"user manual"
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1. Figure 9 6 Wiring diagram of down selective largerst floor MONT71 Series Elevator Integrated Controller User Manual V1 0 211 Chapter 9 System Typical Application and Adjustment GI PNUD BJS pue pe po Joop eun Qa132euuoo pinous vod DIS T Ag Jo SOD 2pe ue x X 9 Q S2 S2 S2 S2 d di 9 Q 4 E d O 3 O 4 O N ay a O O 8 O n a Q BO EE Gi ial gear aan A 6 LEI dea V T dd Guu e ma Cal SIY E TO SOJ zi Il QNO y d Ie t p Ndu ON QVP Det Ndu ON eubis 4 Ndu ON unu umop uoppedsu Ndu ON unu din uoppedsul Ndu DN uon edsul TN ON pecpesj dino aeg Pdu DN Pepe dno un SDNP LEM anboyeuvy o Figure 9 7 Wiring diagram of open through door full selective MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 10 Troubleshooting 214 Chapter 10 Troubleshooting Fault sort explanation MONT71 has almost 60 pieces of protection functions MONT71 monitors all kinds of input signal running condition etc If some abnormal error happens relevant fault protect2. x 10096 MONT71 rated current D00 02 MONT71 Series Elevator Integrated Controller User Manual V1 0 158 Chapter 8 Function Introduction Fault reset function and fault relay action F17 05 F17 07 This function can auto reset the fault in the running state in accordance with the preset times F17 05 and interval F17 06 The auto reset function of faults is as following E0001 Controller output Acc E0003 Controller output constant E0005 DC bus voltage Dec overcurrent speed overcurrent overvoltage E0002 Controller output Dec E0004 DC bus voltage Acc E0006 DC bus voltage constant overcurrent overvoltage speed overvoltage F17 05 Fault auto reset times i 0 100 0 F17 06 Fault auto reset interval 2 0 20 0 5 0s times When F17 05 0 it means auto reset is disabled f no other fault is detected within 5 minutes the auto reset count will be automatically cleared Oncondition of external fault reset auto reset count will be cleared F17 07 Fault relay action select i 00 11 00 Bit0 During auto reset 0 Fault relay doesn t act e 1 Fault relay acts Bit1 During under voltage 0 Fault relay doesn t act e 1 Fault relay acts Bit2 Bit3 Reserved Note It need preset the MCB relay F12 34 F12 51 as No 29 function integrated run correctly output MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter
3. PU DN A PPLQ MAA ZEX Ndu ON A PAYAN TEX Ndu DN WU Mo OLX 3ndur DN IUI ECH 3nduir ON QLP pe po qndul ON B IS aut Pdu ON UU uvep Lech Ndu ON unu dn uomedsu Ndu ON uonedsul Ndu ND do eg Pdu DN Peppo uny Figure 9 4 Wiring diagram of full selective factory setting value User Manual V1 0 MONT71 Series Elevator Integrated Controller 209 Chapter 9 System Typical Application and Adjustment woud Apyes pue pe po 100p eun O1329uuoco Pynoys vod DI T Ag Jo SIOD 2pge ues is z porioop eo L I AN 2d ov ELSIS T porJoop eben BH OCH AE 3 A06cc 0LL Guu Ad e ma EEN SH E TO SO SCHT YPM anbojeuw 3ndui ETS Ee Pdu ON QLP PSP 1 ON UNI UMOp UOL ON usdo Aj amp uuou ON pesop Ae LUOU pie ues O NWEr Figure 9 5 Wiring diagram of full selective largerst floor MONT71 Series Elevator Integrated Controller User Manual V1 0 System Typical Application and Adjustment Chapter 9 210 q pauuo pinous voad DIS T Ag Jo SIOD peueu bf arcup Apyes SHAY BIH SCH C
4. 150 8 2 15 Group F14 Communication Parameters sseeeeeeeeeee 153 8 2 16 Group F15 Panel Display Parameters n nnnnnnnnnennnnnesnnnnnresrnnrrrensrnnrnrennnnne 154 8 2 17 Group F16 Enhance Function Parameters ssssssssssssnrnnerresssssrrrrrrrrrrreeess 155 8 2 18 Group F17 Fault Protect Parameter 157 8 2 19 Group F18 PWM Control Parameter 160 8 2 20 Group F19 Distance Control barameierg 161 8 2 21 Group F20 Storey Height Parameters ccccccseeeeeeeeeeeeeeeeeeeeeeaeeseeeeeensaeeees 164 8 2 22 Group F21 Elevator Parameters erronee re Hueso a ur PL geduet 165 8 2 23 Group F22 Door Machine Parameter 166 8 2 24 Group F23 lime ParamelelS sedet occ deua ci vn eR oto SEE PC Pe s e eeu nea vas 168 8 2 25 Group F24 Display Parameters of Floor Information 169 8 2 26 Group F25 Test Running Parameters sn snssnseesennnreeserntrreesrnrrrrresrnnnrrennnnne 170 8 2 27 Group F26 Elevator Function Selections nnannsnsnnnensnnnenennnenrnnnnsnnrensnnenne 171 8 2 28 Group F27 Elevator Adjustment Enhanced Function Parameters 179 8 3 Group Y Manufacturer Function Parameter 179 Chapter 9 System Typical Application and Adjustment eeessess 181 Se Bunter 182 971 1 Wiring ING CI uode douces dede diee eee tenta Gah nara ta Nar aod ae a YU NES a es ege 182 9 1 2 Parameter ee EE 183 9 1
5. function Full load by pass Over load protection Lighting and fan energy saving function Reverse cancelling Floor service set Tor front and back door i Door machine multi mode Operation Open through door control mode e Open the door outside this hall OD button open the door Auto open door at power on g Repetition of door closing elevator runs from the lower limit toward the upper limit to test Chapter 1 MONT71 Configuration Function description At the inspection mode after start the shaft self learning the door zone position of each floor and data of shaft switch position and save When the load inside the car is over the rated load the buzzer inside the car alarms the over load indicator is lighting and the At auto run mode when the car is full loaded generally is 80 rated load the elevator only responds to internal calls but not the hall calls elevator keeps opening the door on the floor i When beyond the setting time and there is no internal call and i hall call the elevator will automatically turn off the light and fan in car When elevator runs to the end floor or the direction is changed system cancels all registered calls of the reverse directions Based on the need to set the service floors for the front door and the back door i Parameter setting can be the door machine number as well as the door
6. rm 149 0 r r r r r L L Function selection of MCB input terminal X24 os 149 0 Note 1 X1 X24 are digital input terminals and can select the corresponding function code 000 140 but the same function code can not be reused 2 Hundreds is set as 0 it indicates the normally open input if set as 1 it indicates the normally closed input MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 143 Function Introduction 0 No function To set the terminal in a non functional state even if there is a signal input it will not make any action You can set the unused terminal as 0 so as to prevent misconnection or malfunction 1 Up leveling normally open input DZU 2 Down leveling normally open input DZD 3 Door zone normally open input SX1 Viathe leveling sensor signal to control the elevator leveling parking and there are two way controls in accordance with different sensors e 1 The elevator equipped with up and down leveling sensors you need these two sensor signals to the corresponding terminal and the terminal s function is set as up leveling signal input 1 or 101 and down leveling signal input 2 or 102 The up operation should successively receive the up leveling signal and then the down leveling signal and the down operation should successively receive the down leveling signal and then the up leveling signal e 2 If the elevator is eq
7. 0 No output 1 Output Bit4 Buzzer output 0 No 1 Yes Bito Up arrow display output 0 No output 1 Output User Manual V1 0 Chapter 8 Function Introduction 118 8 1 4 Group D03 Display Parameters of Floors for Service and Registration D03 00 Present floor Actual value Display the present floor which is relative to the bottom floor of the elevator D03 01 i Present height i Actual value Display the present height which is relative to the bottom leveling floor of the elevator D03 02 Distance of lowest floor Actual value D03 03 i Distance of highest floor Actual value D03 02 and D03 03 respectively display the lowest and the highest of all floors Registration state of front door 10 1 internal call floor Registration state of back door 10 1 internal call floor Actual value Actual value Registration state of front door 9 1 hall call up run Registration state of back door 9 1 hall call up run Actual value Actual value Registration state of front door 10 2 hall call down run Registration state of back door 10 2 hall call down run Actual value Actual value D03 04 D03 09 are displayed by a 16 bit binary and each bit binary represents one floor and the low bit represents low floor D03 04 D03 05 display whether there is the internal call registration of front back door of 10 1 floors D03 06 D03 07 display whether there is
8. 1 Open this function Bit10 Selections of up down limit switch 0 Use the actual up down limit switch 1 Use the synthesis of leveling floor and end station switch Bit11 Back to leveling automatically 0 Back to leveling automatically due to meeting the running condition 1 Back to leveling for the setting run command Bit12 Car energy saving selections at OD waiting for elevator 0 Car is not energy saving 1 Car is energy saving Bit13 Display the running direction sparkly 0 Do not display 1 Display Bit14 Logic of fan and lighting 0 The logic is normal 1 The logic is negated Bit15 Light curtain action modes of door 1 and door 2 0 Light curtains of Door 1and door 2 act alone 1 Light curtains have inside association User Manual V1 0 75 176 Chapter 8 Function Introduction Contactor contact adhesion failure auto reset Detect the run and the brake contactors feedback contacts alarm E0056 fault run contactor feedback abnormal and E0057 fault brake contactor feedback abnormal if the contacts are deviant and they can t reset automatically If E0056 and E0057 faults occur this function enables to reset automatically no more than three times as long as these faults disappear 0 No open 1 Open Forced Dec switch adhesion detection This function enables to monitor the forced Dec switch all the time when the elevator is running If adhesion is detected
9. 132 Group F05 Weighing Compensation Parameters page 132 135 Group F06 Manufacturer Debugging Parameters Group F07 Asynchronous Motor Parameters page 135 137 Group F08 Vector Control Speed loop Parameters page 137 139 Group F09 Vector Control Current loop Parameters page 139 139 Group F10 Synchronous Motor Parameters page 139 141 Group F11 Encoder Parameters page 141 142 Group F12 Main Control Board Terminal Parameters page 142 150 Group F13 Main Control Board L Terminal Parameters page 150 153 Group F14 Communication Parameters page 153 154 Group F15 Panel Display Parameters page 154 155 Group F16 Enhance Function Parameters page 155 157 Group F17 Fault Protect Parameters page 157 160 Group F18 PWM Control Parameters page 160 1612 Group F19 Distance Control Parameters page 161 163 Group F20 Storey Height Parameters page 163 165 Group F21 Elevator Parameters page 165 166 Group F22 Door Machine Parameters page 166 168 Group F23 Time Parameters page 168 169 Group F24 Display Parameters of Floor Information page 169 170 Group F25 Test Running Parameters page 170 1712 Group F26 Elevator Function Selections page 171 179 Group F27 Elevator Adjustment Enhanced Function Parameters paget179 179 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 109 Function Introduction 8 1 Group D State Display Parameters Group
10. Actaivee Group D02 Display Parameters of Main Control Board on page 111 118 D02 00 MCB analogue input voltage 0 00 10 00V Actual value Ei Display in 16 bit binary and from low to high bit represent BitO X1 terminal Bit1 X2 terminal Bit2 X3 terminal Bit3 X4 terminal Bit4 X5 terminal Bit5 X6 terminal e Bit6 X7 terminal MCB X terminal input state 1 Bit7 X8 terminal Actual value Bit8 X9 terminal Bit9 X10 terminal Bit10 X11 terminal Bit11 X12 terminal Bit12 X13 terminal Bit13 X14 terminal Bit14 X15 terminal Bit15 X16 terminal Display in 16 bit binary and from low to T high bit represent D02 02 MCB X terminal input state 2 Bito X17 terminal Actual value Bit1 X18 terminal MONT71 Series Elevator Integrated Controller User Manual V1 0 62 Chapter 6 Parameters Function g Parameter Name Setting Range Value ara Bit2 X19 terminal Bit3 X20 terminal Bit4 X21 terminal Bit5 X22 terminal Bit6 X23 terminal Bit7 X24 terminal Bit8 X25 terminal Bit9 X26 terminal Bit10 X27 terminal Bit11 Bit15 Reserved Display in 16 bit binary and from low to high bit represent BitO L1 terminal Bit1 L2 terminal Bit2 L3 terminal Bit3 L4 terminal Bit4 L5 terminal Bit5 L6 terminal p Bit6 L7 terminal D02 03 MCB L terminal input state 1 Bit7 L8 terminal Actual value Bit8 L9 terminal Bit9 L10 terminal Bit10 L11 terminal Bit11 L12 te
11. At this method the X terminal needs door2 to select signal function otherwise the elevator will only open door 1 At the same floor hall call buttons of door 1 and door 2 must access two different floors of input and output terminals separately At this method the X terminal needs door2 to select signal function otherwise the elevator will only open door 1 User Manual V1 0 05 206 Chapter 9 System Typical Application and Adjustment Control mode Set para Function description Wiring description After the hall call responses of At the same floor hall and Open through p car call buttons of door 1 door 1 and door 2 are Son separately and reach the target ana oor eile access mode 3 hall call 1 F26 21 1 EA dL different floor input and layer the system will decide separately F22 13 3 which door to open according to SUD ternas internal call i separately otherwise the the present internal call aevo WI Bed OR separately response door 1 or door 2 OP and door2 simultaneously Note At firefighting inspection and back leveling floor modes the open through door does not separately control but can simultaneously control Description of double hall calls at the same floor If some floors of the elevator need to configure dual hall calls MONT71 provide appropriate solutions 1 Connect door 2 back door to the button input terminals of main board 2 Set parameter F26 21 to 1 open the
12. BR Braking resistor connection terminals PE Earth terminal connect to the ground MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 5 Installation and Wiring 5 5 2 Power Terminal Wiring Te Ts pe v Stee Mains supply Figure 5 2 5 5kW and below model power terminal connection external ll Fuses Mains supply Figure 5 3 7 5 45kW model power terminal connection MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 5 Installation and Wiring 5 6 Braking Resistor Selection Connect the braking resistor to the and BR of power terminal Refer to section 5 5 2 Power Terminal Wiring and Table 5 3 for the selection All series is built in dynamic braking unit Table 5 3 Recommended specification of braking resistor Recommended value Recommended power Synch ronous Asynch ronous MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 5 Installation and Wiring 5 7 Meet EMC Requirement of Installation 5 7 1 Correct EMC Installation According national standards GB T12668 3 MONT71 should meet the two requirements of electromagnetic interference EMI and anti electromagnetic interference The international standards IEC 61800 3 VVVF drive system part 3 EMC specifications and test methods are identical to the national standards GB T12668 3 MONT71 are designed and produced according to the requirements of IEC 61800 3 P
13. Bitc Reserved Bit7 Closed door mode selection 0 Long press the CD button to close the door 1 Jog to close the door 0 Without firefighting function 1 With firefighting function 0 Without re leveling function 1 With re leveling function 0 Without advanced open function 1 With advanced open function 0 No open 1 Open BitO To set the SegA output 0 No SegA output 1 SegA output Bit1 To set the SegB output 0 No SegB output 1 SegB output Bit2 To set the SegC output 0 No SegC output 1 SegC output Bit3 To set the SegD output 0 No SegD output 1 SegD output User Manual V1 0 Chapter 6 89 Parameters Function Parameter Name Setting Range Para F26 09 F26 10 Manufacturer debugging parameter prohibit to change BitO Inspection auto close door 0 Inspection without close door 1 Inspection auto close door Bit1 Inspection over current detection 0 Inspection run without limiting 11096 rated current 1 Inspection run with limiting 11096 rated current Bit2 Stop mode selection at inspection 0 Immediate stop 1 Dec stop Bit3 Detect door lock jump out fault at inspection mode 0 Detect door lock jump out fault 1 Do not detect door lock jump out fault Inspection parameter setting Bit4 Detect up down forced simultaneous operation at inspection mode 0 Detect 1 Do not detect Bit5 Detect open close door simultaneous operation at inspection mode 0 Detect 1
14. Refer to section 4 5 page 40 for the details of encoder interface card F11 00 Encoder interface card selection 1 3 11 1 ABZ incremental encoder interface card MT70 PG1 ABZ Only apply to asynchronous motor 2 UVW encoder interface card MT70 PG3 UVW Only apply to synchronous motor When select UVW encoder interface card you must ensure that the pole number of the encoder is the same as the motor 3 SINCOS encoder interface card MT70 PG2 SINCOS Only apply to synchronous motor It is used to adapt the SINCOS encoder such as the HEIDENHAIN ERN1387 type SINCOS encoder F11 01 Encoder P R 1 9999 1024 F11 02 Encoder direction setting 0 1 0 The effect of changing F11 02 is equivalent to changing the AB two phase sequence of encoder 0 The same direction 1 The reverse direction F11 03 Encoder signal filter coefficient 00 99 11 F11 03 generally does not need to change if there is obvious current noise during motor running process it can be appropriately modified Units Low speed of filter coefficient Tens High speed of filter coefficient Manufacturer debugging parameter prohibit to change Detecting time of encoder wire disconnection Define the continuous detection time of encoder wire disconnection fault MONT71 detects the encoder wire disconnection and lasts more than the time set by F11 05 it will alarm E0031 fault encoder disconnection If set F11 05 as 0 the e
15. SUM 0 0 250 0 200 0 slip compensation limitation Note F07 15 F07 16 F07 18 and F07 19 can only work at V f control and asynchronous motor parameter rotation auto tuning A h f synchronous motor performance 0 65535 0 optimization Bit0 Exciting current optimization 0 Normal processing 1 Optimization processing Bit1 Methods of exciting current optimization 0 Voltage method 1 Current method Bit2 Bit15 Reserved Asynchronous motor of oscillation suppression mode 0 Oscillation suppression is dependent on the motor s exciting component 1 Oscillation suppression is dependent on the motor s torque component MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 137 Function Introduction Asynchronous motor of 0 200 100 oscillation suppression coefficient For suppressing the inherent oscillations generated by MONT71 with motor e f the constant load runs when the output current changes repeatedly can set F07 22 on the basis of the factory setting parameters to eliminate the oscillation so that the motor can run smoothly Note F07 21 and F07 22 can only work at V f control and asynchronous motor parameter rotation auto tuning 8 2 9 Group F08 Vector Control Speed loop Parameters F08 00 Low speed ASR KP 1 9999 500 F08 01 Low speed ASR KI 1 9999 500 F08 02 High speed ASR KP 1 9999 500 F08 03 High speed ASR KI 1 9999 500
16. Bit15 Reserved Display in 16 bit binary and from low to high bit represent BitO 1st floor of front door internal call Bit1 2nd floor of front door internal call Bit2 3rd floor of front door internal call Bit3 4th floor of front door internal call D02 10 pk for front eb ore interne Bit4 5th floor of front door internal call Actual value Bit5 6th floor of front door internal call Bite 7th floor of front door internal call Bit7 8th floor of front door internal call Bit8 9th floor of front door internal call Bit9 10th floor of front door internal call Bit10 Bit15 Reserved Display in 16 bit binary and from low to high bit represent BitO 1st floor of front door up call Bit1 2nd floor of front door up call Bit2 3rd floor of front door up call D02 11 SERGE Bit3 4th floor of front door up call Actual value SE Bit4 5th floor of front door up call Bit5 6th floor of front door up call Bit6 7th floor of front door up call Bit7 8th floor of front door up call Bit8 9th floor of front door up call MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 65 Parameters Function Parameter Name Setting Range Para Display in 16 bit binary and from low to high bit represent BitO Reserved Bit1 2nd floor of front door down call Bit2 3rd floor of front door down call l Bit3 4th floor of front door down call GE TO front deorsown Bit4 5th floor of front door down call Actual
17. Brake output feedback self locked feedback feedback feedback 0 Invalid 0 Invalid 0 Invalid 0 Invalid 1 Valid 1 Valid 1 Valid 1 Valid Bit3 Run output feedback Bit2 Door zone signal Biti Down leveling signal BitO Up leveling signal 0 Invalid 0 Invalid 0 Invalid 0 Invalid 1 Valid 1 Valid 1 Valid 1 Valid D02 06 MCB X terminal input logic state 2 Actual value Display the MCB digital input terminals X1 X24 of logic state by a 16 bit binary as following table it15 k Bit13 edo PRESSE Bit14 Isolated signal d GEN Bit12 Direct arrival signal switch signal No signal 0 No signal 0 No signal Oa NO SIMA 0 No signal o signa 1 Have the signal 1 Have the signal 1 Have the signal 9 1 Have the signal 9 Bit10 Back door light Bit9 Front door light curtain curtain No signal 0 N ival eg 0 No signal 0 No signal Done m 1 Arrival B 1 Have the signal 1 Have the signal Bit11 Driver signal Bit8 Back door CD arrival Bit7 Front door CD arrival Bit6 Back door OD arrival Merian goora Bit4 Safe circuit 1 0 No arrival 0 No arrival i 0 Disconnected 0 No arrival 1 Arrival 1 Arrival 1 Connected 1 Arrival Bit3 Full load signal Bit2 Over loaded signal Bit1 Down forced Dec BitO Up forced Dec 0 No signal 0 No signal 0 No signal 0 No signal 1 Have the signal 1 Have the signal 1 Have the signal 1 Have the signal MONT71 Series Elevator Integrated
18. Check whether the contactor feedback contact is consistent with MCB parameter setting normally open or normally closed 2 Check whether the indicator on MCB output side is consistent with contactor action 3 After the contactor acts check whether the corresponding feedback contact and MCB corresponding feedback input point acts 4 Check whether the output characteristics of contactor is consistent with that of MCB User Manual V1 0 Small panel display Fault name Brake contactor feedback abnormal Leveling signal abnormal Receive OD and CD arrival signals at the same time Forced Dec distance is too short Inspection run overcurrent Advanced open door abnormal MONT71 Series Elevator Integrated Controller Fault cause 1 Brake contactor feedback signal abnormal 2 Brake mechanical switch feedback abnormal 3 Brake forced feedback abnormal Leveling door zone signal is adhesion or cut off Receive door machine OD and CD arrival signals at the same time Forced Dec distance is too short Inspection running current is 110 over motor rated current 14 Speed is larger than advanced open speed 0 050m s 2 Advanced open operation is not in the leveling Chapter 10 Troubleshooting Countermeasure 5 Check the contactor coil circuit 6 Check the brake mechanical switch feedback signal 7 Check the brake forced feedback signal 8 Check the brake f
19. Do not detect Bit6 Door machine non service floor allow open close door at inspection 0 Do not allow open close door 1 Allow open close door Bit7 Detect the door machine CD arrival at inspection running 0 Do not detect close door arrival 1 Detect close door arrival 0 No open F26 13 Forced close door x 1 Open MONT71 Series Elevator Integrated Controller User Manual V1 0 90 Chapter 6 Parameters Function g Parameter Name Setting Range Value ara Dm Door lock jump out test function 0 No open 1 Open F26 14 Door lock jump out test Bit1 Door lock jump out test mode 1 x 0 Test total door lock circuits together 1 Test each door lock circuit independently Bit2 Bit15 Reserved BitO Battery driven self rescue timeout protection 0 Protection 1 No protection Bit1 Permanent magnet synchronous motor battery driven auto running 0 No open 1 Open Bit2 Battery driven direction judgment Battery driven run parameter 0 Auto judge setting 1 Judge in accordance to weighing signal Bit3 Fixed up run of battery driven direction 0 This bit should not decide the direction 1 The direction is fixed up run Bit4 Fixed down run of battery driven direction 0 This bit should not decide the direction 1 The direction is fixed down run Bits Bit7 Reserved BitO Stop without run command and auto open door 0 Do not auto open door 1 Auto open door Bit1 Reserved Elevator enhance
20. Door lock jump out test mode 0 Test total door lock circuits together All lock circuits in the door lock closed state if a door machine OD arrival signal is received it will alarm E0053 fault Lock door short circuit fault 1 Test each door lock circuit independently Any one of lock circuits in the door lock closed state if a door machine OD arrival signal is received it will alarm E0053 fault Lock door short circuit fault Bit2 Bit15 Reserved MONT71 Series Elevator Integrated Controller User Manual V1 0 174 Chapter 8 Function Introduction Battery driven run parameter setting 0 255 11 BitO Battery driven self rescue timeout protection 0 Protection 1 No protection At battery driven self rescue if the car is in balance load or the rescue driving power s capacity is not adequate it will cause long emergency rescue time and even dangers occur After the BitO is set as zero it will enable to stop rescuing when auto running car rescue time is over 100s and rescue driving time is over 50s Bit1 Permanent magnet synchronous motor battery driven auto running 0 No open 1 Open Bit2 Battery driven direction judgment 0 Auto judge The controller will automatically open the brake and detect the elevator light load to auto judge the elevator running direction 1 Judge in accordance with weighing signal Bit3 Fixed up run of battery driven direction 0 This bit should not decide
21. F08 04 ASR PI switching frequency 1 0 00 50 00 10 00Hz F08 05 ASR PI switching frequency 2 i 0 00 50 00 15 00Hz The parameters of FO8 00 F08 07 comfirm the PID parameters of ASR The structure of ASR is shown in following figure Torque current setting Frequency command Frequency feedback Torque limit As the following figure e When operates in a range of 0 F08 04 the PI parameters of vector control are F08 00 and SA mn e When operates above F08 05 the PI parameters of vector control are F08 02 and F08 03 e When operates with frequency in a range of F08 04 F08 05 vector control P parameter is the linear interpolation between F08 00 and F08 02 while vector control parameter is the linear interpolation between F08 01 and F08 03 Frequency F08 00 F 08 01 F08 00 F 08 01 F08 02 F 08 03 F08 05 F08 04 MONT71 Series Elevator Integrated Controller User Manual V1 0 138 Chapter 8 Function Introduction The system s response can be expedited through increasing the ASR KP F08 00 F08 02 but oscillation may occur if the value of KP is too high The system s response can be expedited through increasing the ASR KI F08 01 F08 03 but oscillation and high overshoot happen easily if the value of KI is too high e f F08 01 F08 03 0 and the integral function is disabled the speed loop works only as a proportional regulator Generally the KP should be adjusted firstl
22. Motor drive technology and Network communication technology More advanced 2 Direct stop Based on the distance control the direct stop technology realizes smooth speed and high operating efficiency 2 Parameter auto tuning free off load The synchronous motor and the asynchronous motor can do parameter auto tuning free off load gt Start torque auto compensation for no weighing device No need for the weighing device you can achieve elevator start without impact which adapt to a variety of encoders and motors Easier to use gt Pre torque auto compensation It makes debug more convenient and more consistent gt The onboard small panel design makes easier to repair and maintain the elevator gt Synchronous and asynchronous is integration with good commonality 3 The external LCD panel can support to display in English or Chinese gt Multi security is assured which conforms to GB7588 2003 standard gt The fault tolerant design of hardware and software and many types of fault treatments protect the safe operation of the elevator gt Strong environmental adaptability gt Immediately locking the base electrode and switching off IGBT output at fault can avoid contactor arcing More economical gt Three programmable high voltage 110 220VAC input interfaces can save gt the user s system cost The system can be equipped with a minimum of three contactors safety brake output gt Full range of M
23. OLT1 OLT2 CLT1 25 Back door CD arrival normally open input CLT2 23 Back door OD arrival normally open input 24 Front door CD arrival normally open input Ji 26 Front door light curtain normally open input EDP1 27 Back door light curtain normally open input EDP2 Pay attention to No 22 27 functions when there is only one door it defaults that it is front door 28 Driver signal normally open input ATS 29 Direct arrival signal normally open input NSB 30 Commutation signal normally open input ACB 31 Isolated run signal normally open input ISS n 32 Front back door switch normally open input GABS When the internal call arrives this terminal is disabled and it opens the front door but if enabled it will open the back door e Set F26 21 as 1 open through door control opens set F22 17 as 2 open through door control mode 2 the No 32 function will be enabled Refer to section 9 2 2 Open through Door Description page 205 33 Battery driven normally open input UPC he normally open input using for the power failure emergency run whether is valid you can refer to the section 9 2 1 page 201 about details 34 OD button normally open input DOB1 35 CD button normally open input DCB1 36 Safety circuit 2 normally open input JT2 MONT71 Series Elevator Integrated Controller User Manual V1 0 146 Chapter 8 Function Introduction 37 Door locked circuit 1 normally op
24. The reverse direction 00 99 F11 03 Encoder signal filter coefficient Units Low speed of filter coefficient Tens High speed of filter coefficient F11 04 Manufacturer debugging parameter prohibit to change i 0 00 2 00s Detecting time of encoder wire i F11 05 0 00 no detection for encoder wire disconnection disconnection Group F12 Main Control Board Terminal Parameters on page 142 150 Function selection of MCB input Note Normally open is short for NO F12 01 3 x terminal X1 No function 0 1 Up leveling NO input DZU F12 02 Function selection of MCB input 5 Down leveling NO input DZD terminal x2 3 Door zone NO input SX1 Function selection of MCB input EE EE SW F12 03 reminal x3 5 Brake output feedback NO input BZK 6 Brake limit switch feedback NO input ang Function selection of MCB input BZK1 l terminal X4 7 Synchronous motor self locking feedback NO input FX F12 05 Function selection of MCB input 8 Locked door output feedback NO input terminal X5 FMFB 9 Inspection NO input INS F12 06 Function selection of MCB input 19 Inspection up NO input UP eae 11 Inspection down NO input DN 12 97 Function selection of MCB input 12 Fire signal NO input FIRS1 terminal X7 13s Reserved 14 Locked elevator NO input LOCK F12 08 Function selection of MCB input 15 Up limit NO input LSU terminal X8 16 Down limit NO input LSD 17 Up forced Dec NO input U
25. To set parameters The situation 2 is same as situation 1 Note 1 In the situation 2 it needs professional person to make test by shor circuiting FL1L FL1 and FL2L FL2 2 For the safety it is recommended to use situation 1 in order to ensure the safe and efficient operation of the system MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction 4 5 Encoder Interface Card 4 5 1 Encoder Interface Card Selection MONT71 provide three kind encoder interface cards optional and their models and functions are shown as Table 4 7 Table 4 7 Encoder interface card Encoder interface card Encoder interface card function ABZ incremental encoder interface card C MT70 PG1 ABZ L Support differential OC push pull signal input and pulse output Apply to asynchronous motor close loop vector control VC I SINCOS encoder interface card Support sine and cosine signal input support pulse output MT70 PG2 SINCOS Apply to synchronous motor close loop vector control VC UVW encoder interface card Support 5V line drive ABZ and UVW signal input support pulse output MT70 PG3 UVW i Apply to synchronous motor close loop vector control VC Wiring requirement of encoder interface card 1 Encoder interface card wire should be laid separately and kept distance from power cables and forbidden to parallel with them 2 Encoder interface card wire should be shield
26. and deceleration and make relatively stable at starting and stopping However different applications need to use different acceleration and deceleration curve parameters If accelerate or decelerate too fast the comfort will be affected if accelerate and decelerate too slowly the operating efficiency of the elevator will be reduced Please adjust according to the actual situation when need slow acceleration and deceleration please reduce parameters F03 00 F03 05 on the contrary please increase the parameters F03 00 F03 05 Acceleration speed deceleration speed F03 00 F03 03 Speed changed rate e Acc jerk Dec jerk F03 01 F03 02 F03 04 F03 05 Acc Dec changed rate PI parameter adjustment The speed loop parameters Group F08 are used to adjust the speed loop PID regulator The PID regulator can affect the system s quick response overshoot and the magnitude of the deviation therefore setting appropriate PID parameters is very important for improving the comfort of the elevator Adjust the speed loop PI parameters in accordance with the actual situation refer to section 8 2 9 of Group F08 parameters page 137 for details MONT71 Series Elevator Integrated Controller User Manual V1 0 200 Chapter 9 System Typical Application and Adjustment Leveling accuracy adjustment 1 First ensure accurate leveling plate installation and the lengths of each leveling plate are consistent 2 Speed loop parameters Grou
27. locked door signal 2 locked door signal 1 signal Pm ARN 0 Disconnected 0 Disconnected 0 Disconnected 1 Connected 1 Connected 1 Connected D02 09 L terminal for front back door OD CD signal Actual value Display the elevator open close door OD CD signal state by a 16 bit binary as following table Bit15 Bit8 Reserved Bit7 Back door Bit6 Front back door Bit5 Back door OD delay Bit4 Back door CD button prohibition switch signal button 0 Invalid 1 Valid 0 No prohibited signal 0 No signal 0 No delay button 1 Have the signal 1 Have the signal 1 Have the button Bit2 Front door OD delay Bit1 Front door CD Dm Front door OD button button button Bit3 Back door OD button 0 Invalid 1 Valid 0 No delay button 0 Invalid 0 Invalid 1 Have the button 1 Valid 1 Valid MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 115 Function Introduction D02 10 L terminal for front door internal call state Actual value Display the 1st 10th floors of front door internal call state by a 16 bit binary as following table Bit9 10th floor of front Bit8 9th floor of front door door internal call internal call 0 No 0 No 1 Yes 1 Yes Bit15 Bit12 Reserved Bit11 Bit10 Reserved Bit7 8th floor of front door Bit6 7th floor of front door Bit5 6th floor of front door Bit4 5th floor of front door internal call internal call internal call internal call
28. normally return to fire base station and keep opening the door after arrived Advanced options parameter settings can be seen Bit3 and Bit6 of F26 16 elevator enhanced function selection Fireman running function test Open the firefighting function via F26 03 firefighting function and the factory default has opened Fireman input terminals can be connected to MCB input terminal X1 X24 F12 01 F12 24 setting After the elevator fire back to base station and turn on fireman running switch that is to enter the fireman running state the elevator will not automatically open or close the door To close the door in the OD arrival state you can continuously press CD button till the door is closed and then release the button the elevator will remain closed If release the CD button when the door is not yet closed the elevator will be changed to OD action till there is OD arrival At the fireman running mode each time only one internal call floor instruction can be registered If there is instruction signal registration the elevator will immediately auto start run at high speed and will decelerate stop and eliminate number on the registration instruction floor At stopping the elevator does not open the door only when you continue to press the OD button can the elevator open the door The elevator can not keep the door opening until there is OD arrival If you release the OD button halfway elevator will immediately go from door
29. opening to door closing operation till the door is closed In the fireman operating state the hall call button signal does not work Only when stopping at the fire base station the elevator in OD arrival state and firefighting and fireman switch is reset can the elevator return to the normal operating state Advanced options parameter settings can be seen Bit4 and Bit5 of F26 16 elevator enhanced function selection Auto return to leveling running Due to a fault or other reasons the elevator stops to a non leveling area after meet the running conditions the elevator will run at speed of 0 200m s to the near leveling area when arrive to the leveling area wherein one switch is actuated and another switch is unactuated the elevator running speed is the re leveling speed F04 04 when two leveling floors are effective after the elevator delays the time of F26 30 return leveling and stop delay it will decelerate to stop at inspection decelerated speed F03 07 The relevant parameters are set as follows in table MONT71 Series Elevator Integrated Controller User Manual V1 0 198 Chapter 9 System Typical Application and Adjustment Parmater Recommended value F03 07 Inspection Dec speed i 1 000m s i F04 04 Re leveling speed 0 040m s Automatic update after shaft l l F26 30 Return leveling and stop delay 0 100s i self learning 9 1 9 Adjustment for Comfortable Feeling Machine
30. 0 No 0 No 0 No 0 No 1 Yes 1 Yes 1 Yes 1 Yes Bit3 4th floor of front door Bit2 3rd floor of front door Bit1 2nd floor of front BitO 1st floor of front door internal call internal call door internal call internal call 0 No 0 No 0 No 0 No 1 Yes 1 Yes 1 Yes 1 Yes D02 11 L terminal for front door up call state Actual value Display the 1st 10th floors of front door up call state by a 16 bit binary as following table Bit8 9th floor of front door up call 0 No 1 Yes Bit15 Bit12 Reserved Bit11 Bit10 Reserved Bit9 Reserved Bit7 8th floor of front door Bit6 7th floor of front door Bit5 6th floor of front door Bit4 5th floor of front door up call up call up call up call 0 No 0 No 0 No 0 No 1 Yes 1 Yes 1 Yes 1 Yes Bit3 4th floor of front door Bit2 3rd floor of front door Bit1 2nd floor of front BitO 1st floor of front door up call up call door up call up call 0 No 0 No 0 No 0 No 1 Yes 1 Yes 1 Yes 1 Yes MONT71 Series Elevator Integrated Controller User Manual V1 0 116 Chapter 8 Function Introduction D02 12 L terminal for front door down call state Actual value Display the 1st 10th floors of front door down call state by a 16 bit binary as following table Bit9 10th floor of front Bit8 9th floor of front door door down call down call 0 No 0 No 1 Yes 1 Yes Bit15 Bit12 Reserved Bit11 Bit10 Reserved Bit7 8th
31. 02 Synchronous motor Rotation auto tuning Configure the A B Z U V W encoder 1 You should set F00 07 as 0 panel control 2 Set F10 10 as 2 rotation angle auto tuning and press panel RUN key to do parameter auto tuning 3 Auto tuning process The controller with DC will locate the motor in one direction and begin to drive motor at a slow speed and then stop running after some time which represents that the auto tuning is completed and obtain F10 12 motor initial angle and F11 02 encoder direction setting MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 9 187 System Typical Application and Adjustment Configure the SINCOS encoder 1 You should set F00 07 as 0 panel control 2 Set F10 10 as 2 rotation angle auto tuning and press panel RUN key to do parameter auto tuning 3 Auto tuning process The controller with DC will locate the motor in one direction and begin to drive motor at a slow speed and then stop running after one circle which represents that the auto tuning is completed and obtain F10 14 F10 17 encoder parameters F10 12 motor initial angle and F11 02 encoder direction setting Note 1 During step 2 and step 3 it need manually open the brake contactor 2 If the system has synchronous motor star delta contactor please refer to the function parameter setting of section 9 2 1 of power failure emergency running program at auto tuning the system will automatically contro
32. 1 no load self learning then press ENT key the system will automatically record the voltage value of weighing sensor and save to F05 04 car no load 4 Weighing compensation at load self learning Operating steps The elevator is in the base station and there is N96 load in the car Set F05 06 as N and set F05 03 as 2 other load self learning then press ENT key the system will automatically calculate the voltage value of weighing sensor at car full load and save to F05 05 car full load 5 After complete the analog weighing compensation learning you can do start torque compensation to prevent the elevator instantaneous start from slipping car MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 9 199 System Typical Application and Adjustment Timing adjustment at start and stop Adjust the start and stop control parameters Group F02 Guarantee that at starting the motor releases the brake after runs at zero speed at stopping closes the brake after completely runs at zero speed If open the brake or close the brake at non zero speed there will be a strong sense of frustration at the start and stop instantly Factory default parameters are generally able to ensure the correct timing of starting and stopping When it does not meet the demand it needs to adjust Group F02 parameters Acc Dec curve S curve adjustment MONT71 use S curve acceleration and deceleration to minimize the impact at acceleration
33. 3 Product Information 3 1 Model Explanation MI71 4 T 5P5 Lo Adaptive motor power Refer to section 3 3 about detail Phase S Single phase T Three phase Voltage ratings 2 200 240V 4 380 460V Product series Elevator integrated controller According to motor and encoder type select the correct encoder interface card Motor type Asynchronous motor 7 Synchronous motor I Push pull open circuit differential SIN COS type UVW type Encoder type L ij l Encoder ABZ encoder interface card SINCOS encoder interface UVW encoder interface card interface card MT70 PG1 ABZ Card MT70 PG2 SINCOS MT70 PG3 UVW L L 3 2 Nameplate The nameplate is located on MONT71 right side Product model MODEL MT71 4T5P5 C C Adaptive motor POWER 5 5kW Input specificatio INPUT 3PH 380 460V 15A 50 60Hz Output specificatio OUTPUT8 5kVA 0 460V 13A 0 100Hz Software version Version 1 00 MU EN MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 3 17 Product Information 3 3 Ratings Rated capacity Rated input Rated output Model l kVA current A current A MT71 4T2P2 MT71 4T3P7 MT71 4T5P5 MT71 4T7P5 MT71 4T022 MT71 4T030 MT71 4T037 MT71 4T045 MONT71 Series Elevator Integrated Controller User Manual V1 0 18 Chapter 3 Product Information 3 4 Specifications Item Rated voltage and Accuracy eou19 3 Output voltage t Output frequenc
34. 3 Replace the fan 4 Seek for technical support CPU is abnormal completely power down 2 Seek for technical support E11 CPU fault MONT71 Series Elevator Integrated Controller User Manual V1 0 Small panel display Fault name Fault cause l 1 Parameter auto tuning timeout 2 Over current at parameter auto tuning 3 Under the distance control set F00 07 as 1 doing permanent magnet synchronous motor rotating auto tuning set F10 10 as 2 Parameter auto tuning fault Soft start 1 Contactor fault failed 2 Control circuit fault 1 Current detection circuit damage Current detect faulty 2 Permanent magnet synchronous motor is out of control For three phase input controller three phase input power phase loss Lack of input 1 Controller three phase output broken or loss of phase 2 Controller with serious imbalance in three phase load 1 Brake circuit abnormal 2 Load is excessive 3 Encoder feedback signal abnormal Controller overloaded 4 Motor parameter error 5 Check motor power line MONT71 Series Elevator Integrated Controller Chapter 10 Troubleshooting Countermeasure 1 Check the motor wiring 2 Input correct motor parameters Group F07 Group F10 3 Do the permanent magnet synchronous motor rotating auto tuning under the panel control set F00 07 as 0 1 Replace the contactor i 2 Seek for technical support 1 Please contact th
35. 3 Motor Parameter Auto tuning ccccecceeeeeeeeaneeeeeeanereceeaereseaueeeeneaeeessanseeens 186 9 1 4 Wealer La EE 190 91 5 har Selle AUG sus ions uet acie Duden ee tora bos a tape 192 9 1 6 Check before High Goeed nene 193 9 Er HigliSpeedg le TT Le DEE 194 nies mein Sia M ric EN 196 9 1 9 Adjustment for Comfortable Feeling ceeeeeeeeeeeeeeeeaeeeeeeeeeeeeeeeeeeeaaaaaeees 198 9 2 Typical Application INSTUGUON KEE 201 9 2 1 Power Failure Emergency Running Program 201 9 2 2 Open through Door Re LEE 205 9 2 3 Description of Over load and Full load A 207 9 3 Typical APPC ANON RE 207 Chapter TO Troubleshoollhg seet EE ENEE 213 Chapter 11 Kal lena ed 227 pe s PI AVID NR S TT 228 11 2 Periodical Maintenance AAA 229 TELS Replacing Damaged GT GE 230 11 4 Unwanted MONTEE 230 MONT71 Configuration WW Safety Information and Precautions Product Information Control System Introduction Installation and Wiring Parameters Panel Introduction Function Introduction oystem Typical Application and Adjustment Troubleshooting miU Maintenance Bl Chapter 1 MONT71 Configuration Chapter 1 MONT71 Configuration 1 1 Hardware Configuration No Product Model Application Number Position Remark MONT71 MT71 XT XXX Elevator Each Elevator Must be equipped elevator D control elevator control integrated integrated configures cabinet controller machine one Select the
36. 39 Half load signal normally open input HALFLOAD 40 Fireman normally open input FIRS2 The fireman switch input is used for fireman to run the elevator twice fire control At the fire back to base station MONT71 will get into the fireman running state if there s fireman signal 41 Motor over heated normally open input MT 42 Earthquake monitoring switch normally open input EQ 43 Edges feedback for front door normally open input EDK1 44 Edges feedback for back door normally open input EDK2 45 Brake forced feedback normally open input KMZ 46 Back door prohibition normally open input 47 Alarm bell normally open input 48 49 Reserved MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 147 Function Introduction Function selection of MCB high voltage input terminal X25 Function selection of MCB high voltage input terminal X26 Function selection of 0 99 3 MCB high voltage input terminal X27 0 No function 1 High voltage safe circuit signal JT 2 High voltage locked door 1 signal DS1 3 High voltage locked door 2 signal DS2 4 99 Reserved F12 28 Output function selection of MCB relay YO 0 32 0 F12 29 Output function selection of MCB relay Y1 0 5 1 F12 30 Output function selection of MCB relay Y2 0 5 2 F12 31 Output function selection of MCB relay Y3 0 5 4 F12 32 Output function selection of MCB re
37. Aedsip 4e JB O QUOD euiup a u Jooc Figure 4 1 MONT71 control system configuration diagram The control circuit is designed as ELV Extra Low Voltage circuit and basically insulated with the power circuit Do not touch the control circuit when the controller is on power If the control circuit is connected to the external devices with live touchable port SELV circuit it should increase an additional isolating barrier to ensure that SELV classification of external devices may not be changed If connect the communication terminal of the control circuit to the PC you should choose the RS485 232 isolating converter which meets the safety requirement MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction 4 2 Main Control Board MT71 MCB A The main control board MT71 MCB A is the core of the control system and using the industry leading 32 bit DSP as the control core which completes high performance traction machine vector control and achieves signal I O processing and elevator logic control Main control board MT71 MCB A includes 24 inputs X1 X24 are optional polarity digital inputs 3 inputs X25 X27 are high voltage signal inputs for the safety circuit and locked door circuit 1 input Al is used to weighing analogue input 24 outputs YO Y23 are relay outputs there are 24 L1 L24 button I O terminals and one Modbus is used to communicate with speci
38. Basic Parameters Function P arameters Figure 7 8 Function parameter setting flowchart In the setting level if the parameter is not in anti color displaying it indicates that this parameter can t be modified The possible reasons are as follows The function parameter can t be modified such as the actual detected parameters or recorded parameters etc e tcan not modify the function parameter in the running state Only when MONT71 stops can it modify the function parameter e Group F00 Group F01 Group F07 Group F10 and Group F11 except F11 03 only can be modified at the panel control mode F00 07z 0 or the inspection mode Quick operation of multi bit setting parameter Take F21 03 service floor for example shown as Figure 7 9 e On the setting parameter floor directly pressing lt key and gt key can achieve quick shift of the 16 bit digital e After select the preset bit change the bit via A key and v key F21 08 Service floor 0000 0011 1111 iu Press 0000 0 1111 1111 Floor 1 service opened Floor 10 service opened Function parameter setting level Setting parameter level Quick shift Figure 7 9 Quick operation of 16 bit setting parameter MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 7 103 Panel Introduction 7 3 2 User Password Operation Take the user successful set password 00003 F01 00 00003 and no fault for example The user password s clear and modify should
39. Controller User Manual V1 0 114 Chapter 8 Function Introduction MCB X terminal input logic state 3 Actual value Display the MCB digital input terminals X1 X24 of logic state by a 16 bit binary as following table Bit13 Back door prohibits Bit12 Brake forcely Bit14 Al i ignal i SE the input signal feedback input Bit15 Reserved 0 No signal 0 No prohibited signal 0 Invalid 1 Have the signal 1 Have the signal 1 Valid Bit11 Edge input signal of Bit10 Edge input signal Bit9 Earthquake Bit8 Motor over heated back door of front door monitoring input signal input signal 0 No signal 0 No signal 0 No signal 0 No signal 1 Have the signal 1 Have the signal 1 Have the signal 1 Have the signal Bit7 Fireman signal Bit6 Half load signal Bit5 Locked door circuit 2 Bit4 Locked door circuit 1 0 No signal 0 No signal 0 Disconnected 0 Disconnected 1 Have the signal 1 Have the signal 1 Connected 1 Connected Bit2 Close door button Bit1 Open door button Dm Battery driven Bit3 Safe circuit 2 input input running signal Di 0 Disconnected 0 No input 0 No input 0 No input signal 1 Connected 1 Have the input 1 Have the input 1 Have the signal D02 08 MCB X terminal input logic state 4 Actual value Display the MCB high voltage input terminals X25 X27 of logic state by a 16 bit binary as following table Bit2 High voltage Bit1 High voltage Bito High voltage safe
40. D is state display parameters The users can directly check the state parameters by checking the function code of Group D 8 1 1 Group DOO Configurations of Integrated Hardware and Software D00 00 Controller series Actual value Display the MONT71 elevator integrated controller D00 01 Controller rated power Actual value Display the MONT71 rated power D00 02 Controller rated current Actual value Display the MONT71 rated current Note 1 After the user replaces the main control board MCB the factory Y00 01 model parameter is needed to be reset and D00 01 and D00 02 automatically refresh 2 D00 01 and D00 02 must be the same as MONT71 actual power and current otherwise the MONT71 will run abnormal D00 03 Hardware version of MCB Actual value Display the hardware version of MCB MT71 MCB A D00 04 i Software version of MCB i Actual value Display the software version of MCB MT71 MCB A D00 05 Software version of panel Actual value n Display the software version of panel MT70 LCD A Special software version of MCB Actual value Display the special software version of MCB MT71 MCB A MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction 110 8 1 2 Group D01 Display Parameters in Drive State D01 00 S curve preset speed Actual value Display the S curve preset speed Display the maximum speed of the elevator at shutdown display real t
41. Display content Specific display Elevator running mode Locked elevator state Elevator running times Present floor and direction Up down leveling signal State parameter and unit Door machine state Over load full load state MONT71 Series Elevator Integrated Controller Display auto inspection fire back to base station fireman driver auto back to leveling floor battry driven isolated running mode etc If there is fault alternately display fault code and elevator running mode At the locked elevator state display the a mark otherwise no display Display the present elevator running times Display the present elevator floor and running direction Scrolling the directional arrow shows that the elevator is running and stilling show that the elevator did not start to run When the up leveling signal is valid it displays is valid it displays when the down leveling signal When up and down signals are valid it displays Include running state parameter F15 03 F15 08 and stopping state parameter F15 09 F15 14 Pressing lt key or gt key can cyclically display different state parameters Display opening door OD arrival door lock disconnection closing door CD i arrival door machine fault door lock connection and door machine stop etc When there are front door and back door the display will include front door or back door such as front door
42. Elevator Integrated Controller User Manual V1 0 Chapter 8 129 Function Introduction Forced Dec speed 0 500 2 000 0 500m s Define the deceleration speed when the forced deceleration is effective e When the up and down forced deceleration switch is action and the present detected speed is larger than F04 06 F04 08 the forced deceleration will be valid e When the up and down forced deceleration switch is action and the deviation of the present position and the shaft self learning position are too large the forced deceleration will be valid When the forced deceleration switch is action the elevator decelerates to 0 100m s in accordance with F03 12 and creeps to the leveling area slow down at speed of F03 14 and stop which is shown as following figure SE Forced Dec action F03 12 Up down leveling is valid 0 100m s Stop Dec jerk 0 002 2 000 0 230m s Define the Dec jerk from creeping speed to zero speed at direct parking mode 1 F19 06 1 to adjust the leveling effect with the creeping speed F04 02 together as following figure e When modify F04 02 MONT71 will automatically update F03 13 e Just fine tuning F03 13 can adjust the leveling accuracy F03 13 is automatically updated in the shaft self learning F03 04 Target speed F03 05 F04 02 The creeping speed atdistance control Up down leveling is valid F03 13 F19 03 ue Parking allowance of distance control M
43. F20 16 High bit of storey 9 CANTUS F20 17 Low bit of storey 9 BE Group F21 Elevator Parameters on page 165 166 F210 Paringbasestaton i r ERR ERR F2i 01 Firebase station roo h DI F202 Locked elevator base staton i Fig0o di Group F22 Door Machine Parameters on page 166 168 Group F22 Door Machine Parameters on page 166 168 Fazoo Door machine umber p ESSER E MONT71 Series Elevator Integrated Controller User Manual V1 0 Low bit of storey N 86 Chapter 6 Parameters Parameter Name Setting Range Para F22 01 Front door service floor 1023 set 10 1 floor 1023 F22 02 Back door service floor 1023 set 10 1 floor 1023 overtime 0 Without OD CD torque holding 1 With OD torque holding F22 06 OD CD torque holding 2 With CD torque holding 3 With OD CD torque holding 4 Run process with CD torque holding F22 08 Internal call OD holding ime 3s 0 Normal close the door F22 09 Door state at waiting elevator 1 Base station OD waiting elevator 0 0 rp pep rry rrrr 2 Each floor OD waiting elevator F22 10 Holding time for base station OD 10s F22 11 Delay time of OD holding 10 1000s 30s F22 12 Manufacturer debugging parameter prohibit to change m c gt O r o 3 0 Open through door control mode 0 Open through door control 1 Open through door control mode 1 mode 2 Open through door control mode 2 3 Open through door contr
44. F22 09 normal or not i 3 Check the door lock circuit At the beginning of the learning if any of the following conditions is met the fault will be alarmed 1 The present floor is not the first floor 2 The self learning direction 1 Check the up down forced Dec is not up running switch signal 3 Down forced signal is 2 Actual floor is consistent with invalid present floor F19 01 or not 4 Initial angle of the 3 Synchronous motor is auto tuning Shaft synchronous motor is 0 parameters or not self learning fault 5 At two floors the down 4 Check whether the motor actual leveling sensor isn t out off running direction is correct the leveling plate 5 Check whether the leveling plate installation is correct Run to the second floor if 6 Check whether the leveling switch meet the following condition normally open closed setting is right alarm fault At the second floor self learning the learned adjustment distance is greater than 50cm MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 10 223 Troubleshooting Small panel Fault name Fault cause Countermeasure display Run to the top floor if meet any of following conditions alarm fault 1 Up forced Dec 1 action is valid and in the door zone and the present floor is inconsistent with the preset maximum floor 2 Elevator reaches the set floor and in the door zone and the up forced Dec 1 is no actio
45. HCB display fault code 0 No display 1 Display Bit11 Bit15 Reserved MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction Hall call parameter setting confirm 0 1 0 0 No action 1 Hall call parameter setting confirms Note After modify F26 31 parameter it will need to set F26 32 as 1 and send the hall call set to the HCB and the internal call display board of various floors by communication If it only need modify Bit10 of F26 31 there is no need to set F26 32 F26 33 A Hall call HCB H indicator 1 meaning 0 5 11 F26 34 Hall call HCB H indicator 2 meaning 0 5 2 F26 33 F23 34 define the meanings of indicator1 and indicator 2 on MT70 HCB H The positions of indicator 1 and indicator 2 refer to section 4 3 page 32 The user can flexibly choose according to the actual configuration of the elevator 0 No function Full load indication Inspection indication Stop indication Over load indication oO FR O N Fault indication GEELEN i prohibit to change 8 2 28 Group F27 Elevator Adjustment Enhanced Function Parameters Manufacturer debugging parameter F27 00 An prohibit to change F27 01 A Manufacturer debugging parameter prohibit to change Manufacturer debugging parameter F27 58 m prohibit to change Manufacturer debugging parameter prohibit to change 8 3 Group Y Manuf
46. Interference Countermeasures MONT71 radiation emission MONT71 operating theory means that some radiation and emission is unavoidable MONT71 is usually installed in a metal cabinet which normally little affects the instruments outside the metal cabinet The cables are the main radiation emission source If connect the cables according to this manual the radiation and emission can be suppressed effectively If MONT71 and other control equipment are installed in one cabinet the area rule must be Observed Pay attention to the isolation between different areas cable layout and shielding MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 5 Installation and Wiring Reducing conducted interference Please add a noise filter to suppress conducted interference on the output side Additionally conducted interference can be efficiently reduced by threading all the output cables through a grounded metal tube And conducted interference can be dramatically decreased when the distance between the output cables and the signal cables is above 0 3m RF interference clearing The I O cables and MONT71 itself will produce radio frequency interference A noise filter can be installed both on the input side and output side and shield them with iron utensil to reduce HF interference The wiring distance between MONT71 and motor should be as short as possible shown in Figure 5 10 MCCB lron box Metal tube Figure 5 10 RF interference cl
47. List by our company In general the warranty card will not be reissued Please keep the card and present it to the maintenance personnel when asking for maintenance If there is any problem during the service please contact the agent of our company or our company directly
48. Present height 0 00 299 99m ooon x 0 60mm Leveling distance adjustment F19 06 0 F19 03 is leveling distance F19 03 Parking allowance of distance adjustment 30mm x control F19 06 1 F19 03 is parking allowance of distance control EES position correction 0 500mm Omm x coefficient BER point through output 0 050 2 000s 0 250s x adjustment 0 Direct parking mode 0 without creep 1 Direct parking mode 1 with creep Highest speed of curve 1 0 000m s x Highest speed of curve 2 0 000m s FEMME Highest speed of curve 3 0 000m s F00 02 lo000ms x Highest speed of curve 4 lo000ms x Highest speed of curve 5 lo00m s x F19 12 Up forced Dec position 0 00 300 00m 0 00m F19 13 Down forced Dec position 0 00 300 00m 0 00m F19 14 F19 17 Manufacturer debugging parameter prohibit to change Group F20 Storey Height Parameters on page 163 165 F20 00 High bit of storey 1 F20 01 F20 02 High bit of storey 2 F19 0 F19 05 F19 06 Direct parking selection F19 07 F19 08 F19 09 F19 10 F19 11 F19 00 F1901 S F1907 am F19 09 F19 10 pa Pais F1913 Nu Low bit of storey 1 0 50000 F20 03 Low bit of storey 2 Storey N high bit number xx 2N 2 a F20 xx High bit of storey N Storey N low bit number xx 2N 1 F20 xx F20 14 High bit of storey 8 Storey height F20 15 Low bit of storey 8 50000 xstorey high bit storey low bit LEE NN
49. Speed Check the internal hall call elevator signal via the state parameters of Group D as following table Parameter Name Parameter Name l k 10 1 D03 00 Pissert Igor D03 05 Registration state of back door 10 internal call floor Registration state of front door 9 1 DO3 01 Present height D03 06 I I I hall call up run i i l l i R f k 9 1 D03 02 1 Distance of lowest floor D03 07 egist aton SIA o ach G0 hall call up run Registration state of front door 10 2 D03 03 Distance of highest floor D03 08 i i hall call down run Registration state of front door 10 1 internal call floor Registration state of back door 10 2 D03 04 hall call down run l D03 09 l Open close door debug 1 Turn the inspection switch to the inspection position Set parameter for the door machine inverter to ensure that its running curve is normal and output OD CD arrival signal normally 2 According to system configuration connect the OD CD arrival signal of the door machine inverter to the control system 3 The elevator inspection opens to the leveling area 4 The OD CD command is given by the following three methods e Via the up down command the elevator automatically closes the door at the same time give the up down command elevator automatically opens the door e Via the panel long press RUN key to open the door and long press STOP key to close the door e V
50. and base setting 180 700 400mm F26 24 0 1 1 F26 24 defines whether return to base station when the elevator position deviation is too large 0 Do not return to base station 1 Return to base station F26 25 is the base value for detecting deviation too large Elevator increased function 2 0 65535 0 Bit0 Close the door via CD button due to no OD arrival 0 The CD button cannot close the door 1 The CD button can close the door Bit1 Detect the timeout of auto back to re leveling 0 Detect 1 Do not detect Bit2 Safety circuit fault priority 0 Normal safety circuit fault level 1 High safety circuit fault level If there are other failures in the system this time after the safety circuit is disconnected the system automatically resets the original fault and then the fault code is updated to the present safety circuit disconnection fault Bit3 Bit15 Reserved MONT71 Series Elevator Integrated Controller User Manual V1 0 77 178 Chapter 8 Function Introduction F26 27 F26 28 Manufacturer debugging parameter prohibit to change F26 29 i Emergency return leveling and stop delay 0 000 3 000 0 100s Define at emergency back to leveling operation after receive the up down leveling signal and the setting time of F26 29 decelerate to stop Used to adjust the leveling accuracy at back to leveling floor F26 30 Return leveling and stop delay 000 3 000
51. and electrolytic capacitors of filters Their lifetime depends largely on their application environment and preservation The users can decide the time when the components should be replaced according to their service time Cooling fan Life 60 000 hours Possible cause of damages Wear of the bearing aging of the fan vanes Criteria After MONT71 is switched off check if the abnormal conditions such as crack existing on fan vanes and other parts When MONT71 is switched on check if MONT71 running is normal and check if there is any abnormal oscillation Electrolytic capacitors Life 50 000 hours Possible cause of damages High ambient temperature aging of electrolyte and large pulse current induced by rapid changing loads Criteria Check if frequent overcurrent or overvoltage failures occur during MONT71 start up with load Check if there is any leakage of liquids Check if the safety valve protrudes Measure the static capacitance and insulation resistance 11 4 Unwanted MONT71 When disposing the controller please pay attention to the following factors The capacitors of MONT71 may explode if they are burnt Poisonous gas may be generated when the plastic parts like front covers are burnt Please dispose the unwanted MONT71 as industrial waste MONT71 Series Elevator Integrated Controller User Manual V1 0 Warranty Card Barcode on the product body paste here User s quality evaluation for the service uomneuJojJul JOU
52. content and countermeasures Small panel Fault name display DC bus undervoltag e Controller output Acc overcurrent Controller output Dec overcurrent Controller output constant Speed overcurrent 1 Main circuit output is grounding 2 Main circuit output is short wiring 3 The motor has not done parameter auto tuning 4 Load is too heavy 5 Encoder signal is wrong Fault cause i Countermeasure 1 Power on initial state power down end state 1 Normal power up down status 2 Input voltage is too low normal correctly 3 Wiring does not regulate 2 Check the input supply voltage resulting in hardware 3 Check the wiring and regulate it undervoltage 4 Set the model Y00 01 correctly 4 Model is set incorrectly l i L L 1 Main circuit output is 1 Check the main circuit output side grounding whether groud is short circuited and 2 Main circuit output is short output phase is short circuited wiring 2 Check whether the power wiring 3 The motor has not done is damaged and the wiring is solid parameter auto tuning 3 Check wheter the motor internal exists a short circuit or shorted to ground 4 Load is too heavy 5 Encoder signal is wrong 6 Encoder signal interference 4 Outputside contactor is abnormal 5 Star delta contactor causes 7 Acceleration curve is too MONT71 output short circuited steep 6 Set the correct motor parameter
53. enter the setting parameter F01 00 and the operating process is shown as Figure 7 10 If there is neither user password nor fault the panel will directly display state display interface If there is no user password but fault the panel will directly display fault display interface If there is user password but no fault after input the correct password the panel will directly display state display interface If there are user password and fault after input the correct password the panel will directly display fault display interface The state display interface refers to section 7 1 4 the fault display interface refers to section 7 1 3 Input password 10F 1 0 0 Om s CD arrival State display Basic Parameters Function Parameters Function group setting level Mode setting level rom roi 09 F01 00 User Parameters User password User password Function group setting level Function parameter setting level Setting parameter level Figure 7 10 Enter to set parameters User password s clear After enter the setting parameter F01 00 always set F01 00 as 00000 directly press ENT key to clear the password User password s modify and set After entering the setting parameter F01 00 always set F01 00 as 00000 directly set password and then press ENT key to save If detected no press on the panel s key within 5 minutes the user password is valid otherwise restart 5 minute timer MONT7
54. internet of Each Elevator Optional i elevators elevator control i configures cabinet one MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 1 MONT71 Configuration 1 2 Function Table Standard function No Function name No Function name No Function name Auto run 2 river run 3 Inspection run Isolated run Advanced OD run D Self rescue back to Firefighting back to i Fireman run leveling run base station run I i L L i OD re leveling run I i Panel OD CD operation operation i L Auto back to base Locked elevator Anti nuisance function Station run function Full selective Up selective Down selective Shaft self learning i I i Testing run Inspection OD CD i function Over load protection Lighting and fan l Floor service set for 24 i energy saving function i front and back door Door machine Open through door i Open the door outside 25 i i i i i i multi modes operation control modes i i this hall OD button open the i Auto open door at Repetition of door door power on closing Category setting for the time keeping door open Miss delete car Floor display by any command setting Various hall data display imale Car arrival chime i Double hall call onthe 41 Hall call adhesion 2 Weighing sig
55. load enable 0 Disabled over load 1 Enabled over load After the elevator reaches the over load and there is no over loaded protection it will run in accordance with the full load state MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction 71 8 2 27 Group F26 Elevator Function Selections F26 00 Call elevator floor setting 0 F19 00 0 When use for debugging elevator calling elevator via panel is the same with the internal call floor command registration F26 01 d Shaft self learning 0 1 0 0 Does not work 1 Start shaft self learning F26 02 Driver function 0 255 3 Bit0 Open driver function 0 Without driver function 1 With driver function Bit2 Bit1 Hall call disposal at driver mode 00 Buzzer no action and internal call is not flashing 01 Buzzer no action internal call is flashing 10 Buzzer action and internal call is not flashing 11 Buzzer action internal call is flashing Note When the internal and hall call are valid at the same floor the car display defaults 00 buzzer no action internal call is not flashing Bit3 CD arrival without registration command and auto open door 0 Auto open door 1 Do not auto open door n Bit4 Bit6 Reserved Bit7 Closed door mode selection 0 Long press the CD button to close the door 1 Jog to close the door F26 03 Firefighting function 0 1 1 F26 04 Re leveling function
56. lock circuit Figure 4 12 Advanced open block of working time diagram Starting working at power on and according to the connection of section 4 4 2 the relay RLY1 will operate and its corresponding contact will act When elevator is running and the signal is detected on up re leveling FL1L FL1 that is effective the relay RLY2 will work and the corresponding contact will act When the signal is detected on down re leveling FL2L FL2 that is effective the relay RLY3 will work and its corresponding contact will act and the door zone signal input SX1 X1 will be caused at the same time When MONT 71 series detect the door zone signal SX1 X1 advanced open door output relay Y4 SY will output if relays RLY2 and RLY3 are effective while relay RLY4 is effective the corresponding contact will act When MONT71 detect the pre opening signal SX2 X19 that is effective the locked door will work and be short circuited so as to achieve the advanced open door MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction After open door in advanced the advanced open output relay Y4 SY will disconnect the relay RLY4 will not work the corresponding contact will act and the input signal of the advanced open signal will be invalid and the locked door lock will disconnect When the up re leveling signal FL1L FL1 is invalid the relay RLY2 will not work and the door zone input signal will be invali
57. machine service floor door switch holding torque e If the car stop at one floor press the call button of this floor the b Support 4 open through door control modes door will automatically open After the elevator continuing close the door for a certain time if g the door lock has not been closed the elevator opens the door The elevator stopping at the door zone you can re press the OD button in the car to make elevator to re open the closed or no closed door Under normal circumstances each time the elevator system is powered up if the car is in the door zone the car door will open automatically automatically and then repeats to close the door Forced close door i i due to some reason output the forced CD signal the light curtain is invalid and the buzzer sounds at the same time CD button advanced close door MONT71 Series Elevator Integrated Controller In automatic state the time of closing door lasts 60 seconds At auto run mode pressing the CD button can cancel the door keep opening function and after OD arrival close the door immediately Remark Set F22 0540 i Set F26 13 1 User Manual V1 0 Chapter 1 MONT71 Configuration Remark No Function name Function description System can identify different time to keep the door open internal call to open the door hall call to open the door base Category setting for the time keeping door open Keep ope
58. model in accordance with motor power etails refer to section 3 1 odel Explanation M M T71 MCB A Elevator main Each MONT71 or board elevator ontrol configures abinet one Main control board Must be equipped MONT71 has included C C MT70 LCD A For elevator adjustment MT70 LCD B can store 10 group parameters Optional MT70 LCD B L Display control MT71 HCB A For inside car Each Optional board internal MT70 HCB H display elevator Thecustom amp ean L call board configures design on their one L MT70 HCB F i own MT70 HCB I Display control i For hall call Each floor Outside MT71 HCB A is MT70 HCB D board hall call landing and configures calling box parallel and others board floor display one are serial Advanced MT70 AOB A For advanced Each Elevator Optional open block door and OD configures control re leveling one cabinet Door machine MONT10 For door Each door Optional controller machine motor control configures one Power Regenerate Each Elevator Optional regenerative the energy elevator control unit back to the configures cabinet power grid one Encoder MT70 PG1 ABZ For Each MONT71 Optional interface card asynchronous elevator series Select according to motor configures elevator the encoder type l one integrated MT70 PG2 SINCOS For controller L L I L MT70 PG3 UVW Synchronous motor i Li IE module For
59. of 21 Buzzer output BUZ MCB relay Y16 22 Over load output LWD AL Output function selection of 23 Arrival chimes output MCB relay Y17 24 Full load output LWX F42 4g Output function selection of 25 Inspection output MCB relay Y18 26 Fan and light output 2 FAN2 bordo Output function selection of 27 Locked door contactor output FM MCB relay Y19 28 High bit output of BCD code Gray Output function selection of E SEVEN d F1248 MCB relay Y20 29 Integrated run correctly output Output function selection of EIER F12 49 MCB relay Y21 31 Elevator down run output F12 50 Output function selection of MCB relay Y22 F12 51 Output function selection of MONT71 Series Elevator Integrated Controller User Manual V1 0 Para NS E Chapter 6 79 Parameters Function 5 Parameter Name Setting Range Value ara Group F13 Main Control Board L Terminal Parameters on page 150 153 eee ieii t MCB 0 No function F13 01 unc ion selection o 201 terminal L1 201 Front door OD button E fes MCB 202 Front door CD button F13 02 ans A 203 Front door OD delay button terminal L2 204 Two doors select button input 205 Back door prohibited switch normally F13 03 Function selection of MCB open input l terminal L3 301 Back door OD button F13 04 Function selection of MCB 302 Back door CD button terminal L4 303 Back door OD delay button F13 05 Function selection of MCB 210 10th floor of front door internal call terminal
60. on 5 inductance model F07 10 Asynenronous motor mutual 0 0 6553 5mH y inductance F07 11 Asynchronous motor no load 0 0 999 9A N current A h f Ais 00 50 0 50 saturation coefficient 1 A h f Fa ee ee oo ome 0 75 T saturation coefficient 2 A h f ma ee oge 1 20 saturation coefficient 3 F07 15 Asynchronous motor torque 0 1 30 094 0 1 boost Pie ees 0 0 50 096 F07 03 10 0 boost end point Asynchronous motor of slip F07 17 l 0 0 300 0 100 0 compensation gain E x A h f sli poss ee MR 0 1 10 0s 0 1s compensation filter time F07 19 Slip compensation limitation 0 0 250 0 200 0 x BitO Exciting current optimization 0 Normal processing 1 Optimization processing Asynchronous motor V Bit1 Method of exciting current x performance optimization MEE optimization 0 Voltage method 1 Current method MONT71 Series Elevator Integrated Controller User Manual V1 0 74 Chapter 6 Parameters Parameter Name Setting Range Bit2 Bit15 Reserved 0 Oscillation suppression is dependent on the motor s exciting component Asynchronous motor of oscillation suppression mode NM TE 1 Oscillation suppression is dependent on the motor s torque component Asynchronous motor of oscillation suppression coefficient Group F08 Vector Control Speed loop Parameters on page 137 139 0 000 1 000s F08 07 ASR differential time 0 000s 0 000 ASR without differential 0 000 1 000s F0
61. open through door control and reasonable set F22 17 open through door control mode according to the actual configuration of the open through door Description of double internal calls inside the car The double internal calls inside the car have two cases e If there is only one door the significances of the two internal calls are the same The button simple wire in parallel can be achieved e If there are two doors the usage refers to section 9 2 2 Open through Door Description MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 9 207 System Typical Application and Adjustment 9 2 3 Description of Over load and Full load MONT71 supplies many over load and full load signals inputting modes When in use correctly set the corresponding parameters Briefly explain its use in the following Analogue input terminal inputting method Via MCB or CTB input terminal select over load and full load signal input changing normally open normally closed set can match different types of switches Analogue weighing signal inputting method Anglogue signal input channels MCB s Al terminal The analog can do weighing self learning which is referred to section 8 2 6 Group F05 Weighing Compensation Parameters page 132 When analog weighing signal is more than 80 of the full load signal it can be considered a full load signal if more than 110 it is the over load signal Note As long as the input terminals of MCB selec
62. output Bit9 Fan and light output 2 Bit10 Locked door contactor output Bit11 High bit output of BCD Gray code and seven segment Bit12 Integrated run correctly output Bit13 Bit14 Reserved Bit15 EE driven output at power off Group D03 Display Parameters of Floors for Service and Registration Con page 118 119 ss D03 Display Parameters of Floors for Service and Registration Con page 118 119 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 67 Parameters Function 5 Parameter Name Setting Range Value ara D03 00 Present floor 1 F19 00 Actual value pe D03 01 Present height 0 00 299 99m Acualvalue D03 02 Distance of lowest floor 0 00 299 99m Actual value EN D03 03 Distance of highest floor 0 00 299 99m Actual value EIL D03 04 Registration state of front door Display in 10 bit binary and from low to TER STEE 10 1 internal call floor high bit represent D03 04 front door 10 1 floors with or without registration Registration state of back door DOs 00 pack door 10 1 floors with or EEA i 10 1 internal call floor without registration e 1 This floor has registration e 0 This floor does not have registration TEUER f D03 06 Registration state of front door EE in 9 bit binary and from low to EG ES E 9 1 hall call up run high bit represent D03 06 front door hall call address 9 1 with or without registration D03 07 back door hall call addr
63. speed in a non inspection mode automatically return to the leveling process to reach the leveling area where a leveling switch has been activated and the other leveling switch unactuated and the running speed in open door of the re leveling e In the non leveling area the speed is 0 200m s at automatically returns to leveling Advanced open speed 0 020 0 100 0 050m s Define that open the door in advance when the elevator running speed is less than F04 05 Note 1 When set F26 05 as 1 with advanced open function this parameter is valid 2 The advanced open block MT70 AOB A should be equipped MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 131 Function Introduction Forced Dec speed setting 0 0 105 0 F00 03 103 0 Manufacturer debugging parameter prohibit to change F04 07 F04 08 i The preset value of F04 06 is relative to the percentage of the elevator rated speed F04 06 is corresponding to the speed reference point of up down forced deceleration switch e At up down forced deceleration switch action if the car speed is greater than the forced Dec speed setting F04 06 it will decelerate to 0 100m s in accordance with forced deceleration F03 12 There is one forced deceleration switch installing in the shaft and its position is refered to the figure of parameters F19 12 F19 13 F04 09 Over speed setting 80 0 120 0 F00 03 115 096 Over speed detectio
64. to Group F07 2 If the motor type is selected as synchronous motor the motor parameters are corresponding to Group F10 Control mode 0 Constant voltage frequency VF control The constant control voltage frequency ratio is only applicable for the asynchronous motor 1 Open loop vector SVC control The vector control without speed sensor is only applicable for the asynchronous motor 2 Encoder closed loop VC control The vector control with speed sensor is applicable for normal distance control Note 1 V f control and SVC control are applicable for the asynchronous motor without installing encoder which is a kind of temporary run mode when the elevator is in inspection run 2 The synchronous motor can only use the VC control and must do the parameter auto tuning before inspection running Otherwise it may be out of control F00 02 Elevator max running speed 0 150 F00 03 0 500m s Define the elevator max running speed The upper limit of the setting range is F00 03 elevator rated speed Speed related parameters of Group F04 and Group F19 should be smaller than F00 02 Elevator rated speed 0 150 1 500 0 500m s Define the elevator nominal rated speed This speed is decided by the elevator mechanical structure and traction machine rated speed F00 04 Elevator rated load 100 50000 1000kg Define the elevator nominal rated load e The anti nuisance function will use the function of F0
65. value Bit5 6th floor of front door down call Bit6 7th floor of front door down call Bit7 8th floor of front door down call Bit8 9th floor of front door down call Bit9 10th floor of front door down call Bit10 Bit15 Reserved Display in 16 bit binary and from low to high bit represent BitO 1st floor of back door internal call Bit1 2nd floor of back door internal call Bit2 3rd floor of back door internal call Bit3 4th floor of back door internal call e for AGK doprimernal Bit4 5th floor of back door internal call Actual value Bit5 6th floor of back door internal call Bit6 7th floor of back door internal call Bit7 8th floor of back door internal call Bit8 9th floor of back door internal call Bit9 10th floor of back door internal call Bit10 Bit15 Reserved Display in 16 bit binary and from low to high bit represent BitO 1st floor of back door up call Bit1 2nd floor of back door up call Bit2 3rd floor of back door up call L terminal for back door up call Bit3 4th floor of back door up call state Bit4 5th floor of back door up call SS SE Bit5 6th floor of back door up call Bit6 7th floor of back door up call Bit7 8th floor of back door up call Bit8 9th floor of back door up call Bit9 Bit15 Reserved Display in 16 bit binary and from low to high bit represent L terminal for back door down BitO0 Reserved i Actual value call state Bit1 2nd floor of back door down call Bit2 3rd floor of
66. 0 Invalid 1 Valid Bit8 X9 terminal 0 Invalid 1 Valid Bit4 X5 terminal 0 Invalid 1 Valid BitO X1 terminal 0 Invalid 1 Valid Actual value Display the MCB digital input terminals X17 X27 of state by a 16 bit binary as following table Bit15 Bit11 Reserved Bit7 X24 terminal 0 Invalid 1 Valid Bit3 X20 terminal 0 Invalid 1 Valid Bit10 X27 terminal 0 Invalid 1 Valid Bite X23 terminal 0 Invalid 1 Valid Bit2 X19 terminal 0 Invalid 1 Valid Bit9 X26 terminal 0 Invalid 1 Valid Bitb X22 terminal 0 Invalid 1 Valid Bit1 X18 terminal 0 Invalid 1 Valid Bit8 X25 terminal 0 Invalid 1 Valid Bit4 X21 terminal 0 Invalid 1 Valid BitO X17 terminal 0 Invalid 1 Valid MONT71 Series Elevator Integrated Controller User Manual V1 0 112 Chapter 8 Function Introduction D02 03 MCB L terminal input state 1 Actual value Display the MCB floor input terminals L1 L6 of state by a 16 bit binary as following table 123 Bit15 L16 terminal Bit14 L15 terminal Bit13 L14 terminal Bit12 L13 terminal 0 Invalid 0 Invalid 0 Invalid 0 Invalid 1 Valid 1 Valid 1 Valid 1 Valid Bit11 L12 terminal Bit10 L11 terminal Bit9 L10 terminal Bit8 L9 terminal 0 Invalid 0 Invalid 0 Invalid 0 Invalid 1 Valid 1 Valid 1 Valid 1 Valid Bit7 L8 terminal Bit6 L7 terminal Bitb L6 terminal Bit4 L5 terminal 0 Invalid 0 Invalid 0 Inval
67. 0 04 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction Controller max output frequency 5 00 100 00 50 00Hz Define the controller allowable output max frequency Note F00 05 must not be less than the motor rated frequency and is normally set as rated frequency of the motor F00 06 Traction machine mechanical parameter 10 0 6000 0 20 0 The formula for calculating motor mechanical parameters is as below F00 06 uu A ix Winding mode D Diameter of motor mm i Dec rate Winding mode To set in accordance with the actual elevator setting Note F00 06 is calculated based on the traction machine parameters It decides the control precision and must be correctly set otherwise it can not run normally at the distance control The specific performances are as follows 1 The panel displaying speed and the elevator actual speed are inconsistent 2 The data from shaft self learning and the actual floor data are different F00 07 Operation mode i 0 1 1 0 Panel control e Via RUN and STOP keys of the panel to control the running speed is set by F00 09 Only use for testing or motor parameter auto tuning 1 Distance control At inspection running the elevator runs in accordance with F04 00 inspection run speed At normally running automatically calculating the speed and run curve in accordance with the elevator present floor and the distance o
68. 0 08 Manufacturer debugging parameter prohibit to change pF TA F00 09 Speed setting via panel 0 000m s F00 02 0 500m s GK l e 0 The same as run command F00 10 Elevator run direction x 1 Opposite to run command MONT71 Series Elevator Integrated Controller User Manual V1 0 F00 06 F00 07 70 Chapter 6 Parameters Function B Parameter Name Setting Range Value ara Group F01 User Parameters on page 124 127 estar 20000 65536 xum 0 Standard menu mode 1 Checking menu mode Only different F01 01 Menu mode selection from factory setting parameters can be displayed 2 Reserved 0 No operation 1 Restore to factory settings 2 Download the panel parameter group 1 to MCB 3 Clear fault information 4 Download the panel parameter group 2 to MCB 5 Download the panel parameter group 3 to MCB 6 Download the panel parameter group 4 to MCB F01 02 MCB parameter update 7 Download the panel parameter group 5 x to MCB 8 Download the panel parameter group 6 to MCB 9 Download the panel parameter group 7 to MCB 10 Download the panel parameter group 8 to MCB 11 Download the panel parameter group 9 to MCB 12 Download the panel parameter group 10 to MCB 0 No operation 1 Upload MCB parameters to panel parameter group 1 2 Upload MCB parameters to panel parameter group 2 3 Upload MCB parameters to panel parameter group 3 4 Upload MCB parameters to panel F01 03 Panel param
69. 0 1 0 F26 05 Advanced open function 0 1 0 F26 03 F26 05 define the corresponding function selection 0 Without corresponding function 1 With corresponding function Note If you want the re leveling function and the advanced open function you should have the advanced open block MT70 AOB A MONT71 Series Elevator Integrated Controller User Manual V1 0 172 Chapter 8 Function Introduction Hall call Modbus communication 0 1 0 0 Do not open the hall call Modbus communication 1 Open this function When MONT71 requires the hall call board of MONT70 the various floors of the key information will be transmitted to the main control board through Modbus communication e This method can reduce the hall call wiring referring to MONT70 Series Elevator Integrated Controller User Manual Forthis method the L1 L24 terminals in response to hall call function Group F13 are invalid F26 07 Isolated run 0 1 0 0 Do not open this function 1 Open this function F26 08 Locked elevator BCD code hall call display Bit0 To set the SegA output 0 No SegA output 1 SegA output Bit1 To set the SegB output 0 No SegB output 1 SegB output Bit2 To set the SegC output 0 No SegC output 1 SegC output Bit3 To set the SegD output 0 No SegD output 1 SegD output Bit4 Bit7 Reserved Manufacturer debugging parameter prohibit to change F26 09 F26 10 F26 11 Miss delet
70. 0 100s Define at auto back to leveling run and open door re leveling run after receive the up down leveling signal and the setting time of F26 30 decelerate to stop Used to adjust the leveling accuracy at back to leveling floor and will be automatically update after the shaft self learning Users generally do not need to change it When the back leveling floor has poor accuracy or returns to leveling floor more than three times at one door zone you can adjust the F26 30 for the leveling adjustment F26 31 Hall call parameter setting i 0 65535 512 F26 31defines the way of hall call display used with F26 32 e Only when F26 06 set as 1 and equipped with MT70 HCB hall call board can F26 31 will work e When F26 06 set as 1 open the hall call Modbus communication F26 32 F26 33 F26 34 will work Bit0 The way of digital arrow display 0 Scrolled 1 Fixed Bit1 Format of arrow display 0 Big arrow 1 Small arrow Bit2 Direction button input type Bit3 Firefighting signal input type Bit4 Locked elevator signal input type 0 Normally open 1 Normally close Bit5 Floor display 0 Dynamic 1 Direct Bit6 Single digit display 0 Center display 1 Unilateral display Bit7 Energy saving display selection 0 Enabled energy saving display 1 Disabled energy saving display Bit9 Bit8 LCD bright adjustment 00 Low bright 01 Middle bright 10 High bright 11 The brightest Bit10
71. 00 motor type 3 Set the motor parameters Group F07 or Group F10 in accordance with motor nameplate 4 Set F00 03 elevator rated speed the system will automatically calculate F00 06 traction machine mechanical parameters which should be compared to the value obtained by the following formula F00 06 so as to ensure that both are consistent TXD F00 06 i X Winding mode Of which D Diameter of motor mm i Dec rate Winding mode To set in accordance with the actual elevator setting 5 Set the other parameters refer to the following table And check the corresponding state of MCB and CTB I O terminal setting function by Group D Parameter Recommended value F00 00 Motor type Based on the actual setting F00 01 Control mode 2 VC control F00 02 Elevator max running speed Based on the actual setting F00 03 Elevator rated speed Based on the actual setting F00 04 Elevator rated load Based on the actual setting i Generally set as the motor F00 05 Controller max output frequency Based on the motor setting y i rated frequency r Traction machine mechanical The system automatically F00 06 parameters calculate F00 07 Operation mode 1 distance control Acceleration and Deceleration Basses nacded F Ge Curve Parameters i Group F04 Speed Parameters Be set as needed Asynchronous motor rated FO7 00 power Based on the actual se
72. 1 F02 04 200ms F02 00 F02 05 F 02 02 start speed 4 r 02 03 retention time of start speed SSES LII Leveling signal Leveling signal KE WOR Internal running state Run contactor Run contactor feedback Brake contactor Brake contactor feedback Locked door contactor Locked door contactor feedback Synchronous star delta contactor Synchronous star delta contactor feedback 0 000 2 000 0 200s Retention time of start zero speed Define the time of zero speed output before brake open During this time a magnetic field can be created which may improve the starting comfort Delay time of curve run 0 000 2 000 0 500s Define the delay time of curve from zero speed to preset speed Note When F05 00 pre torque selection is set as 3 pre torque auto compensation F02 01 is set to at least 0 5s Start speed 0 000 0 030 0 000m s Retention time of start speed 0 000 2 000 0 000s F02 02 defines the MONT71 initial speed at start e Setting a suitable start speed can overcome the static friction at elevator starting but if the setting is too large it will cause the starting instant impact F02 03 defines the retention time of running start speed F02 02 during MONT71 starting process F02 04 Brake close delay time at stop 0 000 2 000 0 200s Define the time of MONT71 f
73. 1 Series Elevator Integrated Controller User Manual V1 0 104 Chapter 7 Panel Introduction 7 3 3 Panel Self test The panel of MONT71 series has self test function which facilitates periodic inspection for its display and the keys The process of panel self testing 1 In MONT71 stopping state press d key and ENT key simultaneously for 2 3 seconds the panel will check the LCD whether works well which is shown as Figure 7 11 Figure 7 11 Start to display the panel self test 2 Press any key of the panel and if the state is in anti color display it means the key is valid which is shown as Figure 7 12 During this process if there is no press in 4 5 seconds it will directly jump to the step 4 If the self test is success it will jump to the step 3 Please press the key Ed Fw i lt gt RUN v STOP Please press the key Fw ow lt gt RUN v STOP Please press the key PRG A ENT lt gt RUN v STOP PRG Please press the key Eg Fw HB Please press the key A E gt RUN v STOP lease press the key Please press the key A A KI La E gt W STOP BA sto RUN v STOP Figure 7 12 Panel s keys and correct corresponding displays 3 If all keys are valid the panel will display Panel self test pass The Panel self test pass will auto disappear within 3 5 seconds and back to display state before self testing 4 If the key is invalid the corresponding display will not be in anti colo
74. 1 Series Elevator Integrated Controller User Manual V1 0 Chapter 9 203 System Typical Application and Adjustment Auto running car program Motor speed mmh power power AC power Run contactor ZE EE input eel Star delta contactor Emergency return leveling and stop delay Figure 9 3 Auto running car time sequence Function parameter setting According to Figure 9 2 setting function parameters of auto running car are as follows Meaning g MCB relay YO output Power failure emergency run is F12 28 i gemit enabled UPC Synchronous motor d According to the synchronous F26 19 1 star delta contactor a M P star delta contactor operation mode L L parameter setting I and control functions Li Bit Set according Whether open the emergency Battery driven run to the actual operation timeout protection parameter setting Open the synchronous motor atuo running car function F26 15 According to Figure 9 2 setting function parameters of emergency power supply run are as follows Parameter Name Setting value Meaning i i Battery driven normally open input UPC MCB relay YO output Power failure emergency run is MCB input terminal X21 terminal l enabled UPC B dri Do not open atuo running car function i Battery driven run i parameter setting Automatically judge the direction of the emergency
75. 2 2 You can simplify the parameter setting via parameter upload and download to improve debugging efficiency Parameter upload and download are generally applied on the following occasions 1 After on site debugging one elevator this elevator parameter is needed to copy to another elevator 2 If the on site debugging MCB need to be replaced by a new one the new MCB parameters need to re set Both of these cases can set F01 03 as 1 upload parameter to panel then in the other MCB set F01 02 as 2 download parameter to MCB Notes of upload and download 1 For the replaced MCB after parameters upload and download if equipped with Sincos encoder interface card the parameter auto tuning should be restarted due to the MCB hardware parameter differences 2 For different elevator parameters download you need to restart shaft self learning otherwise the floor data may be inconsistent with the actual which can affect the normal operation of the elevator 3 Replace the MCB for different motor you need to re start parameter auto tuning or it may be out of control 4 Parameter upload and download can be done only at the inspection mode or panel control mode MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction 8 2 3 Group F02 Start and Stop Parameters The correspondence relationship of various signals and curves in the running process follows FIG Slope F 00 03 F 02 06 F02 0
76. 2kHz 6kHz The greater F18 00 is the lower the loss and temperature in the motor is but the larger the system loss and interference is and the higher the temperature is The smaller F18 00 is the higher the loss and temperature in the motor is and the greater the higher harmonic component of the output current is When the value of F18 00 is higher than the factory setting MONT71 should be derated by 5 when per 1 kHz is increased compared to the factory setting F18 01 Carrier frequency auto adjust enable 0 1 0 0 Disable the carrier frequency auto adjustment 1 Enable the carrier frequency auto adjustment F18 02 PWM over modulation enable 0 1 1 0 The over modulation is disabled 1 The over modulation is enabled F18 03 PWM modulation mode 0 1 1 0 Two phase modulation and three phase modulation switch 1 Three phase modulation MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction 161 8 2 20 Group F19 Distance Control Parameters F19 00 Total floor 2 10 5 Define the total number of floors Present floor 1 F19 00 1 Define the present physical floor of car The system can automatically change F19 01 when elevator is running And the system can automatically revise F19 01 after the up or down forced deceleration switch is touching off When elevator is in non bottom or non top floor up down leveling signal is valid users can
77. 54 Synchronous motor star delta contactor feedback abnormal E0055 Changed floor park fault F17 08 No 1 fault type E0056 Run contactor feedback abnormal the farthest time E0057 Brake contactor feedback abnormal E0058 Leveling signal abnormal E0059 Receive OD and CD arrival signals at the same time E0060 Forced Dec distance is too short E0061 Reserved E0062 Inspection run overcurrent E0063 Advanced open door abnormal rm E IS E Er Jeu ae CNN CERE No 5 fault am EA ENG No 6 fault en Bo qc No 7 fault E uc qe No 8 fault FE l0 o e No 9 fault IT EN l0 e No 10 fault No 10 faulttypge e EAA F17 19 The most recent running speed 0 000 4 000m s 0 000m s at faulty F17 20 The most recent DC bus voltage 0 999V at faulty h F17 21 The most recent output current ST EEN at e EEA T EE Group F18 PWM Control Parameters Con page 160 160 F18 PWM Control Parameters on page 160 161 D d on F18 00 Carrier frequency 1 16kHz model Carrier frequency auto adjust 0 Disable F18 01 enable 1 Enable 0 Disable F18 02 PWM over modulation enable 1 Enable 0 Two phase Three phase switch F18 03 PWM modulation mode 1 Three phase MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 85 Parameters Function 5 Parameter Name Setting Range Value ara Group F19 Distance Control Parameters on page 161 163 F19 01 Present floor 1 F19 00 Bie F19 02
78. 6 F 05 18 Analogue weighing selection To set the analogue weighing in accordance with the elevator equipped with weighing device type 0 No analogue weighing 1 Analogue weighing Weighing analogue filter time 0 00 2 00 0 50s Define the analogue filter time The greater F05 02 is the stronger filtering effect is and the greater the signal lag is MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 133 Function Introduction Analogue weighing self learning Car no load 0 00 10 00 0 00V Car full load 0 00 10 00 8 00V Self learning car load 0 100 096 F05 03 defines the analogue weighing self learning modes 0 No self learning 1 No load self learning 2 Other load self learning Refer to the torque compensation of section 9 1 9 Adjustment for Comfortable Feeling page 198 about F05 03 F05 06 Anti nuisance function 0 No anti nuisance function 1 In accordance with weighing This function must work with analogue weighing sensor or digital light load signal If the car command registered number is over the person number in car plus three the system will clear up all commands and each person according to 70 Kg 2 In accordance with light curtain This function must work with light curtain signal When the elevator runs and arrives to the station for three consecutive times and the OD light curtains are not action which will be consi
79. 8 08 ASR output filter time 0 008s 0 000 ASR output without filter F08 09 Torque limitation 0 0 200 0 motor rated current 180 096 Group F09 Vector Control Current loop Parameters on page 139 139 F09 00 Current loop KP 1 4000 F09 01 Current loop KI 1 4000 0 000 1 000s F09 02 Current loop output filter time 0 000s 0 000 Current loop output without filter F09 03 F09 07 Manufacturer debugging parameter prohibit to change C1 e eo Wu CH eo Group F10 Synchronous Motor Parameters on page 139 141 gg 0 IPM F10 00 Synchronous motor type d d 1 SMPM F10 01 Synchronous motor rated power 0 4 400 0kW x F10 02 Synchronous motor rated 0 999V Dependon voltage model F10 03 Synchronous motor rated 0 0 999 9A nu current Fig ga ee 1 00Hz F00 05 19 20Hz na frequency F10 05 Synchronous motor rated rpm 1 24000rpm x F10 06 m Synchronous motor stator 0 000 9 9990 0 0000 resistance MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 75 Parameters Function Parameter Name Setting Range Value Para FIG 07 e et esa Lee 0 0mH x inductance F10 08 Synchronous motor direct axis 0 0 999 9mH 0 0mH N inductance F10 09 Synchronous motor Back EMF 0 999V OV EE PUES 0 No action F10 10 e dde i 1 Static angle auto tuning x auto tuning 2 Rotation angle auto tuning ot ee 0 0 100 0 F10 02 100 0 7 auto tuning voltage settin
80. 8 159 Function Introduction Fault record F17 08 F17 21 These parameters record the elevator s recent 11 fault codes elevator floor where the fault occurs and fault time The fault information is composed of four bits the high two bits represent the elevator floor where the fault occurred and the low two bits represent the fault type For example F17 08 recording the value of 0501 indicates that the farthest time fault is Acc overcurrent fault and the fault floor is Floor 5th Fault type meaning and countermeasure refer to Chapter 10 Troubleshooting page 213 No 1 fault type the farthest time No 2 fault type No 3 fault type No 4 fault type No 5 fault type No 6 fault type No 7 fault type No 8 fault type No 9 fault type No 10 fault type Actual value The most recent fault type The most recent running speed at faulty The most recent DC bus voltage at faulty The most recent output current at faulty Actual value MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction 160 8 2 19 Group F18 PWM Control Parameters F18 00 Carrier frequency 14 16kHz Depend on model Define the carrier frequency of MONT71 output PWM wave The F18 00 value is is closely related to the motor running noise Generally set above 6 kHz you can achieve quiet operation MONT71 power class Setting range Factory setting 0 2 22kW 1 16kHz 8kHz 30 45kW 1 1
81. D CD time protection If no OD CD arrival signal is received during the system OD CD process it will continue to open door close door MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 167 Function Introduction OD CD torque holding Define the system selection of torque holding during elevator opening closing the door 0 Without OD CD torque holding 1 With OD torque holding 2 With CD torque holding 3 With OD CD torque holding 4 During running process with CD torque holding Hall call OD holding time 1 30 5s Internal call OD holding time 1 30 3s F22 07 defines the time of holding open door with hall call but without internal call F22 08 defines the time of holding open door with internal call e If there is CD command input within the OD holding time the CD command will be immediately responded F22 09 Door state at waiting elevator 0 2 0 Define the elevator door state at spare time 0 Normal closes the door 1 Base station OD waiting elevator 2 Each floor OD waiting elevator Holding time for base station OD 1 30 10s Delay time of OD holding 10 1000 30s F22 10 defines the holding OD time after the elevator arriving to the base station F22 11 defines the elevator holding OD time when there is OD delay signal input e If there is CD command input within the setting time the CD command will be immediately responded Manufacturer debuggi
82. F17 04 i 3 Load is excessive i 3 Reduce the load i 1 Brake circuit abnormal Motor 2 Motor overload protect factor set incorrectly 1 Motor is overheated 1 Reduce the load 2 Motor overheating input 2 Detect whether the overheating signal action input terminal signal is correct 3 Motor parameter setting 3 Correctly set motor parameter error Group F07 Group F10 MCB EEPROM circuit failure Contact the supplier for repairing 1 Replace the panel 2 Contact the supplier for repairing Panel EEPROM circuit failure 3 Panel manually reset to continue normal use exclude parameter upload and download EEPROM read write L faulty MONT71 Series Elevator Integrated Controller User Manual V1 0 Small panel display Parameter setting faulty Input voltage detection I failure Encoder reverse direction Encoder disconnectio i n Fault name Fault cause 1 In the non panel mode asynchronous motor parameter auto tuning to set parameters auto tuning 2 Synchronous motor selects ABZ encoder 3 Synchronous motor static auto tuning the operating mode is panel setting 4 Motor current is set to zero 5 Asynchronous motor no load current setting value is larger than motor rated current 6 The creeping speed at distance control F04 02 is larger than highest speed of running curve F19 07 F19 11 7 0 000m s F19 07 F19 11 lt 0 100
83. I D OJur JONPOI CD D lt O D c m 5 H e O Better O Good O Common O Poor Other opinions User signature Interview record of Customer Service Center O Interviewed by telephone O Interviewed by letters Others Technical service engineer signature Warranty Agreement The warranty period of the product is 18 months refer to the barcode on the product body During the warranty period if the product fails or it is damaged under condition of normal use by following the user s manual our company will be responsible for free maintenance The starting time of the warranty period is manufacturing date see the barcode on the product body but we could negotiate settlement under special condition Within warranty period maintenance will be charged for damages caused by the following reasons A The damage is caused by improper use or repair modification without prior permission B The damage is caused by abnormal voltage fire flood other disasters and second disasters C The damage is caused by dropped or transportation after purchase D The damage is caused by the operation not following this user manual E The damage or failure is caused by the trouble out of the equipment e g external device If there is any failure or damage to the product please correctly fill out the Product Warranty Card in detail The maintenance fees are charged according to the newly adjusted Maintenance Price
84. INCOS encoder is over run at inspection again to check whether operating normally If occur fault or out of control check whether the C D phases of SINCOS encoder are connected reversely For the SINCOS encoder each time the deviation of F10 12 results should be less than 5 or the difference of the F10 12 result and the 360 motor pole pairs of integer multiple should be less than 5 whose results only are considered as the normal otherwise need to restart auto tuning For the A B Z U V W encoders F10 12 is electrical angle and each time the deviation of F10 12 results should be less than 30 which can only be considered as the normal otherwise need to restart auto tuning If auto tuning is unsuccessful there will be out of control danger It is recommended that two people with one press the inspection button the other press the emergency stop button when occur out of control you can promptly cut off power If F10 12 synchronous motor initial angle is zero the elevator can not go staircase Static auto tuning is needed to meet that the door lock circuit is closed and the safety circuit is closed 10 If the abnormal occur during auto tuning process press the emergency stop button to stop auto tuning 11 At auto tuning the motor just return from standstill to start the process if alarm E0030 fault encoder reverse direction or E0031 fault encoder disconnection when changing the encoder direc
85. L L L L U L L ENT Enter to function Enter to function nter to setting ig L I once odifiable bit Select function Modify function Modify function group group Decrease by para Decrease 1 Cycle according to 1 when press the based on present Y F D EN Invalid key once modifiable bit Switch units and Invalid i tens Invalid i Switch tens and units Chapter 7 Panel Introduction Setting parameter level No save present value and return to function parameter setting level Save present value and return to function para setting level Modify parameter value Increase 1 based on present modifiable bit Modify parameter value Decrease 1 based on present modified bit Cyclically switch parameter modifiable bit long press can quickly switch Cyclically switch parameter modifiable bit long press can quickly switch MONT71 Series Elevator Integrated Controller User Manual V1 0 01 102 Chapter 7 Panel Introduction 7 3 Examples of Panel Use 7 3 1 Set Function Parameter Modify the setting value of function parameter F00 09 from 1 500m s to 1 000m s for example shown as Figure 7 8 Foo og ENT 1 B 0 0 m s S peed setting via panel Function parameter setting level Setting parameter level Shift PRG ENT PRG PRG 10F 5 1 0 0 Om s CD arrival Function group setting level Mode setting level State display
86. L1 and FL2L FL2 of advanced open block which is defaulted normally open At the elevator up running when the up leveling signal FL1L FL1 signal and FL2L FL2 signal are detected the main control board will process the signal to realize the open door in advanced function the same as at elevator down running To set parameters Parameter Setting value V O point Function selection of een ree 3 Door zone normally open input Function selection of 8 Locked door output feedback normally terminal X19 open input i Function selection of terminal X20 l L 1 Up leveling normally open input l L Function selection of terminal X21 E fo F12 30 dee 27 Locked door contactor output relay Y4 i i Situation 2 2 Down leveling normally open input There are three sensor signals in the field up leveling signal door zone signal and down leveling signal Processing methods 1 Connect the up and down leveling signals to X20 and X21 of main control board 2 Disconnect the door zone signal to the X1 of main control board connect to the FL1L FL1 and FL2L FL2 which means that connect FL1L FL1 and FL2L FL2 to the door zone signal at the same time At elevator up running the up leveling signal is detected and the detected FL1L FL1 signal and FL2L FL2 signal are effective simultaneously advanced open function will be enabled the same as at elevator down running
87. L5 211 1st floor of front door internal call 212 2nd floor of front door internal call F13 06 Function selection of MCB 213 3rd floor of front door internal call terminal L6 214 4th floor of front door internal call 215 bth floor of front door internal call F13 07 Function selection of MCB 216 6th floor of front door internal call terminal L7 217 7th floor of front door internal call 218 8th floor of front door internal call Function selection of MCB 219 9th floor of front door internal call F13 08 terminal L8 310 10th floor of back door internal call E nctlonseleotiom o MCB 311 1st floor of back door internal call F13 09 ienminal i9 312 2nd floor of back door internal call 313 3rd floor of back door internal call Eunstionselectio o MCE 314 4th floor of back door internal call F13 10 terminal L10 315 5th floor of back door internal call 316 6th floor of back door internal call SN Function selection of MCB a 7th floor of back door interna Call temiat t4 318 8th floor of back door internal call 319 9th floor of back door internal call Function selection of MCB F13 12 221 1st floor of front door up call terminal L12 222 2nd floor of front door up call l ues 223 3rd floor of front door up call F13 13 Hn a 224 4th floor of front door up call terminal L13 225 5th floor of front door up call x MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 Parameters Function Par
88. LS1 F12 09 Function selection of MCB input 18 Down forced Dec NO input DLS1 terminal X9 19 Over load NO input LWD Function selection of MCB input m ee F12 10 TU NEU 21 Safety circuit 1 NO input JT1 22 Front door OD arrival NO input OLT1 F12 1 Function selection of MCB input 23 Back door OD arrival NO input OLT2 l terminal X11 24 Front door CD arrival NO input CLT1 MONT71 Series Elevator Integrated Controller User Manual V1 0 Parameter Name Function selection of MCB input terminal X12 Para F12 24 Function selection of MCB high F12 25 voltage input terminal X25 F12 26 Function selection of MCB high voltage input terminal X26 Function selection of MCB high F12 2 voltage input terminal X27 Output function selection of MCB relay YO Function selection of MCB input terminal X13 Function selection of MCB input terminal X14 Function selection of MCB input terminal X15 Function selection of MCB input terminal X16 Function selection of MCB input terminal X17 Function selection of MCB input terminal X18 Function selection of MCB input terminal X19 Function selection of MCB input terminal X20 Function selection of MCB input terminal X21 Function selection of MCB input terminal X22 Function selection of MCB input terminal X23 Function selection of MCB input terminal X24 F12 28 Chapter 6 Parameters Setting Range 25 Back door CD arrival NO input CLT2 26 Fro
89. ONT71 Series Elevator Integrated Controller User Manual V1 0 130 Chapter 8 Function Introduction Forced stop Dec jerk 0 002 2 000 0 080m s This parameter is used to ensure the leveling accuracy at forced deceleration action This parameter is automatically updated in the shaft self learning and generally not need to change by the user 8 2 5 Group F04 Speed Parameters Inspection run speed 0 000 0 630 0 200m s Define the run speed of the elevator at the inspection mode Elevator GB provides the speed can not be greater than 0 63m s The elevator inspection runs to up and down effectively forced signal and the running speed is 0 100m s e After the inspection up and down run direction is revoked the stop mode can be set as immediate stop or Dec stop set by the Bit2 of F26 12 When the inspection run encounters the upper and lower limit in order to prevent crossing the limit the stop mode will become immediate stop F04 01 Battery driven run speed 0 020 0 100 0 050m s Define the elevator run speed at battery driven mode Non automatic running car F04 02 The creeping speed at distance control 0 050 0 150 0 100m s Define the creeping speed of the direct parking mode 1 set F19 06 as 1 F04 03 Shaft self learning speed 0 100 0 300 0 2000m s Define the elevator speed at the shaft self learning Re leveling speed 0 020 0 080 0 040m s Define the elevator running
90. ONT71 is built in the braking unit which can be configured the gt power regenerative unit to achieve four quadrant operation and energy saving The system does not need the up or down limit switch More abundant gt There are 24 button I O interfaces which can meet the needs of 8 floors full selective even without expansion There are 24 digital inputs and 24 relay outputs There are 3 high voltage inputs You can choose the serial hall call communication CONTENTS Chapter 1 MONTZ1 Configuration EE 1 Tel Hardware COMIGUPANOM E 2 T2 FUNCOM T abe EE 3 Teo standard EumctonmbescHDIIOD EE 4 T 4 Protection ele del MET RE 9 Chapter 2 Safety Information and Precautions eeeeeeeeeeeeeeeeee eene enne 11 2 1 Safety BITTER nnm 12 Bie ADOUBNODDE aN LOA EE 12 2 9 ON SAEY e P ie 13 Chapter 3 Product Information eiui dine eege dee EECHELEN 15 3 hee ER XPIANA UO E 16 SIPA S E E A N A A ee 16 zE AALINGS E A E E E E E E E T E T otoniaeves 17 JA SPECINGAIONS asasan aaan MEN 18 3 5 DIMENSIONS and MOUNUMG RE 20 Chapter 4 Control System Introduction c escceeeeeeeeeeeeeeeeeeeeeeseeeeeeeeeeaseeeeeeeeaseeeeeeeenaeeeeeeseenaes 23 4 1 Control System and PreGaulionS EE 24 4 2 Main Control Board MIT TMCRAI nennen nennen nnnm nnn nnne nns 25 4 2 1 Terminal DeserlpllOLt NEE 26 4 2 2 Ndicator Descriptio EE 28 A 2 3 Jumper Desctripliol s 6s eco ie Le TR ee a ea 28 4 2 4 Modbus Comm
91. Parameters of Elevator Running State 119 8 1 6 Group D05 Display Parameters of Elevator Hardware 120 8 1 7 Group D06 Hall Call State Parameters of Modbus Extension 121 8 2 Grou F Function Parameters cccccceccececcececeececececcececeeaececueaeaececueaececueaeaecueaeaeeeeaes 122 8 2 1 Group F00 Basic Paramelers 5 orientierte egene Eeer 122 8 2 2 Group FOT User lan 124 8 2 3 Group F02 Start and Stop Parameters sassnsnssnesnnrneneserntnreesrrrrnrenernrrnrennnnne 127 8 2 4 Group F03 Acceleration and Deceleration Curve Parameters 128 8 2 5 Group F04 Speed Parameters seeeeesssessssseeeeeeenenen nnns 130 8 2 6 Group F05 Weighing Compensation Parameterg 132 8 2 7 Group F06 Manufacturer Debugging Parameter 135 8 2 8 Group F07 Asynchronous Motor Harameterg 135 8 2 9 Group F08 Vector Control Speed loop Parameters reren 137 8 2 10 Group F09 Vector Control Current loop Parameters sssss 139 8 2 11 Group F10 Synchronous Motor Parameters ceceeeeeeeeeeeeeeeeeeeeeeeeeeeeees 139 8 2 12 Group F11 Encoder Paraimielers cuoic ceo ei irre ei ere EY re Ek n PEE Na Ea e 141 8 2 13 Group F12 Main Control Board Terminal Parameters 142 8 2 14 Group F13 Main Control Board L Terminal Parameters
92. S hnmnL MONT71 Series Elevator Integrated Controller User Manual Elevator Integrated Controller MONT71 Series User manual FOREWORD Thank you for purchasing MONT71 series elevator integrated controller MONT71 This User Manual describes how to use MONT71 and their installation wiring parameter setting troubleshooting and daily maintenance etc Before using the product please read through this User Manual carefully In addition please do not use this product until you have fully understood safety precautions Note Preserve this Manual for future Due to product upgrade or specification change and for the purpose of improving convenience and accuracy of this manual this manual s contents may be modified If you need the User Manual due to damage loss or other reasons please contact the regional distributor of our company or directly contact our company Technical Service Center For the first time using the user should carefully read this manual If you still have some problems during use please contact our company Technical Service Center The product warranty is on the last page of this Manual please preserve it for future MONT71 Technical Features MONT 71 series products can meet needs of all villa and freight elevators adapting complete parallel modes for signal transmission which are the Intelligent Control System with Automatic control technology Power electronic technology
93. VCC 5V power supply Differential zs Z 14 Power supply ground Invalid Terminal name Terminal description Output signal A output type is OC output Output signal B output type is OC output Output signal site isolated from GND MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 5 Installation and Wiring Chapter 5 Installation and Wiring 5 1 Installation Precautions Do not install if MONT71 is imcomplete or impaired Make sure that MONT71 is far from the explosive and combustible things Do not operate MONT71 until the power is cut off 10 minutes later Z Warning Do not play metal into MONT71 when installing 5 2 Requirement for the Installation Site Ensure the installation site meeting the following requirements Do not install at the direct sunlight moisture water droplet location Do not install at the combustible explosive corrosive gas and liquid location e Do not install at the oily dust fiber and metal powder location e Be vertical installation on fire retardant material with a strong support e Make sure adequate cooling space for MONT71 so as to keep the ambient temperature between 10 40 C Install at where the vibration is less than that 5 9m s 0 69 Note 1 It needs derating use if operation temperature exceeds 40 C The derating value shall be 2 for each degree centigrade Max allowed temperature is 50 C 2 Keep ambient temp
94. ably 9 Check the wirings of communication wire encoder wire and power supply wire e The well s communication wire is twisted pair and twisted distance is 35mm The encoder wire and the power supply wire should be separated from the alignment e The signal wire and the power supply wire should be separated from the alignment 9 1 2 Parameter Setting System power and check Remove the brake control wire before power on 1 Check the MCB 24V power supply input and SK6 terminal of 24V and COM should be 24V 2 Observe the corresponding LED lights of MCB X25 X27 to confirm that the high voltage safety circuit and the high voltage door lock circuit are in normal status If the site still has low voltage safety circuit signal and low voltage lock signal please check the corresponding input terminals of the MCB LED lights 3 Observe the MCB Y1 Y23 LED lights to confirm the control brake relay without outputting and connect to the brake control wire until power is cut down MONT71 Series Elevator Integrated Controller User Manual V1 0 184 Chapter 9 System Typical Application and Adjustment Set MONT71 parameters must follow these steps Restore the factory parameter F01 02 is set as 1 restore to factory settings press ENT key and then the controller parameters restore to factory setting value Set the following parameters sequentially 1 Set F11 00 encoder interface card type and F11 01 Encoder P R 2 Set F00
95. acturer Function Parameters The Group Y is the manufacturer parameters group for debugging MONT71 at the factory before delivery which need no concerned about at using MONT71 Series Elevator Integrated Controller User Manual V1 0 79 Chapter 9 System Typical Application and Adjustment 182 Chapter 9 System Typical Application and Adjustment This chapter describes about the MONT71 series elevator integrated controller constituted the elevator control system in details the basic steps of the system design and functional parameters setting method 9 1 Adjustment Process As the periphery circuit and machine installed are finished fully you can adjust the MONT71 series elevator integrated controller in accordance with the process of Figure 9 1 It is recommended sequentially to debug Motor parameter Shaft auto tuning p self learning See 9 1 3 d See 9 1 5 High speed Check before feeling Function test running high speed See 9 19 Seed See 9 1 7 See 9 1 6 Figure 9 1 MONT71 debugging process 9 1 1 Wiring Check After the control system wiring is finished it need check the wiring 1 Check the electrical and mechanical wiring to ensure the safety 2 Check each connection whether is right in accordance with the manual and the wiring description At least two staffs are required in debugging And cut off the power immediately if abnormal situation occurs 3 Check if the part
96. al Application and Adjustment 9 1 3 Motor Parameter Auto tuning Note 1 The crane car is needed for the rotation auto tuning but not needed for static auto tuning 2 The motor and the encoder parameters must be set correctly before parameter auto tuning Asynchronous motor Parameter auto tuning 1 You should set F00 07 as 0 panel control 2 Setting F07 06 as 1 static auto tuning or 2 rotation auto tuning then press RUN key of panel to do parameter auto tuning The motor does not rotate at static auto tuning but rotate at rotation auto tuning 3 After finish auto tuning set F00 07 as 1 distance control Note 1 When auto tuning it can automatically open the run contactor if at rotation auto tuning it need manually open the brake contactor for the safety 2 At static auto tuning the motor will give howling duration of about 30s 3 At rotation auto tuning if the motor occurs to oscillation and even overcurrent please press STOP key to stop auto tuning Take measure Properly adjusting the F07 21 oscillation suppression mode and F07 22 oscillation suppression coefficient can remove the motor oscillation 4 The asynchronous motor parameter auto tuning does not require the encoder pole angle learning After finish auto tuning at inspection operation if alarm E0030 fault encoder reverse direction the encoder AB directions may be connected reversely Take measure Please change the encoder direction F11
97. al Maintenance Customer should check MONT71 in short time or every 3 to 6 months according to the actual environment so as to avoid hidden problems and make sure MONT71 runs well for a long time General Check e Check whether the screws of control terminals are loose If so tighten them with a screw driver Check whether the main circuit terminals are properly connected whether the mains cables are over heated Check whether the power cables and control cables are damaged check especially for any wear on the cable tube Check whether the insulating tapes around the cable lugs are stripped and for signs of overheating near terminations Clean the dust on PCBs and air ducts with a vacuum cleaner Note 1 Dielectric strength test of MONT71 has already been conducted in the factory Do not do the test again Otherwise MONT71 might be damaged 2 If insulation test to the motor is necessary it should be done after the motor s input terminals U V W have been detached from MONT71 Otherwise MONT71 will be damaged 3 For MONT71 that have been stored for a long time they must be powered up every 2 years When supplying AC power to MONT71 use a voltage regulator to gradually raise the input voltage to rated input voltage at least 5 hours MONT71 Series Elevator Integrated Controller User Manual V1 0 229 230 Chapter 11 Maintenance 11 3 Replacing Damaged Parts The components that are easily damaged are cooling fan
98. al line Turn the inspection switch to normal position and the elevator returns to leveling floor at inspection speed When the running time exceeds the preset time of F23 02 largest floors run interval the system will emergency stop and alarm E0040 fault elevator run timeout Note If within the F23 02 largest floors run interval the elevator detects E0058 fault leveling signal abnormal first the system will not alarm E0040 fault elevator run timeout which is normal phenomenon The leveling signal has beening detected due to a leveling abnormal signal detection module Take measure Set F23 02 as 10s After fault is reset re start to do the run timeout protection test When alarm E0040 fault elevator run timeout it will restore F23 02 to factory value 45s Over load function test Test requirements the elevator overload switch action check the elevator should not close buzzer inside the car internal call board with overload display Note It need set the corresponding output functions of Group Y as the buzzer output No 21 function and over loaded output No 22 function Split level protection test The elevator is running to the middle floor modify F19 01 present floor for other values and confirm that the elevator running to the top or bottom floor can normally decelerate without leveling hoisting or squatting If F19 01 is reduced the calling elevator floor is the highest floor contrary to floor one No
99. alid Door machine state Display the door machine state by a 16 bit binary as following table Bit15 Bit6 Reserved Bitb Bit3 Back door machine state 000 Opening 001 Open door arrival 010 Closing D04 03 011 Close door arrival 100 Door machine fault 101 Door machine stop Actual value Bit12 System full load 0 System full load signal is invalid 1 System full load signal is valid 0111 Isolated run 1000 Auto back to leveling Bit0 System front door light curtain 0 System front door light curtain is invalid 1 System front door light curtain is valid Actual value Bit2 BitO Front door machine state 000 Opening 001 Open door arrival 010 Closing High bit of elevator run times Low bit of elevator run times Display the high bit and the low bit of elevator run times Run times D04 02 X 65536 D04 03 D04 04 Total running time hour Display the elevator total running time and its unit is hour MONT71 Series Elevator Integrated Controller 011 Close door arrival 100 Door machine fault 101 Door machine stop Actual value Actual value Actual value User Manual V1 0 19 120 Chapter 8 Function Introduction Heatsink temperature Actual value Display the heatsink temperature and its unit is C D04 06 Present fault code Actual value Display the present fault code 8 1 6 Group D05 Display Parameters of Elev
100. ameter Name Para Function selection of MCB F13 14 terminal L14 Function selection of MCB terminal L15 Function selection of MCB terminal L16 Function selection of MCB terminal L17 Function selection of MCB terminal L18 Function selection of MCB terminal L19 Function selection of MCB terminal L20 Function selection of MCB terminal L21 Function selection of MCB terminal L22 Function selection of MCB terminal L23 Function selection of MCB terminal L24 Setting Range 6th floor of front door up call 7th floor of front door up call 8th floor of front door up call 9th floor of front door up call 1st floor of back door up call 2nd floor of back door up call 8rd floor of back door up call 4th floor of back door up call bth floor of back door up call 6th floor of back door up call 7th floor of back door up call 8th floor of back door up call 9th floor of back door up call 10th floor of front door down call 2nd floor of front door down call 3rd floor of front door down call 4th floor of front door down call bth floor of front door down call 6th floor of front door down call 7th floor of front door down call 8th floor of front door down call 9th floor of front door down call 10th floor of back door down call 2nd floor of back door down call 3rd floor of back door down call 4th floor of back door down call 5th floor of back door down call
101. ameter auto tuning it need set F00 07 operation mode as 1 distance control 9 At auto tuning the motor just return from standstill to start the process if alarm E0030 fault encoder reverse direction or E0031 fault encoder disconnection you can try to reduce the KP and KI of ASR Group F08 MONT71 Series Elevator Integrated Controller User Manual V1 0 18 Chapter 9 System Typical Application and Adjustment Synchronous motor Static auto tuning Before do the static auto tuning please refer to the preparation work of section 9 1 4 Inspection Operation and then do the synchronous motor static auto tuning Configure the A B Z U V W encoder 1 You should set F10 12 synchronous motor initial angle as 0 2 F00 07 is set as 1 distance control 3 F10 10 is set as 1 static angle auto tuning 4 Give the signals to terminal inspection and direction at auto tuning the controller issues a series of pulse voltage and the motor issues humming The motor will run at inspection after the humming is over and stop running after one circle Obtaining F10 12 synchronous motor initial angle presents that the static auto tuning is over 5 After the panel display interface exits parameter auto tuning interface the inspection direction command can be removed Configure the SINCOS encoder 1 You should set F10 12 synchronous motor initial angle as O 2 F00 07 is set as 1 distance control 3 F10 10 is set as 1 static angle aut
102. an be seen from two kinds of program descriptions e For the synchronous motor elevator can choose auto running car or emergency power supply to run e For the asynchronous motor it can only choose emergency power supply to run In order to distinguish the two modes their features are described in the following chart m Source of Work power Work power d motors of elevators Range MONTT1 MEE power i Safety circuit Using the Using the Need the Synchronous i Auto Tunrihg y emergency power emergency power Synchronous star delta s motor jumps which is greater which is greater i contactor to stator coil than 220V or than 220V or SS jump out inverter inverter U V W s wire l Synchronous Emergency power supply run Emergency Emergency power Emergency power i motor or power supply run supply run supply run asynchronous i i i i motor MONT71 Series Elevator Integrated Controller User Manual V1 0 202 Chapter 9 System Typical Application and Adjustment Emergency running connection EE FX Main circuit connection starcdelta contactor S1 See UPS power circuit E UPS power circuit O05 ooo connection See main circuit O OR1 A Ft AC 110V AC 220V MT71 MCB A MCB connection SW run contactor AC 110V UPC Main control board MT71 MCB A cy See UPS power circuit Figure 9 2 Emergency running connection MONT7
103. angle T ___Sincos e encoder C gt amplitude ___ Sincos encoder C zero bias Sincos e encoder D amplitude Sincos encoder D zero bias 0 0 359 9 00 0 0 359 9 0 0 0 9999 2048 0 9999 2048 0 9999 2048 0 9999 2048 F10 12 is a learning angle after synchronous motor auto tuning and an important parameter for the synchronous motor normal starting which should not be arbitrarily changed F10 13 this parameter should be reserved F10 14 F10 17 are the parameter auto tuning results with sincos encoder and can not be changed casually Sincos encoder CD phase 0 Normal 1 CD phase is opposite Synchronous motor current filter coefficients Performance optimization parameters 0 65535 0 Bit0 Inspection run parameter auto tuning 0 Do not automatically parameter tuning 1 Automatically parameter tuning Bit1 Current loop parameters are automatically optimized 0 Manually optimize 1 Automatically optimize Bit2 SINCOS encoder performace optimized 0 Normal processing 1 Optimization processing Bit3 Elevator speed and grid voltage optimization 0 Normal processing 1 Optimization processing Bit4 Bit15 Reserved MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction 8 2 12 Group F11 Encoder Parameters In the elevator application the rotary encoder of the motor is indispensable configuration
104. ar full load 0 00 10 00V 8 00V F05 06 Self learning car load 100 0 0 No anti nuisance function enk 1 In accordance with weighing F05 07 Anti nuisance function DM x 2 In accordance with light curtain 3 Both weighing and light curtain Carfullload F05 09 F05 10 F05 13 F05 15 Manufacturer debugging parameter prohibit to change F0s 16 No weighing currentcoeticient Jo e foo F0517 NoweighingspeeddoopKP 1 9999 oo fof FO5 18 NoweighingspeedHoopK 1 9999 wo Jl Group F06 Manufacturer Debugging Parameters F06 00 F06 05 Manufacturer debugging parameter prohibit to change O u Group F07 Asynchronous Motor Parameters on page 135 137 F07 00 Asynchronous motor rated 0 2 500 0kW Ed TN power model MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 73 Parameters Asynchronous motor rated Parameter Name Setting Range Value Para F07 01 0 999V voltage x F07 02 Asynchronous motor rated 0 0 999 9A ell current Asynchronous motor rated F07 03 1 00Hz F00 05 50 00Hz x frequency F07 04 Asynchronous motor rated RPM 1 24000rpm 1440rpm E x FO ge Synonronousmotor power 0 001 1 000 0 850 factor n i i 0 No action Se nn Ma 1 Motor static auto tuning x auto tuning i 2 Motor rotation auto tuning A h F07 07 sync ronous motor stator 0 000 65 5350 HN resistance A h resistance F07 09 ASyReRFOnoUs motor leakage 0 0 6553 5mH Depend
105. arameter F01 03 after finish clearing the fault information Download the panel parameter group 2 to MCB Download the panel parameter group 3 to MCB Download the panel parameter group 4 to MCB Download the panel parameter group 5 to MCB n Download the panel parameter group 6 to MCB c OO N O OC A Download the panel parameter group 7 to MCB 10 Download the panel parameter group 8 to MCB 11 Download the panel parameter group 9 to MCB 12 Download the panel parameter group 10 to MCB Note The F01 02 setting of No 4 12 functions is the same with No 2 function MONT71 Series Elevator Integrated Controller User Manual V1 0 126 Chapter 8 Function Introduction Panel parameter update 0 No operation MONT is in the normal parameters of read and write state 1 Upload MCB parameters to panel parameter group 1 Except Group F01 F17 08 F17 21 and Group Y Upload MCB parameters to panel parameter group 2 Upload MCB parameters to panel parameter group 3 Upload MCB parameters to panel parameter group 4 Upload MCB parameters to panel parameter group 5 Upload MCB parameters to panel parameter group 6 Upload MCB parameters to panel parameter group 7 Upload MCB parameters to panel parameter group 8 oO Oc N Oo oO A C N Upload MCB parameters to panel parameter group 9 10 Upload MCB parameters to panel parameter group 10 Parameter upload F01 03 1 and download F01 0
106. ategory i Mark Name Function description i External provide DC 24V power as MT71 HCB A 24V power supply 1 Working power supply Power supply i Power ground i Power supply ground i A signal input The floor displays LED control signal A iB signal input The floor displays LED control signal B Ze signal input i The floor displays LED control signal C D signal input The floor displays LED control signal D Input terminals UP signal input The up arrow indicates LED control signal Down signal input The down arrow indicates LED control signal Minus signal input The minus LED control signal Inspection signal input l The inspection indicates LED control signal L Input terminals The input terminals can change the corresponding terminal functions via F12 28 F12 51 relays YO Y23 of main control board Such as You can simply set F12 38 as 22 relay Y8 is set to overload instruction output so as to reposition INS indicator connected to the relay Y8 as overload indicator 4 4 Advanced Open Block MT70 AOB A Advanced open block MT70 AOB A is MONT71 ancillary product which mainly achieves elevator re leveling and door advanced open function Re leveling function Because the wire rope has certain ductility when the load inside car changes dramatically after elevator leveling the sill of elevator cab will appear raising or sinking which makes the leveling elevator error occurs and might cause safety h
107. atically switch to FO data menu F2 fault reset After enter Group F2 digital tube displays 0 then press UP key to set and therange 0 1 1 system fault reset command After save the setting via pressing SET key then clear the present system fault and automatically switch to Group FO finally F5 display run times After enter Group F5 digital tube cyclically displays the run times Each time cyclically displays one bit from left to right after completes it will begin to re cycle from the highest bit which can display up to 999 999 times F7 shaft self learning command input After enter Group F7 digital tubes display 0 then press UP key to set and the range is 0 2 1 Start shaft self learning do not clear F27 01 F27 25 2 Start shaft self learning clear F27 01 F27 25 Press SET key to save when meet self learning conditions the elevator begins self learning and display data menu of Group FO after the self learning it automatically resets to zero Finally it switches to Group FO F8 test function After enter Group F8 digital tubes display 00 then press UP key to set and the range is 00 05 00 no function 01 locked hall call 02 locked open door 03 locked over load 04 locked limitation switch 05 allow elevator random run 500 times Press SET key to save digital tubes are flashing to display E88 which means the present setting of the elevator is at testing state Press PRG key t
108. ator Hardware D05 00 iC phase AD sample value of Sincos encoder Actual value Display the C phase AD sample value of Sincos encoder D05 01 D phase AD sample value of Sincos encoder Actual value Display the D phase AD sample value of Sincos encoder D05 02 A phase AD sample value of Sincos encoder Actual value Display the A phase AD sample value of Sincos encoder D05 03 iB phase AD sample value of Sincos encoder Actual value Display the B phase AD sample value of Sincos encoder D05 04 UVW state of UVW encoder Actual value Display the UVW state of UVW encoder D05 05 Electrical angle Actual value Display the electrical angle Leveling switch number i Actual value Display the leveling switch number D05 07 Length between leveling switches Actual value Display the length between leveling switches And the unit is mm Leveling plate length i Actual value Display the leveling plate length And the unit is mm D05 09 Encoder pulse count Actual value Display the encoder pulse count When the motor is rotating the encoder pulse input can be judged by the change of this parameter Manufacturer debugging parameter prohibit to change MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction 21 D05 11 Buzzer source Actual value Display the buzzer action source 0 No action To remind at excessive position
109. auto tuning Acc speed Asynch t Eds We parameter reae ce rods 0 100m s2 x auto tuning Dec speed F312 Forced Dec speed 0800 200ms ss E Group F04 Speed Parameters on page 130 132 F04 00 Inspection run speed 0 200m s F3 F04 01 Battery driven run speed 0 050m s ES F04 02 da speed al elstance 9 46020 eons 0 100m s ef F04 03 Shaft self learning speed 0 100 0 300m s 0 200m s F04 04 Re leveling speed 0 020 0 080m s 0 040m s x MONT71 Series Elevator Integrated Controller User Manual V1 0 72 Chapter 6 Parameters Function Parameter Name Para F04 05 Advanced open speed 0 020 0 100m s F04 06 Forced Dec speed setting 0 0 105 096 CF00 03 F04 07 F04 08 Manufacturer debugging parameter prohibit to change F04 09 Over speed setting 80 0 120 096 CF00 03 F04 10 Over speed detection time Eoo secco vae ee 5 0 30 096 F00 03 deviation Bee EES 0 1 2 0s 1 0s deviation Group F05 Weighing Compensation Parameters on page 132 135 0 No pre torque 1 Analogue weighing F05 00 Pre torque selection 2 Reserved 3 Pre torque auto compensation NT 0 No analogue weighing F05 01 Analogue weighing selection MN 1 Analogue weighing F05 02 Weighing analogue filter time 0 00 2 00s 0 No self learning F05 03 Analogue weighing self learning 1 No load self learning x 2 Other load self learning F05 04 Car no load 0 00 10 00V 0 00V F05 05 C
110. azards to the car persons Equipping with the advanced open block can run at re leveling speed F04 04 in the elevator open door state to leveling position MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction Advanced open function When the elevator is running normally the speed is slower than advanced open speed F04 05 in the stopping course and the door zone signal is valid the MT70 AOB A will jump out the locked door signal through locked door contactor and achieve advanced open door to make more efficiency Dimensions The advanced open block MT70 AOB A and the dimension are shown as Figure 4 9 and the unit is mm 113 5 Figure 4 9 MT70 AOB A and dimension 4 4 1 Terminal Description Table 4 6 MT70 AOB A terminal function description i Name i Function description and specification 3 24V 24V power supply External providing 24V power supply When SEL and 24V are short circuited the outputs of SX1 and SX2 are high active when SEL and COM are l short circuited the outputs of SX1 and SX2 are low active 5 COM Power supply ground Power supply ground i I e I Bx ey es L I SX1 SX output L i L S common terminal I L Zone signal 1 Refer to section 4 4 2 Terminal connection page 35 for i Re leveling door i the concrete wiring 7 2 iFL2L FL2 i i zone signal 2 Locked door When meet r
111. back door down call Bit3 4th floor of back door down call MONT71 Series Elevator Integrated Controller User Manual V1 0 66 Chapter 6 Parameters Function g Parameter Name Setting Range Value ara Bit4 5th floor of back door down call Bit5 6th floor of back door down call Bit6 7th floor of back door down call Bit7 8th floor of back door down call Bit8 9th floor of back door down call Bit9 10th floor of back door down call Bit10 Bit15 Reserved Display in 16 bit binary and from low to high bit represent BitO Run contactor output Bit1 Brake contactor output Bit2 Synchronous star delta contactor output Bit3 Brake frocely output Bit4 Fan and light output Bit5 Front door OD output MCB Y terminal output logic Bit6 Front door CD output tere SN Bit7 Back door OD output Bit8 Back door CD output Bit9 Low 7 segment display output a Bit10 Low 7 segment display output b Bit11 Low 7 segment display output c Bit12 Low 7 segment display output d Bit13 Low 7 segment display output e Bit14 Low 7 segment display output f Bit15 Low 7 segment display output g Display in 16 bit binary and from low to high bit represent Bito Up arrow display output Bit1 Down arrow display output Bit2 Minus display output Bit3 Firefighting back to station output Bit4 Buzzer output Bit5 Over loaded output MCB Y terminal output logic Bit6 Arrival chime output Actual value state 2 Bit7 Full load output Bit8 Inspection signal
112. be changed If the main control board is changed you should input the manufacturer password Please contact with agents or our company Attributes are changed 66 k 99 It denotes that the value of this parameter is the actual value which cannot be modified x It denotes that the parameter cannot be modified in run state It denotes that the parameter can be modified in run state MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 61 Parameters Function b Parameter Name Setting Range Value ara Group D00 Configurations of Integrated Hardware and Software on page 109 110 0x0000 Oxffff D00 00 Controller series LCD display MONT71 elevator integrated Actual value controller D00 01 Controller rated power 0 1 999 9kW Actual value ei ae D00 02 Controller rated current 0 1 999 9A Actual value ns e ener Jess kescht Do004 Sotware version ormes ooo amava Doug Sotware version of panel oo0 99 famae Special software version of MCB 000 999 Actualvaue Group D01 Display Parameters in Drive State on page 110 111 moon Serve preset speed J oo00 9 999ms rowaivave Door Elevator actual speed 0000 8999ms Actalvele woz RummgneM ozem Aetalvale moos Oumtvoage Iran Aealvele DOt04 Output current Log Actual value 001 05 Output frequency 0 01 10000Hz Actual value mwos pCbuvotae In
113. ble 0 Enabled hall call 1 Disabled hall call Bit1 OD enable 0 Enabled OD 1 Disabled OD Bit2 Over load enable 0 Disabled over load F25 04 Special test parameter 1 Enabled over load Bit3 Limitation enable 0 Enabled limitation 1 Disabled limitation Bit4 Random run enable 0 Disabled random run 1 Enabled random run Bitb Bit15 Reserved Group F26 Elevator Function Selections n page 171 179 F26 00 Call elevator floor setting 0 F19 00 Hs c ee x 0 Does not work F26 01 Shaft self learning x 1 Start shaft self learning Bit0 Open driver function F26 02 Driver function 3 x 0 Without driver function MONT71 Series Elevator Integrated Controller User Manual V1 0 87 Chapter 6 Parameters Function Para 88 Parameter Name F26 03 Firefighting function F26 04 Re leveling function F26 05 Advanced open function F26 06 Hall call Modbus communication F26 07 Isolated run F26 08 Locked elevator BCD code hall call display MONT71 Series Elevator Integrated Controller 1 With driver function Bit2 Bit Hall call disposal at driver mode 00 Buzzer no action and internal call is not flashing 01 Buzzer no action internal call is flashing 10 Buzzer action and internal call is not flashing 11 Buzzer action internal call is flashing Bit3 CD arrival without registration command and auto open door 0 Auto open door 1 Do not auto open door Bit4
114. ble clamps as shown in Figure 5 6 p e DPE TRA Figure 5 6 Correct connection of the shielded cable 5 7 3 Wiring Motor Longer the cable between MONT71 and motor is higher the high frequency leakage current is causing MONT71 output current to increase as well This may affect peripheral devices When the cable between motor and MONT71 is longer than 100 meters it is recommended to install output reactor and adjust the carrier frequency as per the instruction in Table 5 4 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 5 Installation and Wiring Table 5 4 Carrier frequency and wiring distance between MONT71 and motor Carrier frequency 15kHz below 10kHz below 5kHz below 2kHz below MONT71 should be derated if the motor cables are too long or their cross sectional area CSA is too large MONT71 cables should be the cables with specified CSA see Table 5 1 because the capacitance of the cable to ground is in proportional to the cable s CSA If the cable with big CSA is used its current should be reduced The current should be decreased by 596 when per level of CSA is increased 5 7 4 Ground Connection The MONT71 earth terminals PE must be connected to earth properly The earthing cable should be as short as possible the earthing point should be as close to MONT71 as possible and the earthing area should be as large as possible The grounding resistance should be less than 100 Do not share the
115. c diagram is shown as Figure 3 1 and dimensions and gross weight are shown in Table 3 1 Figure 3 1 MONTT71 outlook schematic diagram MONT71 Series Elevator Integrated Controller User Manual V1 0 21 mM c 6 zs mE U Q E vc Lk I TO o m D MONT71 dimensions and gross weight Table 3 1 ze mm Aperture d Mounting s E E c Sip o E o E a Model D1 MT71 2S2P2 MT71 2S3P7 MT71 2T3P7 MT71 4T2P2 MT71 4T3P7 MT71 4T5P5 MT71 2T5P5 MT71 2T7P5 MT71 4T7P5 MT71 4TO11 MT71 4T015 MT71 2T011 MT71 2T015 MT71 2T018 MT71 4T018 MT71 4T022 MT71 4T030 MT71 4T037 MT71 2T022 MT71 2T030 MT71 4T045 Note Due to elevator on site use of other power class products are less some detail parameters are not listed If you need this type product please contact our company User Manual V1 0 MONT71 Series Elevator Integrated Controller Chapter 4 Control System Introduction Chapter 4 Control System Introduction 4 1 Control System and Precautions MONT71 system configuration diagram is shown in Figure 4 1 Modbus MONT71 lt gt advanced open bck open block S 3 d Q pueog Ap eH pueog Aejdsip et pueog Ale et pueog
116. ctive mode 0 2 0 0 Full collective The elevator responds the up and down running call outside the hall 1 Up collective The elevator responds the up running call outside the hall but not responds the down running call 2 Down collective The elevator responds the down running call outside the hall but not responds the up running call F24 01 Floor 1 display 0000 1999 1901 F24 02 Floor 2 display 0000 1999 1902 0000 1999 Floor 9 display 0000 1999 1909 Floor 10 display A 0000 1999 0100 Define the display content of outside hall and inside car display board of corresponding floor The settings are consisted by four bits two high bits represent tens of floors and two low bits represent units of floors e The meanings of high and low bits of setting are as following table Such The 10th floor displays 10 F24 10 0100 the first floor displays 1 F24 01 1001 F24 11 Hall call output selection 0 3 11 0 Seven segment code 1 BCD code 2 Reserved 3 Binary code MONT71 Series Elevator Integrated Controller User Manual V1 0 170 Chapter 8 Function Introduction 8 2 26 Group F25 Test Running Parameters Group F25 parameters are especially enacted for elevator adjustment The setting of parameters won t be saved after power failure and it will return to default Note Group F25 can only be set by the professional person which should be with caution Otherwise
117. d When the down re leveling signal FL2L FL2 is invalid the relay RLY3 will not work but the relay RLY1 will work and its corresponding contact will act Note The factory default parameter is not set X19 and Y4 function Please set the appropriate parameters if you need the advanced open door and the open re leveling functions 4 4 4 Re leveling Door Zone Sensor and Its Installation If you want to use the advanced open block and the re leveling functions there are at least three leveling sensors must be configured whose installation distance is shown as Figure 4 13 Note The leveling sensor must be installed in order otherwise the direction of re leveling run or advanced open door will reverse Up leveling signal 90mm Up door zone signal FLIL FL1 aed Duije s 1 Down door zone signal FL2L FL2 90mm Down leveling signal Figure 4 13 Re leveling door zone sensor installation 4 4 5 Parameter Setting Two kinds of situations may occur in the field Situation 1 There are four sensor signals in the field up leveling signal up re leveling door zone signal input FL1L FL1 down re leveling door zone signal input FL2L FL2 down leveling signal MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction Processing methods 1 Connect up and down leveling signals to X20 and X21 of main control board 2 Input the up and down re leveling door zone signal to the FL1L F
118. d Controller Fault cause Safety circuit signal disconnection oe __ During elevator running disconnectio process the door locked signal is disconnected 1 The signal of up limit is cut off when elevator is up running 2 Encoder signal interference makes elevator position error 1 The signal of down limit is cut off when elevator is down running 2 Encoder signal interference makes elevator position error Up down forced Dec switches simultaneously disconnected Chapter 10 Troubleshooting Countermeasure 4 Check the safety circuit switch and view the status 2 Check the safety circuit power supply circuit 3 Check the safety circuit contactor signal 4 Check the safety circuit feedback contact signal characteristics normally open or normally closed 1 Check whether the hall and the car door lock contact is normal 2 Check whether the door lock contactor action is normal 3 Check the door lock contactor feedback contact characteristics normally open or normally closed 4 Check the door lock power supply Circuit 5 If there is MT70 AOB A check the corresponding signal 1 Check that the up limit switch contact is normal or not 2 Check the up limit switch signal characteristics normally open or normally closed 3 Up limit switch installed low normal run to the top will be action 4 Check encoder wiring and installation 1 Check that the do
119. d at forced close door 6 To remind at firefighting back to base station 7 To earthquake signal input 8 To remind there is alarm input D05 12 D05 49 Manufacturer debugging parameter prohibit to change BEN i ee Group D06 Hall Call State Parameters of Modbus Extension on page 121 122 Software version of hall call D06 00 0 00 9 99 Actual value board HCB Pee FEN 0 0 100 0 HCB communication The larger the value is the greater the Actual value interference evaluation RAMIS communication interference is icati icati f hall call D06 02 Hall call node communication Communication state of hall call node Acme s state 1 0 1 Hall call icati mmunication state of hall call node D06 03 all call node communication Communicatio TT E ES state 2 34 25 Group F00 Basic Parameters on page 122 124 0 Asynchronous motor Motor type x 1 Synchronous motor 0 Constant voltage frequency VF control SECHER 1 Open loop vector SVC control s S 2 Encoder closed loop VC control F00 02 Elevator max running speed 0 150m s F00 03 0 500ms x mn c gt O o 3 F00 00 F00 01 F00 03 Elevator rated speed 0 150 4 000m s 0 500m s x F00 04 Elevator rated load 100 50000kg 1000kg fx F00 05 Controller max output frequency 5 00 100 00Hz 50 00Hz x Tracti hi hanical raction machine mechanica 10 0 6000 0 20 0 na parameter 0 Panel control Operation mode 1 x 1 Distance control F0
120. d for E0059 Bit4 E0045 fault shield 0 No shield for E0045 1 Shield for E0045 Bit5b Bit15 Reserved F16 06 Manufacturer debugging parameter prohibit to change pum F16 07 Elevator manufacturers choose 0 999 l0 dx F16 08 Kinds ol elevator parameter S selection F16 09 F16 24 Manufacturer debugging parameter prohibit to change EEUU Group F17 Fault Protect Parameters on page 157 160 F17 00 The detect base of lack of input 0 10096 controller rated voltage 20 Sa c gt O e o 3 0 100 F17 05 Fault auto reset times 0 No reset function F17 06 Fault auto reset interval 2 0 20 0s times 5 0s times Bito During auto reset x x x x x x x 0 No action 1 Action F17 07 Fault relay action select Bit1 During under voltage 0 No action 1 Action Bit2 Bit3 Reserved E0001 Controller output Acc overcurrent E0002 Controller output Dec overcurrent E0003 Controller output constant speed overcurrent No 1 fault type E0004 DC bus voltage Acc overvoltage the farthest time E0005 DC bus voltage Dec overvoltage E0006 DC bus voltage constant speed overvoltage E0007 Reserved MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 83 Parameters Parameter Name Setting Range E0008 Power module faulty E0009 Heatsink overheated E0010 Braking unit faulty E0011 CPU fault E0012 Parameter auto tuning fault E0013 Soft star
121. d function Bit2 Battery driven reset auto return to selection base station 0 Auto return to base station 1 Do not return to base station Bit3 Cleared conditions of firefighting back to base station mode MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 91 Parameters Parameter Name Setting Range zen pur iae 0 Power off or firefighting switch is invalid 1 Fireman input valid and then clear Bit4 Non service floor is allowed to open door at fireman operating elevator Bit5 Non service floor is allowed to open the door at fireman operating door machine 0 Not allow to open door 1 Allow to open door Bit6 OD selection at firefighting back to base station power on 0 Open door 1 No open door Bit7 E0041 clear the internal call 0 E0041 fault clear the internal call 1 E0041fault do not clear the internal call Bit8 Forced Dec switch types Elevator enhanced function 0 Ordinary forced deceleration switch 1 i x selection 1 Trigger forced deceleration switch Bit9 Open the function of pulling door manually 0 Do not open this function 1 Open this function Bit10 Selections of up down limit switch 0 Use the actual up down limit switch 1 Use the synthesis of leveling floor and end station switch Bit11 Back to leveling automatically 0 Back to leveling automatically due to meeting the running condition 1 Back to leveling for the setting run command Bit12 Car energy saving selectio
122. dered as nuisance and all of the car commands will be automatically cleared up 3 Both weighing and light curtain Both weighing and light curtain will work Remark The anti nuisance function will not work at the test mode set F25 03 as non zero n value MONT71 Series Elevator Integrated Controller User Manual V1 0 134 Chapter 8 Function Introduction Pre torque bias i 0 0 100 0 50 095 0 000 9 000 1 000 0 000 9 000 1 000 Down electrical pre torque gain 0 000 9 000 1 000 Down brake pre torque gain 0 000 9 000 1 000 F05 08 is actually the balance coefficient of the elevator and it is also the percentage of the rated weight in the car when the car is in balance with the counterweight F05 09 F05 12 are the elevator pre torque coefficients when the motor is in electrical or brake state e Ifthe car is in full loading the elevator runs up the motor is in electrical running state the elevator runs down the motor is in brake running state e f the car is in non loading the elevator runs up the motor is in brake running state the elevator runs down the motor is in electrical running state The greater the gain is the greater the elevator start compensation value is The controller can identify the electrical and brake state according to the weighing sensor signals and then work out desirable torque compensation values When set F05 00 as 1 analogue weighing or 2 digital weighin
123. deviation returning to base station To remind there is hall call information at driver mode To remind at elevator over loaded To remind at battery driven To remind at forced close door To remind at firefighting back to base station To earthquake signal input CON O C A C N To remind there is alarm input Manufacturer debugging parameter prohibit to change D05 12 D05 49 8 1 7 Group DO6 Hall Call State Parameters of Modbus Extension D06 00 Software version of hall call board HCB Actual value Display the software version of hall call board D06 01 iHCB communication interference evaluation Actual value Indicate the hall call board HCB communication quality The larger the value is the greater the communication interference is n D06 02 Hall call node communication state 1 Actual value Display the communication state of hall call node 10 41 D06 03 Hall call node communication state 2 Actual value Display the communication state of hall call node 34 25 Through open back door address Front door address 24 MONT71 Series Elevator Integrated Controller User Manual V1 0 122 Chapter 8 Function Introduction 8 2 Grou F Function Parameters 8 2 1 Group FOO Basic Parameters Motor type 0 1 0 0 Asynchronous motor 1 Synchronous motor Note 1 If the motor type is selected as asynchronous motor the motor parameters are corresponding
124. display The setting at negative installation of the MCB Physical floor The Group FO data of small panel display is physical floor Hall call data The Group FO data of small panel display is hall call data 0 Positive display physical floor 1 Reverse display physical floor 2 Positive display hall call data 3 Reverse display hall call data Note Setting F15 02 as the physical floors or the hall call data can make the same effect to panel display floor F15 03 Run display parameter 1 setting 0 9 2 F15 04 Run display parameter 2 setting 0 9 3 F15 05 Run display parameter 3 setting 0 9 6 F15 06 Run display parameter 4 setting 0 9 0 F15 07 Run display parameter 5 setting 0 9 0 F15 08 5 Run display parameter 6 setting 0 9 0 Stop display parameter 2 setting i Stop display parameter 3 setting Stop display parameter 4 setting F15 13 Stop display parameter 5 setting 0 9 0 F15 14 i Stop display parameter 6 setting i 0 9 0 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 155 Function Introduction Define that the panel displays the state parameter at running or stopping e Cyclically display via the d key or key of panel Such as When set F15 09 as 2 the stop display parameter is feedback speed at initial power 0 Reserved Preset speed Feedback speed Output frequency Running RPM Output voltage Output curren
125. display output 19 Minus display output 20 Firefighting back to base station output 21 Buzzer output BUZ The conditions of buzzer output are as follows e 1 To remind for the excessive position deviation back to base station 2 To remind for there is hall call information at driver mode 3 To remind for elevator over loaded e 4 To remind for battery driven running 5 To remind for forced close door 6 To remind for firefighting back to base station 22 Over load output LWD 23 Arrival chimes output 24 Full load output LWX 25 Inspection output 26 Fan and light output 2 FAN2 Refer to No 5 function 27 Locked door contactor output FM The system outputs the pick up and release command of locked door contactor so as to achieve the locked door jump out and release control at advanced open and OD re leveling 28 High bit output of BCD code Gray code and seven segment code 29 Integrated run correctly output 30 Elevator up run output 31 Elevator down run output 32 Power failure emergency run is enabled UPC MONT71 Series Elevator Integrated Controller User Manual V1 0 149 Chapter 8 Function Introduction 150 8 2 14 Group F13 Main Control Board L Terminal Parameters F13 01 F13 24 set functions of main control board MT71 MCB A input terminal L1 L24 F13 00 Input filter settings 2 40 10ms It defines the input filter time of MCB L terminals L1 L24 u
126. e car command 0 1 1 0 No open 1 Open MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 173 Function Introduction Inspection parameter setting 0 255 5 BitO Inspection auto close door Bit4 Detect up down forced simultaneous 0 Inspection without close door operation at inspection mode 1 Inspection auto close door At inspection 0 Detect operation press the up down run button the 1 Do not detect elevator will automatically close the door otherwise will not output close door signal Bit5 Detect open close door simultaneous operation at inspection mode Bit1 Inspection over current detection 0 Detect 0 Inspection run without limiting 110 rated current 1 Do not detect Bit6 Door machine non service floor allow 1 Inspection run with limiting 11096 rated open close door at inspection current 0 Do not allow open close door Bit2 Stop mode selection at inspection 1 Allow open close door 0 Immediate stop f Bit7 Detect the door machine CD arrival at 1 Dec stop inspection running Bit3 Detect door lock jump out fault at inspection mode 0 Do not detect close door arrival 1 Detect close door arrival 0 Detect door lock jump out fault 1 Do not detect door lock jump out fault F26 13 Forced close door 0 1 0 0 No open F26 14 Door lock jump out test 0 65535 1 Bit0 Door lock jump out test function 0 No open 1 Open Bit1
127. e leveling or advanced open conditions the contactor MCB controls the locked door contactor Door zone output Locked door It must use SEL to select high active or low active output contactor output 1142 SO1 SO2 Locked door circuit MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction 4 4 2 Terminal connection Door zone signal input low level active The connection is shown as Figure 4 10 If there is NPN photoelectric the photoelectric collector output will connect with FL1L and FL2L the emitter will connect with COM FL1 and FL2 will connect with 24V If there is dry contact the switch at one end will connect with FL1L and FL2L at the other end will connect with COM FL1 and FL2 will connect with 24V Advanced open block MT70 AOB A 24V HAV eal RLY2 RLY3 RLY4 COM ES C ee i RLY1 3 FL1L Up re leveling door zone input FL2L Down re leveling door zone input Main control board MT71 MCB A Y4 Locked door contactor output X1 Door zone signal input X19 Locked door contactor feedback input Advanced open door JOD re leveling floor relay output RLY2 RLY3 JOD re leveling floor signal detection Locked door contactor feedback input RLY1 RLY4 SX2 A RLY2 RLY3 RLYA ie Door lock circuit Figure 4 10 Door zone signal as dry contact or NPN photoelectric of connection MONT71 Series Eleva
128. e same time control up to 8 floors The open through doors are consistent The responses of internal call hall call open and close door of door 1 and door 2 are completely consistent this time and the open and close door operations too After the call responses of door 1 and door 2 are the same and reach the target layer the system will decide which door to open according to the input signal state selected by door 2 If this signal is high level the elevator will open door 2 if it is low level the elevator will open door 1 This signal can be connected to the switches or buttons in car controlled by person in car After the hall call responses of door 1 and door 2 are separately and reach the target i layer the system will decide which door to open according to i the input signal state selected by door 2 If this signal is high level the elevator will open door 2 if it is low level the elevator will open door 1 This signal can be connected to r the switches or buttons in car controlled by person in car Wiring description At the same floor call buttons or switch buttons of door 1 and door 2 can access the same floor input and output terminals so as to increase the maximum running floor At the same floor internal hall call buttons or switch buttons of door 1 and door 2 can access the same floor input and output terminals so as to increase the maximum running floor
129. e supplier for repairing 2 Check the brake signal 1 Check the three phase input power 2 Check the settings of parameter F17 00 and F17 01 1 Check the wiring between controller and motor 2 Check the motor 3 Check the settings of parameter F17 02 and F17 03 1 Check the brake circuit 2 Reduce the load 3 Check the encoder feedback signal 4 Check the motor parameters and restart the parameter auto tuning Group F07 Group F10 5 Check the power line User Manual V1 0 218 Chapter 10 Troubleshooting Small panel Fault name Fault cause Countermeasure display 1 Brake contactor fault or run 1 Check the brake contactor or the contactor fault run contactor 2 Encoder pulse number setting error 2 Reasonably set encoder pulse parameter F11 01 3 Correctly set F04 11 detected value and F04 12 detected time 4 Select larger capacity controller 3 Excessive deviation of detection value and time Excessive setting unreasonable speed un 4 Controller output torque is deviation not enough 5 Correctly set speed loop PI parameter F08 6 Check encoder wiring and installation 5 Speed loop PI parameter setting is improper 6 Encoder signal error 7 Check the motor parameter 7 Motor parameter error 8 F10 12 effer 8 Restart parameter auto tuning 1 Check the brake circuit 2 Correctly set motor overload protect factor
130. earing 5 7 7 Input and Output Reactor AC input reactor The purpose of installing an AC input reactor is to increase the input power factor to dramatically reduce the harmonics on the input side at the high voltage point of common coupling and prevent input current unbalance which can be caused by the phase to phase unbalance of the power supply An AC line reactor which will help to protect the input rectifiers also reduces external line voltage spikes for example the lightning DC reactor The installation of a DC reactor can increase the input power factor improve MONT71 overall efficiency and thermal stability substantially eliminate the upper harmonics influence on MONT71 performance and considerably decrease the conducted and radiated electromagnetic emissions from MONT71 AC output reactor Generally speaking when the length of the cable between MONT71 and motor is more than 100m it will cause leakage current and MONT71 tripping It suggests that the user should consider installing an AC output reactor MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 Parameters 60 Chapter 6 Parameters Function parameter descriptions There are three function parameter groups Group D is monitoring group which is used to check MONT71 the various states of the configuration parameters and the system Group F is the changeable function parameter group Group Y is manufacturer parameters which can not
131. earth wire with other devices such as welding machines or power tools It could share the earthing pole but motor and MONT71 each have their own earthing pole then the earthing effect is better The recommended and avoided earthing methods are respectively shown in Figure 5 7 and Figure 5 8 MONT71 Other devices MONT71 Other devices PE PE i Dedicated earthing pole optimal Sharing earthing pole good em in ius e cis VE Zi fy mds ef er LES m m amm m Ze e ud Zi ZS ci e et ubl iac m ie ESCH mes en e e n imd crm mu Lim iem iai mmi E mm te EE SE iens E m md cli r a MONT71 Other devices MONT71 Other devices PE PET Sharing earthing pole not so good Figure 5 8 Avoided earthing method When using more than two MONT71 be careful not to loop the earth wire as shown in Figure 5 9 MONT71 PE Figure 5 9 Prohibited earthing method MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 5 Installation and Wiring 5 7 5 EMI Filter The EMI filter should be used in the equipment that may generate strong EMI or the equipment that is sensitive to the external EMI The EMI filter should be a dual way low pass filter through which lower frequency current can flow while higher frequency current can hardly flow Function of EMI filter 1 The EMI filter ensures that the equipment not only can satisfy the co
132. ected with the main circuit control signal L MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction 4 2 2 Indicator Description The indicators are on the main control board MT71 MCB A and their position and description are respectively shown as Figure 4 2 and Table 4 2 Table 4 2 Indicator description Indicator mark Indicator name Meaning RUN Elevator operation indicator Flashing at run lighting at stop HCB Modbus communication Flashing at normal communication indicator extinguishing at abnormal Lighting at safety circuit closing Safety circuit indicator M y extinguishing at disconnection Lighting at locked door circuit closing Locked door circuit indicator Qui extinguishing at disconnection g Lighting at elevator inspection state Inspection indicator ee p extinguishing at other states Lighting at serious fault flashing at general Fault indi r aaeh ault indicato fault extinguishing at no fault 4 2 3 Jumper Description Table 4 3 Jumper description Category 2 Function and setting description Factory setting Digital input terminal X1 X24 are high level low level selections J mper When pin 1 and pin 2 are short connected the low level is valid When pin 2 and pin 3 are short connected the high level is valid Factory setting 4 2 4 Modbus Communication Terminal Description The pin and definition o
133. ed 14 Locked elevator normally open input LOCK e It is the locked elevator signal input point and if this signal is valid the system enters into locked elevator state 15 Up limit normally open input LSU 16 Down limit normally open input LSD e No 15 and No 16 functions are terminal stopping switches for preventing car and counterweight rest when the elevator passed the leveling station of landing without stopping 17 Up forced Dec normally open input ULS1 18 Down forced Dec normally open input DLS1 During the shaft self learning process MONT71 will record these switch positions to F19 12 and F19 13 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 145 Function Introduction 19 Over load normally open input LWD If the elevator loading is over 110 of rated load the system comes into over loading state The over loading buzzer tweets the car light of over loading will light and the elevator will not close the door Inthe elevator checking course if the system need run with 110 over loading it can set Bit2 of F25 04 as 1 enabled over load run 20 Full load normally open input LWX The elevator loading among 80 110 of elevator rated load F00 04 is full loading state n the full loading state the hall shows full loading the elevator doesn t response the hall call 21 Safety circuit 1 normally open input JT1 22 Front door OD arrival normally open input
134. eet EMC Requirement of JInstallaton 54 5 721 Comech EMG Installato EE 54 572 NINO REGULO M n 55 DTS WIDI dai de E 55 DTA Ground Gonrnecliotis sedo suom a eeh 56 DAE MINING ee 57 5 7 6 Conduction Radiation and Radio Frequency Interference Countermeasures 57 5 7 7 Input and Output REAC HEI ee 58 Chapter 6 Parameters eR 59 Chapter 7 Panel Introduction cesses seca dE edel ESA 95 7 1 Panel Display Interface AAA 97 7 1 1 Power up Display en Ee 97 7 1 2 Input Password Display Jntertace AAA 97 153 Fault Display EE EE 98 7 1 4 State Display Intertace AAA 99 7 2 Four level Menu DIE Eeer ee 100 7 3 Examples of Panel USC iinsvecsnaavectonaavesneasave reese ak ees e Fea QUE NNN age eege 102 K Set Euncllon Parameter cssc aso nie o SERE En RE RR RUM ORE RR UMN RAN 102 7 3 2 User Password Operation 103 K Panel ell Iesu essen enn N UR IR Dea n ua t E Ud E LUE 104 7 3 4 Parameter Upload and Download 105 Chapter 8 Function IntrodUcllODi uus eieiion deed 107 8 1 Group D State Display Parameters AAA 109 8 1 1 Group DOO Configurations of Integrated Hardware and Software 109 8 1 2 Group D01 Display Parameters in Drive Gate 110 8 1 3 Group D02 Display Parameters of Main Control Board 111 8 1 4 Group D03 Display Parameters of Floors for Service and Registration 118 8 1 5 Group D04 Display
135. en input DLC1 38 Door locked circuit 2 normally open input DLC2 The safety circuit and the door locked circuit are enabled which is an essential condition for elevator operation Safety circuit No 21 and No 36 functions It is an important guarantee of the elevator safe and reliable operation If select two safety circuit input points but any of them is broken off it will alarm E0041 fault safety circuit disconnection Door locked circuit No 37 and No 38 functions It ensures that the hall door and the car door have closed at the elevator starting running The function of door lock 2 is the same with that of door lock 1 that may handle hall door and car door signals separately Two door locked signals are simultaneously connected to system before believe that the locks closed otherwise alarm E0042 fault door locked disconnection during running Note 1 No 21 function and No 36 function can use with the high voltage safety circuit signal If using with the high voltage safety circuit and detect that all safety circuits are valid it will believe that the safety circuits pass otherwise will alarm E0041 fault safety circuit disconnection No 37 function and No 38 function can use with the high voltage door locked signal If that and detect the preset door lock signal circuits all turned on it will believe the door lock closing After door lock has closed the LOCK lamp of MCB will become lighting
136. er User Manual V1 0 77 78 Chapter 6 Parameters Parameter Name Setting Range MCB relay Y1 1 Run contactor output SW Output function selection of 2 Brake contactor output BZK F12 30 MCB relay Y2 3 Synchronous star delta contactor FX F12 31 Output function selection of d TM MCB relay Y3 4 Brake forced output KMZ 5 Lighting and fan output FAN F12 32 Output function selection of db put l MCB relay Y4 Output function selection of n MCB relay Y5 Output function selection of F12 34 MCB relay Y6 Output function selection of a sis MCB relay Y7 S es iem i 0 No function F12 36 ou PESSUDIUG 6 Front door open output OD1 7 Front door close output CD1 F12 37 So E selecionar 8 Back door open output OD2 rela d 9 Back door close output CD2 F12 38 G ETE selection of 10 Low 7 segment code display output a y 11 Low 7 segment code display output b F12 39 Sege ot selection of 12 Low 7 segment code display output c ey 13 Low 7 segment code display output d F12 40 Se E selection of 14 Low 7 segment code display output e ice 15 Low 7 segment code display output f p12 41 Output function selection of 16 Low 7 segment code display output g MCB relay Y13 17 Up arrow display output Output function selection of 18 Down arrow display output F12 42 MCB relay Y14 19 Minus display output 12 43 Output function selection of 20 Firefighting back to base station MCB relay Y15 output F12 44 Output function selection
137. erature between 10 4 40 C It can improve operation performance if install at the location with good ventilation or cooling devices MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 5 49 Installation and Wiring 5 3 Wiring Precautions Only qualified electrical engineer can perform wiring job Only when the power supply switch is completely off can you do the wiring job You can t open MONT71 cover to do wiring operation until the power is cut off 10 minutes later Do not wire or detach MONT71 internal devices at power on situation Check the wiring carefully before connecting emergency stop or safety circuit The earth terminal PE of MONT71 must be reliable earthing It must use two separate earth wire due to the leakage current from MONT71 to ground It must use Type B mode when utilize earth leakage protection devices ELCB RCD Do not touch the wire terminals of MONT71 when it is live The main circuit terminals are neither allowed connecting to the enclosure nor short circuiting Bare metal parts of connections of high voltage input terminals X25 X27 and relay output terminals YO Y23 of main control board must be wrapped with insulating tape AN Warning Do not do dielectric strength test on MONT71 Do wiring connection of the braking resistor according to the wiring figure Make sure the terminals are fixed tightly Do not connect the AC supply cable to the output terminals U V W Do
138. erminals so as to avoid MONT71 fault tripping or component damage Contactors and circuit breakers connected to the output If contactor or circuit breaker needs to be connected between MONT71 and motor be sure to operate these contactors or circuit breakers when MONT71 has no output so as to avoid any damage to MONT71 Rated voltage MONT71 is prohibited to be used beyond the specified range of operation voltage If needed please use the suitable voltage regulation device to change the voltage Change three phase input into single phase input For three phase input controller the users should not change it to be single phase input If you have to use single phase power supply you should set F17 00 The detect base of lack of input as 026 And the bus voltage and current ripple will increase which not only influences the life of electrolytic capacitor but also deteriorates the performance of MONT71 In that case the controller must be derating and should be within the controller 6096 rated value Lightning surge protection MONT71 internal design has lightning surge overcurrent protection circuit and has certain self protection capacity against the lightning Altitude and derating In the altitude exceeded 1000 meters area since the heatsink efficiency will be reduced because of the tenuous air MONT71 should be derated MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 3 Product Information 1 Chapter
139. es Elevator Integrated Controller User Manual V1 0 Chapter 6 93 Parameters Function b Parameter Name Setting Range Value ara 0 The CD button cannot close the door 1 The CD button can close the door Bit1 Detect the timeout of auto back to re leveling 0 Detect 1 Do not detect Bit2 Safety circuit fault priority 0 Normal safety circuit fault level 1 High safety circuit fault level Bit3 Bit15 Reserved F26 27 F26 28 Manufacturer debugging parameter prohibit to change F26 29 Emergency return leveling and 0 000 3 000s stop delay F26 30 Return leveling and stop delay 0 000 3 000s BitO The way of digital arrow display 0 Scrolled 1 Fixed Bit1 Format of arrow display 0 Big arrow 1 Small arrow Bit2 Direction button input type Bit3 Firefighting signal input type Bit4 Locked elevator signal input type 0 Normally open 1 Normally close Bit5 Floor display Hall call parameter setting 0 Dynamic 1 Direct Bit6 Single digit display 0 Center display 1 Unilateral display Bit7 Energy saving display selection 0 Enabled energy saving display 1 Disabled energy saving display Bit9 Bit8 LCD bright adjustment 00 Low bright 01 Middle bright 10 High bright 11 The brightest MONT71 Series Elevator Integrated Controller User Manual V1 0 94 Chapter 6 Parameters Function g Parameter Name Setting Range Value ara Bit10 HCB display fault code 0 No display 1 Disp
140. ess 9 1 with or without registration D03 07 Registration state of back door 9 E E E 1 hall call up run e 1 This address of the floor has registration 0 This address of the floor does not have registration D03 08 Registration state of front door EIERE in 10 bit binary and from low to DEE ECH 10 2 hall call down run high bit represent D03 08 front door hall call address 10 2 with or without registration D03 09 back door hall call address 10 2 with or without registration D03 09 Registration state of back door Acestes 10 2 hall call down run e 1 This address of the floor has registration 0 This address of the floor does not have registration Group D04 Display Parameters of Elevator Running State on page 119 120 Display in 16 bit binary and from low to high bit represent Bit0 System front door light curtain Bit1 System back door light curtain Bit2 Hall call locked elevator D04 00 Elevator system state Bit3 Hall call firefighting Actual value Bit7 Bit4 Elevator state 0000 Automation 0001 Inspection 0010 Battery driven run 0011 Shaft self learning MONT71 Series Elevator Integrated Controller User Manual V1 0 68 Chapter 6 Parameters Function g Parameter Name Setting Range Value ara 0100 Firefighting back to base station 0101 Fireman mode 0110 Driver mode 0111 Isolated run 1000 Auto back to leveling Bit8 Bit11 Reserved Bit12 System fu
141. est automatic interception turns to auto I position 4 Hall call forward automatic interception 2 Driver run i At the driver running mode the elevator does not have auto i i close door function controlled by the elevator driver and the driver can choose the direction and straight running function 3 Inspection run After press the inspection switch the elevator will access to the inspection state and the system will cancel auto run and operation of automatic doors Pressing the up down buttons will enable the elevator run to up down at inspection speed Release the button to stop the elevator immediately or decelerate to zero MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 1 MONT71 Configuration Function name Function description i Remark Self rescue back Running conditions are met if the elevator stopped at the to leveling run non leveling area elevator will run at 0 200m s to the nearby leveling area 1 When detect any one of the up or down leveling signal The elevator will decelerate from the inspection speed to the re leveling speed 2 When detect both of up and down leveling signals After the delay time passing the leveling park decelerate from inspection speed to zero speed stop and then open the door b Firefighting back After fire switch action the system enters firefighting run mode e to base station e 1 The system will clear all
142. et the terminal in a non functional state it will not make any action even if there is a signal input You can set the unused terminal as zero so as to prevent misconnection or malfunction Note The 10th floor does not have up call and the 1st floor does not have down call 201 Front door OD button 202 Front door CD button 203 Front door OD delay button 204 Two doors select button input LS 205 Back door prohibited switch normally open input i 210 10th floor of front door internal call 310 10th floor of back door internal call 211 1st floor of front door internal call 311 1st floor of back door internal call MONT71 Series Elevator Integrated Controller User Manual V1 0 152 Chapter 8 Function Introduction 230 10th floor of front door down call 232 2nd floor of front door down call 233 3rd floor of front door down call 234 4th floor of front door down call 235 5th floor of front door down call 236 6th floor of front door down call 237 7th floor of front door down call 337 7th floor of back door down call 238 8th floor of front door down call 338 8th floor of back door down call 239 9th floor of front door down call 339 9th floor of back door down call Output logic setting 1 0 65535 0 Output logic setting 2 The value of F13 27 is 16 bit binary data BitO is corresponding to MCB terminal LO and Bit15 is corresponding to terminal L16 The value of F13 28 is 10 bit binary data BitO is correspo
143. eter update parameter group 4 5 Upload MCB parameters to panel parameter group 5 6 Upload MCB parameters to panel parameter group 6 7 Upload MCB parameters to panel parameter group 7 8 Upload MCB parameters to panel parameter group 8 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 71 Parameters 9 Upload MCB parameters to panel parameter group 9 10 Upload MCB parameters to panel parameter group 10 Group F02 Start and Stop Parameters on page 127 128 Retention time of See 0 000 2 000s 0 200s Da zero speed en Delay time orowe rn Jam Jas LI roo sst Jooo ooms Jager oos Retention ime orsin speed 0000 20008 oos reem Brake close delay tme atsiop Ju zm Ja e Se SOD Os ioe roe on time at 0 000 2 000s 0 300s ell stop 0 000 2 000s F02 06 Start ramp time 0 000s x 0 000 No ramp Group F03 Acceleration and Deceleration Curve Parameters on page 128 130 mg Acceleration speed J Ze ss e mm StantAccjewe looz zoom Jozom mg L nsen J ze J nm Deceratonspeed Ja 2000m J zes x mm stan Dece oom 200ms ss x F305 End becek J ze J osos inspection Acc speed 0020 2000ms ss x mg inspection Dec speed 1000 200ms rooms fx oos Banery arven Ace specs 0 c20 2 000mis s x nm Baterydrven Dec speed 0 020 2 000ms D gesg x Oso oneus motor parameter Leg gege 0 100m s x
144. eth floor of back door down call 7th floor of back door down call 8th floor of back door down call 9th floor of back door down call F13 25 F13 26 Manufacturer debugging parameter prohibit to change F13 27 Output logic setting 1 0 65535 F13 28 Output logic setting 2 0 255 Group F14 Communication Parameters on page 153 154 F14 00 Data format 1 8 2 format no parity RTU 1 8 1 format even parity RTU 1 8 1 format odd parity RTU 1 7 2 format no parity ASCII 1 7 1 format even parity ASCII 1 7 1 format odd parity ASCII n F14 01 Baud rate selection 0 1200bps a e MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 81 Parameters Parameter Name Setting Range zen a ve 1 2400bps 2 4800bps 3 9600bps 4 19200bps 5 38400bps Local address EE 2 F14 02 Local address 0 247 2 F14 03 Host PC response time 0 1000ms Oms F14 04 F14 10 Manufacturer debugging parameter prohibit to change mn gt O F o 3 EA Group F15 Panel Display Parameters on page 154 155 0 Chinese F15 00 LCD panel language 1 English 0 Positive display physical floor CE 1 Reverse display physical floor F15 02 Small panel display direction F15 03 Run display parameter 1 setting F15 04 Run display parameter 2 setting 2 Positive display hall call data 3 Reverse display hall call data Reserved F15 05 Run display
145. f Modbus communication terminal RJ45 are shown in Figure 4 4 Pin init a MOD GND MOD Reserved Figure 4 4 Modbus communication terminal 4 2 5 Small Panel Description The small panel is designed with 3 bit digital tube and three keys which displays the information of main control board MT71 MCB A and inputs simple command The data menu content is divided into FO0 F8 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction Function description of small panel key Three keys are respectively PRG UP and SET Their marks are beneath the keys as Figure 4 5 III CNT Q PRG UP SET Main control board MT71 MCB A CD 3 Bx o Di 5 a Figure 4 5 Definition of small panel keys PRG key At any state pressing PRG key can display the present function group number and can change the function group number via UP key UP key At function group number menu via UP key to increase group number which can be changed cyclically At specific functional data menu you can also input data or simple command SET key At function group number menu pressing SET key can enter data menu of this function group At specific functional data menu after input simple command press SET key to save and then enter into data menu display of FO Note Pressing three or any two keys of small panel at the same time is invalid Small panel display function The small panel display
146. f destination floor achieves direct stop Note At elevator normally running F00 07 must be set as 1 F00 08 SE parameter prohibit to change Speed setting via panel 0 000 F00 02 0 500m s When F00 07 0 set the target speed at running MONT71 Series Elevator Integrated Controller User Manual V1 0 23 124 Chapter 8 Function Introduction Elevator run direction 0 1 0 0 The elevator run direction is the same as run command 1 The elevator run direction is opposite to run command Note 1 When debugging the elevator if the preset direction and the elevator actual run direction are inconsistent you can set the inverse F00 10 2 When normally run F00 10 can not be changed If the original system has floor data when modify F00 10 the shaft self learning is needed to restart 8 2 2 Group F01 User Parameters F01 00 User password 00000 65535 00000 XXXXX Set the user password any non zero digital Once the password is set after press ENT key and then detect that there is no press on the panel within five minutes the user password will be valid If detect a press on the panel key within five minutes a 5 minute timer will be restarted e f the password is valid it is necessary to input correct password if you want to check and change the parameters 00000 MONT71 factory setting e If the user wants to clear the password please refer to section 7 3 2 User Password Operatio
147. ff i down forced deceleration disconnectio i l switch is turned off Leveling signal without any change within F23 02 specified time Countermeasure 1 Reasonably set encoder P R F11 01 2 Select larger capacity controller 3 Correctly set speed loop PI parameter Group F08 4 Check the encoder wiring and encoder installed reliably 5 Restart parameter auto tuning 6 Check motor parameter Check the wiring Whether the wiring of UVW is correct i 1 Check the encoder 2 Check the wirings of encoder C phase and D phase I 1 Set appropriate speed curve F19 07 F 19 11 2 Set appropriate Acc Dec curve parameters F03 00 F03 05 Please contact the supplier for changing the main control board 1 Check the up forced Dec switch 2 Restart shaft self learning 3 Check the leveling switch signal i 1 Check the down forced Dec switch 2 Restart shaft self learning 3 Check the leveling switch signal 1 Elevator speed is too low or floor height is too high 2 Leveling signal is abnormal 3 Steel wire skid User Manual V1 0 Small panel display Fault name Safety circuit disconnectio n Door locked n during running Up limit signal disconnectio n during running Down limit signal disconnectio n during running Up down forced Dec switch disconnectio n MONT71 Series Elevator Integrate
148. fied model of hall call board in serial Layout of main control board Control terminal jumper Modbus communication terminal small panel and indicators are on the main control board shown as Figure 4 2 EES lt Indicators jaued jews Main control board MT71 MCB A To connect the encoder card Figure 4 2 Layout of main control board MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction 4 2 1 Terminal Description SKI SK8 ve De we Ds ene ao e vis s en SK9 vu s rie rar ens vie is vio v Figure 4 3 MCB terminal array Table 4 1 MCB terminal function description Category i Mark Name Function and specification l Total 24 groups programmable bipolar optional i optocoupler isolated input signals v i Digital input Digital input Input voltage 0 30VDC Input impedance 4 7kQ l e The function is set by F12 01 F12 24 Input voltage range 10 10V input impedance Analogue input 34kQ Analogue input SK2 Analogue input ground Analogue input ground i Total 3 inputs optocoupler isolated input signals High voltage input Input voltage 110 220VAC DC input High voltage terminal impedance 22kQ input SK4 e The function is set by F12 25 F12 27 High voltage input ground High voltage input ground MONT71 Series Elevator Integrated Controller User Manual V1 0 Category Elevat
149. floor of front door Bit6 7th floor of front door Bit5 6th floor of front door Bit4 5th floor of front door down call down call down call down call 0 No 0 No 0 No 0 No 1 Yes 1 Yes 1 Yes 1 Yes Bit3 4th floor of front door Bit2 3rd floor of front door Bit1 2nd floor of front down call down call door down call 0 No 0 No 0 No 1 Yes 1 Yes 1 Yes DO Reserved D02 13 L terminal for back door internal call state Actual value D02 14 L terminal for back door up call state Actual value L terminal for back door down call state Actual value D02 13 displays the 1st 10th floors of back door internal call state D02 14 displays the 1st 10th floors of back door up call state and D02 15 displays the 1st 10th floors of back door down call state which are the same with front door setting referring to D02 10 D02 12 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 117 Function Introduction MCB Y terminal output logic state 1 Actual value Display the MCB of relay output logic state by a 16 bit binary as following table Bit12 Low 7 segment display output d 0 No Bit15 Low 7 segment display output g 0 No Bit14 Low 7 segment display output f 0 No Bit13 Low 7 segment display output e 0 No 1 Yes Bit11 Low 7 segment display output c 0 No 1 Yes Bit7 Back door OD output 0 No 1 Yes Bit3 Brake frocely output 0 Inval
150. g F10 12 Synchronous motor initial angle 0 0 359 9 f Z pul Ee nee Tagen initial angle F10 14 Sincos encoder C amplitude 0 9999 2048 F10 15 Sincos encoder C zero bias 0 9999 2048 F10 16 Sincos encoder D amplitude 0 9999 2048 F10 17 Sincos encoder D zero bias 0 9999 2048 x Sincos encoder D zero bias NN 0 Normal F10 18 Sincos encoder CD phase x 1 CD phase is opposite F10 19 Synchronous motor current filter 0 40 coefficients BitO Inspection run parameter auto tuning 0 Do not automatically parameter tuning 1 Automatically parameter tuning Bit1 Current loop parameters are automatically optimized 0 Manually optimize 1 Automatically optimize Performance optimization parameters Bil SINCOS encoder performance x optimized 0 Normal processing 1 Optimization processing Bit3 Elevator speed and grid voltage optimization 0 Normal processing 1 Optimization processing Bit4 Bit15 Reserved Group F11 Encoder Parameters on page 141 142 1 ABZ incremental encoder interface card F11 00 Encoder interface card selection MT70 PG1 ABZ 2 UVW encoder interface card MONT71 Series Elevator Integrated Controller User Manual V1 0 76 Chapter 6 Parameters Function Parameter Name Setting Range Para MT 70 PG3 UVW 3 SINCOS encoder interface card MT 70 PG2 SINCOS F11 01 Encoder P R 1 9999 1024 VM 0 The same direction F11 02 Encoder direction setting x 1
151. g and make single floor double floor multi floor and full floor automatic operation 3 To confirm the elevator normally switch door acceleration and deceleration call elevator and parking Safe test running Safety circuit test At the elevator standby and safety circuit is disconnected the elevator can not run and alarm E0041 fault safety circuit disconnection At the elevator running and the safety circuit is disconnected the elevator emergency stop and alarm E0041 fault safety circuit disconnection After the safety circuit is closed the fault is automatically reset Door lock circuit test At the elevator standby and the door lock circuit is disconnected the elevator can not run At the elevator running and the door lock circuit is disconnected the elevator emergency stop and alarm E0042 fault door locked disconnection during running After the door lock circuit is closed the fault is automatically reset Contactor adhesion protection The artificially created adhesions situation of system configuration such as the run contactor the brake contactor the synchronous star delta contactor the locked door contactor etc can confirm that the system be protected MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 9 195 System Typical Application and Adjustment Run timeout protection test At the inspection mode operate the elevator to floors of non leveling area and removal of leveling sign
152. g details of adjusting ways are as follows In up electrical state if the elevator rolls back when starts increase F05 09 if the elevator rushes to start reduce F05 09 e In up brake state if the elevator rolls back when starts increase F05 10 if the elevator rushes to start reduce F05 10 In down electrical state if the elevator rolls back when starts increase F05 11 if the elevator rushes to start reduce F05 11 n down brake state if the elevator rolls back when starts increase F05 12 if the elevator rushes to start reduce F05 12 Manufacturer debugging parameter F05 13 F05 15 prohibit to change No weighing current coefficient 0 9999 3000 No weighing speed loop KP 1 9999 1000 No weighing speed loop KI 1 9999 1000 FO5 16 F05 18 are used to adjust the effect of pre torque auto compensation F05 00 3 e To increase F05 16 F05 18 can increase the response speed of the system but too large will cause the system overshoot and oscillation At debugging adjusting F05 16 can achieve the elevator smooth start generally Atthe starting moment the elevator slips car increase F05 16 at the starting moment elevator vibrates reduce F05 16 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 135 Function Introduction 8 2 7 Group F06 Manufacturer Debugging Parameters Manufacturer debugging parameter prohibit to change Manufacturer debugging pa
153. gistration the elevator will directly return to locked elevator base station After that Stop displaying after 10s then elevator automatically closes the door turn off the car lighting and the internal and hall call displays extinguish Pressing the OD button can open the door 10s later restart to close the door and turn off the car lighting Anti nuisance 1 According to the weighing signal function System identifies the number of passengers in car in accordance with the analogue weighing signal and automatically determines the number of passengers inside and compares with the instructions registered in car If an excessive number of calls registered then the system considers it is anti nuisance state and cancels all calls in car 2 According to the light curtain signal If the elevator is landing for consecutive three times and the light curtain is no action the system will consider to be in anti nuisance state and clear all registered internal call command Full selective At auto run mode elevator automatically response the up and down call button signal outside the hall i Up selective i At auto run mode elevator automatically response the up call button signal outside the hall Down selective At auto run mode elevator automatically response the down call button signal outside the hall MONT71 Series Elevator Integrated Controller User Manual V1 0 19 i Function name Shaft self learning
154. gnal A output type is OC output 2 i OUTB Output signal B output type is OC output 3 i COM i Output signal site isolated from GND MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction Encoder interface card connection We recommend HEIDENHAIN ERN1387 encoder for use The 1387 double socket and DB15 connection terminal are shown as Table 4 11 Table 4 11 1387 double socket and DB15 terminal relation 1387 double socket DEI 5 terminal p 2 3e Lab sb eo o a a 30 aa 5a 6a o MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 45 Control System Introduction 4 5 4 UVW Encoder Interface Card MT70 PG3 UVW UVW encoder interface card is shown as Figure 4 19 UVW encoder card DB15 MT70 PG3 UVW terminal definition DB15 Outputterminal Connection terminal Figure 4 19 UVW encoder interface card Terminal description The DB15 terminal and its output terminal definition are shown as Figure 4 19 and signal description is shown as Table 4 12 and Table 4 13 Table 4 12 DB15 connection terminal signal description Name Description Name Description Differential signal A Differential signal V L i 2 i Differential signal A 10 Differential signal V i i L Differential signal B Differential signal W i 3 4 Differential signal B Differential signal W i i 5 Differential signal Z i 13 PG
155. grams of the open collector output encoder and the push pull output encoder are respectively shown as Figure 4 16 and Figure 4 17 4py ABZ incremental encoder card MT70 PG1 ABZ Open collector output encoder Interface circuit the same as A Interface circuit the same as A JD ABZ incremental encoder card MT70 PG1 ABZ 5V Push pull output encoder Interface circuit the same as A Interface circuit the same as A Figure 4 17 Connection of push pull output encoder MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction 4 5 3 SINCOS Encoder Interface Card MT70 PG2 SINCOS SINCOS encoder interface card is shown as Figure 4 18 DB15 terminal definition SINCOS encoder card MT70 PG2 SINCOS UTA OUTB COM connection terminal Figure 4 18 SIN COS encoder interface card Terminal description The DB15 terminal and the output terminal definition are shown as Figure 4 18 and signal description is shown as Table 4 9 and Table 4 10 Table 4 9 DB15 connection terminal signal description Description Differential signal B NC Invalid 9 PGVCC 5V power supply R Differential signal R 10 C Differential signal C L L D 6 Differential signal A 1 D Differential signal D 7 PGGND Power supply ground 14 15 NC i Invalid Table 4 10 Output terminal signal description No i Terminal name Terminal description 1 i OUTA Output si
156. he slope way to avoid abnormal noise of the motor during the process Pull door function The system supports the pull door function 1 4 Protection Function Description No Function name Function description Fault history The system can record 11 fault histories including fault type fault floor fault time etc i Ensure the car running speed in the security control areas in order to ensure Over speed protection the safety of passengers and cargo Protection of excessive When detect that the speed deviation is too large the system will protect itself speed deviation automatically Encoder reverse The system can judge the feedback signal direction of the rotary encoder if is i protection i inconsistent with the given direction it will carry out protection Encoder disconnection The system can judge the feedback pulse of the rotary encoder if encoder protection feedback signal is lost it will carry out protection Door light curtain During the door is closing the light curtain protection acts or the safe touching touching board board act the elevator will turn to open the door immediately protection e Does not work in the fireman run or forced close door g Non open outside door Prohibit from opening the door automatically when car is not in door zone Zone i Door fault protection When detecting the elevator not yet close the door effective after the elevator open and close the door beyond
157. ia the car s OD CD button to operate 5 Check the door machine running direction whether correct the OD CD arrival signal whether normal and the light curtain and touch board signal whether effective action EN Note Using the panel checks the D04 00 and D04 01 so as to monitor door machine OD CD arrival signal light curtain signal and safe touch board signal etc In inspection mode light curtain and safe touch board action do not open the door but can monitor the signal whether normal MONT71 Series Elevator Integrated Controller User Manual V1 0 19 Chapter 9 System Typical Application and Adjustment 9 1 7 High Speed Running High speed running precondition 1 Door lock circuits are connected 2 No 2 or 3 level fault at elevator 3 Door machine CD arrival signal is valid 4 Floor storey data is correct 5 F10 12 synchronous motor initial angle is not 0 6 No over load signal input High speed commissioning After fully validate the inspection running normally and shaft self learning success the high speed commissioning can be operated After the shaft self learning is completed the system will automatically calculate the speed curve adapted to the elevator operation in accordance with the elevator floor distance and automatically store to F19 07 F 19 11 highest speed of curve General users do not need to modify 1 Turn the inspection switch to normal 2 Using panel to set F26 00 call elevator floor settin
158. id 1 Valid D02 17 1 Yes Bit10 Low 7 segment display output b 0 No 1 Yes Bite Front door CD output 0 No 1 Yes Bit2 Synchronous star delta contactor output 0 Invalid 1 Valid 1 Yes Bit9 Low 7 segment display output a 0 No 1 Yes Bitb Front door OD output 0 No 1 Yes Bit1 Brake contactor output 0 Invalid 1 Valid MCB Y terminal output logic state 2 1 Yes Bit8 Back door CD output 0 No 1 Yes Bit4 Fan and light output 0 No 1 Yes BitO Run contactor output 0 Invalid 1 Valid Actual value Display the MCB of relay output logic state by a 16 bit binary as following table Bit15 Battery driven output at power off 0 No output 1 Output Bit11 High bit output of BCD Gray code and seven segment 0 No output 1 Output Bit7 Full load output 0 No 1 Yes Bit3 Firefighting back to station output 0 No output 1 Output MONT71 Series Elevator Integrated Controller Bit14 Reserved Bit10 Locked door contactor output 0 Invalid 1 Valid Bit6 Arrival chime output 0 No 1 Yes Bit2 Minus display output 0 No output 1 Output Bit13 Reserved Bit9 Fan and light output 2 0 No output 2 1 Output 2 Bit5 Over loaded output 0 No 1 Yes Bit1 Down arrow display output 0 No output 1 Output Bit12 Integrated run correctly output 0 No output 1 Output Bit8 Inspection signal output
159. id 0 Invalid 1 Valid 1 Valid 1 Valid 1 Valid Bit3 L4 terminal Bit2 L3 terminal Bit1 L2 terminal BitO L1 terminal 0 Invalid 0 Invalid 0 Invalid 0 Invalid 1 Valid 1 Valid 1 Valid 1 Valid D02 04 MCB L terminal input state 2 Actual value Display the MCB floor input terminals L17 L24 of state by a 16 bit binary as following table Bit15 Bit12 Reserved Bit11 Bit10 Reserved Bit9 Reserved Bit8 Reserved Bit7 L24 terminal 0 Invalid 1 Valid Bit3 L20 terminal 0 Invalid 1 Valid MONT71 Series Elevator Integrated Controller Bit6 L23 terminal 0 Invalid 1 Valid Bit2 L19 terminal 0 Invalid 1 Valid Bitb L22 terminal 0 Invalid 1 Valid Bit1 L18 terminal 0 Invalid 1 Valid Bit4 L21 terminal 0 Invalid 1 Valid BitO L17 terminal 0 Invalid 1 Valid User Manual V1 0 Chapter 8 113 Function Introduction MCB X terminal input logic state 1 Actual value Display the MCB digital input terminals X1 X24 of logic state by a 16 bit binary as following table Bit15 Down limit Bit14 Up limit Bit13 Locked elevator 0 Invalid 0 Invalid 0 Invalid Bit12 Reserved 1 Valid 1 Valid 1 Valid Bit11 Firefighting signal Bit10 Down inspection Bit9 Up inspection Bit8 Inspection input 0 No signal 0 Invalid 0 Invalid 0 Invalid 1 Have the signal 1 Valid 1 Valid 1 Valid Bit7 Locked door output Bite Synchronous motor Bit5 Brake limit switch Bit4
160. ime preset speed at runtime D01 01 Elevator actual speed Actual value Display the elevator actual speed D01 02 Running RPM Actual value Display the running RPM D01 03 Output voltage Actual value Display the output voltage D01 04 Output current Actual value Display the output current D01 05 Output frequency Actual value Display the output frequency D01 06 DC bus voltage Actual value Display the DC bus voltage MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction 11 8 1 3 Group D02 Display Parameters of Main Control Board D02 00 i MCB analogue input voltage Actual value Display the MCB MT71 MCB A analogue input Al voltage MCB X terminal input state 1 Actual value Display the MCB digital input terminals X1 X16 of state by a 16 bit binary as following table Bit15 X16 terminal Bit14 X15 terminal Bit13 X14 terminal Bit12 X13 terminal 0 Invalid 1 Valid Bit11 X12 terminal 0 Invalid 1 Valid Bit7 X8 terminal 0 Invalid 1 Valid Bit3 X4 terminal 0 Invalid 1 Valid D02 02 0 Invalid 1 Valid Bit10 X11 terminal 0 Invalid 1 Valid Bit6 X7 terminal 0 Invalid 1 Valid Bit2 X3 terminal 0 Invalid 1 Valid 0 Invalid 1 Valid Bit9 X10 terminal 0 Invalid 1 Valid Bitb X6 terminal 0 Invalid 1 Valid Bit1 X2 terminal 0 Invalid 1 Valid MCB X terminal input state 2
161. ing voltage range is 630 750V and the factory setting is 720V For 220V voltage class the braking voltage range is 360 400V and the factory setting is 380V Note Only in the controller running state the braking action is enabled Contactor fault detect time 0 3 2 0 1 0s Define the fault detected time of output contactor brake contactor synchronous star delta contactor and brake forced contactor Fault shield i 0 65535 0 Bit0 E0038 and E0039 fault shield Bit3 E0059 fault shield 0 No shield for E0038 and E0039 0 No shield for E0059 1 Shield for E0038 and E0039 1 Shield for E0059 Bit1 E0024 fault shield Bit4 E0045 fault shield 0 No shield for E0024 0 No shield for E0045 1 Shield for E0024 1 Shield for E0045 Bit2 E0058 fault shield Bit5 Bit15 Reserved 0 No shield for E0058 1 Shield for E0058 Manufacturer debugging parameter prohibit to change Elevator manufacturers choose 0 999 0 Manufacturer debugging parameter prohibit to change F16 09 F16 24 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 157 Function Introduction 8 2 18 Group F17 Fault Protect Parameters Input and output phase loss of fault F17 00 F17 03 The detect base of lack of input 0 100 30 The detect time of lack of input i 0 0 5 0 1 0s F17 00 setting value is a percentage of MONT71 rated voltage When detect certain input voltage wi
162. ion At the non inspection mode during the elevator running process if the elevator continuous running time beyond the F23 02 set time maximum 45s and the leveling switch does not act yet the system will regard this as detect the rope slip fault and stop all car running i Brake contactor output contactor star delta contactor and locked door i contactor etc feedback contact signals can be connected to the main control i board MCB the system will automatically judge whether the contactor is i normal in accordance with the operating logic If find the abnormal contactor then carry out protection i When detect the motor over load the system will be automatic protection When detect that the motor s current value is greater than the maximum allowable the system will be automatic protection When detect that the voltage is greater than the maximum allowable value the system will be automatic protection When detect that the drive module is overheated the system will be automatic protection When the shaft self learning has not been completed correctly the system will alarm the shaft self learning fault e Without the right shaft data the elevator will not be able to run User Manual V1 0 Chapter 2 Safety Information and Precautions Chapter 2 Safety Information and Precautions 2 1 Safety Definition Lei Danger A Danger contains information which is critical for avoiding Danger safety ha
163. ion functions will act and the controller will display the fault code Error information produced by MONT71 can be divided into 3 sorts according to their influence to the system Different fault has different disposal mode which is as shown in the next table Fault sort Relevant disposal Display fault code Any kind of working condition will Error relay output action not be influenced Level 1 fault Display fault code Error relay output action After stop the system will close Level 2 fault Stop at the nearest landing when in distance off output at once and close control then stop running brake Stop running at once in other work condition Display fault code Error relay output action Level 3 fault Forbid running The system blank off output at once close brake and stop running Fault reset method After the fault is removed you can do fault reset through the following ways 1 Reset through the panel 2 Make MONT71 completely power down 3 Some faults may auto reset Fault code description The fault s display code cause countermeasure and sort are seen in Table 10 1 The panel displays five data E Fault code The panel can prompt fault code causes and countermeasures and the detail operation is referred to section 7 1 3 page 98 The MCB s small panel displays three data E Fault code MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 10 215 Troubleshooting Table 10 1 Fault
164. is opening There is no difference between the door lock connection of front door and back i door If elevator is over load display over load if full load display full load User Manual V1 0 100 Chapter 7 Panel Introduction 7 2 Four level Menu Description The four level menus are mode setting level function group setting level function parameter setting level setting parameter level The specific four level operation is shown as Figure 7 7 and key description on each level menu is shown as Table 7 3 Group F 10F 5 1 0 0 Om s CD arrival Function group setting level Function group setting level Function parameter setting level Function parameter setting level En ro3 31 pt i PRG Stop Dec jerk Deceleration speed Stop Dec jerk Setting parameter level Function parameter setting level Function parameter setting level Figure 7 7 Four level menu operation flowchart MONT71 Series Elevator Integrated Controller User Manual V1 0 Key PRG display Mode setting level Table 7 3 Key description on each level menu Function group Function para setting level setting level Return to state Return to mode Return to function setting level roup setting level roup setting level para setting level arameter level Select function Modify function odify function group A group Increase 1 arameter Increase Cycle according to when press the key based on present D F Y i i
165. it s forced to decelerate 0 No open 1 Open Synchronous motor star delta contactor F26 19 i 0 255 0 parameter setting The synchronous motor star delta contactor can assure that there won t be fast speed slide running even when the brake doesn t work F26 19 is only valid for the permanent magnet synchronous motor Bit0 Synchronous star delta contactor control selection 0 No control the output 1 Control the output Bit1 Synchronous star delta contactor normally open or close setting 0 Normally close Generally the synchronous star delta contactor uses the normally close 1 Normally open Bit2 Bit7 Reserved Based on the actual wiring diagram set synchronous star delta contactor as normally open normally closed type control signal and feedback contact detection signal Details refer to the MCB terminal function parameters of Group F12 Manufacturer debugging parameter prohibit to change MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction Open through door control 0 1 0 OD function selection 1 at this floor internal call 0 1 0 0 No open door 1 Open door F26 23 i OD function of OD delay button 0 1 0 0 Pressing the OD delay button does not work during CD process 1 Pressing the OD delay button does work during CD process Position deviation too large and return station to run F26 25 Position deviation too large
166. l the star delta contactor otherwise it will alarm over current fault due to the output short circuit 3 At rotation auto tuning it will automatically detect the encoder direction 4 Encoder wiring need strictly connect in accordance with the wiring diagram of the encoder otherwise even if the A B Z connections are correct the motor will run abnormally due to the U V W or C D phases connection fault 5 For the SINCOS encoder each time the deviation of F10 12 results should be less than 5 or the difference of the F10 12 result and the 360 motor pole pairs of integer multiple should be less than 5 whose results are considered as the normal otherwise need to restart auto tuning h The motor pole pairs are 12 and three times the auto tuning results are 241 1 59 8 and 120 2 the difference of three times will be less than 5 For Calculate 360 12 30 three times result is 241 1 59 8 181 3 and 30 integer multiple is 180 and their difference is 1 3 which is less than 5 equally 120 2 59 8 60 4 and 30 integer multiple is 60 the difference is 0 4 which is less than 5 D For the A B Z U V W encoders F10 12 is electrical angle and each time the deviation of F10 12 results should be less than 30 which can be considered as the normal otherwise need to restart auto tuning 9 N If the abnormal occur during auto tuning process press STOP key to stop auto tuning 8 After finish the par
167. lay Bit11 Bit15 Reserved 56 90 Hall call parameter setting 0 No action D x confirm 1 Hall call parameter setting confirm F26 33 Hall call HCB H indicator 1 0 No le d icc 1 Full load indication 2 Inspection indication H indi 3 Stop indication F26 34 Hall call HCB H indicator 2 p CA 2 x meaning 4 Over load indication 5 Fault indication F26 35 F26 36 Manufacturer debugging parameter prohibit to change a ei Group F27 Elevator Adjustment Enhanced Function Parameters on page 179 179 F27 00 F27 59 Manufacturer debugging parameter prohibit to change ae i MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 7 Panel Introduction Chapter 7 Panel Introduction MONT71 series have optional LCD panel MT70 LCD A as Figure 7 1 and the key descriptions are shown as Table 7 1 f Digital Operator NS Figure 7 1 MONTT71 panel Table 7 1 Panel s key description Program exit key Entry or exit programming key Enter confirm key Enter lower menu or confirm to save the data At panel control F00 07 0 to start MONT71 At distance control F00 07 1 equivalent to the open door OD button At panel control F00 07 0 to stop MONT71 At distance control F00 07 1 equivalent to the close door CD button At detecting fault and fault floor to be as fault reset key Increment key Increment of data or function parameter number Decrement key Decremen
168. lay Y4 0 5 0 F12 33 Output function selection of MCB relay Y5 0 5 0 F12 34 Output function selection of MCB relay Y6 6 31 6 F12 36 Output function selection of MCB relay Y8 6 31 8 F12 37 Output function selection of MCB relay Y9 6 31 91 F12 38 Output function selection of MCB relay Y10 6 31 10 F12 39 Output function selection of MCB relay Y11 6 31 11 F12 40 Output function selection of MCB relay Y12 6 31 12 F12 43 Output function selection of MCB relay Y15 6 31 0 F12 47 Output function selection of MCB relay Y19 6 31 19 F12 50 Output function selection of MCB relay Y22 i 6 31 22 F12 51 Output function selection of MCB relay Y23 6 31 0 MONT71 Series Elevator Integrated Controller User Manual V1 0 148 Chapter 8 Function Introduction Note 1 The setting range of F12 28 YO is 0 32 2 The setting range of F12 29 F12 33 Y1 Y5 is 0 5 3 The setting range of F12 34 F12 51 Y6 Y23 is 6 31 0 No function To set the terminal in a non functional state and can not make any action 1 Run contactor output SW he system outputs the run contactor s pick up and release commands controls the run contactor s pick up and release 2 Brake contactor output BZK he system outputs the brake contactor s pick up and release commands so as to achieve the pick up and release control of brake 3 Synchronous star del
169. lease install as per the description below so as to achieve good electromagnetic compatibility EMC In a drive system MONT71 control equipment and sensors are installed in the same cabinet the electromagnetic noise should be suppressed at the main connecting points with the EMI filter and input reactor installed in cabinet to satisfy the EMC requirements The most effective but expensive measure to reduce the interference is to isolate the noise source and the noise receiver which should be considered in mechanical system design phase In driving system the noise source can be MONT71 braking unit and contactor Noise receiver can be automation equipment encoder and sensor etc The mechanical system is divided into different EMC areas according to its electrical characteristics The recommended installation positions are shown in Figure 5 4 Mains power supply Power supply control cabinet Area A install transformers of control power supply control devices and sensor etc Area B interfaces of signal and control cables Control devices the correct immunity level is required hostPC PLC etc Area C noise sources such as AC reactor MONT71 braking unit and contactor etc Area D output EMI filter and its cable connection parts Area E power supply Area F motor and its cables m e be um be B pi m bei be be Gm m e be un ima mn en e imd mas e Ae m m md m ma mas md ma s m en a T Earth isolated boa
170. ll load Bit13 System over load Bit14 System front door edge Bit15 System back door edge Display in 16 bit binary and from low to high bit represent Bit2 BitO Front door machine state Bit5 Bit3 Back door machine state 000 Opening D04 01 Door machine state 001 Open door arrival Actual value 010 Closing 011 Close door arrival 100 Door machine fault 101 Door machine stop Bit6 Bit15 Reserved pu Group D05 Display Parameters of Elevator Hardware on page 120 121 h AD f Sincos encoder b eot foe sample aie or 0 4095 Actual value EL Sincos encoder boss pee aor Sampie varie pi 0 4095 Actual value a Sincos encoder Do503 ene copie value Of 0 4095 Actual value Sincos encoder D05 05 Electrical angle 0 65535 Actual value D05 06 Leveling switch number qa Actual value poa o7 beet 0 999mm Actual value switches D05 08 Leveling plate length 0 999mm Actual value D05 09 Encoder pulse count 0 65535 Actual value MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 69 Parameters Parameter Name Setting Range Value Para D05 10 Manufacturer debugging parameter prohibit to change Wes 0 No action 1 To remind at excessive position deviation returning to base station 2 To remind there is hall call information at driver mode 3 To remind at elevator over loaded D05 11 Buzzer source Actual value 4 To remind at battery driven 5 To remin
171. m s 8 Firefighting base station locked elevator base station and idle base station are set to non service floor 9 Door service floors of firefighting base station locked elevator base station and idle base station are set to prohibit service Input normal bus voltage but the line voltage detection circuit is abnormal 4 The preset speed direction is inconsistent with the actual direction 2 Load is too large 3 Controller output torque is not enough 4 Brake circuit abnormal 5 Run contactor abnormal 1 Encoder without input signal i 2 Brake circuit abnormal MONT71 Series Elevator Integrated Controller Chapter 10 Troubleshooting Countermeasure 1 At asynchronous motor parameter auto tuning set F00 07 as 0 panel control 2 For the synchronous motor F11 00 encoder interface card selection should be set as 2 UVW encoder interface card or 3 SINCOS encoder interface card 3 At synchronous motor static auto tuning set F00 07 as 1 distance control 4 Correctly set motor current F07 02 F10 03 5 Correctly set asynchronous motor no load current F07 11 6 Restart to set F04 02 F19 07 F19 11 7 Restart to set F19 07 F19 11 8 Restart to set F21 03 F22 01 and F22 02 9 Restart to setF21 03 1 Power down treatment 2 Contact to factory for repairing 1 At elevator commissioning F11 02 encoder direction value is reverse during normal running d
172. manually change F19 01 But this parameter must accord with the present floor F19 02 Present height 0 00 299 99 0 00m Define the number of pulse that the present floor relative to the lowest leveling floor Leveling distance adjustment Parking allowance of distance control 0 60 30mm MONT71 have built in advanced distance control algorithm and use a variety of ways to ensure direct parking stability generally need not be adjusted F19 06 0 direct parking mode 0 F19 03 is the leveling distance adjustment changing F19 03 can adjust the elevator leveling accuracy f elevator is over leveling when stops reduce the value of F19 03 If elevator is under leveling when stops increase it e F19 06 1 direct parking mode 1 F19 03 is the parking allowance of distance control Increase F19 03 the creeping distance will increase reduce F19 03 the creeping distance will reduce f elevator is over leveling when stops increase the F03 13 stop Dec jerk if elevator is under leveling reduce it F19 04 Leveling position correction coefficient 0 500 0mm This parameter is related with the length of leveling plate but not the actual length of leveling plate e tis noted when shaft self learning the user need not change The data such as the length of leveling plate can be checked via D05 06 D05 08 F19 05 Dec point through output adjustment 0 050 2 000 0 250s This is the dista
173. mation in accordance with the forced deceleration switch If the position deviation is too large or the speed is greater than the forced deceleration rate it will decelerate at forced deceleration to avoid hoisting top and squatting bottom 2 When the elevator runs to the leveling floor Automatically correct in accordance with the present position i and floor data of shaft parameter self learning i If the deviation is too large will decelerate to stop At the same i i time when return to the nearest leveling area will open the door the buzzer inside the car will alarm after closing elevator i returns to the base station correction position at 0 200m s User Manual V1 0 The system can use weighing signal to compensate the start of Only the serial communication of hall call board works Chapter 1 MONT71 Configuration Function name Function description Remark t User calibration g Users can find the system parameters which are different from menu the factory parameters by this function Earthquake If the earthquake happens earthquake detection devices act control function The device has a contact signal input to the MONT71 system the system will control the elevator stop at the nearest floor after open the door then stop running Current aslant When use synchronous motor after the elevator decelerate remove and stop the maintaining current of the motor is removed by t
174. mber and automatically open the door Isolated running test Open the isolated running function via F26 07 isolated run while the factory default does not have opened this function Turn the car switch to independent state observe outside hall that should be no floor dispaly or there is floor display with sign similar to disable and call buttons should not work Register the instruction inside the car and continuous press on CD button will make the elevator close the door if you release the CD button before the door closes the elevator will immediately act from CD action to OD action till the door has opened After the door is closed the elevator will automatically start run at high speed and automatically decelerate in recent registered instruction floors stop correctly eliminate number and automatically open the door MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 9 197 System Typical Application and Adjustment Firefighting back to base station function test Open the firefighting function via F26 03 firefighting function and the factory default has opened According to the actual situation set F21 01 fire base station The firefighting switch can be connected to the firefighting input terminals of HCB and also can be connected to the input terminals of MCB X1 X24 F12 01 F 12 24 setting Turn on the firefighting switch off fire base station switching observe whether the elevator can
175. n 3 The learned height of total floor is lower than 50cm Shaft self learning fault 4 The learned up down forced Dec 1 position is O 5 If configured 2 and 3 level forced Dec switches the learned up and down forced Dec position is 0 6 If you select multiple forced Dec signal if does not meet the following conditions it will alarm fault Down forced position 1 lt Down forced position 2 lt Down forced position 3 Up forced position 1 gt Up forced position 2 gt Up forced position 3 1 Check the door lock circuit action is normal or not 1 2 Check the door lock contactor Lock door OD arrival signal and lock l feedback is normal or not short circuit door closure signal are valid 3 Check the door machine OD fault at the same time arrival signal 4 F26 12 inspection parameter setting of Bit3 is set as 1 L L L L L g 1 Check whether the contactor Synchronou feedback contact is consistent with MCB parameter setting normally open or normally closed i l s motor star delta Synchronous motor star delta i contactor contactor feedback abnormal feedback abnormal 2 Check whether the indicator on MCB output side is consistent with contactor action MONT71 Series Elevator Integrated Controller User Manual V1 0 224 Chapter 10 Troubleshooting Small panel display I Synchronou S motor star delta contact
176. n page 103 Note After the user password is set you should keep the password in mind F01 01 Menu mode selection 0 2 0 0 Standard menu mode All of the function parameter can be displayed 1 Checking menu mode Only different from factory setting parameters can be displayed 2 Reserved MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 125 Function Introduction MCB parameter update 0 No operation 1 Restore to factory settings Except Group F01 F07 00 F07 14 F10 00 F10 09 Group F11 F15 00 F17 08 F17 21 and Group Y Operation steps Set F01 02 1 press ENT key to confirm and restore the factory settings the panel will display the loading default parameter Then the panel will jump to status display interface after finish restoring to factory setting 2 Download panel parameter group 1 to MCB Except Group F01 F17 08 F17 21 and Group Y At downloading parameters such as motor parameters encoder parameters and magnetic pole angle etc will be downloaded The original motor parameters encoder parameters and magnetic pole angle etc need to be recorded or restart parameter auto tuning 3 Clear fault information The faulty history information of 17 08 F17 21 will be cleared Operating steps Set F01 02 3 press ENT key to confirm and clear fault information the panel will display clearing fault information Then the panel will display next p
177. n function Miss delete car command t Floor display by any setting Various hall data display formats Floor service setting Car arrival chime i Double hall call i on the same floor Hall call adhesion recognition Weighing signal compensation i Car location automatically correct MONT71 Series Elevator Integrated Controller i station to open the door delay to open the door By pressing the keeping door open button the elevator delay closing In the car passengers can press the command button twice to eliminate the last error registered instruction i Flexibly set the character displayed on each floor to meet the different display needs Outside the hall can set the scroll or fixed display and the size of arrow According to the needs can flexibly set the service floor of the elevator close or activate one or more service floors and park landing After the elevator arrives to the destination floor the main control board will send the arrival chime signal i Double hall calls can be set when opposite doors are on the same floor System can identify the adhesion situation of the hall call up down buttons automatically remove the call of the adhesion to avoid that the elevator can not be closed to run caused by the outside call button adhesion the elevator 1 When the elevator runs to the end station The system will automatically check and rectify the car location i infor
178. n time 0 1 2 0 0 3s When elevator actual speed exceeds the F04 09 setting and lasts longer than the F04 10 setting it will alarm E0032 fault motor over speed The setting value of F04 09 is relative to the percentage of elevator rated speed Detected value of speed deviation 5 0 30 0 F00 03 20 0 F04 12 Detected time of speed deviation 0 1 2 0 1 03 When the deviation of preset speed and motor actual running speed exceeds the F04 11 setting and lasts longer than the F04 12 setting it will alarm E0018 fault excessive speed deviation The setting value of F04 11 is relative to the percentage of elevator rated speed MONT71 Series Elevator Integrated Controller User Manual V1 0 132 Chapter 8 Function Introduction 8 2 6 Group F05 Weighing Compensation Parameters F05 00 Pre torque selection 0 3 0 Starting pre torque function can pre output torque which is corresponds to the torque of load weight to avoid the car slipping at starting and reduce start impact 0 No pre torque 1 Analogue weighing The corresponding compensation torque will be output in accordance with the input analog weighing signal 2 Reserved 3 Pre torque auto compensation H Speed command O Cy ae Speed feedback Torque F05 00 20 Analogue Bias weigh signal Filter disposal __ Gain F0500 1 e F05 02 FO5 08 F0512 F0500 3 Pre torque auto compensation No weighing adjust F05 1
179. nal same floor i recognition compensation Car location Earthquake control i automatically correct function MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 1 MONT71 Configuration Protection function No Function name No Function name No Function name L I i l i rotection of excessive 1 Fault history i Over speed protection 3 We 1 Speed deviation P 2 L i Encoder reverse 5 Encoder disconnection Door light curtain protection l protection i protection Protection of door lock Non open outside door Se Door fault protection disconnect when I I I i running 4 6 i Door lock jump detected Leveling switch fault Next landing function i i i protection WWE Protection for contactor Limit switch protection Anti slip protection i i of contact Motor over load Over current protection Over voltage protection protection CPU overheated Shaft self learning fault protection protection 1 3 Standard Function Description No Function name Function description Remark 1 Auto run i 1 Arrive to station and automatically open the door i Normal inspection i switch turns to i i 2 Automatically delay closing the door i 2 i i normal position i 3 Manually close the door early HE i i Inside the car the auto driver switch 5 Hall call reverse highest or low
180. nce control internal deceleration signal which need not be changed by users MONT71 Series Elevator Integrated Controller User Manual V1 0 162 Chapter 8 Function Introduction Direct parking selection 0 1 0 Define the direct parking mode of elevator 0 Direct parking mode O0 without creep To the principle of distance automatically generate a smooth curve from start to park no creep directly stops in leveling position 1 Direct parking mode 1 with creep To the principle of distance automatically generate a smooth curve from start to park with creep distance of 30mm F19 03 decelerates at F03 13 stop Dec jerk and stops in the leveling position when encounters the leveling signal Refer to the figure of F03 13 for the detail Highest speed of curve 2 0 000 F00 02 0 000m s Highest speed of curve 3 0 000 F00 02 0 000m s F19 09 F19 10 Highest speed of curve 4 0 000 F00 02 0 000m s F19 11 Highest speed of curve 5 0 000 F00 02 0 000m s After the shaft self learning the system will generate a running speed curve of F19 07 F19 11 in accordance with the floor data and the elevator max running speed F00 02 etc Users also can change manually general Curve 1 is set to single floor speed Curve 2 is set to double floor speed and Curve 3 is set to 3 floor speed then the others need not to set MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 163 Function Int
181. ncoder wire disconnection can be detected MONT71 Series Elevator Integrated Controller User Manual V1 0 141 142 Chapter 8 Function Introduction 8 2 13 Group F12 Main Control Board Terminal Parameters F12 01 F12 24 set the functions of input terminal X1 X24 on MCB MT71 MCB A F12 25 F12 27 set the functions of high voltage input terminal X25 X27 on MCB MT71 MCB A F12 28 F12 51 set the output functions of relay YO Y23 on MCB MT71 MCB A MCB input terminal filter time 2 40 10ms Define the MCB input terminal X1 X24 filter time used to set the sensitivity of the input terminal As input terminals are vulnerable to interference and cause the malfunction to increase the value of this parameter setting but will reduce the sensitivity of the terminals Function selection of MCB input terminal X2 000 149 104 Function selection of MCB input terminal X3 000 149 105 Function selection of MCB input terminal X4 000 149 109 Function selection of MCB input terminal X5 000 149 10 ise ea bcnc p prp CODE pl 000 149 22 __ Function selection of MCB input terminal X15 000 149 126 Function selection of MCB input terminal X16 000 149 28 ____000 149 30 Function selection of MCB input terminal X18 000 149 24 A m m m m m m m n o m m m m m m pP Function selection of MCB input terminal X19
182. ncreasing the parameter F03 12 forced Dec speed S Manufacturer debugging parameter prohibit to change F19 14 F19 17 MONT71 Series Elevator Integrated Controller User Manual V1 0 164 Chapter 8 Function Introduction 8 2 21 Group F20 Storey Height Parameters High bit of storey 1 0 50000 0 Low bit of storey 1 0 50000 0 Define the height from the first floor to the second floor Unit Pulse number The storey height is e 50000 x F20 00 F20 01 Define the height from the present floor N to floor N 1 The relationships of high low bit of storey N and the parameter number are Parameter number of storey high bit 2 2N 2 e Parameter number of storey low bit 2N 1 The storey height is 50000 x High bit of storey Low bit of storey F20 16 High bit of storey 9 0 50000 0 F20 17 Low bit of storey 9 0 50000 0 Define the height from the 9th floor to the 10th floor Unit Pulse number The storey height is 50000 x F20 16 F20 17 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction 165 8 2 22 Group F21 Elevator Parameters F21 00 Parking base station 1 F19 00 1 Define the elevator will automatically return to the physical floor when the elevator idle time is excess F23 00 free return base station time F21 01 Fire base station 1 F19 00 1 Define the elevator will return to the ph
183. nding to MCB terminal L7 and Bit9 is corresponding to terminal L24 Any bit is set as 1 output logic is negated Any bit is set as 0 output logic is normal MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction 53 8 2 15 Group F14 Communication Parameters F14 00 Data format 0 5 0 0 1 8 2 format no parity RTU 1 1 8 1 format even parity RTU 1 8 1 format odd parity RTU 1 7 2 format no parity ASCII 1 7 1 format even parity ASCII 1 7 1 format odd parity ASCII oa A C N Baud rate selection 0 1200bps 1 2400bps 2 4800bps 3 9600bps 4 19200bps 5 38400bps F14 02 Local address 0 247 2 When F14 02 0 it represents the broadcast address F14 03 Host PC response time 0 1000 0ms MONT71 Series Elevator Integrated Controller User Manual V1 0 154 Chapter 8 Function Introduction 8 2 16 Group F15 Panel Display Parameters F15 00 LCD panel language 0 1 0 0 Chinese 1 English LCD panel display contrast Small panel display direction There are three LED digital tubes on the main control board MT71 MCB A of MONT71 Changing the direction of the digital tube display in accordance with F15 02 is convenient to check and can facilitate the control cabinet design regardless of the MCB installation from positive and negative Positive display The setting at positive installation of the MCB Reverse
184. nducting emission and conducting sensitivity in EMC standard but also can suppress the radiation of the equipment 2 It can prevent the EMI generated by equipment from entering the power cable and the EMI generated by power cable from entering equipment Common mistakes in using EMI filter 1 Too long the power cable is between the EMI filter and MONT71 The filter inside the cabinet should be located near to the input power source The length of filter power cables should be as short as possible 2 Too close the input and output cables of the EMI filter The distance between input and output cables of the filter should be as far apart as possible 5 Otherwise the high frequency noise may be coupled between the cables and bypass the filter Thus the filter will become ineffective 3 EMI filter bad earthing The EMI filter s enclosure must be earthed properly to the metal case In order to achieve better earthing effect make use of a special earthing terminal on the filter s enclosure If you use one cable to connect the filter to the case the earthing is useless for high frequency interference When the frequency is high so is the impedance of cable hence there is little bypass effect The correct installation The EMI filter should be mounted on the enclosure of equipment Ensure to clear away the insulation paint between the filter case and the enclosure for good earthing contact 5 7 6 Conduction Radiation and Radio Frequency
185. ng state parameter check fault code check etc 3 bit LED can achieve part of the debugging features Parameter settings upload and download fault inquiries call and curve monitoring etc 10 40 C Max allowed temperature is 50 C and air temperature fluctuation is less than 0 5 C min The derating value of the output current shall be 296 for each degree centigrade above 40 50 C i 40 70 C Indoor preventing from direct sunlight no dust corrosive flammable gases oil mist water vapor dripping or salt etc Less than 1000 meters otherwise should be derating use Less than 95 RH non condensing Less than 5 9m s 0 6g ABZ incremental encoder interface card MT70 PG1 ABZ SINCOS encoder interface card MT70 PG2 SINCOS UVW encoder interface card MT70 PG3 UVW BCD code display control board MT71 HCB A Vertical dot matrix display control board MT70 HCB H Horizontal dot matrix display control board MT70 HCB F Ultrathin dot matrix display control board MT70 HCB l LCD display control board MT70 HCB D Panel MT70 LCD A Mounting base to panel HD KMB HD CAB 1M 1 meter extension cable to panel HD CAB 2M 2 meter extension cable to panel HD CAB 3M HD CAB 6M 3 meter extension cable to panel 6 meter extension cable to panel Power regenerative unit HDRU 4T025 User Manual V1 0 19 2 Chapter 3 Product Information 3 5 Dimensions and Mounting Size MONT71 outlook schemati
186. ng parameter prohibit to change Open through door control mode Define the open through door control modes Refer to section 9 2 2 Open through Door Description page 205 for details 0 Open through door control mode 0 1 Open through door control mode 1 2 Open through door control mode 2 3 Open through door control mode 3 MONT71 Series Elevator Integrated Controller User Manual V1 0 168 Chapter 8 Function Introduction 8 2 24 Group F23 Time Parameters F23 00 i Free return base station time 0 240 10min Define that the elevator automatically returns to parking base station after F23 00 setting time without internal call hall call or any other call e Set F23 00 as 0 not back to base station Delay time of close lighting and fan 0 240 2min Define that the elevator automatically cut off the car lighting and fan power in automic state without running command and after F23 01 setting time e Set F23 01 as 0 no close delay function F23 02 Largest floors run interval 0 45 45s When elevator running time is over the F23 02 setting time at border upon floors and there is no leveling signals elevator will alarm E0040 fault elevator run timeout e Ifthe setting value of F23 02 is smaller than 3s no protection MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction 169 8 2 25 Group F24 Display Parameters of Floor Information F24 00 Colle
187. ngerous The auto running car emergency program needs some gap between load in the car and load of elevator balance otherwise the elevator run speed will be slow 4 At auto judging direction of the emergency power supply to run it will automatically open the brake When the car auto running direction is detected it will automatically run to the light load direction 5 Power failure emergency running direction priority is automaticlly judge the direction UPS specified running direction weighing signal confirmed direction gt position judged direction MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 9 System Typical Application and Adjustment 9 2 2 Open through Door Description The open through door control is mainly used in the same floor needing two doors or the car inside needing double internal call occasions The open through door control mode is as following table Control mode Set para F26 21 20 do not open the through door control F22 13 Any Control the value open through door simultaneously Open through door of control mode 1 hall call separately internal call consistent Open through door control mode 2 hall call F26 21 1 separately F22 13 2 internal call i control manually MONT71 Series Elevator Integrated Controller Function description Connecting the front and back door hall call button can achieve open through door at th
188. nning if MONT71 displays motor s feedback speed instability or excessive preset deviation value you need to check the wiring between the encoder and encoder interface card All connections are correct If the encoder is a differential signal the shielded twisted pair cable should be used otherwise you can use the general shielded cable e Wiring is reasonable The encoder cable and the power line must be strictly separated which cannot go with a trunking e Check the shielded wire and the shielded network are reliably grounded 3 Check up and down two leveling switches and door zone signal wiring If the order is wrong check the external wiring The correct is e At the elevator slow speed up running the successively effective signal is up leveling signal door zone signal and down leveling signal e At the elevator slow speed down running the successively effective signal is down leveling signal door zone signal and up leveling signal The leveling signal installations are refered to section 4 4 Advanced Open Block MT70 AOB A page 33 for the detail MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 9 191 System Typical Application and Adjustment Note 1 On many occasions the slow speed running of the machine room is not inspection run but the emergency electrical operation At this time in the safety circuit the safety gear switch the governor switch the up overspeed protection switch the
189. not connect the phase shifting capacitors to the output circuit MONT71 DC bus terminals must not be short circuited MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 5 Installation and Wiring 5 4 Selection of Main Circuit Peripheral Devices Please refer to Table 5 1 for recommended specifications Table 5 1 Recommended MONT71 peripheral devices Input protection Power cable SR i i Signal cable MCCB Contactor Supply cable Motor cable mm MT71 4T2P2 MT71 4T3P7 MT71 4T5P5 MT71 4T7P5 MT71 4T011 MT71 4T015 MT71 4T018 MT71 4T022 MT71 4T030 MT71 4T037 MT71 4T045 5 5 Power Terminal and Wiring The bare portions of the power cables must be bound with insulation tapes Warning Ensure that AC supply voltage is the same as MONT71 rated input voltage MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 5 Installation and Wiring 5 5 1 Power Terminal Description L1 L2 L3 ULV lw POWER Jolo BR MOTOR ES 5 5kW and below model L1 t2 13 POWER 7 5 45kW model Figure 5 1 MONT71 power terminal diagram Table 5 2 MONT71 power terminal function description Terminal Function description L1 L2 L3 Three phase AC power input terminals U V W MONT71 output terminals connect to three phase AC motor P1 DC reactor connection terminals C4 C2 DC supply input terminals DC input terminals of power regenerative unit
190. ns at OD waiting for elevator 0 Car is not energy saving 1 Car is energy saving MONT71 Series Elevator Integrated Controller User Manual V1 0 92 Chapter 6 Parameters Parameter Name Setting Range Bit13 Display the running direction sparkly 0 Do not display 1 Display Bit14 Logic of fan and lighting Elevator enhanced function 0 The logic is normal selection 1 The logic is negated Bit15 Light curtain action modes of door 1 and door 2 0 Light curtains of Door 1and door 2 act alone 1 Light curtains have inside association F26 17 Contactor contact adhesion failure auto reset Forced Dec switch adhesion F26 18 detection Bit0 Synchronous star delta contactor control selection 0 Not control the output 1 Control the output Synchronous motor star delta Bit1 Synchronous star delta contactor contactor parameter setting normally open or close setting 0 Normally close Generally use the normally close 1 Normally open Bit2 Bit7 Reserved F26 20 Manufacturer debugging parameter prohibit to change 0 No open F26 21 Open through door control 1 Open F26 22 OD function selection at this 0 No open door floor internal call 1 Open door 0 Pressing the OD delay button does not work during CD process F26 23 OD function of OD delay button 1 Pressing the OD delay button does work during CD process F26 24 F26 25 F26 26 Elevator increased function 2 no OD arrival MONT71 Seri
191. nsured that the charge indicator inside MONT71 are off and the voltage between power terminals and is below 36V N Warning For MONT71 stored for more than 2 years please use voltage regulator to increase the input voltage gradually Do not leave metal parts like screws or pads inside MONT71 Do not make any change to the MONT71 inside without instruction from the supplier There are IC components inside the MONT71 which are sensitive to static electricity Directly touch the components on the PCB board is forbidden 11 1 Daily Maintenance MONT71 must be operated in the specified environment refer to section 5 2 page 48 Besides some unexpected accidents may occur during operation and you should check the items in accordance with Table 11 1 to do well daily maintenance Maintain good operation condition and record the operation data to solve problems immediately MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 11 Maintenance Table 11 1 Daily checking items items Content Criteria Temperature and humidity 10 40 C derating at 40 50 C Operating SECH um Dust and water dripping No water dripping environment Gas Nv strange smell Stable oscillation and proper Oscillation and heating Ser prop MONT71 temperature Motor lNis No abnormal sound Operating state Output current Within rated range parameters Output voltage Within rated range 11 2 Periodic
192. nt door light curtain NO input EDP1 27 Back door light curtain NO input EDP2 28 Driver signal NO input ATS 29 Direct arrival signal NO input NSB 30 Commutation signal NO input ACB 31 Isolated run signal NO input ISS 32 Front back door switch NO input GABS 33 Battery driven NO input UPC 34 OD button NO input DOB1 35 CD button NO input DCB1 36 Safety circuit 2 NO input JT2 37 Door locked circuit 1 NO input DLC1 38 Door locked circuit 2 NO input DLC2 39 Half load signal NO input HALFLOAD 40 Fireman NO input FIRS2 41 Motor over heated NO input MT 42 Earthquake monitoring switch NO input EQ 43 Edges feedback for front door NO input EDK1 44 Edges feedback for back door NO input EDK2 45 Brake forced feedback NO input KMZ 46 Back door prohibition NO input 47 Alarm bell NO input 48 49 Reserved If hundreds is set as 1 it corresponds to normally close input For example if set X1 as 110 it means that inspection input normally close is enabled N N N O 0 No function 1 High voltage safe circuit signal JT 2 High voltage locked door 1 signal DS1 N N CA N gt O co 3 High voltage locked door 2 signal DS2 4 99 Reserved 3 x a 0 31 refer to F12 29 F12 51 32 Power failure emergency run is enabled only for YO F12 29 Output function selection of 0 No function Buc quel MONT71 Series Elevator Integrated Controll
193. o not modify F11 02 2 Reduce the load 3 Select larger capacity controller 4 Check the brake circuit 5 Check the run contactor i 1 Check the encoder wiring and encoder installed reliably i 2 Check the brake circuit User Manual V1 0 Chapter 10 Troubleshooting Small panel display Motor over Speed L I l L Loss of Z signal of ABZ encoder UVW signal wrong of i UVW encoder i CD phase wrong of i Sincos encoder Shortest distance ultrahigh Control board logic parameters Up forced Dec switch in Down forced i Elevator on the first floor Dec switch jn i i i Elevator run timeout i l MONT71 Series Elevator Integrated Controller Fault name Fault cause 1 Encoder pulse number setting error 2 Controller output torque is not enough 3 Speed loop PI parameter setting is improper 4 Encoder signal error 5 F10 12 error 6 Motor parameter error 1 Wiring problem 2 Serious interference UVW encoder sector i confirmation is wrong i 1 Encoder fault i 2 Encoder disconnection 1 Speed curve setting is inappropriate 2 Acceleration deceleration setting is inappropriate The main control board logic is abnormal Elevator on the top floor up E 1 forced deceleration switch is disconnectio turned o
194. o or may not run correctly F10 06 Synchronous motor cross axis F10 07 Inductance i Based on the actual setting Synchronous motor direct axis F10 08 inductance L Based on the actual setting L F10 09 Synchronous motor Back EMF Based on the actual setting Encoder interface card selection Based on the actual setting Encoder P R Encoder direction setting Set according to the encoder Based on the actual setting t Based on the actual setting t I Select the input high or low active by jumper g Select normally open or close input by parameter Setting Ensure the input state through observing the corresponding LED lights of MCB input terminals Set according to the drawings MCB input terminal setting Group F12 i X25 X27 are high voltage safety and door lock input for the safety please ensure the safety circuit and the door lock circuit are correct l Ensure the relay output i MCB relay output terminal i Set according to the i State by observing the i setting drawings i corresponding LED lights of relay output terminals i i Ensure the input and i MCB L terminal function i Set according to the i Output state by observing parameter setting i drawings i the corresponding LED i i lights of MCB L terminals Group F13 MONT71 Series Elevator Integrated Controller User Manual V1 0 18 Chapter 9 System Typic
195. o reset or door zone signal is valid 1s later the fault will reset automatically 5 E0055 changed floor park fault The fault only recorded once at power on 6 E0059 OD and CD arrival signals at the same time fault The fault only recorded once at power on and if OD CD arrival signals are not valid at the same time the fault will reset automatically 7 E0048 E0049 and E0055 faults can be reset by inspection button MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 11 Maintenance 228 Chapter 11 Maintenance Many factors such as ambient temperature humidity dust oscillation internal component aging wear and tear will give rise to the occurrence of MONT71 potential faults Therefore it is necessary to conduct daily maintenance to MONT71 e If MONT71 has been transported for a long distance please check whether the components are complete and the screws are well tightened Please periodically clean the dust inside MONT71 and check whether the screws are loose Only a trained and qualified professional person can maintain MONT71 Maintenance personnel should take off all metal jewellery before carrying out maintenance or internal measurements Suitable clothes and tools must be used High voltage exists when MONT71 is powered up or running Checking and maintaining can only be done after MONT71 AC power is cut off and wait for at least 10 minutes The cover maintenance can only be done after e
196. o reset to zero In addition when the small panel of the main control board enters into Group F8 and in the testing function mode SET key will be equivalent to close button MONT71 Series Elevator Integrated Controller User Manual V1 0 31 Chapter 4 Control System Introduction 4 2 6 Terminal Connection 8 Ndo peo NO ZA 1 SLUGS JO seu ue O I Jo sbumes Aape eun ALL TZ IND Apes pue pe po 100p ay q Pao pynoys vod Burn T Ag JO SIOD T uongis peq 244 OCA gt e LOY A vcr O qdo Aedsp SUI 6TA Y qno Aes ip aue LOCH SLA lo 3nchno Aedsip moue dN ZTA Ti qnchno uoppedsul OTA Z Guu Ad Porson PIIEA S 3 F TO S04 PAU ON AWE esop Joop W014 STX O WU ON euis uongruuuoD TX O Pdu ON IS Fa ot O Pdu DN ULP H Joop W014 STX O I Ndu DN PePe Kan ETX Q 14e E RN aan rmx uu oo QNM NN suu Su d Ndu ON QVP pe po O Ndu ON DE 14 Pdu ON UN Mop uop dsu Pdu ON unu dn uonpedisul Ndu DN uono edsul qndo apeo aeg ZA CO TAR d TAD QO qnchno apeo uny TA D Y a SAS Ndu DN pecpes cho gt P MONT71 Series Elevator Integrated Controller User Manual V1 0 Figure 4 6 Five floors of full selective connection it defaul
197. o tuning 4 Give the signals to terminal inspection and direction at auto tuning the controller issues a series of pulse voltage and the motor issues humming The motor will run at slow speed after the humming is over and automatically stop running after one circle Obtaining F10 14 F10 17 encoder parameters and F10 12 synchronous motor initial angle presents that the static auto tuning is over 5 After the panel display interface exits parameter auto tuning interface the inspection direction command can be removed MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 9 System Typical Application and Adjustment Pay attention to the following 1 2 If the system has synchronous motor star delta contactor please refer to the function parameter setting of section 9 2 1 of power failure emergency running program at auto tuning the system will automatically control the star delta contactor otherwise it will alarm over current fault due to the output short circuit The preset direction is inconsistent with the actual running direction Take measures Set the reverse value of F00 10 elevator run direction and re start to do 3 auto tuning During the auto tuning process if over current or encoder reverse fault is occurred it may be the encoder reverse direction Take measures Set F11 02 as 1 the reverse direction and re start to do auto tuning 4 Since the static auto tuning of S
198. of the hall call and internal call Sei 2 Automatically return to firefighting base station 3 Normally open door 4 After return to fire base station output the fire linkage signal e If the elevator is reversely running stop on the near floor without open door and direct run to fire base station normally open Fireman run At the fireman run mode the door does not automatically open or close Only press the button can make the door action The elevator only response to one command in car once Only when the elevator open the door stopped at the base station reset the fire switch and fireman switch the elevator can run normally Isolated run At isolated running mode the elevator does not response to Set F26 07 1 hall call and close the door automatically Advanced OD run At the auto run mode the speed during stopping process is Configure less than the advanced open speed and the door signals are MT70 AOB A effective system opens the door ahead of time through shorted Set F26 05 1 lock door signal door close contactor to reduce the passenger waiting time OD re leveling i The elevator stopping at the floor station due to a large Configure run i number of persons or goods entering and leaving the leveling MT70 AOB A fluctuated because of the elastic deformation of elevator wire Set pog 94 1 i rope and the rubber make inconvenience to people and goods entering or leaving Sy
199. ol mode 3 Group F23 Time Parameters on page 168 169 F23 00 Free return base station time 0 240min Delay time of close lighting and 0 240min fan 0 No close delay function F23 02 Largest floors run interval Group F24 Display Parameters of Floor Information Con page 169 170 F23 01 0 Full collective F24 00 Collective mode 1 Up collective 2 Down collective F24 02 Floor 2 display F24 03 Floor 3 display F24 04 Floor 4 display The high 2 bit respents the floor s tens e The low 2 bit respents the floor s units Such as F24 05 Floor 5 display The 10th floor displays 10 F24 10 0100 F24 06 Floor 6 display The first floor displays 1 F24 01 1001 F24 07 Floor 7 display 00 Display 0 F24 08 Floor 8 display 01 Display 1 F24 09 Floor 9 display 02 Display 2 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 Parameters Function b Parameter Name Setting Range Value ara 03 Display 3 04 Display 4 05 Display 5 06 Display 6 F24 10 Floor 10 display 07 Display 7 0100 08 Display 8 09 Display 9 10 Display 11 99 No display 0 Seven segment code 1 BCD code F24 11 Hall call output selection 1 2 Reserved 3 Binary code Group F25 Test Running Parameters on page 170 171 E el 0 F19 00 Jl jo Jl F25 03 Testtimes o 600 J9 ef BitO Hall call ena
200. op correctly eliminate number elimination number of instructions and stopping floors should be the same and open the door Register certain up down hall call signals outside the hall Confirm that the elevator can normally close the door start run at high speed and can normally stop slow down correctly eliminate number and open the door Driver running test Open the driver running function via F26 02 driver function parameter while the factory default has opened this function Turn the car switch to the driver state and register certain internal call signals Confirm that the continuous press on CD button will make the elevator close the door if you release the CD button before the door closes the elevator will immediately act from CD action to OD action till the door is opened After the door is closed the elevator will automatically start run at high speed and automatically decelerate in recent registered instruction floors stop correctly eliminate number and automatically open the door Register certain up down hall call signals outside the hall Confirm that the continuous press on CD button will make the elevator close the door if you release the CD button before the door closes the elevator will immediately act from CD action to OD action till the door is opened After the door is closed the elevator will automatically start run at high speed and normally automatic interception decelerate correctly eliminate nu
201. operation MONT71 Series Elevator Integrated Controller User Manual V1 0 204 Chapter 9 System Typical Application and Adjustment Auto running car description It can be seen from Figure 9 2 emergency running connection normality the UPC should have disconnected this time when the UPS is charging the system s power comes from main power supply When the main power is cut off the controller s bus voltage is reduced to a certain value and the MCB YO relay outputs the user may also manually switch the UPC is closed this time and the UPS power is supplied to system power When MONT71 receives the UPS valid signal of X21 input and make sure that the mode is power failure emergency run Y4 output makes the star delta contactor close then open the brake the elevator will auto running slowly at the same time monitor elevator speed till leveling Note 1 During the auto running is run the MONT71 can t control the motor drive the power of life auto running is come from self supply power of synchronous motor 2 During the auto running is run if the elevator s speed is more than 1 2 rated speed the MONT71 will alarm E0032 fault motor over speed don t be controlled by auto running and at the same time the star delta contactor of synchronous motor maybe get abnormality 3 The auto running car emergency program is only applied to synchronous motor and never be applied to asynchronous motor otherwise it will be very da
202. or feedback abnormal l Changed i floor park fault Run contactor feedback abnormal Brake contactor feedback abnormal MONT71 Series Elevator Integrated Controller Fault name Fault cause Synchronous motor star delta contactor feedback abnormal When elevator runs i automatically the floor has Run contactor feedback abnormal I 1 Brake contactor feedback signal abnormal 2 Brake mechanical switch feedback abnormal 3 Brake forced feedback abnormal Countermeasure 3 After the contactor acts check whether the corresponding feedback contact and MCB corresponding feedback input point acts 4 Check whether the output characteristics of contactor is consistent with that of MCB 5 Check the contactor coil circuit 1 Check the door machine OD arrival signal 2 Check the door mechanical not received OD arrival signal i system 1 Check whether the contactor feedback contact is consistent with MCB parameter setting normally open or normally closed 2 Check whether the indicator on MCB output side is consistent with contactor action 3 After the contactor acts check whether the corresponding feedback contact and MCB corresponding feedback input point acts 4 Check whether the output characteristics of contactor is consistent with that of MCB 5 Check the contactor coil circuit 6 F26 17 is set as 1 the fault will restore 1
203. or buttons of SK6 SK7 Communi cation SK6 Communi cation CN3 Connection terminal Mark CN Relay contact normally open output Common terminal of relay output Relay contact Chapter 4 Control System Introduction Function and specification Programmable output Contact rating 250VAC 3A or 30VDC 1A e The function is set by F12 28 F12 33 Programmable output normally open output Contact rating 250VAC 3A or 30VDC 1A Common terminal of relay output Elevator button interfaces 24V power supply The function is set by F12 34 F12 51 L CM6 is common terminal of Y6 Y9 I l CM7 is common terminal of Y10 Y13 CM8 is common terminal of Y14 Y17 D CM9 is common terminal of Y18 Y23 The button input connects with button indicator output using for button lighting output 24V L The function is set by F13 01 F13 24 L External DC 24V power input as I O circuits and communication circuit power Power supply ground Power supply ground Modbus i communication Modbus communication terminal Control board cable I g For Modbus communicating with hall call board i MT70 HCB and need F26 06 to open this g function hall call floors of L terminals is no valid in this case g e Recommended to use shielded twisted pair L Optional panel to check and modify the parameter of main control board L Conn
204. orced contactor coil 9 F26 17 is set as 1 the fault will restore 1 Check whether the leveling and the door zone can work normally 2 Check the vertical and depth of leveling plate installation 3 Check the MCB input point 1 Check the door machine controller 2 Check OD CD arrival signal characteristics normally open or normally closed 3 At inspection mode F26 12 inspection parameter setting of Bit5 is set as 1 which can shield the fault 1 Check up down forced Dec 1 switch installation 2 Check the forced Dec speed F03 12 1 Reduce the load 2 F26 12 of Biti is set as zero 3 Permanent magnet synchronous motor identified the encoder angle does not match with the actual restart parameter auto tuning 4 Encoder abnormal 5 Brake circuit abnormal 1 Check the encoder signal 2 Check the leveling signal 3 Check the advanced open block MT70 AOB A User Manual V1 0 Chapter 10 Troubleshooting The following faults can automatically reset 1 E0009 heatsink overheated fault After the heatsink temperature drops to 50 C the fault will reset automatically 2 E0020 motor overheated fault After motor overheated switch recovers the fault will reset automatically 3 E0041 safety circuit disconnection fault After the safety circuit is connected the fault will reset automatically 4 E0042 door locked disconnection fault After locked door is connected and aut
205. p F08 may also affect the leveling adjustment accuracy so as to ensure that the system is running without overshoots occurring 3 Encoder subject to interference may also affect the leveling adjustment accuracy please ensure that the encoder has well signal Leveling accuracy adjustment methods at normal operation are as follows 1 F19 06 is set as 0 direct parking mode 0 the fine tuning may be done via F19 03 leveling distance adjustment At elevator stopping if it is over leveling reduce F19 03 if under leveling increase F19 03 2 F19 06 is set as 1 direct parking mode 1 first ensure that the elevator has a short creep creep distance is set by F19 03 then by F03 13 stop Dec jerk and F04 02 creeping speed to fine tune the leveling accuracy At elevator stopping if it is over leveling increase F03 13 if under leveling reduce F03 13 The F03 13 parameter generally does not need users to change and it will be automatically updated after the shaft self learning to ensure leveling accuracy Fatigue test for new elevator After install a new elevator the new elevator mechanical motor run in test should be done The fixed run way of the elevator setting number of random run or the designated floor can be carried out via Group F25 parameters MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 9 201 System Typical Application and Adjustment 9 2 Typical Application Instruction 9 2 1 Power Fail
206. parameter 3 setting i Preset speed F15 06 Run display parameter 4 setting 2 Feedback speed F15 07 Run display parameter 5 setting 3 Output frequency F15 08 Run display parameter 6 setting 15 08 Run display parameter 6 setting 4 Running RPM F15 09 Stop display parameter 1 setting 5 Output voltage F15 10 Stop display parameter 2 setting 6 Output current Stop display parameter 3 setting DC bus voltage F15 11 i F15 12 Stop displ EE o PNEU i op display parameter 4 settin REPRE 9 Present height F15 13 Stop display parameter 5 setting F15 14 Stop display parameter 6 setting Group F16 Enhance Function Parameters on page 155 157 Current keep time after stop F16 00 command 0 1500ms 0 Auto stop Fan control mode 1 Immediately stop 2 Always run when power on F16 02 Fan control keep time 0 0 600 0s 220V 360 400V F16 03 Braking unit action voltage 380V 630 750V F16 04 Contactor fault detect time 0 3 2 0s BitO E0038 and E0039 fault shield F16 05 Fault shield 0 No shield for E0038 and E0039 1 Shield for E0038 and E0039 MONT71 Series Elevator Integrated Controller User Manual V1 0 Si EN 82 Chapter 6 Parameters Parameter Name Setting Range oem pur vae Bit1 E0024 fault shield 0 No shield for E0024 1 Shield for E0024 Bit2 E0058 fault shield 0 No shield for E0058 1 Shield for E0058 Bit3 E0059 fault shield 0 No shield for E0059 1 Shiel
207. position accurately Support OD re leveling and advanced open door Provide up to 60 kinds of protection such as short circuit protection I O lack phase protection over current protection elevator over speed excessive speed deviation door machine fault encoder disconnection and encoder reverse etc A complete elevator fault dealing system Can easily monitor I O signals of main control board via panel MONT71 Series Elevator Integrated Controller User Manual V1 0 Duuouuou 3 uoneJedo 9Jn169J O m lt O 5 3 D 3 Item Digital input High voltage input Analogue input Communication terminal Programmable relay output Encoder interface Button I O terminals LCD display Small panel Host computer Operation temperature i Storage temperature Location for use Altitude Humidity Oscillation Encoder interface card Hall call board About panel Power regenerative unit MONT71 Series Elevator Integrated Controller Chapter 3 Product Information Specification 24 digital input terminals input specifications are 24V and 5mA 3 high voltage input terminals specifications are 110 220VAC DC Analogue voltage input 10 10V Modbus communication 24 relay outputs The optional encoder interface card can be adapted to different types of encoder 24 button inputs and outputs and terminal function can be set Function parameter setti
208. put voltage is too high normal 2 Deceleration curve is too 2 Check the balance coefficient steep 3 Select the appropriate braking 3 Brake resistance is too resistor refer to section 5 6 Braking much Resistor Selection page 53 4 Braking unit is abnormal 4 Connect with braking unit or 5 Power feedback is power regenerative unit check the abnormal related equipment DC bus voltage Dec overvoltage E05 1 Input voltage is too high 2 Brake resistance is too much 3 Braking unit is abnormal DC bus voltage constant speed overvoltage E06 4 Power feedback is abnormal 1 Short circuit between t 1 Check the wiring and regulate it phases output or the ground 2 Install the reactor or filter 2 Motor wiring is too long 3 Check whether the fan and the 3 Work environment is ventilation duct are normal Power E08 module faulty overheating 4 Please contact the supplier for 4 Power module is damaged repairing 1 Ambient temperature NN 1 Derated for using and increase exceeds specifications power 2 The controller external TIRAS 2 Rectify controller external ventilation is adverse ventilation Heatsink E SS overheated 3 Fan is faulty 4 Temperature detection circuit is faulty L Braking unit DEE i l E0010 E10 faulty The braking circuit is faulty Seek for technical support 3 1 Power on observation after
209. r displaying The panel will display Panel self test fail The Panel self test fail will auto disappear within 3 5 seconds and back to display state before self testing The possible reasons of self testing failure no press within 5s or invalid key MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 7 105 Panel Introduction 7 3 4 Parameter Upload and Download Upload When the function parameter F01 03 1 it uploads the parameters from MCB to the panel When the upload is finished the panel will jump to display F01 00 Download When the function parameter F01 02 2 it downloads the parameter from the panel to MCB When the download is finished the panel will jump to display F01 03 The upload download upload success and down success are shown as Figure 7 13 Para being uploaded roi og Upload progress 050 WW TTT User password Parameter being uploaded Parameter upload success Para being dnloaded rot of Dnload progress 030 EH Panel para update Parameter being downloaded Parameter download success Figure 7 13 Display the parameter upload download and their success Download fail Figure 7 14 Display the parameter download failure Note T 1 Only at the inspection mode or panel control can upload and download parameters 2 At downloading the parameters display the parameter download failure shown as Figure 7 14 representing that panel storage parameter
210. rameter prohibit to change Manufacturer debugging parameter ee ESI 22sQQQQQSQBOhibittochange Manufacturer debugging parameter EE i Prohibit to change Manufacturer debugging parameter prohibit to change Manufacturer debugging parameter prohibit to change 0 2 500 0kW Depend on model 0 0 999 9A Depend on model Asynchronous motor power factor 0 001 1 000 0 850 Please set F07 00 F07 05 in accordance with parameters of motor nameplate F07 06 Asynchronous motor parameter auto tuning 0 2 0 3 0 No action 1 Motor static auto tuning 2 Motor rotation auto tuning See the section 9 1 3 Motor Parameter Auto tuning page 186 for the detail parameter auto tuning 0 000 65 5350 Depend on model 0 000 65 5350 Depend on model 0 0 6553 5mH Depend on model 0 0 6553 5mH Depend on model Asynchronous motor stator resistance F07 10 Asynchronous motor mutual inductance MONT71 Series Elevator Integrated Controller User Manual V1 0 136 Chapter 8 Function Introduction 0 0 999 9A Depend on model Asynchronous motor of core saturation coefficient 1_ Asynchronous motor of core saturation coefficient 2 Asynchronous motor of core saturation coefficient 3 Asynchronous motor ___ torque boost end point Asynchronous motor of slip compensation gain Asynchronous motor of ___ Slip compensation filter time Asynchronous motor of
211. rd Manufacture machines AreaF Mechanical syste tot prre Figure 5 4 System wiring sketch MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 5 Installation and Wiring Remarks All areas should be isolated in space to achieve electromagnetic decoupling effect e The minimum distance between areas should be 20cm and use earthing bars for decoupling among areas the cables from different area should be placed in different tubes e EMI filters should be installed at the interfaces between different areas if necessary e Bus cable such as RS485 and signal cable must be shielded 5 7 2 Wiring Requirement In order to avoid interference intercoupling it is recommended to separate the motor cables and the control cables from power supply cables and keep enough distance among the cables Especially when the cables are laid in parallel and the cable length is long the signal cables should cross the power supply cables perpendicularly as shown in Figure 5 5 Motor cables gt 50cm Power or motor cables Power cables Signal control cables 20cm Signal control cables Figure 5 5 System wiring requirement Shielded armoured cable High frequency low impedance shielded cable should be used For example copper net aluminum net or iron net Normally the control cables must use the shielded cables and the shielding metal net must be connected to MONT71 metal enclosure of the drive by ca
212. rminal Bit12 L13 terminal Bit13 L14 terminal Bit14 L15 terminal Bit15 L16 terminal Display in 16 bit binary and from low to high bit represent BitO L17 terminal Bit1 L18 terminal Bit2 L19 terminal D02 04 MCB L terminal input state 2 Bit3 L20 terminal Actual value Bit4 L21 terminal Bit5 L22 terminal Bit6 L23 terminal Bit7 L24 terminal Bit8 Bit15 Reserved Display in 16 bit binary and from low to high bit represent MCB X terminal input logic state BitO Up leveling signal Actual value 1 Bit1 Dwon leveling signal Bit2 Door zone signal Bit3 Run output feedback MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 6 63 Parameters Function b Parameter Name Setting Range Value ara Bit4 Brake output feedback Bit5 Brake limit switch feedback Bit6 Synchronous motor self locked feedback Bit7 Locked door output feedback Bit8 Inspection input Bit9 Up inspection Bit10 Down inspection Bit11 Firefighting signal Bit12 Reserved Bit13 Locked elevator Bit14 Up limit Bit15 Down limit Display in 16 bit binary and from low to high bit represent BitO Up forced Dec Bit1 Down forced Dec Bit2 Over loaded signal Bit3 Full load signal Bit4 Safe circuit 1 Bit5 Front door OD arrival Do oe MCB X terminal input logic state p Back door OD iis TEN 2 Bit7 Front door CD arrival Bit8 Back door CD arrival Bit9 Front door light curtain Bit10 Back door ligh
213. roduction Up forced Dec position i 0 00 300 00 0 00m Down forced Dec position 0 00 300 00 0 00m F19 12 F19 13 define that forced deceleration switches are relative to the position of the bottom leveling floor which can be automatically recorded during shaft self learning process e MONT71 can set one pairs of switches of forced deceleration at elevator As following figure Shafttop space Up forced Dec switch L Touch board Down forced Dec switch LL Touch board Car Bottom floor Shaft bottom space The installation position of forced deceleration switch is as following table e S is the installing distance between forced deceleration switch and station leveling position decelerates to zero according to F03 12 forced Dec speed which should meet the below condition V 2x F03 12 Elevator rated speed Distance between the forced Dec switch and station Vx 1 5m s 1 5m The system can automatically monitor the instant running speed when elevator runs to the forced deceleration switch If detect the abnormal speed or position the system will forcedly decelerate at F03 12 forced Dec speed to avoid climbing or plunging elevator e Ifthe distance of forced deceleration is too short the elevator will alarm E0060 fault forced Dec and distance is too short after completes shaft self learning which can be solved through adjusting the installing position of forced deceleration switch or i
214. rom zero speed to brake close command output Zero speed retention time at stop 0 000 2 000 0 300s Define the time of keeping motor zero speed with output torque at stopping which may improve the comfort Note If the synchronous motor needs to remove the current ramp this setting time should be greater than or equal to F16 00 MONT71 Series Elevator Integrated Controller User Manual V1 0 27 128 Chapter 8 Function Introduction Start ramp time 0 000 2 000 0 000s Define the time that elevator takes to accelerate from zero to the elevator rated speed F00 03 with the use of F02 02 e When F02 06 is set as 0 the ramp is invalid 8 2 4 Group F03 Acceleration and Deceleration Curve Parameters Acceleration speed 0 020 2 000 0 250m s Start Acc jerk ji 0 020 2 000 0 250m s End Dec jerk 0 020 2 000 0 250m s The following figure shows the effect of F03 00 F03 05 at elevator running S curve Acc Dec jerk The change ratio of acceleration deceleration The S curve becomes steeper and Acc Dec become faster when parameter values are raised the S curve and Acc Dec become slower when parameter values are decreased Speed Target speed Asynchronous motor parameter __ auto tuning Acc speed Asynchronous motor parameter auto tuning Dec speed 0 020 2 000 0 100m s Define the asynchronous motor Acc and Dec speed at rotating auto tuning MONT71 Series
215. ry related factor adjustment 1 If the guide mounting flatness and verticality is not good elevator will appear jitter or vibration and appear horizontal shaking in certain positions 2 Too tight the guide shoe is a sense of frustration will be maked at start and stop Too loose the guide shoe is shake will be appeared in running car Let car guide shoe bear the least resistance and achieve elevator best quality of running 3 The tightness of the steel rope is also important factors which affect elevator comfort 4 The motor brake will also affect the operation of the elevator Start torque compensation Pre torque auto compensation adapt to all type of encoders F05 00 is set as 3 pre torque auto compensation Even if MONT71 does not install weighing device in starting moment the torque can be automatically adjusted out to prevent the elevator out of control You can fine tune F05 16 F05 18 to adjust the starting instant comfort Comfort adjustment of synchronous and asynchronous motors configured with weighing device at starting e Analogue weighing compensation F05 00 1 1 Confirm that the weighing sensor signal is connected correctly 2 According to the weighing sensor signal input to the MCB correctly set F05 01 weighing input selection as 1 analogue weighing 3 Weighing compensation at no load self learning Operating steps The elevator is in the base station and there is no load in the car Set F05 03 as
216. s Group F07 Group F10 7 Restart motor parameter auto tuning Group F07 Group F10 8 Check whether the brake is abnormal is serious 1 Main circuit output is grounding 2 Main circuit output is short wiring 3 The motor has not done parameter auto tuning 9 Check whether the mechanical is 4 Load is too heavy 5 Encoder signal is wrong 10 Check whether the elevator I I i i i i 6 Encoder signal interference s balance coefficient is correct is serious 11 Check whether the encoder 7 Deceleration curve is too D wiring is reliable steep 12 Set the correct encoder parameters Group F11 10 13 Encoder is installed reliably 14 Check whether the encoder alignment is independence wear tube trace distance is too long and the shielded cable is single end grounded 15 Check whether the acceleration 6 Encoder signal interference deceleration curve Group F03 is is serious too large MONT71 Series Elevator Integrated Controller User Manual V1 0 216 Chapter 10 Troubleshooting Fault name Fault cause Countermeasure 1 Input voltage is too high 2 Acceleration curve is too steep 3 Brake resistance is too much 4 Braking unit is abnormal 5 Power feedback is DC bus voltage Acc overvoltage E04 1 Adjust the input voltage check abnormal whether the bus voltage D01 06 is 1 In
217. s types are matched The safety circuit is passed through and the signal is normal The door lock circuit is passed through and work reliably 4 Shaft is smooth and no one is in the car and it possesses the conditions suitable for the elevator safety running 5 Really check the input power and the motor wirings whether are correct to avoid misusing power transmission and cause MONT71 damage 6 Check the control cabinet motor car ground wire and hall ground wire whether is safely grounded to ensure the personal safety Note The control cabinet and the motor should be confidential single point grounded 7 Check the short circuiting If there is short circuiting please do not power on until exclude the short circuiting The input power supply interphase to the ground The motor interphase to the ground e 220V interphase to the ground The switch power supply 24V to the ground e The communication wire to the ground The encoder wire to the ground MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 9 183 System Typical Application and Adjustment 8 Make sure the following items are reliably grounded The control cabinet is grounded e The motor is grounded The car is grounded e The door machine is grounded The pipeline is grounded The shielded encoder and motor end are grounded Note The encoder s shielded cable requires one terminal of MONT71 to connect to the ground reli
218. s and the parameters of the present MCB are inconsistent or software versions are inconsistent Take measure You need upload the setting value of the correct function parameter to the panel and ensure that the software versions are consistent and then you can download 3 When upload or download parameters the panel displays E0022 indicating that panel s EEPROM read write abnormality It will jump to next function parameter 10 seconds later Take measure The troubleshooting is in Chapter 10 page 213 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction 108 Chapter 8 Function Introduction This chapter will provide detail function introduction Group DOO Configurations of Integrated Hardware and Software page 109 Group D01 Display Parameters in Drive State page 110 Group D02 Display Parameters of Main Control Board page 111 118 Group D03 Display Parameters of Floors for Service and Registration page 118 119 Group D04 Display Parameters of Elevator Running State page 119 120 Group D05 Display Parameters of Elevator Hardware page 120 121 Group DOG Hall Call State Parameters of Modbus Extension page 121 122 Group F00 Basic Parameters page 122 124 Group F01 User Parameters page 124 127 Group F02 Start and Stop Parameters page 127 128 Group F03 Acceleration and Deceleration Curve Parameters page 128 130 Group F04 Speed Parameters page 130
219. s the information of MCB which respectively are Group FO F8 Specific categories are shown as Table 4 4 Table 4 4 Small panel display function group category Function group Function group content Function group Function group content Floor and run direction i i L i Di i information peser tuus Call command input i Reserved r Shaft self learning command input F3 F4 Reserved i F8 Test function i Fault reset MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction FO floor and run direction information At power on the function group content of Group FO is defaulted display The last two data of 3 bit digital tube displays the present elevator floor and the first digital tube displays the direction At elevator stopping state the first digital tube does not display At elevator up or down running the digital tube indicates up or down running direction Flashing at run and lighting at stop In case of failure in the system originally no fault the digital tube alternate display automatically switches from the fault code to FO data menu If the fault disappears automatically it will enter FO menu F1 call command input After enter Group F1 digital tube displays 1 physical floor which can be set via pressing UP key and the range is 1 maximum floor After set the running destination floor then press SET key to save and it will autom
220. sed to set the sensitivity of the input terminals As input terminals are vulnerable to interference and cause the malfunction to increase the value of this parameter setting but will reduce the sensitivity of the terminals Function selection of MCB terminal L1 000 339 201 Function selection of MCB terminal L2 000 339 202 Function selection of MCB terminal L3 000 339 203 Function selection of MCB terminal L4 000 339 0 Function selection of MCB terminal L5 000 339 211 Function selection of MCB terminal L6 000 339 212 Function selection of MCB terminal L7 000 339 213 Function selection of MCB terminal L8 000 339 214 Function selection of MCB terminal L9 000 339 215 ______ Function selection of MCB terminal L10 Function selection of MCB terminal L11 Function selection of MCB terminal L12 Function selection of MCB terminal L13 000 339 221 000 339 222 000 339 224 000 339 232 P CB te 000 339 233 _ ___ Function selection of MCB terminal L19 000 339 234 Function selection of MCB terminal L20 000 339 235 Function selection of MCB terminal L2 0007339 0 Function selection of MCB terminal L22 000 339 0 Manufacturer debugging parameter prohibit to change MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 151 Function Introduction 0 No function To s
221. set zero as 1 start shaft self learning 4 At shaft self learning the elevator runs at shaft self learning speed F04 03 and records the leveling plate length each floor height and up down forced deceleration switch position 5 When the elevator runs to the upper limit bit it will automatically stop If there is no fault alarm indicate the completion of the self learning process Note 1 Check parameters F19 12 and F19 13 to confirm that you learn the correct forced deceleration position Check Group F20 function parameters to confirm whether learning the correct floor data 2 Check that parameters of D03 02 distance of lowest floor and D03 03 distance of highest floor are consistent with the actual 3 Check that parameters of D05 06 leveling switch number D05 07 length between leveling switches and D05 08 leveling plate length are consistent with the actual 4 After adjust the leveling plate or the forced deceleration switch position you must restart the shaft self learning 5 The shaft self learning can be interrupted in the following cases 1 the inspection switch switches to normal position this time alarms self learning fault 2 operation fails 6 If the shaft self learning is unsuccessful you may refer to the reason Chapter 10 Troubleshooting page 213 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 9 System Typical Application and Adjustment 93 9 1 6 Check before High
222. star delta contactor feedback abnormal MONT71 Series Elevator Integrated Controller User Manual V1 0 144 Chapter 8 Function Introduction 8 Locked door output feedback normally open input FMFB When the elevator opens the door in advance or re leveling jumps out door lock after opening the door it will detect locked door feedback signal for insuring the elevator safely running The system automatically detects whether the locked door output is consistent with the feedback signal If not it will alarm E0047 fault locked door feedback abnormal 9 Inspection normally open input INS 10 Inspection up normally open input UP 11 Inspection down normally open input DN Turn the auto inspection switch to inspection the elevator enters to inspection mode and the INS lamp of main control board will become lighting Atthe inspection mode the system will not operate automatically including the automatic door When there is inspection up signal or inspection down signal the elevator will run at inspection speed F04 00 12 Fire signal normally open input FIRS1 When the fire switch is open the elevator comes into fire state Atthis mode the system will cancel all entered hall call and car call the elevator will park at the next station without opening the door Elevator directly runs to the fire station and won t open door for setting passengers free until arriving at the fire station 13 Reserv
223. stem allows run automatically at the speed of re leveling to leveling station in the OD state Testing run i Testing run is including the new elevator fatigue test the i i shielding of hall call OD CD and over load etc signals the setting of any running times and the allowable elevator random run etc MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 1 MONT71 Configuration i Function name Function description i Remark g Inspection OD CD g After elevator entering the inspection state if door lock circuit operation disconnects via pressing the up down button the system will l send out CD command If door lock circuit connects the elevator will up down run If the elevator stopped at the position of the door zone while pressing the up down buttons the system open command is given and do the opening operation Panel OD CD Panel s RUN key to perform OD operation STOP key to operation perform CD operation Auto back to base When beyond the setting time and there is no internal call and station run hall call elevators automatically return to the base station and wait for passengers Locked elevator At the auto run mode after the elevator locked the system function eliminates all hall calls e If there is internal call registration after registered the elevator will automatically return to locked elevator base station then open the door If there is not internal call re
224. t DC bus voltage CON O C A C N Al input voltage When F05 01 1 analogue weighing display the analogue input voltage of MCB 9 Present height 8 2 17 Group F16 Enhance Function Parameters F16 00 Current keep time after stop command 0 1500 300ms To eliminate the synchronous motor current noise at stop when the brake is over the cut off run signal will reduce the current to zero after some time F16 00 setting time is the time reduced from motor rated current to zero t needs to use with F02 05 zero speed retention time at stop Fan control mode n Define the fan control mode of MONT71 e If alarm E0009 fault heatsink overheated the fan will run all the time 0 Auto stop The fan runs all the time in the running state The fan will auto stop after the time set by F16 02 1 Immediately stop The fan runs all the time in running state when stops running the fan will immediately stop 2 Always run when power on Note At the inspection mode if the controller has fault the fan will immediately stop if no fault the fan will run all the time At inspection mode the fan operation can judge whether there is the fault on site MONT71 Series Elevator Integrated Controller User Manual V1 0 156 Chapter 8 Function Introduction 360 750V Depend on model ____Fan control keep time __ 0 0 600 0 300 05 Braking unit action voltage For 380V voltage class the brak
225. t curtain Bit11 Driver signal Bit12 Direct arrival signal Bit13 Commutation signal Bit14 Isolated signal Bit15 Front back door switch Display in 16 bit binary and from low to high bit represent BitO Battery driven running signal Bit1 Open door button input Bit2 Close door button input Bit3 Safe circuit 2 MCB X terminal input logic state Bit4 Locked door circuit 1 ene 3 m Bit5 Locked door circuit 2 EES Bit6 Half load signal Bit7 Fireman signal Bit8 Motor over heated input signal Bit9 Earthquake monitoring input signal Bit10 Edge input signal of front door Bit11 Edge input signal of back door MONT71 Series Elevator Integrated Controller User Manual V1 0 64 Chapter 6 Parameters Function g Parameter Name Setting Range Value ara Bit12 Brake forcely feedback input Bit13 Back door prohibits the input signal Bit14 Alarm input signal Bit15 Reserved Display in 16 bit binary and from low to high bit represent MCB X terminal input logic state Bit0 High voltage safe signal SE vs Bit eere aked dorsa EEN Bit2 High voltage locked door signal 2 Bit3 Bit15 Reserved Display in 16 bit binary and from low to high bit represent Dm Front door OD button Bit1 Front door CD button l Bit2 Front door OD delay button D02 09 GE EEN Bit3 Back door OD button Actual value Bit4 Back door CD button Bit5 Back door OD delay button Bit6 Front back door switch signal Bit7 Back door prohibition Bit8
226. t failed E0014 Current detect faulty E0015 Lack of input E0016 Lack of output E0017 Controller overloaded E0018 Excessive speed deviation E0019 Motor overloaded E0020 Motor overheated E0021 MCB EEPROM faulty E0022 Panel EEPROM faulty only display but without controller protection E0023 Parameter setting faulty E0024 Input voltage detection failure E0025 E0029 Reserved E0030 Encoder reverse direction E0031 Encoder disconnection E0032 Motor over speed E0033 Loss of Z signal of ABZ encoder E0034 UVW signal wrong of UVW encoder No 1 fault type the farthest time E0035 CD phase wrong of Sincos encoder E0036 Shortest distance ultrahigh E0037 Control board logic parameters E0038 Up forced Dec switch disconnection E0039 Down forced Dec switch disconnection E0040 Elevator run timeout E0041 Safety circuit disconnection E0042 Door locked disconnection during running E0043 Up limit signal disconnection during running E0044 Down limit signal disconnection during running E0045 Up down forced Dec switch disconnection E0046 Re leveling abnormal E0047 Lock door contactor adhesion E0048 OD fault MONT71 Series Elevator Integrated Controller User Manual V1 0 84 Chapter 6 Parameters Function g Parameter Name Setting Range Value ara E0049 CD fault E0050 Shaft self learning fault E0051 Reserved E0052 Hall call communication fault E0053 Lock door short circuit fault E00
227. t full load and over load signal the full load and over load signal input function will be valid This switch value can be used with analog weighing together 9 3 Typical Application Wire This section describes the practical application of the wiring diagram in a typical application specifically as follows e Wiring diagram of full selective factory setting value e Wiring diagram of full selective largest floor e Wiring diagram of down selective largest floor e Wiring diagram of open through door full selective MONT71 Series Elevator Integrated Controller User Manual V1 0 System Typical Application and Adjustment Chapter 9 208 ZAS and QO 3ndino peo NO ZZA O H WOXx ep uexe KOL speuu ua C JO sSumes Aga DeL Z ydnoaezzmg TZA np Ages pue pe po oop aui arpeuuoo pnous vod Burn TAG JO SIIOD T PETERSEN eX leet LOETSCH peg SA OZA d UEL Ieubis T po oop 2664M UBIH ocx AOZZ OLL SNO O ANcr Ndo Aedsip nun 6TA a Q PAS Se qndo Aedsip maue voa STA 4 a1 4 Ad Presan PIA SIX E TO SOH anchno Aespmaue dn ZTA a X ah 63S JeXKedsip pco at s pandino3uau es mo ETA Q E C E pce ce e X qno iau6es MOT LA e3chno34au6es NO1 OLA QO UALLUOD INNS GIIGO BAD QC Nano esop KOCH gt peg 6A QO ZAS ndo uedo Joop gt ped 8A d SE PANO S0pP OPH LA Q
228. t of data or function parameter number mE Select the data modification bit or switch the display status Left direction key parameters Right direction key Select the data modification bit MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 7 Panel Introduction 7 1 Panel Display Interface 7 1 1 Power up Display Interface At power up the panel display interface is shown as Figure 7 2 and the second display interface is MONT71 actual configuration parameters After the panel displays power up display interface if MONT71 does not have the user password it will display state display interface if have user password display input password display interface Three phase 380V 15kW mapnt7i Elevator integrated controller MCB software version V1 03 Panel software version V1 01 Figure 7 2 Panel power up display interface 7 1 2 Input Password Display Interface If MONT71 has been set parameter password to protect only inputting the correct password you can operate the panel When MONT71 is power up or there is no press on the panel for 5 minutes the panel will display input password display interface shown as Figure 7 3 If you want to clear modify or set the user password you can refer to section 7 3 2 Input password Figure 7 3 Input password display interface Note If MONT71 does not have password protection it will not display input password display interface at po
229. ta contactor output FX The system outputs the pick up and release command of run contactor control the pick up and release of synchronous star delta contactor t can be set by F26 19 he synchronous star delta contactor can guarantee that the elevator does not occur high speed car rolling even in the case of the brake failure 4 Brake forced output KMZ e Each time opening the brake and lasting 4s can be used to control the starting voltage of the brake 5 Lighting and fan output FAN There will be lighting output if meet any one of the following conditions but there will be no output at other conditions 1 Inspection running 2 There is running direction e 3 There is fault 4 The door machine is opening or keeping opening state 5 There is floor registration in car Front door open output OD1 Front door close output CD1 Back door open output OD2 O CO N O Back door close output CD2 When there is only one door it defaults that it is front door 10 Low 7 segment code display output a 11 Low 7 segment code display output b 12 Low 7 segment code display output c MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction 13 Low 7 segment code display output d 14 Low 7 segment code display output e 15 Low 7 segment code display output f 16 Low 7 segment code display output g 17 Up arrow display output 18 Down arrow
230. te 1 Do not set F19 01 as 1 or the heighest floor otherwise it will alarm E0039 fault down forced Dec switch disconnection or E0038 fault up forced Dec switch disconnection 2 When the forced deceleration acts elevator will creep to the end station leveling area at speed of 0 100m s After the leveling signal is valid by adjusting F03 14 forced stop Dec jerk to ensure the leveling accuracy F03 14 will automatically update after the shaft self learning 3 If open the position deviation too large detection function F26 24 1 when the elevator detect that position deviation is greater than the preset reference value F26 25 elevator will immediately decelerate and creep to the leveling area at speed of 0 100my s After open the door the elevator will automatically return to the base station at speed of 0 200m s MONT71 Series Elevator Integrated Controller User Manual V1 0 196 Chapter 9 System Typical Application and Adjustment 9 1 8 Function Test According to the actual needs set Group F26 parameters elevator function selections and adjust Group F21 parameters parking base station F21 00 fire base station F21 01 Locked elevator base station F21 02 and service floor F21 03 Auto running test Register certain internal call signals in the car Confirm that the elevator can normally close the door start run at high speed and in the recent instruction registered floors can automatically slow down st
231. the car top inspection operation confirm the shaft end terminal deceleration switch action and the action in correct position EN 5 Through the car top inspection operation confirm that shaft leveling switch and leveling plate installation are correct at every leveling position each leveling switch action point is correct Note 1 At car top inspection operation you should always pay attention to the car whether encounter other obstacles If so stop in time 2 At inpsection runtime if the shaft switch is not installed in place the system may alarm fault which can be shielded by function parameter F26 12 inspection parameter setting MONT71 Series Elevator Integrated Controller User Manual V1 0 19 Chapter 9 System Typical Application and Adjustment 9 1 5 Shaft Self learning Before high speed running the elevator must do shaft self learning 1 The elevator is in inspection state 2 Makes the elevator arrive to the lower limit position and ensure that the down forced deceleration signal is valid and the present floor is floor 1 Note 1 For a total of two floors self learning you need to ensure that the down leveling switch is under the leveling plate 2 For the total floors are greater than two there is at least one leveling switch in the leveling plate 3 Setting F26 01 as 1 start shaft self learning by the panel then the elevator starts the shaft self learning or by using small panel enter Group F7 to
232. the direction 1 The direction is fixed up run Bit4 Fixed down run of battery driven direction 0 This bit should not decide the direction 1 The direction is fixed down run Bit5 Bit7 Reserved MONT71 Series Elevator Integrated Controller User Manual V1 0 F26 16 Bit0 No run command at stop and auto open door 0 Do not auto open door 1 Auto open door Bit1 Reserved Bit2 Battery driven reset auto return to base station 0 Auto return to base station 1 Do not return to base station Bit3 Cleared conditions of firefighting back to base station mode 0 Power off or firefighting switch is invalid 1 Fireman input valid and then clear Bit4 Non service floor is allowed to open door at fireman operating elevator Bit5 Non service floor is allowed to open the door at fireman operating door machine 0 Not allow to open door 1 Allow to open door Bit6 OD selection at firefighting back to base station power on 0 Open door 1 No open door Bit7 E0041 clear the internal call 0 E0041 fault clear the internal call 1 E0041fault do not clear the internal call Bit8 Forced Dec switch types 0 Ordinary forced deceleration switch 1 Trigger forced deceleration switch MONT71 Series Elevator Integrated Controller Elevator enhanced function selection Chapter 8 Function Introduction 0 65535 1 Bit9 Open the function of pulling door manually 0 Do not open this function
233. the hall call up run registration of front back door 9 1 D03 08 D03 09 display whether there is the hall call down registration of front back door 10 2 e 1 This address of the floor has registration 0 This address of the floor does not have registration MONT71 Series Elevator Integrated Controller User Manual V1 0 8 1 5 Group D04 Display Parameters of Elevator Running State D04 00 i Elevator system state Chapter 8 Function Introduction Display the elevator system state by a 16 bit binary as following table Bit15 System back door edge 0 System back door edge is invalid 1 System back door edge is valid Bit11 Bit8 Reserved Bit3 Hall call firefighting 0 Hall call firefighting is invalid 1 Hall call firefighting is valid D04 01 Bit14 System front door edge 0 System front door edge is invalid 1 System front door edge is valid Bit7 Bit4 Elevator state 0000 Automation 0001 Inspection 0010 Battery driven run 0011 Shaft self learning Bit2 Hall call locked elevator 0 Hall call locked elevator is invalid 1 Hall call locked elevator is valid Bit13 System over load 0 System over load signal is invalid 1 System over load signal is valid 0100 Firefighting back to base station 0101 Fireman mode 0110 Driver mode Bit1 System back door light curtain 0 System back door light curtain is invalid 1 System back door light curtain is v
234. the number set system stop close and open the door switch and output the fault Protection of door lock 1 When the door lock disconnects during the elevator running the system will disconnect when be automatic protection running g Door lock jump Detect that the door machine OD arrival signal and the door lock signal are detected function valid at the same time will carry out the door lock short protection MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 1 MONT71 Configuration Function name Next landing i Leveling switch fault i protection Limit switch protection Anti slip protection i Protection for contactor i of contact i Motor over load i protection Over current protection Over voltage protection CPU overheated protection Shaft self learning fault protection MONT71 Series Elevator Integrated Controller Function description If the elevator continues to open the door more than the time of open the door the OD arrival signal has not yet been detected the elevator would be turned into the closing door state and after the door closed automatically run the next registered floor At the same time elevator alarms the changed floor park fault i When the elevator is in the automatic running mode it will identify the leveling i signal loss and adhesion status If the up down limit switch is action the elevator bans running up down but can run to the opposite direct
235. the resulting consequences are undertaken by the persons who set up on their own hereby declare Please make sure that each parameter of Group 25 is set as zero during the elevator normal operation Define the target floor when the elevator is in testing operation e F25 00 F25 02 are the same with the internal call commands The command is durative availability until code is set to 0 instead or power is failure e Set as 0 no testing floor F25 03 Test times 0 60000 0 F25 03 defines the testing operation times e Set as 60000 it will run all the time When set as other value the elevator will not stop testing operation until the running times reach the setting value F25 04 Special test parameter 0 65535 0 BitO Hall call enable Bit3 Limitation enable 0 Enabled hall call 0 Enabled limitation 1 Disabled hall call The MCB does not 1 Disabled limitation It only can be used in communicate with HCB the hall call elevator detecting the limitation switch signal is invalid and the HCB displays E52 Bit4 Random run enable Bit1 OD enable 0 Enabled OD The OD CD buttons are 0 Disabled random run 1 Enabled random run According to the normal internal random function the controller can 1 Disabled OD The OD CD buttons are randomly assign the hall call registration un useful and doors don t automatically open command between the first floor and the highest floor Bit5 Bit15 Reserved Bit2 Over
236. thout hitting the preset detect base F17 00 and exceed the preset detect time F17 01 it will alarm E0015 fault lack of input e When F17 00 or F17 01 is set as 0 or in the battery driven run mode it does not detect the input phase loss fault F17 02 The detect base of lack of output 0 100 20 F17 03 The detect time of lack of output 0 0 20 0 3 0s F17 02 setting value is a percentage of MONT71 rated current When detect certain output current without hitting the preset detect base F17 02 and exceed the preset detect time F17 03 it will alarm E0016 fault lack of output e When F17 02 or F17 03 is set as 0 it does not detect the output phase loss fault Motor over loaded fault F17 04 F17 04 Motor overload protect factor 20 0 110 0 100 096 The motor overload protection factor can be set as 100 when MONT 71 drives a motor with the same power class To protect the motor when the motor power is smaller than the standard matched power you need to set a proper motor overload protect factor F17 04 The factor can derive from the following formula n For asynchronous motor Asynchronous motor rated current F07 02 Motor overload protect factor F17 04 x 100 MONT71 rated current D00 02 For synchronous motor Synchronous motor rated current F10 03 Motor overload protect factor F17 04
237. tion F11 02 is invalid you can try to reduce the KP and KI of ASR Group F08 MONT71 Series Elevator Integrated Controller User Manual V1 0 19 Chapter 9 System Typical Application and Adjustment 9 1 4 Inspection Operation Preparation work before inspection operation Before inspection operation please confirm the following points 1 The inspection switch of control cabinet is in the inspection position and the inspection switch of car top is in the normal position 2 The safety circuit and the door lock circuit of machine room and shaft are normal and effective Note No short circuit the safety circuit or the door lock circuit 3 The encoder is installed correctly and wiring is normal 4 After power on the MONT71 display is normal and checks the MONT71 parameter settings are correct the panel s status display interface displays the elevator running state as inspection the MCB s INS is lighting 5 Motor brake cable is properly connected to the terminals of the control cabinet 6 The wirings of upper and lower terminal deceleration switch and car top inspection priority circuit are normal Machine room inspection operation 1 To make sure that the direction of motor is correct If it is not correct please check the up down input terminal connection and parameter setting if the connection is correct please set the F00 10 as 1 elevator running direction 2 At elevator slow speed up or down ru
238. tor Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction Door zone signal input high level active The connection is shown as Figure 4 11 If there is PNP photoelectric the photoelectric collector output will connect with FL1 and FL2 the emitter will connect with 24V FL1L and FL2L will connect with COM If there is dry contact the switch at one end will connect with FL1 and FL2 at the other end will connect with 24V FL1L and FL2L will connect with COM Advanced open block MT70 AOB A 24V COM FL1 Up re leveling door zone input FL2 Down re leveling door zone input Main control board MT71 MCB A Y4 Locked door contactor output X1 Door zone signal input X19 Locked door contactor feedback input OD re leveling floor relay output RLY2 RLY3 V JOD re leveling floor signal detection Locked door contactor feedback input RLY1 RLY4 SX2 A RLY2 RLY3 RLY4 b A Door lock circuit Figure 4 11 Door zone signal as dry contact or PNP photoelectric of connection MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction 4 4 3 Logic Order Figure 4 12 describes the various relays and the relationship between the respective signals the figure s high level indicates that its signal is valid FLIL FLI E L FL2L FL2 SX1 X1 YA SY RLY1 RLY2 RLY3 RLY4 X19 SX2 Door
239. ts the factory setting Chapter 4 Control System Introduction 4 3 BCD Code Display Control Board MT71 HCB A BCD code display control board is one of the important interfaces for user and MONT71 interaction Divided into two types in accordance with installation Installing outside the hall it is call for hall call board e Installing inside the car it is call for internal call board Function Hall call board To receive the user calling and display information about where floor elevator and the running direction etc Internal call board To display information about elevator of floor and the running direction etc Dimensions BCD coder display control board MT71 HCB A and its size shown as Figure 4 7 and the unit is mm O To display N running direction WY BCD code display control board MT71 HCB A To display the floor Wiring terminal Indicators Figure 4 7 BCD code display control board and its size Function description Indicators You can set indicators of MT71 HCB A via parameters F12 28 F 12 51 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction Wiring terminal description The BCD code display control board wiring terminals are shown as Figure 4 8 and Table 4 5 pew Joon 4 s c 9 Tor ow ns Figure 4 8 BCD code display control board of terminal layout Table 4 5 BCD code display control board of terminal function description C
240. tting Asynchronous motor rated F07 01 voltage The motor type is asynchronous motor you need to set the Based on the actual setting F07 02 Based on the actual setting i asynchronous motor nameplate parameters of Group F07 L L Asynchronous motor rated current I I Asynchronous motor rated F07 03 frequency Based on the actual setting F07 04 Asynchronous motor rated RPM Based on the actual setting L F07 05 Asynchronous motor power Based on the actual setting MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 9 185 System Typical Application and Adjustment Parameter Recommended value L F10 00 Synchronous motor type Based on the actual setting F10 01 Synchronous motor rated power Based on the actual setting Synchronous motor rated The motor type is voltage Based on the actual setting synchronous motor you need to set the Based on the actual setting synchronous motor nameplate parameters of Based on the actual setting 9 oUp F10 F10 02 Synchronous motor rated current F10 03 i F10 04 Synchronous motor rated frequency i i i I F10 05 Synchronous motor rated RPM Based on the actual setting Note Synchronous motor stator Based on the actual setting If F10 00 and F10 06 resistance F10 09 have no accurate parameters please set as zer
241. uipped with one leveling sensor there are the following two methods D Connect the leveling sensor signal to the corresponding terminal the terminal is set to door zone signal 3 or 103 while the up leveling signal function 1 101 set to 0 and the down leveling signal function 2 102 set to 0 have been set to cancel 2 Connect the leveling sensor signal to two corresponding terminals which are set to up leveling signal input 1 101 and down leveling signal input 2 102 Please refer to section 4 4 Advanced Open Block MT70 AOB A about the open door re leveling and advanced open function 4 Run output feedback normally open input SW n 5 Brake output feedback normally open input BZK The system automatically detect that the outputs of run contactor and brake contactor whether are consistent with the feedback signal If inconsistent it will alarm E0056 fault run contactor feedback abnormal and E0057 fault brake contactor feedback abnormal 6 Brake limit switch feedback normally open input BZK1 Use for detecting the actual action of brake If the actual action is inconsistent with the brake output it will alarm E0057 fault brake contactor feedback abnormal 7 Synchronous motor self locking feedback normally open input FX The system automatically detects whether the synchronous star delta contactor output is consistent with the feedback signal If not it will alarm E0054 fault synchronous motor
242. unication Terminal Description ccccceseeeeeeeeeeeeeeeeeeeeeeeaeeeeees 28 4 2 5 Small Panel RE dere E 28 4 2 6 Terminal GODPIeCHOED ee oec es ee 31 4 3 BCD Code Display Control Board MIT HCRA l 32 4 4 Advanced Open Block MTZOSAOBFA oor e ss faces carrey ER e EE EE Eel ene in 33 4 4 1 Terminal DESCNDLON BE 34 44 2 lee ere LR E 35 44 3 LOGIC Order e 37 4 4 4 Re leveling Door Zone Sensor and Its Installation ssususs 38 4 4 5 Parameter Setting susiiusec oett asi uv pest edet eter Pv aea dierent Odi aue olet eee ee 38 4 5 Encoder Interface Cards eec rbv ete ose sene Koc er a verbs ex Dr Sete rt Me tU dea 40 4 5 1 Encoder Interface Card Gelecton 40 4 5 2 ABZ Incremental Encoder Interface Card MT70 PG1 ABZ 41 4 5 3 SINCOS Encoder Interface Card MI cO bOGo GINCGOS 43 4 5 4 UVW Encoder Interface Card MT70 PGS3 UVW seeeeeeeeenreeenenne 45 Chapter 5 Installation and Wirlng oer EENS 47 5 T46stallalon PIecqutloliS sisse a LOOKS mS T d oe ob eod een 48 5 2 Requirement for the Installation Site eeeeeseseeeeeeeeeeeeeeee nennen nnne 48 5 3 WINO Ge le 49 5 4 Selection of Main Circuit Peripheral UDevices A 50 5 5 Power Terminal and WV ING EE 50 5 5 1 Power Terminal DeSCEHDIIO eege EEN 51 ee TOMNA VW IMAG iaria an E a A aAA 52 5 6 Braking Resistor le DEE 53 5 7 M
243. up and down terminal limit switch and the buffer reset switch are jump out in the slow speed run so you must pay particular attention to it Suggestion The emergency electrical running time and distance of the machine room are not too long but do not run the car to the end terminal position 2 When the shaft self learning is over and change F00 10 elevator running direction the shaft self learning is needed to be restarted Car top inspection operation It can not run car top inspection until fully verify the machine room inspection run properly First run slower inspection speed can be set and other corresponding parameters are set as following table Parameter Name Recommended value Remark F03 06 Inspection Acc speed Based on the actual setting L F04 00 Inspection run speed Based on the actual setting i L L i F26 12 Inspection parameter setting i Based on the actual setting 1 First turn the car top automatic and inspection switch to inspection position therefore to confirm that up and down buttons in machine room control cabinet are invalid 2 Jog press the up and down buttons of car top to confirm the button direction and the car running direction are consistent 3 Operating the elevator up and down on car top for commissioning a back and forth carefully observe the car around during commissioning process and confirm that no obstacle hinders the car running throughout the shaft 4 Through
244. ure Emergency Running Program During the elevator running process if the system s power suddenly broke passengers may be trapped in the car For this situation MONT71 designed a power failure emergency running program which is easy and convenient to fulfill MONT71 power failure emergency running program are separated into two modes according to the power source of the traction machine They are auto running car and emergency power supply run Descriptions of two power failure emergency running programs Auto running car After the MONT71 receives a power failure rescue signal you should jump out the U V W s wire of synchronous motor via star delta contactor use the prevent force limits the car s running by synchronous motor jumps out stator coil and then open the brake That is a rescue way s which the car is running slowly to get to the leveling position During this process you should monitor the elevator s speed when detect the leveling signal it will keep opening the door output buzzer and stop running Emergency power supply run Both the main circuit and work power of MONT71 have adopted the emergency power supply for power failure emergency run After MONT71 chooses the way of power failure rescue it would run at emergency speed the direction is the same to run direction of elevator light load run When detecting signal it will open the door and stop running Difference of two power failure emergency running programs It c
245. wer up MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 7 Panel Introduction 7 1 3 Fault Display Interface When MONT71 fault occurs the panel will automatically alternate display fault display interface shown as Figure 7 4 E0038 E0038 Up forced Dec switch disconnection Up forced Dec switch disconnection Press lt Q key to enter the fault cause Press PRG key to exit fault display Press gt key to enter countermeasure Press STOP key to reset the fault Figure 7 4 Display interface at fault Display the fault countermeasures or the fault causes as Figure 7 5 this time press PRG to return to fault display interface 1 Up forced Dec switch disconnection 1 Check the up forced Dec switch 2 Elevator floor error 2 Restart shaft self learning 3 Check the leveling switch signal Figure 7 5 Display the fault countermeasures and reasons MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 7 Panel Introduction 7 1 4 State Display Interface The state display interface is shown as Figure 7 6 refer to Table 7 2 for details Elevator running mode Elevator running times Present floor and direction Locked elevator state Single elevator running gel 1 1 0 0 Om s OD arrival State parameter and unit Over full load state Door machine state Up down leveling signal Figure 7 6 State display interface Table 7 2 Specific content of state display interface
246. wire and shield layer should connect to PE near controller In order to avoid being disturbed only one terminal connects to ground 3 Encoder interface card wire should be pulled on pipe separately and metal crust should be connected to ground reliably MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction 4 5 2 ABZ Incremental Encoder Interface Card MT70 PG1 ABZ ABZ incremental encoder interface card is shown as Figure 4 14 ABZ incremental encoder SECH MT70 PG1 ABZ Figure 4 14 ABZ incremental encoder interface card Terminal description 4 Table 4 8 Connection terminal function description Description Description 12V power supply output Z Z Z Z signals of encoder Power ground isolated from Output A signal the output type is OC GND OUTA output B signal th type is OC A A A A signals of encoder OUTB an EE L i L B B signals of encoder COM Output ground isolated from GND Encoder interface card connection The wiring diagram of the differential output of the encoder is shown as Figure 4 15 ABZ incremental encoder card MT70 PG1 ABZ Differential output encoder Interface circuit the same as A Interface circuit the same as A Figure 4 15 Connection of differential output encoder MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 4 Control System Introduction The wiring dia
247. wn limit switch contact is normal or not 2 Check the down limit switch signal characteristics normally open or normally closed 3 Down limit switch installed high normal run to the bottom will be action 4 Check encoder wiring and installation 1 Check whether up down forced Dec switches are normal 2 up down forced Dec signal characteristics normally open or normally closed 3 F26 12 inspection parameter setting of Bit4 is set as 1 User Manual V1 0 21 222 Chapter 10 Troubleshooting Small panel Fault name Fault cause Countermeasure display i 1 Elevator actual speed is larger than re leveling speed Re leveling 10 050m s 2 Check the leveling signal abnormal NP 3 Check the advanced open door 2 Re levelling position is not bleak oc in the leveling area i 1 Check the encoder signal 1 Check lock door contactor feedback signal characteristics normally open or normally closed Lock door 2 Check lock door contactor action Lock door contactor feedback contactor is normal or not signal abnormal adhesion 3 Check lock door contactor feedback signal 4 Check the advanced open door block 1 Check the door machine system OD continuous non arrival i OD fault TH F209 i 2 Check the OD arrival signal is normal or not i 1 Check the door machine system i i CD continuous non arrival i 2 Check the CD arrival signal is CD fault Ke i i i times are over
248. y Maximum current Control mode Operation command control mode i Speed control accuracy Speed control range eoueuloJegd Torque control response i Start torque Carrier frequency Maximum floor Maximum run speed 29IISU 9 98J8U Communication mode Parameter upload and download function Motor auto tuning L L Distance control Start weighing compensation Acc Dec curve Shaft self learning Re leveling uonoejold oiseg Fault protection State display Specification Single three phase 200 240V 50 60Hz frequency Three phase 380 460V 50 60Hz Voltage fluctuation within 1096 imbalance rate 396 Frequency 596 0 Input voltage 0 100 00Hz 150 rated output current for 2 minutes 180 rated output current for 10 seconds Closed loop vector control VC Panel control terminal distance control 0 05 1 1000 lt 50ms i 200 rated torque OHz 1 16k Carrier frequency can be adjusted automatically in accordance with the load characteristic 10 floors Built in parallel communication Optional serial communication Can achieve parameter upload or download Static auto tuning free off load Distance control with direct stop Support many weighing compensations Can set Acc Dec curve parameter and auto select optimal speed in accordance with floor distance Using 32 bit data can record the shaft
249. y bit is set as 1 The front door of corresponding floor can normally open and close Any bit is set as 0 Disable the front door of corresponding floor to open door Note 1 The settings of F22 01 should not conflict with the settings of F21 03 the user must ensure that the elevator door machine service floor F21 03 is the system service floor 2 The LCD panel will automatically display the significance of each binary number which only needs to be set and therefore it need not convert all binary numbers into decimal numbers F22 02 Back door service floor 0 1023 1023 Define the back door service floor Refer to parameters F22 01 for details Note 1 The back door service will be valid when F22 00 2 2 The LCD panel will automatically display the significance of each binary number which only needs to be set and therefore it need not convert all binary numbers into decimal numbers F22 03 OD time protection i 5 99 10s F22 04 CD time protection 5 99 15s F22 05 Limited times of OD CD overtime 0 20 0 Outputting OD CD command and after the setting time of F22 03 OD F22 04 CD the system does not receive the OD CD arrival feedback signal yet the elevator will immediately turn to close open the door which is the switching gate one time e When OD CD number of times is consistent with the setting of F22 05 it will alarm E0048 fault OD fault E0049 fault CD fault e When F22 05 0 no O
250. y to the maximum on condition that the system does not vibrate and then the KI should be adjusted to shorten the response time without overshoot 0 0 200 0 motor rated ASR integral limitation EMI current 180 0 Define the maximum integral value of the vector control ASR integral Its setting is relative to the percentage of the motor rated current ASR differential time 0 000 1 000 0 0005 Define the vector control ASR differential time No need to set normally When it is necessary to accelerate the dynamic response it may be set appropriately e There isn t speed loop differential when F08 07 0 F08 08 ASR output filter time 0 000 1 000 0 008s Filter the output of ASR speed loop regulator e When F08 08 0 the speed loop filter is disabled 0 0 200 0 motor rated current 180 0926 Torque limitation F08 09 is used to set the torque upper limitation Its setting is relative to the percentage of the motor rated current e f the torque is too small the run speed may deviate from the setting value Note Users generally do not need to modify F08 06 F08 09 MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 139 Function Introduction 8 2 10 Group F09 Vector Control Current loop Parameters Current loop KP 1 4000 500 Current loop KI 1 4000 500 Define the PI regulator parameter of current loop ACR e F09 00 and F09 01 directly impact the s
251. ysical floor when the elevator enters the fire back base station of running mode Locked elevator base station 1 F19 00 1 Entering the locked elevator mode the elevator will return to the physical floor after responds the manipulator command F21 03 Service floor 0 1023 1023 Define the floor that the elevator can serve BitO is corresponding to the physical first floor and Bit10 is corresponding to the tenth floor Any bit is set as 1 The corresponding floor is the service floor and allowing to park Any bit is set as 0 The corresponding floor is the non service floor and not allowing to park This floor cannot register the calling elevator command Note The LCD panel will automatically display the significance of each binary number which only needs to be set and therefore it need not convert all binary numbers into decimal numbers MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 8 Function Introduction 166 8 2 23 Group F22 Door Machine Parameters F22 00 Door machine number 1 2 1 Define the door machine number Please set this parameter in accordance with the actual door machine number used by the elevator e When the elevator only has one door the door will default as the front door When the elevator has two doors the doors will be divided into front door and back door F22 01 i Front door service floor 0 1023 1023 Define the physical floor of front door service An
252. ystem dynamic response speed and control accuracy and the appropriate adjustment may be required on different occasions e The synchronous motor may have obvious effect to the comfort by adjusting F09 00 and F09 01 and the jitter in elevator operation can be suppressed by adjusting appropriately Current loop output filter time 0 000 1 000 0 000s When set F09 02 as 0 the current loop output has no filter And users generally do not need to change Manufacturer debugging parameter F09 03 F 07 DERE Rien d prohibit to change 8 2 11 Group F10 Synchronous Motor Parameters F10 00 Synchronous motor type 0 1 0 0 IPM 1 SMPM 0 4 400 0kW Synchronous motor rated power d Depend on model 0 0 999 9A Depend on model Please set F10 01 F10 09 in accordance with parameters of motor nameplate i Synchronous motor of angle auto tuning i 0 No action 1 Static angle auto tuning 2 Rotation angle auto tuning e See the section 9 1 3 Motor Parameter Auto tuning page 186 for the auto tuning MONT71 Series Elevator Integrated Controller User Manual V1 0 140 Chapter 8 Function Introduction Synchronous motor l l 0 0 100 0 F10 02 100 096 static auto tuning voltage setting If the overcurrent fault is alarmed at synchronous motor static auto tuning it may reduce the setting value appropriately Li Synchronous motor initial angle 1 Synchronous motor of Z pulse initial
253. zard Warning A Warning contains information which is essential for avoiding a risk of damage to product or other equipments gt Warning Note A Note contains information which helps to ensure correct EE operation of the product 2 2 About Motor and Load Motors overload protecting threshold When choose the adaptive motor the controller can effectively implement the motor thermal protection Otherwise it must adjust the motor protection parameters or other protection measures to ensure that the motor is at a safe and reliable operation Lubrication of mechanical devices At long time low speed operation it should provide periodical lubrication maintenance for the mechanical devices such as gear box and geared motor etc to make sure the drive results meet the site need Check the insulation of the motor For the first time using of the motor or after long time storage it need check the insulation of the motor to avoid damage the controller because of the worse insulation motor Note Please use a 500V Mega Ohm Meter to test and its insulation resistance must be higher than 5Mohm MONT71 Series Elevator Integrated Controller User Manual V1 0 Chapter 2 13 Safety Information and Precautions 2 3 About Safety No capacitor or varistor on the output side Since MONT71 output is PWM wave it is strictly forbidden to connect capacitor for improving the power factor or varistor for lightning protection to the output t
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