NICE1000
Contents
1. 2 L structure 18 37 kW rai D nm L k i l 3 L structure 45 55 kW a e al Ooms x 4 Ed B H 00 ARE DOOR 1000 000 Deeg 000 OOG EO _ 1000 0000 OON 1000 0000 DOO G0 0000 OES A B 3 Y y 7 B 27 Product Information NICE1000 User Manual The following table lists the mounting dimensions of different models Table 2 3 Mounting dimensions of the NICE1000 A B H D Hole Controller Model W mm Diameter mm mm mm mm mm Single phase Three phase 220 V range 15 to 22. Floor 16 Floor number indicated by each bit 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 131 Description of Function Codes NICE1000 User Manual Bit Addressing Bit15 Bit14 Bit13 Bit12 Bit11 Bit10 Bit9 Bit8 Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 BitO Binary Addressing 32768 16384 8192 4096 2048 1024 256 612 128 64 32 16 8 4 2 1 Forbidden Floor 3 Bit2 1 Floor 4 Bit3 1 Floor 5 Bit4 1 Floor 6 Bit5 1 Forbidden Forbidden Floor 10 Bit9 1 Floor 11 Bit10 1 dii Forbidden Floor 13 Bit12 1 Floor 14 Bit13 1 Floor 15 Bit14 1 Floor 16 Bit15 1 Convert the binary value to decimal 1 4 48 16 32 64 512 1024 4096 8192 16384 32768 63101 Then enter 63101 for F6 05 on the operation panel Function Code Parameter Name Setting Range Default Property F6 06 Elevator function control 1 0 65535 oo It is used to select the required elevator f
3. 3 Precautions on connecting the MCTC PG card The cable connecting the MCTC PG card and the encoder must be separated from the cables of the control circuit and the power circuit Parallel cabling in close distance is forbidden The cable from the MCTC PG card to the encoder must be a shielded cable The shield must be connected to the PE on the controller side To minimize interference single end grounding is suggested The cable from the MCTC PG card to the encoder must run through the duct separately and the metal shell is reliably grounded 3 3 4 Selection of Adaptable Motor The main counters of the electrical relationship between the controller and the motor are voltage and current 1 In general elevator applications the input mains voltage is 380 V and the motor voltage can only be equal to or smaller than 380 V Thus when selecting the NICE1000 you can take only the current of the motor into consideration 2 When the NICE1000 is designed large safety allowance is reserved for the main power module The controller can run properly within the nominal output current During stable running the maximum output torque is 15096 of the rated torque and can reach up to 200 of the rated torque for a short time Therefore for the motor with the rated voltage of 380 V you can select the controller of the same power class As long as the rate
4. eeeccccecoece C RBBB ET m a CN1 YM O Y27 2 Y26 Y25 o MCTC KZ D HB e vaal 2 Y5 Y4 o m ee CN3 CN4 NSIS SBSSSSS SSzS9issw 999 ddAA AAAAAAHAHAHA jo Sy sy Sy Sy Sy Ss SeSSeSSeSSesSeSe sissssissss s ss Unit mm 2 Function description of terminals Table 3 4 Function description of terminals Function Description Terminal Arrangement Button input and button j indicator output CN3 L27 to L38 Button function p selection 24 V power for button illumination Button input and button j indicator output CN4 L39 to L50 Button function p selection 24 V power for button illumination O z CD r GeSSSSSSSSSSIS SSssSssSssSssSses 2 Normally open NO maximum current and YM Y4 Y5 voltage rating 23 to Y27 Relayoutput 5 A 250 VAC Function set in F7 03 to F7 27 SSSSSSSS 3 Indicators Table 3 5 Description of indicators on the MCTC KZ D Extension button signal When the extension floor button input signal is active L27 to L50 collection feedback and the response signal is output this indicator is ON indicator green Y4 Y5 Extension relay output When the extension relay output of the system is Y23 to Y27 signal indicator active this indicator is ON green 41
5. 48 NICE1000 User Manual Mechanical and Electrical Installation Number of Leveling Installation Method Switches Connecting to Input Terminals of Setting of Function Controller Code 24 VDC F5 22 101 NC Up leveling X22 Up leveling Door zone signal X23 F5 23 103 NC signal detection Down leveling X24 X22 X23 and X24 are recommended F5 24 1 02 NC 24 VDC F5 22 01 NO Down leveling Up leveling X22 signal detection _ mad Door zone signal X23 F5 23 03 NO Down leveling X24 X22 X23 and X24 are recommended F5 24 02 NO Door zone signal detection 3 6 2 Installation of Slow Down Switches The slow down switch is one of the key protective components of the NICE1000 protecting the elevator from over travel top terminal or over travel bottom terminal at maximum speed when the elevator position becomes abnormal The NICE1000 system supports one pair of slow down switches The slow down distance L indicates the distance from the slow down switch to the leveling plate at the terminal floor The calculating formula is as follows V Le EE 2 X F3 08 In the formula L indicates the slow down distance V indicates the FO 04 Rated elevator speed and F3 08 indicates the special deceleration rate The default va
6. SSSSSSSSSS SSSSSSESES YM1 is COM for Y6 to Y9 Mn EPI relay vM2 is COM for Y10 to Y16 P YM3 is COM for Y17 to Y22 CANbus communication interface used for parallel control ow Interface for extension board MCTC KZ D Used to connect the external Bluetooth module for commissioning via Android cell phone USB m not supporting English CN10 mier ce Communication version currently Used to burn the MCB program Used for residential monitoring Control board ground If it is shorted the control board CN11 ee CN11 ground is connected to the controller ground RJ45 Interface for Used to connect the CN12 CN12 interface operation panel operation panel CANbus differential signal 39 Mechanical and Electrical Installation NICE1000 User Manual Function Description Terminal Arrangement Interface for connecting the PG card J9 Factory reserved Do not short them randomly Otherwise J10 the controller may not work properly Table 3 3 Description of indicators on the MCB M When a fault occurs on the controller this indicator is ER Fault indicator ON red Um When the controller is in normal running state this OK Normal running indicator indicator is ON green Paralletconirol This indicator is steady ON green when
7. Figure 3 3 Terminal arrangement of the NICE1000 o o 3l EAE MCTC MCB H DEA CpRD RPG epp RS OU O LEL898898899898B898898898L B Description of Main Circuit Terminals The following figure shows main circuit terminal arrangement Figure 3 4 Main circuit terminal arrangement OOOO OOOO ooo OOO aaaaaBBaaBBdagagagpgaa U 36 NICE1000 User Manual Mechanical and Electrical Installation Figure 3 5 Wiring of the main circuit Three phase AC power supply Safety contactor E A CD II D te CD CD CD GD CD For m
8. manually and press the RUN key Motor auto tuning starts After motor parameters F 1 14 to F1 18 are obtained restore F0 01 to 1 Distance control Motor auto tuning is completed v Check the initial angle and wiring mode After motor parameter values For with load auto tuning set F1 11 to of the encoder F1 06 and F1 08 after F1 06 to F1 08 F1 14 F1 19 to 1 After the operation panel displays motor auto tuning Perform motor auto F1 20 and current loop TUNE press the UP DOWN button tuning multiple times and ensure that parameters are obtained restore for inspection to start auto tuning The the difference between values of F1 06 F0 01 to 1 Distance control is within 5 and values of F1 08 are the Motor auto tuning is completed same motor starts to run More descriptions of motor auto tuning are as follows 1 When the NICE1000 drives the synchronous motor an encoder is required to provide feedback signals You must set the encoder parameters correctly before performing motor auto tuning 2 For synchronous motor auto tuning a In the no load auto tuning and with load auto tuning the motor needs to rotate The best auto tuning mode is no load auto tuning if this mode is impossible then try with load auto tuning b Perform three or more times of auto tuning compare the obtained values of F1 06 Encoder initial angle The value deviati
9. 24V gBRESHsSSZSREN ssesessssssa COM o COM AAAAAAAAHAAAA 1 11 1 3 21 1 4 1 4 4 Door zone X1 SSSSSSSSSSSSIISSSSSSSSSSSSS RUN contactor feedback X2 ES Brake contactor feedback x X3 Button input and button indicator output L inspection 2 x4 circuit Fire emergency g X9 Elevator lock e X8 Up limit A D limit D Up MEN ATE x X11 Down slow down switch x X12 Overload X13 Door open limit X14 Light curtain e x Q Attendant state x16 Doo dessin d m oor Ci e Emergency evacuation feedback 9 X19 Shorting motor stator feedback e e Xag 25 cell A KA t Q AI Y 24 VDC 24 VDC Leap quB TE ee pe WP EG 17 2 o X4 up D 24V D NM ia A 314 1 2 1py2 Qi L2 12 Zp L3 Te Down AG L4 Down L5 Ls pe oshortshaft E _safety switches lt D L7 CN gt L8 Ci a of operation box L10 Q L11 L12 Note 2 D L13 gt L14 1 Functions of I O terminals are set in lus parameters of groups F5 F6 and F7 gt B uc 2 This figure shows only a wiring zi example The wiring method varies with D L19 the type of the display board L20 L21 3 The extension board is used only D L22 when the I O terminals on the MCB do L23 not meet requirements E 4 The parameter setting is the default qp L2
10. Mechanical and Electrical Installation NICE1000 User Manual 3 3 3 Selection and Use of the MCTC PG Card The NICE1000 can implement CLVC only with use of the MCTC PG card The following figures show the appearance of the MCTC PG card and its installation on the controller Directly insert the J1 terminal of the MCTC PG card into the J12 terminal of the controller Figure 3 9 Appearance of the MCTC PG card and its installation on the controller e o 6 e le HE I E Oo E MCTC PG E card D CN1 O iut J128 Et Q Directly insert 1 Model selection Monarch provides four PG card models MCTC PG A2 MCTC PG D MCTC PG E and MCTC PG F 1 for different encoder types as described in the following table Table 3 6 Selection of the MCTC PG card models Push pull encoder cnt MCTC PG A2 Open collector incremental encoder Pd MCTC PG D Em D2 ma D5 Emu D8 Em D11 E D14 MCTC PG E SIN COS encoder MCTC PG E 42 NICE1000 User Manual Mechanical and Electrical Installation D O Absolute encoder MCTC PG F1 ECN413 1313 MCTC PG F1 2 Terminal w
11. OELE The following figure shows various contacts of the contactors 70 NICE1000 User Manual System Commissioning and Application Example Figure 5 8 Various contacts of the contactors Phase sequence relay poni 11 14 ay Safety contactor anti 110V lt um UPC 53 54 E 51 YPC 0 mergency feedback 24V lt ie 6 14 22 54 62 72 82 NNI NT Tue 5 13 21 53 61 71 81 ar N The UPS power is recommended in the following table Table 5 3 Recommended UPS power for each power class UPS Power Controller Power 1 kVA 700 800 W P lt 5 5 kW 2 KVA 1400 1600 W 5 5 kW lt P lt 11 kW 3 KVA 2100 2400 W 15 kW lt P lt 22 kW The following table lists the setting of the related parameters Table 5 4 Parameter setting under the 220 V UPS scheme F6 72 Emergency evacuation switching 0 010 0 630 m s speed F6 73 Evacuation parking floor 0 to F6 01 F8 09 Emergency evacuation operation 0 000 to F3 11 speed at power failure F3 18 En den Ee HON 0 100 1 300 m s acceleration rate 0 Invalid 1 UPS 2 48 V battery power supply F5 19 X19 X19 function selection 33 UPS valid signal F7 00 YO YO function selection 32 Emergency evacuation at power failure Emergency evacuation operation mode at power failure F8 10 71 System Commissioning and Application Example NICE1000 User Manual B Emergency ARD P
12. e OP communication for parallel control is enabled and blinks communication indicator d when the running in parallel mode is normal LitoL26 Button input indicator This indicator is ON green when the button input is active X1 to X27_ Input signal indicator This indicator is ON green when the external input is active YO to Y22 Output signal indicator b d is ON green when the system output is 3 3 2 Description of the MCTC KZ D Extension Card The extension card is mainly used for extension of floor button inputs and relay outputs 1 Installation method and dimensions The following figure shows installation of the MCTC KZ D The CN2 interface of the MCTC KZ D is connected to the CN5 interface on the MCB of the NICE1000 by using a connection cable Figure 3 7 Appearance and installation of the MCTC KZ D P 9J d 8 CN5 onnection cable H H H 2 z CN1 MCTC KZ D 2 CN3 CN4 EEUE ELE EI II 40 NICE1000 User Manual Mechanical and Electrical Installation Figure 3 8 Mounting dimensions of the MCTC KZ D 130
13. o o Consult the manufacturer 220 NICE L H 4018 220 NICE L H 4022 220 NICE L H 4030 N N Z Z QO m T TE A ES oO ww N P w Nj O N 195 EMC NICE1000 User Manual 9 4 Shielded Cable 9 4 1 Requirements for the Shielded Cable The shielded cable must be used to satisfy the EMC requirements Shielded cables are classified into three conductor cable and four conductor cable If conductivity of the cable shield is not sufficient add an independent PE cable or use a four conductor cable of which one phase conductor is PE cable The three conductor cable and four conductor cable are shown in the following figure PE conductor Shield Shield 6 5 and shield 63 oo d oo e PE PE The motor cable and PE shielded conducting wire twisted shielded should be as short as possible to reduce electromagnetic radiation and external stray current and capacitive current of the cable To suppress emission and conduction of the radio frequency interference effectively the shield of the shielded cable is cooper braid The braided density of the cooper braid should be greater than 90 to enhance the shielding efficiency and conductivity as shown in the following figure Insulation jacket Copper shield Copper braid Internal insulator Cable SEAN d core We It is recommended that all control cables be shielded The grounding area of the
14. Ensure that the peripheral circuit and mechanical installation are ready before performing commissioning The following figure shows the commissioning procedure of the system Figure 5 1 Commissioning procedure of the system lt Stat gt i Y Check the peripheral Perform load cell circuit auto tuning Commission the door Check the encoder machine controller Set related parameters Perform trial of the elevator normal speed running Perform motor Check the leveling auto tuning accuracy Perform trial Perform riding comfort inspection running commissioning Perform shaft Perform function auto tuning commissioning End 5 1 1 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 58 NICE1000 User Manual System Commissioning and Application Example 1 Check the field mechanical and electric wiring Before power on check the peripheral wiring to ensure component and personal safety The items to be checked include 1
15. 1 1000 CLVC 1 50 VIF Speed stability 0 5 SVC accuracy 0 05 CLVC Torque control 5 CLVC accuracy 60s for 150 of the rated current 1s for 200 of the rated current Motor auto tuning With load auto tuning no load auto tuning Direct travel ride mode in which the leveling position can Distance control be adjusted flexibly Speed adjustment range Overload Ba Acceleration specifications N curves generated automatically Deceleration curve New reliable slow down function automatically identifying Slow down i the position of the slow down shelf Shaft auto tuning 32 bit data recording the position in the shaft accurately ze ing Flexible and easy leveling adjustment function adjustment Startup torque Load cell startup pre torque compensation compensation No load cell startup pre torque self adaption 3esif ncton Easy to implement multiple elevators commissioning functions Fault protection Solutions to different levels of elevator faults Intelligent Remote monitoring user management and group control management adjustment Security check of peripheral devices after power on Monitoring the state of feedback signals to ensure that the Status monitor elevator works properly Security check of peripheral devices such as grounding and short circuit after power on DE Product Information NICE1000 User Manual 24 x DI Input specification 24 V 5 mA Digital input DI 3 hig
16. B DI active double door control same as mode 2 Hall call independent Car Call independent arrival for halls call and car calls from this The corresponding door opens upon lt 4 standard door lt 8 after extension Note e In the fire emergency and elevator lock state the opposite door is under simultaneous control rather than independent control In any mode if the door machine controller does not work at a certain floor the door does not open after arrival of the elevator n any mode if the door machine controllers of both the front and back doors work but Back door forbidden input is active the back door does not open n any mode when any door close button input in the car is active both the front door and back door close Single Double door selection input is valid only in mode 3 and the elevator is in double door service state Otherwise the elevator is in single door service state 78 Function Code Table Function Code Table NICE1000 User Manual Chapter 6 Function Code Table 6 1 Function Code Description 1 There are a total of 17 function code groups each of which includes several function codes The function codes adopt the three level menu The function code group number is Level I menu the function code number is Level Il menu the function code setting is Level lll menu 2 The meaning of each column in the function code table is as follows Functio
17. Input power supply in Check whether there is liquid poor quality leakage Electrolytic High ambient Check whether the safety valve capacitor 4 to 5 years temperature has projected Frequent load jumping Measure the static capacitance Electrolytic aging Measure the insulating resistance The service life is obtained based on the following conditions Ambient temperature average 30 C per year Load rate below 8096 e Running time less than 20 hours per day 8 1 4 Storage of the Controller For storage of the controller pay attention to the following two aspects 1 Packthe controller with the original packing box provided by Monarch 2 Long term storage degrades the electrolytic capacitor Thus the controller must be energized once every 2 years each time lasting at least 5 hours The input voltage must be increased slowly to the rated value with the regulator 8 2 Description of Fault Levels The NICE1000 has almost 60 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 The controller is a complicated electronic control system and the displayed fault information is graded into five levels according to the severity The faults of different levels are handled according to the following table 175 Troubleshooting Table 8 2 Fault level
18. It displays the NICE series model of the controller Function Code Setting Range FA 11 Pre torque current 0 0 200 0 It displays the percentage of pre torque current to the rated current positive negative display indicating driving or braking Function Code Setting Range Default Property FA 12 Logic information 065535 o It displays the elevator status parameters The LEDs are arranged as 5 4 3 2 1 from left to right LED 1 shows the state of door 1 LEDs 2 and 3 have no display LEDs 4 and 5 together show the elevator state Default Property The following figure shows the elevator in inspection and door close state Figure 7 7 Elevator state display 5 4 3 2 1 GE EE SN Z N Z A oog Ka amp 2 KP EED ae AEBS O O LAAN The LEDs are defined in the following table Table 7 15 LED display of the elevator state LED 5 LED 4 LED 3 LED 2 LED 1 Elevator State Ne Do Door 1 State Display Display Inspection state 8 Elevator lock EB Waiting state 01 Shaft auto tuning e evatar Door open state parking 02 Micro leveling 10 NE eV Ing al 2 Door open limit inspection speed Returning to Emergency 03 base floor at fire 11 evacuation 3 Door close state emergency operation Firefighter nr 04 12 Motor auto tuning 4 Door close limit operation 05 7 Es mr EF raas Attendant Base floor check operation umano 0 153 Description of
19. asynchronous motor dependent F1 16 Leakage inductance 0 00_300 00 Model T ve asynchronous motor dependent F4 17 Mutual inductance 0 1 3000 0 Model ET asynchronous motor dependent F1 18 Magnetizing current 0 01 300 00 Model A x asynchronous motor dependent These parameters are obtained by means of motor auto tuning After the motor auto tuning is completed successfully the values of these parameters are updated automatically If motor auto tuning cannot be performed onsite manually enter the values by referring to data of the motor with the same nameplate parameters Each time F1 01 Rated motor power of the asynchronous motor is modified these parameters automatically resume to the default values for the standard motor These parameters are obtained by means of motor auto tuning Function Code Setting Range Default Property 0 Asynchronous motor F1 25 Motor type 1 1 Synchronous motor It is used to set the motor type This parameter must be set correctly before motor auto tuning otherwise the motor auto tuning cannot be performed Group F2 Vector Control Parameters Foo Speediooperoportonalgainkr 0 0 40 X F201 Speedioopintgralime in 001000 060 s X F2 00 and F2 01 are PI regulation parameters when the running frequency is smaller than the value of F2 02 Switchover frequency 1 Function Code Setting Range Default Property F2 03 Speed loop proportional gai
20. the elevator runs at the inspection speed 12 First fire emergency signal When the first fire emergency switch is turned on the elevator enters the fire emergency state and immediately cancels the registered hall calls and car calls The elevator stops at the nearest floor without opening the door and then directly runs to the fire emergency floor and automatically opens the door after arrival 13 Reserved 14 Elevator lock signal When the elevator lock signal is active the system enters the elevator lock state 15 Up limit signal 16 Down limit signal The up limit signal and down limit signal are used as the stop switches at the terminal floor to prevent over travel top terminal or over travel bottom terminal when the elevator runs over the leveling position of the terminal floor but does not stop 17 Up slow down signal 18 Down slow down signal These signals are set to NO input corresponding to the slow down switches The system automatically records the positions of the switches in group F3 during shaft auto tuning 19 Overload signal When the elevator load exceeds 11096 of the rated load during normal use the elevator enters the overload state Then the overload buzzer beeps the overload indicator in the car becomes ON and the elevator door keeps open The overload signal becomes invalid when the door lock is applied If the running with 110 of the rated load is required during inspection you can set Bit2 of F6 10 t
21. Default Unit Property F6 67 Attendant function selection 0 65535 328 Each bit of the function code 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 O the function is disabled For details on how to view and set this function code in bit refer to F6 06 139 Description of Function Codes NICE1000 User Manual Table 7 10 Attendant related functions indicated by bits of F6 67 F6 67 Attendant Function Selection Calls cancelled after BitO entering attendant state Not responding to The car blinks inside prompting there is hall call but Bit1 hall calls the system does not respond Bit2 Attendant Automatic If this function is enabled the setting of F5 00 state switchover Attendant Normal switchover time is valid T The elevator door closes after the attendant presses the Bit3 Door close at jogging door close button manually It is the same as the normal state After the door open Bit4 Automatic door close holding time is reached the door closes automatically Buzzer tweeting at intervals in attendant state All car calls and hall calls are cancelled after the system enters the attendant state for the first time When the hall call floor and the car call floor are different the buzzer tweets 2 5s at intervals Continuous buzzer tweeting in attendant state i Car call button Wh
22. Up signal d display output high bit output did Low 7 segment 1 1 12 1 m e display output 0 1 3 5 Minus sign display output Returning to base floor at fire emergency output N output Controller normal running output active Medical sterilization output High 7 segment 3 5 i e display output CD Buzzer output No Ka Non door zone stop output High 7 segment f display output Overload output 11 12 13 Electric lock output 14 5 7 Arrival gong 45 Reseed 7 Non service state 1 High 7 Segment output output gdisplay output The input output signals of all floors are viewed in FA 34 to FA 40 as described in the following table 157 Description of Function Codes NICE1000 User Manual FA 35 Floor MO state 2 Funcion Ne Function No Boor topen 9 DserZopen Doort dose 9 Deorzdose Door 1 open 10 Door 2 open Floor 3 car call 10 delay delay Door 2 Floor 4 car call 11 selection FA 36 Floor VO state 3 door 1 up call FA 37 Floor I O state 4 door 1 down call Funcion No Function No Funcion Floor tup cat_ 8 Floor upcatl_ 0 Reserved 6 Floor up cal 14 Floor 15 up call 6 Floor down cal 14 Floor 15 down ca FA 39 Floor I O state 6 door 2 up call No Funcion Wo Funcion No Funcion No Funion o Foor car cat 8 Floor carcat_ 0 Fior upcal 8 Floor up cal L1 Fieorz cara 9 For 10 car cati 1 F
23. and the duration lasts the time specified in the inverse time lag curve the system outputs a pre warning signal Function Code Setting Range Default Property FC 04 Designated fault 0 999 o It is used to designate the fault to be monitored The designated fault code is saved in parameters of FC 05 to FC 15 and will not be overwritten Function Code Setting Range Default Property FC 05 Designated fault code 0 9999 Foo FC 06 Designated fault subcode 0 65535 0 e FC 07 Logic information of 0 65535 designated fault FC 08 Curve information of 0 65535 designated fault Fog Sebspeeo upon 0 000 1 750 mis designated fault FC 10 EEUE Dec UMOR 0 000 1 750 m s designated fault Bus voltage upon FC 12 Current position upon 0 0 300 0 m designated fault FC 13 Output current upon 0 0 999 9 A designated fault peaa EE pon 0 00 99 99 Hz designated fault FC 15 Torque current upon 0 0 999 9 A designated fault Function Code Setting Range Default Property rue ae wm o e rcx rettautsutecde Joes o rcx aaa Joo o rcm las reme o ii fw unmaem e o ross rom autsuboode oa o These parameters record the latest 10 faults of the elevator The fault code is a 4 digit number The two high digits indicate the floor where the car is 164 NICE1000 User Manual Description of Function Codes located wh
24. which are installed near the terminal floor The system automatically detects the speed when the elevator reaches a slow down switch If the detected speed or position is abnormal the system enables the elevator to slow down at the special deceleration rate set in F3 08 preventing over travel top terminal or over travel bottom terminal Function Code Setting Range Default Property F3 14 Zero speed control time at startup 0 000 1 000 0 200 F3 15 Brake release delay 0 000 2 000 0 600 F3 16 Zero speed control time at end 0 000 1 000 0 300 These parameters are used to set the time related to the zero speed holding current output and braking action delay 117 Description of Function Codes NICE1000 User Manual e F3 14 Zero speed control time at startup 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 e F3 15 Brake release delay specifies the time from the moment when the system sends the brake release command to the moment when the brake is completely released during which the system retains the zero speed torque current output F3 16 Zero speed control time at end specifies the zero speed output time when the running curve ends e F8 11 Brake apply delay specifies the time from the moment when the system sends the brake apply command to the moment wh
25. 13 AB signals are lost during running 14 Z signal is lost during running 19 The AB analog signal cables break during low speed running 55 CD signal error or serious Z signal interference occurs during auto tuning 101 The leveling signal is active during floor switchover 102 The falling edge of the leveling signal is not detected during elevator startup and floor switchover 103 The leveling position deviation is too large in elevator auto running state 101 102 The storage data of the MCB is abnormal 182 NICE1000 User Manual 3 Exchange any two phases of the motor UVW cables 1 4 5 7 8 10 11 13 14 19 Check that all signal cable wiring of the encoder is correct and secure 9 Check that the setting of F1 00 F1 12 and F1 25 for the synchronous motor is correct 12 Check that there is no mechanical stuck and that the brake has been released during running 55 Check that the grounding is reliable and eliminate interference problems 101 102 Check whether the leveling and door zone sensors work properly Check the installation verticality and depth of the leveling plates Check the leveling signal input points of the MCB 103 Check whether the steel rope slips 101 102 Contact the agent or Monarch NICE1000 User Manual Troubleshooting 101 Check that the earthquake 101 The earthquake signal _ i Earthquake signal
26. 300 mm t Motor cable NICE1000 integrated elevator controller Control cable B Min a0 ie MM Braking resistor cable Motor cable 90 Min 500 mm i Control cable 9 5 Solutions to Common EMC Interference Problems The controller generates very strong interference Although EMC measures are taken the interference may still exist due to improper cabling or grounding during use When the controller interferes with other devices adopt the following solutions Leakage protection switch tripping Controller interference during running Communication interference Connect the motor housing to the PE of the controller Connect the PE of the controller to the PE of the mains power supply Add a safety capacitor to the power input cable Add magnetic rings to the input drive cable Connect the motor housing to the PE of the controller Connect the PE of the controller to the PE of the mains voltage Add a safety capacitor to the power input cable and wind the cable with magnetic rings Add a safety capacitor to the interfered signal port or wind the signal cable with magnetic rings Connect the equipment to the common ground Connect the motor housing to the PE of the controller Connect the PE of the controller to the PE of the mains voltage Add a safety capacitor to the power input cable and wind the cable with magnetic rings Add a matching resistor between the communication cable source and the load side Add a
27. 4 4 Shift between parameters displayed in the stop state Car load Current position D o o a o oO N Bus voltage Current floor at rated speed System state Slow down distance Input terminal state 1 Input terminal 2 state Input terminal 3 state Output terminal 1 state Output terminal 2 state In the running state a total of 16 parameters can be displayed circularly by pressing gt l You can select the parameters to be displayed by setting FA 01 each of the binary bits converted from the value of FA 02 indicates a parameter Figure 4 5 Shift between parameters displayed in the running state Shift between parameters displayed in the running state run o 2 c o pus 2 o Running speed Set speed Bus voltage Output voltage Output current Output frequency Current position Car load System state Pre toque current Input terminal 1 state Input terminal 2 state Input terminal 3 state Output terminal 1 state Output terminal 2 state For details see the description of corresponding parameters in Chapter 255 Use of the Commissioning Tools NICE1000 User Manual 56 System Commissioning and Application Example System Commissioning and Application Example NICE1000 User Manual Chapter 5 System Commissioning and Application Example 5 1 System Commissioning Ensure that there is no person in the shaft or car before performing commissioning on the elevator
28. Based on the application of the system the integrator must ensure that the system complies with standard EN 61800 3 2004 Category C2 C3 or C4 192 NICE1000 User Manual Troubleshooting The system machinery or appliance installed with the controller must also have the CE mark The system integrator is responsible for compliance of the system with the EMC directive and standard EN 61800 3 2004 Category C2 If applied in the first environment the controller may generate radio interference Besides the CE compliance described in this chapter users must take measures to avoid such interference if necessary 9 2 2 Requirements on Satisfying the EMC Directive 1 The controller requires an external EMC filter The recommended filter models are listed in Table 9 1 The cable connecting the filter and the controller should be as short as possible and be not longer than 30 cm Furthermore install the filter and the controller on the same metal plate and ensure that the grounding terminal of the controller and the grounding point of the filter are in good contact with the metal plate 2 Select the motor and the control cable according to the description of the cable in section 9 4 3 Install the controller and arrange the cables according to the cabling and grounding in section 9 4 4 Install an AC reactor to restrict the current harmonics For the recommended models see Table 9 2 9 3 Selection of Peripheral EMC Devic
29. Clearance Requirements The clearance that needs to be reserved varies with the power class of the NICE1000 as shown in the following figure Figure 3 1 Clearance around the NICE1000 for installation Hot air i Uf i J Installation clearance requirements B on the NICE1000 of different power classes es i Power Class Clearance Requirements A H NICE1000 A 1 1 18 5 kW A 2 10 mm B 2 100 mm 22 45 kW AZ 50mm B 2 100 mm Un UUUUUUUUUU agaaeeepgagagageeeages PNY 3j Yb The controller should be Cold air installed vertically upward SS 34 NICE1000 User Manual Mechanical and Electrical Installation 3 2 Mechanical Installation The NICE1000 is installed vertically upward on the support with screws fixed into the four mounting holes as shown in the following figure Figure 3 2 Diagram of mounting holes C OY Fastener Tightening torque 1 1 kW lt P lt 15 kW EN 4 M5x15 bolt S ixing 4 M5x1 5 screw washer 4 M5x15 washer NICE1000 18 5 kW lt P lt 45 kW 3 5 Nm integrated 4 M6x15 bolt With fixing elevator i 4 M6x15 screw washer SOUS 4 M6x15 washer
30. Err22 04 RUN contactor feedback signal 05 Brake contactor feedback signal 1 06 Brake travel switch feedback signal 1 50 Brake travel switch feedback signal 2 The system detects the feedback from the RUN and brake contactors 2s after outputting the contactor RUN signal to determine whether the related contactor is closed properly 07 Shorting PMSM stator contactor feedback signal When the elevator enters emergency running state upon power failure the brake is released and the related terminal outputs the signal if the motor is PMSM and is in automatic emergency running state The car automatically moves to the nearest leveling position 120 NICE1000 User Manual Description of Function Codes under the effect of the weighing difference between the car and the counterweight This function can also be used at normal elevator stop to improve safety 08 Shorting door lock circuit contactor feedback It is used to short or release the door lock circuit if the function of door pre open upon arrival or re leveling at door open is enabled for the elevator configured with the pre open module 09 Inspection signal 10 Inspection up signal 11 Inspection down signal When the Automatic Inspection switch is set to the Inspection position the elevator enters the inspection state in this case the system cancels all automatic running including the automatic door operations When the inspection up signal or inspection down signal is valid
31. Filter Capacity KVA Current A Jianli Model Schaffner Three phase 380 V range 15 to 2096 NICE L H 4002 6 5 DL 10EBK5 FN 3258 7 44 NICE L H 4003 10 5 DL 16EBK5 FN 3258 16 33 NICE L H 4005 14 8 DL 16EBK5 FN 3258 16 33 NICE L H 4007 20 5 DL 25EBK5 FN 3258 30 33 NICE L H 4011 29 0 DL 35EBK5 FN 3258 30 33 Controller Model 11 0 17 0 21 0 24 0 30 0 40 0 57 0 NICE L H 4015 36 0 FN 3258 42 33 NICE L H 4018 41 0 FN 3258 42 33 NICE L H 4022 49 5 FN 3258 55 34 NICE L H 4030 62 0 FN 3258 75 34 NICE L H 4037 77 0 FN 3258 100 35 NICE L H 4045 93 0 DL 100EBK5 FN 3258 100 35 Three phase 220 range 15 to 20 11 0 DL 16EBK5 17 0 DL 25EBK5 29 0 DL 35EBK5 36 0 DL 50EBK5 41 0 DL 50EBK5 40 0 DL 50EBK5 40 0 49 0 DL 50EBK5 57 0 61 0 DL 65EBK5 Single phase 220 V range 15 to 20 NICE L H 2002 13 2 DL 20TH1 NICE L H 2003 17 0 DL 20TH1 220 NICE L H 4007 98 290 DL 30TH1 manufacturer 220 NICE L H 4030 DL 70TH1 oje lt NICE L H 2002 NICE L H 2003 220 NICE L H 4007 220 NICE L H 4011 220 NICE L H 4015 220 NICE L H 4018 220 NICE L H 4022 220 NICE L H 4030 FN 3258 7 44 FN 3258 7 44 FN 3258 7 44 FN 3258 16 33 FN 3258 16 33 FN 3258 30 33 FN 3258 30 33 FN 3258 42 33 17 0 21 0 24 0 30 0 NiCELH 2002 40 110 pri6EBK5 FN3258744 NICELH2008 59 170 DL2SEBK5 FN3258744 FN2090 20 06 FN2090 20 06 FN2090 30 08 CD N I 194 NICE1000 User Manua
32. Fixing backplane The controller is generally installed in the control cabinet of the elevator equipment room Pay attention to the following points when designing the control cabinet 1 The temperature inside the cabinet must not rise to 10 C higher than the temperature outside the cabinet 2 Aclosed control cabinet must be configured with a fan or other air cooling device such as air conditioner to ensure air circulation 3 The air from the fan must not blow directly to the drive unit because this easily causes dust adhesion and further a fault on the drive unit 4 Avent must be available at bottom of the control cabinet to form bottom up air flow which prevents heat island effect on the surface of components or partial thermal conductivity effect 5 Ifthe fan does not meet the cooling requirements install an air conditioner in the cabinet or in the equipment room Note that the temperature inside the cabinet must not be too low otherwise condensation may occur causing short circuit of components 6 For special environment where the temperature is high but cannot be reduced effectively de rate the controller during use 35 Mechanical and Electrical Installation NICE1000 User Manual 3 3 Electrical Installation 3 3 1 Terminal Arrangement and Wiring Description B Terminal Arrangement The following figure shows terminal arrangement of the NICE1000
33. Single phase 220 V range 15 to 20 50 60 Hz moncer 0 2 6 om 9 220 NICE L H 4015 220 NICE L H 4018 220 NICE L H 4022 220 NICE L H 4030 50 50 63 Three phase 220 V range 15 to 20 50 60 Hz 6 25 32 40 5 63 NICE L H 2002 NICE L H 2003 220 NICE L H 4007 NICE L H 2002 16 NICE L H 2003 25 220 NICE L H 4007 32 4044 40 50 63 Ea 100 N N O Z O m 220 NICE L H 4015 220 NICE L H 4018 220 NICE L H 4022 220 NICE L H 4030 100 Three phase 380 V range 15 to 20 50 60 Hz o os 12 1 NICE L H 4002 NICE L H 4003 NICE L H 4005 NICE L H 4007 NICE L H 4011 NICE L H 4015 NICE L H 4018 NICE L H 4022 NICE L H 4030 NICE L H 4037 NICE L H 4045 16 2 3 BA N O O O 100 100 160 160 NICE L H 4055 46 NICE1000 User Manual Mechanical and Electrical Installation 3 5 Electrical Wiring Diagram of the NICE1000 Control System Figure 3 11 Electrical wiring diagram of the NICE1000 control system See the last page of this chapter 3 6 Installation of Shaft Position Signals In elevator control to implement landing accurately and running safely the car position needs to be identified based on shaft position signals These shaft position signals include the leveling switches up down slow down switches up down limit switches and up down final limit switches These shaft position signals are directly transmitt
34. The last input number will be the user password f you want to disable the password protection function enter the correct password and then set FP 00 to 0 If FP 00 is a non zero value at power on the parameters are protected by the password Remember the password you set Otherwise the system cannot be unlocked 69 System Commissioning and Application Example NICE1000 User Manual 5 2 System Application 5 2 1 Emergency Evacuation at Power Failure Passengers may be trapped in the car if power failure suddenly happens during the use of the elevator The emergency evacuation function at power failure is designed to solve the problem The emergency evacuation function is implemented in the following two modes Uninterrupted power supply UPS e Emergency automatic rescue device ARD power supply Shorting PMSM stator The three modes are described in detailed in the following part B Emergency 220 V UPS In this scheme the 220 V UPS provides power supply to the main unit and the drive control circuit The following figure shows the emergency 220 V UPS circuit Figure 5 7 Emergency 220 V UPS circuit UPS 220 V 6 A Transformer 122 MCB R C YO MO IF 220 VAC Safety contactor 21 22 UPS 0V 6 A C e 3 474 5 6 13 14 d 4p NICE1000
35. The output of the brake contactor is inconsistent with the feedback 101 102 104 103 Troubleshooting Check whether the feedback contact of the contactor acts properly Check the signal feature NO NC of the feedback contact Check whether the output cables UVW of the controller are connected properly Check whether the control circuit of the RUN contactor coil is normal 101 to 104 102 When both feedback signals of the brake contactor are enabled their states are inconsistent 103 The output of the brake contactor is inconsistent with the feedback 2 104 When both feedback 2 signals of the brake contactor are enabled their states are inconsistent Check whether the brake coil and feedback contact are correct Check the signal feature NO NC of the feedback contact Check whether the control circuit of the brake contactor coil is normal 101 102 101 Pulse signal change in F4 03 does not change within the time threshold in of F1 13 102 The running direction and pulse direction are inconsistent Check whether the encoder is used correctly Exchange phases A and B of the encoder Check whether the system and signal cables are grounded reliably Check whether cabling between the encoder and the PG card is correct 101 101 The motor overheat relay input remains valid for a certain time 185 Check whether the thermal protection relay is normal C
36. The values are as follows 0 Simultaneous control 1 Hall call independent car call simultaneous 2 Hall call independent car call manual control 3 Hall call independent car call independent 159 Description of Function Codes NICE1000 User Manual Function Code Setting Range Default Property Fb 02 Service floors of door 0 65535 65535 machine 1 Fb 04 Service floors of door 0 65535 65535 Jb machine 2 These parameters are used to set the service floors of door machine 1 and door machine 2 These parameters are set in the same way as F6 05 For details refer to F6 05 Function Code Parameter Name Setting Range Default Property open It is used to set the delay time after door open limit under manual control This parameter is valid only the manual door function is used Function Code Parameter Name Setting Range Default Property Fb 06 Door open protection time 5 99 00 s ow It is used to set the door open protection time After outputting the door open command if the system does not receive the door open limit signal after the time set in this parameter the system re opens the door When the door open close times reach the value set in Fb 09 the system reports fault Err48 Function Code Parameter Name Setting Range Default Property Fb 07 Program control selection 0 65535 EMEN NM It is used to select the required program control functions Each bit of the function code
37. User Manual Function Code Table Function parameterName Parameter Name Name Setting Range Default ll FE 07 FE 08 FE 09 FE 10 FE 11 FE 12 Floor 7 display Floor 8 display Floor 9 display Floor 10 display Floor 11 display Hall call output selection Display H Display L 1907 Reserved Display P Reserved d ia No display Display C Display d 1909 K Display E Display F bei s Ian Display o Display U Larger than 35 No display 0101 X End 0 7 segment code 1 BCD code 2 Gray code 3 Binary code 4 One to one output 103 Function Code Table FE 14 Elevator function Selection 1 Elevator function Selection 2 NICE1000 User Manual FE 13 0 65535 If the bit is set to 1 the function expressed is enabled BitO0 Reserved Bit1 Door open holding at open limit Bit2 Door close command not output upon door close limit Bit3 Manual door Bit4 Auto reset for RUN and brake contactor stuck Bitb Slow down switch stuck detection Bit6 Bit9 Reserved Bit10 NO NC output selection of shorting PMSM stator contactor Bit11 Reserved Bit12 Fan Lamp output Bit13 Bit15 Reserved 0 65535 If the bit is set to 1 the function expressed is enabled it0 Reserved it1 Reserved it2 Re leveling function it3 Door pre open function it4 Reserved itb Forced door close Door open valid at
38. Whether the component models are matched 2 Whether the safety circuit is conducted and reliable 3 Whether the door lock circuit is conducted and reliable 4 Whether the shaft is unobstructed and the car has no passenger and meets the conditions for safe running 5 Whether the cabinet and traction motor are well grounded 6 Whether the peripheral circuit is correctly wired according to the drawings of the vendor 7 Whether all switches act reliably 8 Whether there is short circuit to ground by checking the inter phase resistance of the main circuit 9 Whether the elevator is set to the inspection state 10 Whether the mechanical installation is complete otherwise it will result in equipment damage and personal injury 2 Check the encoder The pulse signal from the encoder is critical to accurate control of the system Before commissioning check the following items carefully 1 The encoder is installed reliably with correct wiring For details on the encoder wiring see section 3 3 3 2 The signal cable and strong current circuit of the encoder are laid in different ducts to prevent interference 3 The encoder cable is preferably directly connected to the control cabinet If the cable is not long enough and an extension cable is required the extension cable must be a shielding cable and preferably welded to the original encoder cable by using the soldering iron 4 The shielding cable of the encoder cable is grounded on
39. arrow display output Minus sign display output Returning to base floor at fire emergency Buzzer output Overload output CN9 D c Mechanical and Electrical Installation RUN contactor Braki 7 Motor raking ED otor mechanism K2 BCD code B interface display board o o 110 VAC 110 VAC ree floor VY YO MO Segment a Y1 O RUN 8 H H Segment d air M1 Bb conie bi hal ham Y2 Brake L Inspection Up arrow M2 Down arrow Y3 Lamp Fan Minus sign M3 running display oa Safety Door lock XCM O circuit COM X25 O 0 Safety circuit X26 9 ObDoor lock circuit 1 BCD code X27 O ODoor lock circuit 2 display board o Y6 O Do Y7 en Power supply Vv Y8 of door machine signal D Segment a Y9 9 Segment b YM1 Sem omie H H egmen Y10 K9 it order bii a ames Inspection vlg Up o Y12 Down arrow BEEN vis EB Minus sign ER Isplay Oo G SEM Y14 Y15 Nil S Y16 BCD code YM2 2 424 VDC BBR display board Y17 o o
40. button in the car at the same time to save the adjustment result The car display restores to the normal state If the leveling position of the current floor need not be adjusted press the top floor button and bottom floor button in the car at the same time to exit the leveling adjustment state Then car calls can be registered 5 Press the door close button and press the button for the next floor The elevator runs to the next floor and keeps the door open after arrival Then you can perform leveling adjustment 6 After completing adjustment for all floors set Fr 00 to 0 to disable the leveling adjustment function Otherwise the elevator cannot be used Group FF Factory Parameters Group FP User Parameters Function Code Setting Range Default Property It is used to set the user password The value 0 indicates that no password is used 171 Description of Function Codes NICE1000 User Manual If it is set to any non zero number the password protection function is enabled After a password has been set and taken effect you must enter the correct password in order to enter the menu If the entered password is incorrect you cannot view or modify parameters If FP 00 is set to 00000 the previously set user password is cleared and the password protection function is disabled Remember the password that you set If the password is set incorrectly or forgotten contact Monarch to replace the control board Function Co
41. common grounding cable besides the communication cable Use a shielded cable as the communication cable and connect the cable shield to the common grounding point 198 NICE1000 User Manual EMC Enlarge the capacitance at the low speed DI A maximum of 0 11 uF capacitance is suggested Enlarge the capacitance at the Al A maximum of 0 22 uF is suggested VO interference 199 EMC NICE1000 User Manual 200 Aonareh Warranty Agreement 1 The warranty period of the product is 18 months from date of manufacturing During the warranty period if the product fails or is damaged under the condition of normal use by following the instructions Inovance will be responsible for free maintenance 2 Within the warranty period maintenance will be charged for the damages caused by the following reasons a Improper use or repair modification without prior permission b Fire flood abnormal voltage other disasters and secondary disaster c Hardware damage caused by dropping or transportation after procurement d Improper operation e Damage out of the equipment for example external device 3 If there is any failure or damage to the product please correctly fill out the Product Warranty Card in detail 4 The maintenance fee is charged according to the latest Maintenance Price List of Monarch 5 The Product Warranty Card is not re issued Please keep the card and present it to the maintenance pe
42. contactor ensure that the time interval between switching is at least one hour because frequent charge and discharge will shorten the 18 NICE1000 User Manual Safety Information and Precautions service life of the capacitor inside the controller When a contactor is installed between the output side of the controller and the motor do not turn off the contactor when the controller is active Otherwise modules inside the controller may be damaged Contactor KM or Contactor KM other switches 2 380 VAC 50 60 Hz Controller 8 Use outside the rated voltage The controller must not be used outside the allowable voltage range specified in this manual Otherwise components inside the controller may be damaged If required use a corresponding voltage step up or step down device 9 Surge suppressor The controller has a built in voltage dependent resistor VDR for suppressing the surge voltage generated when the inductive loads electromagnetic contactor electromagnetic relay solenoid valve electromagnetic coil and electromagnetic brake around the controller are switched on or off If the inductive loads generate very high surge voltage use a surge suppressor for the inductive load or use a surge suppressor together with a diode Note Do not connect the surge suppressor on the output side of the controller 10 Altitude and de rating In places where the altitude is above 1000 m and the co
43. controller Never connect the braking resistor between the DC bus terminals and Failure to comply may result in a fire At wiring Ensure that the cabling satisfies the EMC requirements and local codes Use wire sizes recommended in the manual Failure to comply may result in accidents Use the shielded cable for the encoder and ensure that the AN caution shield is reliably grounded at one end Use a twisted cable with twisted distance of 20 30 mm as the communication cable and ensure that the shield is reliably grounded 15 Safety Information and Precautions NICE1000 User Manual Safety All peripheral devices must be connected properly according to the circuit wiring instructions provided in this manual Failure to comply will result in accidents Cover the controller properly before power on to prevent electric shock Do not open the controller s cover after power on Failure to comply may result in electric shock Do not touch the controller and peripheral circuits with wet hand Failure to comply may result in electric shock Do not touch any I O terminal of the controller Failure to N DANGER comply may result in electric shock The controller performs safety detection on external strong power circuits automatically at the beginning of power on Do not touch the U V W terminals of the controller or the motor terminals at the moment Failure to comply may result in electric shock Do not touch th
44. displays the current communication quality of the system as described in the following table Table 7 16 Communication quality display SPI Communication CAN2 Communication Quality Quality o Gm Ls memewi ENE 0 9 indicates the communication quality The greater the number is the larger interference the communication suffers and the poorer the communication quality is e AE rm memes oa o um mesmea oa o rm roses oa o ww Joose omms o Ax Soons oa o rm Jowasass oa o rast Fooros oa o rss Fooros oa o FG Feooriosaes oa o Raar Fesriosees oss o rm Foros oa o Fm Fooros oa o ras Feooriosae7 oa o The following figure shows an example of the displayed input states Figure 7 9 Example of input state display 5 4 3 2 1 A A NS p GEE NS A N EE F B F B lt lt gt L lt gt qua EE el S fc Aec Z ZN Aa SW D DP D DP F nctioncode State Each segment indicates a function code As shown in the preceding figure the LEDs from right to left are numbered 1 2 3 4 and 155 Description of Function Codes NICE1000 User Manual 5 For FA 26 to FA 37 LEDs 5 and 4 show the function No LED 3 shows whether the function is valid 1 or invalid 0 the 16 segments of LEDs 1 a
45. down are disconnected NO NC of the slow down shaft position simultaneously switches and limit switches are switches consistent with the parameter abnormal 102 The up limit feedback setting of the MCB and down limit feedback are disconnected simultaneously 101 The up slow down and down slow Check whether malfunction of the slow down switches and limit switches occurs Check whether F8 08 is set correctly Analoa input The analog input cable d of the CTB or the MCB is Check whether the analog cable broken input cable of the CTB or MCB broken is connected incorrectly or broken Note Fault Errd1 is not recorded in the elevator stop state Fault Err42 is reset automatically when the door lock circuit is shorted or 1s after the fault occurs in the door zone e If faults Err51 and Err52 persist they are recorded once every one hour Except the fault code and level the number such as 1 101 indicates the fault subcode 190 EMC Troubleshooting NICE1000 User Manual Chapter 9 EMC 9 1 Definition of Terms T EMC Electromagnetic compatibility EMC describes the ability of electronic and electrical devices or systems to work properly in the electromagnetic environment and not to generate electromagnetic interference that influences other local devices or systems In other words EMC includes two aspects The electromagnetic interference generated by a device or system must
46. emergency evacuation running time Err33 is reported The buzzer output is active during UPS emergency evacuation running Enable the function of switching over the shorting stator braking mode to controller drive Speed setting Time setting 1 Extatdoordoselimt Exit at door close limit 0 Exit at door open limit LI When this function is enabled the setting of related function codes becomes effective Enable this function 75 When it is set that the torque direction is automatically calculated enable automatic startup torque compensation This function is invalid when the function of switching over shorting stator braking mode to controller drive is If the speed is still lower than the value set in F6 72 after the elevator is in shorting stator braking mode for 10s the controller starts to drive the elevator If the time of the shorting stator braking mode exceeds the time set in F6 75 the controller starts to SENE the elevator System Commissioning and Application Example NICE1000 User Manual 5 2 2 Parallel Control of Two Elevators The NICE1000 supports parallel control of two elevators which is implemented by using the CANbus communication port for information exchange and processing between the two elevators improving elevator use efficiency B Parameter Setting Function Code Setting Range Tu in Parallel Control Fd 03 Number of elevators in parallel cont
47. fault FC 39 Curve information of 0 65535 latest fault Fc 40 Set speed upon latest 5 g00 1 750 mis fault Fc Feedback speed Upon noe cae mis latest fault FC 42 Bus voltage upon latest 0 0 999 9 V fault FC 43 Current position upon 0 0 300 0 latest fault FC 44 Output current upon 0999 9 A latest fault FC 45 Output frequency upon 0 00 99 99 Hz latest fault 101 Function Code Table NICE1000 User Manual FC 46 Torque current upon 0 0 999 9 A latest fault Group Fd Communication Parameters 0 127 Fd 00 Local address 1 0 Broadcast address id response delay icati 0 0 60 0 Fd 02 Communication timeout 0 Invalid Fd 03 Number of elevators in 12 1 parallel control mode pags Parallel control function ig Dispersed waiting 1 selection Group FE Elevator Function Parameters l l 0 Full collective selective FE 00 e SR 1 Down collective selective 2 Up collective selective 0000 1999 FE 01 Floor 1 display The two high digits indicate 1901 the display code of the ten s digit and the two low digits indicate the display code of FE 02 Floor 2 display 1902 Display 0 Display 1 Display 2 FE 03 Floor 3 display Display 3 1903 Display 4 Display 5 FE 04 Floor 4 display Display 6 1904 Display 7 Display 8 Display 9 FE 05 Floor 5 display 1905 Display A Reserved Reserved FE 06 Floor 6 display 1906 To be continued 102 NICE1000
48. input at a proper intermediate position of the floor Then the elevator clears the counted time after arriving at this virtual floor so that the system will not report Err30 49 Firefighter switch signal It is the firefighter switch signal and is used to enable the firefighter running After the elevator returns to the fire emergency floor the elevator enters the firefighter running state if the firefighter signal is active 51 99 Reserved 101 199 These signals respectively correspond to 01 to 99 in sequence 01 to 99 are NO inputs while 101 to 199 are NC inputs 123 Description of Function Codes NICE1000 User Manual F5 25 X25 higher voltage input function selection F5 26 X26 higher voltage input function selection F5 27 X27 higher voltage input function selection 00 Invalid Even if there is signal input to the terminal the system has no response You can allocate this function to terminals that are not used to prevent mis function 01 Safety circuit signal This terminal is used to detect the higher voltage signal feedback of the safety circuit 02 Door lock circuit 1 signal This terminal is used to detect the higher voltage signal feedback of the door lock circuit including the hall door circuit and car door lock circuit 03 Door lock circuit 2 signal This terminal is used to detect the higher voltage signal feedback of the door lock circuit including the hall door circuit and car door lo
49. is consistent with the Err26 is active and the duration 3B signal parameter setting NC NO of the exceeds 2s MCB 101 Check that the state NO NC of the feedback contact on the i contactor is correct zs ae 101 The shorting PMSM Err29 stator feedback is Check that the contactor 5A feedback and corresponding feedback abnormal abnormal contact act correctly Check the coil circuit of the shorting PMSM stator contactor 101 102 Check whether the leveling signal cables are connected 101 102 reliably and whether the signal In the normal speed running copper wires may touch the Elevator or re leveling running mode ground or be short circuited Err30 position the running time is larger with other signal cables 4A abnormal than the value of F9 02 but Check whether the distance the leveling signal has no between two floors is too large change causing too long re leveling running time Check whether signal loss exists in the encoder circuits 101 The detected running oe speed during normal speed Check whether the encoder is running exceeds the limit used properly 102 The speed exceeds Check the setting of motor the limit during inspection nameplate parameters or shaft auto tuning Perform motor auto tuning 103 The speed exceeds ee the limit in shorting stator 102 Attempt to decrease the Erraa Elevator speed braking mode inspection speed or perform 5A abnormal 104 The speed exceeds
50. motor auto tuning again the limit during emergency 103 Check whether the shorting running PMSM stator function is enabled 105 The emergency 104 105 running time protection Check whether the emergency function is enabled set power capacity meets the in Bit8 of F6 69 and the requirements causing the timeout faut Check whether the emergency running speed is set properly 183 Troubleshooting NICE1000 User Manual Fauit Name Possible Causes Solution Level Code Err34 Logic fault FOTE Or WE MGB 18 Contact the agent or Monarch abnormal Shaft auto Err35 tuning data abnormal 101 When shaft auto tuning is started the elevator is not at the bottom floor or the down slow down is invalid 102 The system is not in the inspection state when shaft auto tuning is performed 103 It is judged upon power on that shaft auto tuning is not performed 104 In distance control mode it is judged at running startup that shaft auto tuning is not performed 106 107 109 114 The plate pulse length sensed at up down leveling is abnormal 108 110 No leveling signal is received within 45s continuous running 111 115 The stored floor height is smaller than 50 cm 112 The floor when auto tuning is completed is the top floor not 113 The pulse check is abnormal 184 smaller than the actual condition 113 Check whether the signal of the leveli
51. operation panel operation panel parameters It is a standard 8 core network cable The cable length is 3 m in and can be connected to MDKE the standard configuration 2 7 Selection of Braking Components The NICE1000 models of 30 kW and below have a built in braking unit and you only need to connect an external braking resistor between PB and terminals For models above 30 kW you need to install a braking unit and a braking resistor externally The following figure shows the appearance and dimensions of the braking unit Figure 2 4 Appearance and dimensions of braking unit 236 247 224 n YY a E Unit mm Select the braking resistor based on the configuration listed in the following table 20 Product Information NICE1000 User Manual Table 2 5 Braking resistor selection for the NICE 1000 models Power of in Power of Controller Model Adaptable Braking Braking Unit Motor KW Resistor W Single phase 220 V range 15 to 20 NICE L H 2002 145 0 125 0 UIIT IN ullt in Three phase 220 V range 15 to 20 UIIT IN NUN 9 Three phase 380 V range 15 to 20 NICE L H 4002 290 230 so WO 6 4 3 2 2 NICE L H 4003 170 1100 2 4 NICE L H 4007 NICE L H 4011 NICE L H 4015 NICE L H 4018 34 0 2 7 9 9 11 15 2 30 37 5 55 9 30 o x0 zs sm 30 NICE1000 User Manual Product Inform
52. output 24 Full load output 25 Inspection output 26 Fan Lamp output 2 27 Shorting door lock circuit contactor output 28 BCD Gray code 7 segment high bit output 29 Controller normal running output 30 Electric lock output 31 Reserved 32 Emergency evacuation at power failure 33 Forced door close 1 34 Forced door close 2 35 Faulty state 36 Up signal 37 Medical sterilization output 38 Non door zone stop output 39 Non service state output 40 Reserved 41 High 7 segment a display output 42 High 7 segment b display output 43 High 7 segment c display output 44 High 7 segment d display output 45 High 7 segment e display output 46 High 7 segment f display output 47 High 7 segment g display output 48 99 Reserved 144 NICE1000 User Manual Description of Function Codes Group F8 Enhanced Function Parameters Function Code Setting Range Default Property F8 00 Load for load cell auto tuning 0 100 oo It is used to set the load for load cell auto tuning To perform load cell auto tuning do as follows 1 Ensure that F8 01 is set to O and F8 08 is set to 1 to make the system allow load cell auto tuning 2 Stop the elevator at any floor with the car in the no load state Set F8 00 to 0 and press 3 Put N load in the car Then set F8 00 to N and press ENTER For example if you put 500 kg load in the elevator with rated load of 1000 kg set F8 00 to 50 After the load cell auto
53. safety edge signal 42 Door machine 2 safety edge signal 43 Earthquake signal 44 Back door forbidden signal To be continued 87 14 115 116 117 118 119 22 26 28 30 124 Function Code Table Unit Property 1 Function Code Table NICE1000 User Manual X21 function selection X22 function selection X23 function selection X24 function selection F5 25 X25 higher voltage input function selection F5 26 X26 higher voltage input function selection X27 higher voltage ic input function selection 45 Light load signal 46 Single Double door selection 4T Fire emergency floor switchover signal 48 Virtual floor input 49 Firefighter switch signal 50 Brake travel switch feedback signal 1 51 99 Reserved End 00 99 F5 30 Floor I O terminal state display 1 F5 31 Floor VO button state display 2 Group F6 Basic Elevator Parameters NE WE EER EN F6 01 Bottom floor of the 1 to F6 00 elevator F6 02 Parking floor F6 01 to F6 00 F6 03 Fire emergency floor 1 F6 01 to F6 00 F6 04 Elevator lock floor F6 01 to F6 00 00 EE EE EN Service floors F6 05 Elevator function control 1 0 65535 0 Not respond _ EH 1 Respond 0 65535 F6 07 Elevator function 065535 control 2 WISIN II 88 NICE1000 User Manual Function Code Table Parameter Name Setting Range Default Random test times 0 60000 BitO Hall call f
54. the controller by operating the operation panel The following figure shows the LED operation panel Figure 4 1 Diagram of the LED operation panel Function indicator RUN LOCAL REMOT FED REV TUNEITC Data display Unit indicator Increment key Programming key Confirm key Shift key Decrement key Menu key RUN key Stop Reset key Fault hiding key 4 1 1 Description of Indicators e RUN ON indicates that the controller is in the running state and OFF indicates that the controller is in the stop state 52 NICE1000 User Manual Use of the Commissioning Tools e LOCAL REMOT Reserved e FWD REV ON indicates down direction of the elevator and OFF indicates up direction of the elevator TUNE TC ON indicates the auto tuning state Unit Indicators means that the indicator is ON and means that the indicator is OFF 6 neu o Hz unit of frequency C5 RePM au OA unit of current C _rpm O V unit of voltage v9 x Oo RPM unit of rotational speed Hz A e percentage 4 1 2 Description of Keys on the Operation Panel Table 4 2 Description of keys on the operation panel y Name Fm 000000 I4 Programming Enter or exit Level menu Enter the menu interfaces level by level and confirm the parameter setting Increment Increase data or function code Decrement Decrease data or function code Confirm Start the controller in the operation panel c
55. the end connected to the controller only one end is grounded to prevent interference 3 Check the power supply before power on 1 The inter phase voltage of the user power supply is within 380 V 15 and the unbalance degree does not exceed 3 2 The power input voltage between terminals 24V and COM on the MCB is within 24 VDC 15 3 The total lead in wire gauge and total switch capacity meet the requirements Note If the input voltage exceeds the allowable value serious damage will be caused Distinguish the negative and positive of the DC power supply Do not run the system when there is input power phase loss 59 System Commissioning and Application Example NICE1000 User Manual 4 Check the grounding Check that the resistance between the following points and the ground is close to infinity R S T and PE U V W and PE 24V and PE on the MCB Motor U V W and PE bus terminals and PE Safety circuit door lock circuit and inspection circuit terminals and PE 5 Check the grounding terminals of all elevator electrical components and the power supply of the control cabinet 5 1 2 Setting and Auto tuning of Motor Parameters The NICE1000 supports two major control modes sensorless vector control SVC and closed loop vector control CLVC SVC is applicable to inspection speed running for commissioning and fault judgment running during maintenance of the asynchronous motor CLVC is applicab
56. the motor nameplate Ensure that these motor parameters are set correctly Incorrect setting affects the motor auto tuning and the vector control effect Function Code Setting Range Default Property F1 06 Encoder initial angle 0 0 359 9 Degree synchronous motor F1 07 Encoder angle at power 0 0 359 9 Degree off synchronous motor EN F1 08 Synchronous motor wiring mode These parameters are obtained by means of motor auto tuning F1 06 specifies the encoder angle at zero point After multiple times of auto tuning compare the obtained values and the value deviation of F1 06 shall be within 5 F1 07 specifies the angle of the magnetic pole when the motor is powered off The value is recorded at power off and is used for comparison at next power on F1 08 specifies the motor wiring mode that is whether the output phase sequence of the drive board is consistent with the UVW phase sequence of the motor If the value obtained by means of no load auto tuning is an even number the phase sequence is correct If the value is an odd number the sequence is incorrect in this case exchange any two of UWW phases of the motor Note With load auto tuning of the synchronous motor can be performed only when the UVW phase sequence of the motor is consistent with the output phase sequence of the controller Function Code Setting Range Default Property F1 09 Current filter time 0 3 k synchronous motor It is
57. the running and brake contactors Table 5 2 Output state of the RUN and brake contactors With load Auto tuning i Control mode No load Auto Operation Distance F1 11 1 Panel tuning Control c A h Control s Output State F1 11 22 ynchronous Asynchronous F0 01 1 Motor Motor F0 01 0 RUN contactor Output Output Output Not output Output Brake contactor Not output Output Not output Not output Output 5 1 3 Trial Running at Normal Speed After ensuring that running at inspection speed is normal perform shaft auto tuning and then you can perform trial running at normal speed the elevator satisfies the safety running requirements To perform shaft auto tuning the following conditions must be satisfied 1 The signals of the encoder and leveling sensors NC NO are correct and the slow down switches are installed properly and act correctly 2 When the elevator is at the bottom floor the down slow down 1 switch acts 3 The elevator is in the inspection state The control mode is distance control and CLVC F0 00 1 FO 01 1 4 The top floor number F6 00 and bottom floor number F6 01 are set correctly 5 The system is not in the fault alarm state If there is a fault at the moment press e to reset the fault Then set F1 11 to 3 on the operation panel or hold down S1 on the keypad of the MCB release S1 after the motor starts up and start shaft auto tuning Note For shaft auto tuning when t
58. the test Ensure that the insulation resistance is not less than 5 MO Motor input U VW terminals Ground 4 Thermal protection of motor If the rated capacity of the motor selected does not match that of the controller especially when the rated power of the controller is greater than that of the motor adjust the motor protection parameters on the operation panel of the controller or install a thermal relay for the motor circuit for protection 5 Motor heat and noise The output of the controller is pulse width modulation PWM wave with certain harmonic wave and therefore the motor temperature rise noise and vibration are slightly greater than those at running with the mains frequency 6 Voltage sensitive device or capacitor on the output side of the controller The controller outputs PWM waves and therefore do not install the capacitor for improving power factor or lightning protection voltage sensitive resistor on the output side of the controller Otherwise the controller may suffer transient overcurrent or even be damaged Controller M N 7 Contactor on the input and output sides of the controller When a contactor is installed between the input side of the controller and the power supply the controller must not be started or stopped by turning on or off the contactor If the controller has to be operated by the
59. this parameter properly This parameter takes effect to leveling of all floors Therefore if leveling at a single floor is inaccurate adjust the position of the leveling plate The NICE1000 has the advanced distance control algorithm and adopts many methods to ensure reliability of direct travel ride Generally you need not modify this parameter Function Code Setting Range Default Property F401 Current floor reottor o 1 This parameter 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 Function Code Setting Range Default Property F4 02 High byte of current floor position 0 65535 1 Puses F4 03 Low byte of current floor position 0 65535 34464 IPuss These two parameters indicate the absolute pulses of the current position of the elevator car relative to the bottom leveling position The position data of the NICE1000 in the shaft is recorded in pulses Each position is expressed by a 32 bit binary number where the high 16 bits indicate the high byte of the floor position and the low 16 bits indicate the low byte of the floor position Function Code Set
60. torque compensation the system with a load cell pre outputs the torque matched the load to ensure the riding comfort of the elevator e Motor driving state full load up no load down Motor braking state full load down no load up F8 02 Pre torque offset is actually the elevator balance coefficient namely the percentage of the car load to the rated load when the car and counterweight are balanced F8 03 Drive gain or F8 04 Brake gain scales the elevator s present pre torque coefficient when the motor runs at the drive or brake side If the gain set is higher then the calculated value of startup pro torque compensation is higher The controller identifies the braking or driving state according to the load cell signal and automatically calculates the required torque compensation value When an analog device is used to measure the load these parameters are used to adjust the elevator startup The method of adjusting the startup is as follows e n the driving state increasing the value of F8 03 could reduce the rollback during the elevator startup but a very high value could cause car lurch at start n the braking state increasing the value of F8 04 could reduce the jerk in command direction during the elevator startup but a very high value could cause car lurch at start B Mechanical Construction The mechanical construction affecting the riding comfort involves installation of the guide rail guide shoe steel rope
61. tuning is completed the corresponding no load and full load data will be recorded in F8 06 and F8 07 You can also manually input the data according to the actual situation Function Code Setting Range Default Property res Pretorqueselecion o2 o It is used to set the pre torque compensation mode at startup of the elevator The values are as follows 0 Pre torque invalid Load cell auto tuning is allowed e 1 Load cell pre torque compensation With a load cell the system implements the pre torque compensation function e 2 Automatic pre tordue compensation The system automatically adjusts the compensated torque at startup without a load cell If F8 01 is set to 1 the system outputs the torque matching the load in advance to ensure the riding comfort at startup The output torque is limited by F2 08 Torque upper limit When the load torque is greater than the set torque upper limit the output torque of the system is the torque upper limit Function Code Parameter Name Setting Range Default Property F8 02 Pre torque offset 0 0 100 0 It is used to set the pre torque offset It is actually the balance coefficient of the elevator indicating the percentage of the car load to the rated load when the counterweight and the car weight are balanced 145 Description of Function Codes NICE1000 User Manual Function Code Setting Range Default Property These two parameters are used to set the pre tor
62. used to set the current filter time which suppress the periodic vertical jitter Increase the value in ascending order of 0 5 to achieve the optimum effect Function Code Setting Range Default Property F1 10 Encoder verification selection 0 65535 EEEN 111 Description of Function Codes NICE1000 User Manual It is used to set encoder signal verification This parameter is set by the manufacturer and you need not modify it generally Function Code Setting Range Default Property 0 No operation 1 With load auto tuning Auto tuning mode 2 No load auto tuning 3 Shaft auto tuning 1 4 Shaft auto tuning 2 It is used to select the auto tuning mode 1 With load auto tuning It is static auto tuning for the asynchronous motor the motor does not rotate and rotary auto tuning for the synchronous motor the brake is released and the motor rotates 2 No load auto tuning The motor must be completely disconnected from the load otherwise the auto tuning effect will be affected When TUNE is displayed on the operation panel you need to manually release the brake before starting auto tuning 3 Shaft auto tuning 1 4 Shaft auto tuning 2 These two modes are similar except that shaft auto tuning 1 reserves the leveling adjustment records in group Fr and shaft auto tuning 2 clears these records Function Code Setting Range Default Property F1 12 Encoder pulses per revolution 0 10000 1024 PPR
63. view TEIT an Y19 floor xw 20 O BERE RO Ge ptt Tt D dmenta E HG smee OR Y22 ENNEN Q Segment d FP 4 Ti EBEN YM3 TT high order bit c EN 2 Inspection E Up arrow Down a oon MEI display o o Use of the Commissioning Tools Use of the Commissioning Tools NICE1000 User Manual Chapter 4 Use of the Commissioning Tools The NICE1000 supports three commissioning tools S1 button on the MCB LED operation panel and host computer monitoring software NEMS S1 button The keypad provides the S1 button to carry out shaft standard auto tuning LED operation It is used to view and modify parameters related to Optional panel elevator drive and control NEMS It is used to monitor the current elevator state view Optional monitoring and modify all parameters and upload and download Download the software software parameters on the PC at www szmctc com Andriod A Bluetooth module is used to connect the MCB cell phone and the Android cell phone installed with the The software does not commissioning commissioning software through which you can provide the English software commission the elevator and upload and download version currently EDSAP parameters 4 1 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
64. 0 cae L H 2002 334 5 INICE L H 2003 L H 2003 220 NICE L H 4007 220 NICE L H 4011 i 347 220 NICE L H 4015 220 NICE L H 4018 220 NICE L H 4022 220 NICE L H 4030 E RE RE BE HE BEKEER INICE L H 4002 L H 4002 INICE L H 4003 L H 4003 334 5 INICE L H 4011 L H 4011 334 5 173 5 INICE L H 4015 L H 4015 NICE L H 4018 DOOIE N ss BREE 2 6 Optional Parts If any optional part in the following table is required specify it in your order Table 2 4 Optional parts of the NICE1000 External It is provided for the NICE1000new of 9 details see section braking unit 37 kW and above oF OPIRCNON OL Braking Components Energy It is used for energy saving This unit feedback feeds back the electricity generated unit during braking to the grid 28 NICE1000 User Manual Product Information MCTC It is used to adapt to the push pull and PG A2 open collector incremental encoders It is used to adapt to the UVW MCTC differential encoder and applied to PG D synchronous motor PG card It requires 5 V power supply MCTC Itis used to adapt to the SIN COS PG E encoder MCTC Itis used to adapt to the absolute PG F1 encoder Heidenhain ECN413 1313 External LED It is the external LED display and provices Ine NAS MDKE interface for connecting to operation panel operation panel er ele External LED MDKEG It is the external LED display and It can be used for copying
65. 0 030 0 000 FINE F3 01 Startup holding time 0 000 0 500 0 000 Kar These two parameters are used to set the startup speed and startup speed holding time For details see Figure 7 2 The parameters may reduce the terrace feeling at startup due to static friction between the guide rail and the guide shoes These parameters are used to set the running curve during acceleration of the elevator These parameters are used to set the running curve during deceleration of the elevator e F3 02 F3 05 is the acceleration rate deceleration rate in the straight line acceleration process deceleration process of the S curve e F3 03 F3 07 is the time for the rate to increase from 0 to the value set in F3 02 F3 05 in the end jerk segment of the S curve The larger the value is the smoother the jerk is e F3 04 F3 06 is the time for the rate to decrease from the value set in F3 02 F3 05 to 0 in the start jerk segment of the S curve The larger the value is the smoother the jerk is Figure 7 2 Setting the running curve V speed F3 09 F3 04 F3 07 x F3 05 b F3 06 NX t time 116 NICE1000 User Manual Description of Function Codes Function Code Setting Range Default Property F3 08 Special deceleration rate 0 200 2 000 0 500 It is used to set the deceleration rate in elevator slow down inspection and shaft auto tuning This parameter is not u
66. 0 V range 15 to 20 NICE L H 2002 4 0 11 0 NICE L H 2003 5 9 17 0 220 NICE L H 4007 7 0 20 5 05 Product Information NICE1000 User Manual Power Capacity Input Current Output Current Motor Power Controller Model onces 20 e0 oo ws Noea s os 9 3 McEcHams as we ns ss moens oo so so 35 McEbmaus o so oo so Note 1 In terms of single phase and three phase 220 VAC NICE L C 2002 and NICE L C 2003 are specially designed for 220 VAC The other models that are marked by prefixing 220 are modified from the three phase 380 VAC models 2 Same models are available for single phase 220 VAC and three phase 220 VAC Pay attentions to the power rating of the adaptable motor during the use 3 Select the proper controller output current based on the rated motor current Ensure that the controller output current is equal to or greater than the rated motor current 4 If you require higher voltage or power rating contact Monarch 2 4 Technical Specifications Table 2 2 Technical specifications of the NICE1000 Basic frequency specifications 2 16 kHz adjusted automatically based on the load Carrier frequency ln Es 24 NICE1000 User Manual Product Information Sensorless vector control SVC Motor control mode Closed loop vector control CLVC Voltage Frequency V F control 0 5 Hz 180 SVC Startup torque 0 Hz 200 CLVC 1 100 SVC
67. 000 User Manual After the car lamp is turned off the system does not output the door close command which reduces power Set in FE 14 consumption of the door machine Energy saving of idle door machine 4 Optional function list In automatic running state when the elevator speed is smaller than 0 2 m s at normal stop and the door zone signal is active the system shorts the door lock by means of the shorting door lock circuit contactor and outputs the door open signal implementing door pre open This improves the elevator use efficiency Door pre open module MCTC SCB required Door pre open After landing at a floor the elevator may move upward or downward due to the load change and the car door is not aligned with the ground which is inconvenient for in and out of passengers and goods In this case the system allows the elevator to run to the leveling position in the door open state at the leveling speed Door pre open module MCTC SCB required Micro leveling Power failure For the elevator configured with UPS the system uses emergency the UPS to implement low speed self rescue in the case UPS required evacuation of power failure Onsite The system can control and monitor running of elevators NEMS software commissioning by using the NEMS software required The Android cell phone can be connected to the controller through the external Bluetooth module and Special Bluetooth oo you can commission
68. 1 Door open forbidden selection Bit2 Overload forbidden Bit3 Limit forbidden BitO Hall call forbidden The elevator does not respond to hall calls if it is set to 1 It is automatically restored to O at power failure Bit1 Door open forbidden The elevator does not automatically open the door if it is set to 1 It is automatically restored to 0 at power failure Bit2 Overload forbidden The overload function does not take effect if it is set to 1 It is automatically restored to 0 at power failure so that the running at 11096 of the rated load is allowed Bit3 Limit forbidden Limit protection is disabled when it is set to 1 so that you can inspect the limit switches It is automatically restored to 0 at power failure The setting is valid only to the current time Bit4 to Bit15 Reserved Note that F6 10 can be set only by professional engineers with caution The consequence is borne by the person who performs the setting Ensure that F6 10 is set to 0 during normal elevator running Function Code Parameter Name Setting Range Default Unit Property F6 11 L1 function selection 201 399 201 135 Description of Function Codes NICE1000 User Manual Function Code Setting Range Default Property F6 12 L2 function selection 2001 399 202 s p om o a ress Lastuncion seiecion 20 39 o Feso Lsofuncion seecion 20 3 oo These parameters are used to
69. 2 Inspection to stop During inspection running if the slow down switch acts Bit2 due to slow down the system decelerates to stop Wea The buzzer will tweet when the door open delay time set Bit4 during door open in Fb 13 is reached delay Door open at In the elevator lock state the elevator keeps the door elevator lock open at the elevator lock floor Bit9 Display avalanieat In the elevator lock state hall calls are displayed normally elevator lock Bitit Blink ne stanival The car display blinks when the elevator arrives at a floor 9 The blinking advance time is set in F6 74 Oo F6 66 Program control selection 3 Cancelling door open close command at delay after door open close limit If this function is enabled the door open close command is cancelled at the delay of 1s after door open close limit On normal conditions the system determines that the Not judging door door is completely closed only when the door close limit lock state at door signal is active and the door lock is applied close output If this function is enabled the system need not judge the door lock state Door close command output during running The door close command is output continuously during the elevator running Returning to base floor for verification The elevator runs to the bottom floor for verification at at first time power power on for the first time on Function Code Parameter Name Setting Range
70. 2 05 Switchover frequency 2 are 0 only F2 03 and F2 04 are valid Function Code Setting Range Default Property F2 06 Current loop KP1 torque 10 500 60 ok F2 07 Current loop KI1 torque 10 500 These two parameters are regulation parameters for the torgue axis current loop These parameters are used as the torgue axis current regulator in vector control The best values of the parameters matching the motor characteristics are obtained by means of motor auto tuning You need not modify them generally Function Code Setting Range Default Property F2 08 Torque upper limit 0 0 200 0 150 0 It is used to set the torque upper limit of the motor The value 10096 corresponds to the rated output torque of the adaptable motor 2444s NICE1000 User Manual Description of Function Codes Function Code Setting Range Default Property It is used to set the elevator running direction The values are as follows 0 Direction unchanged 1 Direction reversed You can modify this parameter to reverse the running direction without changing the wiring of the motor When you perform inspection running for the first time after motor auto tuning is successful check whether the actual motor running direction is consistent with the inspection command direction If not change the motor running direction by setting F2 10 to consistent with the inspection command direction Pay attention to the setting of this para
71. 6 Set the parameters onsite based on actual requirements CN1 Inspection signal Inspection up Inspection down CN6 Reserved Reserved Reserved Reserved CN4 Door 1 open button Door 1 close button Door 1 open delay button Reserved Floor 1 door 1 car call Floor 2 door 1 car call Floor 3 door 1 car call Floor 4 door 1 car call Floor 5 door 1 car call Reserved Reserved Reserved Floor 1 door 1 up call Floor 2 door 1 up call Floor 3 door 1 up call Floor 4 door 1 up call Floor 2 door 1 down call Floor 3 door 1 down call Floor 4 door 1 down call Floor 5 door 1 down call Reserved Reserved Reserved Reserved Reserved Reserved CN2 Designated for parallel control Braking resistor D DD PB Reserved eeeee e az ilald 636 ss CN3 fel S1 uw 9 ee aie E PG card J12 de ae B MCTC PG oo Oo NICE1000 CN7 RUN contactor output RUN contactor output COM Brake contactor output Brake contactor output COM Fan Lamp output Fan Lamp output COM CN8 Door 1open output Door 1 close output Reserved Reserved Low 7 segment a output Low 7 segment b output Low 7 segment c output Low 7 segment d output BCD code high order bit output Reserved Inspection output Up arrow display output Down
72. Aonareh User Manual V0 0 2 e e lt LU P i fe o i 2 U gt D LL O D 2 U E D 2 c NICE1000 Integrated Elevator Controller Suzhou MONARCH Control Technology Co Ltd Data code 19010227 NICE1000 User Manual Preface Preface Thank you for purchasing the NICE1000 integrated elevator controller The NICE1000 is a new generation integrated elevator controller independently developed and manufacturered by Suzhou MONARCH Control Technology Co Ltd by optimizing the NICE1000 controller based on a large number of applications and combining new industrial features The NICE1000 has the following advantages 1 It supports high performance vector control and open loop low speed running It can drive both AC asynchronous motor and permanent magnetic synchronous motor PMSM and implement switchover between the two types of motors easily by modifying only one parameter 2 t supports open loop low speed running direct parallel control of two elevators and CANbus and Modbus communication protocols for remote monitoring 3 It supports a maximum of 16 floors and is widely applied to elevators used in the villa and freight elevators new This manual describes the correct use of the NICE1000 including product features safety information and precautions installation parameter setting commissioning and maintenance amp inspec
73. Enhancing the riding comfort mainly involves adjustment of the controller output and the elevator s mechanical construction B Controller Output The parameters that may influence the riding comfort are described in this part It can reduce the lower Current filter time dps 0 3 frequency vertical jitter during synchronous motor running Increasing the value can Magnetizing current 0 01 300 00 0 00A improve the loading capacity of the asynchronous motor F2 00 Speed loop proportional 0 100 40 F2 00 and F2 01 are the PI gain KP1 regulation parameters when the running frequency is ime TI1 frequency 1 F2 03 and EC 200Hz F2 04 are the Pl regulation parameters when the running gain KP2 02 Switchover frequency 2 Speed loop integral The regulation parameters the weighted average value For a faster system response increase the proportional gain and reduce the integral time Be aware that a fast system response causes system oscillation The recommended regulating method is as follows If the default setting cannot satisfy the requirements make slight regulation Decrease the proportional gain first to ensure that the system does not oscillate Then decrease the integral time to ensure fast responsiveness and small overshoot 65 System Commissioning and Application Example NICE1000 User Manual If both F2 02 Switchover frequency 1 and F2 05 Switchover frequency 2 are set to O only F2 03 and F2 04 are val
74. FA 02 Display in stop state 1 65535 FA 03 Current encoder angle 0 0 359 9 io FA 05 Control board software 065535 ZK Drive board software FA 06 DSP 0 65535 FA 06 Heatsink temperature 0 100 FA 11 Pre torque current 0 0 200 0 FA 12 Logicinformation 0 65535 FA 13 Curve information 0 65535 94 NICE1000 User Manual Function Code Table Fes Feosbackepecs bao o m o raas Bewese pes ve mer pense aa 9 m o mes pwuemm pos 9 a o mes pwurewey poe o w o razo firemen poss 9 al o mm pweneme pss 9 v er mur foume pmo 9 x er mz outnutpower ooo o w o FA 24 Communication 0 65535 ECCE FA FA25 Encoder interference 0 65535 poo FA 26 nput state 1 0 65535 0 ee Me TER dl FA 28 Input state 3 0 65535 Foo FA 29 Input state 4 0 65535 Fo e FA 30 Input state 5 0 65535 Poo FA31 Outputstate1 0 655935 o le FAG2 ouputstse2 068536 To e Ums wmm em o e T Ferme oa J o mas Fewwosmez oa J o 9 enes wmrosmes ems o o TAN enses pem J 9 mm aoseeg eus 9 er mum Fexwosmes ness o mun Fexwosmer oa J o mer sems oss o Fb 00 Number of door machine s 95 Function Code Table NICE1000 User Manual l 0 65535 Fb 02 SIME floors of door 0 Forbid door open 65535 machine 1 1 Allow d
75. Function Code Table Y9 function selection Y10 function selection Y11 function selection Y12 function selection Y13 function selection Y14 function selection Y15 function selection Y16 function selection Y17 function selection Y18 function selection Y19 function selection Y20 function selection Y21 function selection Y22 function selection Y23 function selection NICE1000 User Manual 14 Low 7 segment e display output 15 Low 7 segment f display output 16 Low 7 segment g display output 17 Up arrow display output 18 Down arrow output 19 Minus sign display output 20 Returning to base floor at fire emergency 21 Buzzer output 22 Overload output 23 Arrival gong output 24 Full load output 25 Inspection output 26 Fan Lamp output 2 27 Shorting door lock circuit contactor output 28 BCD Gray code 7 segment high bit output 29 Controller normal running output 30 Electric lock output 31 Reserved 32 Emergency evacuation at power failure 33 Forced door close 1 34 Forced door close 2 35 Faulty state 36 Up signal 37 Medical sterilization 2 tput outpu 2 38 Non door zone stop output 39 Non service state output 40 Reserved 41 High 7 segment a display output 42 High 7 segment b display output To be continued E 02 10 11 12 13 5 17 18 19 0 21 22 NICE1000 User Manual Function Code Table 43 High 7 segment c
76. Function Codes NICE1000 User Manual Function Code Parameter Name Setting Range Default Property AS ve MEN ME Ed It displays the system running curve information Similar to the display of FA 12 LEDs 5 4 and 3 have no display while LEDs 2 and 1 show the running curve information LEDS LED 4 V LED 3 BED LED 1 iis bis ne Curve Information Display Display Display segment Lr Linear acceleration Stop data processing segment dad ENG 16 20 Auto tuning stage segment FA 17 Present position 0 00 300 0 0 FA 18 Output current 0 0 999 9 i oe FA 19 Output frequency 0 00 99 99 00 00 s 9 Zero speed start 10 Linear deceleration segment segment APO SPEU NORIN E Deceleration end segment segment Function Code Parameter Name Setting Range Default Property FA 14 Set speed 0 000 4 000 11 Startup speed stage Current stop phase 14 FA 15 Feedback speed 0 000 4 000 FA 16 Bus voltage 0 999 9 m m 1 1 Standby state 09 Deceleration start segment Stable speed running EO operator segment FA 2 FA 22 FA 2 Output voltage 0 999 9 These parameters display the current performance state of the system the output torque and output power supports positive negative display Function Code Parameter Name Setting Range Default Property FA 24 Communication interference 0 65535 o Is Is V m A Hz A V kW 154 NICE1000 User Manual Description of Function Codes It
77. It is used to set the pulses per revolution of the encoder according to the encoder nameplate This parameter is critical to CLVC Set the encoder nominal value in this parameter Otherwise the elevator may not run properly When the feedback pulses received by the system is data after frequency division by other equipment set the frequency division value rather than the encoder nominal value in this parameter For example if the pulses per revolution of the encoder is 8192 and is sent to the system after 1 4 frequency division set this parameter to 2048 8192 4 2048 F0 04 Rated elevator speed F1 05 Rated motor rotational speed and F1 12 Encoder pulses per revolution determine whether the elevator can run properly If any of these parameters is changed shaft auto tuning must be performed again Function Code Setting Range Default Property detection time This parameter is used to set the time that a wire break fault lasts before being detected After the elevator starts running at non zero speed if there is no encoder signal input within the time set in this parameter the system prompts the encoder fault and stops running When the value is smaller than 0 5s this function is disabled 112 NICE1000 User Manual Description of Function Codes Function Code Setting Range Default Property F4 14 Stator resistance 0 000_30 000 Model Q x asynchronous motor dependent F1 15 Rotor resistance 0 000_30 000 Model Q k
78. MSM stator scheme requires installation of an independent contactor for shorting PMSM stator The shorting PMSM stator function is implemented via the NC contact of the relay On the coil circuit of the RUN contactor an NO contact of the shorting PMSM stator contactor is connected in serial to ensure that output short circuit does not occur when the parameter setting is incorrect The following figure shows wiring of the independent shorting PMSM stator contactor n System Commissioning and Application Example NICE1000 User Manual Figure 5 11 Wiring of the independent shorting PMSM stator contactor FX o 24V 1 2 Braking resistor W 3 4 X20 NT sie L DDE CN6 1 2 2 EDIR PB SEE amp 5 Motor Three phase AC as z 3 4 power supply SIT Ve M NICE1000 SLM Sw z Encoder MCTC PG 1 E le Gv R cir p PES SW 5 Mo M1 Safety circuit UE C R S CN7 MEE IE ia YS FX 5 vel Ms 110 VAC FX Shorting PMSM stator contactor SW RUN contactor The parameter setting in such wiring mode is described in the following table Table 5 6 Parameter setting under the shorting PMSM stato
79. Viewing the leveling adjustment record lt n x SS 4 S4 SG F B F B ED E S fc Ek c EER D DP D DP Function code State Each segment indicates a function code As shown in the preceding figure the left two LEDs and the right two LEDs respectively show the adjustment bases of floor 1 and floor 2 If the value is larger than 30 it is upward leveling adjustment if the value is smaller than 30 it is downward leveling adjustment The default value 30 indicates that there is no leveling adjustment The maximum adjustment range is x30 mm The leveling adjustment method is as follows 1 Ensure that shaft auto tuning is completed successfully and the elevator runs properly at normal speed 2 Set Fr 00 to 1 to enable the car leveling adjustment function Then the elevator shields hall calls automatically runs to the top floor and keeps the door open after arrival If the elevator is at the top floor it directly keeps the door open 3 Go into the car press the top floor button and the leveling position is changed 1 mm upward press the bottom floor button and the leveling position is changed 1 mm downward The value is displayed in the car Positive value up arrow value negative value down arrow value adjustment range 30 mm 4 After completing adjustment for the current floor press the top floor button and bottom floor
80. alue smaller than 3s it becomes invalid Function Code Setting Range Default Property F9 03 Accumulative running time 0 65535 Foo h e F9 05 High byte of running times 0 999 o F9 06 Low byte or running times 0 9999 Foo e These parameters are used to view the actual accumulative running time and running times of the elevator Running times of the elevator F9 11 x 10000 F9 12 Group FA Keypad Setting Parameters Function Code Setting Range Default Property FA 01 Display in running state 165535 65535 x It is used to set the running parameters displayed on the keypad when the elevator is in the running state A total of 16 running parameters can be displayed during running each respectively corresponding to the 16 binary bits of FA 01 If a bit is set to 1 the parameter indicated by this bit is displayed if this bit is set to O the parameter is not displayed di Es d You can switch over the displayed parameter by pressing C 72 and set whether to display this parameter according to your own using habit The 16 binary bits correspond to the running parameters listed in the following table 148 NICE1000 User Manual Description of Function Codes Table 7 13 Running parameters corresponding to 16 bits of FA 01 jos 1 B8 Gres ft sm 1 ES Omemsme 5 Cere ous votage 1 Bro Pregu coment 1 BG Ouputvotege 5 Bt iouen rse 3 Bits Output f
81. an of faults which helps improve the efficiency of Set in group FC recording j maintenance and repair Inspection related Functions Shaft auto tuning is required before first time automatic running During shaft auto tuning the elevator runs Shaft auto tuning from the bottom floor to the top floor at the inspection speed and automatically records all position signals in the shaft User defined You can view the parameters that are modified and Set in FP 02 parameter display different from the default setting After entering the inspection state the system cancels Inspection running automatic running and related operations You can press the up or down call button to make the elevator jog at the inspection speed With simple parameter setting the system can obtain Motor auto tuning the motor parameters no matter whether the motor is with load or without load Every time the elevator runs to the terminal floor the Floor position system automatically checks and corrects the car intelligent position information based on slow down switch 1 and correction eliminates over travel top terminal or bottom terminal with use of the slow down switches Refer to section 5 1 2 Refer to section 5 1 1 Considering inaccurate running control at high inspection speed but long running time at low inspection speed the system provides the dual speed curve for inspection which greatly improves the efficiency at inspection The test ru
82. and Collective hall calls Passengers at any service floor can call the selection set in elevator by pressing the up call button and down call FE 00 button The system automatically determines different door Door open time i open time for door open for call command protection Set in group Fb setting de or delay according to the set door open holding time In automatic running state passengers can press Door open holding the door open button in the car to delay door open to Set in group Fb facilitate goods to be moved in or out Door machine You can set the required service floors of the door Set in Fb 02 and service floor setting machines Fb 04 Door pre close During door open holding in automatic running state by the door close passengers can press the door close button to close button the door in advance which improves the efficiency The system supports display of floor numbers in Floor number dt combinations of numbers and letters which meets the Set in group FE display setting id requirements of special conditions If the door is blocked by stuff during door close the light curtain acts and the elevator opens the door This function is invalid in fire emergency state Full collective selective Light curtain signal judgment Independent control When there are two doors for a car this function of the front door implements independent and automatic control on the and back door two doors acco
83. and brake balance of the car and the resonance caused by the car guild rail and motor For asynchronous motor abrasion or improper installation of the gearbox may arouse poor riding comfort 1 Installation of the guide rail mainly involves the verticality and surface flatness of the guide rail smoothness of the guide rail connection and parallelism between two guide rails including guide rails on the counterweight side 2 Tightness of the guide shoes including the one on the counterweight side also influences the riding comfort The guide shoes must not be too loose or tight 3 The drive from the motor to the car totally depends on the steel rope Large flexibility of the steel rope with irregular resistance during the car running may cause curly oscillation of the car In addition unbalanced stress of multiple steel ropes may cause the car to jitter during running 4 The riding comfort during running may be influenced if the brake arm is installed too tightly or released incompletely 5 If the car weight is unbalanced it will cause uneven stress of the guide shoes that connect the car and the guide rail As a result the guide shoes will rub with the guide rail during running affecting the riding comfort 68 NICE1000 User Manual System Commissioning and Application Example 6 For asynchronous motor abrasion or improper installation of the gearbox may also affect the riding comfort 7T Resonance is an inherent c
84. and monitor the elevator and module MCTC Commissioning upload and download parameters by using the cell BTM A and cell by cell phone phone phone host EDSAP The software does not supporting English version required currently The control system can be connected to the terminal in NEMS accessories Residential the monitoring room By using the NEMS software you and residential monitoring can view the floor position running direction and fault monitoring board state of the elevator MCTC MIB required 10 Contents EEC 1 MOU CUO EA EE EE 3 Chapter 1 Safety Information and Precautions pp 14 UNIES Precaucions o Ut m ETT 14 12 Getieral PreesuidE T 17 Pe so se olie oi RE etc ee deeded etn ace reed eater ieee 20 Chapter 2 Product Information 4 22 2 1 System Configuration of the NICE 40009 nn 22 2 2 Designation Rules and Model Description ese see ee ee EE EE ee Ee ee EE ee 23 2 3 Models arid speccationmss ee 23 2 4 Technical Specifications 4 24 2 5 Physical Appearance and Mounting Dimensions pp 26 2 28 2 7 Selection of Braking Components pp 29 Chapter 3 Mechanical and Electrical Installation 34 3 1 Installation Requirements 4 34 92 2 Mechanical IristallallOfi scere ee RI Ep Gee ER ee EGO ee 0 35 PRE ee Ai EE ei AA ET EE EE eee 36 3 4 Selection of Peripheral Electrical Devices pp 44 3 5 Electrical Wiring Diagram o
85. arameter setting first and then goes back to Level II menu and shifts to the next function code After you press Q the system does not save the parameter setting but directly returns to Level Il menu and remains at the current function code The following figure shows the shift between the three levels of menus Figure 4 3 Shift between the three levels of menus F m 8 1 re FB Fo F1 F2 F3 00 7900 FE 00 Fp 00 Fooo F1 00 F2 00 s FP 02 ro 07 F1 25 F2 18 F9 1 V gt 54 NICE1000 User Manual Use of the Commissioning Tools In Level Ill menu if the parameter has no blinking digit it means that the parameter cannot be modified This may be because e Such a parameter is only readable such as actually detected parameters and running record parameters e Such a parameter cannot be modified in the running state and can only be changed at stop 4 1 4 Viewing Status Parameters In the stop or running state the operation panel can display multiple status parameters Whether parameters are displayed is determined by the equivalent binary bits converted from the values of FA 01 and FA 02 In the stop state a total of 12 parameters can be displayed circularly by pressing 0 You can select the parameters to be displayed by setting FA 02 each of the binary bits converted from the value of FA 02 indicates a parameter Figure
86. ation Note 1 The preceding configuration takes the synchronous motor as an example The 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 It is recommended that you select the braking resistor closest to the minimum resistance 34 Product Information NICE1000 User Manual 32s Mechanical and Electrical Installation Mechanical and Electrical Installation NICE1000 User Manual Chapter 3 Mechanical and Electrical Installation 3 1 Installation Requirements 3 1 1 Installation Environment Requirements Ambient temperature 10 C to 50 C Install the controller on the surface of an incombustible object and Heat dissipation ensure that there is sufficient space around for heat dissipation Install the controller vertically on the support using screws Free from direct sunlight high humidity and condensation Mounting location Free from corrosive explosive and combustible gas Free from oil dirt dust and metal powder The controllers of plastic housing are whole unit built in products operated through remote control and need to be installed in the final Protective enclosure system The final system must have the required fireproof cover electrical protective cover and mechanical protective cover and satisfy the regional laws amp regulations and related IEC requirements 3 1 2 Installation
87. be restricted within a certain limit the device or system must have sufficient immunity to the electromagnetic interference in the environment First environment Environment that includes domestic premises it also includes establishments directly connected without intermediate transformers to a low voltage power supply network which supplies buildings used for domestic purposes Second environment Environment that includes all establishments other than those directly connected to a low voltage power supply network which supplies buildings used for domestic purposes Category C1 Controller Power Drive System PDS of rated voltage less than 1 000 V intended for use in the first environment Category C2 Controller PDS of rated voltage less than 1 000 V which is neither a plug in device nor a movable device and when used in the first environment is intended to be installed and commissioned only by a professional Category C3 Controller PDS of rated voltage less than 1 000 V intended for use in the second environment and not intended for use in the first environment Category C4 Controller PDS of rated voltage equal to or above 1 000 V or rated current equal to or above 400 A or intended for use in complex systems in the second environment 9 2 Introduction to EMC Standard 9 2 1 Installation Environment The system manufacturer using the controller is responsible for compliance of the system with the European EMC directive
88. bling Requirement jn The motor cables must be laid far away from other cables with recommended distance larger than 0 5 m The motor cables of several controllers can be laid side by side It is recommended that the motor cables power input cables and control cables be laid in different ducts To avoid electromagnetic interference caused by rapid change of the output voltage of the controller the motor cables and other cables must not be laid side by side for a long distance If the control cable must run across the power cable make sure they are arranged at an angle of close to 90 Other cables must not run across the controller The power input and output cables of the controller and weak current signal cables such as control cable should be laid vertically if possible rather than in parallel The cable ducts must be in good connection and well grounded Aluminium ducts can be used to improve electric potential The filter and controller should be connected to the cabinet properly with spraying protection at the installation part and conductive metal in full contact The motor should be connected to the system machinery or appliance properly with spraying protection at the installation part and conductive metal in full contact 197 EMC NICE1000 User Manual Figure 9 2 Cabling diagram Power cable Control cable Min 200 mm Control cable mm Power cable Power cable Min
89. chronous and for synchronous and asynchronous motors asynchronous motors Supporting Push pull encoder Open collector incremental encoder UVW encoder SIN COS encoder Endat encoder Sensorless vector control Sensorless vector control SVC SVC Control mode Closed loop vector control Closed loop vector control CLVC CLVC e VIF control Commissioning via Android cell phone not providing Not support Support English version currently idi IDEBSYRENIOD OUS Not requiring PG card Requiring MCTC PG A2 The PG card and the extension card use the same The PG card and the Use of optional part interface on the MCB and extension card can be used they cannot be used at the at the same time same time Supporting SIN COS encoder No load cell startup only Introduction NICE1000 User Manual 2 Connection to peripheral devices Three phase AC power supply Use within the allowable power supply specification of the controller Select a proper breaker to resist large in rush current that flows into the controller at power on Molded case circuit breaker MCCB or earth leakage circuit breaker ELCB External operation panel To guarantee safety use an electromagnetic contactor Do not use it to start or stop the controller because such operation reduces the service life of the controller Electromagnetic contactor Suppress the high order harmonic to improve the power fa
90. ck circuit 04 16 Reserved Function Code Setting Range Default Property After you enter the F5 28 menu the operation panel displays the state of all VO terminals of the system The LEDs are arranged as 5 4 3 2 1 from left to right Figure 7 4 VO terminal state F5 28 5 4 3 2 1 A A A A A A f Aao Ao A A f F B F B F B F B F B lt ea gt dumme E C fc ef C fc Sc ed S fc di SA AN OH nu AN u AN n ANNE OH D DP D DP D DP D DP D DP The following table describes the meaning of the LED segments indicating the I O terminal state in F5 28 124 NICE1000 User Manual Description of Function Codes Table 7 2 Meaning of the LED segments for F5 28 We See Meaning of Segment ON 8 levero tsonaia OOS o Deorzone snalacive OO DP Shoring PMSM stator contactor feedback signal ace Shorting door lock circuit contactor feedback signal active EE mai C inspection upsignalacive D vspeondwnspaladee E Wmtweemegenyspades PF Reserves OOO a e A 8 Elevator lock signal active Up limit signal active Down limit signal active Up slow down signal active C ERN Down slow down signal active Full load signal active Emergency stop safety feedback signal active 5 OE EA EE oP Dwrzopemimispnlacee A Dowwideweimtsgnache 8 Dwrzdweimtsgnache C DowmechmeiigMcatasgnaache D Door machine 2 voht curtain signal ate E Atendentsignalacive O OOOOOOOOO DP I
91. closed 03 Higher voltage startup of brake The terminal retains the output for continuous 4s to control startup of the brake e 04 Lamp Fan running It is used for the lamp fan running output 05 Shorting PMSM stator contactor When the elevator enters emergency running state upon power failure the brake is released and this signal is output The car automatically moves to the nearest AS Description of Function Codes NICE1000 User Manual leveling position under the effect of the weighing difference between the car and the counterweight This function can also be used during normal elevator running to enhance the safety Function Code Setting Range Default Property F7 04 Y4 function selection 06 99 F7 05 Y5 function selection 06 99 F7 27 Y27 function selection 06 99 The output functions are as follows 00 Invalid o0 EE o0 F7 06 Y6 function selection 06 99 06 EE EE o0 06 Door 1 open output 07 Door 1 close output 08 Door 2 open output 09 Door 2 close output 10 Low 7 segment a display output 11 Low 7 segment b display output 12 Low 7 segment c display output 13 Low 7 segment d display output 14 Low 7 segment e display output 15 Low 7 segment f display output 16 Low 7 segment g display output 17 Up arrow display output 18 Down arrow output 19 Minus sign display output 20 Returning to base floor at fire emergency 21 Buzzer output 22 Overload output 23 Arrival gong
92. comply will result in damage to the controller 16 NICE1000 User Manual Safety Information and Precautions Safety Do not repair or maintain the controller at power on Failure to comply will result in electric shock Repair or maintain the controller when its voltage is lower than 36 VAC about 10 minutes after the controller is AN DANGER powered off Otherwise the residual voltage in the capacitor may result in personal injury Do not allow unqualified personnel to repair or maintain the controller Failure to comply will result in personal injury or damage to the controller Repair or maintenance of the controller can be performed During pa only by the warranty center or gualified personnel authorized maintenance WD by Monarch Failure to comply will result in personal injury or A WARNING damage to the controller Power supply must be cut off before repair or maintenance of the controller Set the parameters again after the controller is replaced All the pluggable components must be plugged or removed only N after power off ER Strictly obey the laws and regulations and repair and maintain the elevator eguipment periodically Only timely troubleshooting can ensure the safety of passengers The packaging materials screws and terminal blocks can be AN CAUTION re used and it is suggested that you keep them well for future use Disposal The electrolytic capacitors on the main circuits and PCB may N e
93. ctor AC input reactor a gt ooa aa Operation box L Noise filter on Sci NICE1000 Y input side integrated elevator LI controller Reduce the n s electromagnetic FA IH a interference on Tw Wy the input side Monarch T uU y Y JL WE Hall display board s Top floor Ground ele dip Reliably ground the motor and the controller to prevent lt e electric shock Braking Hall display unit board Bottom floor Braking resistor Ground e For model selection of the peripheral electrical devices refer to section 3 4 The NICE1000 in the preceding figure is the standard model For information about other structures refer to section 2 5 NICE1000 User Manual Introduction 3 Basic function list Common Running Functions Switchover between the two types of motors easily by modifying F1 25 Integrated control for synchronous It can drive both AC asynchronous motor and and asynchronous permanent magnetic synchronous motor PMSM motors In automatic running or attendant state this function enables the elevator to respond both car calls
94. curs for three consecutive times Err22 is reported for three consecutive times 101 Feedback data of CANbus communication with the CTB remains incorrect 188 101 Check whether the door NICE1000 User Manual Check whether the leveling and door zone sensors work properly Check the installation verticality and depth of the leveling SA plates Check the leveling signal input points of the MCB Check whether the steel rope slips Check whether the door machine system works properly Check whether the CTB is normal Check whether the door open limit signal is normal machine system works properly Check whether the CTB is normal Check whether the door lock acts properly 101 Check the communication cable connection Check the power supply of the CTB Check whether the 24 V power 1A supply of the controller is normal Check whether strong power interference on communication exists NICE1000 User Manual 101 Feedback data of HCB m Modbus communication Err52 communication abnormal with the HCB remains incorrect 101 The door lock feedback signal remains active for more than 3s Err53 Door lock fault during door open 102 The multiple door lock feedback signal states are inconsistent for more than 2s Overcurrent The current at startup for Err54 at inspection inspection exceeds 110 of startup the rated current 101 During automatic Sto
95. d byte of floor height 065535 F4 16 High byte of floor 0 65535 Pulses height 6 F4 17 al byte of floor height 0 65535 F4 18 High byte of floor 0 65535 Pulses height 7 F4 19 ea byte of floor height 0_65535 F4 20 High byte of floor 0 65535 Pulses height 8 F4 24 nie byte of floor height 0 65535 F4 22 High byte of floor 0 65535 Pulses height 9 F4 23 cd byte of floor height 0 65535 F4 24 High byte of floor 0 65535 Pulses height 10 F4 25 t byte of floor height 0 65535 F4 26 High byte of floor 0 65535 Pulses height 11 F4 27 c byte of floor height 0 65535 F4 28 High byte of floor 0 65535 Pulses height 12 F4 29 n byte of floor height 0 65535 85 Function Code Table High byte of floor F4 30 height 13 paves F4 31 c byte of floor height 0 65535 NICE1000 User Manual F4 33 yd byte of floor height 065535 High byte of floor i F4 34 height 15 0 65535 High byte of floor reap High byte 0 65535 mM F4 35 a byte of floor height 0 65535 Group F5 Input Terminal Parameters F5 00 Attendant Automatic 3 900 3 z x switchover time F5 01 X1 function selection X2 function selection X3 function selection X4 function selection X5 function selection X6 function selection 1 99 NO input 101 199 NC input 03 00 Invalid 01 Leveling 1 signal 02 Leveling 2 signal 03 Door zone signal 104 04 RUN contactor feedback signal 05 Brake t
96. d current of the motor is smaller than the output current of the controller the controller of the same power class can also be used Generally select an adaptable motor based on the output current of the controller and 44 NICE1000 User Manual Mechanical and Electrical Installation ensure that the rated current of the motor is equal to or smaller than the output current of the controller For technical specifications of the controller see section 2 3 3 3 5 Selection and Use of the Hall Display Board Monarch does not provide the display board and customers need to prepare the appropriate board yourselves The NICE1000 supports four different types of display boards For details see the descriptions of FE 12 in chapter 7 3 4 Selection of Peripheral Electrical Devices 3 4 1 Description of Peripheral Electrical Devices 1 Do not install the capacitor or surge suppressor on the output side of the controller Otherwise it may cause faults to the controller or damage to the capacitor and surge suppressor 2 Inputs Outputs main circuit of the controller contain harmonics which may interfere with the communication device connected to the controller Therefore install an anti interference filter to minimize the interference 3 Select the peripheral devices based on actual applications as well as by referring to section 3 4 2 The following table describes the peripheral electrical devices Table 3 8 Description
97. d parameter setting Opposite Mode Door Control c Function Description Supported Floors Node Description The front door and back door acts lt 8 standard simultaneously upon arrival for hall calls lt 16 after and car calls extension Simultaneous control Hall call The corresponding door opens upon independent arrival for hall calls from this door lt 4 standard car call The front door and back door act 8 after extension simultaneous simultaneously upon arrival for car calls od System Commissioning and Application Example NICE1000 User Manual Opposite Mode Door Control Mnt Function Description Supported Floors Modo Description Two methods are available to enable mode 3 Method 1 F6 64 Bit4 Opening only one door of opposite doors under manual control 1 DI with function 46 Single Double door selection inactive in this case A The front door opens upon arrival for hall calls from the front door and the back door opens upon arrival for hall Hall call calls from the back door independent car call manual control standard lt 4 B By default the front door opens upon lt 8 after extension arrival for car calls If the DI with function 31 Door 2 selection signal is active the back door opens upon arrival for car Calls Method 2 using DI with function 46 Single Double door selection F6 64 Bit4 0 A Dl inactive sing door control same as method 1
98. de Setting Range Default Property It is used to set processing on the parameters The values are as follows 0 No operation 1 Restore default settings 2 Clear fault records If you set this parameter to 1 Restore default settings all parameters except group F1 are restored to the default settings Be cautions with this setting Function Code Setting Range Default Property defi 0 Invalid FP 02 User defined parameter display 1 Valid It is used to set whether to display the parameters that are modified When it is set to 1 the parameters that are different from the default setting are displayed 172 Troubleshooting Troubleshooting NICE1000 User Manual Chapter 8 Troubleshooting 8 1 Maintenance 8 1 1 Routine Maintenance The influence of the ambient temperature humidity dust and vibration will cause the aging of the 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 maintenance Routine maintenance involves checking Whether abnormal noise exists during motor running Whether the motor vibrates excessively Whether the installation environment of the controller changes Whether the cooling fan works properly e Whether the controller overheats Routine cleaning involves Keep the controller clean all the time e Remove the dust especially metal powder o
99. 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 function code in bit refer to F6 06 Table 7 16 Program control functions indicated by bits of Fb 07 Fb 07 Program control selection The system detects the output current at startup of the synchronous motor and blocks the output and forbids running if the current is abnormal Synchronous motor Bits current detection detection invalid You need to power on the system again and then the system restores the detection When the higher voltage lower voltage safety and door lock signals are set the higher voltage and Higher voltage hp Bit13 Lower voltade 4 55 lower voltage signals must be consistent within 1 5s ge Otherwise the system considers that the signals are 160 NICE1000 User Manual Description of Function Codes Function Code Setting Range Default Property It is used to set the door close protection time After outputting the door close command if the system does not receive the door close limit signal after the time set in this parameter the system re closes the door When the door open close times reach the value set in Fb 09 the system reports fault Err49 Function Code Setting Range Default Property Fb 09 Door open close 0 20 protection times It is used to set th
100. determines the fault level If unloading first upon the safety running conditions are met the elevator first fault runs to the leveling position to unload passengers Interference degree The system judges the degree of communication Viewed in FA 24 judgment interference NICE1000 User Manual Introduction When the earthquake detection device acts and inputs a signal to the system the elevator lands at the nearest floor and stops running After the earthquake signal becomes inactive and the fault is reset manually the elevator restores to normal running dependant The NICE1000new system supports not only three p phase 380 VAC but also single phase 220 VAC to working power j or meet different applications of the power supply system Earthquake protection supply such as 220 V UPS The system detects the bus voltage and automatically Automatic voltage adjusts the running speed of the elevator to adapt to identification the situation of insufficient power from power supply such as emergency UPS Parallel Control and Other Functions Parallel control The system supports parallel control of two elevators Refer to 5 2 2 Dispersed waiting Ee control the elevators can wait at different Set in Fd 05 If the parallel control exit switch of a certain elevator in a parallel control system is valid or the time for exiting Parallel control exit the parallel control is reached the elevator exits parallel control and runs
101. display F7 24 Y24 function selection output 44 High 7 segment d display output ma pa function selection arr fee mene dispiay 46 High 7 segment f display output ma pa function selection 47 High 7 segment g display output 48 99 Reserved F7 27 Y27 function selection End F8 00 Load for load cell auto 0 100 tuning 0 Pre torque invalid 1 Load cell pre torque F8 01 Pre torque selection compensation 2 Automatic pre torque compensation F8 02 Pre torque offset 0 0 100 0 F8 08 Load cell input 0 MCB digital sampling selection 1 MCB analog sampling Emergency evacuation F8 09 operation speed at 0 000 to F3 11 power failure Emergency evacuation 0 Motor not running F8 10 joperation mode at 1 UPS power failure 2 48 V battery power supply 93 Function Code Table NICE1000 User Manual BitO Disabled ae N Bit1 Judged by light curtain Bit 2 Judged by light load signal Group F9 Time Parameters i 1 240 F9 00 Idle time before 10 me returning to base floor 0 Invalid j 1 240 F9 01 Time for fan and lamp 2 pat X to be turned off 0 Fan and lamp always ON il du ds S F9 02 Motor running time limit D 45 S Invalid if smaller than 3s F9 03 Accumulative running 0_65535 time 0 9999 High byte of running times 1 indicating actual running times 10000 F9 06 Low byte or running 0 9999 times Group FA Keypad Setting Parameters FA 01 Display in running state 1 65535
102. e door re open re close times allowed when door open close is abnormal Function Code Setting Range Default Property Fb 10 Door state of standby elevator 02 0 It is used to set the door state when the elevator is in stop and standby state The values are as follows 0 Closing the door as normal at base floor e 1 Waiting with door open at base floor e 2 Waiting with door open at each floor Function Code Setting Range Default Property Fb 11 oorr ied 1 1000 5 S time for hall call It is used to set the door open holding time when there is a hall call The elevator closes the door immediately after receiving a door close command Function Code Setting Range Default Property Fb 12 DEEP Medio 1 1000 3 s time for car call It is used to set the door open holding time when there is a car call The elevator closes the door immediately after receiving a door close command Function Code Setting Range Default Property Fb 13 Door open holding time upon 40 1000 30 m open delay valid It is used to set the door open holding time when there is door open delay input The elevator closes the door immediately after receiving a door close command Function Code Setting Range Default Property Fb 14 Door open noading 1 1000 10 S time at base floor 161 Description of Function Codes NICE1000 User Manual It is used to set the door open holding time after the elevator arrives at the ba
103. e fan or the discharging resistor to check the temperature Failure to comply will result in personal burnt Signal detection must be performed only by qualified personnel during operation Failure to comply will result in personal injury or damage to the controller Do not touch the rotating part of the motor during the motor During auto tuning or running Failure to comply will result in running accidents Check that the following requirements are met The voltage class of the power supply is consistent with the Nw ARNING rated voltage class of the controller The input terminals R S T and output terminals U V W are properly connected No short circuit exists in the peripheral circuit The wiring is secured Failure to comply will result in damage to the controller For synchronous motor ensure that motor auto tuning is performed successfully Perform trial running before resuming the steel rope so as to make the motor run properly Avoid objects falling into the controller when it is running Failure to comply will result in damage to the controller Do not perform the voltage resistance test on any part of the AN CAUTION controller because such test has been done in the factory Failure to comply may result in accidents Do not change the default settings of the controller Failure to comply will result in damage to the controller Do not start stop the controller by turning on or off the contactor Failure to
104. e motor capacity cable length insulation class and wiring method Generally the leakage current on the output side of the controller is three times of the current when the motor runs at the mains frequency 1 3 Protective Functions Adopting different protective functions for different levels of faults the NICE1000 provides the elevator running system with full abnormality protection For detailed solutions to the faults see chapter 8 Faults of the controller are classified as follows 1 Speed abnormal The controller monitors the encoder feedback speed and output torque Once the feedback speed exceeds the limit or the deviation between the torque limit and the speed feedback is too large the controller performs protection immediately reports an alarm and prohibits running 2 Drive control abnormal The related faults include drive overcurrent overvoltage undervoltage power input output phase loss overload and storage abnormality If such a fault occurs the controller performs protection immediately stops output applies the brake and prohibits running 3 Encoder abnormal The related faults include encoder phase loss direction reversing wire breaking and pulse interference If such a fault occurs the controller performs protection immediately to avoid unexpected accidents If pulse interference is large the controller reports an alarm immediately If pulse interference is small the controller performs position cor
105. e of door machine 1 and door machine 2 if existing 43 Earthquake signal If this signal remains active for more than 2s the elevator enters the earthquake stop state stops at the nearest landing floor and opens the door Then the elevator starts running again after the earthquake signal becomes inactive 44 Back door forbidden signal If double door machines are applied this signal is used to prohibit the use of door machine 2 45 Light load signal It is used for nuisance judgment in the anti nuisance function If Bit2 in F8 13 is set to 1 the system performs nuisance judgment by using the light load switch The load below 30 of the rated load is regarded as light load 46 Single Double door selection This function is valid only in opposite door control mode 3 When this signal is active the elevator is double door service state otherwise the elevator is in single door service state 4T Fire emergency floor switchover signal The NICE1000 supports two fire emergency floors By default the elevator stops at fire emergency floor 1 in fire emergency state If this signal is active the elevator stops at fire emergency floor 2 in fire emergency state 48 Virtual floor input This signal is required when the floor distance is too large If the floor distance is too large the time protection may be enabled and the system reports Err30 after a long time running To solve the problem you need to set the virtual floor
106. ec otto reses Se THESES ie SE Re ei eel REEN oe ent 171 Group FP User Paramielel Scusa esse ese Ge ees eie se ie ei ie se as 171 Chapter 8 Troubleshooting 4 174 ID 174 8 2 Description of Fault Levels pe 175 9 3 Fault Information and Troubleshooting pp 177 eile EMC 192 ENE il ee WOT EE EE EE EE EN 192 3 2 Introduction to EMC has 192 9 3 Selection of Peripheral EMC DeVvices pp 193 spice 196 9 5 Solutions to Common EMC Interference Problems eee 198 Safety Information and Precautions Safety Information and Precautions NICE1000 User Manual Chapter 1 Safety Information and Precautions In this manual the notices are graded based on the degree of danger N DANGER indicates that failure to comply with the notice will result in severe personal injury or even death s RENE indicates that failure to comply with the notice will result in potential risk of severe personal injury or even death ZN CAUTION indicates that failure to comply with the notice will result in minor or moderate personal injury or equipment damage In addition NOTE appearing in other chapters indicates that an unintended result or situation may occur if the notice is not complied with The notices in this manual you have to observe are aimed at guaranteeing your personal safety as well as to prevent damage to the controller or the parts connected to it Read this chapter carefull
107. ed by the shaft cables to the MCB of the controller For the electrical wiring method refer to Figure 3 11 The following figure shows the arrangement of shaft position signals in the shaft Figure 3 12 Arrangement of shaft position signals Up final limit switch e U Cle 150 mm Up limit switch 30 50 mm Top leveling position i L L V V Rated 2 x F3 08 elevator speed D Up slow down switch sD J4 1 uw Leveling plate SD de D floor N 80 s D lt 200 mm Down slow down switch L L V Vv Rated 2 x F3 08 elevator speed 1 Bottom leveling position 30 50 mm Ap ds A Down limit switch 150 mm ep Cs Down final limit switch 2274 Mechanical and Electrical Installation NICE1000 User Manual 3 6 1 Installation of Leveling Signals Leveling signals comprise the leveling switch and leveling plate and are directly connected to the input terminal of the controller It is used to enable the car to land at each floor accurately The leveling switches are generally installed
108. efer to F6 06 Table 7 12 Emergency evacuation functions indicated by bits of F6 69 F6 69 Emergency Evacuation Function Selection Automatically Load direction Direction Direction i determining based of nearest calculating determine mode o For on load cell data or landing half load signal floor evacuation parking floor set in F6 73 it must be a non zero value and is a service floor Otherwise the elevator stops at the nearest floor Bit4 Compensation at The non load cell startup is still valid in the process of startup evacuation running evacuation parking floor During evacuation running the elevator arrives at the Stopping at ds Description of Function Codes NICE1000 User Manual F6 69 Emergency Evacuation Function Selection If the elevator does not arrive at the required floor after Emergency 50s emergency evacuation running time Err33 is reported Bit8 running time In this case the function of switching over shorting stator protection braking mode to controller drive based on the time setting cannot be implemented EE Reeves ll Bit10 Emergency The buzzer tweets at intervals in the emergency evacuation buzzer output running state Shorting stator braking mode It enables the function of switching over shorting stator Bit12 i switched over to braking mode to controller drive controller drive Time setting l If the time of the shorting stator braking mode exceeds Mode of shortin
109. ement 24VICOM External 24 VDC 24 VDC power supply for power supply the entire board CN2 CN4 Button TE Button input and button L1 to L26 indicator output 24 V power selection sin for button illumination eeslselsesessssssess SSSISSSSSSSSS GSSISSSSSSSSSSISSIS SSeSSSSSSSSeSS 24V COM External 24 VDC 24 VDC power supply for power supply the entire board Input voltage range 10 30 VDC CN1 Input impedance 4 7 kO CN6 X1 to X24 Optocoupler isolation Input current limit 5 mA Functions set in F5 01 to F5 24 AI M AI Used for the analog load cell device 38 NICE1000 User Manual Mechanical and Electrical Installation Function Description Terminal Arrangement Input voltage range 110 l VAC 15 X25 to x27 Higher voltage 449 VDC 20 for safety detection eek 2 circuit and door lock circuit function set in F5 25 to F5 27 Normally open NO maximum current and YO MO to voltage rating 5 A 250 VAC Y3 M3 Relay output SSESSSSSSSES Function set in F 7 00 to F7 03 NO maximum current and voltage rating 5 A 250 VAC Y6 to Y22 Relay output or 5A 30 DC CN8 Function set in F7 06 to CN9 F7 22
110. en the brake is completely applied during which the system retains the zero speed torque current output Figure 7 3 Running time sequence F3 16 V speed F3 15 F8 11 F3 14 F2 17 Ee RUN contactor t time Brake contactor Ee Ee Shorting door lock circuit contactor peer Shorting motor stator contacter a z Internal running status _ _ EP EN Leveling signa MENNNNNENEEENI uu RUN contactor feedback Brake contactor feedback Essays Shorting door lock circuit contactor feedback EE Shorting motor stator contactor NENNEN EH Function Code Setting Range Default Unit Property F3 17 Low speed re leveling speed 0 080 to F3 11 0 100 ms x It is used to set the elevator speed of returning to the leveling position at normal non leveling stop Function Function Code Parameter Name Name Setting Range Range Default Units Property F3 18 Acceleration rate at 0 100_1 300 0 300 wx emergency evacuation It is used to set the acceleration rate at emergency evacuation Group F4 Floor Parameters Function Code Setting Range Default Property 118 NICE1000 User Manual Description of Function Codes It is used to adjust the leveling accuracy at elevator stop If over leveling occurs at all floors during elevator stop decrease the value of this parameter properly If under leveling occurs at all floors during elevator stop increase the value of
111. en the fault occurs and the two low digits indicate the fault code For example the 1st fault code is 0835 indicating that when the 1st fault fault Err35 occurs the car is near floor 8 The fault subcode is used to locate the causes of the fault The specific fault time is recorded in month day hour and minute FC35 Latestfautoode os o o car Latest fautsuboode oa o Cas Lesemomainonmesur oa o G3 Cum information ofatst aut o 65595 0 WR 1dM ENE AE N FC 42 Bus voltage upon latest fault 0 0 999 9 EE FC 43 Current position upon latest fault 0 0 300 0 0 m FC 44 Output current upon latest fault 0 999 9 0 A FC 45 M frequency upon latest 0 00 99 99 po fe e FC 46 Torque current upon latest fault 0 0 999 9 0 A Group Fd Communication Parameters Function Code Setting Range Default Property 0 127 Fd 00 Local address 0 Broadcast address Fd 01 Communication response delay 0 0 60 0 Fd 02 Communication timeout 0 Invalid These RS232 serial port communication parameters are used for communication with the monitor software in the host computer Fd 00 specifies the current address of the controller The setting of these two parameters must be consistent with the setting of the serial port parameters on the host computer Fd 01 specifies the delay for the controller to send data by means of the serial port Fd 02 s
112. en the hall call input is active the car call button for Bit7 nes blinking to prompt the corresponding floor blinks to give a prompt Function Code Parameter Name Setting Range Default Unit Property F6 68 Fia elnsidone 0 65535 16456 function selection Each bit of the function code defines a function as described in the following table When the hall call floor and the car call floor are different the buzzer tweets continuously If a bit is set to 1 the function indicated by this bit is enabled if this bit is set to O the function is disabled For details on how to view and set this function code in bit refer to F6 06 Table 7 11 Fire emergency functions indicated by bits of F6 68 F6 68 Fire Emergency Function Selection Arrival gong output in inspection or fire emergency state The arrival gong is output in the inspection or fire emergency state emergency state car call can be registered Retentive at power In the fire emergency state the current system and failure in fire car state will be memorized at power failure and be emergency state resumed after the system is powered on again Multiple car calls Multiple car calls can be registered in the fire registered in fire emergency state If this function is disabled only one 140 NICE1000 User Manual Description of Function Codes F6 68 Fire Emergency Function Selection In the fire emergency state the door close process can be completed
113. encoder is constantspeed Performed properly installed reliably The load is too heavy Whether the rotating shaft is The encoder is seriously connected to the motor shaft interfered with reliably Whether the encoder is stable during normal speed running Check whether UPS feedback is valid in the non UPS running state Err02 Check whether the acceleration deceleration rate is too high Err02 ErrO3 End 178 NICE1000 User Manual Overvoltage ErrO5 during acceleration Overvoltage Err06 during deceleration Err07 Overvoltage at constant speed Undervoltage Err10 Controller overload The input voltage is too high The regeneration power of the motor is too high The braking resistance is too large or the braking unit fails The acceleration rate is too short The input voltage is too high The braking resistance is too large or the braking unit fails The deceleration rate is too short The input voltage is too high The braking resistance is too large or the braking unit fails Instantaneous power failure occurs on the input power supply The input voltage is too low The drive control board fails The brake circuit is abnormal The load is too heavy The encoder feedback signal is abnormal The motor parameters are incorrect A fault occurs on the motor power cables 179 Troubleshooting Adjust the input voltage Observe wheth
114. er the bus voltage is normal and whether it rises too quickly during 5A running Check for the balance coefficient Select a proper braking resistor and check whether the resistance is too large based on the recommended braking resistance table in chapter 3 Check 5A Whether the cable connecting the braking resistor is damaged Whether the cooper wire 5A touches the ground Eliminate external power supply faults and check whether the power fails during running 5A Check whether the wiring of all power input cables is secure Contact the agent or Monarch Check the brake circuit and power input Reduce the load Check whether the encoder feedback signal and setting are correct and whether the initial angle of the encoder for the AA PMSM is correct Check the motor parameter setting and perform motor auto tuning Check the power cables of the motor refer to the solution of Err02 Whether the connection is reliable Troubleshooting Motor overload Power Supply phase loss Power output phase loss Module overheat Output abnormal Current control fault FC 02 is set improperly The brake circuit is abnormal The load is too heavy The power input phases are not symmetric The drive control board fails The output wiring of the main circuit is loose The motor is damaged The ambient temperature is too high The fan is damaged The air filter is blocked Braking short c
115. ernal running status Ee EE Leveling signal aa ee as RUN contactor feedback ETE EE Brake contactor feedback EE ee 2 Shorting door lock circuit contactor feedback ed Shorting motor stator MN EN contactor feedback 66 NICE1000 User Manual System Commissioning and Application Example F3 14 Zero speed control time at startup 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 F3 15 Brake release delay specifies the time from the moment when the system sends the brake release command to the moment when the brake is completely released during which the system retains the zero speed torque current output F3 16 Zero speed control time at end specifies the zero speed output time when the running curve ends F8 11 Brake apply delay specifies the time from the moment when the system sends the brake apply command to the moment when the brake is completely applied during which the system retains the zero speed torque current output The release time of the brakes varies according to the types and the response time of the brakes is greatly influenced by the ambient temperature A high brake coil temperature slows the brake responsiveness Thus when the riding comfort at startup or stop cannot be improved by adjusting zero servo or load cell compensation pa
116. es 9 3 1 Installation of EMC Input Filter on Power Input Side An EMC filter installed between the controller and the power supply can not only restrict the interference of electromagnetic noise in the surrounding environment on the controller but also prevents the interference from the controller on the surrounding equipment The NICE1000 controller satisfies the requirements of category C2 only with an EMC filter installed on the power input side The installation precautions are as follows e Strictly comply with the ratings when using the EMC filter The EMC filter is category electric apparatus and therefore the metal housing ground of the filter should be in good contact with the metal ground of the installation cabinet on a large area and requires good conductive continuity Otherwise it will result in electric shock or poor EMC effect The grounds of the EMC filter and the PE conductor of the controller must be tied to the same common ground Otherwise the EMC effect will be affected seriously The EMC filter should be installed as closely as possible to the power input side of the controller The following table lists the recommended manufacturers and models of EMC filters for the NICE1000 controller Select a proper one based on actual requirements 193 EMC NICE1000 User Manual Table 9 1 Recommended manufacturers and models of EMC filter AC Input Filter Power Rated Input Model Changzhou AC Input
117. escribed as follows x The parameter can be modified when the controller is in either stop or running state X The parameter cannot be modified when the controller is in the running state e The parameter is the actually measured value and cannot be modified The system automatically restricts the modification property of all parameters to prevent mal function Group F0 Basic Parameters Function Parameter 0 Sensorless vector control SVC Control 1 Closed loop vector control FO 00 mode CLVC X 2 Voltage Frequency V F control It is used to set the control mode of the system e 0 Sensorless vector control SVC It is applicable to low speed running during no load commissioning of the asynchronous motor fault judgment at inspection and synchronous motor running on special conditions 1 Closed loop vector control CLVC It is applicable to normal running in distance control e 2 Voltage Frequency V F control It is applicable to equipment detection where the ratio between the voltage and the frequency is fixed control is simple and the low frequency output torque feature is poor pd Parameter Name Setting Range Default FUSE 0 Operation panel control F0 01 Command Source j p 1 re selection 1 Distance control It is used to set the source of running commands and running speed references 0 Operation panel control The controller is operated by pressing o and e on the operati
118. f the NICE1000 Control System pp 46 3 6 Installation of Shaft Position Signals pp 46 Chapter 4 Use of the Commissioning Tools pp 52 4 1 Use of the LED Operation Panel pp 52 Chapter 5 System Commissioning and Application Example 58 Be ey She IN GO MIR M t o S ER ESTRUM 58 5 2 System Application pp 70 Chapter 6 Function Code Table pp 80 6 1 Function Code Description pp 80 62 Function Code GOUE PERENNE ERR 80 6 3 Function Code Table soos GEE EE OE dau urs Mr ap RU E EDU E D UI LEUR 81 Chapter 7 Description of Function Codes pp 108 Group FO Basic Parameters pt 108 Group F1 Motor Parameters cnn us quud tnis n EG IM UFU MOM Ge Ge ee ee ee QE QI MED 110 Group F2 Vector Control Parameters pp 113 Group F3 Running Control Parameters pp 116 Group F4 Floor Parameters nnnm ee nennen ee ee nnns nans nain 118 Group F5 Input Terminal Parameters pp 120 Group F6 Basic Elevator Parameters pp 130 Group F7 Output Terminal Parameters pp 143 Group F8 Enhanced Function Parameters ee ee se ee ee ee ee ee ee ee ee nnne 145 Group F9 Time Parameters 4 147 Group FA Keypad Setting Parameters pp 148 Group Fb Door Function Parameters pp 159 Group FG Protection Function Parameters Nt 162 Group Fd Communication Parameters iss rei rene nr acci cr gc 165 Group FE Elevator Function Parameters pp 166 Group Fr Leveling Adjustment Parameters pp 170 Group FF Factory Paratrib BE Suemec
119. f the ten s digit and the two low digits indicate the display code of the unit s digit Description of Function Codes Reserved 12 13 14 15 Reserved Display H Display L Reserved Unit 1904 16 Display P 1905 17 Reserved No display 0101 FE 05 00 Display 0 01 Display 1 02 FE 11 Floor 11 display 93 Floor 5 display Floor 6 to floor 10 display Display 2 Display 3 04 05 FE 16 Floor 13 display 06 1 Wat Dis la C FE 15 Floor 12 display Display 4 COPY 0102 Display 5 Display d Display 6 Display E 0103 FE 17 Floor 14 display 07 Display 7 Display F ps Qn Display J FE 18 Floor15 display Display 8 Rue Display 9 lopies FE 19 Floor 16 display Display A Display U 2 MEER S These parameters are used to set the display of each floor The setting range is 0000 9999 where the two high digits indicate the display code of the ten s digit and the two low digits indicate the display code of the unit s digit Setting Range Default Property It is used to set the coding method of the hall display board By default the system uses the BCD code Function Code Unit Parameter Name Hall call output FE 12 selection 0 7 segment code e 1 BCD code 2 Gray code e 3 Binary code 4 One to one output 7 segment code For the output setting see the description in Group F7 BCB Gray code A Y
120. g re leveling no NC of the feedback contact on shorting door lock circuit the shorting door lock circuit feedback or door lock signal contactor and check the relay is received 2s after shorting and wiring of the SCB A board door lock circuit output 101 During re leveling or pre open running the shorting door lock circuit ee contactor outputs for Check the signal feature NO continuous 2s but the NC of the feedback contact on feedback is invalid and the the shorting door lock circuit door lock is disconnected contactor Shorting door 102 During re leveling Check whether the shorting Err47 lock circuit or pre open running the door lock circuit contactor acts 2B contactor shorting door lock circuit properly abnormal contactor has no output 103 but the feedback is valid for Check whether the leveling continuous 2s and re leveling signals are 103 During re leveling normal DE adis bM me Check whether the re leveling output time of the shorting i PDA i speed is set too low door lock circuit contactor is larger than 15s 187 Troubleshooting Door open fault Err49 Door close fault Consecutive Err50 loss of leveling signal CAN Errb1 communication abnormal 101 The consecutive times that the door does not open to the limit reaches the setting in Fb 13 101 The consecutive times that the door does not open to the limit reaches the setting in Fb 13 Leveling signal stuck or loss oc
121. g the time set in F6 75 the controller starts to drive the stator braking elevator Bit13 mode switched over to controller Speed setting drive If the speed is still smaller than the value of F6 72 after 10s in the shorting stator braking mode the controller starts to drive the elevator The system exits emergency evacuation when receiving the door open limit signal from the elevator Emergency that arrives at the target floor Bit14 evacuation exit mode The system exits emergency evacuation when receiving the door close limit signal from the elevator that arrives at the target floor Function selection of When this function is enabled the setting of related function shorting stator codes becomes effective braking mode Bit15 Function Code Setting Range Default Property F6 72 Emergency evacuation 545 5 630 0 010 mis switching speed It is used to set the switching speed at shorting stator braking mode switched over to controller drive via speed setting Function Code Setting Range Default Property F6 73 Evacuation parking floor 0 to F6 00 9 o It is used to set the evacuation parking floor when Bit2 Stopping at evacuation parking floor in F6 69 is enabled Function Code Setting Range Default Property F6 74 Blinking advance time 0 0 15 0 442 NICE1000 User Manual Description of Function Codes It is used to set the blinking advance time when the elevator arrives the floor required by
122. geni The independent running function is enabled running Door re open after Bit11 car call of the present floor running The door re opens if the car call of the present floor is valid during door close Function Code Setting Range Default Property FE 14 Elevator function selection 2 0 65535 oo It is used to set the elevator functions 1 indicates that the function is enabled and 0 indicates that the function is disabled It is used to set the elevator functions Each bit of the function code 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 function code in bit refer to F6 06 Table 7 19 Elevator functions indicated by bits of FE 14 FE 14 Elevator Function Selection 2 Bit Door open holding The system still outputs the door open command at open limit upon door open limit 169 Description of Function Codes NICE1000 User Manual FE 14 Elevator Function Selection 2 Door close command not The system stops outputting the door close output upon door command upon door close limit close limit When this function is enabled the system does not Bit3 Manualidoor output the door open close command electric lock output still active and does not detect door open close limit stuck detection the system instructs t
123. gnal are set incorrectly In this case you need to correct the setting If segment G stays ON or OFF regardless of whether the door is open or closed it indicates that MCB does not receive the door open limit signal feedback In this case check the door machine controller and the wiring Figure 5 3 Door 1 open limit monitoring F5 28 Door 1 open limit 3 Door close limit monitoring In the following figure if segment A is ON it indicates that the system has received the door 1 close limit signal and door 1 should be in close state If segment G is OFF when the door is closed and ON when the door is open it indicates that the NO NC states of door 1 close limit signal are set incorrectly In this case you need to correct the setting If segment A stays ON or OFF regardless of whether the door is open or closed it indicates that MCB does not receive the door open limit signal feedback In this case check the door machine controller and the wiring 64 NICE1000 User Manual System Commissioning and Application Example Figure 5 4 Door 1 close limit monitoring F5 28 Door 1 close limit 4 In the door open close process neither of segments G and A is ON 5 1 5 Riding Comfort The riding comfort is an important factor of the elevator s overall performance Improper installation of mechanical parts and improper parameter settings will cause discomfort
124. haracter of a physical system related to the material and quality of system components If you are sure that the oscillation is caused by resonance reduce the resonance by increasing or decreasing the car weight or counterweight and adding resonance absorbers at connections of the components for example place rubber blanket under the motor 5 1 6 Password Setting The NICE1000 provides the parameter password protection function Here gives an example of changing the password into 12345 C indicates the blinking digit as shown in IN the following figure Figure 5 6 Example of changing the password Status parameter default display 0 000 S gt 2 FP enre Be dix re meis PRe 00000 If there is a blinking digit press A INI P to modify the digit 12345 ree NTER To save the setting After you set the user password set FP 00 to a non zero value the system requires user password authentication the system displays gt In this case a you can modify the function code parameters only after entering the password correctly e For factory parameters group FF you also need to enter the factory password e Do not try to modify the factory parameters If these parameters are set improperly the system may be unstable or abnormal n the password protection unlocked state you can change the password at any time
125. he elevator to slow down The system detects the state of slow down switches Bit5 Slow down switch Once detecting that a slow down switch is stuck immediately and reports a corresponding fault stator contactor Bit12 0 NC output Bit12 Fan Lamp output Bit12 1 NO output Group Fr Leveling Adjustment Parameters Function Code Setting Range Default Property i 0 Disabled Fr 00 Leveling adjustment function 1 Enabled This parameter is used to enable the leveling adjustment function Function Code Setting Range Default Property milis ande record 1 30030 mm 00000 60060 NO NC output selection of Bit10 0 NC output contactor Bit10 l shorting PMSM Bit10 1 NO output contactor If the feedback of the RUN and brake contactors is abnormal faults Err36 and Err37 are reported and Auto reset for you need to manually reset the system Bit4 RUN and brake contactor stuck With this function the system resets automatically after the fault symptom disappears A maximum of three auto reset times are supported HERCLE ETE These parameters are used to record the leveling adjustment values Each parameter records the adjustment information of two floors and therefore 40 floor adjustment records are supported totally n adjustment record 8 The method of viewing the record is shown in the following figure 170 NICE1000 User Manual Description of Function Codes Figure 7 10
126. he load is too heavy The deceleration rate is too short The encoder signal is incorrect 177 Check whether the RUN contactor at the controller output side is normal Check Whether the power cable jacket is damaged Whether the power cable is possibly short circuited to ground Whether the power cable is connected reliably Check the insulation of motor power terminals and check whether the motor winding is short circuited or grounded Check whether shorting PMSM stator causes controller output short circuit Check whether motor parameters comply with the nameplate Perform motor auto tuning again Check whether the brake keeps released before the fault occurs and whether the brake is stuck mechanically Check whether the balance coefficient is correct Check whether the encoder wirings are correct For asynchronous motor perform SVC and compare the current to judge whether the encoder works properly To be continued Troubleshooting NICE1000 User Manual ren Name Possible Causes Solution Level Code Check Whether encoder pulses per revolution PPR is set correctly Whether the encoder signal is interfered with Whether the encoder cable runs through the duct independently Whether the cable is too long The main circuit output Whether the shield is is grounded or short grounded at one end circuited ME or Overcurrent at Motor auto tuning is Whether the
127. heck whether the motor is used properly and whether it is damaged Improve cooling conditions of the motor Troubleshooting NICE1000 User Manual oa The set elevator running Check the related parameter or Err40 running hod AB reached time is reached contact the agent or Monarch 101 e Check the safety circuit switches and their states Check whether the external Safety circuit 101 The safety circuit power supply is normal Err41 di fan main OFF 5A TS Check whether the safety circuit contactor acts properly Confirm the signal feature NO NC of the feedback contact of the safety circuit contactor 101 Check whether the hall door lock and the car door lock are in good contact Door lock 101 The door lock circuit Check whether the door lock Err42 disconnected feedback is invalid during contactor acts properly 5A during running the elevator running Check the signal feature NO NC of the feedback contact on the door lock contactor Check whether the external power supply is normal 101 Check the signal feature NO NC of the up limit switch E 101 The up limit switch Check whether the up limit Err43 m acts when the elevator is switch is in good contact 4C running in the up direction Check whether the limit switch is installed at a relatively low position and acts even when the elevator arrives at the terminal floor normally 101 Check the signal feature NO NC of the down limit switch D
128. her voltage detection input terminals of safety circuit and door lock circuit Input specification 95 125 V Floor input output 50 floor button inputs outputs functions set flexibly VO feature Analog input Al Al voltage range 10 V to 10 V Communication 1 CANbus communication ports port 1 Modbus communication port Output terminal 27 relay outputs block The terminals can be allocated with different functions Encadarintamabe oe different encoders by using an optional PG Keypad Used for shaft auto tuning Operation and LED operation 5 digit LED display querying modifying most parameters panel and monitoring the system state display NEMS software Connecting the control system and the host computer convenient for querying motoring the system state Altitude Below 1000 m de rated 196 for each 100 m higher Ambient 10 C to 50 C de rated if the ambient temperature is temperature above 40 C Humidity Maximum relative humidity 95 non condensing Maximum vibration 5 9 m s 0 6 g Environment Storage 20 C to 60 C temperature IP level IP20 Power distribution TN TT system 2 5 Physical Appearance and Mounting Dimensions The following figures show the physical appearance and mounting dimensions of the three different structures of the NICE1000 26 NICE1000 User Manual Product Information Figure 2 3 Physical appearance and mounting dimensions of the NICE 1000 1 L structure 2 2 15 kW
129. here are only two floors the elevator needs to run to below the bottom leveling position that is the leveling sensor is disconnected from the leveling plate There is no such requirement when there are multiple floors 2 83 System Commissioning and Application Example NICE1000 User Manual 5 1 4 Door Machine Controller Commissioning The NICE1000 can control the elevator door properly in the prerequisite that 1 Wiring between the MCB and the door machine controller is correct 2 After being commissioned the door machine controller can open close the elevator door properly and feeds back door open close limit signal correctly in the terminal control mode 3 The door open close command output relays on the MCB are set correctly The NO NC states of the door open close limit signal input contacts are set correctly Descriptions of monitoring the elevator door based on the MCB are as follows 1 F5 28 is used to monitor whether the door open close signals received by the system are correct Segment G DP of LED3 and segment A B of LED4 are respectively used to monitor door 1 2 open limit and door 1 2 close limit 2 Door open limit monitoring In the following figure if segment G is ON it indicates that the system has received the door 1 open limit signal and door 1 should be in open state If segment G is OFF when the door is open and ON when the door is closed it indicates that the NO NC states of door 1 open limit si
130. his bit is enabled if this bit is set to 0 the function is disabled For details on how to view and set this function code in bit refer to F6 06 Table 7 9 Functions indicated by the bits of F6 64 F6 64 Program control selection 1 When the up slow down and down leveling signals are active and the up leveling signal is inactive the system considers that the up limit is performed It is the same for the down limit signal Opening only one This function is enabled only in the opposite door control Bit4 door of opposite mode 3 hall call independent opposite door manual Bit1 Soft limit function doors under control In this case only one door opens each time while manual control the other door must stay in the door close limit state the elevator lock floor The system clears all the current car calls by default Disabling reverse every time the elevator changes the direction When this floor number clear function is enabled the function of clearing reverse floor numbers is disabled Bit11 Responding to car The system responds to hall calls only after executing all calls first car calls 138 Bit9 When the elevator lock signal is active the system Clearing calls immediately clears the registered calls and enables the Bit5 immediately at elevator to stop at nearest landing floor and then return to elevator lock NICE1000 User Manual Description of Function Codes F6 65 Program control selection
131. id use Parameter Name Genting Default Description Code Range F2 06 Current loop proportional gain 10 500 EM F2 06 and F2 0 are the current loop adjustment parameters in the vector F2 07 Current loop integral gain 10 500 control algorithm The optimum values of these two parameters are obtained during motor auto tuning and you need not modify them Appropriate setting of the parameters can restrain jitter during running and have obvious effect on the riding comfort F2 18 Startup acceleration 5006 4560s 0000s It can reduce the terrace time feeling at startup caused by the F3 00 Startup speed 0 000 0 030 m s 0 000 m s breakout friction of the guide F3 01 Startup holding time 0 000 0 500s 0 000s Al It specifies the zero speed 0 000 1 000s 0 300s holding time after the brake is applied F8 11 Brake apply delay 0 200 1 500s O 200s It specifies the brake apply time Figure 5 5 Running time sequence Zero speed control time at end Zero speed control It specifies the zero speed F3 14 p 0 000 1 000s 0 200s holding time before brake time at startup output 0 200s ifi F3 15 Brake release delay 0 000 2 000s It specifies the brake release 0 600s time V speed F3 15 F3 16 F8 11 F3 14 F2 17 F2 16 or e RUN contactor t time Brake contactor P H8 Shorting door lock circuit contactor BRek Shorting motor stator contactor NEE Ed Int
132. independently This does not affect normal running of the parallel control system If an elevator in the parallel control system cannot respond to calls in time due to faults the elevator automatically exits the parallel control system and runs independently This does not affect normal running of the parallel control system Parallel control automatic exit The system automatically judges the number of passengers in the car and compares it with the number Anti nuisance of registered car calls If there are excessive car calls F8 13 Anti function the system determines that it is nuisance and cancels nuisance function all car calls In this case passengers need to register correct car calls again Prompt of non door The system gives a prompt when the elevator stops at zone stop a non door zone area due to faults nterface tor The system provides an interface for intelligent RE emia intelligent monitoring board recidenlial residential management to perform remote monitoring MCTC MIB on the state of elevators in the residential district management required Basiese You can upload and download parameters by using MDKE6 operation Py the operation panel MDKE6 panel required Energy Saving Functions If there is no running command within the set time the F9 01 Time for Car energy saving system automatically cuts off the power supply to the fan and lamp to lamp and fan in the car be turned off Introduction NICE1
133. ion it Description Default BitO Overload protection It sets whether to implement overload protection Bit1 Canceling protection It sets whether to implement protection at output phase at output phase loss loss It sets whether to implement over modulation Canceling over 0 Over modulation enabled modulation 1 Over modulation disabled Light cuna At door close limit the door re opens if the light curtain judgment at door nn is valid close limit Canceling SPI It sets whether to implement wire breaking detection Bit5 communication on SPI communication between the MCB and the drive judgment board Bitg Canceling Err55 The system does not report fault Err55 when the door alarm open limit signal at arrival becomes inactive Bit14 Canceling protection It sets whether to implement protection at input phase at input phase loss loss Function Code Setting Range Default Property FC 02 Overload protection coefficient 0 50 10 00 100 x After detecting that the output current exceeds FC 02 x Rated motor current and the duration lasts the time specified in the inverse time lag curve the system outputs fault Err11 indicating motor overload Function Code Setting Range Default Property 0 FC 03 Overload pre warning coefficient 50 100 80 xx 163 Description of Function Codes NICE1000 User Manual After detecting that the output current exceeds FC 03 x Rated motor current
134. ircuit occurs on the output side The U V W output is abnormal The excitation current deviation is too large The torque current deviation is too large The torque limit is exceeded for a very long time 180 NICE1000 User Manual Adjust the parameter FC 02 can be set to the default value 3A Refer to the solution of Err10 Check whether the three phases of power supply are balanced and whether the power voltage is normal If not 4A adjust the power input Contact the agent or Monarch Check the wiring Check whether the contactor edid 4A on the output side is normal Eliminate the motor fault Lower the ambient temperature Clear the air filter Replace the damaged fan 9A Check whether the installation clearance of the controller satisfies the requirement Check wiring of the braking resistor and braking unit is correct without short circuit Check whether the main on contactor works properly Contact the agent or Monarch Check the circuit of the encoder The output MCCB becomes OFF The values of the current loop 5A parameters are too small Perform motor auto tuning again if the zero point position is incorrect Reduce the load if it too heavy NICE1000 User Manual Reference signal of the encoder incorrect Motor auto tuning fault The deviation between the Z signal position and the absolute position is too large The deviation between the absolute
135. iring and description The MCTC PG card is connected to the controller and the encoder as follows The J1 terminal and CN1 terminal of the MCTC PG card are respectively connected to the J12 terminal of the MCB on the controller and the encoder of the motor Different MCTC PG card models are connected to the MCB in the same way The connection method to the encoder depends on the CN1 terminal of the model The following figure shows the wiring between MCTC PG E and the controller Figure 3 10 Wring between MCTC PG E and the controller Braking resistor Saf AU eee 053 R PB Motor Encoder Three phase AC se U D power supply Ta D V a am T em e a8 O CN1 B MCTC PG E O PG card The following table defines the CN1 terminals of different MCTC PG card models AA Mechanical and Electrical Installation NICE1000 User Manual Table 3 7 Definitions of the CN1 terminals of different MCTC PG card models MCTC PG D MCTC PG E MCTC PG F 1 A 6 N A w 1 B 6 a 11 C 1 Be 6 A 11 CLOCK B 8 u 13 VCC 3 Z 8 B 1 B 9 ajz 9 13 D 3 NA 8 Br 13 DATA COM 4 Z 9 VCC 14 N A 5V Up 10 V 15 N A 5 A 10 C 15 N A 5 A 0 CLOCK 15 N Sensor N fe a
136. it15 Independent running Direct travel ride signal B B B B B B B B Direction change signal 150 NICE1000 User Manual Description of Function Codes 13 Input terminal 3 state indicates the meaning of output terminals by bit 1 indicates that the signal is active A total of 16 bits are defined as below Single Double door selection Fire emergency floor switchover 14 Output terminal 1 state indicates the meaning of output terminals by bit 1 indicates that the signal is active A total of 16 bits are defined as below Low 7 segment a display output Low 7 segment b display output Low 7 segment c display output Du us SR Bit13 Low 7 segment d display output 15 Output terminal 2 state indicates the meaning of CTB outputs by bit 1 indicates that the signal is active A total of 16 bits are defined as below Bit2 Down arrow output Bit3 Minus sign display output Bit11 Shorting door lock circuit contactor output Returning to base floor at fire BCD Gray code 7 segment c ode Bit4 Bit12 emergency output high bit output 151 Description of Function Codes NICE1000 User Manual Pet Meaning Br Mes Controller normal running output active Buzzer output Bit13 Overload output Bit14 Electric lock output 16 System state indicates the system state by bit 1 indicates that the signal is active A total of 16 bits are defined as below Light curtain sta
137. king Metactiomima Detection disabled when 1 0 S value smaller than 0 5s F4 14 Stator resistance 0 000_30 000 Model Q asynchronous motor dependent F1 15 Rotor resistance 0 000_30 000 Model x asynchronous motor dependent F1 16 Leakage inductance 0 00_300 00 Model asynchronous motor dependent F4 17 Mutual inductance 0 1 3000 0 Model UT asynchronous motor dependent F1 18 Magnetizing current 0 01 300 00 Model asynchronous motor dependent Shaft Q inductance 0 00 650 00 Ml o N F4 21 21 BackEMF EMF 0 65535 n 65535 0 Asynchronous motor F1 25 Motor type 1 Synchronous motor 82 NICE1000 User Manual Function Code Table Group F2 Vector Control Parameters poe e 0 100 40 proportional gain KP1 F2 01 Speed loop integral o o4 19 pp s time TI1 Speed loop oe proportional gain KP2 oF pag PSed oop integral ini i56 time TI2 F2 05 ae F2 02 to F0 05 F2 06 Current loop KP 1 40 500 torque F2 07 Current loop Kl1 40 500 torque F2 08 Torgue upper limit 0 0 200 0 Elevator running 0 Direction unchanged F2 10 diis TC direction 1 Direction reversed F2 11 Zero servo current 0 20_50 0 coefficient Zero servo speed loop F2 12 KP 0 00 2 00 F2 13 i servo speed loop 0 00 2 00 Torque acceleration 4 500 1 time time F2 18 m acceleration o o6 4 59g 0 000 ES Group F3 Running Control Parameter F3 03 oo start jerk 400 4 000 2 500 F3 04
138. l 58 Err58 Shaft position switches abnormal 62 Err62 Analog input cable broken End oo m oo m MEEN FC 05 Designated fault code 0 9999 display FC 06 Designated fault 065535 subcode FC 07 Logic information of 065535 designated fault FC 08 Curve information of 065535 designated fault Keg fo 0 000 1 750 designated fault FC 10 Feedback speed upon 0 000_1 750 designated fault Bus voltage upon ni designated fault BA FC 12 Current position upon 0 500 0 m designated fault FC 13 Output current upon 0 0 999 9 A designated fault poda Quiput frequency upon o po 99 gg Hz designated fault FC 15 Torque current upon 0 0 999 9 A designated fault 100 NICE1000 User Manual Function Code Table rox mmaem pe 8 row fisttouksuboode remm J o rox aaa oa J o rcm andtautsuboode foss J o rom aa po o rom Demamboe ems J o rom mtae e J o e man MEE EE MEE n ES N EE EE MES N om fontes e J o er rom antutswesae foss J o 9 rom mwmucxe nexo J o rom rinfautsuboode nem J o 9 rom enres oa J o ros aaa oa o 9 ros lomfautoode oa 9 rom jmmurubee nem J o 9 ros fromiautcode nexo J o po e FC 35 10th fault subcode 0 65535 FC 36 Latest fault code 0 9999 H FC 37 Latest fault subcode 0 65535 FC 38 Logic information of 0 65535 latest
139. l EMC 9 3 2 Installation of AC Input Reactor on Power Input Side An AC input reactor is installed to eliminate the harmonics of the input current As an optional device the reactor can be installed externally to meet strict requirements of an application environment for harmonics The following table lists the recommended manufacturers and models of input reactors Table 9 2 Recommended manufacturers and models of AC input reactors AC Input Reactor Model Controller Model Power Capacity KVA Pus mput j urrent A Inovance Three phase 380 V range 15 to 20 6 5 MD ACL 7 4T 222 2 10 5 MD ACL 10 4T 372 2 14 8 MD ACL 15 4T 552 2 20 5 MD ACL 30 4T 113 2 Three phase 220 V range 15 to 20 11 0 MD ACL 15 4T 222 2 17 0 MD ACL 30 4T 222 2 29 0 MD ACL 30 4T 113 2 36 0 MD ACL 50 4T 113 2 41 0 MD ACL 50 4T 153 2 40 0 MD ACL 50 4T 183 2 220 NICE L H 4022 40 0 49 0 MD ACL 50 4T 183 2 220 NICE L H 4030 57 0 61 0 MD ACL 80 4T 303 2 Single phase 220 V range 15 to 20 NICE L H 2002 NICE L H 2003 220 NICE L H 4007 220 NICE L H 4011 NICE L H 4002 NICE L H 4003 NICE L H 4005 NICE L H 4007 NICE L H 4011 NICE L H 4015 NICE L H 4018 NICE L H 4022 NICE L H 4030 NICE L H 4037 NICE L H 4045 N 5 RI SK oO ololololo S NICE L H 2002 NICE L H 2003 220 NICE L H 4007 17 0 21 0 24 0 30 0 220 NICE L H 4015 220 NICE L H 4018 N N O Jm E I Oo o
140. l state F5 30 25 4 3 2 1 F B F B F B F B F B D ED ED gt EED ef C fc ER efe d fc d fc d elc LA m A OH LA OH A NEA m D DP D DP D DP D DP D DP The following table describes the meaning of the LED segments indicating the floor I O terminal state in F5 30 127 Description of Function Codes NICE1000 User Manual Table 7 4 Meaning of the LED segments for F5 30 No T Meaning of ESO ON 128 NICE1000 User Manual Description of Function Codes Meaning of Segment ON Floor 9 door 1 up call VO active O B Floor 9 door 1 down call VO active 5 EE EE pp The following table describes the meaning of the LED segments indicating the floor VO terminal state in F5 31 Table 7 5 Meaning of the LED segments for F5 31 Nc Segment Meaning ofSegmentON oe Floor 4 door 2 down cal VO active 129 A C E F G A C E F G A C E F O OB ME ME ad OE Lp eS oP pA CB E HN D _ Floor 9 door 2 car call VO active OE OF e P E UN OB E NN oD OE LH NN Description of Function Codes NICE1000 User Manual Mo e Feor door down cal VO active D cor door dwn cal VO aive DP Fior door gom cal VO active B Fioro door down cal VO aive D Fior 10 door down cai VO active o reseed Group F6 Basic Elevator Parameters Function Code Setting Range Default Property F6 00 Top floor of the elevator F6 01 to 16 Ma J
141. le 7 1 Influences of carrier frequency adjustment Carrier frequency Low Output current waveform Bad Good Werne Oupacurenwaem Note On certain environment conditions the heatsink temperature is too high the system will reduce the carrier frequency to provide overheat protection for the controller preventing the controller from being damaged due to overheat If the temperature cannot reduce in this case the controller reports the overheat fault Group F1 Motor Parameter Function Code Setting Range Default Property 0 SIN COS encoder absolute encoder F1 00 Encoder type 1 UVW encoder 2 AB incremental encoder for asynchronous motor It is used to set the encoder type matching the motor When F1 25 is set to 1 Synchronous motor this parameter is automatically changed to O If the actually used is UVW encoder manually set this parameter to 1 before auto tuning Otherwise the system fails to run When F 1 25 is set to 0 Asynchronous motor this parameter is automatically changed to 2 You need not modify it manually F1 01 Rated motor power 0 7 75 0 Mees KW dependent Model F1 02 Rated motor voltage 0 440 V dependent 110 NICE1000 User Manual Description of Function Codes F1 03 Rated motor current 0 00 655 00 Model A dependent Eds oe 0 00 99 00 woe Hz frequency dependent F1 05 Rated motor rotational 0 3000 Model RPM speed dependent Set these parameters according to
142. le to normal elevator running In CLVC mode good driving performance and running efficiency can be achieved in the prerequisite of correct motor parameters B Motor Parameters to Be Set The motor parameters that need to be set are listed in the following table Table 5 1 Motor parameters to be set Function Function Code ParameterName Name Description 0 Asynchronous motor F1 25 Motor type 1 Synchronous motor 0 SIN COS encoder absolute encoder F1 00 Encoder type 2 AB incremental encoder for asynchronous motor F1 12 Encoder pulses per revolution 0 10000 Rated motor power Rated motor voltage These parameters are model dependent F1 01 to F1 05 Rated motor current and you need to manually input them Rated motor frequency according to the nameplate Rated motor rotational speed 0 Sensorless vector control SVC F0 00 Control mode 1 Closed loop vector control CLVC 2 Voltage Freguency V F control 60 NICE1000 User Manual System Commissioning and Application Example 0 Operation panel control F0 01 Command source selection 1 Distance control 0 No operation 1 With load auto tuning Auto tuning mode 2 No load auto tuning 3 Shaft auto tuning 1 4 Shaft auto tuning 2 B Precautions for Motor Auto tuning Follow the following precautions Ensure that all wiring and installation meet the safety specifications Reset the current fault and then start auto tuning beca
143. lemented only when the hall call and car call setting for one elevator is the same as that for the other elevator in terms of the same floor Note In parallel mode the top floor F6 00 and bottom floor F6 01 of the elevators should be set based on corresponding physical floors 76 NICE1000 User Manual System Commissioning and Application Example Assume that there are two elevators in parallel mode Elevator 1 stops at floor B1 floor 1 floor 2 and floor 3 while elevator 2 stops at floor 1 floor 3 and floor 4 Now you need to set related parameters according to the following table Table 5 8 Parameter and address setting of two elevators DTE Elevator 1 Elevator 2 Number of elevators in parallel mode pute em 03 Elevator No Fd 04 No Fd 04 Actual Physical B call Hall call input Hall call display Hall call input Bt 1 Terminal L floor 1 FE 01 1101 EE EET Terminal L floor 2 FE 02 1901 L floor 2 02 1901 Terminal L floor 3 FE 03 1902 Non stop floor but Fe 93 1902 pue E plate required Terminal L floor 4 FE 04 1903 TerminalLfloor4 FE 04 1903 4 5 Teminaltfoor5 FE 05 1904 F6 an wese RE EE 5 2 3 Opposite Door Control The NICE1000 supports four opposite door control modes mode 1 mode 2 mode 3 and mode 4 as described in the following table Table 5 9 Opposite door control modes an
144. ll display board LED operation panel met Host Operation computer Eis Ox E oo oo 9 Heads Door machine controller 00 NICE1000 User Manual Product Information 2 2 Designation Rules and Model Description 2 2 1 Designation Rules and Nameplate Figure 2 2 Designation rules and nameplate of the NICE1000 NICE L H 40 15 NICE series integrated Mark Power Class elevator controller 02 2 2 kW Mark Controller Type 03 3 7 kW L Specialized for elevators ae id C HWLX Mark Motor Type 30 30 kW HH i Mark Voltage Class NICE1000 i Single phase Integrated elevator 20 Three phase 220 V controller 40 Three phase 380 V e H mm E Nameplate FW 3 position es Nameplate Controller model MODEL NICE L H 4015 CE Rated input J9 INPUT 3PH AC 380 440V 36A 50 60Hz Rated output OUTPUT 3PH AC 0 440V 33A 0 90Hz 15KW Manufacturing SN S N 010150602803825403 Suzhou MONARCH Control Technology Co Ltd 2 3 Models and Specifications Table 2 1 NICE1000 models and specifications Power Capacity Input Current Output Current Motor Power Controller Model Single phase 220 V range 15 to 20 25 3 15 5 3 7 86 346 22 5 Three phase 22
145. lled by the switch or button in the car in opposite door control mode the terminal is used to receive this signal When this signal is active door 2 is used When this signal is inactive door 1 is used 33 UPS valid signal The terminal is used to receive the emergency evacuation signal at power failure 34 Door open button The terminal is used to receive the door open input signal 35 Door close button The terminal is used to receive the door close input signal 36 Safety circuit The safety circuit is important to guarantee safe running of the elevator 37 Door lock circuit 1 It is used to ensure that the hall door and car door have been closed when the elevator starts to run 38 Door lock circuit 2 It has the same function as Door lock circuit 2 so that you can separate the hall door signal and car door signal The system considers that the door lock is effective only when both signals 37 and 38 are active 39 Half load signal When the car load exceeds half of the limit this signal becomes active It is used to judge the emergency running direction at power failure 122 NICE1000 User Manual Description of Function Codes 40 Motor overheat signal If this signal remains active for more than 2s the controller stops output and reports fault Err39 to prompt motor overheat 41 Door machine 1 safety edge signal 42 Door machine 2 safety edge signal They are used to detect the safety edge signal stat
146. loor2up cal 9 Floor 10 up car Floor 6 car call 13 Floor 14 car call Floor 6 up call 13 Floor 14 up call 6 Foor 7 car cal 14 Floor 15 car cair 6 Floor 7 up cal 14 Floor 15 up cal EEN door 1 car call Function O Floor 9 car call Floor 10 car call Floor 11 car call Floor 12 car call Floor 16 car call Function Floor 9 down call No o EE 158 NICE1000 User Manual Description of Function Codes door 2 down call FA 41 System state Floor 9 down klad MEEN FA 39 Floor VO state 7 1 Floor 2 down call Floor 3 down call Floor 4 down 11 call Floor 5 down call Floor 6 down call m call Floor 12 down 3 system full load 11 call Floor 13 down 4 System overload 12 call Floor 11 down 2 System in running state O 1 1 Floor 7 down 44 Floor 15 down System light load 14 call call Floor 8 down Floor 16 down 7 call call Function Code Parameter Name Setting Range Default Property It displays the current system I O state C1 CD N O C1 Group Fb Door Function Parameters Function Code Parameter Name Setting Range Default Unit Property Fb 00 Number of door machine s 1 2 oa EE It is used to set the number of door machine s Set this parameter based on actual conditions Function Code Parameter Name Setting Range Default Property It is used to set the opposite door control mode
147. lue of F3 08 Special deceleration rate is 0 5 m s The slow down distances calculated based on different rated elevator speeds are listed in the following table Table 3 11 Slow down distances based on different rated elevator speeds EM D oos 0 4 05 063 075 10 15 16 1 75 Speed m s Distance of Slow down 0 3 0 4 0 5 0 6 0 6 0 8 0 8 1 0 0 9 1 2 1 2 1 5 1 8 2 5 Switch m Note The slow down switch supports the terminal floor reset function It must be installed between the leveling plates of the terminal floor and the secondary terminal floor If the distance between these two floors is small and the installation distance of the slow down switch is outside the installation range of these two floors enable the super short function by setting Bit14 or Bit15 of F6 07 49 Mechanical and Electrical Installation NICE1000 User Manual 3 6 3 Installation of Limit Switches The up limit switch and down limit switch protect the elevator from over travel top bottom terminal when the elevator does not stop at the leveling position of the terminal floor The up limit switch needs to be installed 30 50 mm away from the top leveling position The limit switch acts when the car continues to run upward 30 50 mm from the top leveling position The down limit switch needs to be installed 30 50 mm away from the bottom leveling position The limit switch acts when the car continues to run downward 30 50 mm fr
148. meter After this running is completed the system automatically restores to the attendant state Bit2 of F6 67 must be set to 1 When the value of this parameter is smaller than 5 this function is disabled and the system is in the normal attendant state Function Code Setting Range Default M F5 01 X1 function selection F5 02 X2 function selection 00 X F5 03 X3 function selection 105 ea A EH F5 23 X23 function selection F5 24 X24 function selection These parameters are used to set the functions of input terminals X1 to X24 Terminals X1 to X24 are digital inputs and are allocated with corresponding functions based on the input signals The same function must not be allocated to multiple terminals After the 24 V voltage is input the corresponding input terminal indicator becomes ON The functions are described as follows 00 Invalid Even if there is signal input to the terminal the system has no response You can allocate this function to terminals that are not used to prevent mis function 01 Leveling 1 signal 02 Leveling 2 signal 03 Door zone signal The NICE1000 system determines the elevator leveling position based on the leveling sensor signal The system supports three types of leveling configuration a single door zone sensor b up and down leveling sensors c door zone sensor up and down leveling sensor If the leveling signal is abnormal stuck or unavailable the system reports fault
149. meter is dependent on the elevator mechanism and traction motor Note F0 03 is the actual running speed within the elevator speed range set in F0 04 For example for a certain elevator if F0 04 is 1 750 m s and the actually required maximum running speed is 1 600 m s set F0 03 to 1 600 m s Function Code Setting Range Default Property F0 05 Maximum frequency F1 04 to 99 00 50 00 It is used to set the maximum output frequency of the system This value must be larger than the rated motor frequency Function Code Setting Range Default Property FO 06 Carrier frequency 0 5 16 0 60 kHz It is used to set the carrier frequency of the controller The carrier frequency is closely related to the motor noise during running When it is generally set above 6 kHz mute running is achieved It is recommended to set the carrier frequency to the lowest within the allowable noise which reduces the controller loss and radio frequency interference If the carrier frequency is low output current has high harmonics and the power loss and 109 Description of Function Codes NICE1000 User Manual temperature rise of the motor increase e If the carrier frequency is high power loss and temperature rise of the motor declines However the system has an increase in power loss temperature rise and interference Adjusting the carrier frequency will exert influences on the aspects listed in the following table Tab
150. meter when restoring the default setting Function Code Setting Range Default Property F2 11 Zero servo current coefficient 0 20 50 0 F2 12 Zero servo speed loop KP 000 200 05 x F2 13 Zero servo speed loop KI 0 00 2 00 06 x These parameters are used to adjust automatic pre torque compensation in the case of no load cell The no load cell startup function is enabled when F8 01 is set to 2 Decrease the values of these parameters in the case of car lurch at startup and increase the values in the case of rollback at startup For details see the description of section 5 1 5 Function Code Setting Range Default Property F2 16 Torque acceleration time 1 500 F2 17 Torque deceleration time 1 500 350 These two parameters are used to set the acceleration time and deceleration time of the tordue current Due to different characteristics the motor may have an abnormal sound when the current is withdrawn at stop In this case you can increase the torque deceleration time properly to eliminate the abnormal sound Function Code Setting Range Default Property F2 18 Startup acceleration time 0 000 1 500 0 000 It is used to set the acceleration time of the startup speed It is used with F3 00 For details see Figure 7 2 115 Description of Function Codes NICE1000 User Manual Group F3 Running Control Parameters Function Code Setting Range Default Property F3 00 Startup speed 0 000
151. meters 6 3 Function Code Table Group FO Basic Parameters 0 Sensorless vector control SVC 1 Closed loop vector control FO OO Control mode CLVC 1 2 Voltage Frequency V F control 0 Operation panel control F0 01 Command Source j p 1 k selection 1 Distance control Fo 02 Running speed under 050 to FODA 0 050 m s operation panel control speed Foos Maximum requency Fi o4io99 00 sooo He x Foos JGemertemens os so m Group F1 Motor Parameters 0 SIN COS encoder absolute encoder F1 00 Encoder type 1 UVW encoder 2 AB incremental encoder for asynchronous motor F1 01 Rated motor power 0 7 75 0 TIGE kW dependent F1 02 Rated motor voltage 0 440 Mede V dependent Model F1 03 Rated motor current 0 00 655 00 A dependent F1 04 Rated motor frequency 0 00 99 00 MAGA Hz dependent F1 05 Rated motor rotational 0 3000 Model RPM speed dependent F1 06 Encoder initial angle 0 0 359 9 Degree synchronous motor 81 Function Code Table NICE1000 User Manual Encoder angle Deares at power off 0 0 359 9 synchronous motor wiring mode F1 09 Current filter time 0 3 synchronous motor F1 10 Encoder verification 0 65535 selection 0 No operation 1 With load auto tuning Auto tuning mode 2 No load auto tuning 3 Shaft auto tuning 1 4 Shaft auto tuning 2 F1 12 Encoder pulses per o_10000 1024 PPR revolution 0 10 0 Encoder wire brea
152. n Code Indicates the function code number Indicates the parameter name of the function Parameter Name code Setting Range Indicates the setting range of the parameter Indicates the default setting of the parameter at Default factory Indicates the measurement unit of the parameter poe Indicates whether the parameter can be modified du including the modification conditions The modification property of the parameters includes three types described as follows XX The parameter can be modified when the controller is in either stop or running state X The parameter cannot be modified when the controller is in the running state The parameter is the actually measured value and cannot be modified The system automatically restricts the modification property of all parameters to prevent mal function 6 2 Function Code Groups On the operation panel press X 7 and you can view the function code groups The function code groups are classified as follows Motor parameters Keypad setting parameters Vector control parameters Door function parameters Running control parameters Protection function parameters Floor parameters Communication parameters Input terminal parameters Elevator function parameters 80 NICE1000 User Manual Function Code Table Basic elevator parameters Factory parameters Output terminal parameters User parameters Enhanced function parameters Leveling adjustment para
153. n KP2 0 100 35 113 Description of Function Codes NICE1000 User Manual Function Code Setting Range Default Property F2 04 Speed loop integral time TI2 0 01 10 00 F2 05 Switchover frequency 2 F2 02 to F0 05 F2 03 and F2 04 are PI regulation parameters when the running frequency is larger than the value of F2 05 Switchover frequency 2 If the running frequency is between F2 02 and F2 05 the speed loop PI parameters are obtained from the weighted average value of the two groups of PI parameters F2 00 F2 01 and F2 03 F2 04 as shown in Figure 7 1 Figure 7 1 Relationship between running frequencies and PI parameters PI parameters F2 00 F2 01 F2 03 F2 04 F2 02 Switchover F2 05 Switchover Frequency frequency 1 frequency 2 reference Hz The speed dynamic response characteristics in vector control can be adjusted by setting the proportional gain and integral time of the speed regulator To achieve a faster system response increase the proportional gain and reduce the integral time Be aware that this may lead to system oscillation The recommended adjustment method is as follows If the default setting cannot meet the requirements make proper adjustment Decrease the proportional gain first to ensure that the system does not oscillate and then reduce the integral time to ensure that the system has quick response and small overshoot If both F2 02 Switchover frequency 1 and F
154. n the surface of the controller to prevent the dust from entering the controller Clear the oil stain on the cooling fan of the controller 8 1 2 Periodic Inspection Perform periodic inspection on the items that are difficult to check during running Periodic inspection involves Check and clean the air filter periodically Check whether the screws become loose Check whether the controller is corroded Check whether the wiring terminals have arc signs Carry out the main circuit insulation test Note Before measuring the insulating resistance with megameter 500 VDC megameter recommended disconnect the main circuit from the controller Do not use the insulating resistance meter to test the insulation of the control circuit The high voltage test need not be performed again because it has been completed before delivery 174 NICE1000 User Manual Troubleshooting 8 1 3 Replacement of Vulnerable Components Vulnerable components of the controller include the cooling fan and filter electrolytic capacitor Their service life is related to the operating environment and maintenance The service life of the two components is listed in the following table Table 8 1 Service life of cooling fan and filter electrolytic capacitor Possible Damage Cause Judging Criteria Check whether there is crack on Bearing worn the blade 2 to 3 years Blade aging Check whether there is abnormal vibration noise upon startup
155. n without creeping The system automatically calculates the optimum speed curve compliant with the human machine function principle based on the distance without being limited by the number of curves or short floor When the elevator cannot respond to hall calls the corresponding terminal outputs the service suspension signal In automatic running state the system automatically Recorded in F9 records the running times of the elevator 05 and F9 06 The system automatically records the accumulative power on time working hours and working days of the elevator Recorded in F9 03 NICE1000 User Manual Introduction If the system detects that the door lock circuit is Automatic door abnormal during door open close the elevator Fb 09 Door open open upon door automatically opens and closes the door again and close protection lock abnormality reports a fault after the set door open close times is times reached When the car is full loaded in automatic running state the elevator does not respond to hall calls from the Full load direct passing floors These halls calls however can still be running registered and will be executed at next time of running in the case of single elevator or by another elevator in the case of parallel control When the car load exceeds the rated elevator load the Overload protection elevator alarms and stops running The system automatically records detailed information Fault data
156. nd 2 show the states of the 16 functions in this parameter The preceding figure shows display of FA 16 LEDs 5 4 and 3 show that function 10 Inspection down is 1 Valid LEDs 1 and 2 show that besides function 10 functions 4 RUN contactor feedback 5 Brake contactor feedback 6 Brake travel switch feedback 7 Shorting PMSM stator contactor feedback and 8 Shorting door lock circuit contactor feedback are valid FA 26 Input state 1 FA 27 Input state 2 No Funcion no Function No Funcion No Function Shorting door lock Door 1 close Reserved circuit contactor Down limit signal dn limit feedback Up leveling signal leveling signal Inspection signal ps OUE don DOO Gee P 99 P 9 signal limit Down leveling Down slow down Door machine 1 10 Inspection up 10 signal signal light curtain 3 Door zone signal 11 Inspection down 3 Overload signal 11 Sid machine A light curtain a contagiar D 43 FVE emergency IN 12 Attendant signal feedback signal 5 Brake contactor 43 IBesemed 5 Emergency stop 13 Direct travel feedback signal ride signal Brake travel T Direction pe e dback Elevator lock m Door 1 open limit 14 preci signal Shorting PMSM Independent 7 stator contactor 15 Up limit signal 7 Door 2 open limit running feedback Ne fusion no Funaion no Funcion Wwe Free 0 poor 2 selection 8 motor overeat 0 MWruoor e Reserved 1 forsin o poor sate edge 1 Fre
157. nd then can start running at low speed after a delay of 3s 5A In low speed running the elevator stops immediately and cannot restart 5B In low speed running the elevator does not stop In normal speed running the elevator stops and then can start running at low speed after a delay of 3s Note Low speed running involves inspection emergency evacuation shaft auto tuning re leveling motor auto tuning base floor detection and running in operation panel control Normal speed running involves automatic running returning to base floor in fire emergency state firefighter operation attendant operation elevator lock and elevator parking 176 NICE1000 User Manual Troubleshooting 8 3 Fault Information and Troubleshooting If an alarm is reported the system performs corresponding processing based on the fault level You can handle the fault according to the possible causes described in the following table Table 8 3 Fault codes and troubleshooting Fault Name Possible Causes Solution Level Code Overcurrent Err02 during acceleration Overcurrent ErrO3 during deceleration The main circuit output is grounded or short circuited Motor auto tuning is performed improperly The load is too heavy The encoder signal is incorrect The UPS running feedback signal is incorrect The main circuit output is grounded or short circuited Motor auto tuning is performed improperly T
158. ndependent running signal active Overload signal active A C E G A E F G A C E 125 Description of Function Codes NICE1000 User Manual Sa Meaning of Seomenon Door lock circuit 1 signal active Door lock circuit 2 signal active G Half load signal active Reserved The following table describes the meaning of the LED segments indicating the I O terminal state in F5 29 NE NE Lg 5 D Door close button active o EE uM DP Table 7 3 Meaning of the LED segments for F5 29 No Segment weaningorSegmemon 8 SWeycrwtsgladwe O D DerbxcmuZsomlade DP Reseed vv B RUN contactor outputa ME N Higher voltage startup of brake active DP Doridesowpuacwe B Drzdweoupiade D low 7 segmentb display outputastve ME UN bP Low 7 segmentaslay ouputactve 126 NICE1000 User Manual Description of Function Codes No e Uparow splay ouputacive 0 Minus sgn assay oututacive or arivalgong oupwtacive B specion optase O D shoring door ook creut contactor output acive lt oe mene Function Code Setting Range Default Property F5 30 Floor I O terminal state display 1 o e F5 31 Floor VO button state display 2 sa Jalle After you enter the F5 30 menu the operation panel displays the state of all floor I O terminals of the system The LEDs are arranged as 5 4 3 2 1 from left to right Figure 7 5 Floor I O termina
159. ng sensor is normal Perform shaft auto tuning again 101 Check that the down slow down switch is valid and that F4 01 Current floor is set to 1 102 Check that the inspection switch is in inspection state 103 104 Perform shat auto tuning 106 107 109 114 Check that NO NC setting of the leveling sensor is set correctly Check whether the leveling plates are inserted properly and whether there is strong power interference if the leveling sensor signal blinks Check whether the leveling plate is too long for the asynchronous motor 4C 108 110 Check whether the running times out No leveling signal is received when the running time exceeds F9 02 111 115 Enable the super short floor function if the floor distance is less than 50 cm If the floor distance is normal check installation of the leveling plate for this floor and check the sensor 112 Check whether the setting of F6 00 Top floor of the elevator is NICE1000 User Manual RUN contactor Err36 feedback abnormal Brake contactor feedback abnormal Encoder signal abnormal Motor overheat 101 The feedback of the RUN contactor is active but the contactor has no output 102 The controller outputs the RUN signal but receives no RUN feedback 103 The startup current of the asynchronous motor is too small 104 When both feedback signals of the RUN contactor are enabled their states are inconsistent 101
160. nning includes the fatigue test of a new elevator car call floor test hall call test and tests Test running such as hall call response forbidden door open close Set in F6 10 forbidden terminal floor limit switch shielded and overload signal shielded Dual speed for inspection Introduction NICE1000 User Manual Fire Emergency and Security Functions Returning to After receiving a fire emergency signal the elevator base floor at fire does not respond to any call but directly runs to the fire emergency emergency floor and waits F6 03 Fire emergency floor After the elevator enters the firefighter running mode door open close is implemented by the jog operation optional by using the door open and close buttons rather than automatically In addition the elevator responds to only car calls and only one call can be registered once F6 68 Fire emergency function selection Firefighter running In automatic running state when the elevator lock switch acts or the set elevator time is reached the Elevator lock elevator cancels all registered calls returns to the elevator lock floor stops running and turns off the lamp and fan in the car F6 04 Elevator lock floor Faults are classified into different levels based on the severity Different levels of faults are rectified using different methods Troubleshooting based on fault level Refer to Chapter 8 The system detects the running state of the ele
161. non door zone in the inspection state Bit Door open and close once after inspection turned to normal Bit8 Reserved Bit9 Independent running Bit10 Reserved Bit11 Door re open after car call of the present floor Bit12 Bit15 Reserved ll 104 NICE1000 User Manual Function Code Table ww ww m oos fe Leveling adjustment 0 Disabled Fr 00 function 1 Enabled Fr o1 Leveling adjustment 00000_60060 30030 record 1 Fr02 Leveling adjustment 00000 60060 30030 mm record 2 peog Leveling adjustment 50605 6006 30030 mm k record 3 Fr oa Leveling adjustment 00000 60060 30030 mm record 4 Fr 05 Leveling adjustment 00000_60060 30030 mm record 5 Fr o6 Leveling adjustment 50606 6006 30030 mm record 6 Fr07 Leveling adjustment 50605 60060 30030 mm m record 7 Frog Leveling adjustment 00000 60060 30030 mm record 8 Group FP User Parameters 0 65535 FP OO User password Ww 00000 no password 0 No operation Parameter update 1 Restore default settings 2 Clear fault records defi 0 Invalid FP 02 User defined Pa parameter display 1 Valid 105 Function Code Table NICE1000 User Manual 106 Description of Function Codes Description of Function Codes NICE1000 User Manual Chapter 7 Description of Function Codes The modification property of the parameters includes three types d
162. not running e 1 UPS e 2 48 V battery power supply 146 NICE1000 User Manual Description of Function Codes For details see section 5 2 1 Function Code Setting Range Default Property F8 11 Brake apply delay 0 200 1 500 0 200 It is used to set the time from the moment when the system sends the brake apply command to the moment when the brake is completely applied For details see Figure 7 3 Function Code Setting Range Default Property F8 12 Fire emergency floor 2 0 to F6 00 Poo It is used to set the second fire emergency floor The switchover between fire emergency floor 1 and fire emergency floor 2 is implemented by means of input from the MCB When this signal is input the elevator enters the fire emergency state and returns to this floor Function Code Setting Range Default Property BitO Disabled Anti nuisance Bit1 Judged by light curtain function Bit 2 Judged by light load signal It is the criteria for judging whether nuisance exists BitO Anti nuisance function disabled e Bit1 Nuisance judged by light curtain The system determines that nuisance exists when the light curtain does not act after the elevator stops at arrival for three consecutive times Bit2 Nuisance judged by light load signal If the light load signal is active the system determines that nuisance exists when the number of car calls is greater than a certain value When the system determines that the eleva
163. nt detection fault 19 Err19 Motor auto tuning fault To be continued 98 NICE1000 User Manual Function Code Table Designated fault 20 Err20 Speed feedback incorrect 21 Reserved 22 Err22 Leveling signal abnormal 23 Reserved 24 Err24 RTC clock fault 25 Err25 Storage data abnormal 26 Err26 Earthquake signal 27 28 Reserved 29 Err29 Shorting PMSM stator feedback abnormal 30 Err30 Elevator position abnormal 33 Err33 Elevator speed abnormal 34 Err34 Logic fault 35 Err35 Shaft auto tuning data abnormal 36 Err36 RUN contactor feedback abnormal 37 Err37 Brake contactor feedback abnormal 38 Err38 Encoder signal abnormal 39 Err39 Motor overheat 40 Err40 Elevator running reached 41 Err41 Safety circuit disconnected 42 Err42 Door lock disconnected during running 43 Err43 Up limit signal abnormal 44 Err44 Down limit signal abnormal 45 Err45 Slow down switch position abnormal To be continued 99 Function Code Table NICE1000 User Manual 46 Err46 Re leveling abnormal 4T Err47 Shorting door lock circuit contactor abnormal 48 Err48 Door open fault 49 Err49 Door close fault 50 Consecutive loss of leveling signal 53 Err53 Door lock fault 54 Err54 Overcurrent at Designated fault inspection startup 55 Err55 Stop at another landing floor 57 Err57 SPI communication abnorma
164. ntrol 0 65535 selection 2 F6 66 Program control 0 65535 selection 3 F6 67 Attendant function 0 65535 selection Eod Plo emergency 0 65535 16456 function selection F6 69 Emergency evacuation 0 65535 function selection 90 NICE1000 User Manual Function Code Table Function Parameter Name Setting Range Default Unit Code F6 72 Emergency evacuation 010_0 630 0 010 m s switching speed F6 73 Evacuation parking 0 to F6 00 floor F6 74 Blinking advance time 0 0 15 0 Waiting time for switchover from F6 75 shorting stator braking 0 0 45 0 20 0 mode to controller drive Group F7 Output Terminal Parameters YO designated for function F 00 YO function selection 32 emergency evacuation at power failure Range 00 05 or 32 F7 01 Y1 function selection 00 Invalid 01 RUN contactor output 02 Brake contactor control F 02 Y2 function selection 03 Higher voltage startup of brake 04 Lamp Fan running F7 03 Y3 function selection 05 Shorting PMSM stator F7 04 Y4 function selection Invalid Door 1 open output F7 05 Y5 function selection EA ia Door 2 open output Door 2 close output pezos etuncionselecion segmenta dISpiay output 11 Low 7 segment b display output F7 07 Y7 function selection 12 Low 7 segment C display output 13 Low 7 segment d display output F7 08 Y8 function selection To be continued 91 Property S S X e e EI pop pe poe po fe
165. o 1 to allow overload running note that this function has potential safety risks and use it with caution 20 Full load signal When the elevator load is 8096 to 11096 of the rated load the hall display board displays the full load state and the elevator does not respond to hall calls 21 Emergency stop safety feedback signal The safety circuit is important to guarantee safe running of the elevator 22 Door 1 open limit signal 23 Door 2 open limit signal The terminal with this function is used to receive the corresponding door open limit signal 121 Description of Function Codes NICE1000 User Manual 24 Door 1 close limit signal 25 Door 2 close limit signal The terminal with this function is used to receive the corresponding door close limit signal 26 Door machine 1 light curtain signal 27 Door machine 2 light curtain signal The terminal with this function is used to receive the corresponding light curtain signal 28 Attendant signal The elevator enters the attendant operation state after this signal is active 29 Direct travel ride signal The elevator does not respond to hall calls when this signal is active in attendant state 30 Direction change signal The elevator changes the running direction when this signal is active in attendant state 31 Independent running signal The elevator exits the parallel control mode when this signal is active 31 Door 2 selection signal If the door open close is contro
166. odels of below 37 kW Three phase AC power supply Safety contactor R S T ppg L DEEP Jumper bar For models of 37 kW and above EP sie eD CD Braking unit MDBUN Table 3 1 Description of main circuit terminals s Prase powerinput Provide three phase power supply terminals Positive and negative Connect the external braking unit and energy feedback i terminals of DC bus unit for models of 37 kW and above not remove the jumper bar U V W ontroer odiput Connect the three phase motor terminals Grounding terminal Must be grounded PB Connect the braking resistor for models of below 37 kW Terminals for connecting P Connect the DC reactor for models of 37 kW PB P and above braking resistor At delivery the and P terminals are shorted with the jumper bar If you need not connect the DC reactor do 37 Mechanical and Electrical Installation NICE1000 User Manual B Description of Control Circuit Terminals The following figure shows control circuit terminal arrangement Figure 3 6 Control circuit terminal arrangement Table 3 2 Description of control circuit terminals Function Description Terminal Arrang
167. oe end jerk o 300_4 000 2 500 83 Function Code Table NICE1000 User Manual F3 05 0 200 0 800 0 800 mis F3 06 Deceleration end jerk o 300_4 000 2 500 time F3 07 oe start jerk o 300 4 000 2 500 F3 08 m deceleration o 200 2 000 0 500 s F3 09 Pre deceleration 0_900 dy distance F3 10 Re leveling speed 0 000 0 080 0 040 EE F3 11 inspection speed 0 100 0 500 0 250 down down F3 14 Zero speed control o 000_1 000 0 200 time at startup F3 15 Brake release delay 0 000 2 000 0 600 Fa 16 4ero speed contro 5 555 1 ooo 0 300 s time at end Fa 17 Low speed re leveling 080 to F3 11 0 100 speed Na EE ME OE 400 0 300 emergency evacuation Group F4 Floor Parameters F4 00 Leveling adjustment e ET EES F4 01 Current floor F6 01 to F6 00 paga PA byle or purent 1565535 Pulses floor position Enos E9wbMebreumenb 34464 Pulses floor position F404 Length 1ofleveling 65585 Pulses x plate ee Pulses X plate pagg Lun byte er doer 0 65535 Puses x height 1 Exp IBI byie er Hoer 0 65535 Puses x height 2 84 NICE1000 User Manual Function Code Table F4 09 byte of floor height 0 65535 0 uses F4 10 High byte of floor 0 65535 Pulses height 3 Eat byte of floor height 0_65535 F4 12 High byte of floor 0 65535 Pulses height 4 F4 13 al byte of floor height 0 65535 F4 14 High byte of floor 0 65535 Pulses height 5 F4 15
168. of peripheral electrical devices Part Mounting Location Function Description Forefront of controller Cut off the power supply of the controller and power input side provide short circuit protection Apply Cut off the power supply of the controller Safety Between MCCB and the BE p PRY contactor controller input side The close open of the contactor is controlled by the external safety circuit Improve the power factor of the input side Eliminate the higher harmonics on the input side to Controller input side provide effective protection on the rectifier bridge AC input reactor Eliminate the input current unbalance due to unbalance between the power phases AC Between the controller If the distance between the controller and the output output side and the motor motor is greater than 100 m install an AC output reactor close to the controller reactor 3 4 2 Selection of Peripheral Electrical Devices Proper cable specification and cabling greatly improves anti interference capability and safety of the system facilitating installation and commissioning and enhancing system running stability The following table describes the specifications of peripheral electrical devices for selection 45 Mechanical and Electrical Installation NICE1000 User Manual Table 3 9 Specification of peripheral electrical devices for selection Cable of Main Cable of Control Grounding Cable A A Circuit mm Circuit mm mm
169. oling effect reduces due to thin air it is necessary to de rate the controller Contact Monarch for technical support 11 Disposal The electrolytic capacitors on the main circuits and PCB may explode when they are burnt Poisonous gas is generated when the plastic parts are burnt Treat them as ordinary industrial waste 12 Adaptable motor The controller is adaptable to squirrel cage asynchronous motor or AC PMSM Select a proper controller according to motor nameplate The default parameters configured inside the controller are squirrel cage asynchronous motor parameters It is still necessary to perform motor auto tuning or modify the default values based on actual conditions Otherwise the running effect and protection performance will be affected For PMSM motor auto tuning must be performed 13 Precautions on selecting residual current circuit breaker RCCB Tripping may be caused if an improper RCCB is selected when the controller drives the motor This is because the output wave of the controller has high harmonics and the motor 19 Safety Information and Precautions NICE1000 User Manual cable and the cable connecting the controller and the motor produce leakage current which is much larger than the current when the motor runs at the mains frequency Thus it is necessary to determine the proper RCCB sensitivity based on the general leakage current of the cables and the motor The leakage current is dependent on th
170. om the bottom leveling position 3 6 4 Installation of Final Limit Switches The final limit switch is to protect the elevator from over travel top bottom terminal when the elevator does not stop completely upon passing the up down limit switch The up final limit switch is mounted above the up limit switch It is usually 150 mm away from the top leveling position The down final limit switch is mounted below the down limit switch It is usually 150 mm away from the bottom leveling position 50 NICE1000 User Manual Figure 3 11 Electrical wiring diagram of the NICE1000 control system Cables Q eooo00000000 eoo00000000 DA o Safety contactor MCTC KZ D Three phase eD iene eant RE E outpu extension car PPly e CN3 CN4 24 VDC e
171. on of F1 06 shall be within 5 which indicates that the auto tuning is successful c With load auto tuning learns stator resistance shaft D and shaft Q inductance current loop including zero servo Pl parameters and encoder initial angle No load auto tuning additionally learns the encoder wiring mode d After wiring phase sequence of the motor is changed or the encoder is replaced perform motor auto tuning again 3 For asynchronous motor With load auto tuning learns stator resistance rotor resistance and leakage inductance and automatically calculates the mutual inductance and motor magnetizing current No load auto tuning learns the mutual inductance motor magnetizing current and current loop parameters EU NICE1000 User Manual System Commissioning and Application Example 4 The motor wiring must be correct UVW cables of the motor are connected respectively to UVW terminals of the controller If the motor wiring is incorrect in the with load auto tuning mode the motor may jitter or may fail to run and report Err20 subcode 3 To solve the problem replace any two of motor UVW cables B Output State of RUN and Brake Contactors For the sake of safety in different control modes the system handles the output commands to the RUN contactor or brake contactor differently In some situations it is necessary to release the RUN contactor or the brake contactor manually The following table lists the output state of
172. on panel and the running speed is set by F0 02 Running speed under operation panel control This method is applicable only to the test or motor no load auto tuning 108 NICE1000 User Manual Description of Function Codes 1 Distance control This method is used in the NICE series integrated elevator controller During inspection the elevator runs at the speed set in F3 11 Inspection speed During normal running the controller automatically calculates the speed and running curve for the elevator based on the distance between the current floor and the target floor within the rated elevator speed implementing direct travel ride Function Code Setting Range Default Property F0 02 UBI spoed uncer 0 050 to F0 04 0 050 mis operation panel control It is used to set the running speed in the operation panel control mode Note that this function is enabled only when FO 01 is set to O Operation panel control You can change the running speed of the elevator by modifying this parameter during running Function Code Parameter Name Setting Range Default Property F0 03 Maximum running speed 0 200 to F0 04 0 480 It is used to set the actual maximum running speed of the elevator The value must be smaller than the rated elevator speed Function Code Setting Range Default Property F0 04 Rated elevator speed 0 200 1 750 0 500 It is used to set the norminal rated speed of the elevator The value of this para
173. on the top of the car The NICE1000new system supports a maximum of three leveling switches by default a leveling switch is used The leveling plate is installed on the guide rail in the shaft A leveling plate needs to be installed at each floor Ensure that leveling plates at all floors are mounted with the same depth and verticality The following figure shows the installation of leveling signals Figure 3 13 Installation of leveling signals Leveling switch Leveling plate Door zone Signal detection _ Car The following table describes the installation requirements of leveling switches Table 3 10 Installation requirements of leveling switches Number of Leveling Installation Method Switches Connecting to Input Terminals of Setting of Function Controller Code F5 01 03 NO Door zone signal Door zone _ signal detection F5 01 103 pru normally closed NC 424 VDC Up leveling X22 F5 22 101 NC Up leveling MM X23 signal detection ownm eveing X24 F5 24 102 NC X22 and X24 are recommended 24 VDC Down leveling X22 F5 22 01 NO ignal detecti Up leveling signal detection 1 Ee Down leveling X24 F5 24 02 NO X22 and X24 are recommended
174. only by holding down the door close button until the door close limit is reached Otherwise it will be switched over to door open automatically it9 Dispiayid nall cae in Hall calls are displayed in the fire emergency state fire emergency state i Closing door by Bit6 holding down the door close button T Exiting fire emergency The system can exit the fire emergency state only state for firefighter after the elevator arrives at the fire emergency floor Not clearing car calls Bit12 at reverse door open In the firefighter running state the car calls that have in firefighter running been registered are not cleared at reverse door open state In the fire emergency state the door open process can be completed only by holding down the door open button until the door open limit is reached Otherwise it will be switched over to door close automatically Bit15 Automatic door open The door opens automatically after the elevator arrives in fire emergency floor at the fire emergency floor Function Code Setting Range Default Property F6 69 Emergency evacuation 065535 T function selection Each bit of the function code defines a function as described in the following table Opening door by it14 holding down the door open button B B B If a bit is set to 1 the function indicated by this bit is enabled if this bit is set to O the function is disabled For details on how to view and set this function code in bit r
175. ontrol mode TT Stop the controller when it is in the running state and p perform the reset operation when it is in the fault state 53 Select the displayed parameters in turn in the stop or Shift running state and select the digit to be modified when modifying parameters Use of the Commissioning Tools NICE1000 User Manual Enter or exit Level l quick menu Eat hidin Press this key to display or hide the fault information in 9 the fault state which facilitates parameter viewing 4 1 3 Operation Procedure The LED operation panel adopts three level menu The three level menu consists of function code group Level function code Level Il and function code setting value level Ill as shown in the following figure Figure 4 2 Operation procedure on the operation panel Status parameter Level menu i If there is a blinking digit press default display Udo group Ion A VI to modify the digit PRG FO I p e 0 000 ems e T vl vl Level ll menu Select the PRG FO 06 __ENTER F0 07 ENTER function code l y l T Ts ancien acy p code Level Ill menu PRG 50 00 Bealls e oo Set the value of Not to save To save the function code the setting the setting You can return to Level Il menu from Level Ill menu by pressing o Or o The difference between the two is as follows e After you press o the system saves the p
176. oor 7 down call 258 Door 1 floor 8 down call 252 266 Door 1 down call 259 Door 1 floor 9 down call 260 Door 1 floor 10 down call 261 Door 1 floor 11 down call 262 Door 1 floor 12 down call 263 Door 1 floor 13 down call 264 Door 1 floor 14 down call 265 Door 1 floor 15 down call 266 Door 1 floor 16 down call 301 303 Door 2 open close 304 Door 2 selection button indicator 301 399 Door 2 These values are defined in the control same way as those of door 1 parameters 331 345 Door 2 up call 346 351 Reserved 352 369 Door 2 down cal 370 399 Reserved 137 Description of Function Codes NICE1000 User Manual Function Code Parameter Name Setting Range Default Property F6 61 Leveling sensor delay 10 50 It is used to set the delay time from the action time of the leveling sensor to the time when the leveling signal becomes active You need not modify this parameter Function Code Setting Range Default Property running It is used to set the time interval between two times of random running Function Code Setting Range Default Property F6 64 Program control 0 65535 di selection 1 F6 65 Frogram control 0_65535 FS selection 2 F6 66 Program control 065535 k selection 3 These parameters are used to set program control functions Each bit of the function code defines a function as described in the following table If a bit is set to 1 the function indicated by t
177. oor open Fb 03 Holding time of manual 1 60 door open 0 65535 0 Forbid door open Fb 04 Service floors of door i machine 2 1 Allow door open Valid only when there are two door machines Delay at stop after 05 0 00 2 00 re leveling time 5 0 65535 BitO Bitd Reserved Boram cona Bit5 Synchronous motor Fb 07 gre current detection selection Bit6 Bit12 Reserved Bit13 Higher voltage Lower voltage 1 5s detection Fb 08 Door close protection 5 99 time 0 20 Fb 09 Door open close protection times 0 Invalid 0 Closing the door as normal at base floor Door state of standby 1 Waiting with door open at Fb 10 elevator base floor 2 Waiting with door open at each floor X X Fb 11 Door open holding time 1 1000 for hall call Fb 12 Door open holding time 1 1000 for car call Fb 13 Door open holding time 10 1000 upon open delay valid Fb 14 Door open holding time 11000 at base floor Fb 15 Arrival gong output 0 1000 delay 96 NICE1000 User Manual Function Code Table Fb 16 Door lock waiting time 0 50 S X at manual door Fb 17 Holding time for forced 5 180 120 S ps door close Yo Group FC Protection Function Parameters 0 65535 BitO Short circuit to ground detection at power on Bit1 Canceling current detection at inspection startup FC 00 Program control for Nu protection function Bit2 Decelerating to stop at valid light curtain Bit3 Password ineffective if no o
178. or The system reports fault Err55 When the door fails to close within the set time due to the action of the light curtain or safety edge the elevator enters the forced door close state closes the door slowly and gives a prompt tone You can enable or disable the system service for Set in F6 05 certain floors flexibly based on actual requirements Enabled when Bit9 of FE 13 is 1 and independent running input of The elevator does not respond to any call and the door needs to be closed manually In the case of group control the elevator runs independently out of the group control system In attendant state the running of the elevator is controlled by the attendant When the elevator is in non inspection state and stops at non leveling area the elevator automatically runs to the leveling area at low speed if the safety requirements are met and then opens the door the MCB is active You can set whether the system keeps outputting commands after door open limit and door close limit based on the type of the door machine After the elevator arrives at the destination floor the CTB gives a prompt tone The system automatically implements startup torque compensation based on the current car load achieving Set in F8 01 smooth startup and improving the riding comfort The system automatically calculates and generates the running curves based on the distance enabling the elevator to directly stop at the leveling positio
179. orbidden Bit1 Door open forbidden Test function selection Bit2 Overload forbidden Bit3 Limit forbidden Function Code F6 09 Unit Property F6 11 F6 12 F6 13 F6 14 F6 15 F6 16 F6 17 F6 18 F6 19 F6 20 F6 21 F6 22 F6 23 F6 24 F6 25 F6 26 F6 27 F6 28 F6 29 F6 30 F6 31 F6 32 F6 33 F6 34 F6 35 F6 36 F6 37 F6 38 L28 function selection x o EE aaa o x L1 function selection L2 function selection N O CD N D gt L3 function selection L4 function selection L5 function selection L6 function selection L7 function selection L8 function selection L9 function selection L10 function selection L11 function selection L12 function selection L13 function selection N CD N L14 function selection N CD CD L15 function selection 00 Invalid L16 function selection 200 399 L 17 function selection NO BM BD O1 O1 CQ OND L18 function selection N C gt L19 function selection N C C1 L20 function selection L21 function selection L22 function selection L23 function selection L24 function selection L25 function selection L26 function selection L27 function selection 89 Function Code Table NICE1000 User Manual w EI F6 59 L49 function selection F6 60 L50 function selection F6 61 Leveling sensor delay 10 50 F6 62 Time interval of random 0 1000 running F6 64 Program control 0 65535 selection 1 F6 65 Program co
180. output controls a display bit In the NICE1000 the output parameter of each display bit is based on the parameter setting of 7 segment code as described in the following table 167 Description of Function Codes NICE1000 User Manual Parameter of Output Y Parameter of Output Y Low Bito 10 Low 7 segment a display Low Bit3 13 Low 7 segment d display output output Low Bit 11 Low 7 segment b display High bits 28 High bit output of BCD output Gray 7 segment code Low Bit2 12 Low 7 segment c display output Binary code A Y output controls a display bit In the NICE1000 the output parameter of each display bit is based on the parameter setting of 7 segment code as described in the following table Bit Parameter of Output Y BitO 10 Low 7 segment a display output e DtowTseomencdepyowut o o O One to one output A Y output is used for the display of each floor In the NICE1000 the output parameter of each floor display is based on the parameter setting of 7 segment code as described in the following table 1 tow 7 segmenta isplay ouput 9 42 Hioh 7 seoment b display output 28 High bit output of BCD Gray 41 High 7 segment a display output 7 segment code Function Code Parameter Name Setting Range Default Property FE 13 Elevator function selection 1 065535 o Each bit of the function code defines a function as described in the following table EN If a bit i
181. ower Supply The ARD is a emergency evacuation device with the self recognition and control functions It is connected between the mains supply and the elevator control cabinet When the mains supply is normal it supplies power to the elevator When the mains supply is interrupted the ARD supplies power to the main circuit and control circuit The following figure shows the schematic diagram Figure 5 9 Three phase emergency ARD power supply ONSE ARD for m emergency leveling Elevator control cabinet ox at power failure L19 e LI R R NICE1000 L2 L2 So S La 9 o L3 T Li o T Emergency 1 evacuation 2 T X19 signal output 9 24V Phase shorting 3 1 4 Phase relay output O 14 ARD 3 4 Phase relay 11 14 Safety circuit 110 V gt gt e o o o co X25 MCB ARD 1 2 Emergency y feedback 24 V Figure 5 10 Single phase emergency ARD power supply X19 MCB Ewe ARO Elevator control cabinet distribution emergency leveling box at power failure NICE 1000 L19 1 LO i R N19 o Ni No S he oT Emergency 1 evacuation 9 X19 signal output 2 Bau ARD Emergency k feedback 24 V Z X19 MCB 72 NICE1000 User Manual System Commissioning and Application Example The related configu
182. own timit 101 The down limit switch Check whether the down limit O acts when the elevator switch is in d tact Err44 signal i epit JOUG OMAGE 4C abnormal P EE an Check whether the limit switch amecilon is installed at a relatively high position and thus acts even when the elevator arrives at the terminal floor normally 186 NICE1000 User Manual Troubleshooting 101 The down slow down 101 to 103 distance is insufficient during shaft auto tuning Check whether the up slow down and the down slow down 102 The up slow down are in good contact distance is insufficient Slow down during shaft auto tuning en hi e bei d Err45 switch position 103 The slow down Portae UR Slow downan 4B a the down slow down abnormal position is abnormal during normal running 104 105 104 105 The elevator Ensure that the obtained slow down distance satisfies the slow down requirement at the elevator speed speed exceeds the maximum speed when slow down is enabled 101 The leveling signal is inactive during re leveling 101 Check whether the leveling 102 The re leveling running signal ihormak speed exceeds 0 1 m s 102 Check whether the encoder 103 At startup of normal iS Usea propery speed running the re 103 104 Err46 Rerleveling leveling state is valid and Check whether the signal of 2B abnormal there is shorting door lock the leveling sensor is normal Sou ada Check the signal feature NO 104 Durin
183. p at another running of the elevator Err55 the door open limit is not landing floor achieved at the present floor 101 102 The SPI Serial communication is peripheral abnormal No correct data Err57 interface SPI is received with 2s of DSP communication Communication abnormal 103 The MCB does not match the AC drive Troubleshooting 101 Check the communication cable connection Check whether the 24 V power supply of the controller is normal Check whether the HCB addresses are repeated Check whether strong power interference on communication exists 101 Check whether the door lock circuit is normal Check whether the feedback contact of the door lock contactor acts properly Check whether the system receives the door open limit signal when the door lock signal is valid 102 Check whether when the hall door lock signal and the car door lock signal are detected separately the detected states of the hall door locks and car door lock are inconsistent Reduce the load e Change Bit1 of FC 00 to 1 to cancel the startup current detection function 101 Check the door open limit signal at the present floor 101 102 Check the wiring between the control board and the drive board 103 Contact the agent or Monarch 189 Troubleshooting NICE1000 User Manual ren Name Possible Causes Solution Level Code 101 102 Check whether the states
184. pecifies the communication timeout time of the serial port Transmission of each frame must be completed within the time set in this parameter otherwise a communication fault occurs 165 Description of Function Codes NICE1000 User Manual Function Code Setting Range Default Property Fd 03 Number of elevators in 12 1 parallel control mode These two parameters are used to set the quantity and No of the elevators in parallel control mode Function Code Setting Range Default Unit Property Fd 05 Parallel control function po Dispersed waiting 4 selection When BitO 1 the elevator does not return to the base floor one elevator waits at the base floor and the other waits at a non base floor Group FE Elevator Function Parameters Function Code Parameter Name Setting Range Default 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 The elevator responds to down hall calls but does not respond to up hall calls 2 Up collective selective The elevator responds to hall up calls but does not respond to hall down calls 166 NICE1000 User Manual Function Parameter ng 11 FE 01 Floor 1 display FE 02 Floor 2 display FE 03 Floor 3 display FE 04 Floor 4 display The two high digits indicate the display code o
185. peration within 30 minutes Bit4 Bit9 Reserved 0 65535 BitO Overload protection Bit1 Canceling protection at output phase loss Bit2 Canceling over modulation Bit3 Reserved Bit4 Light curtain judgment at I Program control 2 for door close limit protection function Bit5 Canceling SPI communication judgment Bit Reserved Bit8 Reserved Bit9 Canceling Err55 alarm Bit10 Bit13 Reserved Bit14 Canceling protection at input phase loss Fc o2 Overload protection 5 1556 1 coefficient FC 03 Overload pre warning 50_100 coefficient zr Function Code Table NICE1000 User Manual FC 04 Designated fault 0 9999 High two digits indicate the floor number and low two digits indicate the fault code For example if Err30 occurs at floor 1 0130 is displayed 0 No fault 1 Reserved 2 Err02 Over current during acceleration 3 Err03 Over current during deceleration 4 Err04 Over current at constant speed 5 Err05 Over voltage during acceleration 6 Err06 Over voltage during deceleration 7 Err07 Overvoltage at constant speed 8 Reserved 9 Err09 Undervoltage 10 Err10 Controller overload 11 Err11 Motor overload 12 Err12 Power supply phase loss 13 Err13 Power output phase loss 14 Err14 Module overheat 15 Err15 Output abnormal 16 Err16 Current control fault 17 Err17 Reference signal of the encoder incorrect 18 Err18 Curre
186. position angle and the accumulative angle is too large The motor cannot rotate properly The motor auto tuning times out The encoder for the PMSM fails 181 Troubleshooting reu Name Possible Causes Solution Level Code Check whether the encoder runs properly Check whether the encoder wiring is correct and reliable Check whether the PG card wiring is correct Check whether the grounding of the control cabinet and the motor is normal Enter the motor parameters ned Check the motor wiring and whether phase loss occurs on the contactor at the output side Check the encoder wiring and ensure that the encoder PPR is set properly Check whether the brake keeps released during no load auto tuning Check whether the inspection button is released before the PMSM with load auto tuning is finished Troubleshooting Speed Err20 feedback incorrect Leveling signal abnormal Storage data abnormal 1 AB signals are lost during auto tuning 3 The phase sequence of the motor is incorrect 4 Z signal cannot be detected during auto tuning 5 The CD signal cables of the SIN COS encoder break 7 The UVW cables of the UVW encoder break 8 The angle deviation is too large 9 Overspeed occurs or the speed deviation is too large 10 11 AB signals or CD signals of the SIN COS encoder are interfered with 12 The detected speed is O at torque limit
187. que gain when the elevator runs on the drive side or the brake side For details see section 5 1 5 Function Code Setting Range Default Property F8 05 Current car load 0 255 00 This parameter is read only and reflects the load situation in the car The value is sampled by the NICE1000 by using a load cell This parameter is used to judge overload or full load or calculate the torque current for load cell pre torque compensation Function Code Setting Range Default F8 06 Car no load load 0 255 F8 07 Car full load load 0 255 00 These two parameters respectively specify the car no load load and full load load They are AD sampling values Note If F8 06 F8 07 the full load and overload become invalid Function Code Setting Range Default Property i 0 MCB digital samplin F8 08 Load cell input g p S X selection 1 MCB analog sampling It is used to set the channel of elevator load cell signals Set this parameter correctly before using the load cell device Function Code Setting Range Default Property F8 09 EN un eu a 0 000 to F3 11 0 050 mis operation speed at power failure It is used to set the speed for emergency evacuation operation at power failure Function Code Setting Range Default Property F8 10 Emergency evacuation 0 2 T operation mode at power failure It is used to set the emergency evacuation operation mode at power failure 0 Motor
188. r scheme Code F5 20 X20 function selection 7 Allocate X20 vue the input Shorting PMSM stator feedback F7 03 V3 funcion Selection 05 Allocate Y3 with Shorting PMSM stator contactor FE 14 Elevator function Bit10 0 NC output contactor selection 2 Bit10 1 NO output contactor More details on the emergency evacuation setting are provided in F6 69 as listed in the following table Table 5 7 Parameter description of F6 69 Function TF If the torque ec TEM direction is direction Direction ei Direction Automatically determining of y calculated the no determine calculating based on nearest load cell function must be enabled that is F8 01 is set to 2 i Stop at the base floor sa Bit2 Stop position EJ Stop at nearest landing floor N mode the direction load cell landing data or half floor load signal 74 NICE1000 User Manual System Commissioning and Application Example Function Bit10 Bi Startup compensation Emergency evacuation running time protection Emergency buzzer output Shorting stator braking mode t12 switched over to controller drive Mode of shorting stator braking mode switched over to controller drive Emergency Bit14 evacuation exit mode Function selection of BIS shorting stator braking mode Startup torque compensation valid in emergency evacuation running If the elevator does not arrive at the required floor after 50s
189. rameters appropriately increase the values of F3 15 and F8 11 to check whether the brake release time influences the riding comfort Function Code Setting Range Default 0 Pre torque invalid 1 Load cell pre torque Set this parameter Pre torque l F8 01 i compensation based on actual selection i 2 Automatic pre torque CSET he compensation F2 44 Zero Servo current 0 20 50 0 15 096 These are zero coefficient servo regulating parameters when F2 12 ag speed o 0p 2 go F8 01 is set to p 2 Automatic F2 13 Zero servo speed 0 00 2 00 pre torque loop KI compensation When F8 01 is set to 2 Automatic pre torque compensation the system automatically adjusts the compensated torque at startup a Gradually increase F2 11 Zero servo current coefficient until that the rollback is cancelled at brake release and the motor does not vibrate b Decrease the value of F2 11 Zero servo current coefficient if the motor jitters when F2 13 Zero servo speed loop TI is less than 1 00 c Motor vibration and acoustic noise indicate excessive value of F2 12 Zero servo speed loop KP Decrease the default value of F2 12 d Ifthe motor noise is large at no load cell startup decrease the value of F2 12 or F2 13 SET System Commissioning and Application Example NICE1000 User Manual F8 02 Pre torque offset 0 0 100 0 50 0 These are pre torgue de UEM 060 regulating parameters When F8 01 is set to 1 Load cell pre
190. ration and description is as follows Select the ARD with the nominal output power equal to or larger than the rated motor power Monarch 380V ARD outputs the single phase emergency voltage between the R and T phases to the control cabinet Note that for ARDs of other brands the phases that output the emergency voltage may be different Table 5 5 Parameter setting under the ARD scheme F6 72 Emergency evacuation switching speed 0 010 0 630 m s F6 73 Evacuation parking floor 0 to F6 0 F8 09 Emergency evacuation operation speed 0 000 to F3 11 at power failure F3 18 Emergency evacuation acceleration rate 0 100 1 300 m s 0 Invalid 1 UPS 2 48 V battery power supply F5 19 X19 X19 function selection 33 UPS valid signal B Shorting PMSM Stator Shorting PMSM stator means shorting phases UVW of the PMSM which produces resistance to restrict movement of the elevator car In field application an auxiliary NC contact is usually added to the NO contact of the output contactor to short PMSM UVW phases to achieve the effect It is feasible in theory but may cause overcurrent actually Due to poor quality of the contactor and wiring of adding the auxiliary contact the residual current of the controller is still high when the outputs UVW are shorted at abnormal stop This results in an overcurrent fault and may damage the controller or motor Emergency evacuation operation mode F8 10 at power failure Monarch s shorting P
191. ravel switch feedback signal 1 06 Brake travel switch feedback signal 1 07 Shorting PMSM stator contactor feedback signal 08 Shorting door lock circuit contactor feedback 09 Inspection signal 10 Inspection up signal 11 Inspection down signal 12 First fire emergency signal To be continued 86 NICE1000 User Manual XT function selection X8 function selection X9 function selection X10 function selection X11 function selection X12 function selection X13 function selection X14 function selection X15 function selection X16 function selection X17 function selection X18 function selection X19 function selection X20 function selection Reserved Elevator lock signal Up limit signal Down limit signal Up slow down signal Down slow down signal Overload signal Full load signal Emergency stop safety feedback signal 22 Door 1 open limit signal 23 Door 2 open limit signal 24 Door 1 close limit signal 25 Door 2 close limit signal 26 Door machine 1 light curtain signal 27 Door machine 2 light curtain signal 28 Attendant signal 29 Direct travel ride signal 30 Direction change signal 31 Independent running signal Door 2 selection signal UPS valid signal Door open button Door close button Safety circuit Door lock circuit 1 Door lock circuit 2 Half load signal Motor overheat signal 41 Door machine 1
192. rding to your requirements Refer to section 5 2 3 in Chapter 5 If the door lock is not applied after the elevator performs door close for a certain time the elevator Fb 08 Door close automatically opens the door and then closes the door protection time repeatedly Repeat door close The systems implements automatic accurate leveling Auto leveling based on the floor pulse counting and up down leveling feedback signals The system allows the elevator to automatically respond to calls from the service floors during acceleration Response at acceleration In automatic running state the elevator automatically returns to the set parking floor and waits for passengers if there is no car call or hall call within the set time Idle elevator returning to base floor F9 00 Idle time before returning to base floor Introduction Landing at another floor Forced door close Service floor setting Independent running Attendant running Low speed self rescue Door control function Car arrival gong Automatic startup torque compensation Direct travel ride Automatic generation of optimum curve Service suspension output Running times recording Running time recording NICE1000 User Manual If the door open time exceeds the door open protection time but the door open limit signal is still inactive the elevator closes the door and then automatically runs to the next landing flo
193. rection every time it receives a leveling signal and clears the accumulative error 4 Leveling sensor abnormal The related faults include sensor failure or sensor stuck The controller judges whether a fault occurs based on the leveling signal change If the leveling signal does not change within the set time the system reports an alarm 5 Floor data abnormal The system stores the floor information through the shaft auto tuning If the floor data is abnormal the system prompts the fault information at the first time running During actual running the controller continuously compares position information input by Dis with the stored floor data If the deviation is large the system reports an alarm J Product Information Product Information NICE1000 User Manual Chapter 2 Product Information 2 1 System Configuration of the NICE1000 The NICE1000 series integrated elevator control system combines the functions of both elevator controller and high performance vector control AC drive As a high performance vector drive and control elevator system it meets the standard applications of the elevator Users can also configure the optional door pre open module and remote monitoring system to meet requirements for more intelligent applications The following figure shows the system components Figure 2 1 System components of the NICE1000 NICE1000 integrated elevator controller poy Ha
194. requency Bit13 Input terminal 3 state ME Bit6 Current floor Bit14 Output terminal 1 state Bit7 Current position Bit15 Output terminal 2 state LO Function Code Setting Range Default Property FA 02 Display in stop state 1 65535 65535 EMEN It is used to set the parameters displayed on the keypad when the elevator is in the stop state A total of 16 parameters can be displayed at stop The use is the same as that of FA 01 The 16 binary bits correspond to the stop parameters listed in the following table Table 7 14 Stop parameters corresponding to 16 bits of FA 02 2 uil ME IE Ed The running and stop parameters of the NICE1000 system are the important references for engineers to perform commissioning on site The parameters are described as follows 1 Running speed indicates the actual running speed of the elevator Its maximum value is FO 03 Maximum running speed in unit of m s 2 Set speed indicates the set speed of the NICE1000 system during elevator running It is the running speed calculated by the system theoretically at which the elevator should run in unit of m s 3 Bus voltage indicates the DC bus voltage of the NICE1000 system in unit of m s 4 Current floor indicates the information of the physical floor where the elevator is located 149 Description of Function Codes NICE1000 User Manual 10 T It is the same as the value of F4 01 Current position indicates
195. rogram control functions indicated by bits of FC 00 FC 00 Program control for protection function Canceling current detection at inspection startup You can cancel the limit on the maximum current at startup for inspection EE EES ES Whether the motor is short circuited to ground is ground detection at detected at power on If the motor is short circuited to power on ground the controller blocks the output immediately and reports the fault 162 NICE1000 User Manual Description of Function Codes FC 00 Program control for protection function During normal speed running the elevator decelerates Decelerating to to stop immediately after the light curtain acts and Bit2 stop at valid light then runs to the registered destination floor after the curtain light curtain restores This function is mainly used in the case of manual door operation within 30 function code interface automatically You need to Password If you does not perform operation 30 minutes after Bit3 ineffective if no entering the password the operation panel exits the minutes enter the password again to perform operation Function Code Parameter Name Setting Range Default Property FC 01 Program control 2 for 0 65535 1 k protection function It is used to set program control related to protection functions 1 indicates that the function is enabled and 0 indicates that the function is disabled FC 01 Program control 2 for protection funct
196. rol mode JN elevator 1 Fd 04 Elevator No Slave elevator 2 B Wiring for Parallel Control Communication Connect the CN3 terminals of the controllers for the two elevators as shown in the following figure Figure 5 12 Wiring for parallel control communication Elevator 1 Elevator 2 CN3 CAN communication CN3 NICE1000 cable for parallel control new CAN p BECA NICE1000 CAN CAN GND Q GND B Function Description Physical floor relative to the NICE control system is defined by the installation position of the leveling plate The floor such as the ground floor at which the lowest leveling plate is installed corresponds to physical floor 1 The top physical floor is the accumulative number of the leveling plates In parallel mode the physical floor numbers of the same floor for two elevators are consistent If the floor structures of two elevators are different the physical floor numbers should start with the floor with the lowest position The physical floors at the overlapped area of the two elevators are the same Even if one elevator does not stop a floor in the overlapped area a leveling plate should be installed there You can make the elevator not stop at the floor by setting service floors When two elevators are in parallel mode the hall call and car call wiring and setting should be performed according to physical floors Parallel running can be imp
197. rsonnel when asking for maintenance 6 If there is any problem during the service contact Monarch s agent or Monarch directly 7 This agreement shall be interpreted by Suzhou MONARCH Control Technology Co Ltd Service Department Suzhou MONARCH Control Technology Co Ltd Address No 16 Youxiang Road Yuexi Town Wuzhong District Suzhou P R China P C 215104 Website http www szmctc cn Aonareh Product Warranty Card Address Customer information Company name Contact person Tel or Email Product model Product information Series No Attach here Name of supplier Maintenance time and content Failure information eg fault code Maintenance person Aonarch Suzhou MONARCH Control Technology Co Ltd Address No 16 Youxiang Road Yuexi Town Wuzhong District Suzhou P R China Tel 86 512 68795207 Fax 86 512 62856720 http www szmctc com
198. s 1 Display the fault code 2 Output the fault relay action command 1 Display fault code 2 Output the fault relay action command 3 Continue normal running of the elevator 1 Display the fault code 2 Output the fault relay action command 3 Stop output and apply the brake immediately after stop 1 Display the fault code 2 Output the fault relay action command 3 In distance control the elevator decelerates to stop and cannot run again 1 Display the fault code 2 Output the fault relay action command 3 The elevator stops immediately A B and C are fault sub category NICE1000 User Manual 1A The elevator running is not affected on any condition 2A The paralle group control function is disabled 2B The door pre open re leveling function is disabled 3A In low speed running the elevator stops at special deceleration rate and cannot restart 3B In low speed running the elevator does not stop In normal speed running the elevator stops and then can start running at low speed after a delay of 3s 4A In low speed running the elevator stops under special deceleration rate and cannot restart 4B In low speed running the elevator does not stop In normal speed running the elevator stops and then can start running at low speed after a delay of 3s 4C In low speed running the elevator does not stop In normal speed running the elevator stops a
199. s 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 function code in bit refer to F6 06 168 NICE1000 User Manual Description of Function Codes Table 7 18 Elevator functions indicated by bits of FE 13 FE 13 Elevator function selection 1 The elevator performs re leveling at a low speed Bit2 Re leveling function with door open An external shorting door lock circuit contactor needs to be used together During normal stop when the elevator speed is smaller than a certain value and the door zone signal Bit3 Door pre open is active the system shorts the door lock by means of function the shorting door lock circuit contactor and outputs the door open signal implementing door pre open This improves the elevator use efficiency If the door still does not close within the time set in Fb 17 in automatic state the system outputs the forced Bits Forced door close door close signal at this moment the light curtain becomes invalid and the buzzer tweets non door zone in pressing the door open close button at the non door Door open valid at In the inspection state you can open close the door by Bit6 the inspection state zone Door open and p The elevator door opens and closes once after the close once after Bit7 system turns from first time inspection to normal inspection turned to normal neepen
200. scription of Function Codes NICE1000 User Manual Figure 7 7 Viewing bits cyclically Bit13 Bit15 Bito Bit2 Bit4 Bit6 Bit8 Bit10 Bit12 Bit14 Decimal display Function codes with multiple bits can be viewed and set in the same way as F6 06 These function codes include F6 07 F6 64 to F6 69 FB 07 FC 00 and FC 01 and FE 13 and FE 14 Function Code Setting Range Default Unit Property F6 07 Elevator function control 2 065535 o It is used to select the required elevator functions Each bit of the function code 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 function code in bit refer to F6 06 Table 7 8 Functions indicated by bits of F6 07 F6 07 Elevator function control 2 Arrow blinking during The display arrow blinks during elevator running The Bit2 RODA ee running blinking interval is set in F6 08 Bit3 Eier oos I The elevator is locked properly in the attendant state attendant state BitG Fault code not The fault code is not displayed on the keypad of the displayed on keypad MCB Stop holding at brake When the brake feedback is abnormal the controller Bit9 feedback abnormal retains the holding torque Bit12 Fault auto reset The controller automatically resets the faults once every hour Sunerchor foot The con
201. se floor The elevator closes the door immediately after receiving a door close command Function Code Setting Range Default Property Fb 15 Arrival gong output delay 0 1000 oo ms It is used to set the delay of arrival gong output Function Code Setting Range Default Property Fb 16 Door lock waiting time at 0 50 manual door When the manual door function is enabled the elevator responds to other calls only after the time set in this parameter if the door lock is not disconnected upon arrival Function Code Setting Range Default Property Fb 17 Holding time for 5 480 120 se forced door close It is used to set the holding time before forced door close is implemented If the forced door close function is enabled the system enters the forced door close state and sends a forced door close signal when there is no door close signal after the time set in this parameter is reached Group FC Protection Function Parameters Function Code Parameter Name Setting Range Default Property FC 00 Program control for 0 65535 protection function It is used to set program control related to protection functions Each bit of the function code 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 function code in bit refer to F6 06 Table 7 17 P
202. sed during normal running It is used only when the elevator position is abnormal or the slow down signal is abnormal preventing over travel top terminal or over travel bottom terminal Function Code Setting Range Default Property F3 09 Pre deceleration distance 0 90 0 00 m It is used to set the pre deceleration distance of the elevator in distance control as shown in Figure 7 2 This function is to eliminate the effect of encoder signal loss or leveling signal delay Function Code Setting Range Default Property F3 10 Re leveling speed 0 000 0 080 0 040 is used to set the elevator speed during re leveling This parameter is valid only when the pre open module MCTC SCB A is added to implement the re leveling function set in FE 13 Function Code Setting Range Default Property F3 11 Inspection speed 0 100 0 500 0 250 It is used to set the elevator speed during inspection and shaft auto tuning Function Code Setting Range Default Property F3 12 Position of up slow down 0 000 300 00 000 m F3 13 Position of down slow down 0 000 300 00 000 m These parameters specify the positions of the slow down switches relative to the bottom leveling position and the positions are automatically recorded during shaft auto tuning For the installation positions of the slow down switches see Table 3 11 The NICE1000 integrated elevator controller supports only one pair of slow down switches
203. select the input functions of floor buttons The setting values are described in the following table 201 Door 1 open button 201 203 Door 1 open close 202 Door 1 close button 203 Door 1 open delay button 204 Door 2 selection button Door 1 floor 1 car call Door 1 floor 2 car call Door 1 floor 3 car call Door 1 floor 4 car call 200 299 Door 1 Door 1 floor 5 car call control Door 1 floor 6 car call parameters Door 1 floor 7 car call 211 226 Door 1 car call POI Ups Ere Door 1 floor 9 car call Door 1 floor 10 car call Door 1 floor 11 car call Door 1 floor 12 car call Door 1 floor 13 car call Door 1 floor 14 car call Door 1 floor 15 car call Door 1 floor 16 car call 136 NICE1000 User Manual Description of Function Codes 231 Door 1 floor 1 up call 232 Door 1 floor 2 up call 233 Door 1 floor 3 up call 234 Door 1 floor 4 up call 235 Door 1 floor 5 up call 236 Door 1 floor 6 up call 237 Door 1 floor 7 up call 231 245 Door 1 up call 238 Door 1 floor 8 up call 239 Door 1 floor 9 up call 240 Door 1 floor 10 up call 241 Door 1 floor 11 up call 242 Door 1 floor 12 up call 243 Door 1 floor 13 up call 244 Door 1 floor 14 up call 200 299 245 Door 1 floor 15 up call R 5 control 252 Door 1 floor 2 down call parameter 253 Door 1 floor 3 down call 254 Door 1 floor 4 down call 255 Door 1 floor 5 down call 256 Door 1 floor 6 down call 257 Door 1 fl
204. shielded cable should be as large as possible A suggested method is to fix the shield on the metal plate using the metal cable clamp so as to achieve good contact as shown in the following figure Shielded cable Metal cable clamp Metal plate The following figure shows the grounding method of the shielded cable 196 NICE1000 User Manual EMC Figure 9 1 Grounding of the shielded cable The shield must be grounded 9 4 2 Installation Precautions of the Shielded Cable Symmetrical shielded cable is recommended The four conductor shielded cable can also be used as an input cable The motor cable and PE shielded conducting wire twisted shielded should be as short as possible to reduce electromagnetic radiation and external stray current and capacitive current of the cable If the motor cable is over 100 meters long an output filter or reactor is required It is recommended that all control cables be shielded It is recommended that a shielded cable be used as the output power cable of the controller the cable shield must be well grounded For devices suffering from interference shielded twisted pair STP cable is recommended as the lead wire and the cable shield must be well grounded 9 4 3 Ca
205. t9 Bit8 Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bito Binary Addressing 32768 16384 8192 4096 2048 1024 256 612 128 64 32 16 8 4 2 Floor 1 Bito 0 Floor 1 not in service 1 Floor 1 in service Floor2 Bit1 O0 Floor 2 not in service 1 Floor 2 in service Floor 3 Bit2 0 Floor 3 not in service 1 Floor 3 in service Floor 4 Bit3 0 Floor 4 not in service 1 Floor 4 in service Floor 5 Bit4 0 Floor 5 not in service 1 Floor 5 in service Floor 6 Bit5 0 Floor 6 not in service 1 Floor 6 in service Floor 7 Bite 0 Floor 7 not in service 1 Floor 7 in service Floor 8 Bit7 0 Floor 8 not in service 1 Floor 8 in service Floor 9 Bit8 0 Floor 9 not in service 1 Floor 9 in service Floor 10 Bit9 0 Floor 10 not in service 1 Floor 10 in service Floor 11 Bit10 0 Floor 11 not in service Floor 11 in service Floor 12 Bit11 0 Floor 12 not in service 1 Floor 12 in service Floor 13 Bit12 0 Floor 13 not in service 1 Floor 13 in service Floor 14 Bit13 0 Floor 14 not in service Floor 14 in service Floor 15 Bit14 0 Floor 15 not in service 1 Floor 16 in service 0 Floor 16 not in service Bit15 NU oa 1 Floor 16 in service Convert binary value to decimal and set this decimal Meaning of the binary value on the operation panel
206. tahterswich o Reserved Door open button Door 2 EE edge E With 4 Safety circuit Ee Hoer Reserved 12 Reserved forbidden lock circuit 4 Single Double door Beek ed j Resewed selection 7 Half load signal 15 rne RE ipod 7 Reserved 15 Reserved floor switchover 156 NICE1000 User Manual Description of Function Codes FA 30 Input state 5 FA 31 Output state 1 Reserved o Reserved Hidiervoldde 1 IRUN contactor safety circuit Reserved Brake contactor a display output Reserved Higher voltage Low 7 segment startup of brake b display output Low 7 segment Reserved 4 Fan Lamp output 12 c display output Door 2 open Door 2 close Higher voltage door lock circuit 1 Low 7 segment 3 Higher voltage door lock circuit 2 1 IJ Reserved 7 Reserved 1 Low 7 segment d display output Shorting PMSM Reserved stator contactor output ee eem Reserved 7 Door 1 close LOW dier f display output FA 32 Output state 2 FA 33 Output state 3 Function No Function Nel Function Emergency EON 7 segment g Full load output evacuation at Reserved Sepa output power failure Up arrow display Inspection output 1 Forced door close High 7 segment output a display output Down arrow 0 Fan Lamp output 2 2 Forced door close 10 High 7 segment output 2 b display output High 7 segment Shorting door lock circuit contactor Faulty state c display output BCD Gray code 7 High 7 segment segment c ode 4
207. te 1 Car state Hak 5 1 Door open it ight curtain state 2 Door open holding Elevator lock Bit10 3 Door close 4 Door close limit Fire emergency Bit11 5 Running Elevator state Bit12 Full load 0 Inspection 1 Shaft auto tuning Bit13 Overload 3 Return to base floor at fire emergency 4 Firefighter operation Bit14 Reserved 6 Attendant operation eli 7 Automatic normal BIS Reserved Function Code Setting Range Default Property FA 03 Current encoder angle 0 0 359 9 00 Degree It displays the real time encoder angle This parameter cannot be modified Function Code Parameter Name Setting Range Default Property FA 05 Control board software 0 65535 ro o Diveboarssotware oa o These two parameters respectively display the program version number of the logic control board and the drive control board Function Code Setting Range Default Property FA 07 Heatsink temperature c0 o c e It displays the current temperature of the heatsink Normally the heatsink temperature is below 40 C When the heatsink temperature is too high the system lowers the carrier frequency automatically to reduce heat dissipation When the heatsink temperature rises to a certain value the system reports the module overheat fault and stops running 152 NICE1000 User Manual Description of Function Codes Function Code Setting Range Default Property mae Contotermode 100
208. the car call Function Code Setting Range Default Property Waiting time for switchover from shorting stator braking mode to 0 0 45 0 20 0 S x controller drive It is used to set the interval for switchover from shorting stator braking mode to controller drive mode If the elevator does not reach the leveling position with the time set in this parameter the system switches over to the controller drive mode for emergency evacuation Group F7 Output Terminal Parameters Function Code Setting Range Default Property F7 00 YO function selection 00 05 or 32 oo As an independent relay output YO can be allocated with any function among all the relay output functions When function 32 emergency evacuation at power failure is required only YO can be used as the relay for this output F7 00 must be set to 32 so that the elevator can switch over to the emergency evacuation state after power failure Function Code Setting Range Default Property F7 01 Y1 function selection 00 05 uw ME Fr inaiamseem oo o x gt F7 03 Y3 function selection 00 05 The functions that can be allocated for F1 01 to F7 03 are as follows 00 Invalid The terminal has no function 01 RUN contactor output The terminal with this function controls whether the RUN contactor is opened or closed 02 Brake contactor control The terminal with this function controls whether the brake contactor is opened or
209. the absolute distance from the current elevator car to the leveling plate of the first floor in unit of m Car load indicates the percentage of the car load to the rated load judged by the NICE1000 system based on data from the sensor in unit of 96 Output voltage indicates the effective value of the equivalent voltage of the PWM wave output by the NICE1000 system in unit of V Output current indicates the effective value of the actual current when the NICE 10007 system drives the motor to turn in unit of A Output frequency indicates the actual frequency of the motor during running It has a fixed corresponding relationship with the running speed The unit is Hz Pre torque current indicates the percentage of the pre torque current compensated during startup to the rated current in unit of 96 Input terminal 1 state indicate the meaning of input terminals by bit 1 indicates that the signal is active A total of 16 bits are defined as below i B i B it it10 it11 12 Bit EC T ND s Doorzone sora Bi Inspection down signal Inspection up signal Brake travel switch feedback Bit14 Elevator lock signal Self lock feedback Bit15 Up limit signal Input terminal 2 state indicate the meaning of input terminals by bit 1 indicates that the signal is active A total of 16 bits are defined as below i Emergency stop safety feedback signal Door 1 open limit Door 2 open limit B
210. the fixed screws of the components especially the screws with red mark NwARNING Do not install the controller on vibrating parts Failure During to comply may result in damage to the equipment or installation unexpected accidents Handle the equipment with care during transportation to prevent damage to the equipment Do not drop wire end or screw into the controller Failure to comply will result in damage to the controller Do not use the equipment with damaged or missing components Failure to comply will result in personal injury CAUTION Do not touch the components with your hands Failure to comply will result in static electricity damage Install the controller in places free of vibration and direct sunlight Wiring must be performed only by qualified personnel under instructions described in this manual Failure to comply may result in unexpected accidents A circuit breaker must be used to isolate the power supply N DANGER and the controller Failure to comply may result in a fire Ensure that the power supply is cut off before wiring Failure to comply may result in electric shock Tie the controller to ground properly according to the standard Failure to comply may result in electric shock Never connect the power cables to the output terminals U V W of the controller Pay attention to the marks of the N wiring terminals and ensure correct wiring Failure to comply WARNING will result in damage to the
211. the manual carefully If you have any problem concerning the functions or performance contact the technical support personnel of Monarch to ensure correct use B CE Mark The CE mark on the NICE1000 declares that the controller complies with the European low voltage directive LVD and EMC directive CE The NICE1000 series controller complies with the following LVD and EMC directives and standards Directive Code Standard B Standard Compliance EN 61800 3 2004 A1 2012 EMC Directive 2004 18 EC EN 12015 2004 EN 12016 2004 A1 2008 The NICE1000 series controller complies with the requirements of the EMC standard on the condition of correct installation and use by following the instructions in chapter 9 EMC NICE1000 User Manual Introduction Introduction 1 Comparison with the NICE 1000 The following table lists the comparison between the NICE1000 and the NICE1000 Standard 6 Standard 8 Maximum number of floors can be extended to 8 can be extended to 16 Maximum elevator speed 1 75 m s Digital input 24 Digital input 24 Button input and indicator Button input and indicator output standard 20 can be output standard 26 can VO terminals extended to 26 be extended to 50 Relay output standard 21 Relay output standard 21 can be extended to 24 can be extended to 27 Higher voltage input 3 Higher voltage input 3 Separate control for Integrated control Motor driving type syn
212. ting Range Default Property F4 04 Length 1 of leveling plate 0 65535 0 Pulses x F4 05 Length 2 of leveling plate 0 65535 0 Pulses x These two parameters respectively indicate the pulses corresponding to the length of the magnetic value and the length between two leveling sensors They are automatically recorded during shaft auto tuning Function Code Setting Range Default Property F4 06 High byte of floor height 1 0 65535 0 Pulses x F4 07 Low byte of floor height 1 0 65535 0 Pulses x Floor height 2 to floor height 14 F4 34 High byte of floor height 15 0 65535 0 Pulses x F4 35 Low byte of floor height 15 0 65535 0 Pulses x These parameters indicate the pulses corresponding to the floor height i between the leveling plates of floor n and floor i 1 Each floor height is expressed by a 32 bit binary number where the high 16 bits indicate the high byte of the floor height and the low 16 bits indicate the low byte of the floor height On normal conditions the floor height i of each floor is almost the same 119 Description of Function Codes NICE1000 User Manual Group F5 Input Terminal Parameters Function Code Setting Range Default Property F5 00 Attendant Automatic 3 200 3 dj switchover time If there is a hall call at current floor in attendant state the system automatically switches over to the automatic normal state after the time set in this para
213. tion Read and understand the manual before using the product and keep it carefully for reference to future maintenance The personnel who involve in system installation commissioning and maintenance must receive necessary safety and use training understand this manual thoroughly and have related experience before performing operations The drawings in the manual are sometimes shown without covers or protective guards Remember to install the covers or protective guards as specified first and then perform operations in accordance with the instructions The drawings in the manual are shown for description only and may not match the product you purchased The instructions are subject to change without notice due to product upgrade specification modification as well as efforts to increase the accuracy and convenience of the manual Contact our agents or customer service center if you need a new user manual or have problems during the use Email UM inovance cn Introduction NICE1000 User Manual B Product Checking Upon unpacking check e Whether the nameplate model and controller ratings are consistent with your order The box contains the controller certificate of conformity user manual and warranty card Whether the controller is damaged during transportation If you find any omission or damage contact your supplier or Monarch immediately B First time Use For users who use this product for the first time read
214. tor is in the nuisance state it cancels all car calls In this case call calls need to be registered again Group F9 Time Parameters Function Code Setting Range Default Property F9 00 EIE meisie 0 240 10 min returning to base floor It is used to set the idle time of the elevator before returning to the base floor When the idle time of the elevator exceeds the setting of this parameter the elevator returns to the base floor If this parameter is set to 0 it becomes invalid Function Code Parameter Name Setting Range Default Property F9 01 Time for fan and lamp 0 240 2 T to be turned off 24472 Description of Function Codes NICE1000 User Manual It is used to set the time that fan and lamp stays ON before being turned off automatically If there is no running command in the automatic running state the system turns off the fan and lamp automatically after the time set in this parameter If this parameter is set to 0 it becomes invalid Function Code Setting Range Default Property It is used to set the running time limit of the motor In normal running state if the continuous motor running time in the same direction between two adjacent floors exceeds the setting of this parameter but no leveling signal is received the system will perform protection This parameter is mainly used for over time protection in the case of steel rope slipping on the traction sheave If this parameter is set to a v
215. troller cannot perform shaft tuning if the floor Bit13 P height is less than 500 mm After this function is function enabled shaft tuning can be performed normally et orsupsre he signal still resets floor display This is valid only when floor un the customized super short floor function is enabled Cancelling Err30 Bit10 detection at re leveling Err30 is not judged during re leveling EN If this function is enabled the up slow down 1 signal Up slow down not Bit14 does not reset floor display The down slow down 1 134 NICE1000 User Manual Description of Function Codes F6 07 Elevator function control 2 Function Description Default If this function is enabled the down slow down 1 Down slow down not signal does not reset floor display The up slow down Bit15 reset for super short Ae 1 signal still resets floor display This is valid only when i the customized super short floor function is enabled Function Code Parameter Name Setting Range Default Property It is used to set the arrow blinking interval when the arrow blinking function is enabled Function Code Parameter Name Setting Range Default Unit Property F6 09 Random test times 0 60000 0 When the test times is set the elevator selects floors randomly and starts automatic running until the set times is reached Function Code Setting Range Default Property BitO Hall call forbidden Test function Bit
216. unctions Each bit of the function code 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 Table 7 7 Functions indicated by bits of F6 06 F6 06 Elevator function control 1 Returning to base floor The elevator stops at nearest landing floor and then Bit1 if position deviation too returns to the base floor for verification when the car position deviation is too large Bit3 Buzzer not tweet upon The buzzer output relay does not work upon re re leveling leveling Bit5 ance ig aulo reset The door lock fault is not reset automatically of door lock fault 132 NICE1000 User Manual Description of Function Codes F6 06 Elevator function control 1 The displayed floor number is cleared before the Bue Clear floor number elevator reaches the target floor i and display direction in advance If the elevator needs to change the direction the changed direction is displayed in advance It is used for the application where there is only one hall call button The hall call input can be connected Bit8 Hall call not directional to the up button input or down button input for this floor on the MCB Bitg Not detecting analog The system does not detect analog wire breaking wire breaking during normal running ko donee When the inspection state is turned to the normal Bit10 state the ele
217. use the system cannot enter the auto tuning state TUNE is not displayed when there is a fault Perform motor auto tuning again if the phase sequence or encoder of the synchronous motor is changed After the auto tuning is completed perform trial inspection running Check whether the current is normal whether the actual running direction is the same as the set direction If the running direction is different from the set direction change the value of F2 10 e With load auto tuning is dangerous inspection speed running of many control cabinets is emergency electric running and the shaft safety circuit is shorted Ensure that there is no person in the shaft in this auto tuning mode The following figure shows the motor auto tuning process 61 System Commissioning and Application Example NICE1000 User Manual Figure 5 2 Motor auto tuning process Set F 1 25 correctly based on the actually used motor type F1 25 0 For with load auto tuning Asynchronous With load set F1 11 to 1 After the motor t F0 01 t auto tuning operation panel displays Set encoder parameters F1 00 CAR a TUNE press the RUN key and F1 12 and motor parameters control Static motor auto tuning E F1 25 1 Ps Synchronous motor No load auto tuning With load auto tuning No load auto tuning For no load auto tuning set F1 11 s to 2 The operation panel displays gt TUNE Release the brake
218. vator can enters the normal state only when inspection after the door lock is disconnected once turned to normal You can view and set F6 06 as follows The methods of viewing F6 06 are as follows Method 1 viewing decimal value After you enter F6 06 the operation panel displays a decimal number corresponding to the sum of all the valid binary values For example if BitO Bit3 and Bit8 are valid and other bits are invalid the displayed decimal number is 00265 The decimal number can be viewed only and cannot be changed yr A f A Method 2 viewing bit On the decimal number display interface press vAN or V and the operation panel displays the value in bits Figure 7 6 Viewing F6 06 in bit p 3 2 1 S EP SU Ho 8 Z o amm 6 ZN BR Reserved Bit status As shown in the preceding figure the LEDs are numbered 1 2 and 3 from right to left LEDs 2 and 3 indicate the current bit and LED 1 indicate the status of the current bit 1 valid or 0 invalid The preceding figure shows that Bit10 is valid that is the function Door lock disconnected once when inspection turned to normal is enabled The method of setting F6 06 is as follows You can set a total of 16 bits BitO to Bit15 Press 7A or em on the operation panel y boom to view the bits indicated by LEDs 2 and 3 cyclically and press to set the status of the current bit indicated by LED 1 133 De
219. vator in real time If the elevator speed exceeds the limit the system immediately stops running of the elevator Runaway prevention YO especially used for emergency evacuation switchover The system automatically identifies power failure and outputs the relay signal for emergency evacuation automatic switchover to implement emergency evacuation at power failure Automatic identification of power failure For the synchronous motor when the power supply is interrupted the system can perform automatic switchover between shorting stator braking mode and controller drive mode implementing quick and stable F6 69 self rescue Emergency Shorting stator braking mode Upon power failure evacuation UPS is used the motor stator is shorted and the brake function selection is automatically released making the car move slowly under the effect of the weighing difference between the car and the counterweight Automatic running mode switchover at power failure F6 69 Emergency evacuation function selection Running direction When the power supply is interrupted the system identification at can automatically identify the current car load and power failure determine the running direction After detecting a position abnormality the system runs the elevator to each floor until reaching the terminal floor for verification guaranteeing system security Base floor verification Passenger The system automatically
220. x F6 01 Bottom floor of the elevator 1 to F6 00 ME EN NE These two parameters are used to set the top floor and bottom floor of the elevator determined by the number of actually installed leveling plates Function Code Parameter Name Setting Range Default Property F6 02 Parking floor F6 01 to F6 00 1 When the idle time of the elevator exceeds the value set in F9 00 the elevator returns to the parking floor automatically Function Code Parameter Name Setting Range Default Property F6 03 Fire emergency floor F6 01 to F6 00 EN EER When entering the state of returning to the fire emergency floor the elevator returns to this floor Function Code Setting Range Default Property F6 04 Elevator lock floor F6 01 to F6 00 oa o Po When entering the elevator lock state the elevator returns to this floor 130 NICE1000 User Manual Description of Function Codes Function Code Setting Range Default Property Proper mos Sericefoors oessa sss It is used to set the service floors This function code is enabled through bit addressing The 16 bits of the function code respectively correspond to 16 floors If a bit is set to 1 the elevator will respond to calls of this floor if this bit is set to 0 the elevator will not respond to calls of this floor Figure 7 6 Converting binary value of F6 05 to decimal Bit Addressing Bit15 Bit14 Bit13 Bit12 Bit11 Bit10 Bi
221. xplode when they are burnt Poisonous gas is generated when WARNING ihe plastic parts are burnt Treat them as ordinary industrial waste 1 2 General Precautions 1 Requirement on the residual current device RCD The controller generates high leakage current during running which flows through the protective earthing conductor Thus install a type B RCD at primary side of the power supply When selecting the RCD you should consider the transient and steady state leakage current to ground that may be generated at startup and during running of the controller You can select a specialized RCD with the function of suppressing high harmonics or a general purpose RCD with relatively large residual current 2 High leakage current warning The controller generates high leakage current during running which flows through the protective earthing conductor Earth connection must be done before connection of power supply Earthing shall comply with local regulations and related IEC standards 17 Safety Information and Precautions NICE1000 User Manual 3 Motor insulation test Perform the insulation test when the motor is used for the first time or when it is reused after being stored for a long time or in a regular check up in order to prevent the poor insulation of motor windings from damaging the controller The motor must be disconnected from the controller during the insulation test A 500 V mega Ohm meter is recommended for
222. y so that you have a thorough understanding and perform all operations by following the notices in this chapter Monarch will assume no liability or responsibility for any injury or loss caused by improper operation 1 1 Safety Precautions Safety This controller has hazardous high voltage and the controlled motor is a dangerous rotating device Failure to comply with the notices may result in personal injury or damage to the property Transportation installation operation and maintenance of the controller can be performed only by qualified personnel after they get familiar with the safety information in this manual This is the prerequisite of safe and stable running of the equipment Before installation NwARNING Do not open the front cover or touch the power terminals on the main circuit within 10 minutes after the controller is powered off The capacitor on the DC circuit still has residual high voltage even after power off Failure to comply will result in electric shock 14 NICE1000 User Manual Safety Information and Precautions Safety e Do not install the equipment if you find water seepage component missing or damage upon unpacking Do not install the equipment if the packing list does not Z DANGER conform to the product you received Install the equipment on incombustible objects such as metal and keep it away from combustible materials Failure to comply may result in a fire Do not loosen
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