Inovance Monarch NICE300new Series User Manual
  1. Manuals
  2. Brands
  3. Inovance Manuals
  4. Controller
  5. Monarch NICE300new Series
  6. User manual

Inovance Monarch NICE300new Series User Manual

Integrated elevator controller
Hide thumbs
Table of Contents

Advertisement

Quick Links

User Guide
NICE3000
Series
new
Integrated Elevator Controller
User Guide
A01
Data code 19010659

Advertisement

Table of Contents
loading
Need help?

Need help?

Do you have a question about the Monarch NICE300new Series and is the answer not in the manual?

Questions and answers

Silas Oloo
March 21, 2025

How to solve error 57 subcode 103 on monarch nice 3000? Lift was in process of installing when this problem occurred. All boards much. It's new drive

User image 67dcfdcc47f70
0
2 comments:
Mr. Anderson
March 21, 2025

To resolve error 57 subcode 103 on the Inovance Monarch NICE300new Series, perform shaft auto-tuning. This error indicates that upon power-on, the system has judged that shaft auto-tuning has not been performed.

This answer is automatically generated

0
Silas Oloo
March 21, 2025

@Silas Oloo

User image 67dcfea588681
0
TAN TEE SENG
April 1, 2025

ERROR E66-101 on Monarch NICE- L-C-4005 Controller. What fault is this and how to resolve. Lift stopped at 1st level with the door closed and cannot be opened.

0
1 comments:
Mr. Anderson
April 1, 2025

ERROR E66-101 on the Inovance Monarch NICE300new Series L-C-4005 Controller indicates a fault related to SPI (Serial Peripheral Interface) communication—specifically, Subcode 101 means there is abnormal communication between the control board and the drive board.

Resolution:
- Check the wiring between the control board and the drive board to ensure proper connection.

This answer is automatically generated

0

Related Manuals for Inovance Monarch NICE300new Series

Summary of Contents for Inovance Monarch NICE300new Series

  • Page 1 User Guide NICE3000 Series Integrated Elevator Controller User Guide Data code 19010659...

  • Page 2: Table Of Contents

    Contents Safety Information and Precautions ..............3 Introduction ......................5 1. Basic Functions ......................5 2. Optional Functions ....................10 3. List of Options ......................10 Chapter 1 Product Information ................12 1.1 Acceptance ......................12 1.2 Designation Rule and Nameplate ................12 1.3 Ratings ........................
  • Page 3 3.4.1 220 V UPS .........................71 3.4.2 ARD ...........................73 3.5 STO Function ......................74 3.5.1 Safety Circuit of 110 V ......................75 3.5.2 Safety Circuit of 24 V ......................75 Chapter 4 Parameter Description ................. 76 4.1 Introduction ......................76 4.2 Parameter Groups ....................76 4.3 Parameter Table .....................

  • Page 4: Safety Information And Precautions

    Controller AC Drive. It contains basic information for quick start of the drive. For safety and more information, please refer to the NICE3000 Advanced User Guide, which can be downloaded on the website http://www.inovance.cn. Electrical Safety Extreme care must be taken at all times when working with the AC Drive or within the area of the AC Drive.
  • Page 5 Safety Information and Precautions in the DC bus capacitors to be dissipated by the bleed resistors before commencing work on the AC Drive. Electrical Shock Hazard Ensure the protective earthing conductor complies with technical standards and local safety regulations. Because the leakage current exceeds 3.5 mA in all models, IEC 61800-5-1 states that either the power supply must be automatically disconnected in case of discontinuity of the protective earthing conductor or a protective earthing conductor with a cross-section of at least 10 mm (Cu) or 16 mm...

  • Page 6: Introduction

    Introduction Introduction 1. Basic Functions Function Description Remarks Common Running Functions In automatic running or attendant state, this function enables the elevator to respond both car calls and hall calls. FE-00 (Collective Full collective selective Passengers at any service floor can call the elevator by selective mode) pressing the up call button and down call button.
  • Page 7 Introduction Function Description Remarks In automatic running state, the elevator automatically returns Idle elevator returning F9-00 (Idle time before to the set parking floor and waits for passengers if there is no to base floor returning to base floor) car call or hall call within the set time. If the door open time exceeds the door open protection time Landing at another but the door open limit signal is still inactive, the elevator...
  • Page 8 Introduction Function Description Remarks The system automatically calculates the optimum speed curve Automatic generation compliant with the human-machine function principle based on of optimum curve the distance, without being limited by the number of curves or short floor. Service suspension When the elevator cannot respond to hall calls, the output corresponding terminal outputs the service suspension signal.
  • Page 9 Introduction Function Description Remarks Every time the elevator runs to the terminal floor, the system automatically checks and corrects the car position information Floor position based on slow-down switch 1, and eliminates over travel intelligent correction top terminal or bottom terminal with use of the slow-down switches.
  • Page 10 Introduction Function Description Remarks After detecting a position abnormality, the system runs the Base floor verification elevator to each floor until reaching the terminal floor for verification, guaranteeing system security. The system automatically determines the fault level. If the Passenger unloading safety running conditions are met, the elevator first runs to the first upon fault leveling position to unload passengers.

  • Page 11: Optional Functions

    Introduction Function Description Remarks When the normal power supply is interrupted and the Energy-saving running emergency power supply is used, the system reduces with standby power the running speed of the elevator in the prerequisite of supply guaranteeing the smooth running curve. Arrival gong disabled Within the set time period, the arrival gong is disabled.
  • Page 12 Introduction Name Model Function Remark It is used to adapt to the push-pull and open- MCTC-PG-A2 collector incremental encoders. It is used to adapt to the UVW differential encoder and applied to synchronous motor. MCTC-PG-D PG card It requires 5 V power supply. MCTC-PG-E It is used to adapt to the SIN/COS encoder.

  • Page 13: Chapter 1 Product Information

    3PH AC 380-440V 36A 50/60Hz Rated input ficates OUTPUT: 3PH AC 0-440V 33A 0-99Hz 15KW Rated output Serial No.: 010150602803825403 Serial No. Manufacturer Suzhou Inovance Technology Co.,Ltd. Made in China Controller model NICE–L–C–40 15 -INT NICE series integrated Mark Controller Type Mark...
  • Page 14 1 Product Information Output Controller Model Power Capacity (kVA) Input Current (A) Motor Power (kW) Current (A) NICE-L-C-2003 13.3 220-NICE-L-C-4007 17.9 10.3 220-NICE-L-C-4011 25.3 15.5 220-NICE-L-C-4015 31.3 220-NICE-L-C-4018 34.6 22.5 220-NICE-L-C-4018F 220-NICE-L-C-4022 10.6 42.6 27.7 220-NICE-L-C-4022F 220-NICE-L-C-4030 13.1 52.6 34.6 220-NICE-L-C-4030F Three-phase 220 V, range: 220–240 V, 50/60 Hz NICE-L-C-2002...

  • Page 15: Technical Specifications

    1 Product Information 1.4 Technical Specifications Table 1-2 NICE3000 technical specifications Item Specification 200 V: single-phase 220 to 240 V, 50/60 Hz Phases, voltage, frequency 400 V: three-phase 380 V, 400 V, 415 V, 440 V, 460 V; 50/60Hz Voltage range -15% to +10% Frequency range -5% to +5%...
  • Page 16 1 Product Information Item Specification PG car types Open-collector, push-pull, SIN/COS, Endat absolute PG interface PG card signal frequency- OA, OB orthogonal division output Optocoupler input control Isolated 24 VDC power Low-voltage optocoupler 24 DIs, optocoupler control signal is isolated 24 VDC power input isolated input High-voltage optocoupler 4 DIs...

  • Page 17: Selection Of Braking Resistor

    1 Product Information Item Specification Protection Leveling switch fault Protection at fault of leveling switch functions protection (Continued) EEPROM fault Self-check at power-on Keypad 3-digit LED display, providing certain commissioning functions 5-digit LED display, viewing and modifying most parameters and Display Operating panel monitoring system state...
  • Page 18 1 Product Information Power of Max. Min. Power of Controller Model Applicable Motor Resistance Resistance Braking Resistor Braking Unit (kW) (Ω) (Ω) 220-NICE-L-C-4011 29.0 25.0 1600 220-NICE-L-C-4015 26.0 22.0 2500 220-NICE-L-C-4018 11.0 14.5 13.0 3500 220-NICE-L-C-4018F Built-in 220-NICE-L-C-4022 15.0 13.0 12.5 4500 220-NICE-L-C-4022F...

  • Page 19: Selection Of Mctc

    1 Product Information 1. The preceding configuration takes the synchronous motor as an example. The Note asynchronous motor has poor energy transfer efficiency, and you can reduce the power of the braking resistor or increase the resistance of the braking resistor. 2.
  • Page 20 1 Product Information Table 1-5 Definitions of the CN1 terminals of different MCTC-PG card models MCTC- MCTC-PG-D MCTC-PG-E MCTC-PG-F1 PG-A2 CLK- 2 PGM 2 DATA+ PGA 3 13 VCC DATA- 4 PGB 14 COM 4 9 5V (Up) 14 CLK+ (Sensor) - 19 -...

  • Page 21: Optional Parts

    1 Product Information 1.7 Optional Parts 1.7.1 CTB Board (MCTC-CTB) The car top board (MCTC-CTB) is the elevator car control board of the NICE3000 . It includes 8 DI terminals, 1 AI terminal, and 9 relay output terminals (standard: 7). Figure 1-1 Appearance, structure and installation method of the CTB Front Side...
  • Page 22 1 Product Information Name Feature Dimensions (mm) Large-area display, both horizontal and vertical display supported MCTC-HCB-G1 G1: red character MCTC-HCB-G2 65*157*22 G2: orange character MCTC-HCB-G4 G4: blue character MCTC-HCB-G3 Large-area display, vertical, red character 136*160*14 MCTC-HCB-H H: red character, vertical display MCTC-HCB-H1 H1: blue character, vertical display MCTC-HCB-H2...
  • Page 23 1 Product Information Name Feature Dimensions (mm) Segment LCD display MCTC-HCB-U1 U1: white character in blue background MCTC-HCB-U2 144*80*17 U2: white character in black background MCTC-HCB-U3 U3: yellow character in black background MCTC-HCB-U1B Segment LCD display, white character in blue background 160*75*9 6.4-inch segment LCD display MCTC-HCB-V1...

  • Page 24: Ccb Board (Mctc-Ccb)

    1 Product Information 1.7.3 CCB Board (MCTC-CCB) The car call board (MCTC-CCB) is another interface between users and the control system. Each CCB comprises 24 inputs and 22 outputs, including 16 floor buttons and 8 functional signals. The CCB mainly collects button calls and outputs signals of the button call indicators.
  • Page 25 1 Product Information Table 1-7 Input and output terminals of the CCB Remarks Interface Pins 2 and 3 Pins 1 and 4 Floor 1 button input Floor 1 display output Floor button indicator Floor 2 button input Floor 2 display output Floor 3 button input Floor 3 display output Floor...

  • Page 26: Community Monitoring Board (Mctc-Mib-A)

    1 Product Information 1.7.4 Community Monitoring Board (MCTC-MIB-A) The MCTC-MIB-A is used to query information such as elevator running state, current floor, and faults, and send the information to the monitoring room via communication. Users can monitor and control the elevator by using the PC installed with the monitoring software in the monitoring room.
  • Page 27 1 Product Information Mark Terminal Name Function Description Terminal Arrangement Connect to the GSM module for J4/J7 GSM mode exchanging short messages. J5/J8 Zigbee module Reserved Burning jumper Short ON to enter download mode. Operation panel Connect to the operation panel. interface Reserved COM CAN- CAN+ 24V...

  • Page 28: Chapter 2 System Commissioning

    2 System Commissioning Chapter 2 System Commissioning 2.1 Use of the Commissioning Tools The NICE3000 supports three commissioning tools, as listed in the following table. Tool Function Description Remark Onboard 3-button It is used to enter the shaft commissioning commands and view Standard keypad floor information.
  • Page 29 2 System Commissioning The following figure shows the setting of increasing the called floor to 5. Figure 2-2 Setting the called floor Default Function menu mode Function menu edit mode (Current floor) Menu Description The function menus displayed on the keypad are described as follows: F-0: display of floor and running direction The F0 menu is displayed on the keypad by default upon power-on.
  • Page 30 2 System Commissioning F-1: command input of the running floor After you enter the F1 menu, the 7-segment LEDs display the bottom floor (F6-01). You can press the UP button to set the destination floor within the range of lowest to top and then press the SET button to save the setting.
  • Page 31 2 System Commissioning is displayed. Step 3. Remove the weight. Hold down SET, and the elevator runs to the top floor and then to the bot- tom floor. The keypad displays the balance coefficient “XXP” in blinking state. Detection is completed. To adjust the coefficient “XX”, hold down SET, and increase or decrease the load.
  • Page 32 2 System Commissioning Segment ON: signal active Segment OFF: signal inactive Light curtain 1 input Light-load Door open 1 output Light curtain 2 input Door close 1 output Door open limit 1 input Forced door close 1 output Door open limit 2 input Door open 2 output Door close limit 1 input Door close 2 output...

  • Page 33: Use Of The Led Operation Panel

    2 System Commissioning 2.1.2 Use of the LED Operation Panel The LED operation panel is connected to the RJ45 interface of the controller by using an 8-core flat cable. You can modify the parameters, monitor the working status and start or stop the controller by operating the operation panel.
  • Page 34 2 System Commissioning Indicator Indication OFF: no meaning TUNE/TC TUNE/TC ON indicates in auto-tuning state. TUNE/TC Blinking: no meaning TUNE/TC Hz for frequency A for current V for voltage RPM for motor speed Percentage Descriptions of Keys Name Function Enter or exit the Level I menu. Programming Return to the previous menu.
  • Page 35 2 System Commissioning Name Function Display or hide the fault information in the fault state, which facilitates Fault hiding MF.K parameter viewing. Overall Arrangement of Parameters The NICE3000 operating panel has three levels of menu: ● Level I: parameter group ●...

  • Page 36: System Commissioning

    2 System Commissioning 2.2 System Commissioning 2.2.1 Safety Check Before Commissioning The elevator needs to be commissioned after being installed; the correct commissioning guarantees safe and normal running of the elevator. Before performing electric commissioning, check whether the electrical part and mechanical part are ready for commissioning to ensure safety. At least two persons need to be onsite during commissioning so that the power supply can be cut off immediately when an abnormality occurs.

  • Page 37: Commissioning At Inspection Speed

    2 System Commissioning 2.2.2 Commissioning at Inspection Speed The NICE3000 supports two major control modes: ● Sensorless vector control (SVC): applicable to inspection speed running for commissioning and fault judgment running during maintenance of the asynchronous motor ● Feedback vector control (FVC): applicable to normal elevator running, achieving good driving performance and running efficiency in the prerequisite of correct motor parameters Parameters Related to Motor Auto-tuning Parameter No.
  • Page 38 2 System Commissioning Motor Auto-tuning Flowcharts Synchronous motor auto-tuning a. Synchronous motor with-load auto-tuning (motor connected with car) Operation Para. No. Parameter Name Default Commissioning Start Enter inspection Turn the Automatic/Inspection switch to the Inspection position. state X9 indicator is OFF, indicating that the elevator enters inspection state. Select command Command source F0-01...
  • Page 39 2 System Commissioning Operation Para. No. Parameter Name Default Commissioning Set auto-tuning F1-11 Auto-tuning mode mode 0: No operation 1: With-load auto-tuning 2: No-load auto-tuning 3: Shaft auto-tuning 1 4: Shaft auto-tuning 2 5: Synchronous motor static auto-tuning After setting F1-11 to 1, press ENTER on the operation panel.
  • Page 40 2 System Commissioning Operation Para. No. Parameter Name Default Commissioning Set motor Motor Nameplate parameters Be sure that motor parameters are set correctly. Otherwise, faults will occur. F1-01 Rated motor power Model dependent Unit: kW F1-02 Rated motor voltage Model dependent Unit: V F1-03 Rated motor current...
  • Page 41 2 System Commissioning Operation Para. No. Parameter Name Default Commissioning Perform auto- 1. Release the brake manually. tuning 2. Press on the operation panel to start auto-tuning. After auto-tuning is completed, the controller stops output automatically. Auto-tuning 1. After auto-tuning is completed, the keypad on the MCB displays the learnt completed encoder angle for 3s.
  • Page 42 2 System Commissioning Operation Para. No. Parameter Name Default Commissioning Set motor Motor Nameplate parameters Be sure that motor parameters are set correctly. Otherwise, faults will occur. F1-01 Rated motor power Model dependent Unit: kW F1-02 Rated motor voltage Model dependent Unit: V F1-03 Rated motor current...
  • Page 43 2 System Commissioning Operation Para. No. Parameter Name Default Commissioning Perform auto- tuning Press on the operation panel to start auto-tuning. 1. During with-load auto-tuning, the motor does not rotate, but there is current noise. The auto-tuning process lasts about several tens of seconds. 2.
  • Page 44 2 System Commissioning Operation Para. No. Parameter Name Default Commissioning Set encoder F1-00 Encoder type parameters 0: SIN/COS encoder 1: UVW encoder 2: ABZ encoder 3: Endat absolute encoder Set F1-00 according to the actual encoder type. Encoder pulses per F1-12 2048 revolution...

  • Page 45: Shaft Auto-Tuning

    2 System Commissioning Angle-free Auto-tuning Related parameters Parameter No. Parameter Name Value F1-25 Motor type 1: Synchronous motor Encoder type 0: SIN/COS encoder F1-00 1: UVW encoder 3: Endat absolute encoder F1-12 Encoder resolution 0 to 10000 Motor rated power Motor rated voltage F1-01 to F1- These parameters are model dependent, and you need to...

  • Page 46: Door Machine Controller Commissioning

    2 System Commissioning Check that the conditions for shaft auto-tuning have been met. The elevator is in the inspection state. The elevator is at the leveling position of the bottom floor. The down slow-down switch 1 signal input to the MCB is active. STOP The NICE3000 is not in the fault state.

  • Page 47: Hcb Installation And Setting

    2 System Commissioning Table 2-1 Judging door open/close limit Door State State of X3 Signal Indicator State of X5 Signal Indicator At door open limit Steady ON Steady OFF Door open/close limit During door open/close Steady OFF Steady OFF signal set to NO At door close limit Steady OFF Steady ON...

  • Page 48: Riding Comfort Adjustment

    2 System Commissioning The HCB communicates with the MCB via Modbus. All HCBs are connected in parallel and then connected to the MCB. HCB address setting Set an address for each HCB. Otherwise, the HCB cannot be used. The address of each HCB must be unique. HCBs with the same address cannot be used. For details on how to set the address, see the description of the corresponding HCB in section 4.4.
  • Page 49 2 System Commissioning Performance adjustment of system control Figure 2-6 Running time sequence F3-19 F3-20 V (speed) F3-18 F8-11 F2-16 F2-17 RUN contactor t (time) Brake contactor Shorting door lock circuit contactor Shorting PMSM stator contactor Internal running status Leveling signal RUN contactor feedback Brake contactor feedback Shorting door lock circuit...
  • Page 50 2 System Commissioning Adjustment to elevator startup a. Adjustment for no-load-cell startup The parameter setting related to riding comfort adjustment for no-load-cell startup is described in the following table. Parameter Parameter Name Setting Range Default Remarks 0: Pre-torque invalid 1: Load cell pre-torque The no-load-cell compensation Pre-torque...
  • Page 51 2 System Commissioning • In the driving state, increase F8-03 properly if there is rollback at elevator startup, and decrease F8-03 if there is car lurch at elevator startup. • In the braking state, increase F8-04 properly if there is jerk in command direction at elevator startup, and decrease F8-04 if there is car lurch at elevator startup.
  • Page 52 2 System Commissioning moment when the system sends the brake release command; this is to prevent rollback. If there is obvious rollback at elevator startup, increase F3-19 properly. The system retains the zero-speed torque current output within the time set in F8-11 from the moment when the system sends the brake apply command;...
  • Page 53 2 System Commissioning Figure 2-8 Running curve V (speed) F3-04 F3-07 F3-02 F3-05 F3-03 F3-06 t (time) F3-02, F3-03, and F3-04 are used to set the running curve during which the elevator accelerates from startup to the maximum speed. If the acceleration process is too short causing bad riding comfort, de- crease the value of F3-02 and increase the values of F3-03 and F3-04 to make the acceleration curve smoother.

  • Page 54: Leveling Accuracy Adjustment

    2 System Commissioning 2.2.7 Leveling Accuracy Adjustment There are two leveling accuracy adjustment methods, described as follows: All-floor adjustment Parameter No. Parameter Name Setting Range Default F4-00 Leveling adjustment 0–60 F4-00 is used to adjust the car stop position at all floors. The setting of F4-00 is effective to all floors. Increase F4-00 if under-leveling occurs at every floor and decrease F4-00 if over-leveling occurs at every floor.
  • Page 55 2 System Commissioning Figure 2-9 Single-floor leveling accuracy adjustment Set Fr-00 to 1 Go into the car after the elevator automatically runs to the top floor Adjust the leveling data based on actual error: Press the top floor button once, and the stop position is changed 1 mm upward Press the bottom floor button once, and the stop position is changed 1 mm downward...

  • Page 56: Chapter 3 System Functions

    3 System Functions Chapter 3 System Functions 3.1 Parallel/Group Control Background The NICE3000 supports parallel control of 2 elevators and group control of 2 to 8 elevators, achieving high efficiency and energy saving. Description Parallel control of 2 elevators is implemented by directly using the CAN communication port. Group control of multiple elevators is implemented by together use of a group control board MCTC-GCB-A.
  • Page 57 3 System Functions User floor: actual floor of the building Physical floor: floor which either elevator stops at and provides service for or floor installed with the leveling plate. For the same physical floor, the leveling plate must be installed for both the elevators. Even if one elevator need not stop at a certain floor, the leveling plate must be installed at this floor for this elevator.

  • Page 58: Group Control

    3 System Functions Table 3-1 Parameter setting and HCB addresses of two elevators Elevator 1 Elevator 2 Number of elevators in parallel/ group mode (F6-07) Elevator No. (F6-08) Actual floor Physical floor HCB address HCB display HCB address HCB display FE-01 = 1101 FE-02 = 1901 FE-02 = 1901...
  • Page 59 3 System Functions Wiring Figure 3-3 Wiring of group control DC 24V + DC 24V - MCTC-GCB-A CN10 CAN1- CAN2- CAN3- CAN4- CAN3+ CAN4+ CAN1+ CAN2+ CAN2+ CAN2- CAN2+ CAN2- CAN2+ CAN2- CAN2+ CAN2- MCB4 MCB2 MCB3 MCB1 CAN- CAN- CAN- CAN- CAN+...

  • Page 60: Opposite Door Control

    3 System Functions Related Parameters Setting in Group Parameter No. Parameter Name Setting Range Remarks Control Set the value as the Number of elevators actual number of F6-07 in parallel/group 1–8 1–8 elevators in group mode control. Value “1”: elevator F6-08 Elevator No.
  • Page 61 3 System Functions Wiring Figure 3-4 CCB wiring MCTC-CTB-A MCTC- CCB-A Back door Front door Control Control Single operation box MCTC-CTB-A Control Back door control MCTC- CCB-A Front door MCTC- Back door Front CCB-A operation box Back Front door control Control operation box Double operation boxes...
  • Page 62 3 System Functions HCB setting Figure 3-5 HCB setting diagram NICE3000 controller 24V COM MOD+ MOD- HCB of front door HCB of back door Address: Address: 20 Floor 20 N+20 Address: Address: X Floor X Floor 1 Address: 1 Address: N HCB addresses of front door: 1 to 20 HCB address of back door: N to N+20 F8-16 = N (N >...
  • Page 63 3 System Functions Related Parameters Parameter Setting Service Operation Box Type Door Control Mode Address Mode Other Floor CCB Wiring Setting Selection Parameters Fb-00 = 2, Mode 1 Simultaneous control FC-04 = 0 F8-16 = N (N > F6-00) Hall call independent, The CCB of front Mode 2 FC-04 = 1...

  • Page 64: Unintended Car Movement Protection (Ucmp)

    3 System Functions 3.3 Unintended Car Movement Protection (UCMP) Background The elevator car landing at a certain floor may move unexpectedly, with floor door unlocked and car door open, if the motor or any component of the drive control system fails. A device is required to prevent or stop the movement, guaranteeing safety.

  • Page 65: Ucmp Detection

    3 System Functions 3.3.1 UCMP Detection Wiring Figure 3-6 UCMP wiring for motor without auxiliary brake re-leveling Down re-leveling Shorting door lock circuit relay output MCTC-SCB-A/A1 Door zone input Door lock shorting Door lock Shorting door detection detection lock circuit relay feedback input Door lock Car door lock...
  • Page 66 3 System Functions 20 mm ≤ leveling Leveling plate H0 re-leveling ≤ Door vane length Down re-leveling Down leveling 20 mm ≤ Recommended installation of Monarch UCMP sensor The requirements for installing sensors are as follows: H1 ≤ 20 mm, H2 = 60 mm Leveling plate length <...
  • Page 67 3 System Functions Figure 3-7 UCMP wiring for motor with auxiliary brake Up leveling Up re-leveling Down re-leveling Down leveling Shorting door lock circuit relay output Door lock shorting Door lock Door zone input detection detection Shorting door lock circuit relay feedback input Door lock shorting output 1 MCTC-SCB-C/D...
  • Page 68 3 System Functions Up leveling Up re-leveling Down re-leveling Down leveling Shorting door lock circuit relay output Door lock Door lock Door lock shorting shorting Door zone input detection detection detection Shorting door lock circuit relay feedback input Back car door lock MCTC-SCB-D Door lock...
  • Page 69 3 System Functions Related Parameters Parameter No. Parameter Name Setting Range Test function 7: UCMP manual detection 1: Slip experiment F3-24 Program function selection 2: UCMP manual detection 01/33: Up leveling signal NO/NC (MCTC-SCB-A/A1) F5-01 X1 function selection 01: Up leveling signal NO (MCTC-SCB-C/D) 02/34: 02/34: Down leveling signal NO/NC (MCTC-SCB-A/A1) F5-03 X3 function selection...

  • Page 70: Braking Force Detection

    3 System Functions 3.3.2 Braking Force Detection Wiring Not required. Related Parameters Parameter Parameter Name Setting Range Default Description Torque output When it is set to 0, the system uses the F2-32 1 to 10s duration default value 5. When it is set to 0, the system uses the 1 to 150% rated F2-33 Torque limit...

  • Page 71: Automatic Emergency Evacuation At Power Failure

    3 System Functions test state, and repeats steps 4 to 7 in manual detection. Fault E66 cannot be reset after power-off and power-on again, and can be reset automatically only after the braking force detection is passed. Countdown function: The system determines whether Condition 1 is met after the time exceeds 12 hours. If braking force detection has been performed, F7-10 restores to 24 hours;...

  • Page 72: Ups

    3 System Functions 3.4.1 220 V UPS Wiring The following figure shows the emergency 220 V UPS circuit. Transformer (6 A) UPS-220 V 220 VAC 220 VAC 115 VAC Safety contactor 115 VDC (6 A) UPS-0 V Elevator controller The following figure shows various contacts of the contactors. Figure 3-8 Various contacts of the contactors Phase sequence relay Safety contactor...
  • Page 73 3 System Functions Related Parameters The parameter setting related to emergency evacuation by controller drive is described in the following table. Parameter No. Parameter Name Value Remarks Emergency evacuation F8-10 operation mode at 1: UPS power failure Assume that X20 is used as the NC input F5-20 (X20) X20 function selection 59 (UPS valid signal)

  • Page 74: Ard

    3 System Functions 3.4.2 ARD Wiring Figure 3-9 Wiring of three-phase (380 V) elevator ARD Elevator control cabinet 220 V 380 V 110 V Transformer Elevator ARD External mains Elevator power controller Emergency evacuation signal output 24 V Phase shorting Phase relay output Figure 3-10 Wiring of single-phase (220 V) elevator ARD...

  • Page 75: Sto Function

    3 System Functions 3. Select an ARD with the nominal output power equal to or larger than the motor rated Note power. 4. For the 380 V elevator ARD, only two phases are used for emergency evacuation output, and you need to ensure that wiring to the controller is correct; the output is single-phase 380 V, and you need to ensure that the transformer meets the requirements on the input side.

  • Page 76: Safety Circuit Of 110 V

    3 System Functions Table 3-4 STO pin definitions Signal Mark Voltage Description STOA 24V1 0 V/24 V STO channel A input GND_STOA COM1 Reference ground of STO channel A input STOB 24V2 0 V/24 V STO channel B input GND_STOB COM2 Reference ground of STO channel A input DNS+...

  • Page 77: Chapter 4 Parameter Description

    4 Parameter Description Chapter 4 Parameter Description 4.1 Introduction The parameter attributes correspond to the operating panel as follows: ● Parameter group.: level I menu ● Parameter No.: level II menu ● Parameter value: level III menu The meaning of each column in the parameter table is as follows: Item Definition Parameter No.

  • Page 78: Parameter Table

    4 Parameter Description 4.3 Parameter Table Parameter Parameter Name Setting Range Default Unit Property Group F0: Basic parameters 0: Sensorless vector control (SVC) F0-00 Control mode 1: Feedback vector control (FVC) ★ 2: Voltage/Frequency (V/F) control 0: Operation panel control Command source F0-01 ★...
  • Page 79 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property 0: No operation 1: With-load auto-tuning 2: No-load auto-tuning F1-11 Auto-tuning mode ★ 3: Shaft auto-tuning 1 4: Shaft auto-tuning 2 5: Synchronous motor static auto- tuning 1: static for asynchronous motor, and rotating for synchronous motor 3: group Fr parameters not cleared 4: group Fr parameters cleared F1-12...
  • Page 80 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Group F2: Vector control parameters Speed loop proportional F2-00 0 to 100 ★ gain Kp1 Speed loop integral time F2-01 0.01 to 10.00 0.60 ★ F2-02 Switchover frequency 1 0.00 to F2-05 2.00 ★...
  • Page 81 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property F2-07 Current loop Kp1 (torque) 10 to 500 ★ These two parameters are regulation parameters for the torque axis current loop. These parameters are used as the torque axis current regulator in vector control. The best values of the parameters matching the motor characteristics are obtained by means of motor auto-tuning.
  • Page 82 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Deceleration end jerk F3-06 0.300 to 4.000 1.500 ★ time Deceleration start jerk F3-07 0.300 to 4.000 1.500 ★ time They are used to set the running curve during deceleration of the elevator. F3-05 is the acceleration rate of the elevator speed curve(uniform deceleration segment) .
  • Page 83 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property F3-08 is used to set the deceleration rate in elevator slow-down, inspection, and shaft auto-tuning. This parameter is not used during normal running. It is used only when the elevator position is abnormal or the slow-down signal is abnormal.
  • Page 84 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property F3-18 to F3-20 set the time related to the zero-speed holding current output and braking action delay. F3-18 specifies the time from output of the RUN contactor to output of the brake contactor, during which the controller performs excitation on the motor and outputs zero-speed current with large startup torque.
  • Page 85 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property It indicates the current floor of the elevator car. The system automatically changes the value of this parameter during running, and corrects it at leveling position (door open limit) after the up slow-down and down slow-down switches act. At non-bottom floor and top-floor leveling, you can also manually modify this parameter, but the value must be consistent with the actual current floor.
  • Page 86 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Floor height 11 to floor height 37 High byte of floor height F4-80 0 to 65535 Pulses ★ Low byte of floor height F4-81 0 to 65535 Pulses ★ High byte of floor height F4-82 0 to 65535...
  • Page 87 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property ...(Continued) F5-18 X18 function selection ★ 11/43: Fire emergency signal NO/ NC14/46: Overload signal NO/ NC15/47: Full-load signal NO/NC F5-19 X19 function selection ★ 20/52: Up slow-down 3 signal NO/ F5-20 X20 function selection ★...
  • Page 88 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property ... (Continued) 80/112: Terminal floor verification signal NO/NC F5-24 X24 function selection ★ 81/113: Door lock 1 shorting NO/ (End) F5-25 CTB input type 0 to 511 ★ Bit of F5-25 CTB Input Signal Bit0 Used to set NO/NC feature of door 1 light curtain signal...
  • Page 89 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property It is used to monitor the state of CANbus communication with the CTB and Modbus communication with the HCB. When you enter the menu of F5-32, the LEDs on the operation panel indicate the current HCB communication state.
  • Page 90 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Bit3: Elevator fire emergency requirement for Hong Kong Bit4: Arrival gong disabled at night Bit6: Door lock disconnected at inspection switched over to normal running Bit7: Fault code not displayed on F5-33 Terminal program control ★...
  • Page 91 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property These parameters are used to monitor the state of all I/O terminals of the system. The segments of the five LEDs displayed are defined as follows. Figure 4-7 Monitoring of all I/O terminals LED No.
  • Page 92 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property F5-35 Terminal state display Door open button System light curtain Door 1 light curtain Door open button Door 1 open output display state 1 Door close button System light curtain Door 2 light curtain Door close button Door 1 close output...
  • Page 93 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Service floors 2 (floors F6-06 0 to 65535 65535 ★ 17–32) Service floors 3 (floors F6-35 0 to 65535 65535 ★ 33–40) These parameters are used to set the service floors among floors 1–40. F6-05 (Service floors 1) corresponds to floors 1–16.
  • Page 94 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Example: If floors 2, 8, 9, and 12 of a 16-floor elevator need to be forbidden, and all other floors are in service, we need to set Bit1, Bit7, Bit8, and Bit11 corresponding to floors 2, 8, 9, and 12 to 0, and set the other bits to 1, as shown in the following figure.
  • Page 95 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property F6-09 is used to select the elevator functions. Each bit of the parameter defines a function, as described in the following table. If a bit is set to 1, the function indicated by this bit is enabled; if this bit is set to 0, the function is disabled. For details on how to view and set this parameter, see the descriptions in section 8.21.1.
  • Page 96 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Bit1: Disabling returning to base floor for verification Bit2: Cancelling auto sequential arrange of hall call floor addresses to be displayed Bit5: Current detection valid at startup for synchronous motor Bit6: Reversing MCB lamp output Bit7: Door open valid at non-door zone in the inspection state...
  • Page 97 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property F6-11 is used to select the elevator functions. Each bit of the parameter defines a function, as described in the following table. If a bit is set to 1, the function indicated by this bit is enabled; if this bit is set to 0, the function is disabled. For details on how to view and set this parameter, see the descriptions in section 8.21.1.
  • Page 98 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property F6-13 is used to set the security floor of the elevator. If the security signal is active or it is during the night security period, the elevator runs to the security floor first every time, opens and closes the door once, and then runs to the target floor.
  • Page 99 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property The elevator can switch to the locked state in the following two ways: F6-40 Bit5 = 1, to enable the timed elevator lock function. F6-38 and F6-39 are used to set the elevator lock time period, during which the elevator is in locked state. Fd-07 = 1/33, to enable the hall elevator lock switch Bit0: Disability function Bit1: Soft limit function...
  • Page 100 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property F6-40 is used to select program control functions. Each bit of the parameter defines a function, as described in the following table. If a bit is set to 1, the function indicated by this bit is enabled; if this bit is set to 0, the function is disabled. For details on how to view and set this parameter, see the descriptions in section 8.21.1.
  • Page 101 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Bit2: Inspection to stop due to slow-down 1 Bit4: Buzzer tweet during door open delay Bit6: Cancelling door open delay Bit8: Elevator lock at door open Bit9: Display available at elevator Program control selection lock F6-41...
  • Page 102 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Bit1: Cancelling door open/close command at delay after door open/ close limit Bit2: Not judging door lock state at door close output Bit3: Door close command output during running Bit4: Returning to base floor for verification at first-time power-on Bit5: Clearing calls immediately at...
  • Page 103 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property F6-42 is used to select program control functions. Each bit of the parameter defines a function, as described in the following table. If a bit is set to 1, the function indicated by this bit is enabled; if this bit is set to 0, the function is disabled. For details on how to view and set this parameter, see the descriptions in section 8.21.1.
  • Page 104 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Bit0: Calls cancelled after entering attendant state Bit1: Not responding to hall calls Bit2: Attendant/Automatic state switchover Bit3: Door close at jogging Attendant function F6-43 ★ Bit4: Automatic door close selection Bit5: Buzzer tweeting at intervals in attendant state...
  • Page 105 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Bit3: Arrival gong output in inspection or fire emergency state Bit4: Multiple car calls registered in fire emergency state Bit5: Retentive at power failure in fire emergency state Bit6: Closing door by holding down the door close button Bit8: Door close at car call registering...
  • Page 106 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property F6-44 is used to select the fire emergency-related functions. Each bit of the parameter defines a function, as described in the following table. If a bit is set to 1, the function indicated by this bit is enabled; if this bit is set to 0, the function is disabled. For details on how to view and set this parameter, see the descriptions in section 8.21.1.
  • Page 107 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Bit0 to Bit1: Direction determine mode (00: Automatically calculating direction; 01: Load direction determining; 10: Direction of nearest landing floor) Bit2: Stopping at evacuation parking floor Bit4: Compensation at startup Bit8: Emergency running time protection Emergency evacuation...
  • Page 108 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property F6-45 is used to select the attendant-related elevator functions. Each bit of the parameter defines a function, as described in the following table. If a bit is set to 1, the function indicated by this bit is enabled; if this bit is set to 0, the function is disabled. For details on how to view and set this parameter, see the descriptions in section 8.21.1.
  • Page 109 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Bit0: VIP enabled by hall call (at VIP floor) F6-46 VIP function selection Bit1: VIP enabled by terminal ★ Bit8: Number of VIP car calls limited F6-47 Blinking advance time 0.0 to 15.0 ☆...
  • Page 110 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property F7-09 indicates the braking force detection result. When F7-09 is 2, the system prompts fault E66. Users need to check the brake and check that the detection result is qualified, and then reset this fault. F7-10 indicates the countdown of braking force detection period.
  • Page 111 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property 0: Anti-nuisance function disabled 1: Nuisance judged by load cell F8-08 Anti-nuisance function ☆ 2: Nuisance judged by light curtain 4: Nuisance judged by light-load signal It is the criteria for judging whether nuisance exists. The values are as follows: 0: Anti-nuisance function disabled 1: Nuisance judged by load cell...
  • Page 112 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Current F9-04 Clock: month 1 to 12 ☆ month Current F9-05 Clock: day 1 to 31 ☆ Current F9-06 Clock: hour 0 to 23 ☆ hour Current F9-07 Clock: minute 0 to 59 ☆...
  • Page 113 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property FA-17 Present position 0.0 to 300.0 ● FA-18 Output current 0.0 to 999.9 ● FA-19 Output frequency 0.00 to 99.99 ● FA-20 Torque current 0.0 to 999.9 ● FA-21 Output voltage 0 to 999.9 ●...
  • Page 114 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Group Fb: Door function parameters Number of door Fb-00 1 to 2 ★ machine(s) Fb-01 CTB software 00 to 999 ● Door machine 1 service Fb-02 0 to 65535 65535 ☆...
  • Page 115 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Group FC: Protection function parameters Bit0: Short circuit to ground detection at power-on Program control for Bit2: Decelerating to stop at valid FC-00 ★ protection function light curtain Bit9: Mode without door open/ close limit FC-00 is used to set program control related to protection functions.
  • Page 116 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property FC-01 is used to set program control related to protection functions. Each bit of the parameter defines a function, as described in the following table. If a bit is set to 1, the function indicated by this bit is enabled; if this bit is set to 0, the function is disabled. For details on how to view and set this parameter, see the descriptions in section 8.21.1.
  • Page 117 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property FC-21 1st fault subcode 0 to 1231 MM.DD ● FC-22 1st fault month and day 0 to 23.59 HH.MM ● FC-23 1st fault hour and minute 0 to 9999 ●...
  • Page 118 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property 0: Invalid Fd-09 HCB:JP1 output ★ 1: Up arrival indicator 2: Down arrival indicator 3: Fault output 4: Non-door zone stop output Fd-10 HCB:JP2 output ★ 5: Non-service state output 6: Door close button indicator output Extension board 1 X1...
  • Page 119 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Extension board 1 Y1 Fd-31 ★ output Extension board 1 Y2 Fd-32 ★ output Extension board 1 Y3 Fd-33 ★ output 0: No function Extension board 1 Y4 Fd-34 ★...
  • Page 120 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property It is used to set the collective selective mode of the system. The values are as follows: 0: Full collective selective. The elevator responds to both up and down hall calls. 1: Down collective selective.
  • Page 121 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property FE-52 to FE-56 are used to set special floor display. When the 2-digit display cannot meet the requirement, you can add the third-digit display by setting these parameters as follows: 1.
  • Page 122 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property FE-32 is used to select the elevator functions. Each bit of the parameter defines a function, as described in the following table. If a bit is set to 1, the function indicated by this bit is enabled; if this bit is set to 0, the function is disabled. For details on how to view and set this parameter, see the descriptions in section 8.21.1.
  • Page 123 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property FE-33 is used to select the elevator functions. Each bit of the parameter defines a function, as described in the following table. If a bit is set to 1, the function indicated by this bit is enabled; if this bit is set to 0, the function is disabled. For details on how to view and set this parameter, see the descriptions in section 8.21.1.
  • Page 124 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Leveling adjustment Fr-20 0 to 60060 30030 ★ record 20 Fr-01 to Fr-20 record the leveling adjustment values. Each parameter records the adjustment information of two floors, and therefore, the adjustment information of 40 floors can be recorded totally. The method of viewing the record is shown in the following figure.
  • Page 125 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Month and day of 1st 0 to 1231 E0-02 MM.DD ● fault E0-03 Time of 1st fault 0 to 23.59 HH.MM ● Logic information upon E0-04 0 to 65535 ●...
  • Page 126 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Car output state upon 1st E0-26 0 to 65535 ● fault E0-27 Hall states upon 1st fault 0 to 65535 ● System state 1 upon 1st E0-28 0 to 65535 ●...
  • Page 127 4 Parameter Description Parameter Parameter Name Setting Range Default Unit Property Input state 4 upon 10th E9-21 0 to 65535 ● fault Input state 5 upon 10th E9-22 0 to 65535 ● fault Output state 1 upon 10th E9-23 0 to 65535 ●...

  • Page 128: Chapter 5 Troubleshooting

    5 Troubleshooting Chapter 5 Troubleshooting 5.1 Description of Fault Levels The NICE3000 has almost 70 pieces of alarm information and protective functions. It monitors various input signals, running conditions and feedback signals. If a fault occurs, the system implements the relevant protective function and displays the fault code.

  • Page 129: Fault Codes And Troubleshooting

    5 Troubleshooting 5.2 Fault Codes and Troubleshooting If a fault is reported, the system performs corresponding processing based on the fault level. Handle the fault according to the possible causes described in the following table. Table 5-2 Fault codes and troubleshooting Fault Code Name Possible Causes...
  • Page 130 5 Troubleshooting Fault Code Name Possible Causes Solution Level • Check whether the motor cables and PE cable are connected incorrectly. The main circuit • Check whether the shorting PMSM stator output is grounded or contactor causes short circuit at the controller short circuited.
  • Page 131 5 Troubleshooting Fault Code Name Possible Causes Solution Level • Check whether the input voltage is too high. The input voltage is • Observe whether the bus voltage is too high too high. (normal: 540 to 580 V for 380 voltage input). •...
  • Page 132 • Check whether wiring of all power input input power supply. cables is secure. Undervoltage The input voltage is Check whether the external power voltage is Err09 too low. too low. The drive control Contact our agent or Inovance directly.. board fails. - 131 -...
  • Page 133 5 Troubleshooting Fault Code Name Possible Causes Solution Level • Check whether the brake is released, and The mechanical whether the brake power supply is normal. resistance is too large. • Check whether the guide shoes are too tight. The balance coefficient is Check whether the balance coefficient is proper.
  • Page 134 5 Troubleshooting Fault Code Name Possible Causes Solution Level • Check whether the motor wiring is secure. The output wiring of • Check whether the RUN contactor on the the main circuit is output side is normal. Power output loose. phase loss Err13 The motor is...
  • Page 135 5 Troubleshooting Fault Code Name Possible Causes Solution Level Subcode 1: Reserved. - Serious interference exists in the C, D, and Z signals of the SIN/COS encoder. Check whether Subcode 2: The SIN/ the encoder cable is laid separately from the COS encoder signal power cables, and whether system grounding is is abnormal.
  • Page 136 5 Troubleshooting Fault Code Name Possible Causes Solution Level Subcode 1: The • Check whether the encoder signal circuit is encoder signal is normal. not detected during • Check whether the PG card is normal. synchronous motor no- • Check whether the brake is released. load auto-tuning.
  • Page 137 5 Troubleshooting Fault Code Name Possible Causes Solution Level Subcode 2: The maximum frequency is Increase the value of F0-06 to larger than the smaller than the motor motor rated frequency. rated frequency. Parameter setting incorrect Set the encoder type as UVW when a SIN/COS, Subcode 3: The Err21 absolute or ABZ encoder is used.
  • Page 138 5 Troubleshooting Fault Code Name Possible Causes Solution Level • Check whether the leveling signal cables are Subcodes 101, 102: connected reliably and whether the signal In the normal-speed copper wires may touch the ground or be running or re-leveling short circuited with other signal cables.
  • Page 139 5 Troubleshooting Fault Code Name Possible Causes Solution Level Subcode 101: When shaft auto-tuning is Check that the down slow-down switch is valid, started, the elevator is and that F4-01 (Current floor) is set to the not at the bottom floor bottom floor number.
  • Page 140 5 Troubleshooting Fault Code Name Possible Causes Solution Level Subcode 101: The feedback of the RUN contactor is active, but the contactor has no output. Subcode 102: The controller outputs the RUN signal but receives no RUN • Check whether the feedback contact of the feedback.
  • Page 141 5 Troubleshooting Fault Code Name Possible Causes Solution Level • Check whether the brake contactor opens and closes properly. Subcode 101: The output of the • Check that the signal feature (NO, NC) of the brake contactor is feedback contact on the brake contactor is inconsistent with the set correctly.
  • Page 142 5 Troubleshooting Fault Code Name Possible Causes Solution Level Subcode 101: The • Check whether the encoder is used correctly. pulses in F4-03 does not change within the • Check whether the brake works properly. time threshold in of F1-13. Subcode 102: F4- •...
  • Page 143 5 Troubleshooting Fault Code Name Possible Causes Solution Level • Check whether the hall door lock and the car door lock are in good contact. Subcodes 101, 102: • Check whether the door lock contactor acts Door lock The door lock circuit properly.
  • Page 144 5 Troubleshooting Fault Code Name Possible Causes Solution Level Subcode 101: The leveling signal is Check whether the leveling signal is normal. inactive during re- leveling. Re-leveling abnormal Subcode 102: The Err46 re-leveling running Check whether the encoder is used properly. speed exceeds 0.1 m/ Subcode 101: During re-leveling or pre-...
  • Page 145 5 Troubleshooting Fault Code Name Possible Causes Solution Level • Check the communication cable connection. Subcode 101: • Check the power supply of the CTB. Feedback data of CANbus • Check whether the 24 V power supply of the communication communication with controller is normal.
  • Page 146 (SPI) abnormal. communication Subcode 103: The Err57 abnormal MCB does not match Contact our agent or Inovance directly. the AC drive. Subcode 101: The up slow-down switch and down • Check whether the signal feature (NO, NC) slow-down switch...
  • Page 147 Err62 • Adjust the load cell switch function. Special fault Contact our agent or Inovance directly. Err63 • Check the NO/NC setting of external faults Subcode 101: The External fault external fault signal • Check the input state of the external fault keeps active for 2s.

  • Page 148: Chapter 6 Inspection And Maintenance

    6 Inspection and Maintenance Chapter 6 Inspection and Maintenance The influence of the ambient temperature, humidity, dust and vibration will cause aging of components inside the controller, which may cause potential faults or reduce the service life of the controller. Therefore, it is necessary to carry out routine and periodic inspection.

  • Page 149: Revision History

    Revision History Date Version Change Description June 2017 First issue. November 2018 Updated logo. - 148 -...

  • Page 150: Warranty Agreement

    Warranty Agreement 1) Inovance provides an 18-month free warranty to the equipment itself from the date of manufacturing for the failure or damage under normal use conditions. 2) Within the warranty period, maintenance will be charged for the damage caused by the following...
  • Page 151 NICE3000 Series Integrated Elevator Controller User Guide Regen. resistor Safety contactor – PB Braking Three-phase Motor mechanism AC power supply LOCAL /REMOT FED/REV TUNE/TC Switch-mode Encoder power supply ENTER CN12 QUICK (P ≥ 150 W) STOP MF.K Shield +24 VDC PG card Up leveling CN10...
  • Page 152 //www.inovance.com Shenzhen Inovance Technology Co., Ltd. Add.: Building E, Hongwei Industry Park, Liuxian Road, Baocheng No. 70 Zone, Bao’an District, Shenzhen Tel: +86-755-2979 9595 Fax: +86-755-2961 9897 Service Hotline: 400-777-1260 http: //www.inovance.com Copyright   Shenzhen Inovance Technology Co., Ltd.

This manual is also suitable for:

Monarch nice-l-c-2002Monarch nice-l-c-2003Monarch 220-nice-l-c-4007Monarch 220-nice-l-c-4011Monarch 220-nice-l-c-4015Monarch 220-nice-l-c-4018 ... Show all

Table of Contents

Save PDF