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1. C Descriptions of functions of ADJ ADJ Functions Factory setting Remark _ Low voltage 220V 6 0 V Refer to Boost voltage 0 1 12757 High voltage 440V 120 p 60 1 Primary 0 5 5 5sec acceleration 0 0 165 0 sec 7 5 30HP 15 0 sec pu DJ2 time above 40HP 30 sec j Primary 0 5 5HP 5 sec deceleration 0 0 165 0 7 5 30HP 15 0 sec EN DJ3 time above 40HP 30 sec 1 Refer t Speed level 110 0 120 0 Hz 10 0 Hz nnl ADJ4 60 output Refer to frequency 0 0 60 0Hz 60 0 Hz p 1 Secondary 0 5 5 5 deceleration 0 0 165 0 7 5 30HP 15 0 sec pas DJ6 time above 40HP 30 sec CHAPTER 5 LIST OF FUNCTION CODE SETTINGS Range of Resolu page Function Name Descriptions setting tion setting reference 000 Version of Display the version of software 5102 29 Start command Direction command 0 FWD and REV terminal Selections of DU 1 FWD terminal REV terminal 0 3 3 29 command 2 Start signal is FWD and REV terminals generated by keypad rano REV terminals 0 Indicate that the frequency is set by terminals DD2 Select Source 1 Indicate that RPM is set by ke2. VFF pattern 20v Output frequency Base frequency 40 Base frequency F 033 B F 831 Max output frequency with range 0 1 400 0 Hz C F 0302 Start frequency with range 0 1 10 0 Hz D F 032 Boost voltage 0 1 50 0 V for low voltage and 0 1 100 0 V for high voltage 34 Base frequency with range 0 1 400 0 Hz F 035 Base voltage 0 1 255 0 V for low voltage and 0 1 510 0 V for high voltage F 235 frequency range 0 0 400 0 Hz at the changing point 1 231 Voltage range 0 1 255 0 V for low voltage and 0 1 510 0 V for high voltage at the changing point 1 I 838 frequency range 0 0 400 0 Hz at the changing point 2 J F 838 Voltage range 0 1 255 0 V for low voltage and 0 1 510 0 V for high voltage at the changing point 2 DESCRIPTIONS OF FUNCTION CODE SETTINGS The relationship among the settings of F 031 039 is shown in the following figure V F pattern Voltage Base voltage 035 Frequency at the ie changing point 1 changing point 1 Voltage at the F 037 changing point 2 039 Boostvolt ge 099 Output F 033 i E033 Base frequency frequency Start frequency Frequency at the E039 F 032 changing point 2 F 038 Max Output frequency F 031 Note 1 Base voltage start voltage and the voltages at the changing point 1 and 2 2 Base frequency gt frequency at changing
3. of speed to KEYPAD KEYPAD 1401 RPM gt __ Flashing LED denotes that the function of o key is valid Store the new setting of speed in of inverter a In the monitor mode and on keypad are used to increase and decrease speed respectively b After speed setting the LED of keypad is flashing with the value of setting press within 5 minutes to store speed setting OPERATIONS OF KEYPADS F Only in the monitor mode the frequency output can be controlled by Main display Main display output frequency output frequency B KEYPAD VR KEYPAD 5 e 195 ES o oe 8 1 The frequency is Press this key to stop outputted when this frequency output key is pressed G Copy and resume factory settings a The function of copy is defined to store settings in digital keypad KP 201 or write settings from digital keypad to inverter 1 Store settings in digital keypad To disconnect digital keypad and press A until that digital keypad is connected t inverter the LED of keypad will display EE to indicate that the setting is storing in digital keypad KP 201 2 Write setting from digital keypad to inverter To disconnect digital keypad and press until that digital keypad is connected to inverter the LED of keypa
4. 1 000 2 000 3 000 4 000 INSTALLATIONS AND CONFIRMATIONS c Precautions AN DANGER If the inverter is powered the wiring is inhibited R S and T terminals connected to power source are power input terminals of inverter U V and W terminals connected to motor are power output terminals of inverter The care that P N PI and PR terminals can not be connected to either power source or motor must be made After turn off power source please don t touch the inverter and change the wiring when indicator is light The terminals of main power circuit and control circuit can not be connected to PE terminal After wiring is completed please put on the inverter cover for avoiding the other people s touch For 200 V series 346 380 440 460 V power source can not be used In the restart after instantaneous power interruption running is resumed and the people around motor and machinery should be controlled for avoiding danger and damage The wiring of main circuit and control circuit should be separated for avoiding interference Only experienced people can perform installation wiring operation and trouble shooting 10 The RMS series are not designed against explosion and then should be kept away from gas oil and explosion etc CAUTION 1 The RMS series should be kept away from corrosive gas oil dust high temperature elevated humidity and explosion etc 2 If inverter is installed in a protec
5. Restart after instantaneous power interruption If the power source is shutdown during running the functions of recording the speed of motor before power interruption and resuming that after restart are provided Levels for speed setting There are 5 independent acceleration time settings Therefore the maximum and minimum acceleration times are 0 015 sec and 192000 sec about 22 days respectively excluding free running 6 digits display There are 8 status of inverter can be displayed frequency speed voltage current etc Noncontact charge circuit for 7 5 30 HP Prevent inverter from dust and the effect of life of machinery Programmable inputs and outputs There are 13 functions programmed by using input terminals X1 X6 and 12 functions programmed via output terminals Y1 and Y2 open collector and Ta and Tb relay output e Store and copy settings The settings can be stored in KP 201 and used for the other inverter by means of plugging KP 201 in inverter If the KP 201 containing stored settings is plugged in the other inverter the copy of the stored settings to the other inverter can be performed and the inverters have the same settings This function is useful in the case of several inverters with the same data settings Connect to the external indicator for displaying the status of inverter There are 3 external indicators 96cm x 48cm 5 digits can be used simultaneous
6. 000 117 to be set and the setting diagram is shown in the figure below Enter function code setting mode KEYPAD F UU0 00172 KEYPAD KEYPAD Hz v a The last function code setting D In the data setting mode the range of setting 15 defined in function code and the setting diagram 15 shown in the figure below KEYPAD PUGS Back to function FuN Fun Enter parameter code mx setting mode setting mode KEYPAD d le 400 2 O v 9 9 o Hz The max setting The range of data setting of F 009 is 0 0 400 0 Hz OPERATIONS OF KEYPADS E In the monitor mode the frequency command speed RPM and line velocity MPM can be changed For example the setting diagram of changing speed is shown in the figure below Store the new setting of speed in EEPROM of inverter Flashing LED denotes Change the setting that the function of 4 26 Speed RPM speed to 2400 RPM key is valid KEYPAD KEYPAD KEYPAD 5 1800 eb 1803 5 2900 Hz v Hz Change the setting
7. 1 T S Indicator of the If LED is light speed is status of terminals command by keypad 2 Indicator of unit 2 If LED is not light speed is command by terminals 1 Constant speed LED is light 2 Acc dec LED flashes Enter function code setting mode 2 Back to monitor mode Inverter begins to output frequency Increase or decrease setting Enter parameter setting mode 1 Inverter stops frequency output 2 Back to monitor mode 2 Reset 2 Analog keypad KP 202 1 If LED is light speed is The LED will be light if the command by keypad corresponding ADJ has been 2 If LED is not light speed chosen by RSW is command by terminals 1 Constant speed LED is light 2 Acc dec LED flashes Inverter begins to output Frequency setting frequency 1 Inverter stops frequency CHAPTER 4 OPERATIONS OF KEYPADS 1 Setting of digital keypad A Digital keypad has three modes and displays for exceptional conditions The switching among these 15 shown the setting diagram below Monitor mode Function code setting mode Parameter setting mode PROG KEYPAD KEYPAD KEYPAD FUN PROG DATA PROG dus a DATA B 55 RESET STOP KEYPAD Hz Error message OPERATIONS OF KE
8. 0 0 36 2 0 0 510 0 Frequency Proportional gain between analog frequency FU U command gain command and output frequency 0 00 2 00 0 01 1 00 38 TROTI Paor pies Gain of analog bias frequency 1 00 1 00 0 01 0 0 38 Ratio of upper The upper bound of output voltage is defined as of output the percentage of the maximum output frequency40 00 1 00 0 01 1 00 39 frequency 1 00 denotes the maximum frequency Ratio of lower The lower bound of output voltage is defined as 43 bound percentage of the maximum output frequency 0 00 1 00 0 01 0 00 39 frequency 1 00 denotes the minimum frequency Selection of 0 analog signal indicates output frequency 044 analog output 1 analog signal indicates frequency setting 0 2 0 40 signal 2 analog signal indicates output current Analog output Gain max output frequency output frequency F 045 gain or Gain 7 rated current of inverter output current 0 01 2 00 0 01 1 00 40 0 no overload protection for motor 44 i x 1 overload protection for motor pui Relay 0 standard rated time protection for motor da 0 41 selection 1 short rated time protection for motor 10 120 According F_048 Rated current According to the spec of motor by the inverter 1 I 41 of motor rated current Of motor No load current 0 motor 1 3 motor F 0 9 According to the spec of motor ORTA 4
9. 4 20mA X Built in brake transistor INSTALLATIONS AND CONFIRMATIONS b Wiring diagram for 7 5 75 HP DC Reacter When the DC reactor is used Terminals of main circuit disconnect this jumper O Terminals of control circuit Induction motor R 34 power sourse 5 Grounding Forward 3 R verge enel Analog signal Multi function input output terminal 1 DC 0 10V Multi function input 3 terminal 2 e o MN Multi function Multi function input 2 T output terminals termina Multi function input relay output com 5 AC 250V 0 5A ulti function input terminal 6 j COS 8 0 3 Multi function output terminals P Y2 open collector b DC 48V 50mA frequency command in voltage DC 0 10V frequency command in current DC 4 20mA X In case 7 5 30HP as build in brake resistor the mark of P1 will change to PR X For the up to 400V 40HP KW there are small terminals 0 380 415 440 460 on the right side of RST UVW which are connected to the wire of cooling fan and contactor Be sure connect to the correct required voltage Ex when power is 380V then must be connect 0 and 380V In case the power change to 460V please connect to 0 and 460V INSTALLATIONS AND CONFIRMATIONS B Descriptions of terminals a Terminals of main circuit Terminals
10. REV are either open or closed simultaneously to stop running Forward running FWD Reverse running REV COM DESCRIPTIONS OF FUNCTION CODE SETTINGS d F 061 23 Start signal is generated by keypad FWD and REV terminals useless and the running 15 in the positive direction Note that for 001 0 2 if FWD COM and REV COM are open simultaneously the frequency display in the monitor mode will display flashed and if FWD COM and REV COM are closed simultaneously the frequency display in the monitor mode will display flashed C F 02002 Select source of speed setting 002 0 Indicate that the analog terminals Vin or set the speed 1 range of Vin GND 0 10 V 2 range of Iin GND 4 20 mA Note that the gain and bias of analog signals are the same as those set in F 040 and F 041 b F 882 1 Indicate that the speed 1s set by keypad 1 For KP 201 main speed and the multiple level speeds can be set besides the frequency can be set in the monitor mode 2 For KP 202 using knob on the panel sets speed F 002 2 RPM set by keypad d F 0028 3 MPM set by keypad D F 003 Selection of validity of STOP on keypad a F 003 0 Indicate terminals generate start signal and STOP on keypad is invalid b F 803 1 Indicate terminals generate start signal and STOP on keypad is valid E F 204 Select function of changing frequency for KP 201 004 0 Indicate that KP 201 1
11. SZ A084 2 09 05 oez ooz ZHOQ OS ADEZ 007 PE PL ZH A eounos amod 7 2 ZHOOY 00 jndijno jo NOEZ 002 1ndino Sov ave 962 ozz 921 Sv 06 v2 09 9 52 2 8 porey 091 ve 29 ss ve ee 82 22 6 9 bnaynosnonunuoo OLLI 106 621 S 00 95 9 9 09 25709 0 0 0 9 8 92 91 0 S 2 01 196 6 7 LES 920 v0 S 0 1 Jo 091 9212 001 9202 0902 0908 OvOc 080 9202 0202 SLOC OLOZ 2002 9002 2002 2002 002 ooz seues Seues A00Z SWY INSPECTIONS AT PURCHASE Common specifications C uu T sor DC 0 10V 20K Q 4 20mA 250Q Overload current 150 rated current for 1 minute 5 acceleration Zero sec for free running 0 1 3200 seconds for each setting deceleration times About 20 For the inverter rated power less than 10 hp the braking Braking torque transistor is included and braking torque can be about 100 Control characteristics Voltage Frequency pattern The pattern can be set arbitrarily Stall prevention The current of stall prevention can be set arbitrarily Control of d
12. amp RHYMEBUS INVERTER AC MOTOR CONTROLLER 5 series FOREWORD Thank you for choosing the RHYMEBUS RMS Series high function inverter This instruction manual gives information on installation wiring parameter unit operation etc as well as maintenance and inspection procedures However it is essential to read this manual carefully to use the equipment safely correctly and to it s full capability Please forward this manual to the end user SAFETY PRECAUTIONS Please read this manual thoroughly prior to installation wiring operation maintenance and trouble shooting Also any statement and symbol denoted by DANGER or CAUTION should be read carefully AN DANGER Indicate dangerous cases that accompany the possibility of death or serious injury caused by erroneous handling not in accordance with manual N CAUTION Indicates dangerous cases that accompany the possibility of medium or light injury or material damage caused by erroneous handling not in accordance with manual Note that although A CAUTION indicates medium or light injury or material damage can be caused there is possibility of serious injury Note that installation wiring operation and trouble shooting can be performed only by experienced peoples who know the principles constructions properties and operational procedures of inverter can prevent damages and read this manual completely INTRODUCTIONS Features S
13. analog command input gain of frequency
14. point 2 gt frequency at changing point 1 gt start frequency 3 If frequency at changing point 2 15 less than that at changing point 1 frequency at changing point 2 is useless 4 If frequencies at changing point 1 and 2 are less than start freq frequencies at changing point 1 and 2 are useless DESCRIPTIONS OF FUNCTION CODE SETTINGS 5 Analog input commands 090 Frequency command gain with range 0 00 2 00 a Analog input terminals are Vin GND 0 10 V and Iin GND 4 20 mA b The maximum frequency setting max output freq F 031 freq command gain 040 For example gain of analog bias frequency 0 Max output freq 60 0 Hz Max output freq 60 0 Hz Frequency command gain 1 20 Frequency command gain 0 80 Output Output voltage voltage 72 0Hz m Ed 60 0Hz 10V 20mA L0V 20mA 0Hz Hz 0V 4mA Analog OV 4mA Analog command command B F 041 Gain of analog bias frequency with range 1 00 1 00 a Bias freq max output freq 031 gain of bias freq 041 For example frequency command gain 1 0 gt 8 3V 17 3mA Max output freq 60 0 Hz Max output freq 60 0 Hz Gain of analog bias frequency 70 05 Gain of analog bias frequency 0 05 Output Output voltage voltage 60 0Hz 77 77 7777 60 0Hz Analog 3 0Hz command O0V 4mA 10V 20mA 5085 70 5 4 8 10V 20mA 0V 4mA b frequency setting Max Frequency setting bias frequency 10V 20mA X
15. same symbols or characters Please wire the system according to the labels of terminals INSTALLATIONS AND CONFIRMATIONS c Terminals of control circuit Terminals Symbols Name Descriptions FWD COM is short circuit for forward FWD Forward operation operation REV COM is short circuit for reverse REV Reverse operation operation x1 peli Function is determined by F 052 x2 Function is determined by F 053 x3 BALA Function is determined by F 054 Dea 4 Function is determined by F 055 X5 Disp d nba Function is determined by F 056 X6 Function is determined by F 057 COM of input Common of input terminal signals 5 Voltage t ff E Vin command Analog voltage 0 10 V o Current type of frequency 5 lin command input DC current 4 20mA 412V Reference voltage 12v reference voltage with maximum E Power of control signals current 20mA source SND SOE of control Ground of control signals DC 0 10 V outputs to voltage type meter FM Analog output such as frequency meter or current meter FM terminals For 0 5 5 HP FM and GND are used to output voltage The function of contact a normally open is Ta determined by F_60 The capacity of Multiple function contact is 250VAC 0 5A and cos 0 3 i The function of contact a normally Output Tb close is determined by _60 The capacity ee relay
16. 1 LIST OF FUNCTION CODE SETTINGS Function Name Descriptions Ed of Slip compensa According to the load condition slip is 9 9 5 0 050 tion compensated for constant speed Hz 0 1Hz 0 0 951 Nowpolesioy Setting of poles of motor for conversion of 2 10 2P 4P motor Seu Input terminal 0 STOP command with 3 line sustaining circuit F U5 X41 set ing X5 contact a X6 contact b 3 1 jog command 053 Input terminal 2 switching between the secondary 4 X2 setting acceleration and deceleration 3 multiple speed level 1 command F 054 Input terminal multiple speed level 2 command 2 1 X3 setting multiple speed level 3 command 3 42 442 42 Input terminal Reset command F U55 set ing External exception command 2 hibition command for output F D55 Input terminal 9 stop in free running 7 X5 setting 3 10 speed search from the maximum frequency 5 11 speed search from the setfrequency F 057 Input terminal 12 inhibition command for acceleration and 6 X6 setting deceleration Output terminal 1 running detection 10 detection of 058 Y1 setting 32 constant speed detection restart after 1 3 zero speed detection exceptional F 059 Output terminal 14 frequency detection conditions Y2 setting 5 overload detection 11 dete
17. 1 2 0 00 32 F_ 14 Speed level 5 OFF ON OFF ON 0 00 400 00 0 01Hz 0 00 32 _0 5 level 6 OFF ON ON OFF 10 00 400 000 01Hz 0 00 32 F_016 Speed level 7 OFF ON ON ON 0 00 400 00 0 01 2 0 00 32 0 speed ON xX X X 0 00 400 00 0 01Hz 6 00 32 _0 18 Base freq of accldec The frequency associated with acc dec time 0 01 400 00 0 01Hz 60 00 34 5618 Poma ion time he acceleration time of main speed speed level 4 7 and jog speed 009021000 0 15 020 ion time The deceleration time of main speed speed level 4 7 and jog speed OUERT 0 1s een Acceleration time of speed level 1 T0 00A 0 1s Ged me Deceleration time of speed level 1 0 15 NS F 023 level Acceleration time of speed level 2 Zor 0 15 Re 5 34 wies Ps Deceleration time of speed level 2 CO ooa 0 1s Wee E Acceleration time of speed level 3 0 0232000 0 15 025 ool Deceleration time of speed level 3 0 15 X means don t care The color as means which can be set during operation LIST OF FUNCTION CODE SETTINGS Function Name Descriptions range of is detail Secondary Multiple function input terminals control the 0 0 3200 0 F_Q2T acceleration situation of the determination of secondary Sec Oaks 150 34 t
18. 2 OFF ON ON Speed level 3 OFF OFF OFF Speed level 4 OFF OFF ON Speed level 5 OFF ON OFF Speed level 6 OFF ON ON ON Speed level 7 Note 1 denotes don t care 2 Jog speed has the highest priority 3 Jog speed and multiple speed levels are determined by the status ON or OFF of multiple function input terminals which are programmed by the settings of the multiple function inputs F 051 F 056 4 ON denotes that the contact a normally open is shortcircuit and contact b normally close is open OFF denotes that the contact a normally open is open and contact b normally close is shortcircuited DESCRIPTIONS OF FUNCTION CODE SETTINGS c Multiple speed level and the associated acc dec time Frequency Primary acceleration Acceleration time time of speed level 3 Primary deceleration time Acceleration time of speed level 2 Acceleration time of speed level 1 Primary acceleration time Multiple level command 1 Multiple level command 2 Multiple level command 3 Jog command Note 1 The acceleration deceleration times of jog speed and speed level 4 7 are the same as those of main speed 2 In stop if the jog speed command is generated motor will be running in jog speed without start command 3 Except main speed the analog inputs Vin and lin are useless for multiple speed levels 4 Acceleration and deceleration times are se
19. 5 in monitor mode and that the frequency setting can not be changed b F 807 1 Indicate that KP 201 15 in monitor mode and that the frequency setting can be changed F 205 Select function of storing frequency for KP 201 a F 005 0 Indicate that KP 201 is in monitor mode the main speed setting value can not be stored automatically b F 805 1 Indicate that KP 201 1s in monitor mode the main speed setting value can be stored automatically after 3 minutes later DESCRIPTIONS OF FUNCTION CODE SETTINGS 206 Select main display of KP 201 This function is designed for KP 201 In the monitor mode there are 8 displays as followings 1 Output frequency 5 Output current 2 Frequency setting 6 Motor speed RPM 3 Output voltage 7 Line velocity MPM 4 Voltage of PN 8 Status of terminals Note that any display can be set to be the main display and that 1f the keypad has not been operated and the auxiliary display has been displayed for about 3 minutes the main display is shown F 201 Speed constant The range of setting is 0 500 00 to set the value of MPM displayed on keypad Line velocity speed constant output frequency which is the value of MPM displayed in the monitor mode I 008 No decimal of speed display Increasing the no decimal to display the monitored signal more precisely The range of F 008 is 0 3 J F_ IIT Selections of resumption of factory setting This function 15 used to resume
20. DE SETTINGS factory setting 4 store settings 5 resume last settings 6 digital keypad KP 201 inverter parameters T digital keypad KP 201 inverter parameters The color as means which can be set during operation PA Function Name Descriptions Range of Resol rod ad of 0 Indicate that there is no overload protection i a overload protection 0 1 57 of inverter OLI 1 Indicate that there is overload protection 095 Voltage level of The range of setting is in accordance with power 190 240 220683 57 power source source 340 480V 380 Re4 095 Creeping The output frequency is accelerated to creeping o 0 400 0 0 1Hz 05 frequency setting frequency and then is in constant frequency Hz 55 091 Time duration The time interval for output frequency to be 0 0 25 5 015 00 of creep accelerated to creeping frequency sec li F 098 Nonextemal No external indicator connected to inverter 0 3 0 Re 10 55 i i 5 Lom 1 099 1 Selection of display of external indicator 1 0 8 Re 11 100 Selection of display of external indicator 2 0209 1 56 101 Selection of display of external indicator 3 F 102 Selection of energy 0 do not equip energy saving device 04 u 0 58 saving d
21. ER 4 OPERATIONS OF KEYPADS 1 Setting of digital keypad KP 201 15 2 Settings of analog keypad KP 202 6 20 CHAPTER 5 LIST OF FUNCTION CODE SETTINGS 23 CHAPTER 6 DESCRIPTIONS OF FUNCTION CODE SETTINGS 1 Settings of teypad ee benedi ideales 29 2 Multiple speed level settings tt 06 32 3 Acc dec time of multiple speed level 6e 34 4 V F pattern settings s 36 5 Analog input commands Hee 38 6 Upper and lower bound of output frequency 39 7 Analog Outputs e enne nene nnne 40 8 Settings for motor protection ee 41 9 Multiple function input terminals 42 10 Settings of multiple function outputs 6 66 45 11 Frequency detection ossis 49 49 13 Settings of overload detection eee 50 14 Settings of stall prevention ee 51 05 DO braking eere qot _______________ _ 52 16 Resumption after instantaneous power interruption e 53 17 Jump of frequency e 54 18 Speed tracking FR ad da eg VE PIG RA PUE Ry e TEES DO a ORT HU 55 19 Settings of creep merrunesesuuseseesusesessesesmsesesuseseessesssenssstseessns 55 20 External 56 21 M sce lane gre caeteros ru rates ecce aes 57 22 Settings of 202 analog keypad e ee 59 CHAPTER 7 OPERATIONALPROCEDURES MAINTENENCE AND TROUBLE SHOOTING 1 Operational procedure and operations 68 61 2 Fault maintenance and trouble shooting 62 APPENDIX A ce
22. Symbols Name Descriptions Power 3 phase power source for 1 220V use COUCE R S T Input AC voltage R and S only Inverter output 3 phase variable voltage and frequency Motor voltage i output motor 3 prake Connect the dynamic brake unit PR External braking P and PR terminals connect to an external land resistor braking resistor option braking P and P1 terminals are short circuit or connect to an external reactor for P1 External reactor improving power factor The factory setting is short circuit Less than 100 0 for the third grounding Grounding PE Grounding i b Main circuit 1 For 1 2 5 HP Grounding Grounding INSTALLATIONS AND CONFIRMATIONS 3 For 15 30 HP connect braking resistor Grounding Resistor correctly 2 For 40 75 hp the positions of terminals may be m different from those shown in the figure they are however labeled with the same symbols or characters Please wire the system according to the labels of terminals 4 For 7 5 10 HP connect dynamic braking unit Note 1 The polarities of P N terminals should be wired Grounding 01 j D B unit Grounding 1 The polarities of P and N terminals should be wired correctly 2 For 40 75 hp the positions of terminals may be different from those shown in the figure they are however labeled with the
23. YPADS B In the monitor mode there are 8 displays 1 main display and 7 auxiliary displays used to indicate the status of inverter The most left digit indicates the number of auxiliary display 2 8 and the most left digit is turned off for indicating main display Enter monitor mode Output frequency Frequency setting Output voltage KEYPAD EB KEYPAD KEYPAD GOO id 6808 3_ 2200 F z V m F A E E DATA DATA Status of terminals PN wvoltage KEYPAD KEYPAD 5 Monitor mode q J 100 S PF R E s DATA DATA v KEYPAD P KEYPAD KEYPAD 1 1200 1500 5 658 c e Hz v Hz Hz v Line velocity MPM Speed RPM Output current a Any display can be set to be the main display by F 006 b The function that the user defines own main display is convenient to choose the most important status of inverter as main display for certain applications If the keypad has not been operated and the auxiliary display has been displayed for about 3 minutes the main display 1s shown automatically for user to monitor the most important status of inverter OPERATIONS OF KEYPADS C In the function code setting mode there are 118 function codes
24. ction of 2 4 6 stall prevention detection exceptional T1911 5 Settings of 7 undervoltage detection conditions F_O6 amp 0 output terminals 8 detection of braking Ta and Tb 9 detection of restart after 11 instantaneous power interruption Frequency range 0 0 10 0 UB I for constant Frequency range for constant speed detection 01 2 2 0 49 speed detection Hz F_062 een Frequency detection range a 0 1Hz 2 0 49 Level of freq Level of frequency detection for multiple function 0 0 400 0 F 063 detection output terminal Y 0182 00 49 Gain of the 06 According to the load condition adjust output torque boost voltage of the certain V F pattern 0 0 3 0 0 1 10 49 Selection of 0 There is no output for overload detection 055 overload 0 1 0 50 detection OLO 1 There is output for overload detection Status of 0 There is output for the condition of constant 065 frequency only 0 1 0 50 detection OLO 1 There is output for any frequency 0 Inverter is still running after that overload has Output setting 0571 for overload been detected 0 1 0 50 OLO Output of inverter is inhibited after that overload has been detected Level of 30 200 D58 overload dr of level of current for overload bythemvete 1 160 50 setting OLO etection rated current Time interval The tim
25. d will display UU EE to indicate that the setting is writing from digital keypad KP 201 to inverter b Resume factory settings To disconnect digital keypad and press until that digital keypad is connected to inverter the LED of keypad will display ES to indicate that the factory settings have been resumed OPERATIONS OF KEYPADS 2 Settings of analog keypad KP 202 A Descriptions of functions of RSW RSW Functions Corresponding Range Factory setting it Output o o frequency 1 Low voltage 220V 6 0V Ups Boost voltage ABA 0 1 127 5V High voltage 440V 12 0V A B 0 5 5HP 5 0 sec A pie 0 0 165 0 sec 7 5 30HP 15 0 sec 5 ADIZ above 40HP 30 sec 0 5 5HP 5 0 sec conti 0 0 165 0 sec 7 5 30HP 15 0 sec SOSETAN ON above 40HP 30 sec i Speed level 1 3 0 0 120 0 Hz 10 0 Hz ADJ4 Max output NA 0 0 60 0Hz 60 0 Hz 0 5 5HP 5 0 sec 0 0 165 0 sec 7 5 30HP 15 0 sec time RADIO above 40HP 30 sec Frequency T setting x FREQ Indicate frequency setting Indicate output voltage Indicate DC voltage Indicate output current Indicate speed of motor xf site Indicate
26. dary acc and dec and the inhibition Output frequency command for acc and dec Max Output Secondary NEUE deceleration time frequency i d F 031 Primary Secondary deceleration acceleration T time time Primary i acceleration h Time time c E 3 F019 027 Switching between the secondary acc and dec Multiple function input terminals Inhibition command for acc and dec Multiple function input terminals d If the stop signal is generated the command of inhibiting acc dec 15 useless Note that there are 4 types of STOP signal described as followings 1 If F 001 0 or 2 FWD and REV are either open or closed simultaneously 2 If F 001 1 FWD is open 3 If 003 1 press STOP 4 If start command is generated by keypad press STOP e The acceleration deceleration times of S curve acceleration deceleration are set for smooth running for example to avoid the drop of object in transmission line or shock of elevator S curve acceleration decleration Output frequency Frequency setting DESCRIPTIONS OF FUNCTION CODE SETTINGS 4 V F pattern settings 030 Limitation of output voltage F 030 0 Output voltage is not limited b 630 1 Output voltage is limited and can not be greater than the voltage of V F pattern Output voltage 250 A 4
27. e factory settings of 60 Hz Selections of 5 the fact tti f50H EL resumption a resume the factory settings o z 31 LIST OF FUNCTION CODE SETTINGS Remark 1 Factory settings for 50 Hz 9 The dynamic braking transistor is 2 Factory settings for 60 Hz installed 3 Specifications of low voltage 10 The setting is zero to denote that there system is no external indicator 4 Specifications of high voltage 11 The setting is zero to denote that there system is no display 5 0 5 5 hp 5 sec 12 represents contact a normally 7 5 30 hp 15 sec open above 40 hp 30 sec represents contact b normally 6 It is useless if the setting is zero close 7 Display OLO 8 It will be recovered after the reset of inverter 6 DESCRIPTIONS OF FUNCTION CODE SETTINGS 1 Settings of keypad DUO Version of software This manual has to be incorporated with software version P5102A B 201 Select start and direction commands a F 001 0 1 FWD and REV control both start and direction commands 2 FWD and REV are either open or closed simultaneously to stop running Forward running FWD Reverse running REV COM b F 861 1 Start control by FWD terminal Rotation control by REV terminal Start Stop FWD Forward Reverse running running REY COM c 201 2 1 Keypad generates start command FWD REV generate direction command 2 FWD and
28. e interval in which the output current 140 0 F U5Sforoverload is greater than the setting of F 068 required 0 15 0 1 50 detection for overload detection Level of stall If stall is occurred at the constant speed running 30 200 ii 0 the speed is decreased y 1 170 51 070 prevention at the constant speed The color as means which can be set during operation LIST OF FUNCTION CODE SETTINGS regulation 1 Indicate that voltage is regulated automatically nen 7 INo page Function Name Descriptions ET g cw T wie Level of stall stall is occurred durin lerati is 30 200 acceleration motor is o 20075 Ie fair kept at constant speed pen 1 160 51 Acceleration 04 or recovery alter Setting of acceleration time of recovery after stall prevention at prevention at the constant speed 3200 0 0 1s 15 0 51 speed SEE Peceloration 01 ot recovery aller Setting of deceleration time of recovery after stall 5 FUB EHE UE prevention at the constant speed E 0 15 15 0 51 speed Select function of 0 there is no stall prevention during deceleration gu Stall prevention 0 1 1 51 dur
29. ess than 5 hp Brake type is therefore not indicated in the nameplate of the inverter with rated power less than 5 007 Rated power 7 5HP 2 Indicate 200V 220V 230V 4 Indicate 380V 415V 440V 460V 480V gt 5 RHYMEBUS series number D Confirmation of accessories Generally there is one user s manual If there are some accessories such as braking resistor etc are ordered please check inclusively E Please refer to the standard specifications and confirm to your requirements INSPECTIONS AT PURCHASE 2 Standard specifications AG Kouanbey ZH09 0S A90S AEZE PE EE 2 09 09 082 ZH A eounos ZH 007 L0 O ed 09 A eBeyo 1nd3no Gly ZZE poe 292 702 92 6 fo TZ Andino PERR 91 82 222 SOL tel Liv 67 indino enonuy pete A 0ZZ 00 002 052 091 007 IZE HS 0106 06 87 92100 99 92 19 09 2 0S O OY 22102 S BLSZ S 02 19 S 2 0 LS S S LES EZE S VIC 92 01 JOJOW 9U Jo eod 0 709 7 92 Y OO 7 8 207 0907 0807 OvO OEOT SCOY OCOT S LOT O LO 2007 9007 EOOT 200 007 ON seues 591195 AO0t SIAH uonenjoni jo i eounos 2 09 09 A
30. evice 1 equip energy saving device Decrease frequency m 13 of deceleration time f power source shutdown then the frequency E F_ 03 of shutdown power output frequency decrease frequency 0 0 20 00 1Hz 3 0 53 Source Deceleration time 1 of Deceleration time when output frequency larger 10 0 15 0 F_iQ4 power source for than switch frequency F_106 3200 0 9 15 Re 5 53 Deceleration time 2 oflDeceleration time when output frequency smaller 10 0 15 0 F a5 power source switch frequency F_106 3200 0 9 15 Re 5 53 Switch frequency offFrequency setting value of switch the F_ 106 Phaon Ce r deceleration time of speed level 2 0 0 400 00 1Hz 0 0 53 Selecting parameter of ADJ1 of KP 202 0 47 19 Selection of F 108 EET ApJ2 Selecting parameter of ADJ2 of KP 202 0 47 9 Selection of A 109 EE ApJa Selecting parameter of ADJ3 of KP 202 047 10 5 f 10 et Selecting parameter of ADJ4 of KP 202 y 1 ADJs Selecting parameter of ADJ5 of KP 202 0 47 20 tle Selection of Selecting parameter of ADJ6 of KP 202 0 46 17 parameter of ADJ6 9 12 113 pip4 Selecting parameter of DIP1 of KP 202 eqs 8 E 119 a DIP2 Selecting parameter of DIP2 of KP 202 0 15 5 E area a Selecting parameter of DIP3 of KP 202 115 DIP4 Selecting parameter of DIP4 of KP 202 0 15 1 0 useless 1 clear fault records 2 resume th
31. f reno pa rb be RUE NEUE Ua ix 63 2 Auxiliary control equipment ACE series 66 3 Dynamic brake and resistor 67 4 Selections of motor 68 5 Selections of AC reactor ACL e 69 APPENDIX B 1 Remote controllers e 70 2 Remote indicators 2000 scene eee 73 APPENDIX C DIMENSIONS OF OPENING OF KP 201 AND 202 74 APPENDIX D SETTINGS MEMO 75 APPENDIX E FAULT DISPLAY PGR ewe ek MER EHR SE Ae ep RADO ees PCS aE 78 CHAPTER 1 INSPECTIONS AT PURCHASE 1 Confirmation of product Although this product is under a rigorous quality control the damages may be made by impact and vibration etc during transportation Upon unpacking of the inverter at site please check the follows accordingly If there is any defect contact your local dealer at once A Confirmation of appearance Is there any damage filth or distortion to the appearance of inverter B Do the rated capacity and specification shown on nameplate confirm to your requirements INVERTER TYPE 5 2007 Model number SOURCE AC 200 230V 50 60 gt power source specifications OUTPUT 5 5KW 25A Output current amp capacity SERIAL 8021520 Serial number RHYMEBUS CORPORATION C Model number scheme 5 2 007 B B Brake type with internal braking transistor which is the standard for the inverter with rated powerl
32. ime acceleration time Secondary Multiple function input terminals control the 0 0 3200 0 _G28 deceleration situation of the determination of secondary 0 15 15 0 34 time deceleration time SEC Setting of Settin i TE 5 of acceleration deceleration time of T See time 9 curve acceleration deceleration 00 50 015 00 34 Limitation of 0 output voltage is not limited F_030 output 0 1 1 36 voltage 1 output voltage is limited 50 0 F_O31 Operational maximum output frequency 0 1 400 0 0 1Hz 36 2 0302 Start frequency Start frequency of inverter output frequency 0 1 10 0Hz 0 1Hz 0 5 36 Output voltage associated with output start 0 1 50 0V 6 0 Re 3 Boost voltage F_033 9 frequency 0 1 100V b 12 0 Re 4 36 E 034 The frequency associated with rated voltage 0 1 0 162 900 Re f 36 frequency VIF pattern 400 0 Hz 60 0 Re 2 0 1 255 0V 2200 035 Base voltage The rated voltage of all V F pattern 0 1V 3 36 0 1 510 0V ELD Frequency at the i F changing point doe at the changing point 1 of V F Em 0 192 0 0 36 Voltage at the 0 0 255 0V 031 changing point Voltage at the changing point 1 of V F pattern 0 1V 00 36 1 0 0 510 0V Frequency at the Frequency at the changing point 2 of V F 0 0 F 038 changing point pattern 400 0Hz 19 192 9 0 36 Voltage at the 038 changing point Voltage at the changing point 2 of V F pattern 092550 01V
33. ing dec 1 there is stall prevention during deceleration Current of DC 0 150 015 Setting of level of current for DC braking setting bythe inverte 1 50 52 braking rated current Time interval of In stop the required time interval for DC braking 0 0 20 0 F 015 pc braking in stop setting sec 0 18 05 52 Time interval of In start the required time interval for DC braking 0 0 20 0 F UTI pc braking in start setting sec 0 18 00 52 0 inverter can not be 2 shutdown Selection of restarted after instantaneous 3 Enable controlled 018 power interruption deceleration stop 0 3 0 resumption 1 inverter will be restarted after F_103 F 104 F 105 53 instantaneous power interruption F 106 Level of power 130 0 192 0V 175 0 Re 3 F 018 Ei Level of power source for shutdown 230 0 384 0 1 0 1 zon o Re 4 E 2080 Number of restart Number of restart for exceptional conditions 0 16 1 0 57 Note that the higher the setting is the lower the noise F is The carry frequency is inversely proportional tothe 1 6 4 57 9 do between and motor ndicate stop via deceleration B2 Types of stop 1 Indicate stop via free running 0 1 0 57 083 Inhibition of _ 0 Indicate that reversal rotation is allowed 0 1 E 0 57 reversal rotation 4 Indicate that reversal rotation is not allowed Jumping For avoiding the resonance of machinery the jump 0 0 400 0 freq
34. ions of motor are determined from the requirement of applications 2 Environment For correct and safety operation the operational environment of inverter should be cared and described as followings A Power source The power source should be agreed with the specifications of inverter B Location For the considerations of heat generated by the operating machine inverter has to be installed in the ventilative space The installations of inverter are shown as followings a The space of installation is good for power dissipation or not 10cm or more 5cm or more 5cm or more 10cm or more INSTALLATIONS AND CONFIRMATIONS b The cooling is needed if the inverter is installed in a protective case or distributor lt lt T Panel Control Box p fan Filter RM5 Inverter Control circuits Heat sink Sos M 1 1 1 1 wv c If the inverter is installed in a protective case or distributor suitable for 7 5 75 hp and the cooling system is on or outside protective case or distributor it should be mentioned that the hole for airflow is adequate or not dii Control circuits Filter d Specifications of the associated accessories Panel Control Box M RM5 Inve rter gt Ss M T 1 f 1 1 1 m Heat si
35. irection of rotation forward reverse rotation is controlled by using 3 line sustaining circuit Stop command by using the 3 line sustaining circuit jogging operation secondary acceleration deceleration time multiple level speed command 1 multiple level speed command 2 multiple level speed command 3 reset command for exceptional conditions command of inhibiting output inputs command of stop via free running command of frequency search from the max frequency command of frequency search from the set frequency acceleration deceleration inhibition command programmable contacts a and b Analog inputs Vin GND 0 10V lin GND 4 20mA Running constant speed zero speed frequency detection overload detection stall prevention undervoltage braking restart after instantaneous power interruption restart after trouble shooting exceptional outputs conditions programmable contacts a and b Multiple function Multiple function 2 2 c 2 Analog voltage DC 0 10 V with adjustable gain for representing output frequency frequency setting or output current Output frequency frequency settings output voltage DC voltage Displays of keypads output current motor speed line velocity of motor status of terminals There are 3 external indicators 96cm 48cm 5 digits can be used Displays of external em indicat simultaneously to indicate the freque
36. line velocity Indicate status of terminals EE E Indicate status of DIP OPERATIONS OF KEYPADS a The function code associated with VR can be changed b The status of terminals and DIP are shown as the figure below FWD REV X5 KEYPAD z iui i i a X6 DIP3 ON xA a rd DIP2 ON a Y2 DIP1 ON X2 ON states of DIP M x3 States of terminals KEYPAD DDDD sor Lu DIP3 OFF T P zi DIP2 OFF OFF OFF states of DIP B Descriptions of functions of DIP No m Switch DIP Functions Descriptions Remark Appr Carry ON Carry frequency is 2 5 kHz Refer to mug frequency OFF Don t change the Carry frequency P 59 3 amn Selections of ON Base frequency at 50Hz Refer to Base frequency OFF Don t change frequency 59 Selections of ON Frequency commands is generated by Refer to 3 E terminals 1221 frequency setting OFF Don t change the source of commands 59 Selections of ON Rotation and direction commands are Refer to 4 generated by terminals 721 rotation control OFF Don t change the source of commands P 59 OPERATIONS OF KEYPADS
37. ly to indicate the inverter status such as frequency speed voltage current and line velocity etc Therefore it is not needed to use the other instruments or sensors such as CT etc and the cost and wiring will be reduced e Energy saving Under the no load condition the less energy is outputted for the purpose of saving energy Parameter management system The management system is software which can display the descriptions and settings of parameters in Chinese or English The schematics diagram of management system is shown in the figure below Parameter management system of RM5 Parameter settings are stored in inverter Parameter settings are stored in digital keypad Parameter settings are stored in computer Parameter settings are printed out for filing Printer Converter RM5 series CONTENTS CHAPTER 1 INSPECTIONS AT PURCHASE 1 Confirmation rr aa UO NOR 1 2 Standard specifications e 2 CHAPTER 2 INSTALLATIONS AND CONFIRMATIONS i Basic S NES e 4 2 Environments ose caet es pet we tha dea 4 3 Descriptions of terminals and wiring diagram 6 CHAPTER 3 TYPES OF KEYPADS 1 Digital keypad 14 2 Analog keypad KP 202 eterne eren 14 CHAPT
38. ncy speed voltage current indicators and line velocity etc Overcurrent OC over voltage OE under voltage LE motor overload OL inverter overload OLI over heat OH ground fault current GF fuse open SC disconnection of KP 202 during running Diagnostics Disconnection of digital keypad 00 Err 01 EEPROM error Cooling Force cooling natural cooling for rated power of 1 2 and 1 Hp Analog outputs Displays Functions Protections Environment Non corrosive non conductive or non explosive gas or liquid and non dusty Temperature 10 C 14 F 50 C 122 F non freezing and non condensing Storage temperature 20 C 4 F 60 C 149 F Relative humidity 90 RH or less non condensing atmosphere Vibration Less than 5 9m sec2 0 6G Altitude Less than 1000m 3280 ft Ambient conditions CHAPTER 2 INSTALLATIONS AND CONFIRMATIONS 1 Basic setup The inverters have to be incorporated with some elementary devices for driving motor The essentially elementary devices of basic setup are A Power source The power source should be agreed with the specifications of Inverter Nofuse brake NFB The rating of NFB should be greater than the start current B Inverter This is main device of driving motor Referring to the lists of standard specifications of inverter inverter is chosen in accordance with the specifications of motor driven C Motor The specificat
39. nk lt I lt Ventilation hole The specifications of the associated accessories have to be in accordance with the specifications of inverter used Otherwise the inverter will be damaged and the lifetime of inverter will be decreased INSTALLATIONS AND CONFIRMATIONS e Cleaning of environment The ventilation cleanliness and moisture of the space in which the inverter is installed have to be considered f Operator Only experienced peoples can perform operation and trouble shooting 3 Descriptions of terminals and wiring diagram A Wiring diagram Note that the terminals represented by and are denoted for main and control circuits respectively a Wiring diagram for 0 5 5 HP O Terminals of main circuit Braking Resistor option Terminals of control circuit 3 power Induction motor sourse R connect to R S and S for single phase power sourse Forward d S RE Analog signal Multi function input output ulti function inpu terminal 1 DC 0 10V Multi function input terminal 2 Multi function input 3 Multi function terminal 3 a Mic input output terminals terminal relay output Multi function input terminal 5 AC 250V 0 5A Multi function input COS 0 0 3 terminal 6 Multi function output terminals o Y2 open collector DC 48V 50mA zai frequency command in voltage DC 0 10V frequency command in current DC
40. oftware NO P5102A Low noise High torque Automatic voltage regulation User friendly Restart after instantaneous power interruption 9 Jevels for speed setting 6 digits display Noncontact charge circuit for 7 5 30 HP Programmable inputs and outputs Store and copy settings by using KP 201 digital keypad Connect to the external indicators for displaying the status of inverter Energy saving Parameter management systems Low noise Using IGBT by which the maximum switching frequency of sinusoidal is 10kHz to 15kHz the motor is operated smoothly and efficiently with low noise 80 Current waveform at 10Hz Ordinary 70 Y 60 RM5 40 5 Ordinary 305 p X k inverter 0 500 1000 1500 1800 Motor speed rpm min High torque At low speed the torque compensation by which the compensated torque can be above 150 of rated torque is provided for smooth start in the case of heavy load Automatic voltage regulation AVR In spite of the fluctuation of power source output voltage of inverter can be kept at the desired level User friendly There are two types of operating keypad one for advanced applications and the other for usual use User can choose one of them to function inverter easily and properly Besides the connector between inverter and keypad is the same as that of telephone The remote control is then easily realized with maximum distance of 25 m
41. outputs of contact is 250VAC 0 5A and cos 0 3 Tc Common terminals of Ta and Tb Y1 Function is determined by Function is Multiple aes by Function is Y2 determined by 059 CME Common of terminals Y1 and Y2 INSTALLATIONS AND CONFIRMATIONS C The notes and specifications of wiring a The leakage current between ground and the wires that are connected between inverter and motor is not the same for different rated power The setting of carry frequency 55 is referred to the table below Distance spam 25m 50m 100m Above 100 m 12 5KHz 10KHz 7 5KHz 5KHz 2 5KHz or less or less or less or less or less 10KHz 7 5KHz 5KHz 2 5KHz 2 5KHz or less or less or less or less or less 7 5KHz 5KHz 2 5KHz 2 5KHz 2 5KHz or less or less or less or less or less 5KHz 2 5KHz 2 5KHz 2 5KHz 2 5KHz or less or less or less or less or less 2 5KHz 2 5KHz 2 5KHz 2 5KHz 2 5KHz or less or less or less or less or less Rated power 1 2 5HP 7 5 10HP 15 40 75 100 150HP Note That the carry frequency is set by 081 b If the inverter is used where the altitude 15 greater than 1000 m the relationship between current and altitude should be mentioned and referred to the figure shown below 100 90 of the rated current of MTM inverter pem Altituds m 60
42. t in F 018 029 DESCRIPTIONS OF FUNCTION CODE SETTINGS 3 Acc dec time of multiple speed level A F_ 8 Base frequency of acc dec with range 0 01 400 00 Hz B F 8 8 Primary acceleration time with range 0 0 3200 0 seconds C _020 Primary deceleration time with range 0 0 3200 0 seconds D F 021 Acceleration time of speed level 1 with range 0 0 3200 0 seconds E F 022 Deceleration time of speed level 1 with range 0 0 3200 0 seconds 023 Acceleration time of speed level 2 with range 0 0 3200 0 seconds 224 Deceleration time of speed level 2 with range 0 0 3200 0 seconds 225 Acceleration time of speed level 3 with range 0 0 3200 0 seconds I 225 Deceleration time of speed level 3 with range 0 0 3200 0 seconds J 021 Secondary acceleration time with range 0 0 3200 0 seconds F 228 Secondary deceleration time with range 0 0 3200 0 seconds L F Acc dec time of Scurve acceleration deceleration with range 0 0 5 0 seconds a Multiple acc dec times are the time duration in which output frequency is form 0 to base frequency 018 b The acceleration deceleration times of jog speed and speed level 4 7 are the same as those of main speed c Secondary acc dec times have the higher priority Multiple function input terminals can be programmed to enable secondary acc dec The timing chart is shown in figure below DESCRIPTIONS OF FUNCTION CODE SETTINGS Switching between the secon
43. the factory settings and store write settings between inverter and KP 201 0 Useless CLF Clear fault records dEF amp 0 Resume the factory settings of 60 Hz dEFSO Resume the factory settings of 50 Hz SAu Store settings rES Resume last settings rd EE Digital keypad KP 201 lt inverter parameters UUr EE Digital keypad KP 201 inverter parameters Note that the codes cd EE and UUr are functions of copy to be used for the case of several inverters with the same settings DESCRIPTIONS OF FUNCTION CODE SETTINGS 2 Multiple speed level settings 009 Main speed with range 0 00 400 00 Hz B F 010 Speed level 1 with range 0 00 400 00 Hz 211 Speed level 2 with range 0 00 400 00 Hz F Ul Speed level 3 with range 0 00 400 00 Hz F 013 Speed level 4 with range 0 00 400 00 Hz 014 Speed level 5 with range 0 00 400 00 Hz 015 Speed level 6 with range 0 00 400 00 Hz 6 Speed level 7 with range 0 00 400 00 Hz _ U T1 Jog speed with range 0 00 400 00 Hz a The corresponding function codes 1 Acceleration and deceleration time for multiple speed level F 018 019 2 Multiple function input terminal settings F 052 057 b Production of multiple speed level Jog Multiple level Multiple level Multiple level command Command3 Command 2 Command 1 ON X X Jog speed OFF OFF OFF Main speed OFF OFF ON Speed level 1 OFF ON OFF Speed level
44. tive case or distributor the ambient temperature can not exceed 50 3 Isolated wires of control signals are recommended noise and grounding have to be considered for avoiding interference 4 Wiring terminals and installation 1 Wiring should be made according to the symbols of terminals Keep terminals connected tightly with wire 2 Appropriate wiring size should be used Connect R S and T terminals to power source In the case of single phase power source connect R and S terminals to power Source 3 Use nofuse brake NFB magnetic contact or fuse at power source input terminals and use a thermal relay THRY to protect motor if the motor capacity is smaller than inverter 4 After U V and W terminals of motor have been disconnected the insulation of motor can be then tested Note that testing motor and inverter can be performed only by experienced peoples INSTALLATIONS AND CONFIRMATIONS d Recommended wiring size for reference only 200V Series mm 400V Series mm Main Control Grounding Main Control Grounding circuit circuit wire circuit circuit wire 2 2 2 2 2 2 3 5 3 5 5 5 3 5 8 5 5 14 8 22 The same 8 The same 30 as that of 14 as that of 38 main circuit 22 main circuit 60 30 80 30 38 60 80 CHAPTER 3 TYPES OF KEYPADS 1 Digital keypad KP 201
45. uency 1 of frequency command is occurred in frequency 1 Hz 0 1Hz 0 0 54 Jumping For avoiding the resonance of machinery the jump 0 0 400 0 F_OBS frequency 2 of frequency command is occurred in frequency 2 Hz 0 1Hz 0 0 54 Jumping For avoiding the resonance of machinery the 0 0 400 0 F 085 frequency 3 of frequency command is occurred in frequency 3 Hz 0 1Hz 00 54 The jump of frequency command in frequency 1 p F UB Jump of frequency 1127 0 0 25 582 0 182 0 0 54 Current for f the current is greater than that for speed 075 2007 6088 Speed tracking tracking the output frequency is decreased 1 150 55 Time interval for The time interval with zero output frequency 0 5 5 0 089 speed tracking preceding with speed tracking sec 0 18 0 5 55 the speed tracking the setting of percentage VIF pattern of p 9 9 oF perc 9 090 speed tracking n voltage obtained from the original V F 0 10096 1 100 55 Sl Faultrecords Display the last 5 records of faults 57 O Parameters are changeable Max frequency can not over 120 0 2 992 Lock of paramen are locked Max frequency can not over 120 0Hz 0 3 0 57 parameters 2 Parameters are changeable Max frequency can over 120 0Hz 3 parameters are locked Max frequency can over 120 0Hz Selection of 0 Indicate that voltage is not regulated automatically F 093 automatic voltage 0 1 1 57 LIST OF FUNCTION CO
46. ypad 30 2 RPM set by keypad 0 3 E 1 9 3 MPM set by keypad Selection of Indicate terminals generate start signal and idi STOP on keypad is invalid 003 validity of STOP WE marae generate start signal and 0 1 x 0 30 on keypad on keypad is valid Select function 0 Ue that KP 201 is in monitor mode and that of changing the frequency setting can not be changed F_004 frequency 1 indicate that KP 201 is in monitor mode and that 21 4 30 for KP 201 the frequency setting can be changed Select function 0 indicate that KP 201 is in monitor mode and that the of storing frequency setting can not be stored automatically _ Fans frequency 1 indicate that KP 201 is in monitor mode and that the 93 30 for KP 201 frequency setting can be stored automatically after 3 minutes Select main 005 display of KP 201 Select one of 8 displays as main display 1 8 1 31 001 5 constant Set the value of MPM displayed on keypad 0 500 00 0 01 20 00 31 No decimal of Set the no decimal of speed displayed on 008 speed display keypad 0 8 a 0 31 X3 X2 1 60 00 M d 00 400 50 00 009 spee EE GE OFF OFF 0 00 400 00 0 01Hz o 00 32 F l Speedlevel 1 OFF OFF OFF ON 0 00 400 00 0 01 2 10 00 32 F ll Speedlevel 2 OFF OFF ON OFF 0 00 400 00 0 01 2 20 00 32 F_0 ic Speed level 3 OFF OFF ON ON 0 00 400 00 0 01 2 30 00 32 l3 Speedlevel 4 OFF ON OFF OFF 0 00 400 00 0 0
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