Toshiba TOSVERT VF-nC3 Instruction Manual
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Toshiba TOSVERT VF-nC3 Instruction Manual

Industrial inverter for 3-phase induction motors
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Industrial Inverter

For 3-phase induction motors
Instruction Manual
TOSVERT
<Detailed manual>
1-phase 120V class 0.1
1-phase 240V class 0.1
3-phase 240V class 0.1
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.
nC3
VF-
TM
0.75kW
2.2kW
4kW
NOTICE
E6581595
Safety
I
precautions
II II
Introduction
Contents
1
Read first
2
Connection
3
Operations
Setting
4
parameters
Main
5
parameters
Other
6
parameters
Operation
7
with external
signal
Monitoring the
8
operation status
Measures
9
to satisfy the
standards
Peripheral
10 10
devices
Table of
11 11
parameters
and data
12 12
Specifications
Before making
13 13
a service call
Inspection and
14 14
maintenance
15 15
Warranty
Disposal of the
16 16
inverter

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Summary of Contents for Toshiba TOSVERT VF-nC3

  • Page 1: Industrial Inverter

    E6581595 Safety precautions II II Introduction Contents Industrial Inverter Read first For 3-phase induction motors Connection Operations Instruction Manual Setting parameters Main parameters TOSVERT Other parameters Operation with external <Detailed manual> signal Monitoring the operation status Measures to satisfy the standards 1-phase 120V class 0.1 0.75kW...

  • Page 2: Safety Precautions

    E6581595 Safety precautions The items described in these instructions and on the inverter itself are very important so that you can use the inverter safely, prevent injury to yourself and other people around you as well as to prevent damage to property in the area.

  • Page 3: General Operation

    E6581595 General Operation Warning See item • Never disassemble, modify or repair. This can result in electric shock, fire and injury. For repairs, call your sales distributor. Disassembly 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 electric shock.

  • Page 4: Instruction Manual 3

    Operation cannot be stopped immediately by the inverter alone, thus risking an accident or injury. • All options used must be those specified by Toshiba. 1.4.4 The use of any other option may result in an accident.
  • Page 5 E6581595 Wiring Warning See item • Do not connect input power to the output (motor side) terminals (U/T1,V/T2,W/T3). That will destroy the inverter and may result in fire. • Do not connect resistors to the DC terminals (across PA/+ - PC/- or PO-PC/-). That may cause a fire.
  • Page 6 E6581595 Warning See item • Configuring settings on the setup menu incorrectly may break the inverter or lead to malfunction. Instruction Operations Warning See item • Never touch the internal terminals in the upper right while the front cover is open. 1.3.1 There is a risk of shock because it carries a high voltage.

  • Page 7: Maintenance And Inspection

    E6581595 When retry function is selected (inverter) Caution See item • Stand clear of motors and equipment. E6581595, 6.12.3 If the motor and equipment stop when the alarm is given, selection of the retry function will restart them suddenly after the specified time has elapsed. This could result in unexpected injury.
  • Page 8 E6581595 Attach caution labels Shown here are examples of warning labels to prevent, in advance, accidents in relation to inverters, motors and other equipment. Be sure to affix the caution label where it is easily visible when selecting the auto-restart function (6.13.1) or the retry function (6.13.3).
  • Page 9 E6581595 II. Introduction Thank you for your purchase of the Toshiba "TOSVERT VF-nC3” industrial inverter. This is the Ver. 100 CPU version inverter. Please be informed that CPU version will be frequently upgraded.

  • Page 10: Table Of Contents

    E6581595   Contents Safety precautions................................. 1 Introduction..................................8 1. Read first ..................................A-1 Check product purchase............................ A-1 Contents of the product ............................. A-2 Names and functions ............................A-3 Notes on the application ............................ A-12 2. Connection ..................................B-1 Cautions on wiring ............................. B-1 Standard connections ............................
  • Page 11 E6581595 5.11 Selecting control mode............................E-17 5.12 Manual torque boost - increasing torque boost at low speeds ................E-21 5.13 Setting the electronic thermal..........................E-22 5.14 Preset-speed operation (speeds in 15 steps).....................E-22 5.15 Standard default setting .............................E-22 5.16 Checking the region setting selection ........................E-22 5.17 EASY key function .............................E-22 6.
  • Page 12 E6581595 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 User parameters ..............................

  • Page 13: Read First

    E6581595 1. Read first Check product purchase Before using the product you have purchased, check to make sure that it is exactly what you ordered. Caution Use an inverter that conforms to the specifications of power supply and three-phase induction motor being used.

  • Page 14: Contents Of The Product

    E6581595 Contents of the product Explanation of the name plate label. Type Form V F N C 3 S - 2 0 0 7 P L B - A 2 2 Applicable motor Model name Input (AC) voltage Additional functions I Special specification code capacity None: No filter inside...

  • Page 15: Names And Functions

    E6581595 Names and functions 1.3.1 Outside view With cover closed Charge lamp Indicate s there is a high voltage still in the inverter. Do not open the terminal block cover when this lamp becaus e dangerous. Cover This is the body or terminal block cover.
  • Page 16 E6581595 Example of the label [Opening the cover] l 14 About the monitor display The LED on the operation panel uses the following symbols to indicate parameters and operations. LED display (numbers) LED display (letters)
  • Page 17 E6581595 Warning • Never touch the internal terminals in the upper right while the cover is open. There is a risk of shock because it carries a high voltage. Prohibited [With cover open] RUN lamp % lamp Lit when a frequency is not output with the ON Dispalye d numbers are run command.
  • Page 18 E6581595 1.3.2 Opening the terminal cover Caution ● When removing and installing the terminal cover with a screwdriver, be sure not to scratch your hand as this results in injury. ● Pressing too hard on the screwdriver may scratch the inverter. ●...
  • Page 19 E6581595 (2) Removing the upper terminal (input terminal) block cover Insert a screwdriver or other thin object into the Press in on the screwdriver. hole indicated with the mark. While pressing on the screwdriver, rotate the Pull the terminal cover up at an angle. terminal cover upward to remove it.
  • Page 20 E6581595 1.3.3 Power circuit and control circuit terminal boards In case of the lug connector, cover the lug connector with insulated tube, or use the insulated lug connector. Note 1: EMC plate is supplied as standard. 1) Power circuit terminal board In case of the lug connector, cover the lug connector with insulated tube, or use the insulated lug connector.
  • Page 21 E6581595 VFNC3-2015 ∼ 2037P R/L1 S/L2 T/L3 M4 screw Earth terminal Short-circuit cover M4 screw PA/+ PC/- U/T1 V/T2 W/T3 Earth terminal Earth terminal Earth terminal M4 screw: 2015, 2202 (M5 screw) M4 screw: 2015, 2202 M5 screw: 2037 M5 screw: 2037 EMC plate For installation (Note 1) * Bend the clips on the wiring port of the terminal cover to connect the PO, PA/+, and PC/- terminals.
  • Page 22 E6581595 VFNC3S-1007P,2015PL,2022PL Earth terminal Grounding capacitor switch R/L1 S/L2/N (2015, 2022 PL only) M4 screw Short-circuit cover M4 screw PA/+ PC/- U/T1 V/T2 W/T3 Earth Earth terminal Earth terminal terminal (M4 screw) (M4 screw) (M5 screw) EMC plate For installation (Note 1) * Bend the clips on the wiring port of the terminal cover to connect the PO, PA/+, and PC/- terminals.
  • Page 23 E6581595 3) Control circuit terminal board The control circuit terminal board is common to all equipment. FLA FLB FLC CC VI P5 FM OUT NO CC S2 P24 Optional connector (RJ45) Screw size Recommended tightening torque M2.5 screw 0.5 N m 4.4 lb in Wire size Solid wire: 0.3 ∼...

  • Page 24: Notes On The Application

    E6581595 Notes on the application 1.4.1 Motors When the VF-nC3 and the motor are used in conjunction, pay attention to the following items. Caution Use an inverter that conforms to the specifications of power supply and three-phase induction motor being operated. If the inverter being used does not conform to those specifications, not only will the three-phase induction motor not rotate correctly, but it may cause serious accidents through overheating Mandatory and fire.
  • Page 25 E6581595 Low loads and low inertia loads The motor may demonstrate instability such as abnormal vibrations or overcurrent trips at light loads of 50 % or under of the load percentage, or when the load's inertia moment is extremely small. If that happens reduce the carrier frequency.
  • Page 26 E6581595 Motors with a brake When motors with a brake are directly connected to the inverter's output, the brake cannot be released at startup because of low voltage. Wire the brake circuit separately from the main circuit. 3-phase FLB FLC S2 (ST) NO CC 3-phase power...
  • Page 27 E6581595 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.
  • Page 28 E6581595 Disposal See chapter 16. 1.4.3 What to do about the leakage current Caution Current may leak through the inverter's input/output wires because of insufficient electrostatic capacity on the motor with bad effects on peripheral equipment. The leakage current’s value is affected by the carrier frequency and the length of the input/output wires. Test and adopt the following remedies against leak current.
  • Page 29 E6581595 Remedies: 1.If there is no radio-frequency interference or similar problem, detach the built-in noise filter capacitor, using the grounding capacitor disconnecting switch. (See 1.3.3-2)) 2.Reduce PWM carrier frequency. The setting of PWM carrier frequency is done with the parameter  . Although the electromagnetic noise level is reduced, the motor acoustic noise is increased.

  • Page 30: Installation Environment

    E6581595 CT and ammeter If a CT and ammeter are connected externally to detect inverter output current, the leak current's high frequency component may destroy the ammeter. If the wires are more than 50 meters long, it will be easy for the high frequency component to pass through the externally connected CT and be superimposed on and burn the ammeter with models having motors of low rated current (several A(ampere) or less), because the leakage current will increase in proportion to the motor's rated current.
  • Page 31 If the VF-nC3 Inverter is installed in a location that is subject to vibration, anti-vibration measures are required. Please consult with Toshiba about these measures. • If the VF-nC3 Inverter is installed near any of the equipment listed below, provide measures to insure against errors in operation.
  • Page 32 Operation cannot be stopped immediately by the inverter alone, thus risking an accident or injury. • All options used must be those specified by Toshiba. The use of any other option may result in an accident.
  • Page 33 E6581595 10 cm or more Remove seals on top VFnC3 VFnC3 VFnC3 10 cm or more The space shown in the diagram is the minimum allowable space. Because air cooled equipment has cooling fans built in on the top or bottom surfaces, make the space on top and bottom as large as possible to allow for air passage.
  • Page 34 E6581595 Panel designing taking into consideration the effects of noise The inverter generates high frequency noise. When designing the control panel setup, consideration must be given to that noise. Examples of measures are given below. • Wire so that the main circuit wires and the control circuit wires are separated. Do not place them in the same conduit, do not run them parallel, and do not bundle them.
  • Page 35 E6581595 Installing more than one unit in a cabinet If you are installing two or more inverters in one cabinet, pay attention to the following. • Inverters may be installed side by side with each other with no space left between them. •...

  • Page 36: Connection

    E6581595 2. Connection Warning • Never disassemble, modify or repair. This can result in electric shock, fire and injury. For repairs, call your sales agency. Disassembly prohibited • Don't stick your fingers into openings such as cable wiring hole and cooling fan covers. This can result in electric shock or other injury.

  • Page 37: Standard Connections

    E6581595 Warning • Ground must be connected securely. If the ground is not securely connected, it could lead to electric shock or fire when a malfunction or current leak occurs. Be Grounded Caution • Do not attach devices with built-in capacitors (such as noise filters or surge absorber) to the output (motor side) terminal.

  • Page 38: Standard Connection Diagram

    E6581595 2.2.1 Standard connection diagram 1 This diagram shows a standard wiring of the main circuit. Standard connection diagram - SINK (Negative) (common:CC) DC reactor (DCL) *2 , *5 (option) PA/+ PC/- Motor MCCB Main circuit power supply U/T1 R/L1 1ph-120V class: single-phase 100-120V S/L2 V/T2...
  • Page 39 E6581595 2.2.2 Standard connection diagram 2 Standard connection diagram - SOURCE (Positive) (common:P24) DC reactor (DCL) *2 , *5 (option) PA/+ PC/- Motor MCCB Main circuit power supply U/T1 R/L1 single-phase 1ph-120V class: three-phase 100-120V S/L2 Noise Power V/T2 -50/60Hz filter circuit single-phase...

  • Page 40: Description Of Terminals

    E6581595 Description of terminals 2.3.1 Power circuit terminals This diagram shows an example of wiring of the main circuit. Use options if necessary. Power supply and motor connections Power supply No-fuse Power lines are connected +0 breaker ,S/L and T/L VF-nC3 Motor lines are connected to ,V/T...
  • Page 41 E6581595 Power circuit Terminal symbol Terminal function Grounding terminal for connecting inverter. There are 3 terminals in total. 120V class: single-phase 100 to 120V-50/60Hz 240V class: single-phase 200 to 240V-50/60Hz R/L1,S/L2,T/L3 three-phase 200 to 240V-50/60Hz * Single-phase input: R/L1 and S/L2 terminals Connect to a (three-phase induction) motor.
  • Page 42 E6581595 Terminal Input / Electrical Function Inverter internal circuits symbol output specifications Common Control circuit's equipotential terminal (2 to Input / terminals) output 5Vdc Output Analog power supply output (permissible load current: 10mA) Multifunction programmable analog input. Factory default setting: 0~10Vdc (1/1000 resolution) and 0~60Hz (0~50Hz) frequency input.
  • Page 43 E6581595 Terminal Input / Electrical Function Inverter internal circuits symbol output specifications Multifunction programmable open Open collector output collector output. Standard default settings 24Vdc-100mA detect and output low speed signal. Multifunction output terminals to which To output pulse two different functions can be assigned. trains, The NO terminal is an isoelectric output a current of 10mA...
  • Page 44 E6581595 SINK (Negative) logic/SOURCE (Positive) logic (When the inverter's internal power supply is used) Current flowing out turns control input terminals on. These are called sink logic terminals. The general used method in Europe is source logic in which current flowing into the input terminal turns it on .
  • Page 45 E6581595 SINK (Negative) logic/SOURCE (Positive) logic (When an external power supply is used) The output logic terminal (OUT-NO) can be used by external power supply. <Examples of connections when an external power supply is used> Sink (Negative) logic Source (Positive) logic Output Output Common...

  • Page 46: Operations

    E6581595 3. Operations Caution • Do not touch inverter terminals when electrical power is going to the inverter even if the motor is stopped. Touching the inverter terminals while power is connected to it may result in electric shock. • Do not touch switches when the hands are wet and do not try to clean the inverter with a damp cloth. Prohibited Such practices may result in electric shock.

  • Page 47: How To Set The Setup Menu

    E6581595 How to Set the Setup Menu Warning • If incorrect setting, the drive may has some damage or unexpected movement. Be sure to set the setup parameter correctly. Instruction Set the setup menu according to the logic for control input signals used and the base frequency of the motor connected.
  • Page 48 E6581595 Values set by each setup parameter     Title Function (Mainly in (Mainly in North (Mainly in Asia, (Mainly in Japan) Europe) America) Oceania)  50.0(Hz) 60.0(Hz) 50.0(Hz) Max. frequency 80.0(Hz) / Frequency / 50.0(Hz) 60.0(Hz) 50.0(Hz) settings 60.0(Hz) ...

  • Page 49: Simplified Operation Of The Vf-Nc3

    E6581595 Simplified Operation of the VF-nC3 The procedures for setting operation frequency and the methods of operation can be selected from the following. : (1) Run and stop using the panel keypad Run / Stop (2) Run and stop using external signals to terminal board : (1) Setting using setting dial Setting the frequency...
  • Page 50 E6581595 3.2.1 How to run and stop [Example of a  setting procedure] Panel operation LED display Operation Displays the operation frequency (operation stopped).  (When standard monitor display selection = [Operation frequency])  MODE Displays the first basic parameter [History ()]. ...
  • Page 51 E6581595 (3) Coast stop Coast stop The standard default is slowdown stop. To make a Motor coast stop, assign "6 (ST)" to an idle terminal. speed Change to =. For coast stop, open the ST-CC when stopping the motor in the state described at left.The monitor on the F-CC inverter at this time will display .
  • Page 52 E6581595 Example of operating from the panel (=: save even if power is off) Panel operation LED display Operation Display the operation frequency. (When standard monitor display selection is set as =  [operation frequency])  Set the operation frequency. The frequency will be saved even if the power is turned off in this ...

  • Page 53: Frequency Setting

    E6581595 (2) Setting of frequency using external signals to terminal block (=) Frequency setting Setting the frequency using external potentiometer ★Potentiometer Setting frequency using the potentiometer (1-10kΩ, 1/4W) 50 or 60Hz : Setting frequency using potentiometer Frequency Note) Set parameter =. Setting the frequency using input voltage (0~10V) ★Voltage signal Setting frequency using voltage signals (0∼10V).

  • Page 54: How To Operate The Vf-Nc3

    E6581595 How to operate the VF-nC3 Overview of how to operate the inverter with simple examples. Setting the frequency using the setting dial, and run/stop using the Ex.1 panel keypad (1) Wiring PA/+ PC/- Motor R/L1 U/T1 S/L2 V/T2 Noise Power circuit T/L3 filter...
  • Page 55 E6581595 Setting the frequency using the setting dial, and run/stop using the Ex.2 panel keypad (2) Wiring PA/+ PC/- Motor MCCB R/L1 U/T1 S/L2 V/T2 Noise Power circuit filter T/L3 W/T3 Control circuit Operation panel Parameter setting Title Function Programmed value ...
  • Page 56 E6581595 Setting the frequency using the setting dial, and run/stop using Ex.3 external signals Wiring PA/+ PC/- Motor MCCB R/L1 U/T1 S/L2 V/T2 Noise Power circuit filter T/L3 W/T3 Control Forward circuit signal Revese signal Common Operation panel Parameter setting Title Function Programmed value...
  • Page 57 E6581595 Setting the frequency using external signals, run/stop using external Ex.4 signals. Wiring PA/+ PC/- Motor MCCB R/L1 U/T1 S/L2 V/T2 Noise Power circuit W/T3 T/L3 filter Foward signal Control circuit Reverse signal Common Current signal: 4∼20mA Voltage signal: 0∼10V / 0∼5V External potentiometer (Otherwise, input voltage signal between the terminals VI-CC.) Parameter setting...

  • Page 58: Meter Setting And Adjustment

    E6581595 Meter setting and adjustment  : Meter selection  : Meter adjustment gain • Function Output of 0 - 1 mAdc, 0 (4) - 20 mAdc, 0 - 10 vdc can be selected for the output signal from the FM terminal, depending no the ...
  • Page 59 E6581595 Resolution All FM terminals have a maximum of 1/255. Example of 4-20mA output adjustment (for details, see 6.20.2)  =1,  =0  =1,  =20 (mA) (mA) Output Output currrent currrent f692 100% 100% Internal calculated value Internal calculated value Note 1) When using the FM terminal for current output, be sure that the external load resistance is less than 750Ω.
  • Page 60 E6581595 [Example of how to adjustment the FM terminal frequency meter] Use the meter's adjustment screw to pre-adjust zero-point. Operation panel action LED display Operation Displays the output frequency.  .  (When standard monitor display selection  is set to  ) ...
  • Page 61 E6581595 Setting the electronic thermal  : Motor electronic-thermal protection level 1  : Electronic thermal protection characteristic selection 3 : Motor electronic-thermal protection level 2  : Motor 150% overload detection time  : Electronic thermal memory • Function This parameter allows selection of the appropriate electronic thermal protection characteristics according to the particular rating and characteristics of the motor.

  • Page 62: Setting The Electronic Thermal

    E6581595 1) Setting the electronic thermal protection characteristics selection  and motor electronic thermal protection level 1 , 2  The electronic thermal protection characteristics selection  is used to enable or disable the motor overload trip function (  ) and the overload stall function. While the inverter overload trip ( ...
  • Page 63 E6581595 Output current reduction factor [%]/[A] ×1.0 ×0.6 30Hz Output frequency (Hz) Note: The motor overload protection start level is fixed at 30Hz. [Example of setting: When the VFNC3-2007P is running with a 0.4kW motor having 2A rated current] Operation LED display Operation panel action...
  • Page 64 E6581595 If the capacity of the motor is smaller than the capacity of the inverter, or the rated current of the motor is smaller than the rated current of the inverter, adjust the electronic thermal protection level 1  so that it fits the motor's rated current.
  • Page 65 E6581595 Note 2: If an inverter overload occurs with the factor default settings, the inverter is set to lower the carrier frequency automatically and overload tripping is (  ) controlled. Although noise from the motor increases when the carrier frequency is reduced, there is no effect on performance. When reducing the carrier frequency is undesirable, set parameter ...

  • Page 66: Preset-Speed Operation (Speeds In 15 Steps

    E6581595 Preset-speed operation (speeds in 15 steps)  -  : Preset-speed operation frequencies 1-7  -  : Preset-speed operation frequencies 8-15 • Function A maximum of 15 speed steps can be selected just by switching an external contact signal. Multi-speed frequencies can be programmed anywhere from the lower limit frequency ...
  • Page 67 E6581595 Preset-speed contact input signal example:  (sink/source switching) =  : With sink settings O: ON -: OFF (Speed commands other than preset-speed commands are valid when all are OFF) Preset-speed Terminal S1-CC S2-CC R-CC VI-CC Terminal functions are as follows. Terminal S1 .....Input terminal function selection 3A (S1) ...
  • Page 68 E6581595 Using other speed commands with preset-speed command Command mode selection 1: Panel keypad (including remote keypad), 0: Terminal board  2: RS485 communication 1: Setting dial 1 0: Terminal board (press in center to 0: Terminal block 1: Setting dial Frequency setting save) 3: RS485...

  • Page 69: Setting And Display Modes

    E6581595 4. Setting parameters Setting and Display Modes The VF-nC3 has the following three display modes. Standard monitor mode The standard inverter mode. This mode is enabled when inverter power goes on. 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.

  • Page 70: Status Monitor Mode

    E6581595 Status monitor mode The mode for monitoring all inverter status. Allows monitoring of set frequencies, output current/voltage and terminal information. ⇒ Refer to Section 8. The inverter can be moved through each of the modes by pressing the MODE key. Frequency setting method ⇒...

  • Page 71: How To Set Parameters

    E6581595 How to set parameters There are two types of setting monitor modes: Easy mode and Standard setting mode. The mode active when power is turned on can be selected at  (Registered parameter display selection), and the mode can be switched by the EASY key.

  • Page 72: Operation Of The Inverter

    E6581595 Standard setting mode : The mode changes to the Standard setting mode when the EASY key is pressed and "" is displayed. Both basic and extended all parameters are displayed. Basic parameters : This parameter is a basic parameter for the operation of the inverter.
  • Page 73 E6581595 4.2.1 Settings in the Easy setting mode The inverter enters this mode by pressing the MODE key when the Easy setting mode is selected Easy setting mode (Default registered parameters) When you are unsure of something Title Function during operation: ...

  • Page 74: Parameters 11

    E6581595 4.2.2 Settings in the Standard setting mode The inverter enters this mode by pressing the MODE key when the Standard setting mode is selected. How to set basic parameters When you are unsure of something (1) Selects parameter to be changed. (Turn the setting dial.) during operation: You can return to the Standard monitor (2) Reads the programmed parameter setting.

  • Page 75: Functions Useful In Searching For A Parameter Or Changing A Parameter Setting

    E6581595 How to set extended parameters Each extended parameter is composed of an ""suffixed with a 3-digit figure, so first select and read out the heading of the parameter you want "" to "". ("": Parameter starting point is 100, "": Parameter starting point is 800.) (5) Select the title of the parameter you want to change.
  • Page 76 E6581595 Reset parameters to default settings  Use the  parameter to reset all parameters back to their default settings. To use this function, set parameter = or . ⇒ For more details, refer to Section 4.3.2. Call saved customer settings  Customer settings can be batch-saved and batch-called.
  • Page 77 E6581595 How to search and reprogram parameters Panel operation LED display Operation Displays the operation frequency (operation stopped). (When standard monitor display selection is set as =  [operation frequency]) MODE  Displays the first basic parameter "History function ()." Turn the setting dial, and select .
  • Page 78 E6581595 4.3.2 Return to default settings  : Default setting • Function It is possible to return groups of parameters to their defaults, clear run times, and record/recall set parameters. Title Function Adjustment range Default setting 0: - 1: 50Hz default setting 2: 60Hz default setting 3: Default setting 1 (Initialization) 4: Trip record clear...
  • Page 79 E6581595 Default setting 1 ( = ) Setting  to  will return parameters to the standard values that were programmed at the factory. (Refer to 4.2.6) When  is set,  is displayed for a short time after the settings are configured, and then disappears.

  • Page 80: Checking The Region Settings Selection

    E6581595 Checking the region settings selection  : Checking the region setting • Function The region selected on the setup menu can be checked. Also, the setup menu can be started to change to a different region. Title Function Adjustment range Standard defaults 0: Start setup menu 1: Japan (read only)

  • Page 81: Easy Key Function

    E6581595 EASY key function  : Registered parameters display selection  to  : Easy setting mode parameter 1 to 24 • Function It is possible to switch between standard mode and easy setting mode using the EASY key. Up to 24 arbitrary parameters can be registered to easy setting mode. [Parameter setting] Title Function...
  • Page 82 E6581595 [How to select parameters] In easy setting mode, only parameters registered to parameters 1 to 24 are displayed in order of registration. The values of the default settings are shown in the table below. [Parameter setting] Title Function Adjustment range Default setting -...

  • Page 83: Main Parameters

    E6581595 5. Main parameters Before you operate the inverter, the parameters that you must first program are the basic parameters. Searching for changes using the history function ()  : History function History function (): Automatically searches for 5 latest parameters that are programmed with values different from the standard default setting and displays them in the .

  • Page 84: Setting A Parameter Using The Guidance Function

    E6581595 Parameter display MODE Press the MODE key to return to the parameter setting mode ↓ “.”  MODE After that you can press the MODE key to return to the status ↓ monitor mode or the standard monitor mode (display of operation ...
  • Page 85 E6581595 How to use the guidance function Here are the steps to follow to set parameters, using the guidance function. (When the basic setting guidance (auf) is set to 1) Operation panel LED display Operation action Displays the operation frequency (operation stopped). (When standard monitor display selection =...
  • Page 86 E6581595 Table of parameters that can be changed using the guidance function Preset-speed setting Analog input operation Motor 2 switching operation Motor constant setting guidance guidance guidance guidance auf=2 auf=3 auf=4 auf=5         ...

  • Page 87: Setting Acceleration/Deceleration Time

    E6581595 Setting acceleration/deceleration time  :Automatic acceleration/deceleration  :Acceleration time 1  :Deceleration time 1 • Function 1) For acceleration time 1  programs the time that it takes for the inverter output frequency to go from 0Hz to maximum frequency . 2) For deceleration time 1 ...
  • Page 88 E6581595 Setting acceleration/deceleration time (,) in conformance with mean load allows optimum setting that conforms to further changes in load. Use this parameter after actually connecting the motor. When the inverter is used with a load that fluctuates considerably, it may fail to adjust the acceleration or deceleration time in time, and therefore may be tripped.

  • Page 89: Increasing Starting Torque

    E6581595 If the programmed value is shorter than the optimum acceleration/deceleration time determined by load conditions, overcurrent stall or overvoltage stall function may make the acceleration/deceleration time longer than the programmed time. If an even shorter acceleration/deceleration time is programmed, there may be an overcurrent trip or overvoltage trip for inverter protection.
  • Page 90 E6581595 Note 1: The same characteristic can be obtained by setting the V/F control mode selection parameter  to  (automatic torque boost control) and the auto-tuning parameter  to  (auto-tuning). ⇒ See 5.1.1 and 6.14 Note 2: Setting  to  automatically programs  to . 2) When using vector control (increasing starting torque and high-precision operations) ...
  • Page 91 E6581595 If vector control cannot be programmed..First read the precautions about vector control in 5.11, 6. 1) If the desired torque cannot be obtained ⇒ see 6.14 Selection 2 2) If auto-tuning error "" appears ⇒ see 6.14 Selection 3 (Torque boost setting macro function) and ...

  • Page 92: Selection Of Operation Mode

    E6581595 Selection of operation mode  : Command mode selection  : Frequency setting mode selection • Function These parameters are used to specify which input device (operation panel, terminal board, or RS485 communication) takes priority in entering an operation stop command or frequency setting command (terminal block VI, setting dial 1 (storing by pressing center of setting dial), RS485 communication, or UP/DOWN from external contact).
  • Page 93 E6581595 [Programmed value] A frequency command is set by means of external signals (VI terminal: 0 - 5/ : VI input 0 - 10 Vdc, or 0 (4) - 20 mAdc). Frequencies are set by rotating the setting dial on the inverter. Press the center : Setting dial 1 of the setting dial to save the frequency setting value.
  • Page 94 E6581595 Example of run and frequency command switching Command mode and frequency setting mode switching Command mode selection With remote keypad Terminal block RS485 communication  (option) RKP007Z active (CMTB) priority clear Input terminal (SCLC) function Input terminal function :108/109 :48/49 Terminal block / REM...

  • Page 95: Meter Setting And Adjustment

    E6581595 Meter setting and adjustment  : Meter selection  : Meter adjustment For details, see 3.4. Forward/reverse run selection (Panel keypad)  : Forward/reverse run selection (Panel keypad) • Function Program the direction of rotation of the motor when the running and stopping are made using the RUN key and STOP key on the operation panel.

  • Page 96: Maximum Frequency

    E6581595 Maximum frequency : Maximum frequency • Function 1) Programs the range of frequencies output by the inverter (maximum output values). 2) This frequency is used as the reference for acceleration/deceleration time. Output frequency When =80Hz ・This function determines the value (Hz) 80Hz in line with the ratings of the motor...

  • Page 97: Upper Limit And Lower Limit Frequencies

    E6581595 Upper limit and lower limit frequencies : Upper limit frequency : Lower limit frequency • Function Programs the lower limit frequency that determines the lower limit of the output frequency and the upper limit frequency that determines the upper limit of that frequency. Upper limit Lower limit Command frequency (Hz)

  • Page 98: Base Frequency

    E6581595 5.10 Base frequency  : Base frequency 1  : Base frequency voltage 1 • Function Sets the base frequency and the base frequency voltage in conformance with load specifications or the Base frequency. Note: This is an important parameter that determines the constant torque control area. Base frequency voltage ...

  • Page 99: Selecting Control Mode

    E6581595 5.11 Selecting control mode  : V/F control mode selection • Function With VF-nC3, the V/F controls shown below can be selected. V/F constant Variable torque Automatic torque boost control *1 Vector control *1 Energy saving *1 Parameter setting macro torque boost:  parameter can automatically set this parameter and auto- (*1) tuning at a time.
  • Page 100 E6581595 Caution: When the V/F control mode selection  is set to : Automatic torque boost control, : Vector control, or : Energy-saving, be sure to set the following parameters according to the motor's name plate.  : Base frequency 1 (rated frequency) ...
  • Page 101 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 constant. In any other case, set the following parameters according to the motor's name plate.
  • Page 102 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 constant. In any other case, set the following parameters according to the motor's name plate.

  • Page 103: Manual Torque Boost - Increasing Torque Boost At Low Speeds

    E6581595 4) Use a general purpose squirrel-cage motor with a capacity that is the same as the inverter's rated capacity or one rank below. The minimum applicable motor capacity is 0.05kW. 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.

  • Page 104: Setting The Electronic Thermal

    E6581595 5.13 Setting the electronic thermal  : Motor electronic-thermal protection level 1  : Electronic thermal protection characteristic selection For details, see 3.5. 5.14 Preset-speed operation (speeds in 15 steps)  -  : Preset-speed frequency 1-7 For details, see 3.6. 5.15 Standard default setting ...

  • Page 105: Other Parameters

    E6581595 6. Other parameters Extended parameters are provided for sophisticated operation, fine adjustment and other special purposes. Modify parameter settings as required. See Section 11, Table of extended parameters. Input/output parameters 6.1.1 Low-speed signal  : Low-speed signal output frequency •...
  • Page 106 E6581595 An example of the connection of the open collector OUT terminal An example of the connection of the relay output terminals (sink logic) +24V +24V • Output terminal setting Default outputs low-speed signal (ON signal) to OUT terminal. This setting must be changed to invert the polarity of the signal.
  • Page 107 E6581595 Output frequency [Hz] Designated frequency +  Designated frequency Designated frequency −  Time [s] Set frequency speed reach signal Between OUT-NO terminals Set frequency speed reach signal: Inverted 6.1.3 Output of set frequency speed reach signal  : Speed reach setting frequency ...

  • Page 108: Input Signal Selection

    E6581595 If the detection band value + the set frequency is less than the designated frequency Output frequency [Hz]  +    -  Set frquency speed reach signal Time [s] OUT-NO terminals Set frequency speed reach signal: Inverted Input signal selection 6.2.1...
  • Page 109 E6581595 (1) [  =  (Reverse)]: If an F command and an R command are entered simultaneously, the motor will run in the reverse direction. Output frequency [Hz] Set frequency Forward run Time [s] Reverse run Set frequency Forward signal Reverse signal (2) [ ...
  • Page 110 E6581595 6.2.2 Changing the functions of VI terminal  : VI terminal function selection • Function This parameter allows you to choose between analog input and logic input for the VI terminal. Parameter setting Title Function Adjustment range Default setting 0: Voltage signal input (0 - 10 V) Analog/logic input 1: Current signal input (4 - 20 mA)

  • Page 111: Terminal Function Selection

    E6581595 Terminal function selection 6.3.1 Changing control logic switching  : Sink/source switching selection • Function Control input/output terminal sink logic (minus common)/source logic (plus common) is switched. ■ Parameter settings Standard Title Function Adjustment range defaults 0: Sink  Sink/source switching 100: Source 1-99, 101-255: invalid * 1: Depends upon the setup menu settings.

  • Page 112: Modifying Input Terminal Functions

    E6581595 Explanation of the coast stop function Coast stop Motor When ST (Standby) is OFF, coast stops. speed The default setting for ST (Standby) is ON, change the following settings. = (no function) F-CC Assign open input terminal 6: ST (Standby). Coast stops if terminal set for ST (Standby) is set to ST-CC OFF.

  • Page 113: Basic Parameters 2

    E6581595 Basic parameters 2 6.4.1 Switching motor characteristics via terminal input  : Base frequency 2  : Base frequency voltage 2  : Torque boost 2  : Motor electronic-thermal protection level 2  : Stall prevention level 2 •...
  • Page 114 E6581595 Setting of switching terminals To switch to motor 2, assign the following functions to a terminal not being used. It is also possible to switch to acceleration/deceleration 2 (AD2). For details, see 6.15.1. It is possible to set 3 functions for terminal F and R, and 2 functions for terminal S1 and S2. Input terminal function number Parameters changed from applicable parameters and default standards ...

  • Page 115: Setting Frequency Command

    E6581595 Setting frequency command 6.5.1 Switching frequency command  : Frequency setting mode  to  : Input terminal selection  to  : Input terminal selection • Function Frequency command can be changed according to the terminal block input. For details, see 5.5.

  • Page 116: Setting Frequency Command Characteristics

    E6581595 6.5.2 Setting frequency command characteristics  : Analog/logic input selection (VI terminal)  : VI Input point 1 setting  : VI Input point 1 frequency  : VI Input point 2 setting  : VI Input point 2 frequency ...
  • Page 117 E6581595 1) 0-10Vdc voltage input adjustment VI terminal Point settings adjust the  frequency command for the 50/60 (Hz) voltage input. Gradient and bias can be set easily. =  0 ( Hz) (Voltage input: 0-10V)   0 (%) 100 (%) 10V voltage signal Frequency commnd...
  • Page 118 E6581595 6.5.3 Setting of frequency with the input from an external contact  : External logic input - UP response time  : External logic input - UP frequency steps  : External logic input - DOWN response time  : External logic input - DOWN frequency steps ...
  • Page 119 E6581595 Adjustment with continuous signals (Operation example 1) Set parameters as follows to adjust the output frequency up or down in proportion to the frequency adjustment signal input time: Panel frequency incremental gradient = / setting time Panel frequency decremental gradient = / setting time Set parameters as follows to adjust the output frequency up or down almost in synchronization with the adjustment by the panel frequency command: ...
  • Page 120 E6581595 <<Sample sequence diagram 2: Adjustment with pulse signals>> Forward / reverse command UP signal DOWN signal Set frequency clearing signal Upper limit frequency Command frequency(Hz) (The dotted lines represent effective output frequencies) If two signals are impressed simultaneously • If a clear single and an up or down signal are impressed simultaneously, priority will be given to the clear signal.

  • Page 121: Fine Adjustment Of Frequency Setting Signal

    E6581595 6.5.4 Fine adjustment of frequency setting signal  : VI voltage input bias  : VI voltage input gain • Function These parameters are used to fine adjust the relation between the frequency setting signal input through the analog input terminal VI and the output frequency. Use these parameters to make fine adjustments after making rough adjustments using the parameters f201 to f204 .

  • Page 122: Operation Frequency

    E6581595 Operation frequency 6.6.1 Starting frequency  : Starting frequency setting • Function The frequency set with  is put out as soon as operation is started. Use the  parameter when a delay in response of starting torque according to the acceleration/deceleration time is probably affecting operation.

  • Page 123: Dc Braking

    E6581595 DC braking 6.7.1 DC braking  : DC braking starting frequency  : DC braking current  : DC braking time • Function A large braking torque can be obtained by applying a direct current to the motor. These parameters set the direct current to be applied to the motor, the application time and the starting frequency.

  • Page 124: Auto-Stop In Case Of Lower-Limit Frequency Continuous Operation

    E6581595 Auto-stop in case of lower-limit frequency continuous operation 6.8.1 Auto-stop in case of lower-limit frequency continuous operation  : Auto-stop in case of lower-limit frequency continuous operation  : Auto-stop hysterisis in case of lower-limit frequency continuous operation • Function If operation is carried out continuously at a frequency below the lower-limit frequency () for the period of time set with , the inverter will automatically slow down the motor to a stop.

  • Page 125: Jump Frequency - Avoiding Frequency Resonance

    E6581595 Jump frequency - Avoiding frequency resonance  : Jump frequency  : Jumping width • Function Resonance due to the natural frequency of the mechanical system can be avoided by jumping the resonant frequency during operation. During jumping, hysteresis characteristics with respect to the jump frequency are given to the motor.

  • Page 126: Preset-Speed Operation Frequencies

    E6581595 6.10 Preset-speed operation frequencies  -  : Preset-speed operation frequency 8 to 15 See Section 3.5 for details. 6.11 PWM carrier frequency  : PWM carrier frequency  : Random mode  : Carrier frequency control mode selection •...
  • Page 127 E6581595 Reduction of rated current. [Three phase/single phase 200 V class] Carrier frequency Ambient VFNC3- temperature 2 - 4 kHz 5 - 12 kHz 13 - 16 kHz VFNC3S- 50 ° C or less 2001P/PL 0.7 A 0.7 A 0.7 A 50 °...

  • Page 128: Trip-Less Intensification

    E6581595 6.12 Trip-less intensification 6.12.1 Auto-restart (Restart of coasting motor)  : Auto-restart control selection Caution • Stand clear of motors and mechanical equipment If the motor stops due to a momentary power failure, the equipment will start suddenly when power is restored.
  • Page 129 E6581595 2) Restarting motor during coasting (Motor speed search function) Motor speed Forward / reverse ST-CC Setting  to   o r : This function operates after the ST-CC terminal connection has been opened first and then connected again. The terminal function ST needs to be assigned to an input terminal, using the parameters ...
  • Page 130 E6581595 6.12.2 Regenerative power ride-through control/Deceleration stop  : Regenerative power ride-through control (Deceleration stop) • Function 1) Regenerative power ride-through control: This function continues the operation of the motor by utilizing motor regenerative energy in the event of momentary power failure. 2) Slowdown stop in the event of momentary power failure: If a momentary power failure occurs during operation, the inverter stops forcibly.

  • Page 131: Retry Function

    E6581595 6.12.3 Retry function  : Retry selection (Selecting the number of times) Caution • Do not go near the motor in alarm-stop status when the retry function is selected. The motor may suddenly restart, which could result in injury. •...
  • Page 132 E6581595 The likely causes of tripping and the corresponding retry processes are listed below. Cause of tripping Retry process Canceling conditions Momentary power Up to 10 times in succession The retry function will be canceled at failure 1st retry: About 1 sec after tripping once if tripping is caused by an unusual Overcurrent 2nd retry: About 2 sec after tripping...

  • Page 133: Avoiding Overvoltage Tripping

    E6581595 6.12.4 Avoiding overvoltage tripping  : Overvoltage limit operation • Function These parameters are used to keep the output frequency constant or increase it to prevent overvoltage tripping in case the voltage in the DC section rises during deceleration or varying speed operation.
  • Page 134 E6581595 6.12.5 Output voltage adjustment/Supply voltage correction  : Base frequency voltage 1  : Supply voltage correction (output voltage limitation) • Function Base frequency voltage1 The  parameter adjusts the voltage corresponding to the base frequency 1  so that no voltage exceeding the ...
  • Page 135 E6581595 [  =  : No voltage compensation/output voltage limited] [  =  : Voltage compensation/output voltage limited] Input voltage  High Input voltage Input voltage High  Output frequency   Output frequency * The above applies when V/F control mode selection parameter ...

  • Page 136: Pid Control

    E6581595 6.12.6 Reverse-run prohibition  : Reverse-run prohibition • Function This function prevents the motor from running in the forward or reverse direction when it receives the wrong operation signal. [Parameter setting] Title Function Adjustment range Default setting 0: Forward/reverse run permitted ...
  • Page 137 E6581595 1) External connection R/L1 U/T1 S/L2 V/T2 Pressure T/L3 W/T3 transmitter (1) Panel setting (1) Panel keypad setting (2) Internal preset-speed setting Feedback signals (1)DC : 4~20mA (2)DC : 0~10V (3)DC : 0~5V 2) Types of PID control interfaces Set process amount input value (frequency setting) for when doing PID control.
  • Page 138 E6581595 4) Adjusting the PID control gain level Adjust the PID control gain level according to the process quantities, the feedback signals and the object to be controlled. The following parameters are provided for gain adjustment: Title Function Adjustment range Standard defaults 0.01 ∼...
  • Page 139 E6581595  (D-gain adjustment parameter) This parameter adjusts the differential gain level during PID control. This gain increases the speed of response to a rapid change in deviation (difference between the process quantity and the amount of feedback). Note that setting the gain more than necessary may cause great fluctuations in output frequency, and thus operation to become unstable.
  • Page 140 E6581595 7) PID control forward/reverse characteristic switch PID input characteristics can be reversed. Opposite characteristic ×(-1) Process quantity Output − Original characteristic Feedback amount Characteristic selection (parameter or terminal input) When characteristic is reversed according to parameters When PID calculation reverse selection parameter  is 1: Set reverse characteristics. When characteristic is reversed using contact input terminal Input terminal function 54/55: Assign to switch PID characteristics.

  • Page 141: Setting Motor Constants

    E6581595 6.14 Setting motor constants  : Auto-tuning  : Slip frequency gain  : Autmatic torque boost value  : Motor rated capacity  : Motor rated current  : Motor no-load current  : Motor rated speed  : Load moment of inertia ratio To use vector control, automatic torque boost and automatic energy saving, motor constant setting (motor tuning) is required.
  • Page 142 E6581595 [Selection 1: Setting by parameter setting macro torque boost] This is the easiest of the available methods. It conducts vector control and auto-tuning at the same time. Be sure to set the motor for  ,  ,  ,  ,  . Set ...
  • Page 143 E6581595 [Selection 3: Setting vector control and manual tuning independently] If an "  " tuning error is displayed during auto-tuning or when vector control characteristics are to be improved, set independent motor constants. Title Function Adjustment range Default setting ...
  • Page 144 E6581595 Setting procedure Adjust the following parameters:  : Set the compensation gain for the slipping of the motor. A higher slip frequency reduces motor slipping correspondingly. After setting  , set  to adjust in detail. Be careful as inputting a value larger than necessary causes hunting and other unstable operation.

  • Page 145: 2Nd Acceleration/Deceleration

    E6581595 6.15 2nd acceleration/deceleration 6.15.1 Switching acceleration/deceleration time 1 and 2  :Acceleration time 2  :Deceleration time 2  : Acceleration/deceleration 1 and 2 switching frequency • Function Acceleration and deceleration times can be set individually. Select from the following two methods for selecting and switching.
  • Page 146 E6581595 2) Switching according to terminal (switching acceleration/deceleration time by external terminal) Output frequency [Hz] Time [s] Second acceleration/deceleration selection signal (3) Acceleration at ramp of (1) Acceleration at ramp of deceleration time  acceleration time  (2) Acceleration at ramp of (4) Acceleration at ramp of acceleration time ...
  • Page 147 E6581595 6.15.2 Acceleration/deceleration pattern setting  :Acceleration/deceleration 1 pattern  :Acceleration/deceleration 2 pattern • Function Select a acceleration and deceleration pattern appropriate for the application. Title Function Adjustment range Standard defaults  Acceleration/deceleration 1 pattern 0: Linear, 1: S-shape 1, 2: S-shape 2 ...
  • Page 148 E6581595 3) S-shape acceleration/deceleration 2 Motor acceleration torque increases slowly in areas with a small weak magnetic field. Perfect for operation of high-speed spindles. Output frequency [Hz] Output frequency [Hz]  Max. frequency  Max. frequency Set frequency Set frequency Base frequency Base frequency Time [s]...

  • Page 149: Protection Functions

    E6581595 6.16 Protection functions 6.16.1 Setting motor electronic thermal protection  : Motor electronic thermal protection level 1 173 : Motor electronic thermal protection level 2  : Motor 150% overload detection time  : Electronic thermal memory • Function This parameter allows selection of the appropriate electronic thermal protection characteristics according to the particular rating and characteristics of the motor.
  • Page 150 E6581595 Parameter setting Title Function Adjustment range Default setting  Stall prevention level 1 10-199 (%) / (A), 200: Disabled  Stall prevention level 2 [Display during operation of the stall prevention] During an  alarm status, (that is , when there is a current flow in excess of the stall prevention level), the output frequency changes.
  • Page 151 E6581595 ■ Flow of operation when  =  Reset the Completion of reset Normal operation inverter by panel or terminal Occurrence of a operation. The relay trips again. trip If the cause of the ・ Display of the cause trip is not ・...

  • Page 152: Output Phase Failure Detection

    E6581595 2) Emergency stopping from the operation panel Emergency stopping from the operation panel is possible by pressing the STOP key on the panel twice while the inverter is not in the panel control mode. (1) Press the STOP key......"  " will blink. (2) Press the STOP key once again ..
  • Page 153 E6581595 6.16.6 Input phase failure detection  : Input phase failure detection selection • Function This parameter detects inverter input Phase failure. If the abnormal voltage status of main circuit capacitor persists for few minutes or more, the tripping function and the FL relay will be activated. Trip display is ...
  • Page 154 E6581595 Title Function Adjustment range Default setting  Small current detection hysteresis 1-20 (%) 0: Alarm only  Small current trip/alarm selection 1: Tripping  Small current detection current 0-150 (%) / (A)  Small current detection time 0-255 [sec] <Example of operation>...
  • Page 155 E6581595 Title Function Adjustment range Default setting 0: Each time (standard pulse) 1: Only one time after power on Detection of output short-circuit during (standard pulse)  start-up 2: Each time (short pulse) 3: Only one time after power on (short pulse) 6.16.9 Over-torque trip ...
  • Page 156 E6581595 <Example of operation> 1) Output terminal function: 28 (OT) Over-torque detection  =  (Alarm only) Over-torque signal output less than     -  Torque (%) Time [sec] When  =  (tripping), the inverter will trip if over-torque lasts for the period of time set with ...
  • Page 157 E6581595 6.16.11 Cumulative operation time alarm setting  : Cumulative operation time alarm setting • Function This parameter allows you to set the inverter so that it will put out an alarm signal after a lapse of the cumulative operation time set with  . "0.1"...
  • Page 158 E6581595 6.16.13 VI analog input break detection  : VI analog input break detection level • Function The inverter will trip if the VIA value remains below the specified value for about 0.3 seconds. In such a case, "  " is displayed. ...

  • Page 159: Adjustment Parameters

    E6581595 6.17 Adjustment parameters 6.17.1 Pulse train output for meters  : Logic output/pulse train output selection (OUT-NO)  : Pulse train output function selection (OUT-NO)  : Maximum nembers of pulse train • Function Pulse trains can be sent out through the OUT-NO output terminals. To do so, it is necessary to select a pulse output mode and specify the number of pulses.
  • Page 160 E6581595 6.17.2 Calibration of analog output  : Analog output signal selection  : Inclination characteristic of analog output  : Analog output bias • Function Output signal from the FM terminal can be switched between 0 to 1 mA dc output, 0 to 20 mA dc output, and 0 to 10 V dc output with the ...

  • Page 161: Operation Panel Parameter

    E6581595 6.18 Operation panel parameter 6.18.1 Prohibition of key operations and parameter settings  : Parameter write protection selection  : Panel frequency setting prohibition (FC)  : Local / remote operation prohibition for remote keypad  : Panel operation prohibition (RUN/STOP keys) ...

  • Page 162: Setting Parameters

    E6581595 When protection using a password is necessary, set and remove with the following method. ■ Password setup method Preparation: Parameters other than  ,  , and  cannot be changed when  is set to  or  . When ...
  • Page 163 E6581595 6.18.2 Changing the unit (A/V) from a percentage of current and voltage  :Current/voltage unit selection • Function These parameters are used to change the unit of monitor display. % ⇔ A (ampere)/V (volt) Current 100% = Rated current of inverter 100 V class: Input voltage 100% = 100 Vac Output voltage 100% = 200 Vac 200 V class: Input/output voltage 100% = 200 Vac...
  • Page 164 E6581595 6.18.3 Displaying the motor or the line speed  : Free unit display scale • Function The frequency or any other item displayed on the monitor can be converted freely into the rotational speed of the motor, the operating speed of the load, and so on. The value obtained by multiplying the displayed frequency by the ...

  • Page 165: Operation Example

    E6581595 Title Function Adjustment range Default setting Free unit display 0.00: Disabled (display of frequency)  0.00 scale 0.01-200.0 The  converts the following parameter settings: • Free unit Frequency monitor display Operation frequency command, Operation frequency, PID feedback, Frequency command value After correction, Operation frequency command at trip ...
  • Page 166 E6581595 6.18.5 Changing the initial display of the panel  : Initial panel display selection  : Initial remote keypad display selection • Function This parameter specifies display format while power is on. Changing the display format while power is on When the power is on, the standard monitor mode displays the operation frequency (default setting) in the format of "...

  • Page 167: Communication Function (Rs485

    E6581595 6.19 Communication function (RS485)  : Baud rate  : Block write data 1   : Parity  : Block write data 2  : Inverter number  : Block read data 1  : Communication time-out time ...
  • Page 168 1: When  or  is Communication time-out  detection condition selected for communication 2: 1 + during operation Selection of communication 0: Toshiba inverter protocol  protocol 1: ModbusRTU protocol 0: No selection 1: Command information  Block write data 1...
  • Page 169 E6581595 Title  Function Adjustment range Default setting 0: No selection  Block read data 1 1: Status information 2: Output frequency  Block read data 2 3: Output current 4: Output voltage  Block read data 3 5: Alarm information 6: PID feedback value ...
  • Page 170 E6581595 Communication function settings Commands and frequency settings are given priority by communication. (Prioritized by commands from the panel or terminal block.) Thus, command and frequency settings from communication are activated, regardless of the command mode selection (  ) or frequency settings mode selection settings (  ). However, setting 48: SCLC (switching from communication to local) with input terminal function selection and when inputting from an external device, it is possible to operate at command mode selection ( ...
  • Page 171 E6581595 Connection example when using the computer link function <Independent communication> Perform computer-inverter connection as follows to send operation frequency commands from the host computer to inverter No. 3: ~ ~ : Wiring Host computer :Data (host ? INV) :Response data (INV R host) nC3 No.00 nC3 No.01 nC3 No.02...

  • Page 172: Free Memo

    E6581595 <Broadcast communication> When sending an operation frequency command via a broadcast from the host computer :Wiring Host computer :Data (Host→INV) ~ ~ ★ ★ ★ ★ ★ INV INV INV INV INV INV No.00 No.01 No.02 No.03 No .29 No.30...

  • Page 173: Operations With External Signal

    E6581595 7. Operations with external signal Operating external signals You can control the inverter externally. The parameter settings differ depending upon your method of operation. Determine your method of operation (the operational signal input method, speed command input method) before using the procedure below to set the parameters.

  • Page 174: Applied Operations By An I/O Signal (Operation From The Terminal Block

    E6581595 Applied operations by an I/O signal (operation from the terminal block) Input terminal sink and source logic are set according to the selection on the setup menu. (See 3.1.) 7.2.1 Input terminal function This function is used to send a signal to the input terminal from an external programmable controller to operate or configure the inverter.
  • Page 175 E6581595 Connecting For contact input a Inverter With sink settings Contact switch a Input terminal Operates by short circuiting between the input terminal and CC (common). Use for forward rotation, reverse rotation, and multi-stage speed. For connection (sink logic) via transistor output Inverter Programmable controller Input terminal...
  • Page 176 E6581595 3-wire operation (one-push operation) Usage example 1 ··· Use the 3-wire operation function to operate the inverter, maintaining operation without using the sequence circuit by inputting an external signal (reset contact signal). Forward run Forward run (F) : Pressing forward run (F) rotates forward at the specified frequency command value.
  • Page 177 E6581595 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 (operation hold). When using F or R in combination with other functions, be aware that the other functions do not hold.
  • Page 178 E6581595 List of contact input terminal function settings Parameter Parameter programmed value programmed value Function Function Positive Negative Positive Negative logic logic logic logic         No function PID control prohibition    ...
  • Page 179 E6581595 7.2.2 Output terminal function (sink logic) This function is used to output a variety of signals to external devices from the inverter. With the contact output terminal function, you can select from multiple output terminal functions. Set two types of functions for the OUT terminal and then you can output when either one or both of them is ON.
  • Page 180 E6581595 Assign two types of functions to the output terminal (OUT-NO) Terminal Function Title Adjustment range Standard defaults symbol Output terminal 4 (Low-speed detection  selection 1A signal) 0 ∼ 255 Output terminal  255 (normally ON) OUT-NO selection 1B Output terminal logic 0: ...
  • Page 181 E6581595 List of output terminal function settings <Explanation of terminology> Alarm …... Alarm output when a setting has been exceeded. Pre-alarm …... Alarm output when the inverter may cause a trip during continued operation. List of detection levels for output terminal selection Parameter programmed Parameter value...

  • Page 182: Speed Instruction (Analog Signal) Settings From External Devices

    E6581595 Speed instruction (analog signal) settings from external devices You can select from voltage input (0 to 10 V, 0 to 5 V), and current input (4 to 20 mA) for an analog input terminal (VI). The maximum resolution is 1/1000. [Control terminal block] FLA FLB FLC CC VI...
  • Page 183 E6581595 7.3.1 Settings depending on voltage (0 to 10 V) input You can set the frequency settings by inputting an analog voltage signal of 0 to 10 V dc between the VI and CC terminals. The following shows examples when the run command is input from the terminal. Standard Title Function...
  • Page 184 E6581595 7.3.2 Settings depending on current (4 to 20 mA) input You can set the frequency settings by inputting an analog current signal of 4 (0) to 20 mA dc between the VI and CC terminals. The following shows examples when the run command is input from the terminal. Standard Title Function...
  • Page 185 E6581595 7.3.3 Settings depending on voltage (0 to 5 V) input <external potentiometer> You can set the frequency by connecting the FRH kit (optional), or a potentiometer (1 to 10 kΩ – 1/4 W) to the VI terminal. Connect the potentiometer between the P5, VI, and CC terminals. The standard voltage for the P5 terminal is 5 V dc. Instead of using the potentiometer, you can set the frequency settings by inputting an analog voltage signal of 0 to 5 V dc between the VI and CC terminals.

  • Page 186: Monitoring The Operation Status

    E6581595 8. Monitoring the operation status Flow of status monitor mode Status monitor mode Flow of monitor as following About Setting monitor mode 23 kinds of data 20 kinds of data   MODE MODE ☆ Display mode Standard monitor mode 60.0 ...

  • Page 187: Status Monitor Mode

    E6581595 Status monitor mode 8.2.1 Status monitor under normal conditions In this mode, you can monitor the operation status of the inverter. To display the operation status during normal operation: MODE Press key twice. Setting procedure (eg. operation at 60Hz) Panel Communic Item displayed...
  • Page 188 E6581595 (Continued) Panel Communic Item displayed Description operated display ation No. The ON/OFF status of each of the control signal input terminals (F, R, S1, S2, VI) is displayed in bits. }}i}i ON:  a }}i}i OFF:  FE06 Note 4 Input terminal The ON/OFF status of each of the control signal output terminals (RY, OUT and FL) is displayed in...

  • Page 189: Display Of Detailed Information On A Past Trip

    E6581595 (Continued) Panel Communic Item displayed Description operated display ation No. The ON/OFF status of each of the cooling fan, circuit board capacitor, main circuit capacitor of parts replacement alarm or cumulative operation time are displayed in bits. ON:  OFF: ...
  • Page 190 E6581595 (Continued) Panel Item displayed LED display Description operated The inverter output voltage when the trip occurred is  Output voltage displayed. (%/V) The ON/OFF statuses of the control input terminals ( F, R, S1, S2, V I ) are displayed in bits. ON: ...

  • Page 191: Display Of Trip Information

    E6581595 Display of trip information 8.3.1 Trip code display If the inverter trips, an error code is displayed to suggest the cause. Since trip records are retained, information on each trip can be displayed anytime in the status monitor mode. For trip code display, see section 13.1 ☆...
  • Page 192 E6581595 (Continued) Panel Communic Item displayed Description operated display ation No. The ON/OFF statuses of the control input terminals (F, R, S1, S2, VI) are displayed in bits. }}i}i ON:  Note 4 a }}i}i OFF:  Input terminal FE06 The ON/OFF status of each of the control signal output terminals (OUT and FL) at the occurrence of a trip is displayed in bits.
  • Page 193 E6581595 (Continued) Panel Communic Item displayed Description operated display ation No. The ON/OFF status of each of the cooling fan, circuit board capacitor, main circuit capacitor of parts replacement alarm or cumulative operation time are displayed in bits. ON:  Note 7 OFF: ...
  • Page 194 E6581595 Of the items displayed on the monitor, the reference values of items expressed in percent are listed below. • Load current: The current monitored is displayed. The unit can be switched to A (amperes). • Input voltage: The voltage displayed is the voltage determined by converting the voltage measured in the DC section into an AC voltage.

  • Page 195: Measures To Satisfy The Standards

    E6581595 9. Measures to satisfy the standards How to cope with the CE directive In Europe, the EMC directive and the low-voltage directive, which took effect in 1996 and 1997, respectively, made it obligatory to put the CE mark on every applicable product to prove that it complies with the directives. Inverters do not work alone but are designed to be installed in a control panel and always used in combination with other machines or systems which control them, so they themselves are not considered to be subject to the EMC directive.

  • Page 196: Measures To Satisfy The Emc Directive

    E6581595 Table 1 EMC standards Product Category Subcategory Test standard standards Radiation noise CISPR11(EN55011) Emission Transmission noise CISPR11(EN55011) Static discharge IEC61000-4-2 Radioactive radio-frequency IEC61000-4-3 magnetic contactor field IEC 61800-3 First transient burst IEC61000-4-4 Immunity Lightning surge IEC61000-4-5 Radio-frequency IEC61000-4-6 induction/transmission interference Voltage dip/Interruption of power IEC61000-4-11 9.1.2...
  • Page 197 9.1.3 About the low-voltage directive The low-voltage directive provides for the safety of machines and systems. All Toshiba inverters are CE-marked in accordance with the standard EN 50178 specified by the low-voltage directive, and can therefore be installed in machines or systems and imported without problem to European countries.

  • Page 198: Compliance With Ul Standard And Csa Standard

    E6581595 9.1.4 Measures to satisfy the low-voltage directive When incorporating the inverter into a machine or system, it is necessary to take the following measures so that the inverter satisfies the low-voltage directive. Install the inverter in a cabinet and ground the inverter enclosure. When doing maintenance, be extremely careful not to put your fingers into the inverter through a wiring hole and touch a charged part, which may occur depending on the model and capacity of the inverter used.
  • Page 199 E6581595 AIC, Fuse and Wire sizes Capacity of AIC (A) Ground Voltage Fuse class and Wire sizes of applicable Inverter model (Interrupting wire size class current (A) power circuit motor (kW) capacity) VFNC3S-1001P AIC 1000A CC 8A max. AWG 14 AWG 14 Single-phase VFNC3S-1002P...

  • Page 200: Peripheral Devices

    E6581595 10. Peripheral devices Warning • When supplying power from a wall socket, do not exceed the rated capacity of the socket. Otherwise, this may generate excessive heat which can start a fire. Prohibited • When using switchgear for the inverter, it must be installed in a cabinet. Failure to do so can lead to risk of electric shock and can result in death or serious injury.
  • Page 201 CA20 TH20U 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 reliability.

  • Page 202: Installation Of A Magnetic Contactor

    E6581595 10.2 Installation of a magnetic contactor If using the inverter without installing a magnetic contactor (MC) in the primary circuit, use an MCCB (with a power cutoff device) to open the primary circuit when the inverter protective circuit is activated. When using an optional brake module, install a magnetic contactor (MC) or non-fuse circuit breaker with a power cutoff device on the primary power supply of the inverter, so that the power circuit opens when the failure detection relay (FL) in the inverter or the externally installed overload relay is actuated.

  • Page 203: Installation Of An Overload Relay

    () 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-purpose motor • When operating a single motor with an output smaller than that of the applicable standard motor or more than one motor simultaneously.

  • Page 204: Optional External Devices

    E6581595 10.4 Optional external devices The following external devices are optionally available for the VF-nC3 series of inverters. Power supply Non-fuse breaker MCCB Magnetic contactor ① Input AC reactor (ACL) Parameter writer ③ High-attenuation (10) Remote keypad radio noise ⑤ reduction filter EMC noise reduction filter (11) Remote control panel...

  • Page 205: Table Of Parameters And Data

    E6581595 11. Table of parameters and data 11.1 User parameters Minimum setting unit User Title Function Unit Adjustment range Default setting Reference Panel/Comm setting unication -  Operation 0.1/0.01 3.2.2 frequency of operation panel 11.2 Basic parameters • Four navigation functions Minimum Communication setting unit...
  • Page 206 E6581595 Minimum Communication setting unit Default User Title Function Unit Adjustment range Reference Panel/Commun setting setting ication  0005 Meter selection 0: Output frequency 1: Output current 2: Frequency reference 3: Input voltage (DC detection) 4: Output voltage (command value) 5 to 11: - 12: Frequency setting value (after compensation)
  • Page 207 E6581595 Minimum Communication setting unit Default User Title Function Unit Adjustment range Reference Panel/Commun setting setting ication Setting Overload protection OL stall  0017 Electronic-thermal valid invalid protection Standard valid valid characteristic motor invalid invalid selection invalid valid valid invalid valid valid VF motor...

  • Page 208: Extended Parameters

    E6581595 11.3 Extended parameters • Input/output parameters 1 Minimum Communication setting unit Default User Title Function Unit Adjustment range Reference Panel/Commun setting setting ication  0100 Low-speed signal 0.1/0.01 0.0- 6.1.1 output frequency  0101 Speed reach 0.1/0.01 0.0- 6.1.3 setting frequency ...

  • Page 209: Basic Parameter

    E6581595 Minimum Communication setting unit Default User Title Function Unit Adjustment range Reference Panel/Commun setting setting ication 0:  and   0139 Output terminal 6.3.4 1: or  logic selection 7.2.2 (OUT)  0144 Factory specific coefficient 1A  0151 Input terminal 0-201...
  • Page 210 E6581595 Minimum Communication setting unit Default User Title Function Unit Adjustment range Reference Panel/Commun setting setting ication  0240 Starting frequency 0.1/0.01 0.1-10.0 6.6.1 setting  0241 Operation starting 0.1/0.01 0.0- 6.6.2 frequency  0242 Operation starting 0.1/0.01 0.0- frequency hysteresis ...
  • Page 211 E6581595 Minimum Communication setting unit Default User Title Function Unit Adjustment range Reference Panel/Commun setting setting ication -  0287 Preset-speed 0.1/0.01 frequency 8 6.10 -  0288 Preset-speed 0.1/0.01 frequency 9 -  0289 Preset-speed 0.1/0.01 frequency 10 - ...
  • Page 212 E6581595 Minimum Communication setting unit Default User Title Function Unit Adjustment range Reference Panel/Commun setting setting ication  0307 Supply voltage 0: Supply voltage uncorrected, 6.12.5 correction output voltage limited (output voltage 1: Supply voltage corrected, limitation) output voltage limited 2: Supply voltage uncorrected, output voltage unlimited 3: Supply voltage corrected,...
  • Page 213 E6581595 • Torque boost parameters 1 Minimum Communication setting unit Default User Title Function Unit Adjustment range Reference Panel/Commun setting setting ication  0400 Auto-tuning 6.14 0: Auto-tuning disabled 1: Initialization of  (reset to 0) 2: Auto-tuning executed (after execution: 0) ...
  • Page 214 E6581595 • Acceleration/deceleration time parameters Minimum Communication setting unit Default User Title Function Unit Adjustment range Reference Panel/Commun setting setting ication  0500 Acceleration time 0.1/0.1 0.0-3000 10.0 6.15  0501 Deceleration time 0.1/0.1 0.0-3000 10.0  0502 Acceleration/decel 0: Linear eration 1 pattern 1: S-pattern 1 2: S-pattern 2...
  • Page 215 E6581595 Minimum Communication setting unit Default User Title Function Unit Adjustment range Reference Panel/Commun setting setting ication  0609 Small current 1-20 6.16.7 detection hysteresis 0610 Small current 0: Alarm only  trip/alarm 1: Tripping selection 0611 Small current 0-150 ...
  • Page 216 E6581595 • Output parameters Minimum Communication setting unit Default User Function Unit Title Adjustment range Reference Panel/Commun setting setting ication 0669 Logic output/pulse 0: Logic output 6.17.1  train output 1: Pulse train output selection (OUT- 0676 Pulse train output 0: Output frequency 6.17.1 ...
  • Page 217 E6581595 Minimum Communication setting unit Default User Title Function Unit Adjustment range Reference Panel/Commun setting ication  0710 Initial panel 0: Operation frequency (Hz/free unit) 6.18.5 display selection 1: Output current (%/A) 8.2.1 2: Frequency setting value (Hz/free unit) 3 to 17: - 18: Arbitrary display according to communications 0711...
  • Page 218 E6581595 Minimum Communication setting unit Default User Title Function Unit Adjustment range Reference Panel/Commun setting ication  0746 Factory specific coefficient 7A  0751 Easy setting mode 0-999 parameter 1 (Set by communications number)  0752 Easy setting mode parameter 2 ...
  • Page 219 1: When  or  time-out detection condition communications is selected 2: 1 + during operation  0829 Selection of 0: Toshiba inverter protocol communication 1: Modbus RTU protocol protocol  0870 Block write data 1 0: No selection 1: Command information...

  • Page 220: Default Settings By Inverter Rating

    E6581595 11.4 Default settings by inverter rating Automatic Torque boost Motor rated Motor rated Motor no-load torque boost value capacity current current value Inverter type     / (kW) VFNC3S-1001P 10.3 0.10 VFNC3S-1002P 0.20 VFNC3S-1004P 0.40 VFNC3S-1007P 0.75 VFNC3S-2001PL 10.3 0.10...

  • Page 221: Input Terminal Function

    E6581595 11.6 Input Terminal Function • Table of input terminal functions 1 Function Code Function Action No function Disabled Forward run command ON: Forward run, OFF: Slowdown stop Inversion of forward run command Inversion of F Reverse run command ON: Reverse run, OFF: Slowdown stop Inversion of reverse run command Inversion of R Standby...
  • Page 222 E6581595 • Table of input terminal functions 2 Function Code Function Action Frequency UP from external logic input ON: Frequency increased, OFF: Frequency increase canceled Inversion of frequency UP from external logic input Inversion of UP Frequency DOWN from external logic input ON: Frequency decreased, OFF: Frequency decrease canceled DWNN...

  • Page 223: Output Terminal Function

    E6581595 11.7 Output Terminal Function • Table of output terminal functions 1 Function Code Function Action ON: The output frequency exceeds the  Frequency lower limit setting. OFF: The output frequency is equal to or less than . Inversion of  Inversion of frequency lower limit Frequency upper limit ON: The output frequency is equal to or higher...
  • Page 224 E6581595 • Table of output terminal functions 2 Function Code Function Action ON: While operation frequency is output or while DC braking is in operation () OFF: Operation stopped RUNN Inversion of run/stop Inversion of RUN Cumulative operation time alarm ON: Cumulative operation time is equal to or more than .

  • Page 225: Specifications

    E6581595 12. Specifications 12.1 Models and their standard specifications Standard specifications Item Specification Input voltage class 3-phase 240V class Applicable motor (kW) 0.75 Type VFNC3 Form 2001P 2004P 2005P 2007P 2015P 2022P 2037P Capacity (kVA) Note 1) Rated output/current 10.0 16.7 (A) Note 2) (0.7)
  • Page 226 E6581595 Common specification Item Specification Control system Sinusoidal PWM control Rated output voltage Adjustable within the range of 50 to 330V by correcting the supply voltage (However, cannot output voltage exceeding the input voltage.) Output frequency range 0.1 to 400.0Hz, default setting: 0.5 to 80Hz, maximum frequency: 30 to 400Hz Minimum setting steps of 0.1Hz: analog input (when the max.
  • Page 227 E6581595 <Continued> Item Specification Protective function Stall prevention, current limitation, over-current, output short circuit, over-voltage, over-voltage limitation, undervoltage, ground fault, detection, power supply phase failure, output phase failure, overload protection by electronic thermal function, armature over-current at start-up, load side over-current at start-up, over-torque, undercurrent, overheating, cumulative operation time, life alarm, emergency stop, braking resistor over- current/overload, various pre-alarms Electronic thermal...

  • Page 228: Outside Dimensions And Mass

    E6581595 12.2 Outside dimensions and mass Outside dimensions and mass Applicable motor Dimensions (mm) Approx. weight Voltage class Inverter type Drawing (kW) (kg) VFNC3S-1001P VFNC3S-1002P 1-phase 100V VFNC3S-1004P 0.75 VFNC3S-1007P VFNC3S-2001PL VFNC3S-2002PL VFNC3S-2004PL 1-phase 200V 0.75 VFNC3S-2007PL VFNC3S-2015PL VFNC3S-2022PL VFNC3-2001P VFNC3-2002P VFNC3-2004P 3-phase 200V...
  • Page 229 E6581595 Φ5 Φ5 W1 (Mounting dimension) R2.5 W1 (Mounting dimension) R2.5 VF-nC3 VF-nC3 EMC plate EMC plate (option) (option) Note 2) Note 2) Fig.B Fig.C 2-Φ5 W1 (Mounting dimension) 2-R2.5 VF-nC3 EMC plate (option) Note 2) Fig.D...

  • Page 230: Before Making A Service Call - Trip Information And Remedies

    When a problem arises, diagnose it in accordance with the following table. If it is found that replacement of parts is required or the problem cannot be solved by any remedy described in the table, contact your Toshiba dealer. [Trip information]...
  • Page 231 E6581595 (Continued) Error code Failure code Problem Possible causes Remedies • The imput voltage fluctuates abnormally. • Insert a suitable input reactor.  000A Overvoltage during acceleration (1) The power supply has a capacity of 200kVA or more. (2) A power factor improvement capacitor is opened or closed.
  • Page 232 E6581595 (Continued) Error code Failure code Problem Possible causes Remedies • During automatic operation or remote • Reset the inverter.  0011 Emergency stop operation, a stop command is entered from the operation panel or a remote input device.  •...
  • Page 233 E6581595 [Alarm information] Each message in the table is displayed to give a warning but does not cause the inverter to trip. Error code Problem Possible causes Remedies  • The ST-CC circuit is opened. • Close the ST-CC circuit. ST terminal OFF •...

  • Page 234: Restoring The Inverter From A Trip

    E6581595 [Prealarm display] Same as  (overcurrent)  Overcurrent alarm Same as  (overvoltage)  Overvoltage alarm Same as  and  (overload)  Overload alarm Same as  (overheat)  Overheat alarm If two or more problems arise simultaneously, one of the following alarms appears and blinks. , , ...

  • Page 235: If The Motor Does Not Run While No Trip Message Is Displayed

    E6581595 13.3 If the motor does not run while no trip message is displayed ... If the motor does not run while no trip message is displayed, follow these steps to track down the cause. YES: The motor does not run. NO : Is the 7-segment LED Check the power supply and the MCCB.

  • Page 236: How To Determine The Causes Of Other Problems

    E6581595 13.4 How to determine the causes of other problems The following table provides a listing of other problems, their possible causes and remedies. Problems Causes and remedies • The motor runs in the Invert the phases of the output terminals U, V and W. •...

  • Page 237: Inspection And Maintenance

    E6581595 14. Inspection and maintenance Warning • The equipment must be inspected every day. If the equipment is not inspected and maintained, errors and malfunctions may not be discovered which could lead to accidents. • Before inspection, perform the following steps. (1) Shut off all input power to the inverter.

  • Page 238: Periodical Inspection

    E6581595 Check points 1. Something unusual in the installation environment 2. Something unusual in the cooling system 3. Unusual vibration or noise 4. Overheating or discoloration 5. Unusual odor 6. Unusual motor vibration, noise or overheating 7. Adhesion or accumulation of foreign substances (conductive substances) 14.2 Periodical inspection Make a periodical inspection at intervals of 3 or 6 months depending on the operating conditions.
  • Page 239 E6581595 (Note) Before an insulation test, always disconnect all cables from the main circuit terminal board and test the inverter separately from other equipment.. R/L 1 S/L 2 T/L 3 U/T 1 V/T 2 W/T 3 500V (megger) 7. Never test the inverter for pressure. A pressure test may cause damage to its components. 8.

  • Page 240: Making A Call For Servicing

    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 Toshiba dealer.

  • Page 241: Warranty

    Failure or damage caused by the use of the inverter for any purpose or application other than the intended one All expenses incurred by Toshiba for on-site services shall be charged to the customer, unless a service contract is signed beforehand between the customer and Toshiba, in which case the service contract has priority over this...

  • Page 242: Disposal Of The Inverter

    E6581595 16. Disposal of the inverter Caution • If you throw away the inverter, have it done by a specialist in industry waste disposal(*). If you throw away the inverter by yourself, this can result in explosion of capacitor or produce noxious gases, resulting in injury.
  • Page 243 2009-03...

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