Toshiba Portable Generator VF S11 User Manual

E6581160  
Safety  
I
precautions  
Contents  
Read first  
Connection  
Operations  
1
2
3
4
5
6
7
Industrial Inverter  
For 3-phase induction motors  
Basic VF-S11  
operations  
Instruction Manual  
Monitoring the  
operation status  
Measures  
to satisfy the  
standards  
TOSVERTTM VF-S11  
Table of  
parameters  
and data  
Specifications  
8
9
< Simplified manual >  
Before making  
a service call  
1-phase 240V class 0.2  
3-phase 240V class 0.4  
3-phase 500V class 0.4  
3-phase 600V class 0.75  
2.2kW  
15kW  
15kW  
15kW  
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.  
2004 Ver. 108/109  
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E6581160  
Q General Operation  
I
Danger  
Never disassemble, modify or repair.  
This can result in electric shock, fire and injury. For repairs, call your sales distributor.  
Disassembly  
prohibited  
Never remove the front cover when power is on or open door if enclosed in a cabinet.  
The unit contains many high voltage parts and contact with them will result in electric shock.  
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.  
Don't place or insert any kind of object into the inverter (electrical wire cuttings, rods, wires etc.).  
This can result in electric shock or fire.  
Prohibited  
Do not allow water or any other fluid to come in contact with the inverter.  
This can result in electric shock or fire.  
Turn power on only after attaching the front cover or closing door if enclosed in a cabinet.  
If power is turned on without the front cover attached or closing door if enclosed in a  
cabinet, this can result in electric shock or other injury.  
If the inverter begins to emit smoke or an unusual odor, or unusual sounds, immediately turn power off.  
If the equipment is continued in operation in such a state, the result may be fire. Call your local sales  
agency for repairs.  
Mandatory  
Always turn power off if the inverter is not used for long periods of time since there is a possibility of  
malfunction caused by leaks, dust and other material. If power is left on with the inverter in that state, it  
may result in fire.  
Warning  
Do not touch heat radiating fins or discharge resistors.  
These device are hot, and you'll get burned if you touch them.  
Prohibited  
contact  
Avoid operation in any location where there is direct spraying of the following solvents or other  
chemicals.  
The plastic parts may be damaged to a certain degree depending on their shape, and there is a  
possibility of the plastic covers coming off.  
If the chemical or solvent is anything other than those shown below, please contact us in advance.  
Prohibited  
(Table 1) Examples of applicable chemicals  
and solvents  
Acetic acid (density of 10% or less)  
(Table 2) Examples of unapplicable  
chemicals and solvents  
Acetone  
Hydrochloric acid (density of 10% or less)  
Sulfuric acid (density of 10% or less)  
Sodium chloride  
Hexane  
Triethylene glycol  
Benzene  
Chloroform  
Ethylene chloride  
Ethyl acetate  
Glycerin  
Tetrachloroethylene  
Trichloroethylene  
Xylene  
2
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E6581160  
Q Transportation & installation  
I
Danger  
Do not install or operate the inverter if it is damaged or any component is missing.  
This can result in electric shock or fire. Please consult your local sales agency for repairs. Call your  
local sales agency for repairs.  
Do not place any inflammable objects nearby.  
Prohibited  
If a flame is emitted due to malfunction, it may result in a 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 fire.  
Must be used in the environmental conditions 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 operate with the front panel cover removed. This can result in electric shock. Failure to do so  
can lead to risk of electric shock and can result in death or serious injury.  
An emergency stop device must be installed that fits with system specifications (e.g. shut off input  
power then engage mechanical brake). Operation cannot be stopped immediately by the inverter  
alone, thus risking an accident or injury.  
Mandatory  
All options used must be those specified by Toshiba.  
The use of any other option may result in an accident.  
Warning  
When transporting or carrying, do not hold by the front panel covers.  
The covers may come off and the unit will drop out resulting in injury.  
Do not install in any area where the unit would be subject to large amounts of vibration.  
That could result in the unit falling, resulting in injury.  
Prohibited  
The main unit must be installed 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.  
Mandatory  
Q Wiring  
Danger  
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.  
Prohibited  
Within ten minutes after turning off input power, do not touch wires of devices (MCCB) connected to the  
input side of the inverter.  
That could result in electric shock.  
3
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E6581160  
Danger  
I
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 wiring is done prior to installation that may result in injury or electric shock  
The following steps must be performed before wiring.  
(1) Turn off all input power.  
(2) Wait at least ten minutes and check to make sure that the charge lamp is no longer lit.  
(3) Use a tester that can measure DC voltage (800VDC or more), and check to make sure that the  
voltage to the DC main circuits (across PA-PC) is 45V or less.  
Mandatory  
If these steps are not properly performed, the wiring will cause electric shock.  
Tighten the screws on the terminal board to specified torque.  
If the screws are not tightened to the specified torque, it may lead to fire.  
Check to make sure that the input power voltage is +10%, -15% of the rated power voltage written on  
the rating label (±10% when the load is 100% in continuous operation).  
If the input power voltage is not +10%, -15% of the rated power voltage (±10% when the load is 100%  
in continuous operation) this may result in fire.  
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  
Prohibited  
Warning  
Do not attach equipment (such as noise filters or surge absorbers) that have built-in capacitors to the  
output (motor side) terminals.  
That could result in a fire.  
Q Operations  
Danger  
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.  
Such practices may result in electric shock.  
Do not go near the motor in alarm-stop status when the retry function is selected.  
The motor may suddenly restart and that could result in injury.  
Take measures for safety, e.g. attaching a cover to the motor, against accidents when the motor  
unexpectedly restarts.  
Prohibited  
Mandatory  
Turn input power on after attaching the front cover.  
When installed inside a cabinet and using with the front cover removed, always close the cabinet doors  
first and then turn power on. If the power is turned on with the front cover or the cabinet doors open, it  
may result in electric shock.  
Make 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.  
4
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E6581160  
I
Warning  
Observe all permissible operating ranges of motors and mechanical equipment. (Refer to the motor's  
instruction manual.)  
Not observing these ranges may result in injury.  
Prohibited  
When sequence for restart after a momentary failure is selected (inverter)  
Warning  
Stand clear of motors and mechanical 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 warnings about sudden restart after a momentary power failure on inverters, motors and  
equipment for prevention of accidents in advance.  
Mandatory  
When retry function is selected (inverter)  
Warning  
Stand clear of motors and equipment.  
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.  
Attach warnings about sudden restart in retry function on inverters, motors and equipment for  
prevention of accidents in advance.  
Mandatory  
Maintenance and inspection  
Danger  
Do not replace parts.  
This could be a cause of electric shock, fire and bodily injury. To replace parts, call the local sales  
agency.  
Prohibited  
The equipment must be inspected every day.  
If the equipment is not inspected and maintained, errors and malfunctions may not be discovered and  
that could result in accidents.  
Before inspection, perform the following steps.  
(1) Turn off all input power to the inverter.  
(2) Wait at least ten minutes and check to make sure that the charge lamp is no longer lit.  
Mandatory  
(3) Use a tester that can measure DC voltages (800VDC or more), and check to make sure that the  
voltage to the DC main circuits (across PA-PC) is 45V or less.  
If inspection is performed without performing these steps first, it could lead to electric shock.  
5
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E6581160  
 Contents   
I
Safety precautions .........................................................................................................................................................1  
1. Read first........................................................................................................................................................................7  
1.1  
1.2  
1.3  
Check product purchase ....................................................................................................................................7  
Contents of the product......................................................................................................................................9  
Installation..........................................................................................................................................................9  
2. Connection.....................................................................................................................................................................10  
2.1  
2.2  
Standard connections ........................................................................................................................................10  
Description of terminals......................................................................................................................................12  
3. Operations .....................................................................................................................................................................19  
3.1  
3.2  
Simplified operation of the VF-S11.....................................................................................................................19  
How to operate the VF-S11................................................................................................................................23  
4. Basic VF-S11 operations................................................................................................................................................27  
4.1  
4.2  
Flow of status monitor mode..............................................................................................................................28  
How to set parameters.......................................................................................................................................29  
5. Monitoring the operation status......................................................................................................................................36  
5.1  
5.2  
Status monitor mode..........................................................................................................................................36  
Display of trip information...................................................................................................................................40  
6. Measures to satisfy the standards .................................................................................................................................44  
6.1  
6.2  
How to cope with the CE directive .....................................................................................................................44  
Compliance with UL Standard and CSA Standard.............................................................................................48  
7. Table of parameters and data ........................................................................................................................................50  
7.1  
7.2  
7.3  
User parameters ................................................................................................................................................50  
Basic parameters ...............................................................................................................................................50  
Extended parameters.........................................................................................................................................53  
8. Specifications.................................................................................................................................................................70  
8.1  
8.2  
Models and their standard specifications ...........................................................................................................70  
Outside dimensions and mass ...........................................................................................................................73  
9. Before making a service call - Trip information and remedies........................................................................................76  
9.1  
Trip causes/warnings and remedies...................................................................................................................76  
6
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E6581160  
1. Read first  
Thank you for your purchase of the Toshiba “TOSVERT VF-S11” industrial inverter.  
This manual is a simplified version.  
If you need a detailed explanation, refer to the full version of English manual (E6581158).  
1
This is the Ver. 108 / Ver. 109 CPU version inverter.  
Please be informed that CPU version will be frequently upgraded.  
1.1  
Check product purchase  
Before using the product you have purchased, check to make sure that it is exactly what you ordered.  
Inverter main unit  
Rating label  
Series name  
VF-S11  
1PH-200/240V-0.75kW/1HP  
Power supply  
Motor capacity  
Warning label  
Carton box  
Name plate  
Name plate  
Warning label  
Inverter Type  
Inverter rated output  
capacity  
Type indication label  
Power supply  
Related input current  
Related output  
current  
Instruction manual  
This manual  
EMC plate  
7
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E6581160  
CD-ROM E6581167  
Contains the instruction manual in digital form.  
Some models do not come with this CD-ROM.  
1
Warning  
Do not play this CD-ROM on any audio CD player to avoid hearing loss due to very loud noises or  
damage to the CD player.  
Prohibited  
[System requirements]  
OS: Microsoft Windows 98/NT/2000/XP  
Browser: Internet Explorer 4.0 or later  
CPU: Pentium 100MHz or more  
Memory: 32MB or more  
DOS/V-based personal computer  
[Starting the browsing program]  
When you insert this CD-ROM in the CD-ROM drive, the program “index.htm” in the root directory starts automatically.  
When you want to close the browsing program or if it does not start automatically, open Windows Explorer and click  
“\index.htm” under “CD-ROM drive” to display the top window.  
[Software needed for browsing]  
Adobe Acrobat Reader 4.0J or later  
[Trade names and trademarks]  
Microsoft Windows and Windows logos are trademarks or registered trademarks of Microsoft Corporation in the U.S.A.  
Adobe Acrobat is a trademark of Adobe Systems Incorporated.  
Other company names and product names referred to in this manual are trade names and registered trademarks,  
respectively.  
[Copyright]  
This manual and other documentation included with the inverter are publications of Toshiba Schneider Inverter  
Corporation, and all rights to these publications, including copyrights, are reserved by the said corporation.  
[Duplication]  
No part of the contents of the CD-ROM shall be reproduced without written permission from Toshiba Schneider Inverter  
Corporation.  
[Exclusions]  
Toshiba Schneider Inverter Corporation shall have no liability for any damage of any kind caused by the use of this CD-  
ROM.  
8
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E6581160  
1.2  
Contents of the product  
Explanation of the name plate label. Always shut power off first then check the ratings label of inverter held in a  
cabinet.  
Type  
Form  
1
V F S 11 S - 2 0 0 7 P L E - W N - A 2 2  
Applicable motor  
capacity  
Default interface  
logic*  
Special specification code  
Model name  
Input (AC) voltage  
Additional functions I  
None: No filter inside  
M: Built-in basic filter  
L: Built-in  
high-attenuation  
EMI filter  
TOSVERT  
VF-S11series  
2 : 200V to 240V  
4 : 380V to 500V  
6 : 525V to 600V  
002 : 0.2kW  
004 : 0.4kW  
005 : 0.55kW  
007 : 0.75kW  
015 : 1.5kW  
022 : 2.2kW  
037 : 3.7kW  
055 : 5.5kW  
075 : 7.5kW  
110 : 11kW  
150 : 15kW  
WN, AN: Negative  
A††:††is the number  
WP  
: Positive  
Operation panel  
P: Provided  
Additional function II  
Number of  
power phases  
None: Standard product  
E: Enclosed type  
U: Open type  
R: With a built-in RS-485  
circuit board  
S: single-phase  
None:  
three-phase  
* This code represents the factory default logic setting. You can switch from one input/output logic to the other using  
slide switch SW1.  
1.3  
Installation  
Install the inverter in a well-ventilated indoor place and mount it on a flat metal plate in portrait orientation.  
If you are installing more than one inverter, the separation between inverters should be at least 5 centimeters,  
and they should be arranged in horizontal rows. If the inverters are horizontally arranged with no space  
between them (side-by-side installation), peel off the ventilation seals on top of the inverter. It is necessary to  
decrease the current if the inverter is operated at over 50°C.  
Standard installation  
Side-by-side installation  
10 cm or more  
10 cm or more  
Remove seals on top  
VFS11  
VFS11  
VFS11  
VFS11  
5 cm or more  
5 cm or more  
10 cm or more  
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.  
Note: Do not install in any location where there is high humidity or high temperatures and where there are  
large amounts of dust, metallic fragments and oil mist.  
9
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E6581160  
2. Connection  
2.1  
Standard connections  
2.1.1 Standard connection diagram 1  
2
This diagram shows a standard wiring of the main circuit.  
Standard connection diagram - SINK (Negative) (common:CC)  
DC reactor (DCL)  
*2 (option)  
Braking resistor (option)  
P0  
PA/+ PB  
PC/-  
Main circuit power supply  
240V class: three-phase 200-240V  
-50/60Hz  
500V class: three-phase 380-500V  
-50/60Hz  
Motor  
MCCB  
U/T1  
V/T2  
W/T3  
R/L1  
S/L2  
T/L3  
Noise  
filter  
Power circuit  
I M  
*5  
600V class: three-phase 525-600V  
-50/60Hz  
*1  
Forward  
F
Control  
circuit  
FLC  
Reverse  
R
Reset  
RES  
FLB  
FLA  
RY  
VF-S11  
Protective function  
activation output  
Preset-speed 1  
Preset-speed 2  
MCCB(2P)  
S1  
S2  
Operation panel  
Power supply  
200~240V  
-50/60Hz  
R/L1  
S/L2  
1
Connector for  
common serial  
Preset-speed 3  
Common  
communicationsS3  
SW1  
FM  
VIA  
V
Low-speed  
signal output  
CC  
P24  
OUT  
NO  
*1: The T/L3 terminal is not provided  
for single-phase models.  
SOURCE  
V
RC  
Speed reach  
signal output  
Use the R/L1 and S/L2 terminal  
as input terminals.  
*2: The inverter is supplied with the PO  
and the PA/+ terminals shorted by  
means of a shorting bar.  
24Vdc input PLC  
PLC  
Ry  
SINK  
I
I
*3  
Before installing the DC reactor (DCL),  
remove the bar.  
CC  
FM  
VIA  
CC  
VIB  
PP  
*3: When using the OUT output terminal in  
sink logic mode, short the NO and CC  
terminals.  
*4: If you are using a 600V model, be sure  
to connect an input reactor (ACL).  
*5: 600V models have no noise filter inside.  
+
Frequency  
+
-
Meter  
Voltage signal: 0-10V  
(Current signal: 4-20mA)  
meter  
(ammeter)  
-
External potentiometer (1~10k)  
(or input voltage signal across VIB-CC terminals: 0-10V)  
7.5V-1mA  
(or 4-20mA)  
10  
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E6581160  
2.1.2 Standard connection diagram 2  
Standard connection diagram - SOURCE (Positive) (common:P24)  
Braking resistor (option)  
DC reactor (DCL)  
*2 (option)  
P0  
PA/+  
PB  
PC/-  
2
Motor  
MCCB  
Main circuit power supply  
240V class: three-phase 200-240V  
-50/60Hz  
U/T1  
V/T2  
W/T3  
R/L1  
S/L2  
T/L3  
Noise  
filter  
Power circuit  
I M  
*5  
500V class: three-phase 380-500V  
-50/60Hz  
*1  
P24  
F
600V class: three-phase 525-600V  
-50/60Hz  
Control  
circuit  
Forward  
FLC  
FLB  
FLA  
Reverse  
R
VF-S11  
Protective function  
R/L1 activation output  
MCCB(2P)  
Reset  
RES  
S1  
Operation panel  
Power supply  
200 240V  
-50/60Hz  
1
~
Preset-speed 1  
Preset-speed 2  
Preset-speed 3  
Connector for  
common serial  
S/L2  
communications S2  
RY  
RC  
SW1  
SOURCE  
FM  
V
VIA  
V
*1: The T/L3 terminal is not provided Low-speed  
for single-phase models.  
Use the R/L1 and S/L2 terminal  
as input terminals.  
S3  
P24  
OUT  
NO  
signal output  
*3  
24Vdc input  
PLC  
PLC  
*2: The inverter in supplied with the PO  
and the PA/+ terminals shorted by  
means of a shorting bar.  
Before installing the DC reactor (DCL),  
remove the bar.  
*3: When using the NO output terminal in  
source logic mode, short the P24 and  
OUT terminals.  
Ry  
SINK  
I
I
Speed reach signal  
output  
CC  
CC  
FM  
+
VIA  
VIB  
PP  
+
-
Meter  
Voltage signal: 0-10V  
(Current signal: 4-20mA)  
Frequency  
meter  
(ammeter)  
*4: If you are using a 600V model, be sure  
to connect an input reactor (ACL).  
*5: 600V models have no noise filter inside.  
-
External potentiometer (1~10k)  
(or input voltage signal across VIB-CC terminals: 0-10V)  
7.5V-1mA  
(or 4-20mA)  
11  
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E6581160  
2.2  
Description of terminals  
2.2.1 Power circuit terminals  
In case of the lug connector, cover the lug connector with insulated tube, or use the insulated lug  
connector.  
Screw size  
M3.5 screw  
M4 screw  
M5 screw  
M6 screw  
tightening torque  
0.9Nm  
2
7.1lb y in  
1.3Nm  
10.7lb y in  
22.3lb y in  
40.1lb y in  
2.5Nm  
4.5Nm  
Q Power circuit  
Terminal symbol  
Terminal function  
Grounding terminal for connecting inverter. There are 3 terminals in total. 2 terminals in  
the terminal board, 1 terminal in the cooling fin.  
240V class: single-phase 200 to 240V-50/60Hz  
three-phase 200 to 240V-50/60Hz  
500V class: three-phase 380 to 500V-50/60Hz  
600V class: three-phase 525 to 600V-50/60Hz  
* Single-phase input: R/L1 and S/L2 terminals  
Connect to a (three-phase induction) motor.  
R/L1,S/L2,T/L3  
U/T1,V/T2,W/T3  
Connect to braking resistors.  
PA/+PB  
Change parameters Hꢀꢁꢂ, Hꢀꢁꢃ, Hꢀꢁꢄ, Hꢀꢁꢅ if necessary.  
This is a negative potential terminal in the internal DC main circuit. DC common power  
can be input across the PA terminals (positive potential).  
PC/-  
Terminals for connecting a DC reactor (DCL: optional external device). Shorted by a  
short bar when shipped from the factory. Before installing DCL, remove the short bar.  
POPA/+  
2.2.2 Selection of wiring materials  
Wire size (See Note 4)  
Capacity of  
applicable  
motor (kW)  
Power circuit  
DC reactor  
Braking resistor/  
Earth cable  
(mm2)  
Voltage class  
Inverter model  
(mm2) (Note 1.)  
(optional) (mm2)  
Braking unit  
(optional) (mm2)  
0.2  
0.4  
0.75  
1.5  
VFS11S-2002PL  
VFS11S-2004PL  
VFS11S-2007PL  
VFS11S-2015PL  
VFS11S-2022PL  
2.0 (2.0)  
2.0 (2.0)  
2.0 (2.0)  
2.0 (2.0)  
2.0 (2.0)  
2.0  
2.0  
2.0  
2.0  
3.5  
2.0  
2.0  
2.0  
2.0  
2.0  
3.5  
3.5  
3.5  
3.5  
3.5  
Single-phase  
240V class  
2.2  
0.4  
0.55  
0.75  
1.5  
2.2  
4.0  
5.5  
7.5  
11  
VFS11-2004PM  
VFS11-2005PM  
VFS11-2007PM  
VFS11-2015PM  
VFS11-2022PM  
VFS11-2037PM  
VFS11-2055PM  
VFS11-2075PM  
VFS11-2110PM  
VFS11-2150PM  
2.0 (2.0)  
2.0 (2.0)  
2.0 (2.0)  
2.0 (2.0)  
2.0 (2.0)  
2.0 (2.0)  
5.5 (2.0)  
8.0 (5.5)  
14 (8.0)  
22 (14)  
1.25  
2.0  
2.0  
2.0  
2.0  
3.5  
8.0  
14  
2.0  
2.0  
2.0  
2.0  
2.0  
2.0  
2.0  
3.5  
5.5  
14  
3.5  
3.5  
3.5  
3.5  
3.5  
3.5  
5.5  
5.5  
8.0  
8.0  
Three-phase  
240V class  
14  
22  
15  
12  
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E6581160  
Wire size (See Note 4)  
Capacity of  
applicable  
motor (kW)  
Power circuit  
DC reactor  
Braking resistor/  
Earth cable  
(mm2)  
Voltage class  
Inverter model  
(mm2) (Note 1.)  
(optional) (mm2)  
Braking unit  
(optional) (mm2)  
0.4  
0.75  
1.5  
2.2  
4.0  
5.5  
7.5  
11  
VFS11-4004PL  
VFS11-4007PL  
VFS11-4015PL  
VFS11-4022PL  
VFS11-4037PL  
VFS11-4055PL  
VFS11-4075PL  
VFS11-4110PL  
VFS11-4150PL  
2.0 (2.0)  
2.0 (2.0)  
2.0 (2.0)  
2.0 (2.0)  
2.0 (2.0)  
2.0 (2.0)  
3.5 (2.0)  
5.5 (2.0)  
8.0 (5.5)  
2.0  
2.0  
2.0  
2.0  
2.0  
3.5  
5.5  
8.0  
14  
2.0  
2.0  
2.0  
2.0  
2.0  
2.0  
2.0  
2.0  
3.5  
3.5  
3.5  
3.5  
3.5  
3.5  
3.5  
3.5  
5.5  
5.5  
Three-phase  
500V class  
2
15  
0.75  
1.5  
2.2  
4.0  
5.5  
7.5  
11  
VFS11-6007P  
VFS11-6015P  
VFS11-6022P  
VFS11-6037P  
VFS11-6055P  
VFS11-6075P  
VFS11-6110P  
VFS11-6150P  
2.0  
2.0  
2.0  
2.0  
2.0  
2.0  
3.5  
5.5  
2.0  
2.0  
2.0  
2.0  
2.0  
2.0  
3.5  
5.5  
2.0  
2.0  
2.0  
2.0  
2.0  
2.0  
2.0  
2.0  
3.5  
3.5  
3.5  
3.5  
3.5  
3.5  
3.5  
5.5  
Three-phase  
600V class  
15  
Note 1: Sizes of the wires connected to the input terminals R/L1, S/L2 and T/L3 and the output terminals U/T1,  
V/T2 and W/T3 when the length of each wire does not exceed 30m.  
The numeric values in parentheses refer to the sizes of wires to be used when a DC reactor is connected.  
Note 2: For the control circuit, use shielded wires 0.75 mm2 or more in diameter.  
Note 3: For grounding, use a cable with a size equal to or larger than the above.  
Note 4: The wire sizes specified in the above table apply to HIV wires (cupper wires shielded with an insulator  
with a maximum allowable temperature of 75°C) used at an ambient temperature of 50°C or less.  
Note 5: If there is a need to bring the inverter into UL compliance, use wires specified in Chapter 6.  
2.2.3 Control circuit terminals  
SW1  
The control circuit terminal  
SOURCE  
board is common to all  
equipment.  
PLC  
Factory default settings of slide switches  
SINK  
SW1: SINK (Negative) side (WN, AN type)  
SOURCE (Positive) side (WP type)  
P24 OUT NO FM CC  
FLA FLB FLC RY RC  
FM: V side  
VIA: V side  
Wire size  
Solid wire: 0.3 1.5 (mm2)  
Stranded wire: 0.3 1.5 (mm2)  
(AWG 22 16)  
FM VIA  
PLC S1 S2 S3  
V
V
PP VIA VIB CC  
I
I
Sheath strip length: 6 (mm)  
M3 screw  
(0.5N m)  
F
R
RES CC  
Screwdriver: Small-sized flat-blade screwdriver  
(Blade thickness: 0.4 mm or less,  
blade width: 2.2 mm or less)  
Optional connector  
(RJ45)  
13  
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E6581160  
Q Control circuit terminals  
Terminal  
symbol  
Electrical  
specifications  
Input/output  
Function  
Inverter internal circuits  
Shorting across F-CC causes  
forward rotation; open causes slow-  
down and stop. (When ST is always  
ON)  
F
Input  
Shorting across R-CC causes  
reverse rotation; open causes slow-  
down and stop. (When ST is always  
ON)  
This inverter protective function is  
disabled if RES are CC is connected.  
Shorting RES and CC has no effect  
when the inverter is in a normal  
condition.  
Shorting across S1-CC causes  
preset speed operation.  
Shorting across S2-CC causes  
preset speed operation.  
SW1  
PLC  
24V  
SINK  
SOURCE  
R
Input  
Input  
No voltage  
contact input  
24Vdc-5mA or less  
2
PLC  
S3  
RES  
*Sink/Source/PLC  
selectable using  
SW1  
820  
4.7K  
F
S1  
S2  
S3  
Input  
Input  
Input  
Factory default setting  
WN, AN type : SINK side  
WP type : SOURCE side  
Shorting across S3-CC causes  
preset speed operation.  
External 24Vdc power input  
When the source logic is used, a common  
terminal is connected.  
24VDC  
(Insulation  
resistance: DC50V)  
Input  
(common)  
PLC  
Common to  
Input/output  
Control circuit's equipotential terminal (3  
terminals)  
CC  
CC  
+24V  
10Vdc  
(permissible load  
current: 10mA)  
PP  
Voltage  
PP  
Output  
Analog power supply output  
conversion  
0.47µ  
Multifunction programmable analog input.  
Factory default setting: 0~10Vdc and  
0~60Hz (0~50Hz) frequency input.  
The function can be changed to  
4~20mAdc (0~20mA) current input by  
flipping the dip switch to the I position.  
+5V  
10Vdc  
(internal impedance:  
30k)  
15k 300  
VIA  
VIA  
Input  
V
I
By changing parameter setting, this  
terminal can also be used as a  
15k  
250  
VIA  
4-20mA  
(internal impedance:  
250)  
multifunction programmable contact input  
terminal. When using the sink logic, be  
sure to insert a resistor between P24-VIA  
(4.7 k1/2 W). Also move the VIA dip  
switch to the V position.  
14  
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E6581160  
Terminal  
symbol  
Electrical  
specifications  
Input/output  
Function  
Inverter internal circuits  
Multifunction programmable analog input.  
Standard default setting: 0~10Vdc input  
and 0~60Hz (0~50Hz) frequency  
5V  
10Vdc  
(internal  
impedance: 30k)  
VIB 15k  
15k  
By changing parameter setting, this  
terminal can also be used as a  
multifunction programmable contact input  
terminal. When using the sink logic, be  
sure to insert a resistor between P24 and  
VIB. (4.7 k1/2 W)  
VIB  
Input  
2
1mAdc full-scale  
ammeter or 7.5Vdc  
(10Vdc)1mA full-  
scale voltmeter  
4.7K  
P24  
Multifunction programmable analog  
output. Standard default setting: output  
frequency.  
The function can be changed to 0-20mAdc  
(4-20mA) current output by flipping the FM  
slide switch to the I position.  
+
-
FM  
V
I
FM  
Output  
0-20mA (4-20mA)  
DC ammeter  
FM  
+
-
100  
Permissible load  
resistance:  
750or less  
+24V  
P24  
P24  
Output  
24Vdc power output  
24Vdc-100mA  
PTC*  
Multifunction programmable open collector  
output. Standard default settings detect  
and output speed reach signal output  
frequencies.  
Open collector output  
24Vdc-50mA  
Multifunction output terminals to which two To output pulse  
10 PTC*  
10  
OUT  
NO  
different functions can be assigned.  
The NO terminal is an isoelectric output  
terminal. It is insulated from the CC  
terminal.  
trains,  
OUT  
NO  
a current of 10mA  
or more needs to  
be passed.  
Output  
By changing parameter settings, these  
terminals can also be used as  
multifunction programmable pulse train  
output terminals.  
Pulse frequency  
range:  
381600Hz  
+24V  
RY  
FLA  
Multifunction programmable relay contact  
output.  
Detects the operation of the inverter's  
protection function.  
Contact across FLA-FLC is closed and FLB-  
FLC is opened during protection function  
operation.  
250Vac-1A  
(cosφ=1)  
: at resistance load  
30Vdc-0.5A  
250Vac-0.5A  
(cosφ=0.4)  
FLB  
FLC  
FLA  
FLB  
FLC  
Output  
* PTC (Positive Temperature Coefficient): Resettable thermal fuse resistor for over current protection.  
15  
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E6581160  
Terminal  
symbol  
Electrical  
specifications  
Input/output  
Output  
Function  
Inverter internal circuits  
+24V  
RY  
Multifunction programmable relay contact  
output.  
Standard default settings detect and  
output low-speed signal output  
frequencies.  
250Vac-1A  
(cosφ=1)  
: at resistance load  
30Vdc-0.5A  
250Vac-0.5A  
(cosφ=0.4)  
RY  
RC  
RY  
RC  
Multifunction output terminals to which two  
different functions can be assigned.  
2
Q 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. (Type: -AN/-WN).  
The general used method in Europe is source logic in which current flowing into the input terminal turns it  
on (Typ: -WP).  
Sink logic is sometimes referred to as negative logic, and source logic is referred to as positive logic.  
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.  
Examples of connections when the inverter's internal power supply is used>  
Slide switch SW1:SINK  
Sink (Negative) logic  
Slide switch SW1:SOURCE  
Source (Positive) logic  
24VDC  
24VDC  
Input  
Input  
Common P24  
Output  
F
Output  
F
Common  
CC  
24VD  
Common P24  
24VDC  
P24  
Output  
Output  
Input  
OUT  
OUT  
NO  
NO  
Input  
CC  
CC  
Common  
Programmable  
controller  
Programmable  
controller  
Inverter  
Inverter  
16  
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E6581160  
Q SINK (Negative) logic/SOURCE (Positive) logic (When an external power supply  
is used)  
The PLC terminal is used to connect to an external power supply or to insulate a terminal from other input  
or output terminals. As for input terminals, turn the SW1 slide switch to the PLC position.  
Examples of connections when an external power supply is used>  
Slide switch SW1:PLC  
Sink (Negative) logic  
Slide switch SW1:PLC  
Source (Positive) logic  
2
24VDC  
24VDC  
Input  
Common  
Output  
PLC  
F
Input  
Output  
F
Common PLC  
Common OUT  
24VDC  
24VDC  
Output  
Output  
Input  
OUT  
Input  
NO  
Common NO  
Programmable  
controller  
Programmable  
controller  
Inverter  
Inverter  
Q Selecting the functions of the VIA and VIB terminals between analog input and  
contact input  
The functions of the VIA and VIB terminals can be selected between analog input and contact input by  
changing parameter settings (Hꢆꢁꢅ). (Factory default setting: Analog input)  
When using these terminals as contact input terminals in a sink logic circuit, be sure to insert a resistor  
between the P24 and VIA terminals or between the P24 and VIB terminals. (Recommended resistance:  
4.7K-1/2W)  
When using the VIA terminal as a contact input terminal, be sure to turn the VIA switch to the V position. If  
no resistor is inserted or the VIA slide switch is not turned to the V position, contact input will be left always  
ON, which is very dangerous.  
Switch between analog input and contact input before connecting the terminals to the control circuit  
terminals. Otherwise the inverter or devices connected to it may be damaged.  
17  
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E6581160  
Q Logic switching/Voltage-current output switching (slide switch)  
(1) Logic switching  
Use SW1 to switch between logics.  
Switch between logics before wiring to the inverter and without supplying power. If switching between  
sink, source and PLC is done when power is turned on after switching or when the inverter is supplied  
with power, the inverter might become damaged. Confirm it before supplying power.  
(2) Voltage-current output switching  
Use the FM switch to switch between voltage output and current output.  
2
Switch the FM terminal's voltage-current output before wiring to inverter or without supplying power.  
SW1  
FM VIA  
SOURCE  
SINK  
V
I
V
I
PLC  
Factory default settings of slide switches  
SW1 : SINK (Negative) side (WN, AN type)  
SOURCE (Positive) side (WP type)  
FM : V side  
VIA : V side  
18  
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E6581160  
3. Operations  
3.1  
Simplified Operation of the VF-S11  
The procedures for setting operation frequency and the methods of operation can be selected from the following.  
(1) Start and stop using the operation panel keys  
(2) Run and stop from the operation panel  
:
:
Start / Stop  
3
(1) Setting using the potentiometer on the inverter  
main unit  
Setting the frequency  
(2) Setting using the operation panel  
(3) Setting using external signals to the terminal board  
(0-10Vdc, 4-20mAdc)  
Use the basic parameters EOQF (Operation command mode selection),  
HOQF (Speed setting mode selection).  
Title  
Function  
Adjustment range  
0: Terminal board  
1: Panel  
Default setting  
1
EOQF  
Command mode selection  
0: Internal potentiometer setting  
1: VIA  
2: VIB  
HOQF  
Frequency setting mode  
3: Operation panel  
4: Serial communication  
5: External contact up/down  
6: VIA+VIB (Override)  
0
*
See the manual E6581158 for HOQF=4, 5 and 6.  
19  
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E6581160  
3.1.1 How to start and stop  
[Example of a EOQF setting procedure]  
Key operated  
LED display  
Operation  
Displays the operation frequency (operation stopped).  
ꢀꢁꢀ  
(When standard monitor display selection Hꢂꢃꢀ=[Operation  
frequency])  
MODE  
Displays the first basic parameter [History (CWJ)].  
CWJ  
EOQF  
Press either the or key to select “EOQF”.  
3
Press ENTER key to display the parameter setting. (Default setting:).  
Change the parameter to (terminal board) by pressing the key.  
Press the ENTER key to save the changed parameter. EOQF and the  
parameter set value are displayed alternately.  
EOQF  
(1)Start and stop using the operation panel keys (EOQF=)  
Use the  
and  
keys on the operation panel to start and stop the motor.  
: Motor starts.  
: Motor stops.  
To switch between forward run and reverse run from the control panel, the parameter fr  
(forward/reverse run selection) needs to be set to 2 or 3.  
(2)RUN/STOP by means of an external signal to the terminal board (EOQF=):  
Sink (Negative) logic  
Use external signals to the inverter terminal board to start and stop the motor.  
Slow down  
and stop  
Short  
Open  
and  
and  
terminals: run forward  
CC  
CC  
Frequency  
F-CC  
ON  
OFF  
terminals: slow down and stop  
F
(3)Coast stop  
Coast stop  
The standard default setting is for slowdown stop. To  
make a coast stop, assign a "1(ST)" terminal function  
to an idle terminal using the programmable terminal  
function.  
Motor  
speed  
ON  
OFF  
F-CC  
Change to Hꢃꢃꢀ=.  
For coast stop, open the ST-CC when stopping the  
motor in the state described at left.The monitor on the  
inverter at this time will display QHH.  
ON  
OFF  
ST-CC  
20  
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E6581160  
3.1.2 How to set the frequency  
[Example of a HOQF setting procedure]  
Key operated  
LED display  
Operation  
Displays the operation frequency (operation stopped).  
ꢀꢁꢀ  
(When standard monitor display selection Hꢂꢃꢀ=[Operation  
frequency])  
MODE  
Displays the first basic parameter [History (CWJ)].  
CWJ  
HOQF  
Press either the key or key to select “HOQF”.  
3
Press ENTER key to display the parameter setting. (Default setting: ).  
Change the parameter to (Operation panel) by pressing the key.  
Press the ENTER key to save the changed parameter. HOQF and the  
parameter set value are displayed alternately.  
HOQF  
*
Pressing the MODE key twice returns the display to standard monitor mode (displaying operation frequency).  
(1)Setting the frequency using the potentiometer on the inverter main unit  
(HOQF=)  
Set the frequency with the notches on the potentiometer.  
Move clockwise for the higher frequencies.  
The potentiometer has hysteresis. So the set value may slightly change  
when the inverter is turned off, and then turned back on.  
(2)Setting the frequency using the operation panel (HOQF=)  
Set the frequency with the operation panel..  
: Moves the frequency up  
: Moves the frequency down  
Example of operating a run from the panel  
Key operated  
LED display  
Operation  
Displays the operation frequency.  
(When standard monitor display selection Hꢂꢃꢀ=[Operation  
ꢀꢁꢀ  
frequency])  
ꢅꢀꢁꢀ  
ꢅꢀꢁꢀHE  
ꢆꢀꢁꢀ  
Set the operation frequency.  
Press the ENT key to save the operation frequency. HE and the  
frequency are displayed alternately.  
Pressing the key or the key will change the operation frequency  
even during operation.  
21  
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E6581160  
(3)Setting the frequency using the operation panel (HOQF=or )  
Frequency setting  
1)  
Setting the frequency using external potentiometer  
Potentiometer  
Setting frequency using the potentiometer (1-10k, 1/4W)  
PP  
: Setting frequency  
using potentiometer  
VIB  
60Hz  
Frequency  
CC  
3
0
MIN  
MAX  
*
The input terminal VIA can be used in the same way.  
HOQF=: VIA effective, HOQF=: VIB effective  
2)  
Setting the frequency using input voltage (0~10V)  
Voltage signal  
Setting frequency using voltage signals (010V).  
+
-
VIA  
: Voltage signal 0-10mAdc  
60Hz  
CC  
Frequency  
0
0Vdc  
10Vdc  
*
The input terminal VIB can be used in the same way.  
 HOQF=: VIA effective, HOQF=: VIB effective  
 
Note: Be sure to turn the VIA slide switch to the V (voltage) position.  
3)  
Setting the frequency using current input (4~20mA)  
Current Signal  
Current signal Setting frequency using current signals (4~20mA).  
+
-
VIA  
: Current signal 4-20mAdc  
60Hz  
CC  
Frequency  
0
4mAdc  
20mAdc  
* Setting of parameters also allow 0-20mAdc.  
Note: Be sure to turn the VIA slide switch to the I (current) position.  
22  
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E6581160  
3.2  
How to operate the VF-S11  
Overview of how to operate the inverter with simple examples.  
Setting the operation frequency using built-in potentiometer and  
running and stopping using the operation panel.  
Ex.1  
(1) Wiring  
3
PO PA/+  
PB PC/-  
Motor  
MCCB  
R/L1  
S/L2  
T/L3  
U/T1  
V/T2  
W/T3  
*
Noise  
filter  
Power circuit  
IM  
Braking  
circuit  
Parameter setting (default setting)  
Title  
Function  
Programmed value  
Command mode selection  
Frequency setting mode selection 1  
1
EOQF  
HOQF  
0
(3) Operation  
Run/stop: Press the  
and  
keys on the panel.  
Frequency setting: Set adjusting position of notches on the potentiometer.  
* 600V models have no noise filter inside.  
23  
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E6581160  
Setting the operation frequency using the operation panel and  
running and stopping using the operation panel.  
Ex.2  
(1) Wiring  
PO PA/+  
PB PC/-  
Motor  
MCCB  
R/L1  
S/L2  
T/L3  
U/T1  
V/T2  
W/T3  
3
*
Noise  
filter  
Power circuit  
IM  
Braking  
circuit  
(2) Parameter setting  
Title  
Function  
Command mode selection  
Frequency setting mode selection 1  
Programmed value  
1
EOQF  
HOQF  
3
(3) Operation  
Run/stop: Press the  
and  
keys on the panel.  
Frequency setting: Set with the  
keys on the operation panel.  
To store the set frequencies in memory, press the  
key.  
HEand the set frequency will flash on and off alternately.  
* 600V models have no noise filter inside.  
24  
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E6581160  
Setting the operation frequency using built-in potentiometer and  
running and stopping using external signals.  
Ex.3  
(1) Wiring  
PO  
PA/+  
PB  
PC/-  
Motor  
MCCB  
R/L1  
S/L2  
T/L3  
U/T1  
V/T2  
W/T3  
*
Noise  
filter  
Power circuit  
IM  
3
Braking  
circuit  
F
Run forward  
signal  
R
Run  
backward  
signal  
Common  
CC  
(2) Parameter setting  
Title  
Function  
Programmed value  
Command mode selection  
0
0
EOQF  
HOQF  
Frequency setting mode selection  
(3) Operation  
Run/stop: ON/OFF input to F-CC, R-CC. (Set SW1 to Sink logic)  
Frequency setting: Set adjusting position of notches on the potentiometer.  
* 600V models have no noise filter inside.  
25  
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E6581160  
Operation frequency setting, running and stopping using external  
signals.  
Ex.4  
(1) Wiring  
PO  
PA/+  
PB  
PC/-  
Motor  
MCCB  
R/L1  
U/T1  
V/T2  
W/T3  
S/L2  
T/L3  
*
Noise  
filter  
3
Power circuit  
IM  
Run forward signal  
F
Braking  
circuit  
R
Run backward signal  
Common  
CC  
Current signal: 420mA  
VIA  
CC  
VIA  
PP  
VIB  
Voltage signal: 010V  
External potentiometer  
(Otherwise, input voltage signal (0~10V) between the terminals VIA-CC.)  
(2) Parameter setting  
Title  
Function  
Programmed value  
Command mode selection  
0
EOQF  
HOQF  
Frequency setting mode selection  
1or2  
(3) Operation  
Run/stop: ON/OFF input to F-CC, R-CC. (Set SW1 to Sink logic)  
Frequency setting: VIA and VIB: 0-10Vdc (External potentiometer)  
VIA: Input 4-20mAdc.  
Note) Use the VIA slide switch to switch between voltage and current to the VIA terminal.  
Voltage input: V side  
Current input: I side  
* 600V models have no noise filter inside.  
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E6581160  
4. Basic VF-S11 operations  
The VF-S11 has the following four monitor modes.  
: The standard inverter mode. This mode is enabled when  
inverter power goes on.  
Standard monitor mode  
This mode is for monitoring the output frequency and setting the frequency  
designated value. In it is also displayed information about status alarms during  
running and trips.  
Setting frequency designated values see 3.1.2  
Status alarm  
If there is an error in the inverter, the alarm signal and the frequency will flash  
alternately in the LED display.  
4
E:  
When a current flows at or higher than the overcurrent stall level.  
When a voltage is generated at or higher than the over voltage stall  
level.  
R:  
N:  
When a load reaches 50% or higher of the overload trip value.  
When the temperature reaches the overheating protection alarm level.  
J:  
Setting monitor mode  
Status monitor mode  
: The mode for setting inverter parameters.  
How to set parameters see 4.2  
: The mode for monitoring all inverter status.  
Allows monitoring of set frequencies, output current/voltage and terminal  
information.  
For more on how to use the monitor see 5.1  
Pressing the key  
will move the inverter through each of the modes.  
MODE  
Standard monitor  
mode  
MODE  
MODE  
Status monitor  
mode  
Setting monitor  
mode  
MODE  
: This mode allows you to jog the motor by controlling the  
operation from the operation panel.  
This mode is hidden by default.  
Panel jog mode  
To use the panel jog mode, set the parameter Hꢀꢁꢀ to.  
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E6581160  
4.1  
Flow of status monitor mode  
Status monitor mode  
Flow of monitor as following  
Setting monitor mode  
PRG  
MODE  
MODE  
Standard monitor mode  
RUN  
28 kinds of data  
Display mode  
Hz  
MON  
4
MODE  
10 kinds of data  
Data of 4 times.  
ENT  
ENT  
ENT  
ENT  
Past trip record detained monitor mode  
Note: To return to the original display mode, press the MODE key.  
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4.2  
How to set parameters  
The standard default parameters are programmed before the unit is shipped from the factory. Parameters can be  
divided into 4 major categories. Select the parameter to be changed or to be searched and retrieved.  
:
:
:
The basic parameters that must be programmed  
before the first use. (See 4.2.1)  
Basic parameters  
The parameters for detailed and special setting. (See  
4.2.2)  
Extended parameters  
Indicates parameters that are different from the  
standard default setting parameters. Use them to  
check after setting and to change setting.  
(Parameter title: I4W). (See 4.2.3)  
User parameters  
(automatic edit function)  
4
:
This parameter has the function of displaying, in  
reverse chronological order, the five parameters that  
were changed last. This function comes in very handy  
when you adjust the inverter repeatedly using the  
same parameter. (Parameter name: CWJ). (See  
4.2.4)  
History parameter  
*
Adjustment range of parameters  
JK: An attempt has been made to assign a value that is higher than the programmable range. Or, as  
a result of changing other parameters, the programmed value of the parameter that is now  
selected exceeds the upper limit.  
NQ: An attempt has been made to assign a value that is lower than the programmable range. Or, as a  
result of changing other parameters, the programmed value of the parameter that is now selected  
exceeds the lower limit.  
If the above alarm is flashing on and off, no setting can be done of values that are equal to or greater  
than JK or equal to or lower than NQ.  
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4.2.1 How to set the basic parameters  
All of the basic parameters can be set by the same step procedures.  
[Steps in key entry for basic parameters]  
* Parameters were  
factory-set by default  
before shipment.  
MODE  
Switches to the setting monitor mode.  
* Select the parameter to  
be changed from "Table  
of parameters".  
* If there is something  
that you do not  
Selects parameter to be changed.  
understand during the  
operation, press the  
MODE key to return to  
the ꢃꢄꢃ indication.  
* See 7.2 for basic  
parameters.  
4
Reads the programmed parameter  
setting.  
Changes the parameter setting.  
Saves the changed value of the  
parameter setting.  
Steps in setting are as follows (example of changing the maximum frequency from 80Hz to 60Hz).  
Key operated  
LED display  
Operation  
Displays the operation frequency (operation stopped).  
(When standard monitor display selection Hꢅꢂꢃ=[Operation  
frequency])  
ꢃꢄꢃ  
MODE  
The first basic parameter “CWJ” (history function) is displayed.  
Press either the or key to select “HJ”.  
CWJ  
HJ  
Pressing the ENTER key reads the maximum frequency.  
Press the key to change the maximum frequency to 60Hz.  
ꢆꢃꢄꢃ  
ꢁꢃꢄꢃ  
Press the ENT key to save the maximum frequency. HJ and the  
frequency are displayed alternately.  
ꢁꢃꢄꢃHJ  
After this,  
Displays the same  
programmed  
parameter.  
Switches to the  
display in the  
status monitor  
mode.  
Displays names  
of other  
parameters.  
MODE  
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4.2.2 How to set extended parameters  
The VF-S11 has extended parameters to allow you to make full use of its functions.  
All extended parameters are expressed with H and three digits.  
Basic parameters  
ENT  
HꢂꢃꢃHꢈꢈꢈ  
Hꢇꢇꢇ  
MODE  
4
Press the V key or the W key to  
Press the MODE key once and use the VW key  
change the set value. Pressing  
the ENTER key allows the reading  
of parameter setting.  
to select Hꢇꢇꢇ from the basic parameters.  
[Steps in key entry for extended parameters]  
: switches to the setting monitor mode.(Displays CWJ)  
MODE  
* See 7.3 for extended  
parameters.  
: Selects "Hꢇꢇꢇ" from basic parameters.  
: The first extended parameter “HKꢃꢃ” (Low-speed signal output frequency) is displayed.  
: Selects the extended parameter whose setting needs to be changed.  
: Reads the programmed parameter setting.  
: Changes the parameter setting.  
Saves the changed value of the extended parameter setting.  
Pressing the  
key instead of the  
key moves back to the previous status.  
MODE  
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Q Example of parameter setting  
Steps in setting are as follows  
(Example of changing the dynamic braking selection Hꢉꢃꢊ from 0 to 1.)  
Key operated  
LED display  
Operation  
Displays the operation frequency (operation stopped).  
(When standard monitor display selection Hꢅꢂꢃ=[Operation  
frequency])  
.ꢃ  
MODE  
The first basic parameter “CWJ” (history function) is displayed.  
CWJ  
Hꢇꢇꢇ  
Hꢂꢃꢃ  
Hꢉꢃꢊ  
Press either the or the to change to the parameter group  
Hꢇꢇꢇ.  
Press the ENTER key to display the first extended parameter  
Hꢂꢃꢃ.  
4
Press the key to change to the dynamic braking selection Hꢉꢃꢊ.  
Pressing the ENTER key allows the reading of parameter setting.  
Press the key to change the dynamic braking selection from to  
.  
Pressing the ENTER key alternately flashes on and off the parameter  
and changed value and allows the save of those values.  
Hꢉꢃꢊ  
If there is anything you do not understand during this operation, press the MODE key several times to  
start over from the step of CWJ display.  
For details on the function of each parameter, refer to the full version of English manual (E6581158).  
4.2.3 Search and resetting of changed parameters (I4W)  
Automatically searches for only those parameters that are programmed with values different from the  
standard default setting and displays them in the user parameter group I4W. Parameter setting can also be  
changed within this group.  
Notes on operation  
If you reset a parameter to its factory default, the parameter will no longer appear in I4W.  
fO, f470-f473 are not appeared, if the value of these parameters are changed.  
Q How to search and reprogram parameters  
The operations of search and resetting of parameters are as follows.  
Key operated  
LED display  
Operation  
Displays the operation frequency (operation stopped).  
(When standard monitor display selection Hꢅꢂꢃ=[Operation  
frequency])  
ꢃꢄꢃ  
MODE  
CWJ  
ITꢄW  
The first basic parameter “CWJ” (history function) is displayed.  
Press or key to select I4W.  
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Key operated  
LED display  
Operation  
Press the ENTER key to enable the user parameter automatic edit  
function.  
Wꢇꢇꢇ  
Searches for parameters that are different in value from the standard  
default setting and displays those parameters. Press the ENTER key  
or the key to change the parameter displayed. (Pressing the key  
moves the search in the reverse direction).  
WꢇꢇH  
WꢇꢇT)  
CEE  
or  
Press the ENTER key to display the set value.  
Press the key and key to change set value.  
ꢆꢄꢃ  
ꢋꢄꢃ  
Press the ENTER key to save the changed value. The parameter  
name and the programmed value will flash on and off alternately.  
After the change has been saved, “Wꢇꢇꢇ“ is displayed.  
ꢋꢄꢃCEE  
4
Use the same steps as those given above to display parameters that  
you want to search for or change setting with the key and key.  
WꢇꢇH  
WꢇꢇT)  
When IT. W appears again, the search is ended.  
ITꢄW  
A search can be canceled by pressing the MODE key. Press the  
MODE key once while the search is underway to return to the display  
of parameter setting mode.  
After that you can press the MODE key to return to the status  
monitor mode or the standard monitor mode (display of operation  
frequency).  
MODE  
MODE  
ITꢄW  
HTꢇH  
ꢃꢄꢃ  
If there is anything you do not understand during this operation, press the  
key several times to  
MODE  
start over from the step of auh display.  
4.2.4 Searching for a history of changes, using the history  
function (CWJ)  
History function (CWJ):  
Automatically searches for 5 latest parameters that are programmed with values different from the  
standard default setting and displays them in the CWJ. Parameter setting can also be changed  
within this group CWJ.  
Notes on operation  
If no history information is stored, this parameter is skipped and the next parameter “CWK” is  
displayed.  
JGCF and GPF are added respectively to the first and last parameters in a history of changes.  
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Q How to use the history function  
Key operated  
LED display  
Operation  
Displays the operation frequency (operation stopped).  
ꢃꢄꢃ  
(When standard monitor display selection Hꢅꢂꢃ=[Operation  
frequency])  
MODE  
CWJ  
CEE  
The first basic parameter “CWJ” (history function) is displayed.  
The parameter that was set or changed last is displayed.  
Press the ENTER key to display the set value.  
ꢆꢄꢃ  
ꢋꢄꢃ  
Press the key and key to change set value.  
Press the ENTER key to save the changed value. The parameter  
name and the programmed value will flash on and off alternately.  
ꢋꢄꢃCEE  
4
Use the same steps as those given above to display parameters that  
you want to search for or change setting with the key and key.  
****  
JGCF: First historic record  
JGCF  
GPF: Last historic record  
(GPF)  
Parameter  
display  
MODE  
MODE  
Press the MODE key to return to the parameter setting mode  
CWJ.”  
After that you can press the MODE key to return to the status  
monitor mode or the standard monitor mode (display of operation  
frequency).  
CWJ  
HTꢇH  
ꢃꢄꢃ  
MODE  
Note) Parameter f700 (Prohibition of change of parameter settings) is not displaied in this “auh”.  
4.2.5 Parameters that cannot be changed while running  
For safety reasons, the following parameters have been set up so that they cannot be reprogrammed while  
the inverter is running. Stop operation (“0.0” or “off” is displayed) before changing parameter settings.  
[Basic parameters]  
CWꢂ, CWꢀ, CWꢊ, EOQF*, HOQF*, V[R, HJ, XN, XNX, RV  
[Extended parameters]  
Hꢂꢃꢋ, HꢂꢃꢆHꢂꢂꢆ, HꢂꢉꢃHꢂꢉꢈ, Hꢂꢅꢃ, Hꢂꢅꢂ, Hꢀꢁꢂ, HꢉꢃꢂHꢉꢂꢂ, Hꢉꢂꢁ,  
HꢉꢊꢀHꢉꢊꢋ, Hꢊꢃꢃ, HꢊꢂꢋHꢊꢂꢈ, HꢊꢆꢃHꢊꢈꢁ, Hꢁꢃꢉ, Hꢁꢃꢋ, Hꢁꢃꢆ, Hꢁꢂꢉ,  
Hꢁꢀꢁ, Hꢁꢀꢅ, Hꢁꢁꢈ, HꢈꢂꢃHꢈꢂꢀ  
The setting of any parameter other than the above can be changed even during operation.  
Keep in mind, however, that when the parameter Hꢅꢃꢃ (prohibition of change of parameter settings) is set to ꢂ  
(prohibited), no parameters can be set or changed.  
* Set Hꢅꢉꢁ, cmod and fmod can be changed while the inverter is running.  
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4.2.6 Returning all parameters to standard default setting  
Setting the standard default setting parameter V[R=, all parameters can be returned to the those factory  
default settings.  
Note: For more details on the standard default setting parameter V[R, see 5.6.  
Notes on operation  
We recommend that before this operation you write down on paper the values of those parameters,  
because when setting V[R=, all parameters with changed values will be returned to standard  
factory default setting.  
Note that HO, HOUN, Hꢂꢃꢈ, f470-f473, Hꢁꢁꢈ and Hꢆꢆꢃ will not be reset to their  
factory default settings.  
4
Q Steps for returning all parameters to standard default setting  
Key operated  
LED display  
Operation  
Displays the operation frequency (perform during operation stopped).  
ꢃꢄꢃ  
MODE  
The first basic parameter “CWJ” (history function) is displayed.  
CWJ  
V[R  
Press the key or the key to change to V[R.  
Pressing the ENTER key displays the programmed parameters.  
(V[R will always display "(zero)" on the right, the previous setting  
on the left.)  
  ꢃ  
Press the key or the key to change the set value.  
To return to standard factory default setting, change to "".  
  ꢉ  
Pressing the ENTER key displays "KPKV" while returning all  
parameters to factory default setting.  
KPKV  
ꢃꢄꢃ  
The monitor returns to the display of setup parameters.  
If there is anything you do not understand during this operation, press the MODE key several times to  
start over from the step of CWJ display.  
4.2.7 How to save/load the user setting parameters  
The current settings of all parameters can be stored (saved) in memory at a time by setting the standard  
setting mode selection parameter V[pto 7. Also, all parameter settings stored in memory can be restored  
(loaded) by setting parameter V[p to 8. This means that you can use this parameter (V[p=7 and 8) as  
the parameter for your own initial settings (default settings).  
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5. Monitoring the operation status  
Refer to 4.1 about flow of monitor.  
5.1  
Status monitor mode  
5.1.1 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:  
Press the  
key twice.  
MODE  
Setting procedure (eg. operation at 60Hz)  
Key  
operated  
LED  
display  
Communic  
ation No.  
Item displayed  
Description  
5
The operation frequency is displayed (Operation at  
60Hz). (When standard monitor display selection  
Hꢃꢄꢁ is set at 0 [operation frequency])  
The first basic parameter “CWJ” (history function)  
is displayed.  
The direction of rotation is displayed.  
(HTꢅH: forward run, HTꢅT: reverse run)  
The operation frequency command value (Hz/free  
unit) is displayed.  
ꢀꢁꢂ.ꢁ  
Parameter setting  
mode  
Direction of  
rotation  
Operation  
frequency  
command  
CWJ  
MODE  
MODE  
HTꢅH  
FE01  
FE02  
Note 1  
Note 2  
Hꢀꢁꢂꢁ  
The inverter output current (load current) (%/A) is  
displayed.  
Load current  
Eꢆꢇꢁ  
[ꢄꢁꢁ  
Rꢄꢁꢁ  
SꢆꢀQ  
Yꢆꢈꢁ  
Nꢆꢃꢁ  
Tꢆꢉꢁ  
kꢆꢇꢁ  
Jꢆꢃꢉ  
Zꢀꢁꢂꢁ  
FE03  
FE04  
FE05  
FE18  
FE20  
FE27  
FE25  
FE29  
FE30  
FD00  
Note 3 Input voltage  
Output voltage  
Torque  
The inverter input (DC) voltage (%/V) is displayed.  
The inverter output voltage (%/V) is displayed.  
The torque (%) is displayed.  
Torque current  
Inverter load factor  
The torque current (%/A) is displayed.  
The inverter load factor (%) is displayed.  
PBR cumulative  
load factor  
The cumulative load factor of the braking resistor  
(%) is displayed.  
Input power  
The inverter input power (kW) is displayed.  
The inverter output power (kW) is displayed.  
Output power  
Operation  
frequency  
The operation frequency (Hz/free unit) is  
displayed.  
(Continued overleaf)  
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(Continued)  
Item displayed  
Key  
operated  
LED  
display  
Communic  
ation No.  
Description  
The ON/OFF status of each of the control signal  
input terminals (F, R, RES, S1, S2, S3, VIB and  
VIA) is displayed in bits.  
ON: ꢄ  
OFF: _  
}}}ii}ii  
}}}ii}ii  
Input terminal  
FE06  
Note 4  
F
VIA  
VIB  
S3  
R
RES  
S1  
S2  
The ON/OFF status of each of the control signal  
output terminals (RY, OUT and FL) is displayed in  
bits.  
5
ON: ꢄ  
0 }ii  
Note 5  
Output terminal  
0}ii  
FE07  
OFF: _  
FL  
RY-RC  
OUT-NO  
CPU1 version  
CPU2 version  
Memory version  
PID feedback  
Xꢄꢁꢄ  
XYꢁꢄ  
XGꢁꢄ  
Fꢆꢉꢁ  
FE08  
FE73  
FE09  
FE22  
The version of the CPU1 is displayed.  
The version of the CPU2 is displayed.  
The version of the memory mounted is displayed.  
The PID feedback value is displayed. (Hz / free  
unit)  
Frequency  
command value  
(PID-computed)  
The PID-computed frequency command value is  
displayed. (Hz / free unit)  
Dꢆꢃꢁ  
FE15  
The integrated amount of power (kWh) supplied to  
the inverter is displayed.  
(0.01=1kWh, 1.00=100kWh)  
The integrated amount of power (kWh) supplied  
from the inverter is displayed.  
(0.01=1kWh, 1.00=100kWh)  
Integral input  
power  
Note 6  
Note 6  
kꢆꢇꢉ  
FE76  
FE77  
Integral output  
power  
Jꢆꢃꢉ  
Rated current  
Cꢄꢊꢉ  
QEꢋ ꢄ  
QJ ꢌ  
FE70  
FE10  
FE11  
FE12  
The rated current of the inverter (A) is displayed.  
Past trip 1 (displayed alternately)  
Note 7 Past trip 1  
Note 7  
Note 7  
Past trip 2  
Past trip 2 (displayed alternately)  
Past trip 3  
Past trip 3 (displayed alternately)  
QRꢋ ꢋ  
(Continued overleaf)  
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E6581160  
(Continued)  
Item displayed  
Key  
operated  
LED  
display  
Communic  
ation No.  
Description  
Note 7  
Note 8  
Past trip 4  
FE13  
FE79  
FE14  
Past trip 4 (displayed alternately)  
PGTT ꢍ  
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: ꢄ  
OFF: _  
Parts replacement  
alarm information  
m }}}i  
m  }}}i  
Cooling fan  
Cumulative  
Control circuit board capacitor  
Main circuit capacitor  
operation time  
5
Cumulative  
operation time  
Default display  
mode  
The cumulative operation time is displayed.  
(0.01=1 hour, 1.00=100 hours)  
The operation frequency is displayed (Operation at  
60Hz).  
Vꢁꢂꢄꢁ  
ꢀꢁꢂꢁ  
Note 9  
MODE  
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E6581160  
key  
5.1.2 Display of detailed information on a past trip  
Details on a past trip (of trips 1 to 4) can be displayed, as shown in the table below, by pressing the  
when the trip record is selected in the status monitor mode.  
Unlike the "Display of detailed trip information at the occurrence of a trip" in 5.2.2, details on a past trip can be  
displayed, even after the inverter is turned off or reset.  
Key  
operated  
Item displayed  
Past trip 1  
LED display  
Description  
Note 11  
Note 1  
Past trip 1 (displayed alternately)  
QEꢄꢄ  
Pꢆꢌ  
The number of time the same trip occurred in succession is  
displayed. (Unit: times)  
Continuous trips  
Operation  
frequency  
Direction of  
rotation  
Operation  
frequency  
command  
The operation frequency when the trip occurred is  
displayed.  
The direction of rotation when the trip occurred is displayed.  
(HTꢅH: Forward run, HTꢅT: Reverse run)  
The operation command value when the trip occurred is  
displayed.  
Z6ꢎꢁ  
HTꢅH  
5
Hꢇꢎꢁ  
The inverter output current when the trip occurred is  
displayed. (%/A)  
The inverter input voltage (DC) when the trip occurred is  
displayed. (%/V).  
The inverter output voltage when the trip occurred is  
displayed. (%/V)  
Note 2  
Note 3  
Eꢄꢉꢁ  
[ꢄꢌꢁ  
Rꢄꢁꢁ  
Load current  
Input voltage  
Output voltage  
The ON/OFF statuses of the control input terminals (F, R,  
RES, S1, S2, S3, VIB and VIA) are displayed in bits.  
ON: ꢄ  
OFF: _  
}}}ii}ii  
Note 4 Input terminal  
}}}ii}ii  
VIA  
VIB  
S3  
F
R
RES  
S1  
S2  
The ON/OFF statuses of the control output terminals (RY,  
OUT and FL) are displayed in bits.  
ON: ꢄ  
OFF: _  
0
}ii  
Note 5  
Note 9  
Output terminal  
0}ii  
FL  
RY-RC  
OUT-NO  
The cumulative operation time when the trip occurred is  
displayed.  
(0.01=1 hour, 1.00=100 hours)  
Cumulative  
operation time  
Vꢏꢉꢀ  
Past trip 1  
Press this key to return to past trip 1.  
QEꢄꢆꢄ  
MODE  
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E6581160  
5.2  
Display of trip information  
5.2.1 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 the kinds of causes that can be indicated in the event of a trip, see section 9.1.  
5.2.2 Display of trip information at the occurrence of a trip  
At the occurrence of a trip, the same information as that displayed in the mode described in 5.1.1, "Status monitor  
under normal conditions," can be displayed, as shown in the table below, if the inverter is not turned off or reset.  
To display trip information after turning off or resetting the inverter, follow the steps described in 5.1.2, "Display of  
detailed information on a past trip."  
Example of call-up of trip information  
Key  
operated  
LED  
display  
Communic  
ation No.  
Item displayed  
Description  
5
Status monitor mode (The code blinks if a trip  
occurs.)  
The motor coasts and comes to a stop (coast stop).  
The first basic parameter “CWJ” (history function)  
is displayed.  
The direction of rotation at the occurence of a trip  
is displayed. (HTꢅH: forward run, HTꢅT:  
reverser run).  
The operation frequency command value (Hz/free  
unit) at the occurrence of a trip is displayed.  
Cause of trip  
QRꢌ  
CWJ  
HT-H  
Parameter setting  
mode  
MODE  
MODE  
Direction of  
rotation  
FE01  
FE02  
Operation  
frequency  
command  
Note 1  
Note 2  
Hꢀꢁꢂꢁ  
The output power of the inverter at the occurrence  
of a trip (%/A) is displayed.  
The inverter input (DC) voltage (%/V) at the  
occurrence of a trip is displayed.  
The output voltage of the inverter at the  
occurrence of a trip (%/V) is displayed.  
The torque at the occurrence of a trip (%) is  
displayed.  
The torque current (%/A) at the occurrence of a  
trip is displayed.  
The inverter load factor (%) at the occurrence of a  
trip is displayed.  
The cumulative load factor (%) of the resistor at  
the occurrence of a trip is displayed.  
The inverter input power (kW) at the occurrence of  
a trip is displayed.  
The inverter output power (kW) at the occurrence  
of a trip is displayed.  
The inverter output frequency (Hz/free unit) at the  
occurrence of a trip is displayed.  
Load current  
Eꢄꢋꢁ  
[ꢄꢍꢄ  
Rꢄꢁꢁ  
SꢆꢀQ  
Yꢆꢈꢁ  
Nꢆꢃꢁ  
Tꢆꢉꢁ  
kꢆꢇꢁ  
Jꢆꢃꢉ  
Zꢀꢁꢂꢁ  
FE03  
FE04  
FE05  
FE18  
FE20  
FE27  
FE25  
FE29  
FE30  
FE00  
Note 3 Input voltage  
Output voltage  
Torque  
Torque current  
Inverter load factor  
PBR cumulative  
load factor  
Input power  
Output power  
Operation  
frequency  
(Continued overleaf)  
40  
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E6581160  
(Continued)  
Item displayed  
Key  
operated  
LED  
display  
Communic  
ation No.  
Description  
The ON/OFF statuses of the control input  
terminals (F, R, RES, S1, S2, S3, VIB and VIA) are  
displayed in bits.  
}}}ii}ii  
ON: ꢄ  
}}}ii}ii  
FE06  
OFF: _  
Note 4 Input terminal  
VIA  
VIB  
S3  
F
R
RES  
S1  
S2  
The ON/OFF status of each of the control signal  
output terminals (RY, OUT and FL) at the  
occurrence of a trip is displayed in bits.  
5
0
}ii  
Note 5 Output terminal  
0}ii  
FE07  
ON: ꢄ  
OFF: _  
FL  
RY-RC  
OUT-NO  
CPU1 version  
CPU2 version  
Memory version  
PID feedback  
Xꢄꢁꢄ  
XYꢁꢄ  
XGꢁꢄ  
Fꢆꢉꢁ  
FE08  
FE73  
FE09  
FE22  
The version of the CPU1 is displayed.  
The version of the CPU2 is displayed.  
The version of the memory mounted is displayed.  
The PID feedback value at the occurrence of a trip  
is displayed. (Hz / free unit)  
Frequency  
command value  
(PID-computed)  
The PID-computed frequency command value at  
the occurrence of a trip is displayed. (Hz / free  
unit)  
The integrated amount of power (kWh) supplied to  
the inverter is displayed.  
(0.01=1kWh, 1.00=100kWh)  
The integrated amount of power (kWh) supplied  
from the inverter is displayed.  
Dꢆꢃꢁ  
kꢆꢇꢉ  
Jꢆꢃꢉ  
FE15  
FE76  
FE77  
Integral input  
power  
Integral output  
power  
(0.01=1kWh, 1.00=100kWh)  
The inverter rated current (A) at the occurrence of  
a trip is displayed.  
Rated current  
Note 7 Past trip 1  
Note 7 Past trip 2  
Cꢄꢊꢉ  
QRꢌ ꢄ  
QJ ꢌ  
FE70  
FE10  
FE11  
FE12  
FE13  
Past trip 1 (displayed alternately)  
Past trip 2 (displayed alternately)  
Past trip 3 (displayed alternately)  
Past trip 4 (displayed alternately)  
Past trip 3  
QRꢋ ꢋ  
PGTT ꢍ  
Note 7  
Note 7  
Past trip 4  
(Continued overleaf)  
41  
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E6581160  
(Continued)  
Item displayed  
Key  
operated  
LED  
display  
Communic  
ation No.  
Description  
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: ꢄ  
OFF: _  
Note 8  
Parts replacement  
alarm information  
m }}}i  
FE79  
FE14  
m  }}}i  
Cooling fan  
Cumulative  
operation time  
Control circuit board capacitor  
Main circuit capacitor  
Cumulative  
operation time  
Default display  
mode  
The cumulative operation time is displayed.  
(0.01=1 hour, 1.00=100 hours)  
Note 9  
Vꢁꢂꢄꢁ  
QRꢌ  
5
The cause of the trip is displayed.  
MODE  
Note 1: Items displayed can be changed by pressing  
or  
key in the each monitor mode.  
Note 2: You can switch between % and A (ampere)/V (volt), using the parameter Hꢃꢁꢄ (current/voltage unit  
selection).  
Note 3: The input (DC) voltage displayed is 1  
times as large as the rectified d.c. input voltage.  
2
Note 4: The number of bars displayed varies depending on the setting of Hꢄꢁꢈ (analog input/logic input  
function selection). The bar representing VIA or VIB is displayed only when the logic input function is  
assigned to the VIA or VIB terminal, respectively.  
If Hꢄꢁꢈ = 0: Neither the bar representing VIA nor the bar representing VIB is displayed.  
If Hꢄꢁꢈ = 1or 2: The bar representing VIA is not displayed.  
The bar representing VIB is displayed.  
If Hꢄꢁꢈ = 3or 4: Both the bar representing VIA and VIB are displayed.  
Note 5: The number of bars displayed varies depending on the setting of Hꢀꢀꢈ (logic output/pulse train output  
selection). The bar representing the OUT-NO terminal is displayed only when logic output function is  
assigned to it.  
If Hꢀꢀꢈ = 0: The bar representing OUT-NO is displayed.  
If Hꢀꢀꢈ = 1: The bar representing OUT-NO is not displayed.  
Note 6: The integrated amounts of input and output power will be reset to zero, if you press and hold down the  
key for 3 seconds or more when power is off or when the input terminal function CKWH (input  
terminal function: 51) is turned on or displayed.  
Note 7: Past trip records are displayed in the following sequence: 1 (latest trip record) 234 (oldest trip  
record). If no trip occurred in the past, the message “PGTT” will be displayed. Details on past trip  
record 1, 2, 3 or 4 can be displayed by pressing the  
more information, see 5.1.2.  
key when past trip 1, 2, 3 or 4 is displayed. For  
Note 8: Parts replacement alarm is displayed based on the value calculated from the annual average ambient  
temperature, the ON time of the inverter, the operating time of the motor and the output current ( load  
factor) specified using Hꢀꢋꢍ. Use this alarm as a guide only, since it is based on a rough estimation.  
42  
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E6581160  
Note 9: The cumulative operation time increments only when the machine is in operation.  
Note 10: At the occurrence of a trip, maximum values are not always recorded and displayed for reasons of  
detecting time.  
Note 11: If there is no trip record, nerris displayed.  
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 reference value (100% value) is  
the rated output current indicated on the nameplate. That is, it  
corresponds to the rated current at the time when the PWM carrier  
frequency (f300) is 4kHz or less. 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. The reference value  
(100% value) is 200 volts for 240V models, 400 volts for 500V models or  
575 volts for 600V models. The unit can be switched to V (volts).  
The torque generated by the drive motor is displayed. The reference value  
(100% value) is the rated torque of the motor.  
5
Torque:  
Torque current:  
The current required to generate torque is calculated from the load current  
by vector operations. The value thus calculated is displayed. The  
reference value (100% value) is the value at the time when the load  
current is 100%.  
Load factor of inverter:  
Depending on the PWM carrier frequency (f300) setting and so on, the  
actual rated current may become smaller than the rated output current  
indicated on the nameplate. With the actual rated current at that time (after  
a reduction) as 100%, the proportion of the load current to the rated  
current is indicated in percent. The load factor is also used to calculate the  
conditions for overload trip (QNꢄ).  
PBR cumulative load factor: The load factor of the braking resistor that may come up to the level at  
which an overload trip (QNT) occurs is indicated in percent. An overload  
trip occurs when it reaches 100%.  
43  
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E6581160  
6. Measures to satisfy the standards  
6.1  
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,  
make 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. However, the CE mark must be put on all inverters because they are subject to the low-voltage  
directive.  
The CE mark must be put on all machines and systems with built-in inverters because such machines and  
systems are subject to the above directives. It is the responsibility of the manufacturers of such final products to  
put the CE mark on each one. If they are "final" products, they might also be subject to machine-related  
directives.  
It is the responsibility of the manufacturers of such final products to put the CE mark on each one. In order to  
make machines and systems with built-in inverters compliant with the EMC directive and the low-voltage  
directive, this section explains how to install inverters and what measures should be taken to satisfy the EMC  
directive.  
6
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 connected. In other words, the  
application of the EMC directive varies depending on the composition of the control panel with a built-in  
inverter(s), the relationship with other built-in electrical components, the wiring condition, the layout condition, and  
so on. Therefore, please verify yourself whether your machine or system conforms to the EMC directive.  
6.1.1 About the EMC directive  
Inverters themselves are not subject to approval for CE marking.  
The CE mark must be put on every final product that includes an inverter(s) and a motor(s). The VF-S11 series of  
inverters complies with the EMC directive if an EMI filter recommended by Toshiba is connected to it and wiring is  
carried out correctly.  
Q
EMC directive 89/336/EEC  
The EMC standards are broadly divided into two categories; immunity- and emission-related standards, each of  
which is further categorized according to the operating environment of each individual machine. Since inverters  
are intended for use with industrial systems under industrial environments, they fall within the EMC categories  
listed in Table 1 below. The tests required for machines and systems as final products are almost the same as  
those required for inverters.  
44  
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E6581160  
Table 1 EMC standards  
Product  
Category  
Emission  
Subcategory  
Test standard and level  
standards  
Radiation noise  
Transmission noise  
Static discharge  
EN55011 Class A Group 1  
EN55011 Class A Group 1  
IEC61000-4-2  
Radioactive radio-frequency  
magnetic contactor field  
First transient burst  
Lightning surge  
Radio-frequency  
IEC61000-4-3  
IEC 61800-3  
IEC61000-4-4  
IEC61000-4-5  
IEC61000-4-6  
Immunity  
induction/transmission interference  
Voltage dip/Interruption of power  
IEC61000-4-11  
Emission standards other than the above are applied to inverters when used in a commercial environment but not  
an industrial environment.  
Product  
standards  
Category  
Emission  
Subcategory  
Test standard and level  
EN55011 Class B Group 1  
EN55011 Class B Group 1  
Radiation noise  
Transmission noise  
6
IEC 61800-3  
6.1.2 Measures to satisfy the EMC directive  
This subsection explains what measures must be taken to satisfy the EMC directive.  
(1) Insert a recommended EMI filter (Table 2) on the input side of the inverter to reduce and transmission noise  
and radiation noise from input cables.  
In the combinations listed in Table 2, Inverters are tested in these combination to see if they comply with  
transmission noise standards. For inverters used in Japan, it is recommended to use the NF series of noise  
filters.  
Table 2 lists noise filters recommended for the inverters.  
Table 2 Combinations of inverter and EMI filter  
Three-phase 240V class  
Combination of inverter and filter  
Inverter  
Transmission noise  
EN55011 Class A Group 1  
Applicable filters  
Transmission noise  
EN55011 Class B Group 1  
Applicable filters  
(Length of motor connecting cable:  
Max. 5 m)  
(Length of motor connecting cable:  
Max. 1 m)  
VFS11-2002PM  
VFS11-2004PM  
VFS11-2005PM  
VFS11-2007PM  
VFS11-2015PM  
VFS11-2022PM  
VFS11-2037PM  
VFS11-2055PM  
VFS11-2075PM  
VFS11-2110PM  
VFS11-2150PM  
EMFS11-2007AZ  
EMFS11-2007AZ  
EMFS11-2007AZ  
EMFS11-2007AZ  
EMFS11-4015BZ  
EMFS11-4015BZ  
EMFS11-4025CZ  
EMFS11-4047DZ  
EMFS11-4047DZ  
EMFS11-2083EZ  
EMFS11-2083EZ  
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E6581160  
Three-phase 500V class  
Combination of inverter and filter  
Transmission noise  
Inverter  
Transmission noise  
Transmission noise  
EN55011 Class A Group 1  
Applicable filters  
EN55011 Class B Group 1  
Applicable filters  
EN55011 Class A Group 1  
Applicable filters  
(Length of motor connecting cable:  
Max. 5 m)  
(Length of motor connecting cable:  
Max. 20 m)  
(Length of motor connecting cable:  
Max. 50 m)  
VFS11-4004PL  
VFS11-4007PL  
VFS11-4015PL  
VFS11-4022PL  
VFS11-4037PL  
VFS11-4055PL  
VFS11-4075PL  
VFS11-4110PL  
VFS11-4150PL  
With a built-in filter  
With a built-in filter  
With a built-in filter  
With a built-in filter  
With a built-in filter  
With a built-in filter  
With a built-in filter  
With a built-in filter  
With a built-in filter  
EMFS11-4015BZ  
EMFS11-4015BZ  
EMFS11-4015BZ  
EMFS11-4025CZ  
EMFS11-4025CZ  
EMFS11-4047DZ  
EMFS11-4047DZ  
EMFS11-4049EZ  
EMFS11-4049EZ  
Single-phase 240V class  
Combination of inverter and filter  
Transmission noise  
Inverter  
Transmission noise  
Transmission noise  
EN55011 Class A Group 1  
Applicable filters  
EN55011 Class A Group 1  
Applicable filters  
EN55011 Class B Group 1  
Applicable filters  
(Length of motor connecting cable:  
Max. 5 m)  
(Length of motor connecting cable:  
Max. 20 m)  
(Length of motor connecting cable:  
Max. 50 m)  
VFS11S-2002PL  
VFS11S-2004PL  
VFS11S-2007PL  
VFS11S-2015PL  
VFS11S-2022PL  
With a built-in filter  
With a built-in filter  
With a built-in filter  
With a built-in filter  
EMFS11S-2009AZ  
6
EMFS11S-2009AZ  
EMFS11S-2009AZ  
EMFS11S-2016BZ  
EMFS11S-2022CZ  
With a built-in filter  
Note : For 600V models compliant with EU standards, contact your nearest Toshiba inverter distributor.  
(2) Use shielded power cables, such as inverter output cables, and shielded control cables. Route the cables  
and wires so as to minimize their lengths. Keep a distance between the power cable and 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) Install the inverter and the filter on the same metal plate. 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 cable and the power cable.  
(4) Route the EMI filter input and output wires apart from each other.  
(5) To suppress radiation noise from cables, ground all shielded cables through a noise cut plate.  
It is effective to earth shielded cables in the vicinity of the inverter, cabinet and filter (within a radius of 10cm  
from each of them). Inserting a ferrite core in a shielded cable is even more effective in limiting the radiation  
noise.  
(6) To further limit the radiation noise, insert a zero-phase reactor in the inverter output line and insert ferrite  
cores in the earth cables of the metal plate and cabinet.  
46  
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E6581160  
[Example of wiring]  
VF-S11  
EMC plate  
(Note 1)  
FL relay wiring  
To relay  
6
Grounding terminal screw  
Power supply wiring  
Control wiring (Shielded cables)  
Motor wiring (Shielded cables)  
Braking resistor wiring (Shielded cables)  
Note 1: Strip and earth the shielded cable, following the example shown in Fig.  
Shielded cable  
Strip the cable and fix it to the metal plate by means  
of a metal saddle for electrical work or equivalent.  
6.1.3 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.  
Applicable standard: EN50178  
Electronic equipment for use in power installations  
Electronic equipment for use in power installations  
Pollution level: 2 (5.2.15.2)  
Overvoltage category: 3  
240V class - 3.0mm (5.2.16.1)  
500V class - 5.5mm (5.2.16.1)  
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E6581160  
EN 50178 applies to electrical equipment intended specially for use in power installations, and sets out the  
conditions to be observed for electric shock prevention when designing, testing, manufacturing and installing  
electronic equipment for use in power installations.  
6.1.4 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.  
(1) 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.  
(2) Do not connect two or more wires to the main circuit earth terminal of the inverter. If necessary, install an  
additional earth terminal on the metal plate on which the inverter is installed and connect another cable to it.  
Or install the EMC plate (attached as standard) and another cable connect to earth terminal on the EMC  
plate. Refer to the table 10.1 for earth cable sizes.  
(3) Install a non-fuse circuit breaker or a fuse on the input side of the inverter.  
6
6.2  
Compliance with UL Standard and CSA Standard  
The VF-S11 models, that conform to the UL Standard and CSA Standard have the UL/CSA mark on the  
nameplate.  
6.2.1 Compliance with Installation  
The VF-S11 inverter must be installed in a panel, and used within the ambient temperature specification. (See  
section 1.4.4)  
6.2.2 Compliance with Connection  
Use the UL conformed cables (Rating 75 °C or more) to the main circuit terminals (R/L1, S/L2, T/L3, U/T1, V/T2,  
W/T3, PA/+, PB, PC/-, PO).  
Refer to the table of next page about wire sizes.  
6.2.3 Compliance with Peripheral devices  
Use the UL listed fuses at connecting to power supply.  
Short circuit test is performed under the condition of the power supply short-circuit currents in below.  
These interrupting capacities and fuse rating currents depend on the applicable motor capacities.  
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Q AIC, Fuse and Wire sizes  
Capacity of  
applicable motor  
(kW)  
Voltage  
class  
AIC (A)  
(Interrupting capacity)  
Fuse class and current  
(A)  
Wire sizes of  
power circuit  
Inverter model  
0.2  
0.4  
VFS11S-2002PL  
VFS11S-2004PL  
VFS11S-2007PL  
VFS11S-2015PL  
VFS11S-2022PL  
AIC 1000A  
AIC 1000A  
AIC 1000A  
AIC 1000A  
AIC 1000A  
CC/J 6A max.  
CC/J 10A max.  
CC/J 15A max.  
CC/J 20A max.  
CC/J 30A max.  
AWG 14  
AWG 14  
AWG 14  
AWG 12  
AWG 10  
Single-phase  
240V class  
0.75  
1.5  
2.2  
0.4  
0.55  
0.75  
1.5  
2.2  
4.0  
5.5  
7.5  
11  
VFS11-2004PM  
VFS11-2005PM  
VFS11-2007PM  
VFS11-2015PM  
VFS11-2022PM  
VFS11-2037PM  
VFS11-2055PM  
VFS11-2075PM  
VFS11-2110PM  
VFS11-2150PM  
AIC 5000A  
AIC 5000A  
AIC 5000A  
AIC 5000A  
AIC 5000A  
AIC 5000A  
AIC 22000A  
AIC 22000A  
AIC 22000A  
AIC 22000A  
CC/J 6A max.  
CC/J 10A max.  
CC/J 10A max.  
CC/J 15A max.  
CC/J 20A max.  
J 35A max.  
AWG 14  
AWG 14  
AWG 14  
AWG 14  
AWG 12  
AWG 10  
AWG 8  
Three-phase  
240V class  
J 50A max.  
6
J 60A max.  
AWG 6  
J 80A max.  
AWG 4  
15  
J 110A max.  
AWG 6x2  
0.4  
0.75  
1.5  
2.2  
4.0  
5.5  
7.5  
11  
VFS11-4004PL  
VFS11-4007PL  
VFS11-4015PL  
VFS11-4022PL  
VFS11-4037PL  
VFS11-4055PL  
VFS11-4075PL  
VFS11-4110PL  
VFS11-4150PL  
AIC 5000A  
AIC 5000A  
AIC 5000A  
AIC 5000A  
AIC 5000A  
AIC 22000A  
AIC 22000A  
AIC 22000A  
AIC 22000A  
CC/J 3A max.  
CC/J 6A max.  
CC/J 10A max.  
CC/J 15A max.  
CC/J 20A max.  
CC/J 30A max.  
J 35A max.  
AWG 14  
AWG 14  
AWG 14  
AWG 14  
AWG 12  
AWG 10  
AWG 8  
Three-phase  
500V class  
J 50A max.  
AWG 8  
15  
J 70A max.  
AWG 6  
0.75  
1.5  
2.2  
4.0  
5.5  
7.5  
11  
VFS11-6007P  
VFS11-6015P  
VFS11-6022P  
VFS11-6037P  
VFS11-6055P  
VFS11-6075P  
VFS11-6110P  
VFS11-6150P  
AIC 5000A  
AIC 5000A  
AIC 5000A  
AIC 5000A  
AIC 22000A  
AIC 22000A  
AIC 22000A  
AIC 22000A  
CC/J 6A max.  
CC/J 6A max.  
CC/J 10A max.  
CC/J 15A max.  
CC/J 20A max.  
CC/J 25A max.  
J 30A max.  
AWG 14  
AWG 14  
AWG 14  
AWG 14  
AWG 10  
AWG 10  
AWG 8  
Three-phase  
600V class  
15  
J 45A max.  
AWG 8  
6.2.4 Motor thermal protection  
Selects the electronic thermal protection characteristics that fit with the ratings and characteristics of the motor. In  
case of multi motor operation with one inverter, thermal relay should be connected to each motor.  
49  
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E6581160  
7. Table of parameters and data  
For details on the function of each parameter, refer to the full version of English manual (E6581158).  
7.1  
User parameters  
Minimum  
setting unit  
Panel/Comm  
unication  
User  
setting  
Reference  
E6581158  
Title  
Function  
Unit  
Hz  
Adjustment range  
Default setting  
0.0  
Operation  
0.1/0.01  
NN-WN  
3.2  
HE  
frequency of  
operation panel  
7.2  
Basic parameters  
Four navigation functions  
Minimum  
Communication  
No.  
setting unit  
Panel/Commun  
ication  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
-
Adjustment range  
setting E6581158  
-
History function  
-
Displays parameters in groups of five  
in the reverse order to that in which  
their settings were changed.  
* (Possible to edit)  
-
4.1.4  
7
CWJ  
0000  
0001  
Automatic  
-
-
-
-
0: Disabled (manual)  
1: Automatic  
2: Automatic (only at acceleration)  
0: Disabled  
1: Automatic torque boost + auto-  
tuning  
0
0
5.1.1  
5.2  
CWꢀ  
CWꢁ  
acceleration/  
deceleration  
Torque boost  
setting macro  
function  
2: Vector control + auto-tuning  
3: Energy saving + auto-tuning  
0: Disabled  
0040  
Parameter setting  
macro function  
-
-
0
5.3  
CWꢂ  
1: Coast stop  
2: 3-wire operation  
3: External input UP/DOWN setting  
4: 4-20 mA current input operation  
Basic parameters  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
Adjustment range  
setting E6581158  
0003  
0004  
Command mode  
selection  
Frequency setting  
mode selection 1  
-
-
-
0: Terminal board  
1
0
5.4  
7.2  
5.4  
6.5.1  
7.1  
EOQF  
HOQF  
1: Operation panel  
0: Built-in potentiometer  
1: VIA  
-
2: VIB  
3: Operation panel  
4: Serial communication  
5: UP/DOWN from external contact  
6: VIA + VIB (Override)  
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E6581160  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
-
Adjustment range  
setting E6581158  
0005  
Meter selection  
-
0: Output frequency  
0
5.5  
HOUN  
1: Output current  
2: Set frequency  
3: DC voltage  
4: Output voltage command value  
5: Input power  
6: Output power  
7: Torque  
8: Torque current  
9: Motor cumulative load factor  
10: Inverter cumulative load factor  
11: PBR (braking reactor) cumulative  
load factor  
12: Frequency setting value (after  
PID)  
13: VIA Input value  
14: VIB Input value  
15: Fixed output 1 (Output current:  
100%)  
16: Fixed output 2 (Output current:  
50%)  
17: Fixed output 3 (Other than the  
output current: 100%)  
18: Serial communication data  
19: For adjustments (HO set value is  
displayed.)  
0006  
0007  
Meter adjustment  
Default setting  
-
-
-
-
-
-
5.5  
HO  
7
0: -  
0
4.2.6  
4.2.7  
5.6  
V[R  
1: 50Hz default setting  
2: 60Hz default setting  
3: Default setting (Initialization)  
4: Trip record clear  
5: Cumulative operation time clear  
6: Initialization of type information  
7: Save user-setting parameters  
8. Load user-setting parameters  
9. Cumulative fan operation time  
record clears  
0008  
Forward/reverse  
run selection  
-
-
0: Forward run  
1: Reverse run  
0
5.7  
HT  
(Operation panel)  
2: Forward run (F/R switching  
possible)  
3: Reverse run (F/R switching  
possible)  
0009  
0010  
0011  
0012  
Acceleration time  
1
Deceleration time  
1
Maximum  
frequency  
Upper limit  
frequency  
S
S
0.1/0.1  
0.1/0.1  
0.0-3200  
10.0  
10.0  
80.0  
5.1.2  
5.1.2  
5.8  
CEE  
FGE  
HJ  
0.0-3200  
Hz  
Hz  
0.1/0.01  
0.1/0.01  
30.0-500.0  
0.5- HJ  
50.0 (WP)  
60.0  
5.9  
WN  
(WN, AN)  
0013  
0014  
Lower limit  
frequency  
Base frequency 1  
Hz  
Hz  
0.1/0.01  
0.1/0.01  
0.0- WN  
0.0  
5.9  
NN  
XN  
25-500.0  
50.0 (WP)  
60.0  
5.10  
(WN, AN)  
0409  
Base frequency  
voltage 1  
V
1/0.1  
50-330 (240V class)  
50-660 (500/600V class)  
*3  
5.10  
6.13.6  
XNX  
*3 : 230 (240V class), 460 (500V class), 575V (600V class)  
51  
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E6581160  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
-
Adjustment range  
setting E6581158  
0015  
V/F control mode  
selection  
-
0: V/F constant  
1: Variable torque  
2
5.11  
RV  
2: Automatic torque boost control  
3: Vector control  
4: Energy-saving  
5: Dynamic energy-saving  
(for fans and pumps)  
6: PM motor control  
0.0-30.0  
0016  
0600  
Torque boost  
value 1  
Motor electronic-  
thermal protection  
level 1  
Electronic-thermal  
protection  
characteristic  
%
0.1/0.1  
1/1  
* 1  
5.12  
XD  
%
(A)  
10-100  
100  
5.13  
6.19.1  
VJT  
Setting  
Overload protection OL stall  
0017  
-
-
0
5.13  
QNO  
0
1
2
3
4
5
6
7
{
{
×
×
{
Standard  
motor  
×
{
selection *2  
×
{
{
×
×
{
VF motor  
×
{
×
0018  
0019  
0020  
0021  
0022  
0023  
0024  
Preset-speed  
operation  
frequency 1  
Preset-speed  
operation  
frequency 2  
Preset-speed  
operation  
frequency 3  
Preset-speed  
operation  
frequency 4  
Preset-speed  
operation  
frequency 5  
Preset-speed  
operation  
frequency 6  
Preset-speed  
operation  
Hz  
Hz  
Hz  
Hz  
Hz  
Hz  
Hz  
0.1/0.01  
0.1/0.01  
0.1/0.01  
0.1/0.01  
0.1/0.01  
0.1/0.01  
0.1/0.01  
NN-WN  
NN-WN  
NN-WN  
NN-WN  
NN-WN  
NN-WN  
NN-WN  
0.0  
0.0  
0.0  
0.0  
0.0  
0.0  
0.0  
5.14  
UTꢀ  
UTꢁ  
UTꢃ  
UTꢂ  
UTꢄ  
UTꢅ  
UTꢆ  
7
frequency 7  
-
-
Extended  
-
-
-
-
-
-
-
-
-
-
4.1.2  
4.1.3  
Hꢇꢇꢇ  
ITꢈW  
parameters  
Automatic edit  
function  
*1 : Default values vary depending on the capacity. See the table of the page 64.  
*2 : { : valid, × : invalid  
52  
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E6581160  
7.3  
Extended parameters  
Input/output parameters 1  
Minimum  
Communication  
No.  
setting unit  
Panel/Commun  
ication  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
Adjustment range  
setting E6581158  
0100  
0101  
0102  
0105  
Low-speed signal  
output frequency  
Speed reach  
setting frequency  
Speed reach  
detection band  
Priority selection  
(Both F-CC and  
R-CC are ON)  
Always active  
function selection 1  
Analog/contact  
input function  
Hz  
Hz  
Hz  
0.1/0.01  
0.1/0.01  
0.1/0.01  
0.0-HJ  
0.0-HJ  
0.0-HJ  
0.0  
0.0  
2.5  
1
6.1.1  
6.1.3  
6.1.2  
6.2.1  
Hꢀꢉꢉ  
Hꢀꢉꢀ  
Hꢀꢉꢁ  
Hꢀꢉꢄ  
0: Reverse  
1: Slowdown Stop  
-
-
0108  
0109  
-
0-65 (No function)  
0
0
6.3.1  
6.2.2  
Hꢀꢉꢊ  
Hꢀꢉꢋ  
-
-
0: Analog input for communications  
VIB - analog input  
1: VIA - analog input  
VIB - contact input (Sink)  
2: VIA - analog input  
-
selection (VIA/VIB  
terminal)  
VIB - contact input (Source)  
3: VIA - contact input (Sink)  
VIB - contact input (Sink)  
4: VIA - contact input (Source)  
VIB - contact input (Source)  
0-65 (ST)  
7
0110  
0111  
0112  
0113  
0114  
0115  
0116  
0117  
Always-active  
function selection 2  
Input terminal  
selection 1 (F)  
Input terminal  
selection 2 (R)  
Input terminal  
selection 3 (RES)  
Input terminal  
selection 4 (S1)  
Input terminal  
selection 5 (S2)  
Input terminal  
selection 6 (S3)  
Input terminal  
selection 7 (VIB)  
Input terminal  
selection 8 (VIA)  
Output terminal  
selection 1A  
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
1
2
6.3.1  
6.3.2  
Hꢀꢀꢉ  
Hꢀꢀꢀ  
Hꢀꢀꢁ  
Hꢀꢀꢃ  
Hꢀꢀꢂ  
Hꢀꢀꢄ  
Hꢀꢀꢅ  
Hꢀꢀꢆ  
0-65 (F)  
0-65 (R)  
3
0-65 (RES)  
0-65 (SS1)  
0-65 (SS2)  
0-65 (SS3)  
5-17 (SS4)  
5-17 (AD2)  
0-255 (LOW)  
10  
6
7
8
9
5
0118  
-
-
Hꢀꢀꢊ  
4
6.3.3  
6.3.4  
0130  
0131  
-
-
-
-
Hꢀꢃꢉ  
Hꢀꢃꢀ  
(RY-RC)  
Output terminal  
selection 2A  
0-255 (RCH)  
6
(OUT-NO)  
0132  
0137  
Output terminal  
selection 3 (FL)  
Output terminal  
selection 1B  
-
-
-
-
0-255 (FL)  
10  
Hꢀꢃꢁ  
Hꢀꢃꢆ  
0-255 (always ON)  
255  
(RY-RC)  
0138  
Output terminal  
selection 2B  
-
-
0-255 (always ON)  
255  
Hꢀꢃꢊ  
(OUT-NO)  
53  
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E6581160  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
-
Adjustment range  
setting E6581158  
0139  
Output terminal  
logic selection  
(RY-RC, OUT-  
NO)  
-
0: Hꢀꢃꢉ and Hꢀꢃꢆ  
  Hꢀꢃꢀ and Hꢀꢃꢊ  
1: Hꢀꢃꢉ or Hꢀꢃꢆ  
  Hꢀꢃꢀ and Hꢀꢃꢊ  
2: Hꢀꢃꢉ and Hꢀꢃꢆ  
  Hꢀꢃꢀ or Hꢀꢃꢊ  
3: Hꢀꢃꢉ or Hꢀꢃꢆ  
  Hꢀꢃꢀ or Hꢀꢃꢊ  
0.0-HJ  
0
6.3.4  
Hꢀꢃꢋ  
0167  
0170  
Frequency  
command  
agreement  
detection range  
Hz  
Hz  
0.1/0.01  
0.1/0.01  
2.5  
6.3.5  
6.4.1  
Hꢀꢅꢆ  
Hꢀꢆꢉ  
Base frequency 2  
25.0-500.0  
50.0 (WP)  
60.0  
(WN, AN)  
0171  
0172  
0173  
Base frequency  
voltage 2  
Torque boost  
value 2  
Motor electronic-  
thermal protection  
level 2  
V
1/0.1  
0.1/0.1  
1/1  
50-330 (240V class)  
50-660 (500/600V class)  
0.0-30.0  
* 3  
Hꢀꢆꢀ  
Hꢀꢆꢁ  
Hꢀꢆꢃ  
%
* 1  
%
(A)  
10-100  
100  
5.13  
6.4.1  
0185  
Stall prevention  
level 2  
%
(A)  
1/1  
10-199,  
200 (disabled)  
150  
6.4.1  
6.19.2  
Hꢀꢊꢄ  
*1 : Default values vary depending on the capacity. See the table of page 64.  
*3 : 230 (240V class), 460 (500V class), 575 (600V class)  
7
Frequency parameters  
Minimum  
setting unit  
Panel/Commun  
ication  
Reference  
E6581158  
Communication  
No.  
Default  
setting  
User  
setting  
Title  
Function  
Unit  
-
Adjustment range  
0200  
Frequency priority  
selection  
-
0: HOQF (Switchable to Hꢁꢉꢆ by  
terminal input)  
0
6.5.1  
7.1  
Hꢁꢉꢉ  
1: HOQF (Switchable to Hꢁꢉꢆ at  
less than 1.0Hz of designated  
frequency)  
0201  
0202  
0203  
0204  
VIA input point 1  
setting  
VIA input point 1  
frequency  
VIA input point 2  
setting  
VIA input point 2  
frequency  
%
Hz  
%
1/1  
0-100  
0
6.5.2  
Hꢁꢉꢀ  
Hꢁꢉꢁ  
Hꢁꢉꢃ  
Hꢁꢉꢂ  
0.1/0.01  
1/1  
0.0-500.0  
0-100  
0.0  
100  
Hz  
0.1/0.01  
0.0-500.0  
50.0 (WP)  
60.0  
(WN, AN)  
0207  
Frequency setting  
mode  
selection 2  
-
-
0: Built-in potentiometer  
1: VIA  
2: VIB  
1
6.3.5  
6.5.1  
7.1  
Hꢁꢉꢆ  
3: Operation panel  
4: Serial communication  
5: UP/DOWN from external contact  
6: VIA + VIB (Override)  
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E6581160  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
Adjustment range  
setting E6581158  
0210  
0211  
0212  
0213  
VIB input point 1  
setting  
VIB input point 1  
frequency  
VIB input point 2  
setting  
VIB input point 2  
frequency  
%
Hz  
%
1/1  
0-100  
0
6.5.2  
Hꢁꢀꢉ  
Hꢁꢀꢀ  
Hꢁꢀꢁ  
Hꢁꢀꢃ  
0.1/0.01  
1/1  
0.0-500.0  
0-100  
0.0  
100  
Hz  
0.1/0.01  
0.0-500.0  
50.0 (WP)  
60.0  
(WN, AN)  
0240  
0241  
0242  
Starting frequency  
setting  
Operation starting  
frequency  
Operation starting  
frequency  
Hz  
Hz  
Hz  
0.1/0.01  
0.1/0.01  
0.1/0.01  
0.5-10.0  
0.0-HJ  
0.0-HJ  
0.5  
6.6.1  
6.6.2  
6.6.2  
Hꢁꢂꢉ  
Hꢁꢂꢀ  
Hꢁꢂꢁ  
0.0  
0.0  
hysteresis  
0250  
0251  
DC braking  
starting frequency  
DC braking  
Hz  
0.1/0.01  
1/1  
0.0-HJ  
0-100  
0.0  
50  
6.7.1  
Hꢁꢄꢉ  
Hꢁꢄꢀ  
%(A)  
current  
0252  
0254  
DC braking time  
s
-
0.1/0.1  
-
0.0-20.0  
1.0  
0
Hꢁꢄꢁ  
Hꢁꢄꢂ  
Motor shaft fixing  
control  
Time limit for  
lower-limit  
0: Disabled  
1: Enabled (after DC braking)  
0: Disabled  
0.1-600.0  
6.7.2  
6.8  
0256  
s
0.1/0.1  
0.0  
Hꢁꢄꢅ  
frequency  
operation  
Jog run frequency  
7
0260  
0261  
Hz  
-
0.1/0.01  
-
Hꢁꢂꢉ20.0  
5.0  
0
6.9  
Hꢁꢅꢉ  
Hꢁꢅꢀ  
Jog run stopping  
pattern  
0: Slowdown stop  
1: Coast stop  
2: DC braking  
0: Invalid  
1: Valid  
0.0-10.0  
0262  
0264  
Panel jog run  
operation mode  
Input from  
-
-
0
Hꢁꢅꢁ  
Hꢁꢅꢂ  
s
0.1/0.1  
0.1  
6.5.2  
external contacts -  
UP response time  
Input from  
external contacts -  
UP frequency step  
width  
0265  
0266  
0267  
Hz  
s
0.1/0.01  
0.1/0.1  
0.0-HJ  
0.0-10.0  
0.0-HJ  
NNꢇWN  
0.1  
0.1  
0.1  
Hꢁꢅꢄ  
Hꢁꢅꢅ  
Hꢁꢅꢆ  
Input from  
external contacts -  
DOWN response  
time  
Input from  
Hz  
0.1/0.01  
external contacts -  
DOWN frequency  
step width  
Initial value of  
UP/DOWN  
frequency  
Saving of changed  
value of  
0268  
0269  
Hz  
-
0.1/0.01  
-
0.0  
1
Hꢁꢅꢊ  
Hꢁꢅꢋ  
0: Not changed  
1: Setting of Hꢁꢅꢊ changed when  
power is turned off  
UP/DOWN  
frequency  
0270  
0271  
0272  
Jump frequency 1  
Hz  
Hz  
Hz  
0.1/0.01  
0.1/0.01  
0.1/0.01  
0.0-HJ  
0.0-30.0  
0.0-HJ  
0.0  
0.0  
0.0  
6.10  
Hꢁꢆꢉ  
Hꢁꢆꢀ  
Hꢁꢆꢁ  
Jumping width 1  
Jump frequency 2  
55  
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E6581160  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
Hz  
Adjustment range  
setting E6581158  
0273  
Jumping width 2  
0.1/0.01  
0.0-30.0  
0.0  
6.10  
Hꢁꢆꢃ  
0274  
0275  
0287  
Jump frequency 3  
Jumping width 3  
Hz  
Hz  
Hz  
0.1/0.01  
0.1/0.01  
0.1/0.01  
0.0-HJ  
0.0-30.0  
NN-WN  
0.0  
0.0  
0.0  
Hꢁꢆꢂ  
Hꢁꢆꢄ  
Hꢁꢊꢆ  
Preset-speed  
operation frequency  
8
5.14  
0288  
0289  
0290  
0291  
0292  
0293  
0294  
Preset-speed  
operation frequency  
9
Preset-speed  
operation frequency  
10  
Preset-speed  
operation frequency  
11  
Preset-speed  
operation frequency  
12  
Preset-speed  
operation frequency  
13  
Preset-speed  
operation frequency  
14  
Preset-speed  
operation frequency  
15  
Hz  
Hz  
Hz  
Hz  
Hz  
Hz  
Hz  
0.1/0.01  
0.1/0.01  
0.1/0.01  
0.1/0.01  
0.1/0.01  
0.1/0.01  
0.1/0.01  
NN-WN  
NN-WN  
NN-WN  
NN-WN  
NN-WN  
NN-WN  
NN-WN  
0.0  
0.0  
0.0  
0.0  
0.0  
0.0  
0.0  
Hꢁꢊꢊ  
Hꢁꢊꢋ  
Hꢁꢋꢉ  
Hꢁꢋꢀ  
Hꢁꢋꢁ  
Hꢁꢋꢃ  
Hꢁꢋꢂ  
5.14  
6.11.2  
7
(Fire-speed)  
Operation mode parameters  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
Adjustment range  
setting E6581158  
0300  
0301  
PWM carrier  
frequency  
Auto-restart  
control selection  
kHz  
-
0.1/0.1  
2.0 - 16.0  
12.0  
0
6.12  
Hꢃꢉꢉ  
Hꢃꢉꢀ  
-
0: Disabled  
1: At auto-restart after momentary  
stop  
6.13.1  
2: ST terminal on or off  
3: At auto-restart or when turning ST-  
CC on or off  
4: At start-up  
0302  
Regenerative  
power ride-  
through control  
(Deceleration  
stop)  
-
-
0: Disabled  
1: Automatic setting  
2: Slowdown stop  
0
6.13.2  
Hꢃꢉꢁ  
0303  
0304  
Retry selection  
(number of times)  
Dynamic braking  
selection  
Times  
-
1/1  
-
0: Disabled  
1-10  
0: Disabled  
1: Enabled (Resistor overload  
protection enabled)  
0: Enabled  
0
0
6.13.3  
6.13.4  
Hꢃꢉꢃ  
Hꢃꢉꢂ  
0305  
Overvoltage limit  
operation  
-
-
2
6.13.5  
Hꢃꢉꢄ  
1: Disabled  
(Slowdown stop  
mode selection)  
2: Enabled (Quick deceleration)  
3: Enabled (Dynamic quick  
deceleration)  
56  
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E6581160  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
-
Adjustment range  
setting E6581158  
0307  
Supply voltage  
correction  
(limitation of  
output voltage)  
-
0: Supply voltage uncorrected, output  
voltage limited  
1: Supply voltage corrected, output  
voltage limited  
2
6.13.6  
Hꢃꢉꢆ  
(WP, WN)  
3 (AN)  
2: Supply voltage uncorrected, output  
voltage unlimited  
3: Supply voltage corrected, output  
voltage unlimited  
0308  
0309  
0311  
Dynamic braking  
resistance  
Dynamic braking  
resistor capacity  
Reverse-run  
kW  
-
0.1/0.1  
0.01/0.01  
-
1.0-1000  
* 1  
* 1  
0
6.13.4  
6.13.4  
6.13.7  
Hꢃꢉꢊ  
Hꢃꢉꢋ  
Hꢃꢀꢀ  
0.01-30.00  
0: Forward/reverse run permitted  
1: Reverse run prohibited  
2: Forward run prohibited  
0: Disabled  
1: Automatic setting  
0: Carrier frequency not reduced  
automatically  
prohibition  
0312  
0316  
Random mode  
-
-
-
-
0
1
6.12  
6.12  
Hꢃꢀꢁ  
Hꢃꢀꢅ  
Carrier frequency  
control mode  
selection  
1: Carrier frequency reduced  
automatically  
2: Carrier frequency not reduced  
automatically  
Support for 500V/600V models  
3: Carrier frequency reduced  
automatically  
Support for 500V/600V models  
0-100  
7
0320  
0323  
Droop gain  
1/1  
1/1  
0
6.14  
6.14  
Hꢃꢁꢉ  
Hꢃꢁꢃ  
Droop insensitive  
torque band  
Braking mode  
selection  
0-100  
10  
0342  
-
-
0: Disabled  
0
6.15  
Hꢃꢂꢁ  
1: Enabled (forward run)  
2: Enabled (reverse run)  
3: Enabled (operating direction)  
Hꢁꢂꢉ-20.0  
0343  
Release  
Hz  
0.1/0.01  
3.0  
Hꢃꢂꢃ  
frequency  
0344  
0345  
Release time  
s
0.01/0.01  
0.1/0.01  
0.00-2.50  
0.05  
3.0  
Hꢃꢂꢂ  
Hꢃꢂꢄ  
Creeping  
frequency  
Hz  
Hꢁꢂꢉ-20.0  
0346  
0359  
Creeping time  
s
s
0.01/0.01  
1/1  
0.00-2.50  
0-2400  
0.10  
0
Hꢃꢂꢅ  
Hꢃꢄꢋ  
PID control  
waiting time  
PID control  
6.16  
0360  
0362  
0363  
0366  
-
-
-
-
-
0: Disabled, 1: Enabled  
0.01-100.0  
0
Hꢃꢅꢉ  
Hꢃꢅꢁ  
Hꢃꢅꢃ  
Hꢃꢅꢅ  
Proportional gain  
Integral gain  
0.01/0.01  
0.01/0.01  
0.01/0.01  
0.30  
0.20  
0.00  
0.01-100.0  
Differential gain  
0.00-2.5  
*1 : Default values vary depending on the capacity. See the table of 64.  
57  
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E6581160  
Torque boost parameters 1  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
-
Adjustment range  
setting E6581158  
0400  
Auto-tuning  
-
0
5.11  
6.17.1  
Hꢂꢉꢉ  
0: Auto-tuning disabled  
1: Initialization of Hꢂꢉꢁ (reset to 0)  
2: Auto-tuning enabled  
(after execution: 0)  
0-150  
0401  
0402  
0415  
0416  
0417  
Slip frequency  
gain  
Automatic torque  
boost value  
Motor rated  
current  
Motor no-load  
current  
Motor rated speed  
%
%
1/1  
0.1/0.1  
0.1/0.1  
1/1  
50  
* 1  
* 1  
* 1  
Hꢂꢉꢀ  
Hꢂꢉꢁ  
Hꢂꢀꢄ  
Hꢂꢀꢅ  
Hꢂꢀꢆ  
0.0-30.0  
0.1-100.0  
10-90  
A
%
min-1  
1/1  
100-32000  
1410(WP)  
1710  
(WN, AN)  
0418  
0419  
Speed control  
response  
coefficient  
Speed control  
stability coefficient  
-
-
1/1  
1/1  
1-150  
1-100  
40  
Hꢂꢀꢊ  
Hꢂꢀꢋ  
20  
*1 : Default values vary depending on the capacity. See the table of page 64.  
7
Input/output parameters 2  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
Adjustment range  
setting E6581158  
0470  
0471  
0472  
0473  
VIA input bias  
VIA input gain  
VIB input bias  
VIB input gain  
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
6.5.4  
Hꢂꢆꢉ  
Hꢂꢆꢀ  
Hꢂꢆꢁ  
Hꢂꢆꢃ  
Torque boost parameters 2  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
Adjustment range  
setting E6581158  
0480  
0485  
0492  
0494  
0495  
Exciting current  
coefficient  
%
-
1/1  
1/1  
1/1  
1/1  
1/1  
100-130  
10-250  
50-150  
0-200  
100  
100  
100  
* 1  
5.11  
6.17.2  
Hꢂꢊꢉ  
Stall prevention  
control coefficient 1  
Stall prevention  
control coefficient 2  
Motor adjustment  
coefficient  
Hꢂꢊꢄ  
Hꢂꢋꢁ  
-
-
Hꢂꢋꢂ  
Hꢂꢋꢄ  
Maximum voltage  
adjustment  
%
90-110  
104  
coefficient  
0496  
Waveform  
kHz  
0.1/0.01  
0.1-14.0  
0.2  
Hꢂꢋꢅ  
switching  
adjustment  
coefficient  
*1 : Default values vary depending on the capacity. See the table of page 64.  
58  
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E6581160  
Acceleration/deceleration time parameters  
Minimum  
Communication  
No.  
setting unit  
Panel/Commun  
ication  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
Adjustment range  
setting E6581158  
0500  
0501  
0502  
0503  
0504  
Acceleration time  
2
Deceleration time  
2
s
s
-
0.1/0.1  
0.0-3200  
0.0-3200  
0: Linear  
10.0  
10.0  
0
6.18  
Hꢄꢉꢉ  
Hꢄꢉꢀ  
Hꢄꢉꢁ  
Hꢄꢉꢃ  
Hꢄꢉꢂ  
0.1/0.1  
Acceleration/decel  
eration 1 pattern  
Acceleration/decel  
eration 2 pattern  
Acceleration/decel  
eration selection  
(1, 2 , 3)  
Acceleration/decel  
eration 1 and 2  
switching  
-
-
-
1: S-pattern 1  
2: S-pattern 2  
-
0
-
1: Acceleration/deceleration 1  
2: Acceleration/deceleration 2  
3: Acceleration/deceleration 3  
0.0-WN  
1
0505  
Hz  
0.1/0.01  
0.0  
Hꢄꢉꢄ  
frequency  
0506  
0507  
S-pattern lower-  
limit adjustment  
amount  
S-pattern upper-  
limit adjustment  
amount  
%
%
1/1  
1/1  
0-50  
0-50  
10  
10  
Hꢄꢉꢅ  
Hꢄꢉꢆ  
6.18  
0510  
0511  
0512  
Acceleration time  
3
Deceleration time  
3
Acceleration/decel  
eration 3 pattern  
s
s
-
0.1/0.1  
0.1/0.1  
-
0.0-3200  
0.0-3200  
10.0  
10.0  
0
Hꢄꢀꢉ  
Hꢄꢀꢀ  
Hꢄꢀꢁ  
7
0: Linear  
1: S-pattern 1  
2: S-pattern 2  
0.0-WN  
0513  
Acceleration/decel  
eration 2 and 3  
switching  
Hz  
0.1/0.01  
0.0  
Hꢄꢀꢃ  
frequency  
Protection parameters  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
Adjustment range  
setting E6581158  
0601  
0602  
0603  
Stall prevention  
level 1  
Inverter trip  
retention selection  
Emergency stop  
selection  
%
(A)  
-
1/1  
10-199,  
200 (disabled)  
150  
0
6.19.2  
6.19.3  
6.19.4  
Hꢅꢉꢀ  
Hꢅꢉꢁ  
Hꢅꢉꢃ  
-
-
0: Canceled with the power off  
1: Still retained with the power off  
0: Coast stop  
1: Slowdown stop  
2: Emergency DC braking  
0.0-20.0  
-
0
0604  
0605  
Emergency DC  
braking time  
Output phase  
failure detection  
mode selection  
s
-
0.1/0.1  
-
1.0  
0
6.19.4  
6.19.5  
Hꢅꢉꢂ  
Hꢅꢉꢄ  
0: Disabled  
1: At start-up (only one time after  
power is turned on)  
2: At start-up (each time)  
3: During operation  
4: At start-up + during operation  
5: Detection of cutoff on output side  
10-2400  
0607  
0608  
Motor 150%-  
s
-
1/1  
-
300  
1
6.19.1  
6.19.6  
Hꢅꢉꢆ  
Hꢅꢉꢊ  
overload time limit  
Input phase failure  
detection mode  
selection  
0: Disabled, 1: Enabled  
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E6581160  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
%
Adjustment range  
setting E6581158  
0609  
0610  
Small current  
detection current  
hysteresis  
Small current  
trip/alarm  
1/1  
1-20  
10  
0
6.19.7  
Hꢅꢉꢋ  
Hꢅꢀꢉ  
-
-
0: Alarm only  
1: Tripping  
selection  
0611  
0612  
0613  
Small current  
detection current  
Small current  
detection time  
Detection of  
%
(A)  
s
1/1  
1/1  
-
0-100  
0-255  
0
0
0
Hꢅꢀꢀ  
Hꢅꢀꢁ  
Hꢅꢀꢃ  
-
-
0: Each time (standard pulse)  
1: At start-up (only one time after  
power is turned on)  
6.19.8  
6.19.9  
output short-circuit  
during start-up  
(standard pulse)  
2: Each time (short-time pulse)  
3: At start-up (only one time after  
power is turned on)  
(short-time pulse)  
0: Alarm only  
0615  
Over-torque  
trip/alarm  
-
0
Hꢅꢀꢄ  
1: Tripping  
selection  
0616  
0618  
0619  
Over-torque  
detection level  
Over-torque  
detection time  
Over-torque  
detection level  
hysteresis  
%
s
1/1  
0.1/0.1  
1/1  
0-250  
150  
0.5  
10  
Hꢅꢀꢅ  
Hꢅꢀꢊ  
Hꢅꢀꢋ  
0.0-10.0  
0-100  
%
6.19.9  
7
0621  
Cumulative  
operation time  
alarm setting  
Over-voltage stall  
protection level  
Undervoltage  
trip/alarm  
100  
Time  
0.1/0.1  
(=10 hours)  
0.0-999.9  
100-150  
610  
6.19.10  
Hꢅꢁꢀ  
0626  
0627  
1/1  
-
*1  
0
6.13.5  
%
-
Hꢅꢁꢅ  
Hꢅꢁꢆ  
0: Alarm only  
(detection level below 60%)  
1: Tripping  
6.19.12  
selection  
(detection level below 60%)  
2: Alarm only  
(detection level below 50%,  
DC reactor necessary)  
0: Disabled, 1-100  
0633  
0634  
Trip at VIA low  
level input mode  
Annual average  
ambient  
temperature (parts  
replacement  
alarms)  
1/1  
-
0
3
6.19.13  
6.19.14  
Hꢅꢃꢃ  
Hꢅꢃꢂ  
-
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  
*1 : Default values vary depending on the capacity. See the table of 64.  
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E6581160  
Output parameters  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
-
Adjustment range  
setting E6581158  
0669  
Logic output/pulse  
train output  
-
0: Logic output  
1: Pulse train output  
0
6.20.1  
Hꢅꢅꢋ  
selection (OUT-  
NO)  
0676  
Pulse train output  
function selection  
(OUT-NO)  
-
-
0
6.20.1  
0: Output frequency  
1: Output current  
2: Set frequency  
Hꢅꢆꢅ  
3: DC voltage  
4: Output voltage command value  
5: Input power  
6: Output power  
7: Torque  
8: Torque current  
9: Motor cumulative load factor  
10: Inverter cumulative load factor  
11: PBR (braking reactor) cumulative  
load factor  
12: Frequency setting value (after  
PID)  
13: VIA/II Input value  
14: VIB Input value  
15: Fixed output 1 (Output current:  
100%)  
16: Fixed output 2 (Output current:  
50%)  
17: Fixed output 3  
(Other than the output current:  
100%)  
7
0677  
0691  
Maximum numbers  
of pulse train  
Inclination  
characteristic of  
analog output  
Meter bias  
pps  
-
1/1  
-
500-1600  
800  
1
6.20.1  
6.20.2  
Hꢅꢆꢆ  
Hꢅꢋꢀ  
0: Negative inclination (downward  
slope)  
1: Positive inclination (upward slope)  
0100  
0692  
%
1/1  
0
6.20.2  
Hꢅꢋꢁ  
Operation panel parameters  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
Adjustment range  
setting E6581158  
0700  
Prohibition of  
change of  
-
-
0: Permitted  
1: Prohibited  
0
6.21.1  
Hꢆꢉꢉ  
parameter settings  
0701  
0702  
Unit selection  
-
-
0: %  
0
6.21.2  
6.21.3  
Hꢆꢉꢀ  
Hꢆꢉꢁ  
1: A (ampere)/V (volt)  
0.00: Free unit display disabled  
(display of frequency)  
0.01-200.0  
Free unit selection Times  
0.01/0.01  
0.00  
0705  
Inclination  
-
-
0: Negative inclination (downward  
slope)  
1: Positive inclination (upward slope)  
1
Hꢆꢉꢄ  
characteristic of  
free unit display  
Free unit display  
bias  
0706  
0707  
Hz  
Hz  
0.01/0.01  
0.01/0.01  
0.00-HJ  
0.00  
0.00  
Hꢆꢉꢅ  
Hꢆꢉꢆ  
Free step 1  
0.00: Disabled  
6.21.4  
(pressing a panel  
key once)  
0.01-HJ  
0708  
Free step 2 (panel  
display)  
-
1/1  
0: Disabled  
1-255  
0
Hꢆꢉꢊ  
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E6581160  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
-
Adjustment range  
setting E6581158  
0710  
Standard monitor  
display selection  
-
0: Operation frequency (Hz/free unit)  
1: Frequency command (Hz/free unit)  
2: Output current (%/A)  
0
6.21.5  
Hꢆꢀꢉ  
3: Inverter rated current (A)  
4: Inverter load factor (%)  
5: Output power (%)  
6: Frequency command after PID  
control (Hz/free unit)  
7: Optional item specified from an  
external control unit  
0719  
Canceling of  
operation  
-
-
0: Operation command canceled  
(cleared)  
1
6.21.6  
Hꢆꢀꢋ  
command when  
standby terminal  
(ST) is turned off  
Panel stop pattern  
1: Operation command retained  
0721  
0730  
-
-
-
-
0: Slowdown stop  
1: Coast stop  
0: Permitted  
0
0
6.21.7  
6.21.1  
Hꢆꢁꢀ  
Hꢆꢃꢉ  
Prohibition of  
frequency setting  
on the operation  
panel (HE)  
1: Prohibited  
0733  
0734  
0735  
0736  
Panel operation  
prohibition  
-
-
-
-
-
-
-
-
0: Permitted  
1: Prohibited  
0
0
0
1
Hꢆꢃꢃ  
Hꢆꢃꢂ  
Hꢆꢃꢄ  
Hꢆꢃꢅ  
(RUN/STOP keys)  
Prohibition of  
panel emergency  
stop operation  
Prohibition of  
panel reset  
0: Permitted  
1: Prohibited  
7
0: Permitted  
1: Prohibited  
operation  
Prohibition of  
change of EOQF  
/ HOQF during  
operation  
0: Permitted  
1: Prohibited  
Communication parameters  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
-
Adjustment range  
setting E6581158  
0800  
0801  
Communication  
rate  
-
0: 1200bps  
3
6.22  
Hꢊꢉꢉ  
1: 2400bps  
2: 4800bps  
3: 9600bps  
4: 19200bps  
Parity  
-
-
0: NON (No parity)  
1: EVEN (Even parity)  
2: ODD (Odd parity)  
0-255  
1
Hꢊꢉꢀ  
0802  
0803  
Inverter number  
-
1/1  
1/1  
0
0
Hꢊꢉꢁ  
Hꢊꢉꢃ  
Communication  
error trip time  
s
0: (disabled)  
1-100  
0805  
0806  
Communication  
waiting time  
Setting of master  
and slave for  
communication  
between inverters  
s
-
0.01/0.01  
-
0.00-2.00  
0.00  
0
Hꢊꢉꢄ  
Hꢊꢉꢅ  
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 (transmission of output  
frequency signals)  
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E6581160  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
No.  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
%
Adjustment range  
setting E6581158  
0811  
0812  
0813  
0814  
0829  
0870  
0871  
Communication  
command point 1  
setting  
Communication  
command point 1  
frequency  
Communication  
command point 2  
setting  
Communication  
command point 2  
frequency  
1/1  
0-100  
0
6.5.2  
6.22.1  
Hꢊꢀꢀ  
Hz  
%
Hz  
-
0.1/0.01  
0.0-500.0  
0-100  
0.0  
100  
Hꢊꢀꢁ  
Hꢊꢀꢃ  
Hꢊꢀꢂ  
Hꢊꢁꢋ  
Hꢊꢆꢉ  
Hꢊꢆꢀ  
1/1  
0.1/0.01  
0.0-500.0  
50.0 (WP)  
60.0  
(WN, AN)  
Selection of  
communication  
protocol  
-
-
-
0: Toshiba inverter protocol  
1: Modbus RTU protocol  
0
6.22  
Block write data 1  
-
0: No selection  
0
0
1: Command information 1  
2: Command information 2  
3: Frequency command  
Block write data 2  
-
4: Output data on the terminal board  
5: Analog output for communications  
0875  
0876  
0877  
0878  
0879  
Block read data 1  
Block read data 2  
Block read data 3  
Block read data 4  
Block read data 5  
Free notes  
-
-
-
-
-
-
-
-
-
-
0: No selection  
1: Status information  
2: Output frequency  
3: Output current  
4: Output voltage  
5: Alarm information  
6: PID feedback value  
7: Input terminal board monitor  
8: Output terminal board monitor  
9: VIA terminal board monitor  
10: VIB terminal board monitor  
0
0
0
0
0
Hꢊꢆꢄ  
Hꢊꢆꢅ  
Hꢊꢆꢆ  
Hꢊꢆꢊ  
Hꢊꢆꢋ  
7
0880  
0890  
-
-
1/1  
1/1  
0-65535  
0
0
Hꢊꢊꢉ  
Hꢊꢋꢉ  
Parameter for  
option 1  
0-65535  
6.23  
0891  
0892  
0893  
0894  
Parameter for  
option 2  
Parameter for  
option 3  
Parameter for  
option 4  
Parameter for  
option 5  
-
-
-
-
1/1  
1/1  
1/1  
1/1  
0-65535  
0-65535  
0-65535  
0-65535  
0
0
0
0
Hꢊꢋꢀ  
Hꢊꢋꢁ  
Hꢊꢋꢃ  
Hꢊꢋꢂ  
 
PM motor parameters  
Minimum  
setting unit  
Panel/Commun  
ication  
Communication  
Default  
setting  
User  
Reference  
Title  
Function  
Unit  
Adjustment range  
10-150  
No.  
setting E6581158  
0910  
0911  
0912  
Step-out detection  
current level  
Step-out detection  
time  
High-speed torque  
adjustment  
%
(A)  
s
1/1  
100  
0.0  
6.24  
Hꢋꢀꢉ  
1/1  
0.0: No detection  
0.1-25.0  
Hꢋꢀꢀ  
Hꢋꢀꢁ  
-
0.01/0.01  
0.00-650.0  
0.00  
coefficient  
63  
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E6581160  
Q Default settings by inverter rating  
Dynamic  
braking  
Dynamic  
braking resistor  
capacity  
Automatic  
torgue boost  
value  
Motor  
Over-voltage  
stall protection  
level  
Hꢅꢁꢅ  
(%)  
Torque boost  
value 1/2  
Motor rated  
current  
Motor no-load  
current  
Inverter type  
adjustment  
coefficient  
Hꢂꢋꢂ  
resistance  
Hꢃꢉꢊ  
() (Note)  
XDHꢀꢆꢁ  
(%)  
Hꢃꢉꢋ  
(kW)  
Hꢂꢉꢁ  
(%)  
Hꢂꢀꢄ  
(A)  
Hꢂꢀꢅ  
(%)  
VFS11S-2002PL  
VFS11S-2004PL  
VFS11S-2007PL  
VFS11S-2015PL  
VFS11S-2022PL  
6.0  
6.0  
6.0  
6.0  
5.0  
200.0  
200.0  
200.0  
75.0  
0.12  
0.12  
0.12  
0.12  
0.12  
8.3  
6.2  
5.8  
4.3  
4.1  
1.2  
2.0  
3.4  
6.2  
8.9  
70  
65  
60  
55  
52  
90  
90  
80  
70  
70  
134  
134  
134  
134  
134  
75.0  
VFS11-2002PM  
VFS11-2004PM  
VFS11-2005PM  
VFS11-2007PM  
VFS11-2015PM  
VFS11-2022PM  
VFS11-2037PM  
VFS11-2055PM  
VFS11-2075PM  
VFS11-2110PM  
VFS11-2150PM  
6.0  
6.0  
6.0  
6.0  
6.0  
5.0  
5.0  
4.0  
3.0  
2.0  
2.0  
200.0  
200.0  
200.0  
200.0  
75.0  
75.0  
40.0  
20.0  
15.0  
10.0  
7.5  
0.12  
0.12  
0.12  
0.12  
0.12  
0.12  
0.12  
0.24  
0.44  
0.66  
0.88  
8.3  
6.2  
6.0  
5.8  
4.3  
4.1  
3.4  
3.0  
2.5  
2.3  
2.0  
1.2  
2.0  
70  
65  
62  
60  
55  
52  
48  
46  
43  
41  
38  
90  
90  
80  
80  
70  
70  
70  
70  
70  
60  
50  
134  
134  
134  
134  
134  
134  
134  
134  
134  
134  
134  
2.7  
3.4  
6.2  
8.9  
14.8  
21.0  
28.2  
40.6  
54.6  
VFS11-4004PL  
VFS11-4007PL  
VFS11-4015PL  
VFS11-4022PL  
VFS11-4037PL  
VFS11-4055PL  
VFS11-4075PL  
VFS11-4110PL  
VFS11-4150PL  
6.0  
6.0  
6.0  
5.0  
5.0  
4.0  
3.0  
2.0  
2.0  
200.0  
200.0  
200.0  
200.0  
160.0  
80.0  
0.12  
0.12  
0.12  
0.12  
0.12  
0.24  
0.44  
0.66  
0.88  
6.2  
5.8  
4.3  
4.1  
3.4  
2.6  
2.3  
2.2  
1.9  
1.0  
1.7  
65  
60  
55  
52  
48  
46  
43  
41  
38  
90  
80  
70  
70  
70  
70  
70  
60  
50  
140  
140  
140  
140  
140  
140  
140  
140  
140  
7
3.1  
4.5  
7.4  
10.5  
14.1  
20.3  
27.3  
60.0  
40.0  
30.0  
VFS11-6007P  
VFS11-6015P  
VFS11-6022P  
VFS11-6037P  
VFS11-6055P  
VFS11-6075P  
VFS11-6110P  
VFS11-6150P  
3.0  
3.0  
3.0  
3.0  
2.0  
2.0  
2.0  
1.0  
285.0  
145.0  
95.0  
48.0  
29.0  
29.0  
19.0  
14.0  
0.06  
0.12  
0.18  
0.37  
0.61  
0.61  
0.92  
1.23  
3.8  
3.8  
3.2  
3.5  
2.0  
1.5  
1.9  
1.7  
1.1  
2.1  
61  
59  
54  
50  
55  
51  
55  
53  
80  
70  
70  
70  
70  
70  
60  
50  
134  
134  
134  
134  
134  
134  
134  
134  
3.0  
4.9  
7.3  
9.5  
14.5  
19.3  
Note: Be sure to set f308 (Dynamic braking resistance) at the resistance of the dynamic braking resistor connected.  
64  
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E6581160  
Q Table of input terminal functions 1  
Function  
No.  
Code  
Function  
Action  
0
-
No function is assigned  
Disabled  
1
ST  
Standby terminal  
ON: Ready for operation  
OFF: Coast stop (gate off)  
2
3
4
5
F
R
JOG  
AD2  
Forward run command  
Reverse run command  
Jog run mode  
Acceleration/deceleration 2 pattern selection  
ON: Forward run OFF: Slowdown stop  
ON: Reverse run OFF: Slowdown stop  
ON: Jog run, OFF: Jog run canceled  
ON: Acceleration/deceleration 2  
OFF: Acceleration/deceleration 1 or 3  
6
7
8
9
10  
SS1  
SS2  
SS3  
SS4  
RES  
Preset-speed command 1  
Preset-speed command 2  
Preset-speed command 3  
Preset-speed command 4  
Reset command  
Selection of 15-speed with SS1 to SS4 (4 bits)  
ON: Acceptance of reset command  
ON OFF: Trip reset  
11  
12  
EXT  
CFMOD  
Trip stop command from external input device  
Switching of command mode and frequency  
setting mode  
ON: G Trip stop  
ON: Forced switching from command mode to  
terminal input mode, forced switching from  
frequency setting mode to the mode  
commanded between HOQF and Hꢁꢉꢆ.  
(If Hꢁꢉꢉ = )  
13  
14  
DB  
PID  
DC braking command  
PID control prohibited  
ON: DC braking  
ON: PID control prohibited  
OFF: PID control permitted  
15  
PWENE  
Permission of parameter editing  
ON: Parameter editing permitted  
OFF: Parameter editing prohibited (If Hꢆꢉꢉ = )  
ON: Simultaneous input from ST and RES  
ON: Simultaneous input from ST and CFMOD  
16  
17  
ST+RES  
ST+CFMOD  
Combination of standby and reset commands  
Combination of standby and command/frequency  
setting mode switching  
7
18  
19  
20  
F+JOG  
R+JOG  
F+AD2  
Combination of forward run and jog run  
Combination of reverse run and jog run  
Combination of forward run and  
acceleration/deceleration 2  
ON: Simultaneous input from F and JOG  
ON: Simultaneous input from R and JOG  
ON: Simultaneous input from F and AD2  
21  
22  
23  
24  
25  
26  
27  
28  
29  
30  
31  
32  
33  
R+AD2  
F+SS1  
Combination of reverse run and  
acceleration/deceleration 2  
Combination of forward run and preset-speed  
command 1  
Combination of reverse run and preset-speed  
command 1  
Combination of forward run and preset-speed  
command 2  
Combination of reverse run and preset-speed  
command 2  
Combination of forward run and preset-speed  
command 3  
Combination of reverse run and preset-speed  
command 3  
Combination of forward run and preset-speed  
command 4  
ON: Simultaneous input from R and AD2  
ON: Simultaneous input from F and SS1  
ON: Simultaneous input from R and SS1  
ON: Simultaneous input from F and SS2  
ON: Simultaneous input from R and SS2  
ON: Simultaneous input from F and SS3  
ON: Simultaneous input from R and SS3  
ON: Simultaneous input from F and SS4  
ON: Simultaneous input from R and SS4  
ON: Simultaneous input from F, SS1 and AD2  
ON: Simultaneous input from R, SS1 and AD2  
ON: Simultaneous input from F, SS2 and AD2  
ON: Simultaneous input from R, SS2 and AD2  
R+SS1  
F+SS2  
R+SS2  
F+SS3  
R+SS3  
F+SS4  
R+SS4  
F+SS1+AD2  
Combination of reverse run and preset-speed  
command 4  
Combination of forward run, preset-speed  
command 1 and acceleration/deceleration 2  
R+SS1+AD2 Combination of reverse run, preset-speed  
command 1 and acceleration/deceleration 2  
F+SS2+AD2  
Combination of forward run, preset-speed  
command 2 and acceleration/deceleration 2  
R+SS2+AD2 Combination of reverse run, preset-speed  
command 2 and acceleration/deceleration 2  
65  
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E6581160  
Q Table of input terminal functions 2  
Function  
No.  
Code  
Function  
Action  
34  
F+SS3+AD2  
Combination of forward run, preset-speed  
command 3 and acceleration/deceleration 2  
ON: Simultaneous input from F, SS3 and AD2  
ON: Simultaneous input from R, SS3 and AD2  
ON: Simultaneous input from F, SS4 and AD2  
ON: Simultaneous input from R, SS4 and AD2  
35  
36  
37  
38  
39  
R+SS3+AD2 Combination of reverse run, preset-speed  
command 3 and acceleration/deceleration 2  
F+SS4+AD2  
Combination of forward run, preset-speed  
command 4 and acceleration/deceleration 2  
R+SS4+AD2 Combination of reverse run, preset-speed  
command 4 and acceleration/deceleration 2  
FCHG  
Frequency command forced switching  
ON: Hꢁꢉꢆ(If Hꢁꢉꢉ = )  
OFF: HOQF  
ON: No.2 V/F setting  
VF2  
No.2 Switching of V/F setting  
(RV=0, Hꢀꢆꢉ, Hꢀꢆꢀ, Hꢀꢆꢁ, Hꢀꢆꢃ)  
OFF: No.1 V/F setting  
(Set value of RV, XN, XNX, XD, VJT)  
40  
MOT2  
No.2 motor switching  
ON: No.2 motor  
VF2AD2OCS2)  
(RV=0, Hꢀꢆꢉ, Hꢀꢆꢀ, Hꢀꢆꢁ, Hꢀꢆꢃ,  
Hꢀꢊꢄ, Hꢄꢉꢉ, Hꢄꢉꢀ, Hꢄꢉꢃ)  
OFF: No.1 motor (Set value of RV, XN, XNX,  
XD, VJT, CEE, FGE, Hꢄꢉꢁ, Hꢅꢉꢀ)  
ON: Increase in frequency  
41  
42  
UP  
DOWN  
Frequency UP signal input from external contacts  
Frequency DOWN signal input from external  
contacts  
ON: Reduction in frequency  
43  
44  
45  
CLR  
Frequency UP/DOWN cancellation signal input  
from external contacts  
Combination of frequency UP/DOWN cancellation  
and reset by means of external contacts  
Inversion of trip stop command from external  
device  
Thermal trip stop signal input from external device  
Inversion of thermal trip stop command from  
external device  
OFFON: Resetting of UP/DOWN frequency by  
means of external contacts  
ON: Simultaneous input from CLR and RES  
CLR+RES  
EXTN  
OFF: G Trip stop  
7
46  
47  
OH  
OHN  
ON: QJꢁ Trip stop  
OFF: QJꢁ Trip stop  
48  
SC/LC  
HD  
Forced switching from remote to local control  
Enabled when remote control is exercised  
ON: Local control (setting of cmod, HOQF and  
Hꢁꢉꢆ)  
OFF: Remote control  
ON: F (forward run)/R: (reverse run) held, 3-wire  
operation  
49  
Operation holding (stop of 3-wire operation)  
OFF: Slowdown stop  
50  
51  
52  
CMTP  
Forced switching of command mode and terminal  
board command  
Display cancellation of the cumulative power  
amount (kWh)  
ON: Terminal board operation  
OFF: Setting of EOQF  
ON: Monitor display cancellation of the cumulative  
power amount (kWh)  
ON: Forced operation mode in which operation is  
not stopped in the event of the occurrence of  
a soft fault (preset speed operation frequency  
15) To use this function, the inverter needs to  
be so configured at the factory.  
OFF: Normal operation  
CKWH  
FORCE  
Forced operation (factory configuration required)  
53  
FIRE  
Fire-speed control  
ON: Fire-speed operation (preset speed operation  
frequency 15)  
OFF: Normal operation  
Note. When function 1, 10-12, 15-17, 38, 41-45 or 48 is assigned to an input terminal board, the input terminal  
board is enabled even if the parameter command mode selection cmod is set at 1 (panel).  
66  
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E6581160  
Q Table of input terminal functions 3  
Function  
No.  
54  
55  
Code  
Function  
Action  
ON: Coast stop (gate off)  
STN  
RESN  
Coast stop (gate off)  
Inversion of RES  
ON: Acceptance of reset command  
OFFON: Trip reset  
56  
57  
58  
F+ST  
R+ST  
AD3  
Combination of forward run and standby  
Combination of reverse run and standby  
Acceleration/deceleration 3 selection  
ON: Simultaneous input from F and ST  
ON: Simultaneous input from R and ST  
ON: Acceleration/deceleration 3  
OFF: Acceleration/deceleration 1 or 2  
59  
60  
61  
62  
F+AD3  
R+AD3  
OCS2  
HDRY  
Combination of forward run and  
acceleration/deceleration 3  
Combination of reverse run and  
acceleration/deceleration 3  
ON: Simultaneous input from F and AD3  
ON: Simultaneous input from R and AD3  
Forced switching of stall prevention level 2  
ON: Enabled at the value of Hꢀꢊꢄ  
OFF: Enabled at the value of Hꢅꢉꢀ  
ON: Once turned on, RY-RC are held on.  
OFF: The status of RY-RC changes in real time  
according to conditions.  
ON: Once turned on, OUT-NO are held on.  
OFF: The status of OUT-NO changes in real time  
according to conditions.  
Holding of RY-RC terminal output  
Holding of OUT-NO terminal output  
63  
HDOUT  
64  
65  
PRUN  
ICLR  
Cancellation (clearing) of operation command from 0: Operation command canceled (cleared)  
panel  
1: Operation command retained  
ON: PID control integral value always zero  
OFF: PID control permitted  
PID control integral value clear  
Q Table of output terminal functions 1  
7
Function  
Code  
Function  
Action  
No.  
0
LL  
Frequency lower limit  
ON: The output frequency is above the NN set  
value.  
OFF: The output frequency is equal to or less than  
the NN set value.  
1
2
LLN  
UL  
Inversion of frequency lower limit  
Frequency upper limit  
Inversion of LL setting  
ON: Output frequency is equal to or higher than  
WN value.  
OFF: Output frequency is lower than WN value.  
3
4
ULN  
LOW  
Inversion of frequency upper limit  
Low-speed detection signal  
Inversion of UL setting  
ON: Output frequency is equal to or higher than  
Hꢀꢉꢉ value.  
OFF: Output frequency is lower than Hꢀꢉꢉ  
value.  
5
6
LOWN  
RCH  
Inversion of low-speed detection signal  
Designated frequency attainment signal  
(completion of acceleration/deceleration)  
Inversion of LOW setting  
ON: The output frequency is equal to or less than  
the specified frequency ± frequency set with  
Hꢀꢉꢁ.  
OFF: The output frequency is above the specified  
frequency ± frequency set with Hꢀꢉꢁ.  
Inversion of RCH setting  
7
8
RCHN  
RCHF  
Inversion of designated frequency attainment  
signal (inversion of completion of  
acceleration/deceleration)  
Set frequency attainment signal  
ON: The output frequency is equal to or less than  
the frequency set with Hꢀꢉꢀ ± Hꢀꢉꢁ.  
OFF: The output frequency is above the frequency  
set with Hꢀꢉꢀ ± Hꢀꢉꢁ.  
9
10  
RCHFN  
FL  
Inversion of set frequency attainment signal  
Failure signal (trip output)  
Inversion of RCHF setting  
ON: When inverter is tripped  
OFF: When inverter is not tripped  
11  
FLN  
Inversion of failure signal (inversion of trip output)  
Inversion of FL setting  
67  
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E6581160  
Q Table of output terminal functions 2  
Function  
No.  
Code  
Function  
Action  
12  
OT  
Over-torque detection  
ON: Torque current is equal to or larger than  
Hꢅꢀꢅ set value and longer than Hꢅꢀꢊ  
set time.  
OFF: The torque current is equal to or less than  
(Hꢅꢀꢅ set value - Hꢅꢀꢋ set value).  
Inversion of OT  
ON: When operation frequency is output or during  
(FD)  
13  
14  
OTN  
RUN  
Inversion of over-torque detection  
Start/Stop  
OFF: Operation stopped  
15  
16  
RUNN  
POL  
Inversion of RUN/STOP  
OL pre-alarm  
Inversion of RUN setting  
ON: 50% or more of calculated value of overload  
protection level  
OFF: Less than 50% of calculated value of  
overload protection level  
17  
18  
POLN  
POHR  
Inversion of OL pre-alarm  
Braking resistor overload pre-alarm  
Inversion of POL setting  
ON: 50% or more of calculated value of Hꢃꢉꢊ  
set overload protection level  
OFF: Less than 50% of calculated value of  
Hꢃꢉꢊ set overload protection level  
Inversion of RCHR setting  
ON: Torque current is equal to or larger than 70%  
of Hꢅꢀꢅ set value.  
19  
20  
POHRN  
POT  
Inversion of braking resistor overload pre-alarm  
Over-torque detection pre-alarm  
OFF: The torque current is below (Hꢅꢀꢅ set  
value x 70% - Hꢅꢀꢋ set value).  
Inversion of POT setting  
One of the following is turned on:  
ON POL, POHR, POT, MOFF, UC, OT, LL  
stop, COT, and momentary power failure  
slowdown stop.  
21  
22  
POTN  
PAL  
Inversion of over-torque detection pre-alarm  
Pre-alarm  
7
or E,ꢌR,ꢌQTꢌJ issues an alarm  
All the following are turned off:  
OFF POL, POHR, POT, MOFF, UC, OT, LL  
stop, COT, and momentary power failure  
slowdown stop.  
or E,ꢌR,ꢌQTꢌJ issues no alarm  
23  
24  
PALN  
UC  
Inversion of pre-alarm  
Small-current detection  
Inversion of PAL setting  
ON: The output current is equal to or less than  
Hꢅꢀꢀ set value for Hꢅꢀꢁ set time.  
OFF: The output current is equal to or larger than  
Hꢅꢀꢀ set value + 10%.  
25  
26  
UCN  
HFL  
Inversion of small-current detection  
Significant failure  
Inversion of UC setting  
ON: QEC,ꢌQEN,ꢌQV,ꢌG,ꢌ  
GGRꢀ,ꢌGVP,ꢌGRJQ,ꢌGTTꢁ-  
,ꢌQJꢁ,ꢌWRꢀ,ꢌGHꢁ,ꢌWE,ꢌ  
GV[R,ꢌQTꢌGRJꢀ)  
OFF: Failure other than the above  
27  
28  
HFLN  
LFL  
Inversion of significant failure  
Insignificant failure  
Inversion of HFL setting  
ON: (QEꢀ-,ꢌQRꢀ-,ꢌQJ,ꢌ  
QNꢀ-,ꢌQNT)  
OFF: Failure other than the above  
29  
30  
LFLN  
RDY1  
Inversion of insignificant failure  
Ready for operation (including ST/RUN)  
Inversion of LFL setting  
ON: Ready for operation (ST and RUN are also  
ON)  
OFF: Others  
31  
32  
RDY1N  
RDY2  
Inversion of ready for operation (including  
ST/RUN)  
Ready for operation (excluding ST/RUN)  
Inversion of RDY1 setting  
ON: Ready for operation (ST and RUN are not  
ON)  
OFF: Others  
33  
34  
RDY2N  
FCVIB  
Inversion of ready for operation (excluding ST/RUN)  
Frequency VIB selection  
Inversion of RDY2  
ON: VIB selected as frequency command  
OFF: Terminal other than VIB selected as  
frequency command  
68  
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E6581160  
Q Table of output terminal functions 3  
Function  
No.  
Code  
Function  
Action  
35  
36  
FCVIBN  
FLR  
Inversion of frequency VIB selection  
Fault signal (put out also at the time of a retry)  
Inversion of FCVIB  
ON: When inverter trips or retries  
OFF: When inverter does not trip or retry  
37  
38  
FLRN  
OUT0  
Inversion of failure signal (put out also at the time  
of a retry)  
Specified data output 1  
Inversion of FLR  
ON: Specified data from remote control FA50:  
BIT0= 1  
OFF: Specified data from remote control FA50:  
BIT0= 0  
39  
40  
OUT0N  
OUT1  
Inversion of specified data output 1  
Specified data output 2  
Inversion of OUT0 setting  
ON: Specified data from remote control FA50:  
BIT1= 1  
OFF: Specified data from remote control FA50:  
BIT1= 0  
41  
42  
OUT1N  
COT  
Inversion of specified data output 2  
Cumulative operation time alarm  
Inversion of OUT1 setting  
ON: Cumulative operation time is equal to or  
longer than Hꢅꢁꢀ  
OFF: Cumulative operation time is shorter than  
Hꢅꢁꢀ  
43  
44  
COTN  
LTA  
Inversion of cumulative operation time alarm  
Parts replacement alarm  
Inversion of COT  
ON: Calculation for parts replacement time is  
equal to or longer than the preset time  
ON: Calculation for parts replancement time is  
shorter than the preset time  
45  
46  
LTAN  
BR  
Inversion of replacement alarm  
Braking sequence output  
Inversion of LTA  
ON: Braking retention signal  
OFF: Braking release signal  
Inversion of BR  
ON: The signal input to F terminal is ON  
OFF: The signal input to F terminal is OFF  
Inversion of LI1  
ON: The signal input to R terminal is ON  
OFF: The signal input to R terminal is OFF  
Inversion of LI2  
ON: Frequency commanded by HOQF or  
Hꢁꢉꢆ and that by VIA show the same  
value.  
7
47  
48  
BRN  
LI1  
Inversion of braking sequence output  
F terminal input signal  
49  
50  
LI1N  
LI2  
Inversion of F terminal input signal  
R terminal input signal  
51  
52  
LI2N  
PIDF  
Inversion of R terminal input signal  
Signal in accordance of frequency command  
OFF: Frequency commanded by HOQF or  
Hꢁꢉꢆ and that by VIA show different  
values.  
53  
54  
PIDFN  
MOFF  
Inversion of signal in accordance of frequency  
command  
Undervoltage detection  
Inversion of PIDF setting  
ON: Undervoltage detected  
OFF: Other than undervoltage  
Inversion of MOFF  
Invalid settings, always OFF (ignored)  
Always OFF  
55  
56-253  
254  
MOFFN  
Disabled  
AOFF  
Inversion of undervoltage detection  
Invalid settings, always OFF (ignored)  
Always OFF  
255  
AON  
Always ON  
Always ON  
69  
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E6581160  
8. Specifications  
8.1  
Models and their standard specifications  
Q Standard specifications  
Item  
Specification  
3-phase 240V  
2.2  
Input voltage  
Applicable motor (kW)  
0.2  
0.4  
0.55  
0.75  
1.5  
4.0  
5.5  
7.5  
11  
15  
Type  
Form  
VFS11  
2002PM 2004PM 2005PM 2007PM 2015PM 2022PM 2037PM 2055PM 2075PM 2110PM 2150PM  
Capacity (kVA) Note 1)  
Rated output/current  
(A) Note 2)  
0.6  
1.5  
(1.5)  
1.3  
3.3  
(3.3)  
1.4  
3.7  
(3.3)  
1.8  
4.8  
(4.4)  
3.0  
8.0  
(7.9)  
4.2  
11.0  
(10.0)  
6.7  
17.5  
(16.4)  
10  
27.5  
(25.0)  
13  
33  
(33)  
21  
54  
(49)  
25  
66  
(60)  
Output voltage Note 3)  
Overload current rating  
3-phase 200V to 240V  
150-60 seconds, 200%-0.5 second  
Voltage-frequency  
3-phase 200V to 240V - 50/60Hz  
Allowable fluctuation  
Voltage + 10%, -15% Note 4), frequency ±5%  
IP20 Enclosed type (JEM1030)  
Protective method  
Cooling method  
Color  
Built-in filter  
Self-cooling  
Forced air-cooled  
Munsel 5Y-8/0.5  
Basic filter  
Item  
Specification  
Input voltage  
Applicable motor (kW)  
Type  
1-phase 240V  
3-phase 500V  
0.2  
0.4  
0.75  
1.5  
2.2  
0.4  
0.75  
1.5  
2.2  
4.0  
5.5  
7.5  
11  
15  
VFS11S  
VFS11  
Form  
2002PL 2004PL 2007PL 2015PL 2022PL 4004PL 4007PL 4015PL 4022PL 4037PL 4055PL 4075PL 4110PL 4150PL  
8
Capacity (kVA) Note 1)  
Rated output current  
(A) Note 2)  
0.6  
1.3  
1.8  
3.0  
4.2  
1.1  
1.8  
3.1  
4.2  
7.2  
11  
13  
21  
25  
1.5  
3.3  
4.8  
8.0  
11.0  
1.5  
2.3  
4.1  
5.5  
9.5  
14.3  
17.0  
27.7  
33  
(1.5)  
(3.3)  
(4.4)  
(7.9) (10.0) (1.5)  
(2.1)  
(3.7)  
(5.0)  
(8.6) (13.0) (17.0) (25.0) 30)  
Rated output voltage Note 3)  
Overload current rating  
3-phase 200V to 240V  
150-60 seconds, 200%-0.5 second  
3-phase 380V to 500V  
150-60 seconds, 200% -0.5 second  
Voltage-current  
1-phase 200V to 240V – 50/60Hz  
3-phase 380V to 500V - 50/60Hz  
Voltage + 10%、-15% Note 4),  
frequency±5%  
IP20 Enclosed type (JEM1030)  
Allowable fluctuation  
Voltage + 10%, -15% Note 4), frequency ±5%  
IP20 Enclosed type (JEM1030)  
Forced air-cooled  
Protective method,  
Forced air-  
Cooling method  
Self-cooling  
cooled  
Color  
Built-in filter  
Munsel 5Y-8/0.5  
EMI filter  
Munsel 5Y-8/0.5  
EMI filter  
Item  
Specification  
3-phase 600V  
Input voltage  
Applicable motor (kW)  
Type  
0.75  
1.5  
2.2  
4.0  
5.5  
7.5  
11  
15  
VFS11-  
Form  
6007P  
1.7  
6015P  
2.7  
6022P  
3.9  
6037P  
6.1  
6055P  
9
6075P  
11  
6110P  
17  
6150P  
22  
Capacity (kVA) Note 1)  
Rated output/current  
(A) Note 2)  
1.7  
(1.5)  
2.7  
(2.4)  
3.9  
(3.5)  
6.1  
(5.5)  
9.0  
(8.1)  
11.0  
(9.9)  
17.0  
(15.3)  
22.0  
(19.8)  
Output voltage Note 3)  
Overload current rating  
3-phase 525V to 600V  
150-60 seconds, 200%-0.5 second  
Voltage-frequency  
3-phase 525V to 600V - 50/60Hz  
Allowable fluctuation  
Voltage + 10%, -15% Note 4), frequency ±5%  
Protective method  
Cooling method  
Color  
IP20 Enclosed type (JEM1030)  
Forced air-cooled  
Munsel 5Y-8/0.5  
Built-in filter  
No filter  
70  
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E6581160  
Note 1. Capacity is calculated at 220V for the 240V models, at 440V for the 500V models and at 575V for the 600V models.  
Note 2. Indicates rated output current setting when the PWM carrier frequency (parameter F300) is 4kHz or less. When  
exceeding 4kHz, the rated output current setting is indicated in the parentheses. It needs to be further reduced for  
PWM carrier frequencies above 12 kHz.  
The rated output current is reduced even further for 500V models with a supply voltage of 480V or more.  
The default setting of the PWM carrier frequency is 12kHz.  
Note 3. Maximum output voltage is the same as the input voltage.  
Note 4. ±10% when the inverter is used continuously (load of 100%).  
Note 5. If you are using 600V model, be sure to connect an input reactor (ACL).  
Q Common specification  
Item  
Specification  
Control system  
Sinusoidal PWM control  
Rated output voltage  
Output frequency range  
Minimum setting steps of  
frequency  
Adjustable within the range of 50 to 600V by correcting the supply voltage (not adjustable above the input voltage)  
0.5 to 500.0Hz, default setting: 0.5 to 80Hz, maximum frequency: 30 to 500Hz  
0.1Hz: analog input (when the max. frequency is 100Hz), 0.01Hz: Operation panel setting and communication  
setting.  
Frequency accuracy  
Digital setting: within ±0.01% of the max. frequency (-10 to +60°C)  
Analog setting: within ±0.5% of the max. frequency (25°C ±10°C)  
Voltage/frequency  
characteristics  
V/f constant, variable torque, automatic torque boost, vector control, automatic energy-saving, dynamic automatic  
energy-saving control, PM motor control. Auto-tuning. Base frequency (25 - 500Hz) adjusting to 1 or 2, torque boost  
(0 - 30%) adjusting to 1 or 2, adjusting frequency at start (0.5 - 10Hz)  
Frequency setting signal  
Potentiometer on the front panel, external frequency potentiometer (connectable to a potentiometer with a rated  
impedance of 1 - 10k), 0 - 10Vdc (input impedance: VIA/VIB=30k, 4 - 20mAdc (Input impedance: 250).  
The characteristic can be set arbitrarily by two-point setting. Possible to set individually for three functions: analog  
input (VIA and VIB) and communication command.  
Terminal board base  
frequency  
Frequency jump  
Upper- and lower-limit  
frequencies  
Three frequencies can be set. Setting of the jump frequency and the range.  
Upper-limit frequency: 0 to max. frequency, lower-limit frequency: 0 to upper-limit frequency  
PWM carrier frequency  
PID control  
Adjustable within a range of 2.0 to 16.0Hz (default: 12kHz).  
Setting of proportional gain, integral gain, differential gain and control wait time. Checking whether the amount of  
processing amount and the amount of feedback agree.  
8
Acceleration/deceleration  
time  
Selectable from among acceleration/deceleration times 1, 2 and 3 (0.0 to 3200 sec.). Automatic  
acceleration/deceleration function. S-pattern acceleration/deceleration 1 and 2 and S-pattern adjustable. Control of  
forced rapid deceleration and dynamic rapid deceleration  
DC braking  
Braking start-up frequency: 0 to maximum frequency, braking rate: 0 to 100%, braking time: 0 to 20 seconds,  
emergency DC braking, motor shaft fixing control  
Dynamic braking  
Input terminal function  
(programmable)  
Output terminal functions  
(programmable)  
Control and drive circuit is built in the inverter with the braking resistor outside (optional).  
Possible to select from among 66 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.  
Possible to select from among 58 functions, such as upper/lower limit frequency signal output, low speed detection  
signal output, specified speed reach signal output and failure signal output, to assign to FL relay output, open  
collector output and RY output terminals.  
Forward/reverse run  
The RUN and STOP keys on the operation panel are used to start and stop operation, respectively. The switching  
between forward run and reverse run can be done from one of the three control units: operation panel, terminal  
board and external control unit.  
Jog run  
Preset speed operation  
Retry operation  
Jog mode, if selected, allows jog operation from the operation panel or the terminal board.  
Base frequency + 15-speed operation possible by changing the combination of 4 contacts on the terminal board.  
Capable of restarting automatically after a check of the main circuit elements in case the protective function is  
activated. 10 times (Max.) (selectable with a parameter)  
Various prohibition  
settings  
Possible to write-protect parameters and to prohibit the change of panel frequency settings and the use of operation  
panel for operation, emergency stop or resetting.  
Regenerative power ride-  
through control  
Possible to keep the motor running using its regenerative energy in case of a momentary power failure (default:  
OFF).  
Auto-restart operation  
In the event of a momentary power failure, the inverter reads the rotational speed of the coasting motor and outputs  
a frequency appropriate to the rotational speed in order to restart the motor smoothly. This function can also be  
used when switching to commercial power.  
Drooping function  
When two or more inverters are used to operate a single load, this function prevents load from concentrating on one  
inverter due to unbalance.  
Override function  
Failure detection signal  
The sum of two analog signals (VIA/VIB) can be used as a frequency command value.  
1c-contact output: (250Vac-0.5A-cosφ=0.4)  
<Continued overleaf>  
71  
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E6581160  
<Continued>  
Item  
Specification  
Protective function  
Stall prevention, current limitation, over-current, output short circuit, over-voltage, over-voltage limitation,  
undervoltage, ground fault, 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  
characteristic  
Reset function  
Switching between standard motor and constant-torque VF motor, switching between motors 1 and 2, setting of  
overload trip time, adjustment of stall prevention levels 1 and 2, selection of overload stall  
Function of resetting by closing contact 1a or by turning off power or the operation panel. This function is also used  
to save and clear trip records.  
Alarms  
Causes of failures  
Stall prevention, overvoltage, overload, under-voltage, setting error, retry in process, upper/lower limits  
Over-current, overvoltage, overheating, short-circuit in load, ground fault, overload on inverter, over-current through  
arm at start-up, over-current through load at start-up, CPU fault, EEPROM fault, RAM fault, ROM fault,  
communication error. (Selectable: Overload of braking resistor, emergency stop, under-voltage, low voltage, over-  
torque, motor overload, output open-phase)  
Monitoring function  
Operation frequency, operation frequency command, forward/reverse run, output current, voltage in DC section,  
output voltage, torque, torque current, load factor of inverter, integral load factor of PBR, input power, output power,  
information on input terminals, information on output terminals, version of CPU1, version of CPU2, version of  
memory, PID feedback amount, frequency command (after PID), integral input power, integral output power, rated  
current, causes of past trips 1 through 4, parts replacement alarm, cumulative operation time  
Stores data on the past four trips: number of trips that occurred in succession, operation frequency, direction of  
rotation, load current, input voltage, output voltage, information on input terminals, information on output terminals,  
and cumulative operation time when each trip occurred.  
Past trip monitoring  
function  
Output for frequency  
meter  
Analog output: (1mAdc full-scale DC ammeter or 7.5Vdc full-scale DC ammeter / Rectifier-type AC voltmeter, 225%  
current Max. 1mAdc, 7.5Vdc full-scale), 4 to 20mA/0 to 20mA output  
4-digit 7-segments LED  
Frequency:  
Alarm:  
Status:  
inverter output frequency.  
stall alarm “C”, overvoltage alarm “P”, overload alarm “L”, overheat alarm “H”.  
inverter status (frequency, cause of activation of protective function, input/output voltage, output  
current, etc.) and parameter settings.  
Free-unit display: arbitrary unit (e.g. rotating speed) corresponding to output frequency.  
Indicator  
Lamps indicating the inverter status by lighting, such as RUN lamp, MON lamp, PRG lamp, % lamp, Hz lamp,  
frequency setting potentiometer lamp, UP/DOWN key lamp and RUN key lamp. The charge lamp indicates that the  
main circuit capacitors are electrically charged.  
8
Use environments  
Indoor, altitude: 1000m (Max.), not exposed to direct sunlight, corrosive gas, explosive gas or vibration (less than  
5.9m/s2) (10 to 55Hz)  
-10 to +60°C Note)1.2.  
Ambient temperature  
Storage temperature  
Relative humidity  
-20 to +65°C  
20 to 93% (free from condensation and vapor).  
Note 1. Above 40°C : Remove the protective seal from the top of VF-S11.  
If the ambient temperature is above 50°C: Remove the seal from the top of the inverter and use the inverter with the  
rated output current reduced.  
Note 2. If inverters are installed side by side (with no sufficient space left between them): Remove the seal from the top of  
each inverter.  
When installing the inverter where the ambient temperature will rise above 40°C, remove the seal from the top of the  
inverter and use the inverter with the rated output current reduced.  
72  
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E6581160  
8.2  
Outside dimensions and mass  
Q Outside dimensions and mass  
Dimensions (mm)  
Applicable motor  
(kW)  
Approx. weight  
(kg)  
Voltage class  
Inverter type  
Drawing  
A
W
H
D
W1  
H1  
H2  
15  
D2  
8
0.2  
0.4  
0.75  
1.5  
VFS11S-2002PL  
VFS11S-2004PL  
VFS11S-2007PL  
VFS11S-2015PL  
VFS11S-2022PL  
1.0  
1.0  
1.2  
1.4  
2.2  
130  
140  
72  
130  
60  
93  
121.5  
1-phase 240V  
105 130 150  
140 170 150 126 157  
13  
14  
B
C
2.2  
0.2  
0.4  
0.55  
0.75  
1.5  
2.2  
4.0  
5.5  
7.5  
11  
VFS11-2002PM  
VFS11-2004PM  
VFS11-2005PM  
VFS11-2007PM  
VFS11-2015PM  
VFS11-2022PM  
VFS11-2037PM  
VFS11-2055PM  
VFS11-2075PM  
VFS11-2110PM  
VFS11-2150PM  
0.9  
0.9  
1.1  
1.1  
1.2  
1.3  
2.2  
4.8  
4.9  
9.3  
9.6  
120  
72  
130  
60  
93  
15  
A
121.5  
130  
150  
105 130  
13  
14  
12  
B
C
D
3-phase 240V  
8
140 170 150 126 157  
180 220 170 160 210  
245 310 190 225 295 19.5  
E
B
15  
0.4  
0.75  
1.5  
2.2  
4.0  
5.5  
7.5  
11  
VFS11-4004PL  
VFS11-4007PL  
VFS11-4015PL  
VFS11-4022PL  
VFS11-4037PL  
VFS11-4055PL  
VFS11-4075PL  
VFS11-4110PL  
VFS11-4150PL  
1.4  
1.5  
1.5  
2.3  
2.5  
5.0  
5.1  
9.6  
9.6  
105 130 150  
93 121.5 13  
140 170 150 126 157  
180 220 170 160 210  
14  
12  
C
D
E
3-phase 500V  
8
8
245 310 190 225 295 19.5  
105 130 150 93 121.5 13  
15  
0.75  
1.5  
2.2  
4.0  
5.5  
7.5  
11  
VFS11-6007P  
VFS11-6015P  
VFS11-6022P  
VFS11-6037P  
VFS11-6055P  
VFS11-6075P  
VFS11-6110P  
VFS11-6150P  
1.3  
1.3  
2.1  
2.2  
4.7  
4.7  
8.8  
8.8  
B
C
D
E
140 170 150 126 157  
180 220 170 160 210  
14  
12  
3-phase 600V  
8
245 310 190 225 295 19.5  
15  
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E6581160  
Q Outline drawing  
f5  
f5  
93(Installation dimension)  
105  
R2.5  
(Installation  
60  
dimension)  
72  
R2.5  
VF-S11  
VF-S11  
M5  
4-M4  
4-M4  
68  
M5  
95  
EMC plate  
EMC plate  
Fig.A  
Fig.B  
Note 1. To make it easier to grasp the dimensions of  
each inverter, dimensions common to all inverters in  
these figures are shown with numeric values but not  
with symbols.  
2-f25  
8
Here are the meanings of the symbols used.  
W: Width  
H: Height  
D: Depth  
W1: Mounting dimension (horizontal)  
H1: Mounting dimension (vertical)  
H2: Height of EMC plate mounting area  
D2: Depth of frequency setting knob  
126(Installation dimension)  
140  
2-R2.5  
VF-S11  
Note 2. Here are the avaiable EMC plate  
Fig.A  
: EMP003Z (Approx. weight : 0.1kg)  
Fig.B, Fig.C : EMP004Z (Approx. weight : 0.1kg)  
M5  
4-M4  
Fig.D  
Fig.E  
: EMP005Z (Approx. weight : 0.3kg)  
: EMP006Z (Approx. weight : 0.3kg)  
95  
EMC plate  
Fig.C  
Note 3. The models shown in Fig. A and Fig. B are  
fixed at two points: in the upper left and lower right  
corners.  
Note 4. The model shown in Fig. A is not equipped with  
a cooling fan.  
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E6581160  
f13  
160(Installation dimension)  
180  
2-R2.5  
VF-S11  
M5  
4-M4  
178  
EMC plate  
Fig.D  
f1  
4
8
225 (Installation dimension)  
245  
2-R3  
VF-S11  
M4  
4-M4  
198  
EMC plate  
Fig.E  
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E6581160  
9. Before making a service call  
- Trip information and remedies  
9.1  
Trip causes/warnings 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]  
Error code  
Failure code  
0001  
0025  
Problem  
Possible causes  
Remedies  
Overcurrent during  
acceleration  
Overcurrent flowing  
in element during  
acceleration  
The acceleration time CEE is too short.  
The V/F setting is improper.  
A restart signal is imput to the rotating  
motor after a momentary stop, etc.  
A special motor (e.g. motor with a small  
impedance) is used.  
Increase the acceleration time CEE.  
Check the V/F parameter.  
Use Hꢁꢂꢀ (auto-restart) and Hꢁꢂꢃ  
(ride-through control).  
Adjust the carrier frequency Hꢁꢂꢂ.  
Set the carrier frequency control mode  
selection parameter f316 to 1 or 3  
(carrier frequency decreased  
automatically).  
QEꢀ  
QEꢀR  
0002  
0026  
Overcurrent during  
deceleration  
Overcurrent flowing  
in element during  
decelearion  
The deceleration time FGE is too short.  
Increase the deceleration time FGE.  
Set the carrier frequency control mode  
selection parameter f316 to 1 or 3  
(carrier frequency decreased  
automatically).  
QEꢃ  
QEꢃR  
0003  
0027  
Overcurrent during  
constant speed  
operation  
Overcurrent flowing  
in element during  
operation  
The load fluctuates abruptly.  
The load is in an abnormal condition.  
Reduce the load fluctuation.  
Check the load (operated machine).  
Set the carrier frequency control mode  
selection parameter f316 to 1 or 3  
(carrier frequency decreased  
automatically).  
QEꢁ  
QEꢁR  
9
0025  
0026  
0027  
Ground fault trip  
Arm overcurrent at  
start-up  
(for 11 and 15 kW  
models only)  
A current leaked from an output cable or  
the motor to ground.  
A main circuit elements is defective.  
Check cables, connectors, and so on for  
ground faults.  
Make a service call.  
ꢂEꢀR  
ꢂEꢃR  
ꢂEꢁR  
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.  
A 11 or 15 kW model was started,  
although a current is leaked from an  
output cable or the motor to ground.  
Check the cables and wires for defective  
insulation.  
When using a 11 or 15 kW model, check  
cables, connectors, and so on for ground  
faults.  
QEN  
0005  
0008  
Arm overcurrent at  
start-up  
Input phase failure  
A main circuit elements is defective.  
Make a service call.  
QEC  
A phase failure occured in the input line of  
the main circuit.  
The capacitor in the main circuit lacks  
capacitance.  
Check the main circuit input line for phase  
failure.  
Enable Hꢄꢂꢅ (input phase failure  
detection).  
Check the capacitor in the main circuit for  
exhaustion.  
Check the main circuit output line, motor,  
etc. for phase failure.  
*
GRJꢀ  
0009  
Output phase failure  
A phase failure occurred in the output line  
of the main circuit.  
*
GRJQ  
Enable Hꢄꢂꢆ (Output phase failure  
detection).  
*
You can select a trip ON/OFF by parameters.  
(Continued overleaf)  
76  
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E6581160  
(Continued)  
Failure code  
Error code  
Problem  
Possible causes  
Remedies  
000A  
Overvoltage during  
acceleration  
The imput voltage fluctuates abnormally.  
Insert a suitable input reactor.  
QRꢀ  
(1) The power supply has a capacity of  
200kVA or more.  
(2) A power factor improvement capacitor is  
opened or closed.  
(3) A system using a thyrister is connected  
to the same power distribution line.  
A restart signal is input to the rotating  
motor after a momentary stop, etc.  
The deceleration time FGE is too short.  
(Regenerative energy is too large.)  
Hꢁꢂꢇ (dynamic braking resistor) is off.  
Hꢁꢂꢆ (overvoltage limit operation) is  
off.  
Use Hꢁꢂꢀ (auto-restart) and Hꢁꢂꢃ  
(ride-through control).  
Increase the deceleration time FGE.  
Install a dynamic braking resistor.  
Enable Hꢁꢂꢇ (dynamic braking  
resistor).  
Enable Hꢁꢂꢆ (overvoltage limit  
operation).  
Insert a suitable input reactor.  
000B  
Overvoltage during  
deceleration  
QRꢃ  
The input voltage fluctuates abnormally.  
(1) The power supply has a capacity of  
200kVA or more.  
(2) A power factor improvement capacitor is  
opened and closed.  
(3) A system using a thyrister is connected  
to the same power distribution line.  
000C  
Overvoltage during  
constant-speed  
operation  
The input voltage fluctuates abnormally.  
Insert a suitable input reactor.  
QRꢁ  
(1) The power supply has a capacity of  
200kVA or more.  
(2) A power factor improvement capacitor is  
opened or closed.  
(3) A system using a thyrister is connected  
to the same power distribution line.  
The motor is in a regenerative state  
because the load causes the motor to run  
at a frequency higher than the inverter  
output frequency.  
Install a dynamic braking resistor.  
000D  
Inverter overload  
Motor overload  
The acceleration time ACC is too short.  
The DC braking amout is too large.  
The V/F setting is improper.  
A restart signal is input to the rotating  
motor after a momentary stop, etc.  
The load is too large.  
Increase the acceleration time CEE.  
Reduce the DC braking amount Hꢃꢆꢀ  
and the DC braking time Hꢃꢆꢃ.  
Check the V/F parameter setting.  
Use Hꢁꢂꢀ (auto-restart) and Hꢁꢂꢃ  
(ride-through control).  
QNꢀ  
9
Use an inverter with a larger rating.  
000E  
000F  
The V/F setting is improper.  
The motor is locked up.  
Low-speed operation is performed  
continuously.  
An excessive load is applied to the motor  
during operation.  
The deceleration time is too short.  
Dynamic braking is too large.  
Check the V/F parameter setting.  
Check the load (operated machine).  
Adjust QNO to the overload that the  
motor can withstand during operation in a  
low speed range.  
QNꢃ  
QNT  
Dynamic braking  
resistor  
overload trip  
Increase the deceleration time FGE.  
Increase the capacity of dynamic braking  
resistor (wattage) and adjust PBR  
capacity parameter Hꢁꢂꢅ.  
0020  
0010  
Over-torque trip  
Overheat  
Over-torque reaches to a detection level  
during operation.  
Enable Hꢄꢀꢆ (over-torque trip  
selection).  
Check system error.  
Restart the operation by resetting the  
inverter after it has cooled down enough.  
The fan requires replacement if it does  
not rotate during operation.  
Secure sufficient space around the  
inverter.  
*
QV  
The cooling fan does not rotate.  
The ambient temperature is too high.  
The vent is blocked up.  
A heat generating device is installed close  
to the inverter.  
QJ  
The thermistor in the unit is broken.  
Do not place any heat generating device  
near the inverter.  
Make a service call.  
*
You can select a trip ON/OFF by parameters.  
(Continued overleaf)  
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E6581160  
(Continued)  
Failure code  
Error code  
Problem  
Possible causes  
Remedies  
002E  
0011  
External thermal trip  
Emergency stop  
An external thermal trip is input.  
Check the external thermal input.  
Reset the inverter.  
QJꢃ  
G
During automatic operation or remote  
operation, a stop command is entered  
from the operation panel or a remote  
input device.  
0012  
0013  
0014  
EEPROM fault 1  
EEPROM fault 2  
EEPROM fault 3  
A data writing error occurs.  
Turn off the inverter, then turn it again. If it  
does not recover from the error, make a  
service call.  
Turn the power off temporarily and turn it  
back on, and then try V[R operation  
again.  
Turn off the inverter, then turn it again. If it  
does not recover from the error, make a  
service call.  
GGRꢀ  
GGRꢃ  
GGRꢁ  
Power supply is cut off during V[R  
operation and data writing is aborted.  
A data reading error occurred.  
0015  
0016  
0017  
0018  
Main unit RAM fault  
Main unit ROM fault  
CPU fault 1  
The control RAM is defective.  
The control ROM is defective.  
The control CPU is defective.  
An error arises during remote operation.  
Make a service call.  
Make a service call.  
Make a service call.  
GTTꢃ  
GTTꢁ  
GTTꢇ  
GTTꢆ  
Remote control error  
Check the remote control device, cables,  
etc.  
001A  
001B  
Current detector fault  
The current detector is defective.  
Make a service call.  
GTTꢈ  
GTTꢅ  
Optional circuit board  
format error  
An optional circuit board in a different  
format is installed.  
Check again to be sure that the circuit  
board is connected correctly, and then  
reset the power supply.  
Replace the circuit board with a correctly  
formatted one.  
001D  
001E  
Low-current  
operation  
Trip  
The output current decreased to a low-  
current detection level during operation.  
Enable Hꢄꢀꢂ (low-current detection).  
Check the suitable detection level for the  
system (Hꢄꢀꢀ, Hꢄꢀꢃ).  
Make a service call if the setting is  
correct.  
Check the input voltage.  
Enable Hꢄꢃꢈ (undervoltage trip  
selection).  
*
WE  
Undervoltage trip  
(main circuit)  
The input voltage (in the main circuit) is  
too low.  
*
WRꢀ  
9
To cope with a momentary stop due to  
undervoltage, enable Hꢁꢂꢃ (ride-  
through control) and Hꢁꢂꢀ (auto-  
restart).  
0022  
0054  
Ground fault trip  
Auto-tuning error  
A ground fault occurs in the output cable  
or the motor.  
Check the motor parameter Hꢇꢂꢀ to Hꢇꢉꢇ.  
The motor with the capacity of 2 classes or less than the inverter is used.  
The output cable is too thin.  
The motor is rotating.  
The inverter is used for loads other than those of three-phase induction motors.  
Circuit board is changed.  
(Or main circuit/drive circuit board)  
The signal input via VIA is below the  
analog sinal detectio level set with  
Hꢄꢁꢁ.  
A communications error occurs between  
control CPUs.  
Check the cable and the motor for ground  
faults.  
GHꢃ  
GVPꢀ  
0029  
0032  
Inverter  
type error  
Brea in analog signal  
cable  
Make a service call.  
GV[R  
Check the cables for breaks. And check  
the setting of input signal or setting value  
of Hꢄꢁꢁ.  
*
Gꢊꢀꢅ  
0033  
0034  
CPU  
communications  
error  
Excessive torque  
boosted  
Make a service call.  
Gꢊꢀꢉ  
Gꢊꢃꢂ  
The torque boost parameter Hꢇꢂꢃ is  
set too high.  
The motor has too small impedance.  
Decrease the setting of the torque boost  
parameter Hꢇꢂꢃ.  
0035  
002F  
CPU fault 2  
The control CPU is defective.  
Make a service call.  
Gꢊꢃꢀ  
UQWV  
Step-out  
(For PM motor only)  
The motor shaft is locked.  
One output phase is open.  
An impact load is applied.  
Unlock the motor shaft.  
Check the interconnect cables between  
the inverter and the motor.  
*
You can select a trip ON/OFF by parameters.  
78  
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E6581160  
[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  
Undervoltage in main  
circuit  
QHH  
OQHH  
The supply voltage between R, S and T is  
under voltage.  
Measure the main circuit supply voltage.  
If the voltage is at a normal level, the  
inverter requires repairing.  
Retry in process  
The inverter is n the process of retry.  
A momentary stop occurred.  
The inverter is normal if it restarts after  
several tens of senconds.  
TVT[  
The inverter restarts automatically. Be  
careful of the machine because it may  
suddenly restart.  
Frequency point  
setting error alarm  
Clear command  
acceptable  
The frequency setting signals at points 1  
and 2 are set too close to each other.  
This message is displayed when pressing  
the STOP key while an error code is  
displayed.  
Set the frequency setting signals at points  
1 and 2 apart from each other.  
Press the STOP key again to clear the  
trip.  
GTTꢀ  
ENT  
Emergency stop  
command  
acceptable  
The operation panel is used to stop 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.  
Check whether the setting is made  
correctly.  
GQHH  
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.  
Jꢀ/  
NQ  
Display of first/last  
data items  
The first and last data item in the CWJ  
data group is displayed.  
Press MODE key to exit the data group.  
JGCF/  
GPF  
FD  
DC braking  
DC braking in process  
The message goes off in several tens of  
seconds if no problem occurs. Note)  
Normal if the message disappears when  
a stop command is entered (or the  
operation command is canceled).  
Shaft fixing control  
Motor shaft fixing control is in process.  
FDZP  
Flowing out of  
excess number of  
digits  
The number of digits such as frequencies  
is more than 4.  
(The upper digits have a priority.)  
Lower the fequency free unit  
magnification Hꢈꢂꢃ.  
Gꢀ  
Gꢃ  
Gꢁ  
UVQR  
9
Momentary power  
failure slowdown  
stop prohibition  
The slowdown stop prohibition function  
set with Hꢁꢂꢃ (momentary power  
failure ride-through operation) is  
activated.  
To restart operation, reset the inverter or  
input an operation signal again.  
function activated.  
Auto-stop because of  
continuous operation  
at the lower-limit  
frequency  
The automatic stop function selected with  
Hꢃꢆꢄ was activated.  
To deactivate the automatic stop function,  
increase the frequency command above  
the lower-limit frequency (LL) + 0.2 Hz or  
turn off the operation command.  
NUVR  
Parameters in the  
process of  
initialization  
Operation panel key  
fault  
Parameters are being initialized to default  
values.  
Normal if the message disappears after a  
while (several seconds to several tens of  
seconds).  
KPKV  
Gꢊꢀꢈ  
CVPꢀ  
The RUN or STOP key is held down for  
more than 20 seconds.  
The RUN or STOP key is faulty.  
Check the operation panel.  
Auto-tuning  
Auto-tuning in process  
Normal if it the message disappears after  
a few seconds.  
Note) When the ON/OFF function is selected for DC braking (DB), using the input terminal selection parameter, you can judge  
the inverter to be normal if “FD” disappears when opening the circuit between the terminal and CC.  
[Prealarm display]  
Overcurrent alarm  
Overvoltage alarm  
Overload alarm  
Overheat alarm  
Same as QE (overcurrent)  
Same as QR (overvoltage)  
Same as QNꢀ and QNꢃ (overload)  
Same as QJ (overheat)  
E
R
N
J
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TOSHIBA INTERNATIONAL CORPORATION  
13131 West Little York RD., Houston,  
TX 77041, U.S.A  
TOSHIBA INTERNATIONAL CORPORATION PTY., LTD  
2 Morton Street Parramatta, NSW2150, Australia  
TEL: +61-(0)2-9768-6600  
TOSHIBA  
OVERSEAS SALES & MARKETING DEPT.  
ELECTRICAL APPARATUS & MEASUREMENT DIV.  
TEL: +1-713-466-0277  
FAX: +1-713-896-5226  
FAX: +61-(0)2-9890-7542  
TOSHIBA INFORMATION, INDUSTRIAL AND POWER  
SYSTEMS TAIWAN CORP.  
6F, No66, Sec1 Shin Sheng N.RD, Taipei, Taiwan  
TEL: +886-(0)2-2581-3639  
INDUSTRIAL AND POWER  
TOSHIBA ASIA PACIFIC PTE., LTD  
152 Beach Rd., #16-00 Gateway East,  
Singapore 189721  
TEL: +65-6297-0900  
FAX: +65-6297-5510  
SYSTEMS & SERVICES COMPANY  
FAX: +886-(0)2-2581-3631  
1-1, Shibaura 1-chome, Minato-Ku,  
Tokyo 105-8001, Japan  
TEL: +81-(0)3-3457-4911  
FAX: +81-(0)3-5444-9268  
TOSHIBA CHINA CO., LTD  
23rd Floor, HSBC Tower, 101 Yin Cheng  
East Road, Pudong New Area, Shanghai  
200120, The People's Republic of China  
TEL: +86-(0)21-6841-5666  
FAX: +86-(0)21-6841-1161  
For further information, please contact your nearest Toshiba Liaison Representative or International Operations - Producer Goods.  
The data given in this manual are subject to change without notice.  
2004-12  
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