actual door-drive running time for door to open or close completely; T1: Door open or close time (F2-08). T1 should be 1s more than T0 to ensure the door normal open/close action, otherwise: 1.
  • Page 109 Chapter 6 Parameters Setup 5. When elevator enables disabled function, if there are disabled landing/car calls on current floor, waiting time will be door open delay time (F2-06). 6.4.3 Door Control in Attendant and Special use mode In attendant/special use mode, door must be closed manually. If door driving mode (F1-21) is set to 1, door close will be jog mode, if set to 0, door will close completely after pushing door close button, no need to push the button continuously.
  • Page 110 Chapter 6 Parameters Setup 1. Electric lock input (serial park) valid, set auto parking (F1-28) as 1, automatic start time (F2-14), automatic stop time (F2-15) to correspond value to enable this function. 2. Electric lock input (serial park) invalid, elevator will enter parking state; cannot set auto start/stop function. 3.
  • Page 111 Chapter 6 Parameters Setup 6.8. Rear Door Control Setup 6.8.1 Different Mode Selection On the same floor, both front/rear doors can be opened; there are different modes (0-n) available based on customer requirements. Parameters setup for rear door mode is F1-22. n=0: single door mode.

  • Page 112: Input Type Setup

    Chapter 6 Parameters Setup For example: Elevator has 6 floors (1~6), no basement, 3 floor has double entrance; other floors have only front entrance. Then car call buttons 1~6 at front door should be connected to 1~6 car call ports, car call button 3 at rear door should be connected to N+3=6+3=9 car call port.
  • Page 113 Chapter 6 Parameters Setup Chart 6.3 Input Type Setup (Cont’d) Indicator Default Output Switch Default Name Port Position Definition Parameters Input Level Default State State Spare F3-00-14 OPEN Left Brake Feedback F3-00-15 CLOSE D2-14 Brake relay feedback 2 F3-00-16 CLOSE D3-12 STO detection F3-00-17...
  • Page 114 Chapter 6 Parameters Setup 6.11. Weighing Device Setup When using SJT-151 or SJT-201 weighing device, load detection is available through communication with main control board on CAN BUS. See below for setup procedures: 1. Enable weighing device F1-29=1, F9-11=1; 2. Perform light load and full load self-learning procedures; 3.
  • Page 115 Chapter 6 Parameters Setup Chart 6.4 Special Function List Number Instruction After elevator stops, based on current floor, if there is no landing/car call ahead of the current floor F4-06-00 in previous running direction, system will cancel all the car calls. ON: the monitor input menu of the main board indicates that the signal is valid or invalid, which is F4-06-01 the signal state processed through the input type.
  • Page 116 Chapter 6 Parameters Setup Chart 6.4 Special Function List (Cont’d) Number Instruction F4-06-22 Spare ON: Use SJT-300/201 weighing device through CAN BUS; F4-06-23 OFF: Use SJT-151 weighing device through RS485. F4-06-24 Spare, default is OFF. ON: In inspection mode door open/close switch in car is invalid; F4-06-25 OFF: In inspection mode door open/close switch in car is valid;...
  • Page 117 Chapter 6 Parameters Setup Chart 6.4 Special Function List (Cont’d) Number Instruction ON: Enable door-squeezing function to avoid door lock circuits open frequently in auto running F4-07-13 mode which is caused by door operator lacking self-locking force. F4-07-14 Inner test, default is OFF. On: During self-rescue leveling in emergency and self-save leveling outside door zone, the beeper on F4-07-15 the COP keep alarming (the interval is 1 second) while the car is moving.
  • Page 118 Chapter 6 Parameters Setup 6.15. Motor Parameters Speed Setup First, please set the motor parameters based on actual machine. F5-00: motor type. 0: synchronous outer rotor machine; 1: asynchronous machine, 2: synchronous inner rotor machine. Please make sure the machine type is set correctly, as system will perform motor auto-tuning and vector control based on motor type.
  • Page 119 Chapter 6 Parameters Setup Motor Rated Elevator Speed Running Rated Speed F6-02 F5-04 Speed F1-00 6.10 S IGURE PEED IVEN NSTRUCTION If need to reduce the elevator actual speed, please change the value of speed ratio (F6-02), when F6-02=100%, elevator runs in rated speed;...
  • Page 120 Chapter 6 Parameters Setup F7-05, F7-06: Group 1 PI; it is generally adopted in low speed period at motor start. F7-07, F7-08: Group 2 PI; it is generally adopted in middle speed section at acceleration period or steady-speed section at low speed period. F7-11, F7-12: Group 3 PI;...
  • Page 121 Chapter 6 Parameters Setup 6.18. Load-Compensation Torque Output Setup Parameters related to load compensation torque output control: 1. The parameters related when using of weighing device: 1) F1-29: Weighing device enable (1: enable, 0: disable) 2) U6-03: weighing value, the current load situation 3) F1-18: weighing adjustment, adjust the compensation according to floor number, it is suitable for elevator without compensation chain.
  • Page 122 Chapter 6 Parameters Setup 3) Adjust simulative load compensation gain in inverter until elevator does not slide when runs down from top floor. 4) Run the no-load elevator to bottom floor, increase the load compensation adjustment parameter (F1-18) until elevator does not slide when runs up from bottom floor. 6.19.
  • Page 123 Chapter 6 Parameters Setup 2) Parameters: Parameters related to function can be seen below in chart 6.5. Chart 6.5 Elevator start without load compensation parameters list Para Display Factory Setting Fast Brake Recommendation Slow Brake Recommendation StratKP FA-00 KEEP KEEP FA -01 StratKI 1200...

  • Page 124: Remote Monitor

    Chapter 6 Parameters Setup 6.21. Remote monitor Controller supports remote monitor function. Connect contr oller with assorted WCR remote monitor module, it will use same CAN Bus with COP/HOP communication. Set relative parameters, then remote monitor can be achieved. Parameter setting is as follow, 1.

  • Page 125: Chapter 7 Commissioning

    Chapter 7 Commissioning Chapter 7 Commissioning 7.1. Important Reminder 1. Thanks for purchasing our product, please read this manual and related instruction thoroughly before processing with installation, connection (wiring), operation, maintenance and inspection. To avoid any damage/loss of the products or accident to people, please make sure you have sound knowledge of the device and familiar with all safety information/precautions before processing to operate the control system.

  • Page 126: Power On And Inspection

    Chapter 7 Commissioning 2. Check if there is interference between high voltage part and low voltage part. Use a multi-meter to measure the resistor in different circuit, resistor to earth must be infinity big. 3. Please check if wiring from power supply to the control cabinet and traction machine is correct, this is to avoid damaging the controller after powering on.

  • Page 127: Elevator Control

    Chapter 7 Commissioning 7.3.2 Inspection after Power On 1. Close main power switch Q1, if phase relay KXX green LED on, it means the phase sequence is correct, otherwise red LED on, means phase sequence is incorrect, in this case please switch off the main power switch, exchange any two phases, and repeat the above inspection.

  • Page 128: Parameter Setup

    Chapter 7 Commissioning 7.4. Parameter Setup It is very important to set Parameters based on actual site condition, as this is the foundation for controller or control system to maximize its performance. For parameter setups please refer to chapter 4-6. When setting parameters, please pay attention to the following points: 1.
  • Page 129 Chapter 7 Commissioning Motor Tune Angle Tune(X0) Angle Tune(X0) Prees Jog Up Angle Tune(X0) [ENTER] /Jog Down Angle Tune(X0) Tune start? Tune start Tune End [ENTER] Button Para Tune(X1) Waiting Success [ESC] [ENTER] to start Display: Success /Fault Code 7.2 M IGURE OTOR INITIAL NGLE...
  • Page 130 Chapter 7 Commissioning 7.6.2 Inspection Running on Car Top/Cabin If inspection running in machine room works normal, then inspection running on car top and cabin can be performed. If the up or down direction of the buttons of inspection running on car top and cabin are opposite with the actual running direction, please inspect its buttons’...
  • Page 131 Chapter 7 Commissioning 7.8. Normal Speed Running After hoistway parameter self-learning is completed successfully, normal speed running can be carried out. Procedure as follows: 1. Switch elevator to attendant mode (Manual) 2. In floor selection parameter D0 through digital operator, target floor can be set (details refer to chapter 4.4 Commissioning Parameters Setup).
  • Page 132 Chapter 7 Commissioning 1. Three parameters adjustment for motor starting S curve: 1) P1: Acceleration increase in starting section, it means the rate of elevator acceleration change. Smaller value means the slower starting section, the smoother running period and the lower the efficiency. On the other hand, faster at acceleration starting section means higher efficiency for elevator running.
  • Page 133 Chapter 7 Commissioning Generally, it is recommended to first adjust the proportion gain, increase it right before system vibration threshold. Then adjust the integral gain, enable system with quick reaction and no over adjustment. If system performance is not perfect at start or stop period (low speed period), try to control in multi-section PI, detail can be seen in 6.19.2 in Chapter 6.
  • Page 134 Chapter 7 Commissioning position (it stops higher in up-running, lower in down-running), please decrease leveling adjustment parameter F1-17 (default: 50). If elevator cannot reach the leveling position (It stops lower in up running, higher in down running), increase leveling adjustment parameter F1-17, generally the range of this parameter is 40~60, if the adjustment is too big, please adjust driving parameter PI, or the shape of speed curve (F1-10~F1-15).

  • Page 135: Chapter 8 Troubleshooting

    Chapter 8 Troubleshooting Chapter 8 Troubleshooting This chapter explains in detail the fault display of integrated controller, the reasons behind and possible solution. The fault display on integrated controller may come from elevator system errors, Hoistway learning errors, driver errors, motor parameters setting and Encoder phasing errors.
  • Page 136 Chapter 8 Troubleshooting Chart 8.1 Elevator System Fault List (Cont'd) Reset Error Definition Possible Solution Code Level 4. After power on, ER05 should be reset. If there’s still other fault, please solve it. If there’s no other fault, please turn to inspection mode, run up or down, check if brake contactor turn on after Y7 output and 1.Brake open fault: System output brake...
  • Page 137 Chapter 8 Troubleshooting Chart 8.1 Elevator System Fault List (Cont'd) Reset Error Definition Possible Solution Code Level 1. Check X29 LED on main board is ON or not. If X29 LED is off, that means safety circuit is open, please check which switch in safety Er10 Safety circuit open, X29 input are invalid.
  • Page 138 Chapter 8 Troubleshooting Chart 8.1 Elevator System Fault List (Cont'd) Error Reset Definition Possible Solution Code Level 1.Check if F5 group motor parameters, F8 group encoder parameters and F1-00 rated speed, F1-01 motor RPM are setting correctly. If it doesn’t match, please correct it. 2.
  • Page 139 Chapter 8 Troubleshooting Chart 8.1 Elevator System Fault List (Cont'd) Error Reset Definition Possible Solution Code Level One of two leveling switch (X9, X10) is Er23 Check leveling switches and wirings. invalid at elevator normal running. 1. Check heat sensor act or not and check its wiring.
  • Page 140 Chapter 8 Troubleshooting Chart 8.1 Elevator System Fault List (Cont'd) Error Reset Definition Possible Solution Code Level 3. If Y20 has output but car door cannot open (No action), please check door driver wiring if door motor can act or not.
  • Page 141 Chapter 8 Troubleshooting Chart 8.1 Elevator System Fault List (Cont'd) Error Reset Definition Possible Solution Code Level Safety protection function act. When system find the brake invalid, it controls the car creep around door zone to release Unintended slide error, passengers and try to brake off.
  • Page 142 Chapter 8 Troubleshooting Chart 8.1 Elevator System Fault List (Cont'd) Error Reset Definition Possible Solution Code Level For fire elevator, The CAN Please check the CAN communication connection, or communication between elevator whether the absolute value coding communication board ER53 integrated controller and absolute is installed, for the special fire elevator program, the value coding communication board...
  • Page 143 Chapter 8 Troubleshooting Chart 8.1 Elevator System Fault List (Cont'd) Error Reset Definition Possible Solution Code Level 1. Please check power input, 3-phase power input or neutral input may lost. If it is 200V cabinet and only has L and N2 inputs, please set FX-43=1.
  • Page 144 Chapter 8 Troubleshooting Chart 8.1 Elevator System Fault List (Cont'd) Pb parameters of S curve is unreasonable, 1. Change bp parameter of curve; deceleration distance is too long, it may not 2. Increase F1-10 and F1-11 but do not exceed Er94 be able to stop while single floor running and 0.7;...
  • Page 145 Chapter 8 Troubleshooting Fault Analysis code Brake contactor has no action during brake open or feedback signal X11 or X16 lost. When brake off, brake contactor adhered or feedback X11 and X16 keep valid. Brake feedback fault: This When brake off, X15 travel switch feedback signal is valid. fault cannot be reset by When brake off, X19 travel switch feedback signal is valid.
  • Page 146 Chapter 8 Troubleshooting Fault Analysis code Y24 star-sealed contactor has no output, but X22 has feedback Er33 Star-sealed contactor fault Y24 star-sealed contactor has output but X22 has no feedback Sensor the voltage between J6-1 and J6-2 by multi-meter. If the voltage is lower than 16V, system will show fault Er34 External switch power 24V...
  • Page 147 Chapter 8 Troubleshooting Chart 8.2 Hoistway Parameter Self-Learning Fault List (Cont'd) Error Definition Possible Solution Code Top terminal 1 switch enable before bottom terminal LER=9 Bottom terminal 1 switch signal lost 1 switch or bottom terminal 1 switch signal lost. Top terminal 1 switch installation error, causing LER=10 Top terminal 1 switch signal repeat...
  • Page 148 Chapter 8 Troubleshooting 8.3. Driver Faults Chart 8.3 Driver Fault List Error Display Definition Possible Causes Possible Solution Code 1. UV error after power ON; Check input power supply; Check input power cable terminals; 1. Phase lost on input supply; Check cable between main board 2.
  • Page 149 Chapter 8 Troubleshooting Chart 8.3 Driver Fault List (Cont'd) Error Display Definition Possible Causes Possible Solution Code 1. Check motor short circuit; 1. Inverter output short circuit; 2. Check accel/decel time, 2. Machine over-load; slow down if needed; 3. Accel/decel time too short; 3.
  • Page 150 Chapter 8 Troubleshooting Chart 8.3 Driver Fault List (Cont'd) Error Display Definition Possible Causes Possible Solution Code check encoder wiring; Check encoder; Check if F8-02 PG type is same with actual PG card; Check connection between PG card and main board; Check if brake can open;...
  • Page 151 Chapter 8 Troubleshooting Chart 8.3 Driver Fault List (Cont'd) Error Display Definition Possible Causes Possible Solution Code Wrong wiring for MC co 1. Try to reset the power, MC contactor bad action ntactor; if this error come agai Controller main contactor M MC contactor damaged;...
  • Page 152 Chapter 8 Troubleshooting Chart 8.3 Driver Fault List (Cont'd) Error Display Definition Possible Causes Possible Solution Code Incremental: 1. Encoder damaged or Signal W of encoder wire wiring incorrect; 1. Check encoder and wirings; lost 2. Wrong PG type setting; 2.
  • Page 153 Chapter 8 Troubleshooting Chart 8.3 Driver Fault List (Cont'd) Error Display Definition Possible Causes Possible Solution Code Solve angle tuning fault first, then Angle tuning fail do it again. DF27 Angle tuning with Angle tuning fail with fault. Attention: Don’t run elevator load not completed.
  • Page 154 Chapter 8 Troubleshooting Chart 8.3 Driver Fault List (Cont'd) Error Display Definition Possible Causes Possible Solution Code While brake force de 1. Encoder feedback signal tecting, feedback mov anomaly; DF34 Check the brake and encoder. ement of encoder is 2. Brake force may be not too long.
  • Page 155 Chapter 8 Troubleshooting 8.4. Motor Initial Angle Tuning Faults Chart 8.4 Motor Initial Angle Rotation Tuning Fault List Error Definition Possible Causes Possible Solution Code Controller fault First solve fault according to error The drive has a failure and code, then angle tuning again. RF100 Controller has met fault.
  • Page 156 Chapter 8 Troubleshooting Chart 8.4 Motor Initial Angle Rotation Tuning Fault List (Cont'd) Error Definition Possible Causes Possible Solution Code 1. Broken circuit at load side or Current detection error lack of phase; During the tuning 1. Ensure 3-phase connection to motor; 2.
  • Page 157 Chapter 8 Troubleshooting Chart 8.5 Motor Initial Angle Static Tuning Fault List Error Definition Possible Causes Possible Solution Code Controller fault First solve fault according to error code, RF100 The drive has fault and Controller has met fault then angle tuning again. Refer to Chart cannot do tuning.
  • Page 158 Chapter 8 Troubleshooting Chart 8.5 Motor Initial Angle Static Tuning Fault List (Cont'd) Error Definition Possible Causes Possible Solution Code 1. Broken circuit at load side or lack 1. Ensure 3-phase Current detection error of phase; connection to motor; During the tuning process, the 2.
  • Page 159 Chapter 8 Troubleshooting 8.5. Motor Parameters Tuning Faults Motor parameters tuning error code and their possible causes and solution are shown below in Chart 8.6 and Chart 8.7. (Including rotation and static parameters tuning) Chart 8.6 Motor Parameters Rotation Tuning Fault List Error Definition Possible Causes...

  • Page 160: Chapter 9 Maintenance

    Chapter 9 Maintenance Chapter 9 Maintenance This chapter describes precautions and notes for drive storage and maintenance. 9.1. Safety Precautions for Drive Maintenance & Storage  There are high voltage terminals in integrated controller, please DO NOT TOUCH. Otherwise there has potential risk of electric shock. ...

  • Page 161: Daily Check

    Chapter 9 Maintenance 9.2. Daily Check In order to increase the life time of controller and make sure the safety operation of elevator, it is necessary to check and inspect controller in a daily basis. As it is not allowed to remove the controller front cover with controller power on, the controller can check by observing the device external condition, including: 1....

  • Page 162: Warranty

    Chapter 9 Maintenance 9.4. Quick Wear parts Controller is made from many components inside, all these parts have their lifetimes, and they depend on environment and working condition. As a result, in order to increase the life time of controller and make sure the safety operation of elevator, it is necessary to check and inspect some of these parts in a regular basis, replace them if needed.
  • Page 163 Chapter 10 Controller installation with EMC Standard Chapter 10 Controller installation with EMC Standard This chapter explains in detail the integrated controller installation with EMC standard for reference. 10.1. EMC Briefing EMC (short for Electromagnetic Compatibility) refers to the device/system capability to function normally in an environment with electromagnetic interference.
  • Page 164 Chapter 10 4. Power cable and motor cable should use power cable with armor cover or shield. Power cable should use individual metal cable tunnel with reliable grounding point at controller side. Motor cable should follow the same grounding principle and its shield should also connect to motor cover at motor side. 5.
  • Page 165 Chapter 10 Controller installation with EMC Standard 2. The case of control cabinet must be connected to the ground public terminal. This connection can be made between cabin door and ground public terminal copper plate (width >15mm). 3. All ground connection must remain complete on both sides, cannot connect two grounding wire in the middle. 4.
  • Page 166 Chapter 10 2. The power line filter should be grounded with reliable connection, and the grounding area should be as large as possible. 3. The power line filter metal case should be securely attached to the control cabinet plate, with contacting area as large as possible and ensure good electrical connection.

  • Page 167: Appendix 1 Hoistway Switches Information (Partly)

    Appendix1 Hoistway Switches Information Appendix 1 Hoistway Switches Information (Partly) F1.1 Leveling Switches & Flag Installation For elevator leveling control, two leveling switches (up/down leveling switches) and some door zone flags (one in each floor) are required. Two leveling switches are installed on top of car, door zone flag is installed in hoistway, their dimensions and positions are illustrated in Figure F1.1.
  • Page 168 Appendix1 Hoistway Switches Information Up Terminal Switch Terminal Flag Top Floor Sill Car Sill F1.2 U F1.3D IGURE ERMINAL WITCH IGURE ERMINAL WITCH Chart F1.1 Up/Down Terminal Switches with different elevator speed Terminal Switch Location Speed 1.6m/s Terminal 0.5m/s 1.0m/s 1.75m/s Up/Down Terminal Switch 1 1.3m...

  • Page 169: Appendix 2 Parameters List

    Appendix 2 Parameters List Appendix 2 Parameters List Chart F3.1 Controller Parameters &Factory Setting List Parameter Name Default Value Set Value U0-00 Lower Limit U0-01 Upper Limit U0-02 Lower Slowdown 1 U0-03 Lower Slowdown 2 U0-04 Upper Slowdown 1 U0-05 Upper Slowdown 2 U0-06 Floor Data 1...
  • Page 170 Appendix 2 Parameters List Chart F3.1 Controller Parameters &Factory Setting List (Cont'd) Parameter Name Default Value Set Value F0-68 floor indicator setting F1-00 Car speed 1.60m/s F1-01 Motor speed 306r F1-03 Insp speed 0.15m/s F1-04 Start speed 0.01/s F1-05 Leveling Speed 0.15m/s F1-06 Least Speed...
  • Page 171 Appendix 2 Parameters List Chart F3.1 Controller Parameters &Factory Setting List (Cont'd) Parameter Name Default Value Set Value F2-12 Over Time F2-13 SmoothStart Time 0.50 F2-14 Start Time/Hour F2-15 Start Time/Minute F2-16 Stop Time/Hour F2-17 Stop Time/Minute F2-18 Start Time 1/Hour F2-19 Start Time 1/Minute F2-20...
  • Page 172 Appendix 2 Parameters List Parameter Name Default Value Set Value F6-04 F6-05 F7-00 PIMulEnable F7-01 PI1 Range F7-02 PI2 Range F7-04 PI3 Range F7-05 1200 F7-06 F7-07 F7-08 F7-11 F7-12 F8-00 Encoder PPR 2048 F8-02 PG Type F9-00 Max Torq Comp 0%...

  • Page 173: Appendix 3 Ns05 Series Villa Lift Control Cabinet Intensive Serial Communication Resolution

    Appendix 3 NS05 series villa lift Control cabinet Intensive Serial Communication Resolution Appendix 3 NS05 Series Villa Lift Control Cabinet Intensive Serial Communication Resolution 1. Top limit and bottom limit Setting F4-07-02 as ON, top limit and bottom limit signals are not necessary to be wired in hoistway cable, and 2 cables will be saved.

  • Page 174: Appendix 4 Menu Operation Processes With 4 Digital Tubes & 3 Operation Keys

    Appendix 4 Menu Operation Processes With 4 Digital Tubes & 3 Operation Keys Appendix 4 Menu Operation Processes With 4 Digital Tubes & 3 Operation Keys [Floor state] [Fault status] [Fault exists] E-XX F-XX [No fault] [Invalid [ENTER] [Hoistway auto tuning fault] [ESC] operation] H-00...
  • Page 175 Appendix 4 Menu Operation Processes With 4 Digital Tubes & 3 Operation Keys F. -. 0. 1. Digital display Keys ∨ Enter Figure F4.2 Display and key layout There are 4 sets of segment displays on the main board, each set has a dot (from version 7125 starts, these dots are used to indicate elevator state information).
  • Page 176 Appendix 4 Menu Operation Processes With 4 Digital Tubes & 3 Operation Keys 4. H-00: Invalid parameter; 5. H-01: Display current running speed (Unit: cm/s): H. -. 0. 1. 1. 6. 0. ENTER 6. H-02: Hoistway parameter self-learning: . 0. 2. ENTER L.
  • Page 177 Appendix 4 Menu Operation Processes With 4 Digital Tubes & 3 Operation Keys 7. H-03: Temporary shielding overload signal, which is used for fast shielding of overload signal when running with 125% loads. This parameter is not saved. Power off, fault or exit from the menu will automatically reply overload signal.
  • Page 178 Appendix 4 Menu Operation Processes With 4 Digital Tubes & 3 Operation Keys 9. H-05: Motor static angle auto tuning H. -. 0. 5. H. 5. -. 0/1. Choose 1, press ENTER to enter motor auto tuning mode. -. 0. 2. After drive microcontroller answer normal, display is shown below: -.
  • Page 179 Appendix 4 Menu Operation Processes With 4 Digital Tubes & 3 Operation Keys 10、H-06:Car call input H. -. 0. 6. Enter (Enter car call input) g. o. 0. 1. up (select floor) g. o. 0. 2. enter (confirm selected floor) g.
  • Page 180 Appendix 4 Menu Operation Processes With 4 Digital Tubes & 3 Operation Keys 11、H-07:Open/Close door control H. -. 0. 7. Enter (Enter interface) Enter (Open door 1 output) o. P. d. 1. o. P. d. 1. up (Select open/close) Enter (Close door 1 output) C.
  • Page 181 Appendix 4 Menu Operation Processes With 4 Digital Tubes & 3 Operation Keys the menu, or the recovery of automatic running will all automatically recover the related parameters. In this mode, each running up in inspection mode, the parameter is automatically return to zero, if you want to run again, please reset the parameter to 1, and then retest by slow up/down key.
  • Page 182 Appendix 4 Menu Operation Processes With 4 Digital Tubes & 3 Operation Keys Press Esc to exit. 15、H-11: Balance position indicator of inorganic room system. "U" indicates that the car position is above the balance point: H. -. 1. 1. u.
  • Page 183 Appendix 4 Menu Operation Processes With 4 Digital Tubes & 3 Operation Keys Press Esc to exit. 17、H-13:UCMP test mode. . 1. 3. ENTER Satisfy the condition, change to UC-1 ENTER Do not satisfy the condition, change to 0 Enter UCMP test mode Do not trigger UCMP test U.

  • Page 184: Appendix 5. Ard And Electric Brake Release Emergency Rescue Function

    Appendix 5. ARD and electric brake release emergency rescue function Appendix 5 ARD And Electric Brake Release Emergency Rescue Function NS05 series villa lift cabinet has considered the cooperation with elevator emergency leveling device and built-in ARD unit, to supply reliable emergency rescue solution. When power drop, controller will start ARD.

  • Page 185: Appendix 6 Control Plan For Villa Special Door Structure

    Appendix 6 Control plan for villa special door structure Appendix 6 Control plan for villa special door structure F6.1 Hand pull door+ retiring cam 1.1 Hardware configuration 1.1.1 Cabinet:NS05 villa cabinet. 1.1.2 Retiring cam:Installed on car top, only when elevator is at unlocking zone, retiring cam will eject and push hall door lock, then hall door can be open.
  • Page 186 Appendix 6 Control plan for villa special door structure convert control. Car top close output terminal on iBL6-DIO interface board PC1-2:CM1 and PC1-4:GM1. 1.3.4 Because the retiring cam needs to be controlled, one more cable needs to be added in traveling cable.
  • Page 187 Appendix 6 Control plan for villa special door structure F6.2 Hall pull door+ hall door electric bolt lock 2.1. Hardware configuration 2.1.1 cabinet:NS05 villa lift cabinet. 2.1.2 Electric bolt lock:Electric bolt lock is installed at hall door of each floor. Only when electric bolt lock is open, hall door can be opened.
  • Page 188 Appendix 6 Control plan for villa special door structure 2.4.4 While elevator stops and someone blocks light curtain, elevator will not run. During elevator running, if someone blocks light curtain, elevator will decelerate and stop, not sudden stop but will show Er54 fault. After light curtain recover, elevator will rescue to leveling position. 2.4.5 After hand pull door elevator stop at landing, if door is not opened, it must wait for F2-05 (Door open time), then can continue to run.
  • Page 189 Appendix 6 Control plan for villa special door structure 3.2 Parameter setting 3.2.1 F4-06-12 sets to ON. 3.2.2 F4-06-13 sets to ON。 3.2.3 F4-06-31 sets to ON to enable hand door function. 3.2.4 Set F4-06-19=OFF and F4-06-20=OFF. 3.2.5 If without light curtain, set F3-01-17=ON and F3-01-18=ON. 3.3 Wiring configuration 3.3.1 Serially connect close contact of hall door at each floor and finally connect to X31.

  • Page 190: Port Definition

    Appendix 6 Control plan for villa special door structure 2. Port definition Specification Name Position Definition Usage Port type Rated load J1-1 24V Power input 150mA J1-2 24V Power GND Power and J1-3 CAN Bus H communication port J1-4 CAN Bus L J2-1 Up call answer OC door...

  • Page 191: Control Method

    Appendix 6 Control plan for villa special door structure 3 .Control Method Type 1: 1) For door motor: Open/close door and electric bolt lock are controlled individually. 2) Open door condition: Elevator is at door zone and isn’t running without retiring cam signal in auto mode. 3) Open door type:...

  • Page 192: Appendix 7 Forced Drive Mode Elevator Instruction

    Appendix 7 Forced Drive Mode Elevator Instruction Appendix 7 Forced Drive Mode Elevator Instruction Note: 7X26 and later version (includes 26) has Forced Drive mode. When elevator is forced drive mode, thus, in mechanical perspective there is no counterweight, and the elevator system is equivalent to windlass.

  • Page 193: Appendix 8. Auto Rescue For Villa Lift

    1、 Passenger trapped by power break Bluelight villa lift control cabinet has built-in ARD device. Once power break and passenger trapped, ARD emergency power will automatically switch in and help free the passenger without manual operation. And it will automatically power off after rescue complete to avoid battery to deep discharge.
  • Page 194 This function is directed against NS05 villa lift control system. This function is built since 7304 version, default setting is ON. During rescue process, it needs to configure Bluelight voice announcement to notice rescue operation. The program of voice announcement also needs to upgrade. Individual voice announcement supports rescue voice since 694_07 version.
  • Page 195 Due to ongoing product modification, data subject to change without notice...

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Ns05 seriesSjt-ns05-i-b20-b-1/0 series

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