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Omron JX-A4004, User Manual

The Omron JX-A4004, a cutting-edge electronic device, comes with a comprehensive User Manual that enables users to make the most of its advanced features. This manual is readily available for free download from manualshive.com, ensuring easy access to in-depth instructions and troubleshooting tips for hassle-free usage.

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Cat. No. I558-E2-02-X

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JX USER’S 

MANUAL

Cat. No. I558-E2-02-X

JX 

Compact and complete
Model: JX
200 V Class Three-Phase Input 0.2 to 7.5 kW
200 V Class Single-Phase Input 0.2 to 2.2 kW
400 V Class Three-Phase Input 0.4 to 7.5 kW

USER’S MANUAL

Cat. No. I558-E2-02-X

Summary of Contents for JX-A4004

Page 1: ...Cat No I558 E2 02 X JX Compact and complete Model JX 200 V Class Three Phase Input 0 2 to 7 5 kW 200 V Class Single Phase Input 0 2 to 2 2 kW 400 V Class Three Phase Input 0 4 to 7 5 kW USER S MANUAL Cat No I558 E2 02 X ...

Page 2: ......

Page 3: ... z After reading this manual keep it handy for future reference z This manual describes the specifications and functions of the product as well as the relations between them You should assume that anything not described in this manual is not possible with the product z Intended readers This manual is intended for Those with knowledge of electrical systems qualified electrical engineers or the equi...

Page 4: ...OR USER ALONE HAS DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE OMRON DISCLAIMS ALL OTHER WARRANTIES EXPRESS OR IMPLIED LIMITATIONS OF LIABILITY OMRON SHALL NOT BE RESPONSIBLE FOR SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES LOSS OF PROFITS OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS WHETHER SUCH CLAIM IS BASED ON CONTRACT WARRANTY NEGLIGENCE OR ...

Page 5: ...tended to imply that the uses listed may be suitable for the products Outdoor use uses involving potential chemical contamination or electrical interference or conditions or uses not described in this manual Nuclear energy control systems combustion systems railroad systems aviation systems medical equipment amusement machines vehicles safety equipment and installations subject to separate industr...

Page 6: ...at any time to confirm actual specifications of purchased products DIMENSIONS AND WEIGHTS Dimensions and weights are nominal and are not to be used for manufacturing purposes even when tolerances are shown PERFORMANCE DATA Performance data given in this manual is provided as a guide for the user in determining suitability and does not constitute a warranty It may represent the result of OMRON s te...

Page 7: ...rk must be carried out only by qualified personnel Not doing so may result in a serious injury due to an electric shock Be sure to ground the unit Not doing so may result in a serious injury due to an electric shock or fire 200 V class type D grounding 400 V class type C grounding Do not remove the front cover during the power supply and 5 minutes after the power shutoff Doing so may result in a s...

Page 8: ...lf or other property Place covers on the openings or take other precautions to make sure that no metal objects such as cutting bits or lead wire scraps go inside when installing and wiring Do not touch the Inverter fins braking resistors and the motor which become too hot during the power supply and for some time after the power shutoff Doing so may result in a burn Take safety precautions such as...

Page 9: ...e 400V models Install device in pollution degree 2 environment Maximum Surrounding Air Temperature 50 C or equivalent Caution Risk of electric shock capacitor discharge time is at least 5 minutes Solid state motor overload protection is provided in each model Integral solid state short circuit protection does not provide branch circuit protection Branch circuit protection must be provided in accor...

Page 10: ...cover but hold by the fins during transportation Do not connect an AC power supply voltage to the control input output terminals Doing so may result in damage to the product Be sure to tighten the screws on the terminal block securely Wiring work must be done after installing the unit body Do not connect any load other than a three phase inductive motor to the U V and W output terminals Take suffi...

Page 11: ...ff before resetting the alarm because the machine may abruptly start Non Stop Function at Momentary Power Interruption Do not come close to the machine when selecting restart in the non stop function at momentary power interruption selection b050 because the machine may abruptly start after the power is turned on Operation Stop Command Provide a separate emergency stop switch because the STOP key ...

Page 12: ...10 Precautions for Correct Use Warning Labels Warning labels are located on the Inverter as shown in the following illustration Be sure to follow the instructions Warning Description ...

Page 13: ...Note that this manual is the only accessory included with the JX model Mounting screws and other necessary parts must be provided by the user Input specifications Output specifications Inverter model J X A B 0 0 2 E F Maximum applicable motor capacity 002 004 007 015 022 037 040 055 075 0 2 kW 0 4 kW 0 75 kW 1 5 kW 2 2 kW 3 7 kW 4 0 kW 5 5 kW 7 5 kW Voltage class 2 B 4 3 phase 200 V AC 200 V class...

Page 14: ... A manual revision code appears as a suffix to the catalog number located at the lower left of the front and back covers Revision code Revision date Changes and revision pages First printing Revision code Cat No I558 E2 02 October 2009 02 ...

Page 15: ...er s operations including how to use the keys on the Digital Operator and the monitor function Chapter 4 Functions Describes the functions of the Inverter Chapter 5 Maintenance Operations Describes the causes and their countermeasures if the Inverter fails including the solutions to possible troubles troubleshooting Chapter 6 Inspection and Maintenance Describes items for periodic inspection and o...

Page 16: ...14 About This Manual ...

Page 17: ...ation 2 2 2 2 Wiring 2 7 Chapter 3 Operation 3 1 Test Run Procedure 3 3 3 2 Test Run Operation 3 4 3 3 Part Names and Descriptions of the Digital Operator 3 8 3 4 Operation Procedure Example Factory Default 3 10 3 5 Parameter Transition 3 16 3 6 Parameter List 3 17 Chapter 4 Functions 4 1 Monitor Mode 4 2 4 2 Function Mode 4 6 Chapter 5 Maintenance Operations 5 1 Special Display List Error Codes 5...

Page 18: ... Specifications 7 1 Standard Specification List 7 2 7 2 Measurement Method of Output Voltage 7 6 7 3 Dimensional Drawing 7 7 7 4 Options 7 13 Appendix Appendix 1Parameter List App 2 Appendix 2Product Life Curve App 18 Index ...

Page 19: ...Chapter 1 Overview 1 1 Functions 1 2 1 2 Appearance and Names of Parts 1 4 ...

Page 20: ... V AC IP20 0 2 kW JX A2002 0 4 kW JX A2004 0 75 kW JX A2007 1 5 kW JX A2015 2 2 kW JX A2022 3 7 kW JX A2037 5 5 kW JX A2055 7 5 kW JX A2075 3 phase 400 V AC 0 4 kW JX A4004 0 75 kW JX A4007 1 5 kW JX A4015 2 2 kW JX A4022 4 0 kW JX A4040 5 5 kW JX A4055 7 5 kW JX A4075 1 phase 200 V AC 0 2 kW JX AB002 0 4 kW JX AB004 0 75 kW JX AB007 1 5 kW JX AB015 2 2 kW JX AB022 Classification Applicable standa...

Page 21: ...nd pressure Emergency Shutoff Function Switching the dedicated switch S8 changes from the multi function input input 3 to the emergency shutoff input You can directly turn off a motor control power module without operating the software Compliance With Standards The JX Series has achieved compliance with CE and UL cUL The RoHS Directive The standard model meets the requirements of the RoHS Directiv...

Page 22: ... the control signal Connection to RJ45 Jack Connect the communications cable after opening the cover of the communications connector Remove the front cover to switch communications Refer to Removing the Front Cover page 2 7 for instructions on how to remove the front cover The cover of the communications connector is removable Remove the front cover to attach it Top cover Fin Main housing FREQ FRE...

Page 23: ...hutoff function selector S8 without reason as the allocation of the multi function input terminals may change For details refer to Emergency Shutoff Input Function page 4 46 8888 S7 S8 485 OPE ON OFF Main circuit terminal block input side Communications connector Relay output terminal block Control circuit terminal block Main circuit terminal block output side Do not touch these ELECTRICAL HAZARD ...

Page 24: ......

Page 25: ...Chapter 2 Design 2 1 Installation 2 2 2 2 Wiring 2 7 ...

Page 26: ...ue to an electric shock or fire 200 V class type D grounding 400 V class type C grounding Do not connect resistors to the terminals PD 1 P N directly Doing so might result in a small scale fire heat generation or damage to the unit Install a stop motion device to ensure safety Not doing so might result in a minor injury A holding brake is not a stop motion device designed to ensure safety Be sure ...

Page 27: ... the product in the following locations Not doing so may result in damage to the product Locations subject to static electricity or other forms of noise Locations subject to strong magnetic fields Locations close to power lines Installation Install the Inverter vertically on the wall or DIN tracks optional Install the Inverter on a nonflammable wall surface material like metal Precautions for Use ...

Page 28: ...alled in a control panel keep the ambient temperature within the range of the specifications taking dimensions and ventilation into consideration You can install multiple JX Inverters side by side in the control panel side by side installation Again keep the ambient temperature within the specified range 40 C or below If the ambient temperature is from 40 C through to 50 C the carrier frequency sh...

Page 29: ...de By Side installation ambient temperature 40 C 200 V Class 3 7 kW 0 2 to 2 2 5 5 7 5kW 4 6 8 10 12 100 95 90 85 80 75 70 2 400 V Class 5 5 kW 7 5kW 3 7kW 0 4 to 2 2kW Output current Rated current Carrier frequency kHz 2 Ambient temperature 50 C Output current Rated current Output current Rated current Carrier frequency kHz Carrier frequency kHz 4 6 8 10 12 100 95 90 85 80 75 2 200 V Class 0 2 to...

Page 30: ...ing the Inverter place a cover over all the ventilation openings to shield them from foreign objects After completing the installation process be sure to remove the covers from the Inverter before operation Ventilation openings Both sides and top ...

Page 31: ...the Front Cover Removing the Front Cover Loosen the mounting screw at the lower left of the front cover Lift the bottom of the front cover to remove while holding the body 1 Loosen the front cover mounting screw 2 Lift the bottom of the front cover to remove ...

Page 32: ... Cover Hang the upper side of the front cover on the hooks and push down both sides of the cover simultaneously until it clicks into place 1 Hang the upper side on the hooks Two hooks 2 Push down the cover until it clicks into place Both sides ...

Page 33: ...ic L L CM2 Source logic PCS Inverter R L1 L1 S L2 L2 T L3 N L3 PCS P24 24V DC U T1 V T2 W T3 Motor Note To connect the DC reactor remove the short circuit bar For Sink logic 5 4 4 7 kΩ 3 2 1 L PD 1 DC reactor P N 11 24 V DC CM2 10 kΩ 250 Ω 10 V DC L OI O H AM Frequency meter Frequency setting unit 1 to 2 kΩ 4 to 20 mA DC Power supply input Relay output Common AL1 AL2 AL0 RY 3 phase 200 V AC 1 phas...

Page 34: ...ation If the wiring between the Inverter and the motor is too long longer than 10 m the motors thermal relay may malfunction due to harmonics Install an AC reactor on the Inverter output side or use a current sensor instead of the motors thermal relay R L1S L2 T L3 Power supply Ground U T1 V T2 W T3 N P 1 Motor Motor earth Main circuit terminal block input side Main circuit terminal block output s...

Page 35: ... other strong electrical devices Wiring the Control Circuit Terminals and Relay Terminals Inverter Inverter Inverter Ground bolt Inverter Inverter Inverter Example of incorrect grounding Example of correct grounding AL2 AL1 AL0 Relay output AM H O OI L 5 4 3 2 1 L PCS P24 CM2 11 Analog monitor output Multi function input Multi function output Short circuit bar Frequency reference input ...

Page 36: ...from the wiring on the relay control circuit More than 10 cm apart Input common Reset input Multi step speed reference 2 Frequency meter Variable resistor frequency reference 1 to 2 k Note 3 Short circuit bar at sink logic when internal power supply is used Note 2 RY Frequency arrival signal 27 V DC 50 mA max Note 1 Multi step speed reference 1 Reverse rotation RUN command Forward rotation RUN com...

Page 37: ...hort circuit bar when the external power supply is used Inside the Inverter When Internal interface power supply is used When external power supply is used Sink logic Source logic 1 L PCS P24 CM2 Short circuit bar Sink Logic 1 L PCS P24 CM2 Short circuit bar Source Logic P24 PCS L 1 5 24 V DC Inverter Short circuit bar COM V Output unit etc P24 PCS L 1 5 24 V DC Inverter COM DC24V V Output unit et...

Page 38: ...ignal cable For cable and multi core cable fitted with cable markers keep both the cable markers and the sheath stripped length 40 mm or more from the connecting end As a thick cables may prevent proper closing of the terminal block cover To meet UL standards always insert a UL standard fuse J type on the power supply side Use a ground wire with a larger diameter than that of the power cable shown...

Page 39: ...y of the H IV wire the leakage current increases about eight times Use a wire with a sensitivity current one level higher The leakage current mentioned here is the effective value of the fundamental wave and high frequency currents are excluded 100 m max 30 300 m max 100 800 m max 200 Main circuit terminal block Model JX Screw size W mm Upper side of the body Lower side of the body A2002 to A2007 ...

Page 40: ... N m M2 5 0 5 N m max 0 6N m M3 5 0 8 N m max 0 9 N m M4 1 2 N m max 1 3 N m M5 3 0 N m max 3 3 N m Terminal symbol Terminal name Function Connection example R L1 S L2 T L3 Main power supply input terminal Connect the input power supply Do not remove the short circuit bar between PD 1 and P when a DC reactor is not connected U T1 V T2 W T3 Inverter output terminal Connect to the motor PD 1 P Exter...

Page 41: ...and T L3 to N Installing a Ground Fault Interrupter The Inverter s output uses high speed switching and so generates high frequency current leakage Generally if the power cable is 1 m the leakage current is approx 100 mA per Inverter and approx 5 mA is added per additional meter of the power cable At the power supply input part install a special purpose ground fault interrupter for Inverters that ...

Page 42: ...itor is in use a large peak current may flow through the input power circuit causing damage to the converter unit Install an optional AC reactor on the input side of the Inverter An AC reactor will also improve the power factor of the power input side Installing a Surge Absorber Always use a surge absorber or diode when magnetic contactors MC electromagnetic relays solenoid valves solenoid and mag...

Page 43: ...e Advance Capacitor or Noise Filter Doing so may result in damage to the Inverter or cause the parts to burn Never connect a phase advance capacitor or LC RC noise filter to the output circuit Do Not Use an Electromagnetic Switch If a load is connected to the Inverter during running an inrush current will actuate the overcurrent protective circuit in the Inverter Do not connect an electromagnetic ...

Page 44: ... requires a cable length of 50 m or more perform the following Wire in metallic ducts Use separate cables for each phase to reduce cable capacitance Set the Inverter to a lower carrier frequency b083 Do Not Use Single phase Motors A single phase motor uses the capacitor start method or split phase start method to determine its rotation direction at startup and thus is not suitable for the variable...

Page 45: ...Multi stepspeed reference 1 L Input signal common Monitor signal AM Analog frequency monitor Analog output current monitor Analog frequency monitor Frequency reference input H Frequency reference power supply 10 V DC 10 mA max O Voltage frequency reference signal 0 to 10 V DC Input impedance 10 kΩ When installing variable resistors at FS FV and FC 1 to 2 kΩ OI Current frequency reference signal 4 ...

Page 46: ...function input terminal is set as the source logic the PCS terminal acts as an internal power supply output terminal External analog frequency reference H Frequency reference power supply output External voltage directive is 0 to 9 8 V Nominal input 10 V 1 O 3 Frequency reference Input Voltage directive OI 4 Frequency reference Input Current directive L Frequency reference common Monitor output AM...

Page 47: ...ency shutoff input function 1 The multi function input terminal 3 is switched to a terminal for emergency shutoff input and the allocation of other multi function input terminals is also changed automatically Do not set to ON immoderately For details refer to Emergency Shutoff Input Function page 4 46 Output terminal Contact capacity Resistance load Inductive load AL2 AL0 Max 250 V AC 2 5 A 30V DC...

Page 48: ... EN61800 3 as shown below Keep the ground cable as short as possible Keep the cable between the Inverter and the noise filter as short as possible Low voltage Directive The JX models have conformed to the EMC directive EN61800 5 1 by performing the machine in stallation and wiring as shown below The JX models are an open type device Be sure to install it inside the control panel The power supply a...

Page 49: ...e shields of the control lines to ground PE protective earth at both ends With distributed systems for example the communicating supervisory controller or host computer is not in the same control cabinet and there is a distance between the systems we recommend connecting the shield of the control lines only at the end connecting to the adjustable frequency inverter If possible route the other end ...

Page 50: ...terference free devices and maintain a minimum distance of 0 25 m from the adjustable frequency inverter Follow safety measures in the filter installation If using external EMC filter ensure that the ground terminal PE of the filter is properly connected to the ground terminal of the adjustable frequency inverter An HF ground connection via metal contact between the housings of the filter and the ...

Page 51: ... 3 1 Test Run Procedure 3 3 3 2 Test Run Operation 3 4 3 3 Part Names and Descriptions of the Digital Operator 3 8 3 4 Operation Procedure Example Factory Default 3 10 3 5 Parameter Transition 3 16 3 6 Parameter List 3 17 ...

Page 52: ... abruptly Be sure to confirm safety before checking a signal Do not remove the front cover during the power supply and 5 minutes after the power shutoff Doing so may result in a serious injury due to an electric shock Do not operate the Digital Operator or switches with wet hands Doing so may result in a serious injury due to an electric shock Inspection of the Inverter must be conducted after the...

Page 53: ...lays the set value in d001 If an error occurs the error code is displayed on the data display In this case refer to Chapter 5 Maintenance Operations and make the necessary changes to remedy Set parameter No b084 to 02 and press the key while holding down the and keys simultaneously Set the motor capacity selection H003 and the motor pole number selection H004 Use the FREQ adjuster on the Digital O...

Page 54: ...Set the motor to no load status i e not connected to the mechanical system Power On After checking the above turn on the power Display Status Check When the power is turned on normally the display shows Normal RUN LED indicator during RUN ON ALARM LED indicator OFF POWER LED indicator ON RUN command LED indicator ON Volume LED indicator ON Data LED indicator frequency ON Data display Displays the ...

Page 55: ...layed Use the Increment or Decrement key to display b084 Press the Mode key The set value in b084 is displayed Use the Increment or Decrement key to display 02 Press the Enter key The set value is entered and b084 is displayed Press the STOP RESET key while holding down the Mode and Decrement keys simultaneously When the display blinks release the STOP RESET key first and then the Mode and Decreme...

Page 56: ...2 3 7 5 5 7 5 kW Varieswith the capacity No H004 1166h Motor pole number selection Sets the pole number of the motor connected to the Inverter 2 4 6 8 Pole 4 No Key sequence Display example Description Press the Mode key twice to display the mode selection Use the Increment or Decrement key to display H Press the Mode key H003 is displayed Press the Mode key The set value in H003 is displayed Use ...

Page 57: ...al System After confirming that the motor has stopped completely connect the mechanical system Be sure to tighten all the screws when fixing in the motor axis Operation via the Digital Operator Because a possible error may occur during operation make sure that the STOP RESET key on the Digital Operator is easily accessible Use the Digital Operator to operate the Inverter the same way as in no load...

Page 58: ... to the indication on the data display Hz Frequency A Current Volume LED indicator Lit when the frequency reference source is set to the FREQ adjuster FREQ adjuster Sets a frequency Available only when the frequency reference source is set to the FREQ adjuster Check that the Volume LED indicator is lit RUN command LED indicator Lit when the RUN command is set to the Digital Operator The RUN key on...

Page 59: ...ld down the Mode key for 3 seconds Note Always press the Enter key to store any changed data Enter key Enters and stores changed data To change the set value be sure to press the Enter key Do not press the Enter key if you don t want to store any changes for example if you have changed the data inadvertently Increment key Changes the mode Also increases the set value of each function Decrement key...

Page 60: ... Mode and Extended Function Mode 1 The data of the set monitor is displayed Default is 0 0 2 The code of the monitor mode is displayed as d001 Press the Mode key once to return from the code display of the monitor mode to the monitor display d002 is displayed Continued to the next page Power On 0 0 Press d001 Press Press d002 13 times 13 times Press Press ...

Page 61: ...the basic function mode is displayed as F001 4 The extended function mode is displayed as A Extended function mode Displays in order of A b C H 5 The code of the monitor mode is displayed as d001 Returns to step 2 f001 4 times 4 times Press Press a 4 times 4 times Press Press d001 ...

Page 62: ...ollow the indication method described in Displaying the Monitor Mode Basic Function Mode and Extended Function Mode page 3 10 By default the RUN command LED indicator will light up as the RUN command selection is set to the Digital Operator 2 The code of the extended function mode is displayed as A001 A002 is displayed 3 The setting of the extended function mode is displayed setting in A002 02 Dig...

Page 63: ...nd selection to the terminal 01 4 The code of the monitor mode is displayed as A002 Press the Enter key to fix the changed setting data The RUN command selection is changed to the terminal and the RUN command LED indicator will go off You can now change to another extended function code 5 The extended function mode is displayed as A You can now move to another extended function mode the monitor mo...

Page 64: ...e 3rd digit of the function code 0 of the 3rd digit blinks Press the Enter key to fix 0 of the 3rd digit as you need not change it Press the Mode key to start A blinking again 4 Change the 2nd digit of the function code 0 of the 2nd digit blinks Press the Mode key to start 0 of the 3rd digit blinking again Continued to the next page d001 Press 2 times a001 Press A is entered a001 Press 0 is entere...

Page 65: ...d 9 of the 1st digit blinks 6 The function code selection is complete A029 selection completed Press the Mode key to change the data for A029 Supplemental Information If you enter a parameter number that is not included in the parameter list the display returns to the parameter previously displayed Press the Enter key to shift the digit to the right and the Mode key to shift to the left a021 Press...

Page 66: ...is turned on 5 When you press the Enter key the first digit of each parameter setting is stored as the initial display that appears when the power is turned on Example etc To display a specific monitor when the power is turned on press the Enter key with that monitor displayed If a parameter for an extended function code is stored after pressing the Enter key however that code A b C d or H appears...

Page 67: ...ut frequency monitor after conversion 0 00 to 99 99 100 0 to 999 9 1000 to 9999 1000 to 3996 10000 to 39960 Output frequency Conversion factor of b086 1009 M 100A L 4 3 d013 Output voltage monitor 0 to 600 V 100C 4 4 d016 Total RUN Time 0 to 9999 1000 to 9999 100 to 999 10000 to 99990 hours h 100E M 100F L 4 4 d017 Power ON time monitor 0 to 9999 1000 to 9999 100 to 999 10000 to 99990 hours h 1010...

Page 68: ... Unit Modbus Address Hex Page Basic setting A001 Frequency reference selection 00 Digital Operator FREQ adjuster 01 Terminal 02 Digital Operator F001 03 ModBus communication 10 Frequency operation result 00 No 1019 4 8 A201 2nd frequency reference selection 00 No 4 8 A002 RUN command selection 01 Terminal 02 Digital Operator 03 ModBus communication 02 No 101A 4 8 A202 2nd RUN command selection 02 ...

Page 69: ... reference 9 0 0 103B A030 Multi step speed reference 10 0 0 103D A031 Multi step speed reference 11 0 0 103F A032 Multi step speed reference 12 0 0 1041 A033 Multi step speed reference 13 0 0 1043 A034 Multi step speed reference 14 0 0 1045 A035 Multi step speed reference 15 0 0 1047 A038 Jogging frequency 0 00 Starting frequency to 9 99 6 00 Yes Hz 1048 4 14 A039 Jogging stop selection 00 Free r...

Page 70: ... No 1056 4 17 Upper Lower limit Jump A061 Frequency upper limit 0 0 Frequency lower limit to Max frequency 0 0 No Hz 105A 4 20 A261 2nd frequency upper limit 0 0 Frequency lower limit to 2nd Max frequency 0 0 1517 A062 Frequency lower limit 0 0 Starting frequency to Frequency upper limit 0 0 No Hz 105B 4 20 A262 2nd frequency lower limit 0 0 Starting frequency to 2nd frequency upper limit 0 0 1518...

Page 71: ... 1076 M 1077 L 4 27 A293 2nd deceleration time 2 15 00 151B M 151C L A094 2 step accel decel selection 00 Switched via multi function input 09 2CH 01 Switched by setting 00 No 1078 4 27 A294 2nd 2 step accel decel selection 00 151D A095 2 step acceleration frequency 0 0 to 400 0 0 0 No Hz 107A 4 27 A295 2nd 2 step acceleration frequency 0 0 151F A096 2 step deceleration frequency 0 0 to 400 0 0 0 ...

Page 72: ... 00 Use VR start frequency A151 01 0 Hz start 01 No 109A 4 11 Restart during momentary power interruption b001 Retry selection 00 Alarm 01 0 Hz start 02 Frequency matching start 03 Trip after frequency matching deceleration stop 00 No 10A5 4 30 b002 Allowablemomentary power interruption time 0 3 to 25 0 1 0 No s 10A6 4 30 b003 Retry wait time 0 3 to 100 0 1 0 No s 10A7 4 30 4 41 b004 Momentary pow...

Page 73: ...on rate constant at Active Frequency Matching restart 0 1 to 3000 0 0 5 No s 1171 4 30 b030 Active Frequency Matching restart level 0 2 Rated current to 2 0 Rated current Rated current No A 1172 4 30 Lock b031 Soft lock selection 00 Data other than b031 cannot be changed when terminal SFT is ON 01 Data other than b031 and the specified frequency parameter cannot be changed when terminal SFT is ON ...

Page 74: ...izes data 02 Clears the trip monitor and initializes data 00 No 10D3 4 41 b085 Initialization parameter selection 00 Do not change 00 No 10D4 4 41 Others b086 Frequency conversion coefficient 0 1 to 99 9 1 0 Yes 10D5 4 41 b087 STOP key selection 00 Enabled 01 Disabled 00 No 10D6 4 41 b088 Free run stop selection 00 0 Hz start 01 Active Frequency Matching restart 00 No 10D7 4 41 b089 Monitor displa...

Page 75: ...n 11 FRS free run stop 12 EXT external trip 13 USP USP function 15 SFT soft lock 16 AT analog input switching 18 RS reset 19 PTC thermistor input 20 STA 3 wire start 21 STP 3 wire stop 22 F R 3 wire forward reverse 23 PID PID enabled disabled 24 PIDC PID integral reset 27 UP UP DWN function accelerated 28 DWN UP DWN function decelerated 29 UDC UP DWN function data clear 31 OPE forced operator 50 A...

Page 76: ... 00 No 111B 4 62 C031 Multi function output terminal 11 contact selection 00 NO contact at AL2 NC contact at AL1 01 NC contact at AL2 NO contact at AL1 00 No 111D 4 61 C036 Relay output AL2 AL1 contact selection 01 1122 C038 Light load signal output mode 00 Enabled during acceleration deceleration constant speed 01 Enabled only during constant speed 01 No 1178 4 60 C039 Light load detection level ...

Page 77: ...t adjustment 0 0 to 10 0 0 0 Yes V 1145 4 62 C091 Not used Use 00 Do not change 00 C101 UP DWN selection 00 Do not store the frequency data 01 Store the frequency data 00 No 1149 4 53 C102 Reset selection 00 Trip reset at rising edge of RS input 01 Trip reset at falling edge of RS input 02 Enabled only during trip Reset at rising edge of RS input 00 No 114A 4 51 C141 Logic operation function A inp...

Page 78: ... 0 4 0 75 1 5 2 2 3 7 5 5 7 5 400 V class 0 4 0 75 1 5 2 2 3 7 5 5 7 5 Factory default No kW 1165 4 63 H203 2nd motor capacity selection Factory default 1541 H004 Motor pole number selection 2 4 6 8 4 No Pole 1166 4 63 H204 2nd motor pole number selection 4 1542 H006 Stabilization parameter 0 to 255 100 Yes 1168 4 63 H206 2nd stabilization parameter 100 Yes 1544 Parameter No Function name Monitor ...

Page 79: ...Chapter 4 Functions 4 1 Monitor Mode 4 2 4 2 Function Mode 4 6 ...

Page 80: ...s in increments of 0 1 A Rotation Direction Monitor d003 Displays whether the Inverter output is in forward reverse stop status The RUN LED indicator lights up during forward reverse rotation Display F Forward o Stop r Reverse PID Feedback Value Monitor d004 Displays a feedback value converted by A075 PID scale when the PID selection is enabled A071 01 Monitor display PID feedback value PID scale ...

Page 81: ...a conversion value obtained by multiplying the Inverter output frequency by the coefficient set in b086 Displayed value Output frequency d001 Frequency conversion coefficient b086 Display d007 0 00 to 99 99 Displays in increments of 0 01 100 0 to 999 9 Displays in increments of 0 1 1000 to 9999 Displays in increments of 1 1000 to 3996 Displays in increments of 10 Setting range b086 0 1 to 99 9 Can...

Page 82: ...o 999 Displays in increments of 1000 hours Power ON Time Monitor d017 Displays the total power supply time of the Inverter Display 0 to 9999 Displays in increments of 1 hour 1000 to 9999 Displays in increments of 10 hours 100 to 999 Displays in increments of 1000 hours Fin Temperature Monitor d018 Displays the fin temperature Display 0 to 200 Displays in increments of 1 C Fault Frequency Monitor d...

Page 83: ... hr 1 Refer to Error Code List page 5 2 and Trip Monitor Display page 5 5 Trip Monitor Display Sequence 2 Displays if there has been no trip DC Voltage Monitor d102 Displays the main circuit DC voltage of the Inverter Display 0 0 to 999 9 Displays in increments of 0 1 V Electronic Thermal Monitor d104 Displays the count integration value of the electronic thermal An overload trip occurs if it reac...

Page 84: ...tep speed allocate 08 SET to the multi function input terminal and then turn it on Acceleration Deceleration Time Set an acceleration deceleration time for the motor For a slow transition set a large value and for a fast transition set a small one To switch to 2nd acceleration deceleration time 1 allocate 08 SET to the multi function input terminal and then turn it on Parameter No Function name Da...

Page 85: ...n applied to the RUN command via the Digital Operator This is disabled at terminals Output frequency Max frequency A004 A204 Output frequency set value Actual acceleration time Actual deceleration time F002 F202 F003 F203 L S M M L S T T N J J T 9 55 Acceleration Time TS Deceleration Time TB L B M M L B T T N J J T 9 55 JL Inertia moment of the load converted to the motor shaft kg m2 JM Inertia mo...

Page 86: ...on 10 Frequency operation result 00 A201 2nd frequency reference selection Related parameters A005 A141 to A143 A145 A146 Data Frequency reference source 00 FREQ adjuster 01 Voltage or current setpoint reference from the terminal 02 F001 value set via the Digital Operator 03 ModBus communication 10 Result of the frequency operation function Parameter No Function name Data Default setting Unit A002...

Page 87: ...mum Frequency Set the maximum value of the output frequency The value set here will be the maximum value e g 10 V in the range from 0 to 10 V of the external analog input frequency reference The maximum Inverter output voltage from base to maximum frequencies is the voltage set at AVR voltage selection A082 The Inverter cannot output voltage beyond that of the incoming voltage Parameter No Functio...

Page 88: ... the multi function input this means the AT input OFF in the above table Parameter No Function name Data Default setting Unit A004 Maximum frequency 30 to 400 50 0 Hz A204 2nd maximum frequency Related parameters A003 A203 A081 A082 Reference voltage 10 V Voltage input Current input Analog ground H O OI L AT A001 Inverter VR Frequency setting H O OI L Parameter No Function name Data Default settin...

Page 89: ...rt end frequency 0 0 Hz A012 A102 A152 O OI VR end frequency A013 A103 A153 O OI VR start ratio 0 to 100 Set a start end ratio relative to an external frequency reference of between 0 to 10 V and 4 to 20 mA 0 A014 A104 A154 O OI VR end ratio 100 A015 A105 A155 O OI VR start selection 00 Start frequency A011 set value 01 0 Hz 01 Related parameters A005 A016 AT input Max frequency A012 A102 A152 A01...

Page 90: ...eeds by using codes and switch the set speed via the terminal To switch to the 2nd multi step speed reference 0 allocate 08 SET to the multi function input terminal and then turn it on 200 setting Set frequency Max frequency Max frequency 2 0 0V 4mA 5V 12mA 10V 20mA 100 setting 50 setting Parameter No Function name Data Default setting Unit A016 O OI sampling 1 to 17 8 Related parameters A011 to A...

Page 91: ...ence is set to the Digital Operator A001 02 You can also select a multi step speed by turning on off the multi step speed terminals CF1 to CF4 and set the multi step speed frequency with F001 Data Symbol Function name Status Description 02 CF1 Multi step speed setting binary 1 ON Binary operation 1 ON OFF Binary operation 1 OFF 03 CF2 Multi step speed setting binary 2 ON Binary operation 2 ON OFF ...

Page 92: ... on the JG terminal before the FW or RV terminal Do the same if the RUN command source is set to the Digital Operator Note 2 If A039 is set to 02 set the DC injection braking Parameter No Function name Data Default setting Unit A038 Jogging frequency 0 00 Starting frequency to 9 99 6 00 Hz A039 Jogging stop selection 00 Free run stop 01 Deceleration stop 02 DC injection braking stop 00 Related par...

Page 93: ...Parameter No Function name Data Default setting Unit A041 Torque boost selection 00 Manual torque boost 01 Automatic simple torque boost 00 A241 2nd torque boost selection A042 Manual torque boost voltage 0 0 to 20 0 Ratio to the value of AVR voltage selection A082 5 0 A242 2nd manual torque boost voltage 0 0 A043 Manual torque boost frequency 0 0 to 50 0 Ratio to base frequency 2 5 A243 2nd manua...

Page 94: ... the voltage set in A042 A242 and A043 A243 to the V f characteristics and outputs the resulting voltage The addition value is set in percentage terms based on the AVR voltage selection A082 as 100 The manual torque boost frequency A043 A243 is set in percentage terms based on the base frequency as 100 If you raise the set value of the manual torque boost A042 A242 be careful about motor overexcit...

Page 95: ...g operation If DC injection braking operates at a high motor speed an overcurrent trip E01 to E04 or overload trip E05 may occur For internal DC injection braking the following adjustment may help you avoid such a situation Lower the DC injection braking frequency A052 Increase the DC injection braking delay time A053 For external DC injection braking via the multi function input use the external ...

Page 96: ... setting while taking into account motor heat generation Long continuous use of DB may cause the motor to burn out Perform each setting according to your system after selecting the level or edge operation in A056 Data Symbol Function name Status Description 07 DB External DC injection braking ON DC injection braking is performed during deceleration OFF DC injection braking is not performed during ...

Page 97: ... Even if the RUN command is turned on during DC injection braking the latter is effective during the set time in A055 Example 4 a Example 5 a Level operation Giving priority to the RUN command shifts to normal operation ignoring the DC injection braking time A055 If the RUN command is turned on during DC injection braking returns to normal operation ignoring the set time in A055 Example 4 b Exampl...

Page 98: ... This function limits the Inverter output frequency To switch to the 2nd control allocate 08 SET to the multi function input terminal and then turn it on Example 6 a Example 6 b ON RUN command A052 Frequency reference Output frequency ON RUN command A052 Frequency reference Output frequency a Edge operation b Level operation ON RUN command A052 Frequency reference Output frequency A053 ON RUN comm...

Page 99: ...he frequency jump function The output frequency only pass through the jump frequency during acceleration and deceleration process but if the frequency reference is set inside this area the output will move automatically out of this jump area setting a higher or lower frequency depending if inverter is accelerating or decelerating f Set frequency Hz Max frequency A004 A204 A061 A062 0V 4mA 10V 20mA...

Page 100: ...0 0 1 0 s A074 PID D gain 0 00 to 100 0 0 0 s A075 PID scale 0 01 to 99 99 1 00 Time A076 PID feedback selection 00 OI 01 O 02 RS485 communication 03 Operation function output 00 A077 Reverse PID function 00 Deviation Target value Feedback value 01 Deviation Feedback value Target value 00 A078 PID output limit function 0 00 to 100 0 0 0 C044 PIDdeviationexcessive level 0 to 100 3 0 C052 PID FB upp...

Page 101: ...alue A075 setting Excessive Deviation Output You can set the PID deviation excessive level C044 during PID control If the PID deviation reaches the PID deviation excessive level C044 the multi function output terminal is turned on Allocate 04 OD to any of the multi function output terminal 11 selection C021 or relay output AL2 AL1 function selection C026 C044 can be set from 0 to 100 Setting corre...

Page 102: ...olume is proportional to the variation ratio of the target value PI operation is the combination of the above P and I operations PD is P and D operations PID is P I and D operations Data Symbol Function name Status Description 07 FBV PID FB status output ON See the figure below Shifts output when exceeding the upper limit or falling below the lower limit OFF Available output terminals 11 CM2 AL2 A...

Page 103: ... on the PIDC terminal during PID operation to avoid an overcurrent trip Turn on the PIDC terminal after turning off PID operation this will help to stop the motor The integral value is cleared during free running or retry l PID Comparison Function This function outputs a signal when detecting that the PID feedback value exceeds the set range Allocate 07 FBV to any of multi function output terminal...

Page 104: ...utput power at a comparatively slow rate If rapid load fluctuation like impact load occur the motor may stall resulting in an overcurrent trip Parameter No Function name Data Default setting Unit A081 AVR selection 00 Always ON 01 Always OFF 02 OFF during deceleration 02 A082 AVR voltage selection 200 V class 200 215 220 230 240 400 V class 380 400 415 440 460 480 200 400 Related parameters d004 A...

Page 105: ...put 09 2CH 01 Switched by setting 00 A294 2nd 2 step acceleration deceleration selection 00 Switched via multi function input 09 2CH 01 Switched by setting 00 A095 2 step acceleration frequency 0 0 to 400 0 0 Hz A295 2nd 2 step acceleration frequency 0 0 to 400 0 0 Hz A096 2 step deceleration frequency 0 0 to 400 0 0 Hz A296 2nd 2 step deceleration frequency 0 0 to 400 0 0 Hz Related parameters F0...

Page 106: ...ne 01 S shape curve 00 Parameter No Set value 00 01 Line S shape curve A097 Acceleration A098 Deceleration Description Accelerates Decelerates linearly before reaching the set output frequency value Helps prevent the collapse of cargo on the elevating machine or conveyor Output frequency Time Output frequency Time Output frequency Time Output frequency Time Parameter No Function name Data Default ...

Page 107: ... 01 A142 Operation frequency input B setting 02 A143 Operator selection 00 Addition A B 01 Subtraction A B 02 Multiplication A B 00 Related parameters A001 10 Input A Input B Digital Operator FREQ adjuster Input O Input OI ModBus communication A141 A143 A A B B A B A B Result of calculation Output frequency A142 Digital Operator FREQ adjuster Input O Input OI ModBus communication Parameter No Func...

Page 108: ...02 Matches the frequency at retry and starts 03 Starts the Active Frequency Matching retry and trips after deceleration stop 00 b002 Allowable momentary power interruption time 0 3 to 25 0 Trips if the momentary power interruption is within the set time If not it restarts 1 0 s b003 Retry wait time 0 3 to 100 0 Time from recovery to restart 1 0 s b004 Momentary power interruption undervoltagetripd...

Page 109: ...02 is selected Alarm Selection for Momentary Power Interruption Undervoltage During Stop Use b004 to select whether to enable an alarm output in case of momentary power interruption or undervoltage An alarm output continues while Inverter control power supply remains Alarm output for momentary power interruption and undervoltage during stop Examples 3 and 4 Example 3 b004 00 Example 4 b004 01 Exam...

Page 110: ...s the lower the cooling capability of the standard motor s self cooling fan Reduced Torque Characteristics 1 Multiplied by the time limit characteristics set in b012 212 for each frequency Parameter No Function name Data Default setting Unit b012 Electronic thermal level 0 2 Rated current to 1 0 Rated current Rated current A b212 2nd electronic thermal level Rated current A b013 Electronic thermal...

Page 111: ...er output frequency Hz Example JX AB007 Rated current 4 0 A b012 4 00 A Output frequency 40 Hz Time before trip s Motor current A Ratio to the rated current of the Inverter 60 4 0 4 16 104 5 4 135 7 2 180 Parameter No Function name Data Default setting Unit b021 Overload limit selection 00 Disabled 01 Enable in acceleration constant speed operation 02 Enabled in constant speed operation 01 b221 2n...

Page 112: ... With 01 selected the analog voltage input between O and L is enabled and 10 V here corresponds to 150 of the rated current Note that 01 can be set only if PID is disabled and the AT terminal is not set Overload Warning If the load is too large this function outputs an overload warning signal allowing you to readjust the overload level This helps prevent mechanical damage due to an overload in the...

Page 113: ...tion name Data Default setting Unit b031 Soft lock selection 00 Data other than b031 cannot be changed when terminal SFT is ON 01 Data other than b031 and specified frequency parameters cannot be changed when terminal SFT is ON 02 Data other than b031 cannot be changed 03 Data other than b031 and the specified frequency parameter cannot be changed 10 Data other than parameters changeable during op...

Page 114: ... once the voltage reaches the stop deceleration level of non stop function b052 deceleration ceases C Internal DC voltage decreases because there is no power supply during this constant speed operation D Deceleration starts again according to b053 after the internal DC voltage decreases to b051 Then after a recurrence from B the operation eventually stops without a trip Parameter No Function name ...

Page 115: ...leration The aim of this function is the same as the overvoltage LAD stop function de scribed in b130 and b131 However these functions have different deceleration characteristics and you can select either function according to your system With this function activated PI control works to keep the internal DC voltage constant Though quicker response is expected with a larger proportional gain contro...

Page 116: ...ich is lower than the overvoltage level Deceleration then resumes if the voltage level falls below the overvoltage LAD stop function level With the overvoltage LAD stop function enabled b130 01 the actual deceleration time may become longer than the set value F003 F203 This function does not aim to keep the main circuit DC voltage level constant Therefore an overvoltage trip may occur if the main ...

Page 117: ...n Use mainly to adjust the starting torque With the starting frequency set high the starting current increases Therefore the current may exceed the overload limit and cause an overcurrent trip Parameter No Function name Data Default setting Unit b082 Starting frequency 0 5 to 9 9 1 5 Hz FW Output frequency Output voltage b082 ...

Page 118: ... 2 2 5 5kW 1 5kW 7 5kW 4 6 8 10 12 100 95 90 85 80 75 70 60 65 2 400 V Class 5 5kW 2 2kW 3 7kW 0 4 to 1 5 7 5kW 0 75kW 3 7kW 4 6 8 10 12 Output current Rated current 100 95 90 85 80 75 70 2 Carrier frequency kHz 3 Side By Side installation ambient temperature 40 C 200 V Class 3 7 kW 0 2 to 2 2 5 5 7 5kW 4 6 8 10 12 100 95 90 85 80 75 70 2 400 V Class 5 5 kW 7 5kW 3 7kW 0 4 to 2 2kW Output current ...

Page 119: ...l terminal block terminal The trip reset function via the STOP RESET key works according to this setting Free run Stop This function sets the motor to free running status by shutting off the Inverter output Also You can select the operation to be performed when the free run stop input is reset and select the stop meth od deceleration stop or free run stop Parameter No Function name Data Default se...

Page 120: ...ModBus mode selector S7 to 485 RS485 ModBus and ModBus communication is available With this function enabled keys other than the STOP RESET key and the FREQ adjuster on the Digital Operator are disabled In case of a trip any trip code from E01 to E60 is displayed Also refer to Output Frequency Monitor After Conversion d007 page 4 3 Data Symbol Function name Status Description 11 FRS Free run stop ...

Page 121: ...fferently because of automatic change in career frequency RDY Ready Function This function prepares for Inverter output to rotate the motor immediately after a RUN command is input When this function is enabled and the RDY signal is sent to the multi function input terminal high voltage is applied to terminals U V and W on the main circuit terminal block This happens even if the motor is stopped w...

Page 122: ... and an error occurs not through software but only through hardware The same two functions cannot be allocated to the multi function input terminals If you attempt to allocate the same two functions to the terminals by mistake the terminal where you allocated the function last takes precedence The previous data is set to 255 and the terminal function is disabled PTC can be allocated only to input ...

Page 123: ... input not used Data Description Reference item Page Parameter No Function name Data Default setting Unit C001 Multi function input 1 selection Refer to upper table for available settings 00 C201 2nd multi function input 1 selection C002 Multi function input 2 selection 01 C202 2nd multi function input 2 selection C003 Multi function input 3 selection 18 C203 2nd multi function input 3 selection C...

Page 124: ...ss control and the application function Note 3 The digital outputs relay and open collector outputs of the Inverter are not regarded as the safety signals mentioned here When you set a safety control circuit as described here use the output signal of an externally set safety relay Wiring Example S13 The emergency stop button lets the Inverter go into Emergency Shutoff status or free run status S14...

Page 125: ...unction allocated status To allocate a function to terminal 5 in this status use the function mode If DIP switch S8 is turned off later input terminal 3 switches to No function allocated status To allocate a function again use the function mode You can reset Emergency Shutoff status only via the dedicated input terminal terminal 4 in the above table The STOP RESET button on the Digital Operator ca...

Page 126: ...ame Selection SET SP SET F002 F202 Acceleration time 1 Yes Yes F003 F203 Deceleration time 1 Yes Yes A001 A201 Frequency reference selection No Yes A002 A202 RUN command selection No Yes A003 A203 Base frequency No Yes A004 A204 Maximum frequency No Yes A020 A220 Multi step speed reference 0 Yes Yes A041 A241 Torque boost selection No Yes A042 A242 Manual torque boost voltage Yes Yes A043 A243 Man...

Page 127: ...racteristics selection No Yes b021 b221 Overload limit selection No Yes b022 b222 Overload limit level No Yes b023 b223 Overload limit parameter No Yes b028 b228 Overload limit source selection No Yes C001 to C005 C201 to C205 Multi function inputs 1 to 5 selection No Yes C041 C241 Overload warning level No Yes H003 H203 Motor capacity selection No Yes H004 H204 Motor pole number selection No Yes ...

Page 128: ...ow this function works Reset This function resets an Inverter trip You can also reset an Inverter trip by pressing the STOP RESET key on the Digital Operator In reset selection C102 you can select alarm reset timing and either enable disable in normal operation Data Symbol Function name Status Description 13 USP USP function ON Does not start the Inverter with the power turned on while the RUN com...

Page 129: ...xample 1 Enabled during normal operation shuts off output 00 01 Trip reset at falling edge example 2 Enabled during normal operation shuts off output 02 Trip reset at rising edge example 1 Disabled during normal operation trip reset only Example 1 RS Alarm ON OFF ON OFF Example 2 RS Alarm ON OFF ON OFF Data Symbol Function name Status Description 19 PTC Thermistor input Connected When the thermist...

Page 130: ...minals allocated the FW and RV terminals are disabled Data Symbol Function name Status Description 20 STA 3 wire start ON Starts with auto recovery contacts OFF Irrelevant to the motor operation 21 STP 3 wire stop ON Stops with auto recovery contacts OFF Irrelevant to the motor operation 22 F R 3 wire forward reverse ON Reverse OFF Forward Related parameters C001 to C005 Required settings A002 01 ...

Page 131: ...peed reference is enabled Data Symbol Function name Status Description 27 UP UP DWN function accelerated ON Increases the current speed during the signal input period OFF Keeps the current speed 28 DWN UP DWN function decelerated ON Decreases the current speed during the signal input period OFF Keeps the current speed 29 UDC UP DWN function data clear ON Clears the stored UP DWN speed OFF Keeps th...

Page 132: ...function terminal if the frequency reference RUN command sources are not set to the terminal block When the input of this signal is reset A001 and A002 return to the command status prior to the input If you switch on off this function during operation the RUN command is reset to stop the Inverter Before resuming operation stop the RUN command from each command source to avoid possible danger and t...

Page 133: ...D FB status output 08 NDc network error 09 LOG logic operation output 10 ODc Do not use 43 LOC light load detection signal 00 C026 Relay output AL2 AL1 function selection 05 Data Description Reference item Page 00 RUN Signal during RUN Signal during RUN 4 55 01 FA1 Constant speed arrival signal Frequency arrival signal 4 56 02 FA2 Over set frequency arrival signal 03 OL Overload warning Overload w...

Page 134: ...as reached the F001 set value OFF The Inverter output frequency has fallen below the F001 set value 02 FA2 Over set frequency arrival signal ON The Inverter output frequency has exceeded the C042 set value during acceleration OFF The Inverter output frequency has fallen below the C042 set value during acceleration Available output terminals 11 CM2 AL2 AL0 or AL1 AL0 Required settings C021 C026 C04...

Page 135: ...s refer to the description of the relay output Multi function Output Terminal ON Delay OFF Delay page 4 60 fon 120 0 01 1 2 Hz Output frequency f on f off FA1 Set frequency f on 1 of the max frequency f off 2 of the max frequency Example Max frequency fmax 120 Hz Set frequency fset 60 Hz foff 120 0 02 2 4 Hz During acceleration ON at 60 1 2 58 8 Hz During deceleration OFF at 60 2 4 57 6 Hz C042 f ...

Page 136: ...volume selection A005 02 or OI volume selection A005 03 since the frequency reference is set on the Digital Operator volume with the AT terminal turned on Network Error This function detects and outputs a network error during RS485 ModBus communication The error is output during RS485 ModBus communication if the next signal does not come even after the specified time period in C077 Data Symbol Fun...

Page 137: ...ut signal LOG output Input A C141 Input B C142 AND C143 00 OR C143 01 XOR C143 02 0 0 0 0 0 0 1 0 1 1 1 0 0 1 1 1 1 1 1 0 Multi function output item used for logic operation RUN FA1 FA2 OL OD AL Dc FBV NDc RUN FA1 FA2 OL OD AL Dc FBV NDc C141 Input A C142 Input B Logic operation AND OR XOR LOG C143 Parameter No Function name Data Default setting Unit C141 Logic operation function A input 00 RUN 01...

Page 138: ...ngs C021 C026 C038 C039 The signal is output if the load current has fallen below the C039 set value with the light load signal output mode set to 00 or 01 in C038 and LOC 43 allocated to the multi function output terminal This function helps avoid a trip resulting from a falling motor current Output current C039 0 LOC output 1 0 t t Parameter No Function name Data Default setting Unit C038 Light ...

Page 139: ...vely Original signal waveform without delay ON delay only OFF delay only ON and OFF delays ON delay ON delay OFF delay OFF delay Parameter No Function name Data Default setting Unit C031 Multi function output terminal 11 contact selection 00 NO contact 01 NC contact 00 C036 Relay output AL2 AL1 contact selection 00 NO contact between AL2 and AL0 01 NC contact between AL2 and AL0 01 ...

Page 140: ...e as the output frequency Monitor accuracy is 10 at the halfway point of base frequency AM Adjustment You can adjust the calibration of the analog voltage 0 to 10 V DC from the AM terminal on the control terminal block by using the Inverter setting Note If the offset C086 is changed the point to reach 10 V changes accordingly because of par allel movement To avoid this adjust the offset C086 befor...

Page 141: ... motor hunting occurs in a low speed range lower the manual torque boost voltage A042 A242 and manual torque boost frequency A043 A243 Other than this function the following methods are suggested to reduce hunting Lower the carrier frequency b083 Lower the output voltage gain A045 Parameter No Function name Data Default setting Unit H003 Motor capacity selection 200 V class 0 2 0 4 0 75 1 5 2 2 3 ...

Page 142: ...RS 485 Data bit length 8 bits ModBus RTU mode ASCII mode not available Parity No parity Even Odd Select using the Digital Operator Stop bit length 1 or 2 bits Select using the Digital Operator Startup method One way startup via command from the host side Wait time Silent interval 0 to 1000 ms Set using the Digital Operator Connection 1 N N Max 32 Set using the Digital Operator Connector RJ45 modul...

Page 143: ...nd start ModBus communications Switching from ModuBus to the External OPE 1 Remove the ModBus communication line from the RJ45 connector of the Inverter while the Inverter is stopped Wait 30 seconds to operate the Digital Operator 2 Set parameter C070 to 02 OPE using the Digital Operator and save it 3 Shut off the power 4 Set the 485 OPE selector S7 to OPE and connect the external OPE to the RJ45 ...

Page 144: ...lt 00 A002 RUN command selection 01 Terminal 02 Digital Operator 03 ModBus communication 02 b089 Monitor display selection 01 Output frequency monitor 02 Output current monitor 03 Rotation direction monitor 04 PID feedback value monitor 05 Multi function input monitor 06 Multi function output monitor 07 Frequency conversion monitor 01 C070 Operator ModBus selection 02 Digital Operator 03 ModBus 02...

Page 145: ...Inverter slave Only the Inverter having the same slave address as the query takes in the query Broadcasting can be performed by setting the slave address to 0 Data call or loopback cannot be performed while broadcasting Data Sends the function command The JX corresponds with the following data formats used in the ModBus Function Code Specifies a function for the Inverter to perform The function co...

Page 146: ...nterval 3 5 character length and C078 communication wait time setting Function code Function Maximum number of data bytes in 1 message Maximum data number in 1 message 01h Coil status reading 4 32 coils in bits 03h Holding register content reading 8 4 registers in bytes 05h Writing into the coil 2 1 coil in bits 06h Writing into holding register 2 1 registers in bytes 08h Loopback test 0Fh Writing...

Page 147: ...ry and attaches the read data to the query Abnormal Response If an error aside from a communication error is found in the query content the Inverter returns an exception response without performing any operation To determine the cause of an error check the function code of the response The function code of the exception response is the value of the query function code with 80h added Check the deta...

Page 148: ...tion input terminal statuses Coils from 12 to 14 are OFF 1 Broadcasting cannot be performed 2 When specifying the value for 0 or over 31 of the reading coils the error code 03h is sent 3 Data is transferred by the number of data bytes The data received as the response shows the statuses of coils 7 to 14 The data received here 05h 00000101b should be read with setting coil 7 as LSB as follows If th...

Page 149: ...smaller by 1 than the register number 0012h JX command D081 Factor D081 Frequency D081 Output current D081 DC bus V DC Register No 0012h 0014h 0016h 0017h Trip status Overcurrent E03 9 9 Hz 3 0 A 284 V Query Response No Field name Example Hex No Field name Example Hex 1 Slave address 1 01 1 Slave address 01 2 Function code 03 2 Function code 03 3 Register start address 3 MSB 00 3 Number of data by...

Page 150: ...t be performed normally Response buffer 4 5 6 7 8 9 Holding register start number 12 0 MSB 12 0 LSB 12 1 MSB 12 1 LSB 12 2 MSB 12 2 LSB Response data 0003h 00h 00h 0063h Trip data Trip factor 03 Not used Frequency 9 9 Hz Response buffer 10 11 12 13 14 15 Holding register start number 12 3 MSB 12 3 LSB 12 4 MSB 12 4 LSB 12 5 MSB 12 5 LSB Response data 00h 00h 001Eh 001Ch Trip data Not used Output c...

Page 151: ...k test to the Inverter with the slave address 1 Broadcasting cannot be performed The test sub code corresponds only with the query data echo 00h 00h not any other command Query Response No Field name Example Hex No Field name Example Hex 1 Slave address 1 08 1 Slave address 08 2 Function code 06 2 Function code 06 3 Register address 2 MSB 10 3 Register address 2 MSB 10 4 Register address 2 LSB 28 ...

Page 152: ... normally Writing into multiple holding registers 10h Writes into consecutive multiple holding registers Example Set 3000 seconds to acceleration time 1 F002 for the Inverter with the slave address 8 The data resolution of the holding register 1024h 1015h of acceleration time 1 F002 is 0 01 seconds To set 3000 seconds set change data to 300000 000493E0h Multi function input terminals 1 2 3 4 5 Coi...

Page 153: ...g table The detailed field configuration is shown on the next page The function code of the exception re sponse is the value of the query function code with 80h added The exception code shows the cause of exception response Query Response No Field name Example HEX No Field name Example HEX 1 Slave address 1 08 1 Slave address 08 2 Function code 10 2 Function code 10 3 Start address MSB 3 10 3 Star...

Page 154: ...s The enter command needs considerable time Monitor the data writing signal coil number 001Ah to check whether the data is being written Since the Inverter s EEPROM memory element has a limit on the number of rewrites approx 100 000 times the Inverter life may be shortened if enter commands are frequently used Function code Exception code Query Exception response Code Description 01h 81h 01h Speci...

Page 155: ...000Bh Multi function input 5 R W 1 ON 0 OFF 1 000Dh Not used 000Eh Operation status R 1 RUN 0 Stop Interlocked with d003 000Fh Rotation direction R 1 Reverse 0 Forward Interlocked with d003 0010h Inverter ready R 1 Ready 0 Not ready 0011h Not used 0012h Not used 0013h Not used 0014h Alarm signal R 1 During trip 0 Normal 0015h Excessive PID deviation signal R 1 ON 0 OFF 0016h Overload warning signa...

Page 156: ...al block from ON to OFF in order to turn OFF the coil 2 The content of a communications error is retained until a fault reset is input Available to reset during operation Register No Function name Parameter No R W Function Monitor or data range Resolution 0002h Frequency reference Enable when A001 03 R W 0 to 4000 0 1 Hz 0003h Inverter status R 00 Default 01 Reserved 02 Stop 03 Run 04 Free run sto...

Page 157: ...R Trip monitor 1 ON time LSB 001Ch Fault monitor 2 d082 R Trip monitor 2 Factor code 001Eh R Trip monitor 2 Frequency 0 1 Hz 0020h R Trip monitor 2 Current 0 1 A 0021h R Trip monitor 2 Voltage 1 V 0022h R Trip monitor 2 Run time MSB 1 h 0023h R Trip monitor 2 Run time LSB 0024h R Trip monitor 2 ON time MSB 1 h 0025h R Trip monitor 2 ON time LSB 0026h Fault monitor 3 d083 R Trip monitor 3 Factor co...

Page 158: ...equency A004 R W 30 to 400 1 Hz 150Dh 2nd maximum frequency A204 R W 30 to 400 1 Hz 101Dh O OI selection A005 R W 02 Switches between O VR via terminal AT 03 Switches between OI VR via terminal AT 04 Terminal O 05 Terminal OI 1020h O start frequency A011 R W 0 to 4000 0 1 Hz 1022h O end frequency A012 R W 0 to 4000 0 1 Hz 1023h O start ratio A013 R W 0 to 100 1 1024h O end ratio A014 R W 0 to 100 ...

Page 159: ...pecial VP 1513h 2nd V f characteristics selection A244 R W 104Eh Output voltage gain A045 R W 20 to 100 1 1514h 2nd output voltage gain A245 R W 1051h DC injection braking selection A051 R W 00 Disabled 01 Enabled during stop 02 Output frequency A052 DB 1052h DC injection braking frequency A052 R W 0 to 600 0 1 Hz 1053h DC injection braking delay time A053 R W 0 to 50 0 1 s 1054h DC injection brak...

Page 160: ...ck value 01 ON Deviation Feedback value Target value 106Fh PID output limit function A078 R W 0 to 1000 0 1 1070h AVR selection A081 R W 00 Always ON 01 Always OFF 02 OFF during deceleration 1071h AVR voltage selection A082 R W 200 V class 0 200 1 215 2 220 3 230 4 240 400 V class 0 380 1 400 2 415 3 440 4 460 5 480 1072h RUN mode selection A085 R W 00 Normal operation 01 Energy saving operation 1...

Page 161: ...W 00 Line 01 S shape curve 1080h OI start frequency A101 R W 0 to 4000 0 1 Hz 1082h OI end frequency A102 R W 0 to 4000 0 1 Hz 1083h OI start ratio A103 R W 0 to 100 1 1084h OI end ratio A104 R W 0 to 100 1 1085h OI start selection A105 R W 00 Start frequency A101 01 0 Hz 108Eh Operation frequency input A setting A141 R W 00 Digital Operator F001 01 Digital Operator volume 02 Input O 03 Input OI 0...

Page 162: ...b021 R W 00 Disabled 01 Enabled in acceleration constant speed operation 02 Enabled in constant speed operation 1529h 2nd overload limit selection b221 R W 10B6h Overload limit level b022 R W 2000 to 15000 Set the rated current to 10000 0 01 152Ah 2nd overload limit level b222 R W 10B7h Overload limit parameter b023 R W 1 to 300 0 1 s 152Bh 2nd overload limit parameter b223 R W 10BBh Overload limi...

Page 163: ...Hz 10D3h Initialization selection b084 R W 00 Clears the trip monitor 01 Initializes data 02 Clears the trip monitor and initializes data 10D4h Initialization parameter selection b085 R W 00 Fixed Do not change 10D5h Frequency conversion coefficient b086 R W 1 to 999 0 1 10D6h STOP key selection b087 R W 00 Enabled 01 Disabled 10D7h Free run stop selection b088 R W 00 0 Hz start 01 Active Frequenc...

Page 164: ...ut 2 selection C202 R W 1105h Multi function input 3 selection C003 R W 1534h 2nd multi function input 3 selection C203 R W 1106h Multi function input 4 selection C004 R W 1535h 2nd multi function input 4 selection C204 R W 1107h Multi function input 5 selection C005 R W 1536h 2nd multi function input 5 selection C205 R W 110Bh Multi function input 1 operation selection C011 R W 00 NO 01 NC 110Ch ...

Page 165: ...ection C072 113Bh Communication parity selection C074 113Ch Communication stop bit selection C075 113Dh Communication error selection C076 113Eh Communication error timeout C077 113Fh Communication wait time C078 1141h O adjustment C081 R W 0 to 2000 0 1 1142h OI adjustment C082 R W 0 to 2000 0 1 1145h AM offset adjustment C086 R W 0 to 100 0 1 V Not used C091 Do not change 1149h UP DWN selection ...

Page 166: ... 04 0 75 06 1 5 07 2 2 09 3 7 11 5 5 12 7 5 1166h Motor pole number selection H004 R W 2 4 6 8 1 pole 1542h 2nd motor pole number selection H204 R W 2 4 6 8 1 pole 1168h Stabilization parameter H006 R W 0 to 255 1 1544h 2nd stabilization parameter H206 R W 0 to 255 1 0900h Enter command W Indefinite value Register No Function name Parameter No R W Function Monitor or data range Resolution ...

Page 167: ...Chapter 5 Maintenance Operations 5 1 Special Display List Error Codes 5 2 5 2 Troubleshooting 5 6 ...

Page 168: ...al temperature rise Check the set data again if the error occurs If the power is shut off during data initialization an EEPROM error may occur when the power is next turned on Shut off the power after completing data initialization Undervoltage trip Shuts off the output if the incoming voltage drops below the specified level causing the control circuit not to work properly during a momentary power...

Page 169: ...he temperature has risen in the main circuit due to malfunction of the cooling fan or other reasons Driver error Shuts off the output if overcurrent is detected in the main circuit Thermistor error While the thermistor input function is used this detects the resistance of the external thermistor and shuts off the Inverter output Emergency shutoff With the emergency shutoff selected DIP switch on t...

Page 170: ...ndervoltage standby condition or with the power shut off Restart during momentary power interruption Restart during trip The restart function is in operation Setting initialization Appears while the set values are being initialized Trip monitor initialization Appears while the trip monitor is being initialized No data Appears if no data exists Trip monitor Communications error Appears if an error ...

Page 171: ...Hz when the trip occurred 4 0 3 Output current A when the trip occurred 398 4 DC voltage V between P and N when the trip occurred 15 5 Total time of operation before the trip 18 6 Total time of power distribution before the trip 1 Cause of trip Explanation of display e 07 Indicates the cause of the trip Refer to 5 1 ...

Page 172: ... F001 selected Is the potentiometer connected to terminals H O L Press the key to set the frequency If terminal mode is selected set the potentiometer to H O L Are RS and FRS inputs still turned on Turn off these inputs Voltage observed for Inverter outputs U T1 V T2 and W T3 Is the motor restrained Or is it overloaded Release the restraint and reduce the load Operate the motor separately Motor ro...

Page 173: ...he transmission gear ratio Data value is abnormal Does not change with data set After changing the data using the Increment Decrement key the Enter key was not pressed before the power was turned off Input data again and press the Enter key Was the power turned off within 6 seconds of changing the data and pressing the Enter key Wait 6 seconds or more after changing data and pressing the Enter key...

Page 174: ...5 8 5 2 Troubleshooting 5 Maintenance Operations ...

Page 175: ...Chapter 6 Inspection and Maintenance 6 1 Inspection and Maintenance 6 2 6 2 Storage 6 8 ...

Page 176: ... checking a signal Product Disposal Comply with the local ordinance and regulations when disposing of the product Do not remove the front cover during the power supply and 5 minutes after the power shutoff Doing so may result in a serious injury due to an electric shock Do not change wiring mode change switches S7 S8 optional devices or replace cooling fans while the input power is being supplied ...

Page 177: ...ntrol PCB cables Doing so may result in fire or injury due to cable damage Inspection Item Daily inspection Periodic inspection about every year Insulation resistance test about every two years Megger test Short circuit the terminals as below to conduct the test Make sure that the resistance between the main circuit terminal and ground is 5 MΩ or more at 500 V DC megger Do not conduct a withstand ...

Page 178: ...tisfied 200 V class 200 to 240 V 50 60 Hz 400 V class 380 to 480 V 50 60 Hz Tester Main circuit General Insulation resistance test between main circuit terminal and ground terminal 3 Megger check Refer to 6 3 5 M Ω min 500 V DC megger Check that the screws are not loose 3 Tighten securely Tightening torque excluding terminal block M 3 5 0 8 N m M 4 1 2 N m M 5 3 0 N m Check that no part has indica...

Page 179: ...rotection 3 3 Measure the phase to phase voltage between Inverter output terminals U T1 V T2 and W T3 Simulate the Inverter trip circuit output Ex Use an external trip etc Voltage difference between phases 2 max Operates with no faults Digital multimeter Rectifier Voltmeter Parts check including PCB General Check that there are no abnormal odors or discoloration Check that there is no significant ...

Page 180: ...life curve in Appendix 2 When the capacitor stops operating at the end of the product s life the Inverter must be replaced 2 Clean the Inverter periodically Accumulated dust in or on the cooling fan or heat sink can cause the Inverter to overheat Power supply R L1 S L2 T L3 IR IS IT ER ES ET W11 W12 R L1 S L2 T L3 U T1 V T2 W T3 IU IV IW EU V EV W EW U W01 W02 U V W Motor General purpose Inverter ...

Page 181: ... in many cases Input power factor PfI Calculated from the measured values of power supply voltage EI power supply current II and input electric power WI Output voltage EO Between U V V W W U EU EV EW Rectifier voltmeter All effective values Output current IO Current U V W IU IV IW Moving iron voltmeter All effective values Output electric power WO Between U V V W W01 W02 Electrodynamic wattmeter A...

Page 182: ... Inverter temporarily for transportation Storage temperature 20 C to 60 C Humidity 20 to 90 RH Without condensation or freezing due to rapid temperature change Do not store this unit in a place with dust direct sunshine corrosive gas or combustible gas The Inverter s smoothing capacitor characteristics will deteriorate if left unused for a long time even with no power distribution which will short...

Page 183: ...Chapter 7 Specifications 7 1 Standard Specification List 7 2 7 2 Measurement Method of Output Voltage 7 6 7 3 Dimensional Drawing 7 7 7 4 Options 7 13 ...

Page 184: ...eration 3 At capacitor feedback Approx 50 Approx 20 to 40 Approx 20 DC injection braking Injection braking frequency time braking force variable frequency control available Item 3 phase 400 V class Model name JX A4004 A4007 A4015 A4022 A4040 A4055 A4075 Applicable motor capacity 1 kW 0 4 0 75 1 5 2 2 4 0 5 5 7 5 HP 1 2 1 2 3 5 7 5 10 Rated output capacity kVA 380 V 0 9 1 6 2 5 3 6 5 6 8 5 10 5 480...

Page 185: ...ble regenerative braking unit and resistor The regenerative braking unit should be used only for short time regeneration Item 1 phase 200 V class Model name JX AB002 AB004 AB007 AB015 AB022 Applicable motor capacity 1 kW 0 2 0 4 0 75 1 5 2 2 HP 1 4 1 2 1 2 3 Rated output capacity kVA 200 V 0 4 0 9 1 3 2 4 3 4 240 V 0 5 1 0 1 6 2 9 4 1 Rated input voltage 1 phase 200 V 15 to 240 V 10 50 60 Hz 5 Bui...

Page 186: ...leration momentary power interruption protection emergency shutoff Input signal Digital Operator signal Frequency settings Setting with the FREQ adjuster and the Increment Decrement keys on the Digital Operator variable resistance from 1 to 2 kΩ 2 W 0 to 10 V DC input impedance 10 kΩ 4 to 20 mA input impedance 250 Ω communication through an RS 485 port ModBus communication Simultaneous inputs of O...

Page 187: ... Other functions AVR function V f characteristic selection upper lower limit 16 step speeds starting frequency adjustment jogging operation carrier frequency adjustment PID control frequency jump analog gain bias adjustment S shape acceleration deceleration electronic thermal characteristics level adjustment retry function simplified torque boost trip monitor soft lock function frequency conversio...

Page 188: ...rement Method of Output Voltage For JX AB s terminal symbols use L1 and N Measurement Method of Output Voltage R L1 S L2 T L3 U T1 V T2 W T3 Motor Diode 600 V 0 01 A min 200 V class 1000 V 0 1 A min 400 V class Effective value of fundamental wave VAC 1 1 VDC 220 kΩ 2 W VDC ...

Page 189: ...7 7 7 3 Dimensional Drawing 7 Specifications 7 3 Dimensional Drawing JX A2002 AB002 80 5 67 5 6 143 155 1 9 95 5 13 2 6 93 ...

Page 190: ...7 8 7 3 Dimensional Drawing 7 Specifications JX A2004 AB004 80 5 6 143 1 9 109 5 27 2 6 107 155 67 5 ...

Page 191: ...7 9 7 3 Dimensional Drawing 7 Specifications JX A2007 80 67 5 5 6 143 1 9 132 5 50 2 6 130 155 ...

Page 192: ...7 10 7 3 Dimensional Drawing 7 Specifications JX A4004 AB007 110 98 5 5 6 176 189 128 1 9 130 5 28 2 6 ...

Page 193: ...7 11 7 3 Dimensional Drawing 7 Specifications JX A2015 A2022 A2037 A4007 A4015 A4022 A4040 AB015 AB022 110 98 5 5 6 176 189 1 9 157 5 55 6 ...

Page 194: ...7 12 7 3 Dimensional Drawing 7 Specifications JX A2055 A2075 A4055 A4075 180 235 165 250 164 6 1 9 167 5 90 1 6 ...

Page 195: ... Kg 3 phase 200VAC JX A2002 AX FIJ2006 RE 6 250V 193 x 81 x 50 183 x 57 M4 1 JX A2004 JX A2007 JX A2015 AX FIJ2020 RE 20 250V 226 x 112 x 47 216 x 88 M4 1 3 JX A2022 JX A2037 JX A2055 AX FIJ2040 RE 40 250V 289 x 182 x 55 279 x 150 M5 2 3 JX A2075 3 phase 400VAC JX A4004 AX FIJ3005 RE 5A 480V 0 3 40mA 226 x 112 x45 216 x 88 M4 0 9 JX A4007 JX A4015 JX A4022 AX FIJ3011 RE 11A 480V 0 3 40mA 226 x 112...

Page 196: ...e mH Current value A A2002 to A2015 AX RAI02800080 DE 120 70 120 80 52 5 5 1 78 2 8 8 0 A2022 to A2037 AX RAI00880175 DE 120 80 120 80 62 5 5 2 35 0 88 17 5 A2055 to A2075 AX RAI00350335 DE 180 85 190 140 55 6 5 5 0 35 33 5 A4004 to A4015 AX RAI07700042 DE 120 70 120 80 52 5 5 1 78 7 7 4 2 A4022 to A4040 AX RAI03500090 DE 120 80 120 80 62 5 5 2 35 3 5 9 0 A4055 to A4075 AX RAI01300170 DE 120 80 12...

Page 197: ...026 DE 120 70 120 80 52 5 5 1 78 11 50 2 6 A2 B007 AX RAO07600042 DE 120 70 120 80 52 5 5 1 78 7 60 4 2 A2 B015 AX RAO04100075 DE 120 80 120 80 62 5 5 2 35 4 10 7 5 A2 B022 AX RAO03000105 DE 120 80 120 80 62 5 5 2 35 3 00 10 5 A2037 AX RAO01830180 DE 180 85 190 140 55 6 5 5 1 83 16 0 A2055 AX RAO01150220 DE 180 85 190 140 55 6 5 5 1 15 22 0 A2075 AX RAO00950320 DE 180 85 205 140 55 6 6 5 0 95 32 0...

Page 198: ...er Motor KW Dimensions Weight Kg L W H X Y m AX FEM2102 RE 21 2 2 85 22 46 70 5 0 1 AX FEM2515 RE 25 15 105 25 62 90 5 0 2 External dimensions Height 55 mm Width 70 mm Depth 10 mm X H Y W Ø m L Ø d Data display Operation keys Panel cutout dimension RUN command LED indicator FREQ adjuster 2 M3 Depth 5 8 8 18 16 5 15 3 2 φ4 20 5 18 7 10 2 7 ...

Page 199: ...Appendix Appendix 1Parameter ListApp 2 Appendix 2Product Life CurveApp 18 ...

Page 200: ...erminal 4 2 ON Terminal 5 3 1 OFF d006 Multi function output monitor Example Terminal 11 ON Terminal AL2 OFF d007 Output frequency monitor after conversion 0 00 to 99 99 100 0 to 999 9 1000 to 9999 1000 to 3996 10000 to 39960 Output frequency Conversion factor of b086 d013 Output voltage monitor 0 to 600 V d016 Total RUN Time 0 to 9999 1000 to 9999 100 to 999 h h d017 Power ON time monitor 0 to 99...

Page 201: ...on 00 Forward 01 Reverse 00 No Parameter No Name Monitor or data range Digital Operator Default setting Changes during operation Unit Set value Parameter No Function name Monitor or data range Digital Operator Default setting Changes during operation Unit Set value Basic setting A001 Frequency reference selection 00 Digital Operator FREQ adjuster 01 Terminal 02 Digital Operator F001 03 ModBus comm...

Page 202: ... A014 O end ratio 0 to 100 100 No A015 O start selection 00 External start frequency A011 set value 01 0 Hz 01 No A016 O OI sampling 1 to 17 8 No Multi step speed Jogging A020 Multi step speed reference 0 0 0 Starting frequency to Max frequency 6 0 Yes Hz A220 2nd multi step speed reference 0 0 0 Starting frequency to 2nd max frequency 6 0 Yes Hz Parameter No Function name Monitor or data range Di...

Page 203: ... speed reference 9 0 0 A030 Multi step speed reference 10 0 0 A031 Multi step speed reference 11 0 0 A032 Multi step speed reference 12 0 0 A033 Multi step speed reference 13 0 0 A034 Multi step speed reference 14 0 0 A035 Multi step speed reference 15 0 0 A038 Jogging frequency 0 00 Starting frequency to 9 99 6 00 Yes Hz A039 Jogging stop selection 00 Free run stop 01 Deceleration stop 02 DC inje...

Page 204: ...ial VP 00 No A244 2nd V f characteristics selection 00 A045 Output voltage gain 20 to 100 100 Yes A245 2nd output voltage gain 100 DC injection braking A051 DC injection braking selection 00 Disabled 01 Enabled 02 Frequency control A052 set value 00 No A052 DC injection braking frequency 0 0 to 60 0 0 5 No Hz A053 DC injection braking delay time 0 0 to 5 0 0 0 No s A054 DC injection braking power ...

Page 205: ...election 00 Disabled 01 Enabled 00 No A072 PID P gain 0 2 to 5 0 1 0 Yes A073 PID I gain 0 0 to 150 0 1 0 Yes s A074 PID D gain 0 00 to 100 0 0 0 Yes s A075 PID scale 0 01 to 99 99 1 00 No Time A076 PID feedback selection 00 OI 01 O 02 RS485 communication 10 Operation function output 00 No A077 Reverse PID function 00 OFF Deviation Target value Feedback value 01 ON Deviation Feedback value Target ...

Page 206: ...ation selection 00 Switched via multi function input 09 2CH 01 Switched by setting 00 No A294 2nd 2 step acceleration deceleration selection 00 A095 2 step acceleration frequency 0 0 to 400 0 0 0 No Hz A295 2nd 2 step acceleration frequency 0 0 A096 2 step deceleration frequency 0 0 to 400 0 0 0 No Hz A296 2nd 2 step deceleration frequency 0 0 A097 Acceleration pattern selection 00 Line 01 S shape...

Page 207: ...rator selection 00 Addition A B 01 Subtraction A B 02 Multiplication A B 00 No Frequency addition A145 Frequency addition amount 0 0 to 400 0 0 0 Yes Hz A146 Frequency addition direction 00 Adds A145 value to output frequency 01 Subtract A145 value from output frequency 00 No VR adjustment A151 VR start frequency 0 0 to 400 0 0 0 No Hz A152 VR end frequency 0 0 to 400 0 0 0 No Hz A153 VR start rat...

Page 208: ...o b011 Starting frequency at Active Frequency Matching restart 00 Frequency at interruption 01 Max frequency 02 Set frequency 00 No Electronic thermal b012 Electronic thermal level 0 2 Rated current to 1 0 Rated current Rated current No A b212 2nd electronic thermal level Rated current b013 Electronic thermal characteristics selection 00 Reduced torque characteristics 1 01 Constant torque characte...

Page 209: ...ching b029 Deceleration rate constant at Active Frequency Matching restart 0 1 to 3000 0 0 5 No s b030 Active Frequency Matching restart level 0 2 Rated current to 2 0 Rated current Rated current No A Lock b031 Soft lock selection 00 Data other than b031 cannot be changed when terminal SFT is ON 01 Data other than b031 and the specified frequency parameter cannot be changed when terminal SFT is ON...

Page 210: ...y power interruption 0 0 to 10 0 0 0 No Hz Others b055 Overvoltage protection proportional gain during deceleration 0 2 to 5 0 0 2 Yes b056 Overvoltage protection integral time during deceleration 0 0 to 150 0 0 2 Yes s b080 AM adjustment 0 to 255 Shared with C086 for AM offset adjustment 100 Yes b082 Starting frequency 0 5 to 9 9 1 5 No Hz b083 Carrier frequency 2 0 to 12 0 3 0 No kHz Initializat...

Page 211: ...pends on the fin temperature 01 No b130 Overvoltage LAD stop function 00 Disabled 01 Enabled 00 No b131 Overvoltage LAD stop function level setting 200 V class 330 to 395 400 V class 660 to 790 380 760 Yes V b133 Overvoltage protection function selection during deceleration 00 Disabled 01 Enabled 00 No b134 Overvoltage protection level setting during deceleration 200 V class 330 to 395 400 V class...

Page 212: ...ced terminal block 52 RDY ready function 53 SP SET special 2nd function 64 EMR emergency shutoff 1 255 No function 1 The EMR is set forcibly with switch S8 not with parameters 00 No C201 2ndmulti function input 1 selection 00 C002 Multi function input 2 selection 01 C202 2ndmulti function input 2 selection 01 C003 Multi function input 3 selection 18 C203 2ndmulti function input 3 selection 18 C004...

Page 213: ... output AL2 AL1 contact selection 01 C038 Light load signal output mode 00 Enabled during acceleration deceleration constant speed 01 Enabled only during constant speed 01 No C039 Light load detection level 0 0 to 2 0 Rated current 0 0 setting Function disable Rated current No Level output status setting C041 Overload warning level 0 0 Does not operate 0 1 Rated current to 2 0 Rated current Rated ...

Page 214: ...on stop bit selection 1 1 bit 2 2 bit 1 No C076 Communication error selection 00 Trip 01 Trip after deceleration stop 02 Ignore 03 Free run 04 Deceleration stop 02 No C077 Communication error timeout 0 00 to 99 99 0 00 No s C078 Communication wait time 0 to 1000 0 No ms Various adjustment C081 O adjustment 0 0 to 200 0 100 0 Yes C082 OI adjustment 0 0 to 200 0 100 0 Yes Parameter No Function name ...

Page 215: ...gnal 00 No C142 Logic operation function B input 01 No C143 Logic operator selection 00 AND 01 OR 02 XOR 00 No C144 Output terminal 11 ON delay 0 0 to 100 0 0 0 No s C145 Output terminal 11 OFF delay 0 0 to 100 0 0 0 No s C148 Relay output ON delay 0 0 to 100 0 0 0 No s C149 Relay output OFF delay 0 0 to 100 0 0 0 No s Control parameter H003 Motor capacity selection 200 V class 0 2 0 4 0 75 1 5 2 ...

Page 216: ...s should normally be replaced once every 5 years However if the ambient temperature is high or the Inverter is used with a current exceeding the rated current for example under overload conditions its life will be significantly shortened Note Ambient temperature refers to the surrounding atmospheric temperature of the Inverter or the temperature inside if the Inverter is encased or installed in an...

Page 217: ...INDEX ...

Page 218: ...ng 4 19 set frequency operation 4 19 deceleration time 4 6 deceleration time 2 4 27 DWN 4 53 E electronic thermal 4 32 emergency shutoff input function 4 46 end frequency 4 11 EXT 4 49 external trip 4 49 F F R 4 52 FA1 4 57 FA2 4 57 fault frequency monitor 4 4 fault monitor 4 5 FBV 4 24 fin temperature monitor 4 4 forced operator 4 54 forced terminal block 4 54 frequency addition ADD 4 54 frequenc...

Page 219: ...p function 4 43 P PID 4 22 PID feedback value monitor 4 2 PIDC 4 25 power ON time 4 4 power recovery restart prevention 4 50 PTC 4 51 R RDY 4 43 4 44 RDY ready function 4 43 reduced torque characteristics VP 4 15 relay output contact selection 4 61 reset 4 50 retry selection 4 30 rotation digital operator direction selection 4 7 rotation RUN direction monitor 4 2 RS 4 50 RUN 4 55 RUN command selec...

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