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Toshiba TOSVERT VF-MB1, Instruction Manual

The Toshiba TOSVERT VF-MB1 is a top-of-the-line motor drive system designed for efficient operation and precise control. With a comprehensive Instruction Manual available for free download at manualshive.com, users can easily access the technical guidance they need to get the most out of this exceptional product.

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E6581697 

 

L-1 

12 

12. Specifications  

12.1  Models and their standard specifications 

 

 Standard specifications 

 

Item Specification 

Input voltage class 

1-phase 240V class 

Applicable motor (kW) 

0.2  0.4 0.75 1.5  2.2 

Type 

VFMB1S 

Form 

2002PL 2004PL 2007PL 2015PL 2022PL 

Capacity (kVA) Note 1) 

0.6 1.3 1.8 3.0 4.2 

Output current (A)  

Note 2) 

1.5 

(1.9) 

3.3 

(3.7) 

4.8 

(6.0) 

8.0 

(10.0) 

11.0 

(13.7) 

Output voltage Note 3) 

3-phase 200V to 240V 

Rat

ing 

Overload current rating 

150

-60 seconds, 200%-0.5 second (120

-60 seconds, 165%-0.5 second) Note 2) 

Voltage-frequency 

1-phase 200V to 240V - 50/60Hz 

Allowable fluctuation 

Voltage 170 to 264V Note 4), frequency ±5% 

Po

w

er

 

supp

ly

 

Required Power supply 

capacity (kVA) Note 5) 

0.8 1.4 2.3 4.0 5.4 

Protective method (IEC60529) 

IP20 

Cooling method 

Forced air-cooled 

Color 

RAL7016 

Built-in filter 

EMC filter 

 

Item Specification 

Input voltage class 

3-phase 500V class 

Applicable motor (kW) 

0.4 0.75 1.5 2.2 4.0 5.5 7.5  11  15 

Type 

VFMB1 

Form 

4004PL 4007PL 4015PL 4022PL 4037PL 4055PL 4075PL 4110PL 4150PL 

Capacity (kVA) Note 1) 

1.1 1.8 3.1 4.2 7.2 11 13 21 25 

Output current (A)  

Note 2) 

1.5 

(2.1) 

2.3 

(3.0) 

4.1 

(5.4) 

5.5 

(6.9) 

9.5 

(11.9) 

14.3 

(17.0) 

17.0 

(23.0) 

27.7 

(33.0) 

33.0 

(40.0) 

Output voltage Note 3) 

3-phase 380V to 500V 

Rat

ing 

Overload current rating 

150

-60 seconds, 200%-0.5 second (120

-60 seconds, 165%-0.5 second) Note 2) 

Voltage-frequency 

3-phase 380V to 500V - 50/60Hz 

Allowable fluctuation 

Voltage 323 to 550V Note 4), frequency ±5% 

Po

w

er

 

supp

ly

 

Required Power supply 

capacity (kVA) Note 5) 

1.6 2.6 4.7 6.3 10.1 15.2 19.6 26.9 34.9 

Protective method (IEC60529) 

IP20 

Cooling method 

Forced air-cooled 

Color 

RAL7016 

Built-in filter 

EMC filter 

Note 1.  Capacity is calculated at 220V for the 240V models, at 440V for the 500V models. 
Note 2.  It is a value when the inverter overload characteristic selection (parameter 

aul

) is the constant torque characteristic. 

Value in ( ) for the variable torque characteristic. Input AC reactor (ACL) is needed when output current is used by (). 
The output current must be reduced according to the PWM carrier frequency and ambient temperature. 
(Refer to section 6.14) 

Note 3.  Maximum output voltage is the same as the input voltage. 
Note 4.  At 180V-264V for the 240V models, at 342V-550V for the 500V models when the inverter is used continuously (load of 

100%). 

Note 5.  Required power supply capacity varies with the value of the power supply side inverter impedance (including those of 

the input reactor and cables).

 

Summary of Contents for TOSVERT VF-MB1

Page 1: ...pheral devices Table of parameters and data Specifications Before making a service call Inspection and maintenance Warranty Disposal of the inverter NOTICE 1 Make sure that this instruction manual is delivered to the end user of the inverter unit 2 Read this manual before installing or operating the inverter unit and store it in a safe place for reference Instruction Manual TOSVERT TM VF MB1 1 pha...

Page 2: ...to injury 1 to people or that these errors may cause damage to physical property 2 1 Such things as injury burns or shock that will not require hospitalization or long periods of outpatient treatment 2 Physical property damage refers to wide ranging damage to assets and materials Meanings of symbols Marking Meaning of marking Indicates prohibition Don t do it What is prohibited will be described i...

Page 3: ...hree phase output and cannot drive a single phase motor Handling Warning Reference section Disassembly prohibited Never disassemble modify or repair This can result in electric shock fire and injury Call your Toshiba distributor for repairs 2 Prohibited Do not open the terminal block cover while the inverter is on The unit contains many high voltage parts and contact with them will result in elect...

Page 4: ... prescribed in the instruction manual Use under any other conditions may result in malfunction Mount the inverter on a metal plate The rear panel gets very hot Do not install in an inflammable object this can result in fire Do not use the inverter without the terminal block cover This can result in electric shock Failure to do so can lead to risk of electric shock and can result in death or seriou...

Page 5: ...2 2 2 2 2 2 2 Mandatory action Electrical installation work must be done by a qualified expert Connection of input power by someone who does not have that expert knowledge may result in fire or electric shock Connect output terminals motor side correctly If the phase sequence is incorrect the motor will operate in reverse and that may result in injury Wiring must be done after installation If wiri...

Page 6: ...ake sure that operation signals are off before resetting the inverter after malfunction If the inverter is reset before turning off the operating signal the motor may restart suddenly causing injury Configuring settings on the setup menu incorrectly may break the inverter or lead to malfunction 3 3 3 1 Caution Reference section Prohibited Observe all permissible operating ranges of motors and mech...

Page 7: ...equipment If the motor stops due to a momentary power failure the equipment will start suddenly after power recovers This could result in unexpected injury Attach caution label about sudden restart after a momentary power failure on inverters motors and equipment for prevention of accidents in advance 6 12 1 6 12 1 When retry function is selected inverter Caution Reference section Mandatory action...

Page 8: ...in the processing of waste and known as industrial waste product collectors and transporters or industrial waste disposal persons If the collection transport and disposal of industrial waste is done by someone who is not licensed for that job it is a punishable violation of the law Laws in regard to cleaning and processing of waste materials 16 Attach caution labels Shown here are examples of caut...

Page 9: ...oduction Thank you for your purchase of the Toshiba TOSVERT VF MB1 industrial inverter This instruction manual is for the Ver 106 or later CPU of the inverter Please be informed that CPU version will be frequently upgraded ...

Page 10: ...peeds in 15 steps C 24 4 Setting parameters D 1 4 1 Setting and Display Modes D 1 4 2 How to set parameters D 3 4 3 Functions useful in searching for a parameter or changing a parameter setting D 7 4 4 Checking the region settings selection D 13 4 5 EASY key function D 14 5 Main parameters E 1 5 1 Searching for changes using the history function E 1 5 2 Setting a parameter using the guidance funct...

Page 11: ... braking F 24 6 9 Time limit for lower limit frequency operation F 26 6 10 Jog run mode F 27 6 11 Jump frequency avoiding resonant frequencies F 29 6 12 Preset speed frequencies F 30 6 13 Bumpless operation F 30 6 14 PWM carrier frequency F 32 6 15 Trip less intensification F 36 6 16 Droop control F 50 6 17 Light load high speed operation function F 52 6 18 Braking function F 52 6 19 Acceleration ...

Page 12: ...ive I 1 9 2 Compliance with UL Standard and CSA Standard I 6 9 3 Compliance with Safety Standards I 8 9 4 Compliance with ATEX applications I 8 10 Peripheral devices J 1 10 1 Selection of wiring materials and devices J 1 10 2 Installation of a magnetic contactor J 3 10 3 Installation of an overload relay J 4 10 4 Optional external devices J 5 11 Table of parameters and data K 1 11 1 Frequency sett...

Page 13: ... a trip M 7 13 3 If the motor does not run while no trip message is displayed M 8 13 4 How to determine the causes of other problems M 9 14 Inspection and maintenance N 1 14 1 Regular inspection N 1 14 2 Periodical inspection N 2 14 3 Making a call for servicing N 5 14 4 Keeping the inverter in storage N 5 15 Warranty O 1 16 Disposal of the inverter P 1 ...

Page 14: ...being used If the inverter being used does not conform to those specifications not only will the three phase induction motor not rotate correctly it may also cause serious accidents through overheating and fire Rated output current Power supply Rated input current Inverter Type Inverter rated output capacity Danger label Model Power supply Motor capacity Inverter main unit Carton box Name plate Da...

Page 15: ... 11kW 150 15kW Additional functions I None No filter inside L Built in high attenuation EMC filter Operation panel P Provided Input AC voltage 2 200V to 240V 4 380V to 500V Note 1 Always shut power off first then check the ratings label of inverter held in a cabinet Note 2 ID label is stuck for special specification product Instruction manual E6581697 Danger label kit Danger labels for sticking in...

Page 16: ...r when this lamp is lit because it is dangerous NET lamp Lights when using the communication option CANopen LED Lights and blinks when using CANopen communication MON lamp While this is lit the inverter is in monitor mode While blinking the inverter is in Past Trip History Details Monitor Display Hz lamp Displayed numbers are in Hertz EASY lamp Lights when operating by EASY key RUN lamp Lit when a...

Page 17: ...es RUN key Pressing this key while the run lamp is on starts operation Control terminal cover This is the control terminal board cover Always close this cover before operation to avoid accidentally touching the terminal board The serial number is recorded on the back side MODE key Switches between run settings and status monitor modes RJ45 connector for using RS485 CANopen communication and other ...

Page 18: ...ations LED display numbers 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 LED display letters Aa Bb C c Dd Ee Ff Gg H h I i Jj Kk Ll a b c w d e f g h k i j l Mm Nn O o Pp Qq Rr Ss Tt Uu Vv Ww Xx Yy Zz m n o x p q r s t u v y 1 2 MODE STOP EASY RUN RUN EASY CAM RUN CAM ERR NET Hz PRG MON MODBUS VP10S MODE STOP EASY RUN RUN EASY CAM RUN CAM ERR NET Hz PRG MON MODBUS VP10S ...

Page 19: ...ury Pressing too hard on the screwdriver may scratch the inverter Always cut the power supply when removing the wiring cover After wiring is complete be sure to replace the terminal cover Use the following procedure to open the terminal cover and pull the power terminal block 1 Opening the upper terminal input terminal cover VFMB1S 2002 to 2022PL VFMB1 4004 to 4037PL 1 2 Put your finger on the ter...

Page 20: ...rt the attached screw into the hole And tighten the screw by a screwdriver And then insert the attached earth screw into the earth hole and tighten the earth screw by a screwdriver MOD E STO P EASY RUN RUN EASY CAM RUN CAM ERR NET Hz PRG MON MODBUS VP10S MOD E STO P EASY RUN RUN EASY CAM RUN CAM ERR NET Hz PRG MON MODBUS VP10S MOD E STO P EASY RUN RUN EASY CAM RUN CAM ERR NET Hz PRG MON MODBUS VP1...

Page 21: ...ounting screw by a screwdriver And pick the screws up Move the terminal block downward Slide the terminal block to remove it MOD E STO P EASY RUN RUN EASY CAM RUN CAM ERR NET Hz PRG MON MODBUS VP10S MOD E STO P EASY RUN RUN EASY CAM RUN CAM ERR NET Hz PRG MON MODBUS VP10S MOD E STO P EASY RUN RUN EASY CAM RUN CAM ERR NET Hz PRG MON MODBUS VP10S ...

Page 22: ...r wiring is complete be sure to restore the terminal cover to its original position 1 2 3 Insert a screwdriver or other thin object into the hole indicated with the mark Press in on the screwdriver While pressing on the screwdriver slide the terminal cover downward to remove it ...

Page 23: ...o 4150PL Terminal Screw size Torque Strip length Screw size Torque Strip length Input M3 0 6Nm 5 3lb in 7 8mm Output M3 0 8Nm 7 1lb in 9 10mm M4 1 4Nm 12 4lb in 9 10mm Earth For input M5 3 0Nm 26 6lb in Earth For output M4 1 4Nm 12 4lb in M5 3 0Nm 26 6lb in Refer to section 2 3 1 for details about terminal functions R L1 PBe PB U T1V T2 W T3 S L2 N R L1 PBe PB U T1V T2 W T3 S L2 N VFMB1S 2002 to 2...

Page 24: ...2 T L3 VFMB1 4004 to 4015PL VFMB1 4022 4037PL VFMB1S 2002 to 2022PL VFMB1 4004 to 4037PL Top view M3 screw Earth terminal M4 screw EMC plate M3 screw M3 screw Earth terminal M4 screw EMC plate M3 screw DC bus connectors PA PC Earth terminals M5 screw Grounding capacitor switch PC PA ...

Page 25: ...connect the PB PBe PA and PC terminals Note2 Be careful to insert all wires into the cage of terminal block VFMB1 4055 4075PL VFMB1 4110 4150PL M4 screw Earth terminals M5 screw M4 screw M4 screw Earth terminals M5 screw M4 screw Grounding capacitor switch Grounding capacitor switch ...

Page 26: ...ing this switches the grounding capacitor s capacity from large to small This reduces the leakage current When this inverter is connected to the IT system insulated ground of power supply or the system has Impedance the switch has to be pulled as the figure shows Pressing this switches the grounding capacitor s capacity from small to large Default setting Pulling this switches the grounding capaci...

Page 27: ...1 6RD DN01006 1 5 16 AI 1 5 8BK DN01508 2 X 0 5 AI TWIN2 X 0 5 8WH DTE00508 2 X0 75 AI TWIN2 X 0 75 8GY DTE00708 1 Crimping pliers CRIMPFOX ZA3 PHOENIX CONTACT CT1 Dinkle International Ltd 2 These ferrules enable practical crimping of two wires in a ferrule FLA FLB FLC CC CC VIC VIB VIA CC P24 F R RES S1 S2 S3 NO OUT SU RC RY STO PP FM Stripping length 6 mm Screwdriver Small sized flat blade screw...

Page 28: ... If this happens operate with the output decreased from rated load To carry out low speed operation continuously at the rated torque we recommend to use a inverter rated motor or a forced cooled motor designed for use with an inverter When operating in conjunction with a inverter rated motor you must change the inverter s motor overload protection level to VF motor use Adjusting the overload prote...

Page 29: ...h backlash When using the inverter in the above combination use the S pattern acceleration deceleration function or when vector control is selected adjust the speed control response or switch to V f control mode Combined with loads that have sharp fluctuations in rotation such as piston movements In this case adjust the response time inertial moment setting during vector control or switch to V f c...

Page 30: ...is turned on and off by using low speed signal OUT In some situations such as with elevators turning the brake on and off with a low speed signal may be appropriate Be sure to contact us before designing your system Measures to protect motors against surge voltages In a system in which a 500V class inverter is used to control the operation of a motor very high surge voltages may be produced When a...

Page 31: ...ple will raise the output peak current making it easier to set off the overcurrent trip Power factor correction capacitor Power factor correction capacitors cannot be installed on the output side of the inverter When a motor is run that has a power factor correction capacitor attached to it remove the capacitors This can cause inverter malfunction and capacitor destruction Remove the power factor ...

Page 32: ... install a circuit interrupting fuse behind MCCB2 to MCCBn 1 If power supply distortion is not negligible If the power supply distortion is not negligible because the inverter shares a power distribution line with other systems causing distorted waves such as systems with thyristors or large capacity inverters install an input reactor to improve the input power factor to reduce higher harmonics or...

Page 33: ... current may flow not just through the inverter system but also through ground wires to other systems Leakage current will cause earth leakage breakers leakage current relays ground relays fire alarms and sensors to operate improperly and it will cause superimposed noise on the TV screen or display of incorrect current detection with the CT Power supply ELCB Inverter Inverter IM IM ELCB Leakage cu...

Page 34: ...ermal is done using parameter 2 Reduce the inverter s PWM carrier frequency However that will increase the motor s magnetic noise The setting of PWM carrier frequency is done with the parameter Refer to section 6 14 3 This can be improved by installing 0 1μ to 0 5μF 1000V film capacitor to the input output terminals of each phase in the thermal relay 2 CT and ammeter If a CT and ammeter are connec...

Page 35: ... an electronic control instrument Take full consideration to installing it in the proper operating environment Warning Prohibited Do not place any inflammable substances near the inverter If an accident occurs in which flame is emitted this could lead to fire Do not install in any location where the inverter could come into contact with water or other fluids This can result in electric shock or fi...

Page 36: ...on 5cm Position for measuring ambient temperature Note The inverter is a heat emitting body Make sure proper space and ventilation is provided when installing in the cabinet Do not install in any location that is subject to large amounts of vibration Note If the inverter is installed in a location that is subject to vibration anti vibration measures are required Please consult with Toshiba about t...

Page 37: ...lled on a base that can bear the unit s weight If the unit is installed on a base that cannot withstand that weight the unit may fall resulting in injury If braking is necessary to hold motor shaft install a mechanical brake The brake on the inverter will not function as a mechanical hold and if used for that purpose injury may result 1 Side by side installation Select an indoor location with good...

Page 38: ...ific values W Note 1 Amount of forcible air cooling ventilation required m3 min Heat discharge surface area required for sealed storage cabinet m3 Voltage class Inverter type 4kHz 12kHz 4kHz 12kHz 4kHz 12kHz Standby power requirement W Note 2 Single phase 240V class VFMB1S 2002PL 2004PL 2007PL 2015PL 2022PL 25 38 51 81 103 27 43 56 93 112 0 14 0 22 0 29 0 46 0 58 0 15 0 24 0 32 0 53 0 63 0 49 0 76...

Page 39: ...e inverter Install noise filters if necessary To comply with the EMC directives install the optional EMC plate and fix the shield to it Install EMC plate and use shielded wires Installing more than one unit in a cabinet When two or more inverters are installed in one cabinet pay attention to the followings Inverters may be installed side by side with each other with no space left between them When...

Page 40: ...fter attaching the front cover or closing door if enclosed in a cabinet If power is turned on without the terminal cover attached or closing door if enclosed in a cabinet This can result in electric shock or other injury Electrical construction work must be done by a qualified expert Connection of input power by someone who does not have that expert knowledge may result in fire or electric shock C...

Page 41: ...e of the malfunction or the trip use the trip holding retention selection parameter In addition please use an optional control power supply backup unit when only control power supply operates even if the main circuit is shut off due to trouble or tripping Wiring Because the space between the main circuit terminals is small use sleeved crimp style terminals for the connections Connect the terminals...

Page 42: ...ipment MCCB that is connected to inverter power side Touching the wires before that time could result in electric shock Do not shut down the external power supply on ahead when VIA or VIB terminals are used as logic input terminal by external power supply It could cause unexpected result as VIA or VIB terminals are ON status Mandatory action Set a parameter f109 when VIA or VIB terminals are used ...

Page 43: ...0 240V 50 60Hz 3ph 500V class three phase 380 500V 50 60Hz or voltage signal between VIA and CC 0 10V Standard connection diagram SINK Negative common CC Low speed signal output 2 The T L3 terminal is not provided for single phase models Use the R L1 and S L2 N terminals as input terminals 3 When using the OUT output terminal in sink logic mode short the NO and CC terminals 5 To supply control pow...

Page 44: ...mA Frequency meter ammeter or voltage signal between VIA and CC 0 10V Standard connection diagram SOURCE Positive common P24 Noise filter Low speed signal output STO Common 2 The T L3 terminal is not provided for single phase models Use the R L1 and S L2 N terminals as input terminals 3 When using the NO output terminal in source logic mode short the P24 and OUT terminals 5 To supply control power...

Page 45: ...ter There are 3 terminals in total Up to 4 0kW 2 terminals on upper side 1 terminal on down side 5 5 to 15kW 3 terminals on down side R L1 S L2 T L3 240V class Single phase 200 to 240V 50 60Hz 500V class Three phase 380 to 500V 50 60Hz Single phase inputs are R L1 and S L2 N terminals U T1 V T2 W T3 Connect to three phase motor PBe PB Connect to braking resistors Change parameters if necessary PA ...

Page 46: ...ferent functions can be assigned RES Input This inverter protective function is reset if RES CC or P24 RES is connected Shorting RES CC or P24 RES has no effect when the inverter is in a normal condition 2 different functions can be assigned S1 Input Shorting across S1 CC or P24 S1 causes preset speed operation 2 different functions can be assigned S2 Input Shorting across S2 CC or P24 S2 causes p...

Page 47: ...function programmable logic input terminal 10Vdc internal impedance 30k V I B Note 1 Input Multifunction programmable analog input Default setting 0 10Vdc 1 1000 resolution and 0 60Hz 0 50Hz frequency input The function can be changed to 10 10V input by parameter 1 setting By changing parameter f109 setting this terminal can also be used as a multifunction programmable logic input terminal 10Vdc i...

Page 48: ...r operating the control circuit Connect a control power backup device option between SU and CC Voltage 24Vdc 10 Current 1A or more SU Output It is used with STO for safety function SU and STO terminals are short circuited by metal bar at default setting STO Note 2 Input When SU and STO are short circuited the inverter is put into a standby state Default setting And when the circuit between them is...

Page 49: ...etting Contact across FLA FLC is closed and FLB FLC is opened during protection function operation Max switching capacity 250Vac 2A 30Vdc 2A cos 1 at resistive load 250Vac 1A cos 0 4 30Vdc 1A L R 7ms Min permissible load 5Vdc 100mA 24Vdc 5mA RY RC Note 3 Output Multifunction programmable relay contact output Default settings detect and output low speed signal output frequencies Multifunction outpu...

Page 50: ...c Each logic is supplied with electricity from either the inverter s internal power supply or an external power supply and its connections vary depending on the power supply used Sink source logic can be switched by slide switch SW1 Examples of connections when the inverter s internal power supply is used CC NO Source Positive logic Inverter P24 F Programmable controller Common Common Output Input...

Page 51: ... Set the sink source logic switching before power supply switches on After confirming the right for sink source setting power supply switches on 2 Switching of S3 terminal function SW2 Default setting LOGIC side Setting of logic input PTC input for S3 terminal is switched by slide switch SW2 and parameter 47 When using S3 terminal as a logic input terminal set the slide switch SW2 to LOGIC side an...

Page 52: ...tion in such a state the result may be fire Call your Toshiba distributor for repairs Always turn power off if the inverter is not used for long periods of time Turn the input power on only after attaching the terminal block cover When enclosed inside a cabinet and used with the terminal block cover removed always close the cabinet doors first and then turn the power on If the power is turned on w...

Page 53: ...voltage of the motor connected See the table on the following page Follow these steps to change the setup menu Example Selecting a region code to Panel operated LED display Operation set is blinking Turn the setting dial and select region code Europe Press the center of the setting dial to determine the region The operation frequency is displayed Standby If you want to change the selected region b...

Page 54: ...z 50 0 Hz 60 0 Hz 240V class 230 V 230 V 230 V 200 V Base frequency voltage 1 2 500V class 400 V 460 V 400 V 400 V V F control mode selection 0 0 0 2 Supply voltage correction output voltage limitation 2 2 2 3 Motor rated speed 1410 min 1 1710 min 1 1410 min 1 1710 min 1 Note 1 Excludes Japan Note 2 Slide switch SW1 is set to PLC side at default setting Set it appropriately according to the logic ...

Page 55: ...g Title Function Adjustment range Default setting Command mode selection 0 Terminal board 1 Panel keypad including extension panel 2 RS485 communication 3 CANopen communication 4 Communication option 1 Frequency setting mode selection 0 Setting dial 1 save even if power is off 1 Terminal board VIA 2 Terminal board VIB 3 Setting dial 2 press in center to save 4 RS485 communication 5 UP DOWN from ex...

Page 56: ...layed alternately 1 Run and stop using the panel keypad Use the and keys on the panel keypad to start and stop the motor Motor runs Motor stops The direction of rotation is determined by the setting of parameter forward run reverse run selection forward run reverse run To switch between forward run and reverse run from the extension panel option the parameter forward run reverse run selection need...

Page 57: ...t parameter For coast stop open the ST CC when stopping the motor in the state described at right The monitor on the inverter at this time will display A coast stop can also be made by assigning FRR to an idle terminal When doing this a coast stop is done by shorting FRR and CC Motor speed ON OFF ON OFF F CC ST CC Coast stop ...

Page 58: ... twice returns the display to standard monitor mode displaying output frequency 1 Setting using the keypad or Moves the frequency up Moves the frequency down Example of operating from the panel press in center to save Panel operation LED display Operation Displays the output frequency When standard monitor display selection output frequency Set the output frequency The frequency will not be saved ...

Page 59: ... I A Note Set parameter or Voltage signal Setting frequency using voltage signals 0 10V Refer to section 6 5 2 for detailed adjustment Frequency 50 or 60Hz 0 0Vdc 10Vdc Note Set parameter CC V I B Voltage signal 0 10Vdc Current Signal Current signal Setting frequency using current signals 4 20mA Refer to section 6 5 2 for detailed adjustment Frequency 50 or 60Hz 0 4mAdc 20mAdc Setting of parameter...

Page 60: ...g default setting Title Function Programmed value Command mode selection 1 Frequency setting mode selection 0 3 Operation Run stop Press the and keys on the panel Frequency setting Turn the setting dial to set the frequency The frequency setting is saved just by turning the setting dial 1 Single phase models are R L1 and S L2 N Ex 1 RUN STOP Motor M R L1 S L2 T L3 U T1 V T2 W T3 Operation panel MC...

Page 61: ...cy setting mode selection 3 3 Operation Run stop Press the and keys on the panel Frequency setting Turn the setting dial to set the frequency To save the frequency setting press the center of the setting dial and the set frequency will flash on and off alternately 1 Single phase models are R L1 and S L2 N Ex 2 RUN STOP Motor M R L1 S L2 T L3 U T1 V T2 W T3 Operation panel MCCB PBe PC PA PB 1 ...

Page 62: ...ue Command mode selection 0 Frequency setting mode selection 0 or 3 3 Operation Run stop ON OFF input to F CC R CC with sink logic Frequency setting Turn the setting dial to set the frequency 1 Single phase models are R L1 and S L2 N Ex 3 Motor M F R L1 S L2 T L3 U T1 V T2 W T3 Forward signal R CC Reverse signal Common MCCB Operation panel PBe PC PA PB 1 ...

Page 63: ...nk logic Frequency setting VIA Input 0 10Vdc external potentiometer VIB Input 0 10Vdc or VIC 4 20mAdc to set the frequency Set the selection of VIA VIB or VIC in parameter VIA VIB VIC 1 Single phase models are R L1 and S L2 N Ex 4 Motor M F R L1 S L2 T L3 U T1 V T2 W T3 Forward signal R Reverse signal MCCB CC VIC Common Current signal 4 20mA CC VIB PP Voltage signal 0 10V External potentiometer Ot...

Page 64: ...actor 10 Inverter cumulative load factor 11 PBR Braking resistor cumulative load factor 12 Stator frequency 13 VIA input value 14 VIB input value 15 Fixed output 1 output current 100 equivalent 16 Fixed output 2 output current 50 equivalent 17 Fixed output 3 Other than the output current 18 RS485 communication data 19 For adjustments set value is displayed 20 VIC input value 21 Pulse train input v...

Page 65: ...load resistance is less than 750Ω Use over 1kΩ external load resistance for voltage output Note 2 is the motor drive frequency Adjustment scale with parameter Meter adjustment Connect meters as shown below FM CC Inverter FM CC Inverter The reading of the meter will fluctuate during scale adjustment The reading of the meter will fluctuate during scale adjustment Optional QS 60T frequency meter is a...

Page 66: ... If when adjusting the meter for output current there are large fluctuations in data during adjustment making adjustment difficult the meter can be adjusted in inverter stop state When setting to for fixed output 1 output current 100 equivalent a signal of absolute values will be output inverter s rated current 100 In this state adjust the meter with the Meter adjustment parameter Similarly if you...

Page 67: ...or Parameter setting Title Function Adjustment range Default setting Overload characteristic selection 0 4 1 Constant torque characteristic 150 60s 2 Variable torque characteristic 120 60s 0 Motor electronic thermal protection level 1 10 100 A 1 100 Setting value Overload protection Overload stall 0 valid invalid 1 valid valid 2 invalid invalid 3 Standard motor invalid valid 4 valid invalid 5 vali...

Page 68: ...nction and the overload stall function While the inverter overload trip will be in constantly detective operation the motor overload trip can be selected using the parameter Explanation of terms Overload stall This is an optimum function for equipment such as fans pumps and blowers with variable torque characteristics that the load current decreases as the operating speed decreases When the invert...

Page 69: ...art level is fixed at 30Hz Example of setting When the VFMB1S 2007PL is running with a 0 4kW motor having 2A rated current Operation panel action LED display Operation Displays the output frequency Perform during operation stopped When standard monitor display selection is set to 0 output frequency The first basic parameter history function is displayed Turn the setting dial to change the paramete...

Page 70: ...ls the inverter s rated output current A 1 0 Output frequency Hz Output current reduction factor A 0 Note The start level for motor overload reduction is fixed at 6 Hz 6Hz 0 6 2 Motor 150 overload detection time f607 Parameter f607 is used to set the time elapsed before the motor trips under a load of 150 overload trip 2 within a range of 10 to 2400 seconds 3 Inverter overload characteristics f631...

Page 71: ...istic This parameter adjusts automatically overload protection predicting the inverter internal temperature rise diagonally shaded area in the figure below 60 100 Inverter rated output current time s Monitored output current 0 110 150 Inverter overload protection characteristics 60 100 Inverter rated output current time s Inverter overload Monitored output current 0 110 150 Current Inverter overlo...

Page 72: ...t want the inverter to reduce the carrier frequency automatically set the parameter Note 3 Overload detection level is variable by condition of output frequency and carrier frequency Note 4 Regarding to characteristic for aul 2 setting refer to section 3 5 5 4 Electronic thermal memory f632 When the power is OFF it is possible to reset or maintain the overload totaling level This parameter s setti...

Page 73: ...ariable torque characteristic 120 60s 0 Regarding to characteristic for 1 setting refer to section 3 5 3 Note 1 In case of 2 setting be sure to install the input AC reactor ACL between power supply and inverter Variable torque characteristic 120 60s Inverter overload protection characteristic 60 100 Inverter rated output current time s Inverter overload Monitored output current 0 105 120 Current I...

Page 74: ...erload characteristic can be confirmed by status monitor Refer to monitor Overload and region setting of section 8 2 1 6 Overload alarm level f657 When the motor overload level reaches to setting value of overload trip OL2 level output frequency monitor and L of left side digit are blinking on overload alarm status Overload alarm signal can be output Parameters settings Title Function Adjustment r...

Page 75: ... mode selection 0 Terminal board 1 Panel keypad including extension panel 2 RS485 communication 3 CANopen communication 4 Communication option 0 Note When switching between preset speed operation and other speed commands analog signal setting dial communication etc select the frequency setting mode at Refer to section 3 or 5 5 2 Preset speed frequency setting Set the speed frequency of the number ...

Page 76: ...command 1 SS1 Terminal S2 Input terminal function selection 5 S2 12 Preset speed command 2 SS2 Terminal S3 Input terminal function selection 6 S3 14 Preset speed command 3 SS3 Terminal RES Input terminal function selection 3A RES 16 preset speed command 4 SS4 In the default settings SS4 is not assigned Assign SS4 to RES with input terminal function selection CC S1 S2 RES S3 Example of a connection...

Page 77: ...c input 8 Terminal board VIC 11 Pulse train input 0 Setting dial 1 save even if power is off 3 Setting dial 2 press in center to save 4 RS485 communication 6 CANopen communication 7 Communication option Active Preset speed command valid Note Terminal command valid Setting dial command valid Communication command valid Preset speed command Inactive Terminal command valid Setting dial command valid ...

Page 78: ...y setting mode and the Standard setting mode This mode is for monitoring the output frequency and setting the frequency reference value If also displays information about status alarms during running and trips Display of output frequency etc f710 Initial panel display selection f720 Initial extension panel display selection f702 Free unit display scale Setting frequency reference values Status ala...

Page 79: ...monitoring all inverter status Allows monitoring of set frequencies output current voltage and terminal information Refer to chapter 8 The inverter can be moved through each of the modes by pressing the MODE key Frequency setting method Refer to section 3 2 2 How to search and set parameters Refer to section 4 2 Monitoring of operation status Refer to section 8 2 ...

Page 80: ...ion In the Easy setting mode the EASY lamp lights If the EASY key is pressed while the setting dial is being turned values continue to be incremented or decremented even if you release your finger from the setting dial This feature is handy when setting large values Note Of the available parameters number value parameters etc are reflected in actual operation when the setting dial is turned Note h...

Page 81: ...splayed Basic parameters This parameter is a basic parameter for the operation of the inverter Refer to chapter 5 for details Refer to section 11 2 for parameter tables Extended parameters The parameters for detailed and special setting Refer to chapter 6 for details Refer to section 11 3 for parameter tables Note Refer to section 11 8 for unchangeable parameters in running ...

Page 82: ...er of the setting dial 3 Change the parameter value Turn the setting dial 4 Press this key to save the change Press the center of the setting dial To switch to the Standard setting mode press the EASY key in the Standard monitor mode is displayed and the mode is switched Easy setting mode Default registered parameters Title Function Command mode selection Frequency setting mode selection Accelerat...

Page 83: ...d How to set basic parameters 1 Selects parameter to be changed Turn the setting dial 2 Reads the programmed parameter setting Press the center of the setting dial 3 Change the parameter value Turn the setting dial 4 Press this key to save the change Press the center of the setting dial To switch to the Easy setting mode press the EASY key in the Standard monitor mode easy is displayed and the mod...

Page 84: ...o be selected or set in advance Changed parameters history search History function This function automatically searches for the last five parameters whose settings have been changed To use this function select the parameter Any changes are displayed regardless of whether or not they are the same as standard defaults Refer to section 5 1 for details Set parameters by purpose Guidance function Only ...

Page 85: ...nction select the parameter Refer to section 4 3 1 for details 4 3 1 Searching for and resetting changed parameters Automatic edit function Note 1 If you reset a parameter to its factory default the parameter will no longer appear in Note 2 It may take several seconds to display changed parameters because all data stored in the user parameter group is checked against the default settings To cancel...

Page 86: ...he reverse direction Press the center of the setting dial to display set values Turn the setting dial and change set values Press the center of the setting dial to set values The parameter name and set value light alternately and are written Use the same steps as those above and turn the setting dial to display parameters to search for or whose settings must be changed and check or change the para...

Page 87: ...f starting clear 13 Default setting 2 complete initialization 0 This function will be displayed as 0 during reading on the right This previous setting is displayed Example cannot be set during the inverter operating Always stop the inverter first and then program Programmed value 50 Hz default setting Setting to sets the following parameters for base frequency 50 Hz use The setting values of other...

Page 88: ...ard motor mode In this case the trip history data is cleared Trip record clear Setting to initializes the past eight sets of recorded error history data The parameter does not change Cumulative operation time clear Setting to resets the cumulative operation time to the initial value zero Initialization of type information Setting typ to clears the trips when an format error occurs But if the displ...

Page 89: ...e to the initial value zero Set this parameter when replacing the cooling fan and so on Number of starting clear Setting to12 resets the number of starting to the initial value zero Default setting 2 1 Set to to return all parameters to their default settings When is set is displayed for a short time after the settings are configured and then disappears Then setup menu is displayed After reviewing...

Page 90: ...nt of region settings The number displayed when parameter is read indicates which of the following regions was selected on the setup menu Europe is selected on the setup menu Asia Oceania is selected on the setup menu North America is selected on the setup menu Japan is selected on the setup menu The setup menu is started by writing Refer to section 3 1 for details Note to set to parameter are rea...

Page 91: ... easy setting mode parameters of frequently changed parameters and reading of only registered parameters maximum of 32 types In the Easy setting mode the EASY lamp lights Standard setting mode Standard setting mode in which all parameters are read out How to read out parameters Use the EASY key to change between Easy setting mode and Standard setting mode and then press the MODE key to enter the s...

Page 92: ...setting mode Press the EASY key to switch to standard mode Always in easy setting mode However it can be switched to standard setting mode by EASY key if it is set to psel 0 1 When psel is not displayed in Easy setting mode undo is displayed and it can be temporarily switched to standard setting mode by EASY key after center of the setting dial is pushed for five seconds or more ...

Page 93: ...sy setting mode parameter 8 Easy setting mode parameter 9 Easy setting mode parameter 10 Easy setting mode parameter 11 Easy setting mode parameter 12 Easy setting mode parameter 13 Easy setting mode parameter 14 Easy setting mode parameter 15 Easy setting mode parameter 16 Easy setting mode parameter 17 Easy setting mode parameter 18 Easy setting mode parameter 19 Easy setting mode parameter 20 E...

Page 94: ... to start and stop operation and to set the frequency To switch between control device set the parameter to and then select the desired control device using the EASY key When using the terminal board Remote mode If no switching operation is required The EASY lamp is in lights out When using the operation panel Local mode Turn on the EASY key The EASY lamp lights Panel operation is possible Note Pl...

Page 95: ...d are added respectively to the first and last parameters in a history of changes How to use the history function Operation panel action LED display Operation Displays the output frequency operation stopped When standard monitor display selection output frequency The first basic parameter history function is displayed The parameter that was set or changed last is displayed Press the center of the ...

Page 96: ...e function Guidance function Parameter setting Title Function Adjustment range Default setting Guidance function 0 1 Note 1 2 Preset speed guidance 3 Analog signal operation guidance 4 Motor 1 2 switching operation guidance 5 Motor constant setting guidance 0 Note1 1 is for manufacturer s settings Do not change the settings Guidance function The guidance function refers to the special function of ...

Page 97: ...ing value Press the center of the setting dial to display the purpose specific guidance parameter group refer to following table After moving to the purpose specific guidance parameter group use the setting dial to change the parameters is displayed on completion of the setting of the guidance parameter group Display of parameter Press the MODE key to exit the guidance parameter group By pressing ...

Page 98: ...unction Preset speed setting guidance auf 2 Analog input operation guidance auf 3 Motor 2 switching operation guidance auf 4 Motor constant setting guidance auf 5 5 3 Selecting inverter overload characteristic Overload characteristic selection Refer to section 3 5 for details ...

Page 99: ...eceleration speed is not adjusted automatically but reduced at the rate set with Output frequency Hz Deceleration time Acceleration time Load torque small The moment of inertia small Time sec 0 Shorten acceleration deceleration time Deceleration time Acceleration time Output frequency Hz Time sec 0 Lengthen acceleration deceleration time Load torque large The moment of inertia large Set automatic ...

Page 100: ...ing dial to the right to change the parameter to 1 or Press the center of the setting dial to save the changed parameter and the parameter are displayed alternately Assigning the forced deceleration command function number 120 to 123 to any logic input terminal it can be changed automatic deceleration by compulsion 5 4 2 Manually setting acceleration deceleration time Set acceleration time from 0 ...

Page 101: ...ion Adjustment range Default setting Torque boost setting macro function 0 1 Automatic torque boost auto tuning 2 Vector control auto tuning 3 Energy saving auto tuning 0 Note1 Parameter displays on the right always return to after setting The previous setting is displayed on the left Ex Note2 Auto tuning is performed at the start of the motor 1 Increasing torque automatically according to the loa...

Page 102: ... section 6 21 Note 4 Setting to automatically programs to 3 Energy saving operation is set to Energy saving auto tuning When torque boost setting macro function control is set to energy saving auto tuning the inverter always passes a current appropriate to the load for energy saving Note 5 The same characteristic can be obtained by setting the V F control mode selection parameter to automatic ener...

Page 103: ...etting Check the programmed value of Automatic torque boost auto tuning Automatic torque boost Auto tuning executed after execution 0 Vector control auto tuning Vector control Auto tuning executed after execution 0 Energy saving auto tuning Energy saving Auto tuning executed after execution 0 4 Increasing torque manually V F constant control This is the setting of constant torque characteristics t...

Page 104: ...of an external signal run and stop operation Panel keypad operation Press the and keys on the panel keypad to run and stop Operation can also be done from the extension panel RS485 communication Run stop operations by RS485 communication from an external device Refer to section 6 33 3 CANopen communication Run stop operations by CANopen communication from an external device Refer to section 6 33 4...

Page 105: ...l board VIA A frequency command is set by means of external analog signals VIA terminal 0 10Vdc Refer to section 3 2 2 and 7 3 Terminal board VIB A frequency command is set by means of external analog signals VIB terminal 0 10Vdc or 10 10Vdc Refer to section 3 2 2 and 7 3 Setting dial 2 Frequencies are set by rotating the setting dial on the inverter Press the center of the setting dial to save th...

Page 106: ...n so set using the programmable input terminal function Coast stop command terminal if set for programmable input terminal function To make changes in the command mode selection and the frequency setting mode selection 1 first stop the inverter temporarily Can be changed while in operation when is set to Priority commands from communications or terminal boards are given priority over Preset speed ...

Page 107: ...Command mode selection Terminal board Terminal board VIA Frequency setting mode selection 1 RS485 communications Terminal block active FMTB Input terminal function 106 107 Panel keypad RUN STOP key Terminal block active CMTB Input terminal function 108 109 RS485 communication priority clear SCLC Input terminal function 48 49 With extension panel option RKP007Z Frequency setting mode forced switchi...

Page 108: ... forward to reverse after displaying the message Pressing the FWD REV key again changes the direction of rotation from reverse to forward after displaying the message Using extension panel RKP002Z option When is set to and the standard monitor is displayed pressing the DOWN key while pressing the ENT key changes the direction of rotation from forward to reverse after displaying the message Pressin...

Page 109: ...encies output by the inverter maximum output values 2 This frequency is used as the reference for acceleration deceleration time Output frequency Hz When 80Hz When 60Hz 80Hz 60Hz 0 100 Frequency setting signal This function determines the value in line with the ratings of the motor and load Maximum frequency cannot be adjusted during operation To adjust first stop the inverter If is increased adju...

Page 110: ...cannot be set lower than Lower limit frequency Command frequency Hz Command frequency Hz Parameter setting Title Function Adjustment range Default setting Upper limit frequency 0 5 Hz Lower limit frequency 0 0 Hz 0 0 Default setting values vary depending on the setup menu setting Refer to section 11 5 Note1 Do not set a value 10 times larger than base frequency 1 and base frequency 2 for If a larg...

Page 111: ...equency Note This is an important parameter that determines the constant torque control area Output voltage V Base frequency voltage Output frequency Hz 0 Parameter setting Title Function Adjustment range Default setting Base frequency 1 20 0 500 0 Hz Base frequency voltage1 50 330 240V class 50 660 500V class Default setting values vary depending on the setup menu setting Refer to section 11 5 ...

Page 112: ...ange Default setting V F control mode selection 0 V F constant 1 Variable torque 2 Automatic torque boost control 3 Vector control 4 Energy saving 5 Dynamic energy saving For fan and pump 6 PM motor control 7 V F 5 point setting 8 3 2 2 Default setting values vary depending on the setup menu setting Refer to section 11 5 3 8 is manufacturer setting parameter Do not change the value of this paramet...

Page 113: ...ng dial to save the changed parameter and parameter set value are displayed alternately Caution When the V F control mode selection is set to Automatic torque boost control Vector control Energy saving Dynamic energy saving or PM motor control be sure to set the following parameters according to the motor s name plate Base frequency 1 rated frequency Base frequency voltage 1 rated voltage Motor ra...

Page 114: ...tput voltage Base frequency voltage Base frequency 0 Output frequency Hz 3 Increasing starting torque Setting of V F control mode selection to automatic torque boost control Detects load current in all speed ranges and automatically adjusts voltage output torque boost from inverter This gives steady torque for stable runs Automatically adjusts the amountof torque boost Output voltage Base frequenc...

Page 115: ... torque at the low speed ranges 1 Provides large starting torque 2 Effective when stable operation is required to move smoothly up from the low speeds 3 Effective in elimination of load fluctuations caused by motor slippage Motor constant must be set If the motor you are using is a 4P Toshiba standard motor and if it has the same capacity as the inverter there is basically no need to set the motor...

Page 116: ...ent and passing a current appropriate to the load The inverter cannot respond to rapid load fluctuations so that this feature should be used only for loads such as fans and pumps that are free of violent load fluctuations Motor constant must be set If the motor you are using is a 4P Toshiba standard motor and if it has the same capacity as the inverter there is no need to set the motor constant In...

Page 117: ...voltage V f 5 point setting VF3 frequency Hz V f 5 point setting VF3 voltage V f 5 point setting VF4 frequency Hz V f 5 point setting VF4 voltage V f 5 point setting VF5 frequency Hz V f 5 point setting VF5 voltage 100 adjustment value 200V class 200V 400V class 400V Base frequency voltage 1 Output voltage V Output frequency Hz Base frequency 1 0 VF1 VF2 VF3 VF4 VF5 V f 5 point setting Note 1 Rest...

Page 118: ...er s rated capacity or one rank below The minimum applicable motor capacity is 0 1kW 5 Use a motor that has 2 8 P 6 Always operate the motor in single operation one inverter to one motor Sensorless vector control cannot be used when one inverter is operated with more than one motor When using a combination of several motors set the V F constant 7 The maximum length of wires between the inverter an...

Page 119: ...e boost value 1 0 0 30 0 According to model Refer to section 11 4 Valid when is set to 0 1 or 7 Note 1 The optimum value is programmed for each inverter capacity Be careful not to increase the torque boost rate too much because it could cause an overcurrent trip at startup 5 14 Setting the electronic thermal t Motor electronic thermal protection level 1 o Electronic thermal protection characterist...

Page 120: ...t Default setting Refer to section 4 3 2 for details 5 18 Checking the region setting selection Checking the region setting Refer to section 4 4 for details 5 19 EASY key mode selection EASY key mode selection Refer to section 4 5 for details 5 20 Searching for and resetting changed parameters Automatic edit function Refer to section 4 3 1 for details ...

Page 121: ...gnal can be used as an electromagnetic brake excitation release signal This signal can also be used as an operation signal when f100 is set to 0 0Hz because an ON signal is put out if the output frequency exceeds 0 0Hz Output from the open collector output terminal RY RC Default Output FLA FLB FLC and OUT are possible depending on the parameter settings Parameter setting Title Function Adjustment ...

Page 122: ...al 6 1 2 Output of designated frequency reach signal f102 Speed reach detection band Function When the output frequency becomes equal to the setting by designated frequency f102 an ON or OFF signal is generated Parameter setting Parameter setting of designated frequency and detection band Title Function Adjustment range Default setting f102 Speed reach detection band 0 0 fh Hz 2 5 Parameter settin...

Page 123: ...al to the frequency set by f101 f102 an ON or OFF signal is generated Parameter setting Parameter setting of frequency and detection band Title Function Adjustment range Default setting f101 Speed reach setting frequency 0 0 fh Hz 0 0 f102 Speed reach detection band 0 0 fh Hz 2 5 Parameter setting of output terminal selection Title Function Adjustment range Setting f131 Output terminal selection 2...

Page 124: ...t signal selection 6 2 1 Priority selection Both F and R are ON f105 Priority selection Both F and R are ON Function This parameter allows you to select the direction in which the motor runs when a forward run F command and a reverse run R command are entered simultaneously 1 Reverse 2 Deceleration stop Parameter setting Title Function Adjustment range Default setting f105 Priority selection Both ...

Page 125: ...z Forward run Reverse run Forward run command Reverse run command ON OFF ON OFF 0 Setting frequency Setting frequency Time s 2 f105 1 Stop If an F command and an R command are entered simultaneously the motor will deceleration stop Forward run Reverse run Forward run command Reverse run command ON OFF ON OFF Output frequency Hz Setting frequency Time s 0 ...

Page 126: ...nput selection VIA VIB Function This parameter allows you to choose between analog signal input and contact signal input for the VIA and VIB terminals Parameter setting Title Function Adjustment range Default setting 0 Analog input for communications VIB analog input 1 VIA analog input VIB contact input Sink 2 VIA analog input VIB contact input Source 3 VIA contact input Sink VIB contact input Sin...

Page 127: ...153 Refer to section 11 6 0 No function f108 Always active function selection 2 0 153 Refer to section 11 6 0 No function f110 Always active function selection 3 0 153 Refer to section 11 6 6 ST Explanation of the coast stop function When ST Standby is OFF coast stops The default setting for ST Standby is ON change the following settings no function Assign open input terminal 6 ST Standby Coast st...

Page 128: ...n 4B S1 f155 Input terminal selection 1C F f156 Input terminal selection 2C R f109 Analog logic input selection VIA VIB f117 Input terminal selection 7 VIB f118 Input terminal selection 8 VIA Refer to section 7 2 1 for details about input terminal functions 6 3 3 Modifying output terminal functions f130 Output terminal selection 1A RY RC f131 Output terminal selection 2A OUT f132 Output terminal s...

Page 129: ...g mode selection 1 0 f207 Frequency setting mode selection 2 0 Setting dial 1 save even if power is off 1 Terminal board VIA 2 Terminal board VIB 3 Setting dial 2 press in center to save 4 RS485 communication 5 UP DOWN from external logic input 6 CANopen communication 7 Communication option 8 Terminal board VIC 9 10 11 Pulse train input 1 Note To put out signals to RY RC OUT or FLA FLB FLC set f13...

Page 130: ...r is enabled only for motor1 If motor 2 is selected V F control will be given constant torque characteristics Parameter setting Title Function Adjustment range Default setting f170 Base frequency 2 20 0 500 0 1 f171 Base frequency voltage 2 50 330 V 240V class 50 660 V 500V class 1 f172 Torque boost value 2 0 0 30 0 Depending on model Refer to section 11 4 f173 Motor electronic thermal protection ...

Page 131: ...fs10 dec f511 f502 fs12 During stop pt V F constant vl f170 vlv f171 vb f172 thr f173 OFF OFF ON OFF During run vl f170 vlv f171 vb f172 thr f173 OFF OFF OFF ON f601 f185 Note 1 Each of the following numbers 25 27 29 33 are reverse signals Note 2 Switching pt and V F constant cannot be done while running Stop the motor before changing vl and f170 vlv and f171 vb and f172 thr and f173 can be switch...

Page 132: ... setting VF4 voltage f198 V f 5 point setting VF5 frequency f199 V f 5 point setting VF5 voltage For details refer to 8 of section 5 12 6 6 Frequency priority selection 6 6 1 Using a frequency command according to the particular situation fmod Frequency setting mode selection 1 f200 Frequency priority selection f207 Frequency setting mode selection 2 Function These parameters are used to switch be...

Page 133: ...can be made by entering a command from a terminal board To do so however the frequency command forced switching function input terminal function selection 104 needs to be set beforehand to an input terminal board If an OFF command is entered to the input terminal board The command specified with fmod will be selected If an ON command is entered to the input terminal board The command specified wit...

Page 134: ... point 2 setting f219 VIC input point 2 frequency f810 Communication command point selection f811 Communication command point 1 setting f812 Communication command point 1 frequency f813 Communication command point 2 setting f814 Communication command point 2 frequency Function Output frequency is adjusted in relation to frequency command according to external analog signals VIA and VIB terminals a...

Page 135: ...s 64 f210 VIB input point 1 setting 100 100 0 f211 VIB input point 1 frequency 0 0 500 0 Hz 0 0 f212 VIB input point 2 setting 100 100 100 f213 VIB input point 2 frequency 0 0 500 0 Hz 1 f216 VIC input point 1 setting 0 100 0 f217 VIC input point 1 frequency 0 0 500 0 Hz 0 f218 VIC input point 2 setting 0 100 100 f219 VIC input point 2 frequency 0 0 500 0 Hz 1 f810 Communication command point sele...

Page 136: ...d 2 4 20mAdc current input adjustment VIC terminal Point settings adjust the frequency command for the current input Ramp and bias can be easily set With a current input of 0 to 20 mA set to 100 20mA current signal 0 Hz 20 4mA 50 60 Hz Frequency commnd 3 10 10 Vdc voltage input adjustment VIB terminal Point settings adjust the frequency command for the voltage input Ramp and bias can be easily set...

Page 137: ...66 External logic input DOWN response time 0 0 10 0 s 0 1 f267 External logic input DOWN frequency steps 0 0 fh Hz 0 1 f268 Initial value of UP DOWN frequency Hz 0 0 f269 Change of the initial value of UP DOWN frequency 0 Not changed 1 Setting of changed when power is turned off 1 This function is valid when the parameter fmod Frequency setting mode selection 1 5 is set Input terminal settings Ass...

Page 138: ...limit frequency Gradient f267 f266 Gradient f265 f264 Upper limit frequency DOWN signal UP signal Forward reverse command Set frequency clearing signal Note If the operation frequency is set to the lower limit frequency it will increase from 0Hz when power is turned on for the first time after the setting and therefore the output frequency will not rise until the operation frequency reaches the lo...

Page 139: ...cally save the frequency immediately before it is turned off and start operation at that frequency next time power is turned on set f269 change of initial up down frequency to 1 which changes the setting of f268 when power is turned off Keep in mind that the setting of f268 is changed each time power is turned off Frequency adjustment range The frequency can be set from 0 0Hz to fh Maximum frequen...

Page 140: ...mount of voltage is applied to the analog input terminal If you want to reduce the leeway set this value to a larger value Note that specifying a too large value may cause an output frequency to be output even though the operation frequency is 0 zero Hz Gain adjustment of analog input terminal f471 f473 f475 The inverter is factory adjusted by default so that the operation frequency can reach the ...

Page 141: ...8 Number of pulse train input 100 5000 pps 250 f679 Pulse train input filter 2 1000 ms 2 This function is valid when the parameter fmod 11 Pulse train input and f146 1 Pulse train input are set Number of pulses per 1Hz is set by parameter f378 Example of setting f378 250 pps Input signal 250 pps Output frequency 1 0 Hz Input signal 1k pps Output frequency 4 0 Hz Input signal 20k pps Output frequen...

Page 142: ...d Use the parameter when a delay in response of starting torque according to the acceleration deceleration time is probably affecting operation Setting the starting frequency to a value from 0 5 to 3 0Hz is recommended The occurrence of an overcurrent can be suppressed by setting this frequency below the rated slippage of the motor Parameter setting Title Function Adjustment range Default setting ...

Page 143: ...requency setting signals Parameter setting Title Function Adjustment range Default setting f241 Operation starting frequency 0 0 fh Hz 0 0 f242 Operation starting frequency hysteresis 0 0 fh Hz 0 0 0 A B 100 Frequency command value When the frequency command signal reaches the B point the inverter operates When decelerating operation stops when the frequency setting signal is less than point A Out...

Page 144: ...52 DC braking time 0 0 25 5 s 1 0 Time s DC braking starting frequency DC braking current DC braking time Output frequency Hz DC braking Operation signal F CC ON OFF Output current A 0 0 Set frequency Note1 During DC braking the overload protection sensitivity of the inverter increases The DC braking current may be adjusted automatically to prevent tripping Note 2 During DC braking the carrier fre...

Page 145: ...xing control turn off the standby command ST signal DC injection braking start frequency LED display Time s Output frequency Hz Operation signal F CC ON OFF Output current A 0 0 Set frequency Operation standby signal ST CC ON OFF 2 is displayed is displayed Note1 About the same motor shaft fixing control can be exercised by entering a DC braking command from external contacts Note2 If a power fail...

Page 146: ...leration the motor to a stop At that time is displayed alternately on the operation panel This function will be canceled if a frequency command above the lower limit frequency ll f391 Hz Parameter setting Title Function Adjustment range Default setting f256 Time limit for lower limit frequency operation 0 0 Disabled 0 1 600 0 s 0 0 f391 Hysteresis for lower limit frequency operation 0 0 ul Hz 0 2 ...

Page 147: ...lt setting f260 Jog run frequency f240 20 0 Hz 5 0 f261 Jog run stopping pattern 0 Deceleration stop 1 Coast stop 2 DC braking 0 f262 Panel jug run mode 0 Invalid 1 Valid 0 Setting of jog run setting terminal RES CC Assign control terminal RES as the jog run setting terminal Title Function Adjustment range Setting f113 Input terminal selection RES 0 203 18 Jog run mode Note 1 During the jog run mo...

Page 148: ...e setting dial left displays rjog When fjog is displayed the inverter will be placed in forward jog run mode as long as the key is held down When rjog is displayed the inverter will be placed in reverse jog run mode as long as the key is held down During jog run the direction of rotation can be changed using the setting dial If you press and hold down the key for 20 seconds or more the key failure...

Page 149: ...or Jumping width 1 Jumping width 2 Jumping width 3 Jump frequency 3 Jump frequency 1 Jump frequency 2 Output command frequency Hz Frequency setting signal 0 Parameter setting Title Function Adjustment range Default setting f270 Jump frequency 1 0 0 fh Hz 0 0 f271 Jumping width 1 0 0 30 0 Hz 0 0 f272 Jump frequency 2 0 0 fh Hz 0 0 f273 Jumping width 2 0 0 30 0 Hz 0 0 f274 Jump frequency 3 0 0 fh Hz...

Page 150: ...ies when switching from Local mode to Remote mode they are not moved to Remote mode Parameter setting Title Function Adjustment range Default setting f295 Bumpless operation selection 0 Disabled 1 Enabled 0 f732 Local remote key prohibition of extension panel 0 Permitted 1 Prohibited 1 key is assigned to Local remote function Set parameter f750 EASY key function selection 2 Local remote key EASY l...

Page 151: ...art stop status are moved to Local mode when switching from Remote mode to Local mode Motor runs continuously like an example When switching from Local mode to Remote mode setting frequency and start stop status are determined by Remote mode status The example shows the motor runs continuously because the Remote mode is run status To prevent from moving the setting frequency and start stop status ...

Page 152: ...WM carrier frequency 2 0 16 0 kHz 4 0 f312 Random mode 0 Disabled 1 Random mode 1 2 Random mode 2 3 Random mode 3 0 0 Carrier frequency without reduction 1 Carrier frequency with automatic reduction 2 Carrier frequency without reduction Support for 500V models f316 Carrier frequency control mode selection 3 Carrier frequency with automatic reduction Support for 500V models 1 Note 1 Some models nee...

Page 153: ... A 40 50 C 4 8 A 4 3 A 4 1 A 2007PL 50 60 C 3 8 A 3 4 A 3 1 A 40 C or less 8 0 A 8 0 A 8 0 A 40 50 C 8 0 A 7 2 A 6 8 A 2015PL 50 60 C 6 4 A 5 6 A 5 2 A 40 C or less 11 0 A 11 0 A 11 0 A 40 50 C 11 0 A 9 9 A 9 4 A 2022PL 50 60 C 8 8 A 7 7 A 7 2 A In case of parameter aul 2 Variable torque characteristic 120 60s setting PWM carrier frequency Parameter f300 VFMB1S Ambient temperature 2 0kHz 2 1k 4 0 ...

Page 154: ...50 60 C 1 8 A 1 6 A 1 2 A 40 C or less 4 1 A 4 1 A 3 3 A 40 50 C 4 1 A 3 7 A 2 9 A 4015PL 50 60 C 3 3 A 2 9 A 2 1 A 40 C or less 5 5 A 5 5 A 4 4 A 40 50 C 5 5 A 5 0 A 3 9 A 4022PL 50 60 C 4 4 A 3 9 A 2 8 A 40 C or less 9 5 A 9 5 A 7 6 A 40 50 C 9 5 A 8 6 A 6 7 A 4037PL 50 60 C 7 6 A 6 7 A 4 8 A 50 C or less 14 3 A 13 0 A 11 5 A 4055PL 50 60 C 11 4 A 11 4 A 9 2 A 50 C or less 17 0 A 17 0 A 14 0 A 4...

Page 155: ...ss 40 0 A 30 0 A 26 0 A 40 50 C 36 0 A 30 0 A 26 0 A 4150PL 50 60 C 36 0 A 23 0 A 18 0 A If ambient temperature exceeds 40 C or 50 C reduce current according to table above In case of 2 setting be sure to install the input AC reactor ACL between power supply and inverter and use at ambient temperature 40 C or less Regarding current reduction in detail refer to added instruction manual Explanation ...

Page 156: ...ilure and then after power has been restored restarts the motor smoothly motor speed search function This parameter also allows commercial power operation to be switched to inverter operation without stopping the motor During operation rtry is displayed Parameter setting Title Function Adjustment range Default setting f301 Auto restart control selection 0 Disabled 1 At auto restart after momentary...

Page 157: ...eck to see the number of revolutions of the motor For this reason the start up takes more time than usual Use this function when operating a system with one motor connected to one inverter This function may not operate properly in a system configuration with multiple motors connected to one inverter In case of using this function do not set the output phase failure detection selection f605 1 2 4 A...

Page 158: ...2 Even if these functions are used a motor may coast according to load conditions In this case use the auto restart function f301 along with this parameter function Note 3 Jog run function doesn t operate at synchronized acceleration deceleration Function 1 Regenerative power ride through control When momentary power failure occurs during operation this function makes operation continue using the ...

Page 159: ...unction allows the motor to be restarted automatically without being brought to an abnormal stop Motor speed About 100ms 10s Input voltage Coasting stop Note 4 If power is interrupted during deceleration stop power ride through control will not be performed Internal DC voltage level Regenerative power ride through control selection Motor speed Input voltage Note 5 If power is interrupted during de...

Page 160: ...nds can be issued to them at about the same time If a power failure synchronized signal is impressed the synchronized deceleration function decreases the output frequency to 0Hz to decelerate the motor linearly within the time specified with f317 The S pattern operation function or the braking sequence cannot be used along with this function When the motor comes to a full stop the message stop app...

Page 161: ...age stall prevention function during deceleration An example of setting when f302 4 Synchronized deceleration if a power failure synchronized signal is impressed or if a power failure occurs or synchronized acceleration if the power failure synchronized signal is canceled Motor speed Time Synchronized acceleration dece leration signal S1 terminal Inverter 1 Inverter 2 ON Input voltage 1 Power fail...

Page 162: ...vervoltage or overload This function will also be canceled if retrying is not successful within the specified number of times Retry is only done when the following trips occur oc1 oc2 oc3 op1 op2 op3 ol1 ol2 ol3 oh sout Protective operation detection relay signals FLA FLB FLC terminal signals are not sent during use of the retry function Default setting To allow a signal to be sent to the protecti...

Page 163: ...ch as a press Parameter setting Title Function Adjustment range Default setting f304 Dynamic braking selection 0 Disabled 1 Enabled Resistor overload protection enabled 2 Enabled 3 Enabled Resistor overload protection enabled At ST terminal on 4 Enabled At ST terminal on 0 f308 Dynamic braking resistance 1 0 1000 f309 Dynamic braking resistor capacity 0 01 30 00 kW Depending on models See Section ...

Page 164: ...erload and overcurrent to protect the braking resistor the thermal relay is activated in case the protection function fails to work Select and connect a thermal relay THR appropriate to the capacity wattage of the braking resistor Connecting thermal relays and an external braking resistor IM Motor R L1 S L2 T L3 U T1 V T2 W T3 Three phase main circuits Power supply PBe PB MCCB Braking resistor opt...

Page 165: ...of a lift a press or a tension control machine or in applications that require deceleration stopping of a machine with a significant load inertial moment increase the dynamic braking resistor capacity according to the operation rate required To connect an external dynamic braking resistor select one with a resultant resistance value greater than the minimum allowable resistance value Be sure to se...

Page 166: ... information contact your nearest inverter distributor Note 3 Type form of PBR indicate with thermal fuse type Note 4 The default setting values of parameter f308 Dynamic braking resistance and f309 Dynamic braking resistor capacity are applied to braking resistors PBR or PBR3 Set the parameter f308 and f309 to the rated value in above table when using PBR7 3 Minimum resistances of connectable bra...

Page 167: ... 100 corresponds to an input voltage of 200V for 240V models or to in an input voltage of 400V for 500V models If f305 is set to 2 quick deceleration control the inverter will increase the voltage to the motor over excitation control to increase the amount of energy consumed by the motor when the voltage reaches the overvoltage protection level and therefore the motor can be decelerated more quick...

Page 168: ...nge Default setting vlv Base frequency voltage1 50 330 240V class 50 660 500V class 1 0 Supply voltage uncorrected output voltage limited 1 Supply voltage corrected output voltage limited 2 Supply voltage uncorrected output voltage unlimited f307 Supply voltage correction output voltage limitation 3 Supply voltage corrected output voltage unlimited 1 1 Default setting values vary depending on the ...

Page 169: ...07 3 Voltage compensation no output voltage control Input voltage High Low Output frequency Output voltage V 0 Input voltage The above applies when V F control mode selection parameter is set to or 1 the output voltage can be prevented from exceeding the input voltage Rated voltage Note Rated voltage is fixed at 200V for 240V class and 400V for 500V class Input voltage High Low Output voltage V Ou...

Page 170: ... f320 Droop gain f323 Droop insensitive torque band f324 Droop output filter Function Droop control has the function of preventing loads from concentrating at a specific motor because of a load imbalance when multiple inverters are used to operate one machine These parameters are used to allow the motor to slip according to the load torque current Using these parameters the insensitive torque band...

Page 171: ...ng frequency during power running During regenerative braking control is performed in such a way as to increase the frequency The droop function is activated above the torque current set with f323 The amount of droop frequency Δf varies depending on the amount of torque current T1 Note If the base frequency vl exceeds 100Hz count it as 100Hz Control is exercised between the starting frequency f240...

Page 172: ...running f338 Switching load torque during regenerative braking Refer to additional Instruction manual for details 6 18 Braking function 6 18 1 Brake sequence control f340 Creeping time 1 f341 Braking mode selection f342 Load portion torque input selection f343 Hoisting torque bias input f344 Lowering torque bias multiplier f345 Brake release time f346 Creeping frequency f347 Creeping time 2 f348 B...

Page 173: ...e brake output terminal Upon expiration of the brake release time set with f345 the motor starts to accelerate Stopping procedure At the stop command the operation frequency is decreased to the creep frequency set with parameter f346 and put out the braking request after the creep time 1 set with f340 And then the creep frequency is maintained for the creep time set with f347 While the creep frequ...

Page 174: ...d be carried out for normal rotation if f341 is set to 1 forward winding or for reverse rotation if f341 is set to 2 reverse winding Notabilia for braking function Note 5 For the braking functions the pre excitation time is automatically determined by the inverter from motor related constants When the VFMB1S 2022PL is used in combination with a Toshiba 4P 2 2kW 60Hz 200V standard motor the pre exc...

Page 175: ...is function is valid when the parameter f382 1 is set Input terminal settings Assign the following functions to the input terminal you can operate the hit and stop control by using the terminal s ON OFF Input terminal function ON OFF 140 Forward deceleration Forward operation toward f383 setting Clear 142 Forward stop Forward stop Clear 144 Reverse deceleration Reverse operation toward f383 settin...

Page 176: ...tment range Setting value f349 Acceleration deceleration suspend function 0 Disabled 1 Parameter setting 2 Terminal input 0 f350 Acceleration suspend frequency 0 0 fh Hz 0 0 f351 Acceleration suspend time 0 0 10 0 s 0 0 f352 Deceleration suspend frequency 0 0 fh Hz 0 0 f353 Deceleration suspend time 0 0 10 0 s 0 0 Note1 The acceleration suspend frequency f350 should not be set below the starting f...

Page 177: ... the frequency drops is included in the suspend time Output frequency Hz Time s Stall t1 ts t2 f351 Momentary acceleration deceleration suspend time t1 t2 ts Stall control Refers to the inverter s function of automatically changing the operation frequency when it detects an overcurrent overload or overvoltage Using the following parameters you can specify the way the stall control is performed for...

Page 178: ...p the airflow amount of flow or pressure constant Or it is also possible to always set 0 for integral and differential at terminal input Parameter setting Title Function Adjustment range Default setting fpid Process input value of PID control f368 Hz 0 0 f359 PID control waiting time 0 2400 s 0 f360 PID control 0 Disabled 1 Process type PID control 2 Speed type PID control 0 f361 Delay filter 0 0 ...

Page 179: ...VIA 2 Terminal board VIB 3 fpid 4 RS485 communication 5 UP DOWN from external logic input 6 CANopen communication 7 Communication option 8 Terminal board VIC 9 10 11 Pulse train input 0 1 Default setting values vary depending on the setup menu setting Refer to section 11 5 1 External connection M P R L1 S L2 T L3 U T1 V T2 W T3 VIA CC Pressure transmitter 1 Process value DC 0 to 10V 2 Feedback sig...

Page 180: ...ed on fpid Note 3 To make the inverter send out a signal that indicates whether the value of feedback agree with or reaches the value of processing assign the output terminal function 144 or 145 to an unassigned output terminal You can also specify a frequency agreement detection range f167 Refer to 6 3 4 3 Setting PID control Set Process type PID control operation in the parameter f360 PID contro...

Page 181: ... deviation by the parameter setting A larger P gain adjustment value gives faster response Too large an adjustment value however results in an unstable event such as hunting Slow response Small gain Process value Time Feedback value Fast response Large gain f363 I gain adjustment parameter This parameter adjusts the integral gain level during PID control Any remaining deviations residual deviation...

Page 182: ...ive amounts always as 0 zero 5 Adjusting feedback input To use external feedback input VIA VIB VIC perform voltage current scaling adjustments input point setting as required Refer to section 6 6 2 for details If the feedback input data is too small voltage scaling adjustment data can also be used for gain adjustment Example of 0 10 Vdc voltage input setting Example of 0 10 Vdc voltage input setti...

Page 183: ...ified time 7 PID control forward reverse characteristic switch PID input characteristics can be reversed Process quantity Feedback amount 1 PID Output Opposite characteristic Original characteristic Characteristic selection parameter or terminal input When characteristic is reversed according to parameters When PID calculation reverse selection parameter f380 is 1 Set reverse characteristics When ...

Page 184: ... independently 3 Combining the V F control mode selection pt and manual tuning Caution If the settings for V F control mode selections pt are 2 automatic torque boost control 3 vector control 4 energy saving 5 Dynamic energy saving Look at the motor s name plate and set the following parameters vl Base frequency 1 rated frequency vlv Base frequency voltage 1 rated voltage f405 Motor rated capacity...

Page 185: ...motor starts for the first time after f400 is set to 2 Tuning is usually completed within three seconds If it is aborted the motor will trip with the display of etn1 and no constants will be set for that motor 4 High speed motors high slip motors or other special motors cannot be auto tuned For these motors perform manual tuning using Selection 3 described below 5 Provide cranes and hoists with su...

Page 186: ...otor s rated capacity according to the motor s name plate or test report f415 Set the rated current of the motor For the rated current see the motor s nameplate or test report f416 Set the ratio of the no load current of the motor to the rated current Enter the value in that is obtained by dividing the no load current specified in the motor s test report by the rated current Increasing this value ...

Page 187: ...the following parameters vl Base frequency 1 rated frequency that is calculated from Back EMF vlv Base frequency voltage 1 rated voltage that is calculated from Back EMF f405 Motor rated capacity f415 Motor rated current f417 Motor rated speed f912 Q axis inductance per phase f913 D axis inductance per phase Selection 1 Setting PM motor control and auto tuning After setting pt 6 auto tuning occurs...

Page 188: ...nual tuning with Selection 2 Selection 2 Setting PM motor control and manual tuning If an etn1 tuning error is displayed during auto tuning or when vector control characteristics are to be improved set motor constants manually Parameter setting Title Function Adjustment range Default setting f402 Automatic torque boost value 0 1 30 0 f405 Motor rated capacity 0 01 22 00 kW f415 Motor rated current...

Page 189: ...ate properly if the motor capacity differs from the applicable rated capacity of the inverter by more than two grades Caution If a combination of the inverter rating and the motor capacity is different for more than 2 items vector control may not operate correctly Selection 3 Setting PM motor control and optimization of starting torque Even if auto tuning is done motor cannot start due to heavy lo...

Page 190: ...ant output or limiting the constant torque in the constant output zone This function is not operate when the parameter 7setting Setting methods When setting limits to torque use internal parameters Torque limits can also be set with an external control device 250 torque 250 torque Power running Regenerative Forward run Regenerative Power running Positive torque Negative torque Reverse run With the...

Page 191: ...e set with f601 acts as the torque limit 6 22 2 Torque limit mode selection at acceleration deceleration f451 Acceleration deceleration operation after torque limit Function Using this function in combination with the mechanical brake of the lifting gear such as a crane or hoist makes it possible to minimize the delay before the brake starts working and thus prevents the load from falling because ...

Page 192: ...al speed is kept in sync with the operation frequency while torque is held at a limit level when it decreases as a result of the release of the mechanical brake The use of this function prevents the load from failing and improves the motor s response during inching operation Frequency Hz Torque N m Torque limit level Mechanical brake Time s Actual speed Acceleration rates vary depending on the tor...

Page 193: ... and trips Parameter setting Title Function Adjustment range Default setting f452 Power running stall continuous trip detection time 0 00 10 00 s 0 00 f441 Power running torque limit 1 level 0 249 250 Disabled 250 f601 Stall prevention level 1 10 199 200 disabled 150 1 In case of overcurrent stall ot2 trip is occurred if the output current reached the stall prevention level f601 or more and this s...

Page 194: ...ue limitation ot2 trip is occurred if the output torque reached the power running torque limit level f441 or more and this situation maintain in f452 during power running Time s Output frequency Hz Time s Output torque less than 2 trip ...

Page 195: ...imit adjustment amount 0 50 10 f507 S pattern upper limit adjustment amount 0 50 10 1 Linear acceleration deceleration A general acceleration deceleration pattern This pattern can usually be used 2 S pattern 1 acceleration deceleration Select this pattern to accelerate decelerate the motor rapidly to a high speed region with an output frequency of 60Hz or more or to minimize the shocks applied dur...

Page 196: ... 1 2 3 f500 Acceleration time 2 f501 Deceleration time 2 f503 Acceleration deceleration 2 pattern f504 Selecting an acceleration deceleration pattern f505 Acceleration deceleration 1 and 2 switching frequency f510 Acceleration time 3 f511 Deceleration time 3 f512 Acceleration deceleration 3 pattern f513 Acceleration deceleration 2 and 3 switching frequency f519 Setting of acceleration deceleration...

Page 197: ...ection using parameters Time s Output frequency Hz 0 Acceleration deceleration time 1 is initially set as the default Acceleration deceleration time 2 and 3 can be selected by changing the setting of the f504 Enabled if cmod panel input enabled 2 Switching by frequencies Switching the acceleration deceleration time automatically at the frequency setting of f505 Title Function Adjustment range Defa...

Page 198: ...ion time f501 6 Deceleration at the gradient corresponding to deceleration time dec 3 Switching using external terminals Switching the acceleration deceleration time via external terminals 1 Acceleration at the gradient corresponding to acceleration time acc 2 Acceleration at the gradient corresponding to acceleration time f500 3 Acceleration at the gradient corresponding to acceleration time f510...

Page 199: ...ration mode selection Acceleration deceleration pattern Acceleration deceleration patterns can be selected individually using the acceleration deceleration 1 2 and 3 parameters 1 Linear acceleration deceleration 2 S pattern acceleration deceleration 1 3 S pattern acceleration deceleration 2 Title Function Adjustment range Setting value f502 Acceleration deceleration 1 pattern 0 f503 Acceleration d...

Page 200: ...tection time 10 2400 s 300 f632 Electrical thermal memory 0 Disabled 1 Enabled 0 Refer to section 3 5 for details Note 1 The 100 standard value is the rated output current indicated on the nameplate 6 24 2 Setting of stall prevention level f601 Stall prevention level 1 f185 Stall prevention level 2 Caution Prohibited Do not set the stall prevention level f601 extremely low If the stall prevention ...

Page 201: ...d on the nameplate 6 24 3 Inverter trip retention f602 Inverter trip retention selection Function If the inverter trips this parameter will retain the corresponding trip information Trip information that has thus been stored into memory can be displayed even after power has been reset Parameter setting Title Function Adjustment range Default setting f602 Inverter trip retention selection 0 Cleared...

Page 202: ...eration stops a trip occurs e displays and failure signal FL operates When f603 is set to 2 Emergency DC braking set f251 DC braking amount and f604 DC braking time during emergency stop When f603 is set to 3 Deceleration stop set f515 Deceleration time at emergency stop 1 Emergency stop from terminal Emergency stop occurs at contact a or b Follow the procedure below to assign a function to an inp...

Page 203: ...d the FL relay will be activated At the same time a trip information epho will also be displayed Set f605 to 5 to open the motor inverter connection by switching commercial power operation to inverter operation Detection errors may occur for special motors such as high speed motors f605 0 No tripping Failure signal FL not activated f605 1 With the power on the phase failure detection is enabled on...

Page 204: ...sible when operating with a light load or when the motor capacity is smaller than the inverter capacity If the power capacity is larger than the inverter capacity more than 200kVA or more than 10 times detection errors may occur If this actually happens install an AC reactor f608 0 No tripping Failure signal FL not activated f608 1 Phase failure detection is enabled during operation The inverter w...

Page 205: ...inal function selection parameter f610 1 The inverter will trip if a current below the current set with f611 flows for the period of time specified with f612 Failure signal FL activated Parameter setting Title Function Adjustment range Default setting f609 Small current detection hysteresis 1 20 10 f610 Small current trip alarm selection 0 Alarm only 1 Tripping 0 f611 Small current detection curre...

Page 206: ...tting Parameter setting Title Function Adjustment range Default setting f613 Detection of output short circuit at start up 0 Each time standard pulse 1 Only one time after power on standard pulse 2 Each time short pulse 3 Only one time after power on short pulse 0 6 24 9 Ground fault detection function f614 Ground fault detection selection Function This parameter detects inverter ground fault If a...

Page 207: ...ignal FL not activated An over torque alarm can be put out by setting the output terminal function selection parameter f615 1 The inverter is tripped Failure signal FL activated only after a torque exceeding the f616 specified level has been detected for more than the f618 specified time Parameter setting Title Function Adjustment range Default setting f615 Over torque trip alarm selection 0 Alarm...

Page 208: ...the fan only when the ambient temperature is high during operation When the inverter is on the service life of the cooling fan is longer than if it is always running f620 0 Cooling fan automatically controlled Cooling fan operates only when the ambient temperature is high during operation f620 1 Cooling fan not automatically controlled Fan is always running when the inverter is on If the ambient t...

Page 209: ...monitor mode An example of display Signal output of cumulative operation time alarm Assign the cumulative operation time alarm function to any output terminal Ex When assigning the cumulative operation alarm signal output function to the OUT terminal Title Function Adjustment range Setting f131 Output terminal selection 2A OUT 0 255 56 COT Cumulative operation time alarm Setting value 57 is revers...

Page 210: ...ction level 50 or less input AC reactor required 0 6 24 14 Analog input break detection f633 Analog input break detection level VIC f644 Operation selection of analog input break detection VIC f649 Fallback frequency Function The inverter will trip if the VIC value remains below the specified value for about 0 3 seconds In such a case trip e 18 and alarm al05 is displayed f633 0 Disabled Not detec...

Page 211: ...arm information Refer to chapter 8 in the Status monitor mode allows you to check on the time of replacement An example of display Output of part replacement alarm signal The parts replacement alarm is assigned to the output terminal Setup example When the parts replacement alarm is assigned to the OUT terminal Title Function Adjustment range Setting f131 Output terminal selection 2A OUT 0 255 128...

Page 212: ... 1 f646 PTC detection resistor value 100 9999 Ω 3000 Note Protecting PTC thermal set f147 1 PTC input and slide switch SW2 to PTC side Tripping level is defined by f646 setting Alarm level is defined by 60 of f646 setting Connect the PTC of PT100 characteristic between S3 and CC terminals Detection temperature can be set by f646 setting Connection Output of PTC input alarm signal The PTC input ala...

Page 213: ...n the Status monitor mode allows you to check on the time of replacement An example of display Output of number of starting alarm signal The number of starting alarm is assigned to the output terminal Setup example When the number of starting alarm is assigned to the OUT terminal Title Function Adjustment range Setting f131 Output terminal selection 2A OUT 0 255 162 NSA Number of starting alarm Se...

Page 214: ...l function 58 FIRE Input signal is kept to hold once signal is ON Motor runs at the speed set by the parameter f294 Note This case needs to power off or input terminal function emergency stop in order to stop Parameter setting Title Function Adjustment range Default setting f650 Forced fire speed control selection 0 Disabled 1 Enabled 0 f294 Preset speed frequency 15 ll ul Hz 0 0 Setup example of ...

Page 215: ...rameters are used to adjust reference frequencies by means of external input Parameter setting Title Function Adjustment range Default setting VIA input point 1 rate 0 250 0 VIA input point 2 rate 0 250 100 VIB input point 1 rate 250 250 0 VIB input point 2 rate 250 250 100 VIC input point 1 rate 0 250 0 VIC input point 2 rate 0 250 100 f660 Override addition input selection 0 Disabled 1 VIA 2 VIB...

Page 216: ...erride input Ex 2 VIB Reference frequency VIA Override input Ex 1 f660 3 VIC input f661 0 disabled Output frequency Reference frequency Override VIC input Hz Ex 2 f660 1 VIA input f661 0 disabled Output frequency Reference frequency Override VIA input Hz Value selected with 100 Output frequency Over ridden frequency Override VI II input 0 10V Over ridden frequency Override VIC input 0 10V VIA inpu...

Page 217: ...quency 1 Override VIC input 100 Ex 2 f660 0 Disabled f661 1 VIA input fmod 2 VIB input fh 8 0 ul 8 0 VIB input f210 0 f211 0 f212 100 f213 8 0 VIA input f201 0 f205 0 f203 100 f206 100 Setting of VIB input Refer to Section 7 3 3 Setting of VIA input Refer to Section 7 3 1 Output frequency Reference frequency 1 Override VIA input 100 Ex 3 Title Function Adjustment range Default setting f729 Operati...

Page 218: ...log input terminal function The range of analog input voltage is 0 to 100 From 100 to 0 cannot be used The parameter that is selected by f663 can be adjusted range as following table Setting of f663 Object parameter VIB 0 input VIB 100 input 0 Frequency command 1 Acceleration deceleration time acc dec f500 f501 f510 f511 Parameter setting value x f214 Parameter setting value x f215 2 Upper limit f...

Page 219: ...value of f677 Default setting f669 Logic output pulse train output selection OUT 0 Logic output 1 Pulse train output 0 f676 Pulse train output function selection OUT 0 Output frequency 1 Output current 2 Frequency command value 3 Input voltage DC detection 4 Output voltage command value 5 Input power 6 Output power 7 Torque 8 9 Motor cumulative load factor 10 Inverter cumulative load factor 11 PBR...

Page 220: ...herefore the duty is variable For example the ON pulse width is approximately 0 6 ms when f677 0 80 approximately 0 5 ms when f677 1 00 approximately 0 3 ms when f677 1 60 Note 3 The minimum pulse output rate is 10pps Keep in mind that no pulses can be put out at any rate smaller than this Note 4 f676 12 is the motor drive frequency 6 28 2 Calibration of analog output f681 Analog output signal sel...

Page 221: ... upward slope 1 f692 Analog output bias 1 0 100 0 0 0 Note 1 With 0 to 20mAdc 4 to 20mAdc output or 0 to 10Vdc output set f681 to 1 or 2 Example of setting f681 1 f691 1 f692 0 f681 1 f691 1 f692 20 0 20 mA 0 100 Internal calculated value 4 20 mA 0 100 f692 Output current Internal calculated value f681 1 f691 0 f692 100 f681 1 691 0 f692 100 0 20 mA 0 100 Large gain Output current Internal calcula...

Page 222: ... or allow operation of the RUN and STOP keys on the operation panel and the change of parameters Using these parameters you can also prohibit various key operations Lock parameters with a password to prevent configuration Parameter setting Title Function Adjustment range Default setting f700 Parameter protection selection 0 Permitted 1 Writing prohibited Panel and extension panel 2 Writing prohibi...

Page 223: ...ter a value between 1 and 9998 for f738 The number becomes the password It must be entered to remove the password so do not forget it 4 The settings for parameter f700 cannot be changed Note2 If you forget the password it cannot be removed Do not forget this password as we cannot retrieve it Note3 Password cannot be set when parameter f700 0 setting Set the password after parameter f700 1 to 4 set...

Page 224: ...al Activating the Parameter editing prohibited function prevents changes to parameters Activating the Parameter reading editing prohibition function prevents reads and writes to parameters The following table shows an example of setting input terminal S1 and S2 Title Function Adjustment range Setting f114 Input terminal selection 4A S1 0 203 200 PWP Parameter editing prohibition f115 Input termina...

Page 225: ...ed as follows 1 Display in percentage terms 2 Display in amperes volts Parameter setting Title Function Adjustment range Default setting f701 Current voltage unit selection 0 1 A ampere V volt 0 The f701 converts the following parameter settings A display Current monitor display Load current torque current Motor electronic thermal protection level 1 2 f173 DC braking current f251 Stall prevention ...

Page 226: ...PID control can also be changed The value obtained by multiplying the displayed frequency by the f702 set value will be displayed as follows Value displayed Monitor displayed or parameter set frequency f702 1 Displaying the motor speed To switch the display mode from 60Hz default setting to 1800min 1 the rotating speed of the 4P motor Hz 2 Displaying the speed of the loading unit To switch the dis...

Page 227: ...ter settings In case of f703 0 Free unit Frequency monitor display Operation frequency command Operation frequency PID feedback Frequency command value After correction Operation frequency command at trip Frequency related parameters fc fh ul ll sr1 sr7 f100 f101 f102 f167 f190 f192 f194 f196 f198 f202 f204 f211 f213 f217 f219 f240 f241 f242 f250 f260 f265 f267 f268 f270 to f275 f287 f294 f330 f33...

Page 228: ... the frequency by turning the setting dial left and if the rotating 1 step more lowers it below ll lower limit frequency the lo alarm displays before this happens and the frequency cannot be lowered beyond this point When f707 is not 0 00 and f708 0 disabled Under normal conditions the frequency command value from the operation panel increases in steps of 0 1 Hz each time you turn the setting dial...

Page 229: ...on panel changes in steps of 1 Use these settings to hide decimal fractions and also the value displayed on the operation panel changes in steps of 1 Use these settings to hide decimal fractions 6 29 5 Changing the initial display of the panel f710 Initial panel display selection f720 Initial extension panel display selection Function This parameter specifies display format while power is ON Chang...

Page 230: ...rom communication 19 20 VIC input value 21 Pulse train input value kpps 22 23 PID feedback value Hz free unit 24 Integral Input power kWh 25 Integral Output power kWh 26 Motor load factor 27 Drive load factor 28 Drive rated current A 29 FM output value 30 Pulse train output value kpps 31 Cumulative power on time 100 hours 32 Cumulative fan operation time 100 hours 33 Cumulative operation time 100 ...

Page 231: ...For peak hold values and minimum hold values the minimum values in each operation cycle are displayed When the motor is at a standstill the values monitored last are held as they were until the motor is started the next time The maximum and minimum values monitored after power is turned on or after the reset with the EASY key are always displayed no matter whether the motor is in operation or at a...

Page 232: ... coast stop Inverter restarts due to supply power source again when the under voltage in main circuit alarm occurs Operation command canceled Inverter doesn t restart after coast stop or occurring the under voltage in main circuit alarm Press RUN key to operate again in panel operation Switch to ON the operation command in RS485 communication operation Title Function Adjustment range Default setti...

Page 233: ...ey is pressed 1 Deceleration stop The motor slows down to a stop in the deceleration time set with or or 2 Coast stop The inverter cuts off power supply to the motor The motor comes to a stop after coasting for a while by inertia Depending on the load the motor may keep running for a good long time Parameter setting Title Function Adjustment range Default setting f721 Selection of operation panel ...

Page 234: ... at which trace data is acquired Tripping Data collected before the occurrence Triggering Data collected after triggering Note To read data on a PC Title Function Adjustment range Default setting f740 Trace selection 0 Disabled 1 At tripping 2 At triggering 3 1 2 1 f741 Trace cycle 0 4ms 1 20ms 2 100ms 3 1s 4 10s 2 f742 Trace data 1 0 42 0 f743 Trace data 2 0 42 1 f744 Trace data 3 0 42 2 f745 Tra...

Page 235: ... data at the occurrence of tripping f740 1 Examples of current date output Trace data Trace data 1 Trip Failure FL signal Monitor value of output current 2 To acquire trace data at the time of triggering f740 2 Trace data 1 Trigger input ...

Page 236: ...cy 0 01Hz 1 FD03 Output current 0 01 2 FD02 Frequency setting value 0 01Hz 3 FD04 Input voltage DC detection 0 01 4 FD05 Output voltage command value 0 01 5 FD29 Input power 0 01kW 6 FD30 Output power 0 01kW 7 FD18 Torque 0 01 9 FD23 Motor cumulative load factor 0 01 10 FD24 Inverter cumulative load factor 0 01 11 FD25 PBR Braking resistor cumulative load factor 0 01 12 FD15 Frequency setting valu...

Page 237: ...ta is acquired through a communication device Data acquired 1f40 h 8000 8000 0 01Hz 80 0Hz Relationship between pointer and data The table below shows the relationship between pointer E000 set value and trace data 1 to 4 Pointer E000 set value 0 1 2 98 99 Trace data 1 E100 E199 E100 E101 E102 E198 E199 Trace data 2 E200 E299 E200 E201 E202 E298 E299 Trace data 3 E300 E399 E300 E301 E302 E398 E399 ...

Page 238: ... the terminal function Input terminal function 74 75 Integrating wattmeter display clear Title Function Adjustment range Default setting f748 Integrating wattmeter retention selection 0 Disabled 1 Enabled 0 f749 Integrating wattmeter display unit selection 0 1 1kWh 1 1 10kWh 2 1 100kWh 3 1 1000kWh Depends on the capacity Refer to section 11 4 6 32 Parameter registration to easy setting mode f750 E...

Page 239: ...mand point selection f877 Block read data 3 f811 Communication command point1 setting f878 Block read data 4 f812 Communication command point1 frequencyf879 Block read data 5 f813 Communication command point2 setting f899 Communication function reset Warning Mandatory action Set the parameter Communication time out time f803 and Communication time out action f804 If these are not properly set the ...

Page 240: ...d to send a command data write to multiple inverters with a single communication Peer to peer communication Refers to the function that enables the master inverter to send the data selected with a parameter to all slave inverters on the same network This function allows you to set up a network that makes it possible to carry out synchronized operation or proportional operation setting of point fre...

Page 241: ...oast stop 2 Trip Deceleration stop 0 f805 Communication waiting time 0 00 2 00 0 00 f806 Setting of master and slave for communication between inverters 0 Slave 0 Hz command issued in case the master inverter fails 1 Slave Operation continued in case the master inverter fails 2 Slave Emergency stop tripping in case the master inverter fails 3 Master transmission of frequency commands 4 Master tran...

Page 242: ...erminal board monitor 8 Output terminal board monitor 9 VIA terminal board monitor 10 VIB terminal board monitor 11 VIC terminal board monitor 12 Input voltage DC detection 13 Motor speed 14 Torque 0 f899 Communication function reset 0 1 Reset after execution 0 0 1 Disabled Indicates that the inverter will not be tripped even if a communication error occurs Trip The inverter trips when a communica...

Page 243: ...f system Wiring 2 wire Transmission distance 500 m max total length Connection terminals 32max including upper host computer Inverters connected in the system 32max Synchronization scheme Start stop synchronization Communication baud rate 9600 bps to 38 4kbps Character transmission ASCII mode JIS X0201 8 bit ASCII Binary mode Binary codes fixed to 8 bits Binary codes fixed to 8 bits Error detectin...

Page 244: ...e 1 Data is sent from the host computer 2 Data from the computer is received at each inverter and the inverter numbers are checked 3 The command is decoded and processed only by the inverter with the selected inverter number 4 The selected inverter responds by sending the processing results together with its own inverter number to the host computer 5 As a result only the selected inverter starts o...

Page 245: ...essed 4 To prevent data conflicts only inverters where is overwritten to 0 can reply with data to the host computer 5 As a result all inverters are operating with the broadcast operation frequency command Note Specify inverter numbers by group for group broadcasts Function only for ASCII mode For parity mode see the Communications Function Instruction Manual Ex When 1 is set inverters 01 11 21 31 ...

Page 246: ...a result all slave inverters operate at the same frequency as the master inverter Note The master inverter always sends frequency command data to its slave inverters The slave inverters are always on standby so that they can receive an frequency command from the master inverter at anytime 6 33 3 Free notes f880 Free notes Function To enable easier management and maintenance of the inverter it is p...

Page 247: ...iBus DP option Type PDP003Z DeviceNet option Type DEV003Z EtherNet IP Modbus TCP option Type IPE002Z EtherCAT option Type IPE003Z Refer to each Instruction Manual of option for details 6 34 Permanent magnet motors f910 Step out detection current level f911 Step out detection time f912 q axis inductance f913 d axis inductance Function If the permanent magnet motor PM motor steps out and if the exci...

Page 248: ...is not compatible with all types of PM motors Note 2 The inverter may fail to detect step out in some cases because it uses an electrical method to detect step out To avoid detection failures you are recommended to install a mechanical step out detector 6 35 Traverse function f980 Traverse selection f981 Traverse acceleration time f982 Traverse deceleration time f983 Traverse step f984 Traverse ju...

Page 249: ...ditions With frequency command from panel keypad setting dial 1 setting dial 2 With frequency command fromexternal signal terminal board VIA terminal board VIB UP DOWN from external logic input 8 Terminal board VIC 11 Pulse train input 4 6 7 Communication Run signal Panel keypad Speed command Panel keypad Refer to section 3 3 Example 1 2 Run signal Panel keypad Speed command Terminal Run signal Te...

Page 250: ...election 1B F 0 No function F Input terminal selection 1C F 0 203 Note 1 0 No function Input terminal selection 2A R 4 R Input terminal selection 2B R 0 No function R Input terminal selection 2C R 0 203 Note 1 0 No function Input terminal selection 3A RES 8 RES RES Input terminal selection 3B RES 0 203 Note 1 0 No function Input terminal selection 4A S1 10 SS1 S1 Input terminal selection 4B S1 0 2...

Page 251: ... output Usage example 3 wire operation one push operation Use the 3 wire operation function to operate the inverter maintaining operation without using the sequence circuit by inputting an external signal reset logic signal F CC S2 Forward run Reverse run HD R Forward run F Pressing forward run F rotates forward at the specified frequency command value Reverse run R Pressing reverse run R rotates ...

Page 252: ...hen HD is OFF F and R are ignored even when ON R does not operate even if it s ON when HD is ON Likewise in this state F does not operate even if it s ON Turn F and R OFF and then turn them ON Note 4 During 3 wire operation sending the jog run mode command stops operation Note 5 Be aware that DC braking continues even if a startup signal is input during DC braking Note 6 Only F and R maintain HD o...

Page 253: ... Command mode terminal board 2nd stall prevention level Parameter editing permission PID control prohibition Fast stop command 1 External thermal error input Fast stop command 2 Forced local from communication Traverse permission signal Operation hold hold of 3 wire operation Factory specific coefficient 1 PID integral differential clear Forward deceleration PID characteristics switching Forward s...

Page 254: ... contact is generated by external factors of the vibration and the impact etc In particular please set the filter of 10ms or more or timer for measures when connecting it directly with input unit terminal of programmable controller Please use the OUT terminal as much as possible when the programmable controller is connected Control terminal block FLA B C function Set at parameter Note 1 RY functio...

Page 255: ... 3 When assigning 1 type of function to the OUT terminal set only Leave parameter as the standard setting Assign two types of functions to the output terminal RY RC OUT Terminal symbol Title Function Adjustment range Default setting RY RC Output terminal selection 1A 4 Low speed detection signal OUT Output terminal selection 2A 6 Output frequency attainment signal RY RC Output terminal selection 1...

Page 256: ...tions set at parameters and are simultaneously turned ON Timing chart ON OFF ON OFF ON OFF RY RC Output 2 Output signals when either one of two types of functions are simultaneously turned ON Signals are output when parameter 1 or 3 and either of the functions set at parameters and are turned on Timing chart ON OFF ON OFF ON OFF RY RC Output ...

Page 257: ...using The logical product AND or logical sum OR of the two functions assigned is put out as a signal depending on the setting of parameter If the logical sum AND of and will be output to RY RC The logical product OR of and will be output to OUT NO If the logical product OR of and will be output to RY RC The logical sum AND of and will be output to OUT NO If the logical sum AND of and will be outpu...

Page 258: ...t terminal function Function No Code Function Action 80 HDRY Holding of RY RC terminal output ON Once turned on RY RC are held on OFF The status of RY RC changes in real time according to conditions 82 HDOUT Holding of OUT NO terminal output ON Once turned on OUT NO are held on OFF The status of OUT NO changes in real time according to conditions Each of the following numbers 81 83 are reverse sig...

Page 259: ...e detection Signal in accordance of frequency command Braking resistor overload pre alarm Fault signal output also at a retry waiting Run Stop PTC input alarm signal Heavy fault Safe torque off signal Light fault Analog input break detection alarm Cooling fan ON OFF F terminal state In jogging operation R terminal status Operation panel terminal board operation Cooling fan replacement alarm Cumula...

Page 260: ...with positive logic Open collector output transistor or relay turned OFF ON with negative logic Open collector output transistor or relay turned OFF OFF with negative logic Open collector output transistor or relay turned ON Refer to section 11 7 for details about the output terminal functions or levels ...

Page 261: ...IA VIA input point 2 frequency 0 0 500 0Hz 1 Frequency setting mode selection 2 0 11 1 VIA to VIC Analog input filter 4 1000 ms Note 1 64 VIB input point 1 setting 0 100 0 VIB input point 1 frequency 0 0 500 0Hz 0 0 VIB input point 2 setting 0 100 100 VIB VIB input point 2 frequency 0 0 500 0Hz 1 VIC input point 1 setting 0 100 0 VIC input point 1 frequency 0 0 500 0Hz 0 0 VIC input point 2 settin...

Page 262: ...100 100 VIA input point 2 frequency 0 0 500 0Hz 1 50 0 60 0 Analog input filter 2 1000 ms 64 64 1 Default setting values vary depending on the setup menu setting Refer to section 11 5 Motor IM R L1 U T1 MCCB Power Supply S L2 T L3 V T2 W T3 CC CC F R RES FLC S1 S2 VIA PP VF MB1 Run and stop settings You can switch between forward run F and reverser run R and run stop with external signals Setting ...

Page 263: ...0 0 500 0Hz 1 50 0 60 0 Analog input filter 2 1000 ms 64 64 1 Default setting values vary depending on the setup menu setting Refer to section 11 5 Hz Point 2 Point 1 Frequency setting signal 0 20 100 0mA 4mA 20 mA Current input Operation frequency Run and stop settings You can switch between forward run F and reverser run R and run stop with external signals Setting characteristics for the freque...

Page 264: ... 2 setting 0 100 100 100 VIB input point 2 frequency 0 0 500 0Hz 1 50 0 60 0 Analog input filter 2 1000 ms 64 64 1 Default setting values vary depending on the setup menu setting Refer to section 11 5 Motor IM R L1 U T1 MCCB Power Supply S L2 T L3 V T2 W T3 CC FLC VIB PP VF MB1 Run and stop settings You can switch between forward run F and reverser run R and run stop with external signals Setting ...

Page 265: ... 1 In case of a trip Data collected at the time of occurrence of a trip is retained Refer to section 8 3 2 PRG RUN About 10 kinds of data For 8 times About 10 kinds of predetermined data can be monitored 8 times after power off and on Data collected at the time of occurrence of a trip is retained Refer to section 8 2 2 Past trip record detained monitor mode Note To return to the original display m...

Page 266: ...is displayed forward run reverse run Frequency command value FE02 The frequency command value Hz free unit is displayed In case of Output current FC02 The inverter output current load current A is displayed In case of Input voltage FC05 The inverter Input voltage DC detection V is displayed In case of Output voltage FC08 The inverter output voltage V is displayed In case of Input power k12 3 FC06 ...

Page 267: ...rter rated current A is displayed Overload and region setting 0998 0099 The inverter overload characteristic and region setting is displayed Past trip 1 FE10 Past trip 1 displayed alternately Past trip 2 FE11 Past trip 2 displayed alternately Past trip 3 FE12 Past trip 3 displayed alternately Past trip 4 FE13 Past trip 4 displayed alternately Past trip 5 FD10 Past trip 5 displayed alternately Past...

Page 268: ...nlike the Display of trip information at the occurrence of a trip in 8 3 2 details on a past trip can be displayed even after the inverter is turned off or reset Item displayed Panel operated LED display Description Past trip 1 Past trip 1 displayed alternately Continuous trips For oca ocl and err5 the number of times maximum of 31 the same trip occurred in succession is displayed unit times Detai...

Page 269: ...3 VIB VIA are displayed in bits ON OFF Output terminal 0 ii The ON OFF status of each of the control signal output terminals RY RC OUT FL are displayed in bits ON OFF Cumulative operation time The cumulative operation time when the trip occurred is displayed 0 1 10 hours 1 00 100 hours Past trip 1 Press this key to return to past trip 1 The monitor value of a trip is not always recorded as the max...

Page 270: ...de blinks if a trip occurs The motor coasts and comes to a stop coast stop Parameter setting mode The first basic parameter history function is displayed Direction of rotation FE01 The direction of rotation at the occurrence of a trip is displayed forward run reverser run Frequency command value FE02 The frequency command value Hz free unit at the occurrence of a trip is displayed In case of Outpu...

Page 271: ...rter rated current A is displayed Overload and region setting 0998 0099 The inverter overload characteristic and region setting is displayed Past trip 1 FE10 Past trip 1 displayed alternately Past trip 2 FE11 Past trip 2 displayed alternately Past trip 3 FE12 Past trip 3 displayed alternately Past trip 4 FE13 Past trip 4 displayed alternately Past trip 5 FD10 Past trip 5 displayed alternately Past...

Page 272: ... input voltage Note 4 VIA bar 3 4 Contact input activated ON OFF depend on VIA terminal input 0 to 2 Analog input always OFF VIB bar 1 to 4 Contact input activated ON OFF depend on VIB terminal input 0 Analog input always OFF S3 bar 47 0 Contact input activated ON OFF depend on S3 terminal input 47 1 PTC input always OFF S2 bar 46 0 Contact input activated ON OFF depend on S2 terminal input 46 1 P...

Page 273: ...ection into an AC voltage The reference value 100 value is 200V 240V class 400V 500V class The unit can be switched to V volts Output voltage The voltage displayed is the output command voltage 100 reference value is 200V This unit can be switched to V volts Load factor of inverter Depending on the PWM carrier frequency f300 setting and so on the actual rated current may become smaller than the ra...

Page 274: ...ter load factor FE27 28 a33 0 Inverter rated current A FE70 29 f 70 FM output value FE40 30 p800 Pulse train output value pps FD40 31 p34 5 Cumulative power on time 100 hours FE80 32 f28 6 Cumulative fan operation time 100 hours FD41 33 t27 7 Cumulative operation time 100 hours FE14 34 n89 0 Number of starting times 10000 times FD32 35 f45 5 Forward number of starting times 10000 times FD33 36 r43...

Page 275: ...ve this section explains how to install inverters and what measures should be taken to satisfy the EMC directive We have tested representative models with them installed as described later in this manual to check for conformity with the EMC directive However we cannot check all inverters for conformity because whether or not they conform to the EMC direction depends on how they are installed and c...

Page 276: ...0 3 IEC61000 4 11 9 1 2 Measures to satisfy the EMC directive This subsection explains what measures must be taken to satisfy the EMC directive 1 This inverter is equipped with an EMC filter Table 2 Combinations of inverter and EMC filter Single phase 240 V class Combination of inverter and filter Inverter type Conductive noise IEC61800 3 category C2 PWM carrier frequency of 4kHz and motor wiring ...

Page 277: ...the control cable and between the input and output wires of the power cable Do not route them in parallel or bind them together instead cross at right angle 3 It is more effective in limiting the radiation noise to install the inverter in a sealed steel cabinet Using wires as thick and short as possible earth the metal plate and the control panel securely with a distance kept between the earth cab...

Page 278: ...modifying it as shown below Remove the covering of the cable and fix the shield in the metal saddle Power supply wiring Shielded cables R L1 S L2 T L3 R L1 S L2 N EMC plate Motor wiring Shielded cables U T1 V T2 W T3 Braking resistor wiring Shielded cables PBe PB Control wiring Shielded cables VFMB1S 2002 to 2022PL VFMB1 4004 to 4037PL ...

Page 279: ...1 V T2 W T3 Braking resistor wiring Shielded cables PBe PB Control wiring Shielded cables Install the shield cable after modifying it as shown below Remove the covering of the cable and fix the shield in the metal saddle Earth wiring Control wiring Shielded cables Fixed by insulation lock VFMB1 4055 to 4150PL ...

Page 280: ... EMC plate Refer to the table in 10 1 for details about earth cable sizes 3 Install a non fuse circuit breaker or a fuse on the input side of the inverter Refer to section 10 1 and 9 2 3 9 2 Compliance with UL Standard and CSA Standard This inverter that conform to the UL Standard and CSA Standard based on the rated current of the nameplate have the UL CSA mark on the nameplate 9 2 1 Compliance wi...

Page 281: ...1 4022PL 500 5 5 Class J 15 AWG 14 AWG 14 VFMB1 4037PL 500 5 5 Class J 25 AWG 12 AWG 14 VFMB1 4055PL 500 22 22 Class J 40 AWG 10 AWG 10 VFMB1 4075PL 500 22 22 Class J 40 AWG 8 AWG 10 VFMB1 4110PL 500 22 22 Class J 60 AWG 8 AWG 10 VFMB1 4150PL 500 22 22 Class J 70 AWG 6 AWG 10 Suitable for use on a circuit capable of delivering not more than___X___rms symmetrical kilo Amperes ___Y___Volts maximum w...

Page 282: ...E6581697 I 8 9 9 3 Compliance with safety standards Refer to E6581805 VF MB1 Safety function manual for details 9 4 Compliance with ATEX applications Refer to E6581728 ATEX Guide for details ...

Page 283: ... 0 3 5 0 4 1 5 2 0 1 5 2 0 2 5 2 0 0 75 1 5 2 0 1 5 2 0 2 5 2 0 1 5 1 5 2 0 1 5 2 0 2 5 2 0 2 2 1 5 2 0 1 5 2 0 2 5 2 0 4 0 2 5 2 0 1 5 2 0 2 5 2 0 5 5 4 0 2 0 1 5 2 0 4 0 3 5 7 5 6 0 3 5 2 5 2 0 6 0 3 5 11 10 0 5 5 4 0 2 0 10 0 5 5 15 16 0 8 0 6 0 3 5 16 0 5 5 3 phase 500V class 18 5 16 0 8 0 Note 1 Sizes of the wires connected to the input terminals R L1 S L2 and T L3 Single phase models are R L...

Page 284: ...t be connected to primary side of each inverter to protect the wiring system Note 1 Models made by Toshiba Industrial Products Sales Corporation are shown Note 2 Be sure to attach a surge killer to the exciting coil of the relay and the magnetic contactor Note 3 When using the auxiliary contacts 2a of the magnetic contactor MC for the control circuit connect the contacts 2a in parallel to increase...

Page 285: ...FL built into the inverter is activated 3 In the event of a power failure for prevention of auto restart 4 If the resistor protective relay is tripped when a braking resistor and braking module option are used When using the inverter with no magnetic contactor MC on the primary side install a molded case circuit breaker with a voltage tripping coil instead of an MC and adjust the circuit breaker s...

Page 286: ...verload relay 1 This inverter has an electronic thermal overload protective function In the following cases however an overload relay suitable for the adjustment of the motor electronic thermal protection level and appropriate to the motor used should be installed between the inverter and the motor When using a motor with a current rating different to that of the corresponding Toshiba general purp...

Page 287: ...ge suppression filter for 500V models only 10 4 Optional external devices The following external devices are optionally available for this inverter series 6 Parameter writer RKP002Z 7 Extension panel RKP007Z 8 Remote control panel CBVR 7B1 9 Frequency meter QS60T 10 FRH kit FRH kit 11 USB communication converter USB001Z 12 Profibus DP communication option PDP003Z 13 DeviceNet communication option ...

Page 288: ...rge lamp of inverter is no longer lit Mounting Dismounting Fix the wiring of option to the inverter For inverter capacity 4 0kW or less For inverter capacity 5 5kW or more Fix by plastic band etc Push the tab for release Pull the option out at the same Take out the option cover in the inverter Insert the option into the inverter ...

Page 289: ...s in groups of five in the reverse order to that in which their settings were changed Possible to edit 4 3 5 1 0093 Guidance function 0 1 2 Preset speed guidance 3 Analog signal operation guidance 4 Motor 1 2 switching operation guidance 5 Motor constant setting guidance 0 4 3 5 2 0094 Overload characteristic selection 0 1 Constant torque characteristic 150 60s 2 Variable torque characteristic 120...

Page 290: ...er selection 0 Output frequency 1 Output current 2 Frequency command value 3 Input voltage DC detection 4 Output voltage command value 5 Input power 6 Output power 7 Torque 8 9 Motor cumulative load factor 10 Inverter cumulative load factor 11 PBR Braking resistor cumulative load factor 12 Stator frequency 13 VIA input value 14 VIB input value 15 Fixed output 1 output current 100 equivalent 16 Fix...

Page 291: ...lue 1 0 1 0 1 0 0 30 0 2 5 13 0600 Motor electronic thermal protection level 1 A 1 1 10 100 100 3 5 5 14 6 24 1 Setting Overload protection OL stall 0 valid invalid 1 valid valid 2 invalid invalid 3 Standard motor invalid valid 4 valid invalid 5 valid valid 6 invalid invalid 0017 Electronic thermal protection characteristic selection 7 VF motor invalid valid 0 3 5 5 14 0018 Preset speed frequency ...

Page 292: ...ly 2 North America read only 3 Asia read only 4 Europe read only 1 3 1 4 4 5 18 0050 EASY key mode selection 0 Standard setting mode at power on 1 Easy setting mode at power on 2 Easy setting mode only 0 4 5 5 19 Extended parameter starting at 100 4 2 2 Extended parameter starting at 200 Extended parameter starting at 300 Extended parameter starting at 400 Extended parameter starting at 500 Extend...

Page 293: ... selection 2 0 153 6 0 No function 6 3 1 0 Analog input for communications VIB analog input 1 VIA analog input VIB contact input Sink 2 VIA analog input VIB contact input Source 3 VIA contact input Sink VIB contact input Sink 0109 Analog logic input selection VIA VIB 4 VIA contact input Source VIB contact input Source 0 6 2 3 6 3 2 6 6 2 7 2 1 7 3 0110 Always active function selection 3 0 153 6 6 ...

Page 294: ...or or 0 0144 Input terminal response time ms 1 1 1 1000 1 7 2 1 0146 Logic input pulse train input selection S2 0 Logic input 1 Pulse train input 0 6 6 5 0147 Logic input PTC input selection S3 0 Logic input 1 PTC input 0 2 3 2 6 24 16 0151 Input terminal selection 1B F 0 6 3 2 7 2 1 0152 Input terminal selection 2B R 0 0153 Input terminal selection 3B RES 0 0154 Input terminal selection 4B S1 0 0...

Page 295: ...96 V f 5 point setting VF4 frequency Hz 0 1 0 01 0 0 fh 0 0 0197 V f 5 point setting VF4 voltage 0 1 0 01 0 0 125 0 0 0 0198 V f 5 point setting VF5 frequency Hz 0 1 0 01 0 0 fh 0 0 0199 V f 5 point setting VF5 voltage 0 1 0 01 0 0 125 0 0 0 Frequency parameters Title Communication No Function Unit Minimum setting unit Panel Commun ication Adjustment range Default setting User setting Reference 0 ...

Page 296: ...1 0 01 0 250 0 6 26 0221 VIC input point 2 rate 1 0 01 0 250 100 0239 Factory specific coefficient 2A 3 0240 Starting frequency Hz 0 1 0 01 0 1 10 0 0 5 6 7 1 0241 Operation starting frequency Hz 0 1 0 01 0 0 0 0 6 7 2 0242 Operation starting frequency hysteresis Hz 0 1 0 01 0 0 0 0 0249 PWM carrier frequency during DC braking kHz 0 1 0 1 2 0 16 0 4 0 6 8 1 0250 DC braking starting frequency Hz 0 ...

Page 297: ...d 1 Setting of changed when power is turned off 1 0270 Jump frequency 1 Hz 0 1 0 01 0 0 0 0 6 11 0271 Jumping width 1 Hz 0 1 0 01 0 0 30 0 0 0 0272 Jump frequency 2 Hz 0 1 0 01 0 0 0 0 0273 Jumping width 2 Hz 0 1 0 01 0 0 30 0 0 0 0274 Jump frequency 3 Hz 0 1 0 01 0 0 0 0 0275 Jumping width 3 Hz 0 1 0 01 0 0 30 0 0 0 0287 Preset speed frequency 8 Hz 0 1 0 01 0 0 0288 Preset speed frequency 9 Hz 0 ...

Page 298: ... 6 15 4 0305 Overvoltage limit operation Deceleration stop mode selection 0 Enabled 1 Disabled 2 Enabled Quick deceleration control 3 Enabled Dynamic quick deceleration control 2 6 15 5 0 Supply voltage uncorrected output voltage limited 1 Supply voltage corrected output voltage limited 2 Supply voltage uncorrected output voltage unlimited 0307 Supply voltage correction output voltage limitation 3...

Page 299: ...Droop insensitive torque band 1 1 0 100 10 0324 Droop output filter 0 1 0 1 0 1 200 0 100 0 0328 Light load high speed operation selection 0 Disabled 1 High speed operation speed set automatically Power running at F command Increase 2 High speed operation speed set automatically Power running at R command Increase 3 High speed operation speed set with f330 Power running at F command Increase 4 Hig...

Page 300: ...1 VIA 2 VIB 3 VIC 4 f343 0 0343 Hoisting torque bias input valid only when 1 0 01 250 250 100 0344 Lowering torque bias multiplier 1 0 01 0 100 100 0345 Brake release time s 0 01 0 01 0 00 10 00 0 05 0346 Creeping frequency Hz 0 1 0 01 f240 20 0 3 0 0347 Creeping time 2 s 0 01 0 01 0 00 10 00 0 10 0348 Braking time learning function 1 1 0 Disabled 1 Learning 0 after adjustment 0 0349 Acceleration ...

Page 301: ...380 PID forward reverse characteristics selection 0 Forward 1 Reverse 0 6 20 0382 Hit and stop control 0 Disabled 1 Enabled 2 0 6 18 2 0383 Hit and stop control frequency Hz 0 1 0 01 0 1 30 0 5 0 0384 Factory specific coefficient 3D 3 0385 Factory specific coefficient 3E 0386 Factory specific coefficient 3F 0389 PID control reference signal selection 0 fmod f207 selected 1 Terminal board VIA 2 Ter...

Page 302: ...0 249 250 Disabled 250 0444 Power running torque limit 2 level 1 0 01 0 249 250 Disabled 250 0445 Regenerative braking torque limit 2 level 1 0 01 0 249 250 Disabled 250 0451 Acceleration decel eration operation after torque limit 1 1 0 In sync with acceleration deceleration 1 In sync with min time 0 6 22 2 0452 Power running stall continuous trip detection time s 0 01 0 01 0 00 10 00 0 00 6 22 3 ...

Page 303: ...setting parameters Do not change the value of these parameters Acceleration deceleration time parameters Title Communication No Function Unit Minimum setting unit Panel Commun ication Adjustment range Default setting User setting Reference 0500 Acceleration time 2 s 0 1 0 1 0 0 3600 360 0 8 10 0 0501 Deceleration time 2 s 0 1 0 1 0 0 3600 360 0 8 10 0 6 23 2 0502 Acceleration decel eration 1 patte...

Page 304: ...tention selection 0 Cleared with power off 1 Retained with power off 0 6 24 3 0603 Emergency stop selection 0 Coast stop 1 Deceleration stop 2 Emergency DC braking 3 Deceleration stop f515 4 Quick deceleration stop 5 Dynamic quick deceleration stop 0 6 24 4 0604 DC braking time during emergency stop s 0 1 0 1 0 0 20 0 1 0 0605 Output phase failure detection selection 0 Disabled 1 At start up only ...

Page 305: ...ter overload detection method 0 150 60s 120 60s 1 Temperature estimation 0 3 5 0632 Electronic thermal memory 0 Disabled 1 Enabled 0 3 5 6 24 1 0633 Analog input break detection level VIC 1 1 0 Disabled 1 100 0 6 24 14 0634 Annual average ambient temperature parts replacement alarms 1 10 to 10 C 2 11 20 C 3 21 30 C 4 31 40 C 5 41 50 C 6 51 60 C 3 6 24 15 0644 Operation selection of analog input br...

Page 306: ... Unit Minimum setting unit Panel Commun ication Adjustment range Default setting User setting Reference 0669 Logic output pulse train output selection OUT 0 Logic output 1 Pulse train output 0 6 28 1 0676 Pulse train output function selection OUT 0 Output frequency 1 Output current 2 Frequency command value 3 Input voltage DC detection 4 Output voltage command value 5 Input power 6 Output power 7 ...

Page 307: ...imum setting unit Panel Commun ication Adjustment range Default setting User setting Reference 0700 Parameter protection selection 0 Permitted 1 Writing prohibited Panel and extension panel 2 Writing prohibited 1 RS485 communication 3 Reading prohibited Panel and extension panel 4 Reading prohibited 3 RS485 communication 0 6 29 1 0701 Current voltage unit selection 0 1 A ampere V volt 0 6 29 2 070...

Page 308: ...IA input value 14 VIB input value 15 to 17 18 Arbitrary code from communication 19 20 VIC input value 21 Pulse train input value kpps 22 23 PID feedback value Hz free unit 24 Integral input power kWh 25 Integral output power kWh 26 Motor load factor 27 Inverter load factor 28 Inverter rated current A 29 FM output value 30 Pulse train output value kpps 31 Cumulative power on time 100 hours 32 Cumul...

Page 309: ...put value kpps 22 23 PID feedback value Hz free unit 24 Integral input power kWh 25 Integral output power kWh 26 Motor load factor 27 Inverter load factor 28 Inverter rated current A 29 FM output value 30 Pulse train output value kpps 31 Cumulative power on time 100 hours 32 Cumulative fan operation time 100 hours 33 Cumulative operation time 100 hours 34 Number of starting 10000 times 35 Forward ...

Page 310: ...ohibited 0 0736 change prohibition during operation 0 Permitted 1 Prohibited 1 6 29 1 0737 All key operation prohibition 0 Permitted 1 Prohibited 0 0738 Password setting 0 Password unset 1 9998 9999 Password set 0 0739 Password verification 0 Password unset 1 9998 9999 Password set 0 0740 Trace selection 0 Disabled 1 At tripping 2 At triggering 3 1 2 1 6 30 0741 Trace cycle 0 4ms 1 20ms 2 100ms 3 ...

Page 311: ... parameter 8 999 0759 Easy setting mode parameter 9 999 0760 Easy setting mode parameter 10 999 0761 Easy setting mode parameter 11 999 0762 Easy setting mode parameter 12 999 0763 Easy setting mode parameter 13 999 0764 Easy setting mode parameter 14 999 0765 Easy setting mode parameter 15 999 0766 Easy setting mode parameter 16 999 0767 Easy setting mode parameter 17 999 0768 Easy setting mode p...

Page 312: ...ing User setting Reference 0800 Baud rate 3 9600bps 4 19200bps 5 38400bps 4 0801 Parity 0 NON No parity 1 EVEN Even parity 2 ODD Odd parity 1 0802 Inverter number 1 1 0 247 0 0803 Communication time out time s 0 1 0 1 0 0 Disabled 0 1 100 0 0 0 6 33 1 0804 Communication time out action 0 Alarm only 1 Trip Coast stop 2 Trip Deceleration stop 0 0805 Communication waiting time s 0 01 0 01 0 00 2 00 0...

Page 313: ...information 1 2 Command information 2 3 Frequency command value 4 Output data on the terminal board 5 Analog output for communication 6 Speed command value 0 0875 Block read data 1 0 0876 Block read data 2 0 0877 Block read data 3 0 0878 Block read data 4 0 0879 Block read data 5 0 No selection 1 Status information 2 Output frequency 3 Output current 4 Output voltage 5 Alarm information 6 PID feed...

Page 314: ... mode selection 0 Mode 0 1 Mode 1 2 Mode 2 3 Mode 3 4 Mode 4 3 6 21 2 0916 Factory specific coefficient 9F 3 0917 Factory specific coefficient 9G 0918 Factory specific coefficient 9H 0919 Factory specific coefficient 9I 0920 Factory specific coefficient 9J 0930 Factory specific coefficient 9K 3 Factory specific coefficient parameters are manufacturer setting parameters Do not change the value of t...

Page 315: ...N 3 AND logical product 4 ANDN 5 OR logical sum 6 ORN 7 EQ equal 8 NE not equal 9 GT greater than 10 GE greater or equal 11 LT less than 12 LE less or equal 13 ASUB absolute 14 ON on delay timer 15 OFF off delay timer 16 COUNT 1 counter 1 17 COUNTR 2 counter 2 18 HOLD hold 19 SET set 20 RESET reset 21 CLR 22 CLRN 0 A902 Input function target 12 0 3099 Same as a900 0 A903 Input function command 13 ...

Page 316: ...put percent data 2 0 01 0 01 0 00 A920 Output percent data 3 0 01 0 01 0 00 A921 Output percent data 4 0 01 0 01 0 00 A922 Output percent data 5 0 01 0 01 0 00 200 0 0 00 A923 Output frequency data 1 Hz 0 1 0 01 0 0 A924 Output frequency data 2 Hz 0 1 0 01 0 0 A925 Output frequency data 3 Hz 0 1 0 01 0 0 A926 Output frequency data 4 Hz 0 1 0 01 0 0 A927 Output frequency data 5 Hz 0 1 0 01 0 0 500 ...

Page 317: ...put function target 61 0 3099 Same as a900 0 A948 Input function command 62 0 22 Same as a901 0 A949 Input function target 62 0 3099 Same as a900 0 A950 Input function command 63 0 22 Same as a901 0 A951 Input function target 63 0 3099 Same as a900 0 A952 Output function assigned object 6 0 3099 Same as a900 0 A953 Input function target 71 0 3099 Same as a900 0 A954 Input function command 72 0 22 ...

Page 318: ...MB1S 2007PL 6 0 200 0 0 12 5 8 0 75 3 4 60 136 0 VFMB1S 2015PL 6 0 75 0 0 12 4 3 1 50 6 2 55 136 0 VFMB1S 2022PL 5 0 75 0 0 12 4 1 2 20 8 9 52 136 0 VFMB1 4004PL 6 0 200 0 0 12 6 2 0 40 1 0 65 141 0 VFMB1 4007PL 6 0 200 0 0 12 5 8 0 75 1 7 60 141 0 VFMB1 4015PL 6 0 200 0 0 12 4 3 1 50 2 4 55 141 0 VFMB1 4022PL 5 0 200 0 0 12 4 1 2 20 4 5 52 141 0 VFMB1 4037PL 5 0 160 0 0 12 3 4 4 00 1 7 4 48 141 1...

Page 319: ...opped by f603 e trip 6 24 4 21 EXTN Inversion of emergency stop by external signal Inversion of EXT 22 DB DC braking command ON DC braking OFF Brake canceled 6 8 1 23 DBN Inversion of DC braking command Inversion of DB 24 AD2 2nd acceleration deceleration ON Acceleration deceleration 2 OFF Acceleration deceleration 1 6 4 1 6 23 2 25 AD2N Inversion of 2nd acceleration deceleration Inversion of AD2 ...

Page 320: ...al operation 6 36 65 MYFN Inversion of logic sequence function trigger signal Inversion of MYF 70 71 Factory specific coefficient 1 74 CKWH Integrating wattmeter kwh display clear ON Integrating wattmeter kwh monitor display clear OFF Disabled 6 31 75 CKWHN Inversion of integrating wattmeter display clear Inversion of CKWH 76 TRACE Trace back trigger signal ON Trigger start signal of trace functio...

Page 321: ...on of FSTP1 122 FSTP2 Fast stop command 2 ON Automatic deceleration OFF Forced deceleration canceled Note that operation is resumed when forced deceleration is canceled 123 FSTP2N Inversion of fast stop command 2 Inversion of FSTP2 134 TVS Traverse permission signal ON Permission signal of traverse operation OFF Normal operation 6 35 135 TVSN Inversion of traverse permission signal Inversion of TV...

Page 322: ...93 96 97 110 111 200 201 122 123 F R 2 3 4 5 X X X X X ST 6 7 RES 8 9 X SS1 SS2 SS3 SS4 10 11 12 13 14 15 16 17 X X X X X X JOG 18 19 X X X X X X EXT 20 21 DB 22 23 X X X X AD2 VF2 OCS2 24 25 28 29 32 33 PID IDC PIDSW 36 37 52 53 54 55 X X SCLC FMTB CMTB 48 49 106 107 108 109 HD 50 51 X X X X X X UP DWN CLR 88 89 90 91 92 93 FRR 96 97 PWE PWP 110 111 200 201 FST 122 123 X X X Priority Enabled X Di...

Page 323: ...f trip output Inversion of FL 14 POC Over current detection pre alarm ON Output current is or more OFF Output current is less than 6 24 2 15 POCN Inversion of over current detection pre alarm Inversion of POC 16 POL Overload detection pre alarm ON or more of calculated value of overload protection level OFF Less than of calculated value of overload protection level 3 5 17 POLN Inversion of overloa...

Page 324: ...T Cumulative operation time alarm ON Cumulative operation time is or more OFF The cumulative operation time is less than 6 24 12 57 COTN Inversion of cumulative operation time alarm Inversion of COT 58 COMOP Communication option communication error ON Communication error of communication option occurs OFF Other than those above 6 33 59 COMOPN Inversion of communication option communication error I...

Page 325: ...rogress ON Traverse deceleration in progress OFF Other than those above 127 TVSDN Inversion of traverse deceleration in progress Inversion of TVSD 128 LTA Parts replacement alarm ON Any one of cooling fan control board capacitor or main circuit capacitor reaches parts replacement time OFF Any one of cooling fan control board capacitor or main circuit capacitor does not reach parts replacement time...

Page 326: ...ion of LI1 158 LI2 R terminal status ON R terminal is ON status OFF R terminal is OFF status 159 LI2N Inversion of R terminal status Inversion of LI2 160 LTAF Cooling fan replacement alarm ON Cooling fan reaches parts replacement time OFF Cooling fan does not reach parts replacement time 6 24 15 161 LTAFN Inversion of cooling fan replacement alarm Inversion of LTAF 162 NSA Number of starting alarm...

Page 327: ...of LSFO8 238 LSFO9 Logic sequence function output 9 ON Logic sequence function output 9 is ON OFF Logic sequence function output 9 is OFF 239 LSFO9N Inversion of logic sequence function output 9 Inversion of LSFO9 240 LSFO10 Logic sequence function output 10 ON Logic sequence function output 10 is ON OFF Logic sequence function output 10 is OFF 241 LSFO10N Inversion of logic sequence function outp...

Page 328: ...tion 1 Frequency setting mode selection Overload characteristic selection Maximum frequency Automatic acceleration deceleration V F control mode selection Torque boost setting macro function Default setting 1 Command mode selection Checking the region setting Extended parameters to to to to to to to to to to to 1 and can be changed during operation by setting Note Refer to Communication manual abo...

Page 329: ... 5 6 9 9 5 11 9 14 3 17 0 17 0 23 0 27 7 33 0 33 0 40 0 Output voltage Note 3 3 phase 380V to 500V Rating Overload current rating 150 60 seconds 200 0 5 second 120 60 seconds 165 0 5 second Note 2 Voltage frequency 3 phase 380V to 500V 50 60Hz Allowable fluctuation Voltage 323 to 550V Note 4 frequency 5 Power supply Required Power supply capacity kVA Note 5 1 6 2 6 4 7 6 3 10 1 15 2 19 6 26 9 34 9...

Page 330: ...to select from among about 110 functions such as forward reverse run signal input jog run signal input operation base signal input and reset signal input to assign to 8 input terminals Logic selectable between sink and source Output terminal functions programmable Possible to select from among about 150 functions such as upper lower limit frequency signal output low speed detection signal output s...

Page 331: ...y operation frequency command forward reverse run output current input voltage DC detection output voltage information on input terminals information on output terminals and cumulative operation time when each trip occurred Output for frequency meter Analog output for meter 1mA dc full scale dc ammeter 0 20mA 4 to 20mA output DC ammeter allowable load resistance Less than 750Ω 0 10V output DC volt...

Page 332: ...70 232 42 258 47 B 2 2 0 4 VFMB1 4004PL 1 8 0 75 VFMB1 4007PL 1 5 VFMB1 4015PL 45 29 A 1 9 2 2 VFMB1 4022PL 2 2 4 0 VFMB1 4037PL 60 270 42 258 47 B 2 4 5 5 VFMB1 4055PL 7 5 VFMB1 4075PL 150 220 130 210 12 C 4 3 11 VFMB1 4110PL 6 8 3 phase 500V 15 VFMB1 4150PL 180 310 232 160 295 20 D 6 9 Note H dimension in Fig C is not included in the protuberance for operation panel Outline drawing Fig A 123 14 ...

Page 333: ...1 Mounting dimension W1 Mounting dimension W VF MB1 10 7 9 123 14 7 258 248 H1 Mounting dimension D 7 5 45 R2 75 R2 75 5 45 φ5 5 φ10 H H2 W W1 Mounting dimension 9 φ5 5 φ5 φ10 φ11 φ5 5 3 8 H D H2 R 2 5 70 88 H1 Mounting dimension W1 Mounting dimension 10 W 150 EMC plate VF MB1 ...

Page 334: ...luctuation Check the load operated machine 0003 Overcurrent during constant speed operation Low inductance motor especially High speed motor is used Choose the higher power range drive 1 class up drive is recommended 0004 Overcurrent An overcurrent on the load side at start up The insulation of the output main circuit or motor is defective The motor has too small impedance Check the secondary wiri...

Page 335: ...p etc Use auto restart and ride through control 000D Inverter overload The load is too large Use an inverter with a larger rating The V F setting is improper Check the V F parameter setting The motor is locked up Check the load operated machine 000E Motor overload Low speed operation is performed continuously An excessive load is applied to the motor during operation Adjust to the overload that th...

Page 336: ...pening frequently 0014 EEPROM fault 3 A data reading error occurred Turn off the inverter then turn it again If it does not recover from the error contact your Toshiba distributor 0015 Main unit RAM fault The control RAM is defective Contact your Toshiba distributor 0016 Main unit ROM fault The control ROM is defective Contact your Toshiba distributor 0017 CPU fault 1 The control CPU is defective ...

Page 337: ...lied Using the DC braking function Unlock the motor shaft Check the interconnect cables between the inverter and the motor Prolong the acceleration deceleration time Turn off the Step out function when using the DC braking function or change the DC braking to Servo lock function 003B Safe torque off error Error of safe torque off circuit Contact your Toshiba distributor 0029 Inverter type error It...

Page 338: ...the operation in automatic control or remote control mode Press the STOP key for an emergency stop To cancel the emergency stop press any other key Setting error alarm An error code and data are displayed alternately twice each An error is found in a setting when data is reading or writing Check whether the setting is made correctly Display of first last data items The first and last data item in ...

Page 339: ... correct pass is displayed and if it is incorrect fail is displayed Switching display of Easy setting mode Standard setting mode The EASY key was pushed in the standard monitor mode When easy is displayed setting mode becomes easy setting mode When std is displayed it becomes standard setting mode Note 2 Input requirement of region setting A region setting is not input yet Power supplied to the in...

Page 340: ... if the cause of the trip has already been eliminated When any overload function inverter overload motor overload braking resistor overload is active the inverter cannot be reset by inputting a reset signal from an external device or by operation panel operation before the virtual cooling time has passed Virtual cooling time about 30 seconds after the occurrence of a trip about 120 seconds after a...

Page 341: ...Is the LED of the RUN STOP key off Check to see that the frequency setting signal is not set at zero Check the settings of the frequency setting signal parameters Refer to section 3 2 2 Check the settings of frequency setting signal points 1 and 2 Refer to section 6 6 2 Check the operation start frequency setting to see if it is larger than the operation frequency Refer to section 6 7 2 Check that...

Page 342: ...d than the specified one The motor has an improper voltage rating Use a motor with a proper voltage rating The motor terminal voltage is too low Check the setting of the base frequency voltage parameter Refer to section 5 11 Replace the cable with a cable larger in diameter The reduction gear ratio etc are not set properly Adjust the reduction gear ratio etc The output frequency is not set correct...

Page 343: ...he correct environment of use and to find any sign of failure or malfunction by comparing current operation data with past operation records Inspection procedure Subject of inspection Inspection item Inspection cycle Inspection method Criteria for judgment 1 Dust temperature and gas Occasionally 1 Visual check check by means of a thermometer smell check 1 Improve the environment if it is found to ...

Page 344: ...ay from molded parts such as plastic covers and units of the inverter Acetone Ethylene chloride Tetrachloroethane Benzen Ethyl acetate Trichloroethylene Chloroform Glycerin Xylene 14 2 Periodical inspection Make a periodical inspection at intervals of 3 or 6 months depending on the operating conditions Warning Mandatory action Before inspection perform the following steps 1 Shut off all input powe...

Page 345: ... the power supply voltage with a transformer etc 6 If the need arises conduct an insulation test on the main circuit terminal board only using a 500V insulation tester Never conduct an insulation test on control terminals other than terminals on the printed circuit board or on control terminals When testing the motor for insulation performance separate it from the inverter in advance by disconnect...

Page 346: ...ice life of about ten years The fan also needs to be replaced if it makes a noise or vibrates abnormally 2 Smoothing capacitor The smoothing aluminum electrolytic capacitor in the main circuit DC section degrades in performance because of ripple currents etc It becomes necessary to replace the capacitor after it is used for about 10 years under normal conditions Since the smoothing capacitor is mo...

Page 347: ...st Note 2 Figures are for when the inverter output current is 80 of the rated current of the inverter Note 3 The life of parts varies greatly depending on the operating environment 14 3 Making a call for servicing For the Toshiba service network refer to the back cover of this instruction manual If defective conditions are encountered please contact the Toshiba service section in charge via your T...

Page 348: ...sed by improper or incorrect use or handling or unauthorized repair or modification of the inverter Failure or damage caused by the inverter falling or an accident during transportation after the purchase Failure or damage caused by fire salty water or wind corrosive gas earthquake storm or flood lightning abnormal voltage supply or other natural disasters Failure or damage caused by the use of th...

Page 349: ...known as industrial waste product collectors and transporters or industrial waste disposal persons If the collection transport and disposal of industrial waste is done by someone who is not licensed for that job it is a punishable violation of the law Laws in regard to cleaning and processing of waste materials For safety s sake do not dispose of the disused inverter yourself but ask an industrial...

Page 350: ...2011 07 ...

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