Delta Products VFD-E Users Manual

Preface

Thank you for choosing DELTA’s high-performance VFD-E Series. The VFD-E Series is

manufactured with high-quality components and materials and incorporate the latest microprocessor

technology available.

This manual is to be used for the installation, parameter setting, troubleshooting, and daily

maintenance of the AC motor drive. To guarantee safe operation of the equipment, read the following

safety guidelines before connecting power to the AC motor drive. Keep this operating manual at

hand and distribute to all users for reference.

To ensure the safety of operators and equipment, only qualified personnel familiar with AC motor

drive are to do installation, start-up and maintenance. Always read this manual thoroughly before

using VFD-E series AC Motor Drive, especially the WARNING, DANGER and CAUTION notes.

Failure to comply may result in personal injury and equipment damage. If you have any questions,

please contact your dealer.

PLEASE READ PRIOR TO INSTALLATION FOR SAFETY.

DANGER!

1. AC input power must be disconnected before any wiring to the AC motor drive is made.

2. A charge may still remain in the DC-link capacitors with hazardous voltages, even if the power

has been turned off. To prevent personal injury, please ensure that power has turned off before

opening the AC motor drive and wait ten minutes for the capacitors to discharge to safe voltage

levels.

3. Never reassemble internal components or wiring.

4. The AC motor drive may be destroyed beyond repair if incorrect cables are connected to the

input/output terminals. Never connect the AC motor drive output terminals U/T1, V/T2, and

W/T3 directly to the AC mains circuit power supply.

5. Ground the VFD-E using the ground terminal. The grounding method must comply with the laws

of the country where the AC motor drive is to be installed. Refer to the Basic Wiring Diagram.

6. VFD-E series is used only to control variable speed of 3-phase induction motors, NOT for 1-

phase motors or other purpose.

7. VFD-E series shall NOT be used for life support equipment or any life safety situation.

WARNI NG!

1. DO NOT use Hi-pot test for internal components. The semi-conductor used in AC motor drive

easily damage by high-voltage.

2. There are highly sensitive MOS components on the printed circuit boards. These components

are especially sensitive to static electricity. To prevent damage to these components, do not

touch these components or the circuit boards with metal objects or your bare hands.

3. Only qualified persons are allowed to install, wire and maintain AC motor drives.

CAUTION!

1. Some parameters settings can cause the motor to run immediately after applying power.

2. DO NOT install the AC motor drive in a place subjected to high temperature, direct sunlight,

high humidity, excessive vibration, corrosive gases or liquids, or airborne dust or metallic

particles.

3. Only use AC motor drives within specification. Failure to comply may result in fire, explosion or

electric shock.

4. To prevent personal injury, please keep children and unqualified people away from the

equipment.

5. When the motor cable between AC motor drive and motor is too long, the layer insulation of the

motor may be damaged. Please use a frequency inverter duty motor or add an AC output

reactor to prevent damage to the motor. Refer to appendix B Reactor for details.

6. The rated voltage for AC motor drive must be ≤ 240V (≤ 480V for 460V models) and the short
circuit must be ≤ 5000A RMS (≤10000A RMS for the ≥ 40hp (30kW) models).

DeviceNet is a registered trademark of the Open DeviceNet Vendor Association, Inc. Lonwork is a

registered trademark of Echelon Corporation. Profibus is a registered trademark of Profibus

International. CANopen is a registered trademark of CAN in Automation (CiA). Other trademarks

belong to their respective owners.

Table of Contents

Preface ............................................................................................................. i

Table of Contents .......................................................................................... iii

Chapter 1 Introduction................................................................................ 1-1

1.1 Receiving and Inspection ...................................................................1-2

1.1.1 Nameplate Information................................................................ 1-2

1.1.2 Model Explanation ...................................................................... 1-2

1.1.3 Series Number Explanation ........................................................ 1-3

1.1.4 Drive Frames and Appearances ................................................. 1-3

1.1.5 Remove Instructions ................................................................... 1-7

1.2 Preparation for Installation and Wiring ............................................... 1-9

1.2.1 Ambient Conditions..................................................................... 1-9

1.2.2 DC-bus Sharing: Connecting the DC-bus of the AC Motor Drives in

Parallel...............................................................................................

1.3 Dimensions....................................................................................... 1-13

Chapter 2 Installation and Wiring .............................................................. 2-1

2.1 Wiring ................................................................................................. 2-2

2.2 External Wiring ................................................................................. 2-12

2.3 Main Circuit ...................................................................................... 2-13

2.3.1 Main Circuit Connection............................................................ 2-13

2.3.2 Main Circuit Terminals .............................................................. 2-16

2.4 Control Terminals ............................................................................. 2-17

1-12

Chapter 3 Keypad and Start Up ..................................................................3-1

3.1 Keypad ...............................................................................................3-1

3.2 Operation Method ...............................................................................3-2

3.3 Trial Run .............................................................................................3-3

Chapter 4 Parameters..................................................................................4-1

4.1 Summary of Parameter Settings......................................................... 4-2

4.2 Parameter Settings for Applications..................................................4-33

4.3 Description of Parameter Settings ....................................................4-38

4.4 Different Parameters for VFD*E*C Models ..................................... 4-182

Chapter 5 Troubleshooting.........................................................................5-1

5.1 Over Current (OC) ..............................................................................5-1

5.2 Ground Fault.......................................................................................5-2

5.3 Over Voltage (OV) ..............................................................................5-2

5.4 Low Voltage (Lv).................................................................................5-3

5.5 Over Heat (OH)...................................................................................5-4

5.6 Overload ............................................................................................. 5-4

5.7 Keypad Display is Abnormal...............................................................5-5

5.8 Phase Loss (PHL)...............................................................................5-5

5.9 Motor cannot Run ...............................................................................5-6

5.10 Motor Speed cannot be Changed .....................................................5-7

5.11 Motor Stalls during Acceleration .......................................................5-8

5.12 The Motor does not Run as Expected ..............................................5-8

5.13 Electromagnetic/Induction Noise ......................................................5-9

5.14 Environmental Condition...................................................................5-9

5.15 Affecting Other Machines................................................................5-10

Chapter 6 Fault Code Information and Maintenance................................ 6-1

6.1 Fault Code Information....................................................................... 6-1

6.1.1 Common Problems and Solutions............................................... 6-1

6.1.2 Reset .......................................................................................... 6-6

6.2 Maintenance and Inspections............................................................. 6-6

Appendix A Specifications ........................................................................ A-1

Appendix B Accessories ........................................................................... B-1

B.1 All Brake Resistors & Brake Units Used in AC Motor Drives..............B-1

B.1.1 Dimensions and Weights for Brake Resistors ............................ B-4

B.1.2 Specifications for Brake Unit ......................................................B-7

B.1.3 Dimensions for Brake Unit..........................................................B-8

B.1.4 DIN Rail Installation .................................................................... B-9

B.2 No-fuse Circuit Breaker Chart ..........................................................B-10

B.3 Fuse Specification Chart ..................................................................B-11

B.4 AC Reactor ......................................................................................B-12

B.4.1 AC Input Reactor Recommended Value................................... B-12

B.4.2 AC Output Reactor Recommended Value................................B-13

B.4.3 Applications .............................................................................. B-14

B.5 Zero Phase Reactor (RF220X00A) .................................................. B-17

B.6 Remote Controller RC-01.................................................................B-18

B.7 PU06................................................................................................B-19

B.7.1 Description of the Digital Keypad VFD-PU06 ...........................B-19

B.7.2 Explanation of Display Message...............................................B-19

B.7.3 Operation Flow Chart ...............................................................B-20

B.8 KPE-LE02........................................................................................ B-21

B.8.1 Description of the Digital Keypad KPE-LE02 ............................B-21

B.8.2 How to Operate the Digital Keypad...........................................B-23

B.8.3 Reference Table for the 7-segment LED Display of the Digital

Keypad...............................................................................................

B.8.4 Keypad Dimensions ..................................................................B-24

B.9 Extension Card................................................................................ B-25

B.9.1 Relay Card................................................................................B-25

B.9.2 Digital I/O Card .........................................................................B-26

B.9.3 Analog I/O Card ........................................................................B-26

B.9.4 Communication Card ................................................................B-26

B.9.5 Speed Feedback Card ..............................................................B-27

B.10 Fieldbus Modules .......................................................................... B-27

B.10.1 DeviceNet Communication Module (CME-DN01) ...................B-27

B.10.1.1 Panel Appearance and Dimensions ................................B-27

B.10.1.2 Wiring and Settings .........................................................B-28

B-24

B.10.1.3 Mounting Method ............................................................B-28

B.10.1.4 Power Supply ..................................................................B-29

B.10.1.5 LEDs Display...................................................................B-29

B.10.2 LonWorks Communication Module (CME-LW01) ...................B-30

B.10.2.1 Introduction .....................................................................B-30

B.10.2.2 Dimensions .....................................................................B-30

B.10.2.3 Specifications ..................................................................B-30

B.10.2.4 Wiring ..............................................................................B-31

B.10.2.5 LED Indications ...............................................................B-31

B.10.3 Profibus Communication Module (CME-PD01) ......................B-31

B.10.3.1 Panel Appearance ..........................................................B-32

B.10.3.2 Dimensions ..................................................................... B-33

B.10.3.3 Parameters Settings in VFD-E........................................B-33

B.10.3.4 Power Supply.................................................................. B-33

B.10.3.5 PROFIBUS Address .......................................................B-33

B.10.4 CME-COP01 (CANopen)........................................................ B-34

B.10.4.1 Product Profile ................................................................ B-34

B.10.4.2 Specifications.................................................................. B-34

B.10.4.3 Components ...................................................................B-35

B.10.4.4 LED Indicator Explanation & Troubleshooting ................ B-36

B.11 DIN Rail..........................................................................................B-38

B.11.1 MKE-DRA...............................................................................B-38

B.11.2 MKE-DRB...............................................................................B-39

B.11.3 MKE-EP.................................................................................. B-39

B.12 EMI Filter........................................................................................B-40

Appendix C How to Select the Right AC Motor Drive.............................. C-1

C.1 Capacity Formulas.............................................................................C-2

C.2 General Precaution............................................................................C-4

C.3 How to Choose a Suitable Motor .......................................................C-5

Appendix D How to Use PLC Function..................................................... D-1

D.1 PLC Overview....................................................................................D-1

D.1.1 Introduction ................................................................................D-1

D.1.2 Ladder Diagram Editor – WPLSoft ............................................. D-1

D.2 Start-up .............................................................................................D-2

D.2.1 The Steps for PLC Execution .................................................... D-2

D.2.2 Device Reference Table ............................................................ D-3

D.2.3 WPLSoft Installation .................................................................. D-4

D.2.4 Program Input............................................................................ D-4

D.2.5 Program Download .................................................................... D-5

D.2.6 Program Monitor ........................................................................ D-5

D.2.7 The Limit of PLC ........................................................................ D-5

D.3 Ladder Diagram ................................................................................ D-7

D.3.1 Program Scan Chart of the PLC Ladder Diagram...................... D-7

D.3.2 Introduction................................................................................ D-7

D.3.3 The Edition of PLC Ladder Diagram ........................................ D-10

D.3.4 The Example for Designing Basic Program ............................. D-13

D.4 PLC Devices ................................................................................... D-18

D.4.1 Summary of DVP-PLC Device Number ................................... D-18

D.4.2 Devices Functions ................................................................... D-19

D.4.3 Value, Constant [K] / [H] .......................................................... D-20

D.4.4 The Function of Auxiliary Relay ............................................... D-21

D.4.5 The Function of Timer.............................................................. D-21

D.4.6 The Features and Functions of Counter .................................. D-22

D.4.7 Register Types......................................................................... D-23

D.4.8 Special Auxiliary Relays .......................................................... D-24

D.4.9 Special Registers..................................................................... D-25

D.4.10 Communication Addresses for Devices (only for PLC2 mode) .. D­26

D.4.11 Function Code (only for PLC2 mode) .....................................D-27

D.5 Commands ......................................................................................D-27

D.5.1 Basic Commands .....................................................................D-27

D.5.2 Output Commands ...................................................................D-28

D.5.3 Timer and Counters..................................................................D-28

D.5.4 Main Control Commands..........................................................D-28

D.5.5 Rising-edge/falling-edge Detection Commands of Contact ...... D-28

D.5.6 Rising-edge/falling-edge Output Commands............................D-29

D.5.7 End Command .........................................................................D-29

D.5.8 Explanation for the Commands ................................................D-29

D.5.9 Description of the Application Commands................................D-44

D.5.10 Explanation for the Application Commands............................ D-45

D.5.11 Special Application Commands for the AC Motor Drive .........D-57

D.6 Error Code .......................................................................................D-64

Appendix E CANopen Function .................................................................E-1

E.1 Overview ............................................................................................E-2

E.1.1 CANopen Protocol......................................................................E-2

E.1.2 RJ-45 Pin Definition....................................................................E-3

E.1.3 Pre-Defined Connection Set.......................................................E-3

E.1.4 CANopen Communication Protocol ............................................ E-4

E.1.4.1 NMT (Network Management Object) ..................................E-4

E.1.4.2 SDO (Service Data Object).................................................E-6

E.1.4.3 PDO (Process Data Object)................................................E-7

E.1.4.4 EMCY (Emergency Object).................................................E-9

E.2 How to Control by CANopen ........................................................... E-13

Chapter 1 Introduction

The AC motor drive should be kept in the shipping carton or crate before installation. In order to retain

the warranty coverage, the AC motor drive should be stored properly when it is not to be used for an

extended period of time. Storage conditions are:

CAUTION!

1. Store in a clean and dry location free from direct sunlight or corrosive fumes.

2. Store within an ambient temperature range of -20

3. Store within a relative humidity range of 0% to 90% and non-condensing environment.

4. Store within an air pressure range of 86 kPA to 106kPA.

5. DO NOT place on the ground directly. It should be stored properly. Moreover, if the surrounding

environment is humid, you should put exsiccator in the package.

6. DO NOT store in an area with rapid changes in temperature. It may cause condensation and

frost.

7. If the AC motor drive is stored for more than 3 months, the temperature should not be higher

than 30 °C. Storage longer than one year is not recommended, it could result in the degradation

of the electrolytic capacitors.

8. When the AC motor drive is not used for longer time after installation on building sites or places

with humidity and dust, it’s best to move the AC motor drive to an environment as stated above.

°

C to +60 °C.

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Chapter 1 Introduction|

e

1.1 Receiving and Inspection

This VFD-E AC motor drive has gone through rigorous quality control tests at the factory before

shipment. After receiving the AC motor drive, please check for the following:

Check to make sure that the package includes an AC motor drive, the User Manual/Quick



Start and CD.

Inspect the unit to assure it was not damaged during shipment.



Make sure that the part number indicated on the nameplate corresponds with the part



number of your order.

1.1.1 Nameplate Information

Example for 1HP/0.75kW 3-phase 230V AC motor drive

AC Dri ve Mod el

Input Spec.

Output Freque ncy Range

Se rial Num ber & Bar Code

Software Version

Output Sp ec.

Power Board
Control B oard

1.1.2 Model Explanation

A

VFD

23

007

E

002: 0 .25 HP(0.2k W)
004: 0 .5 HP(0.4k W)

007: 1 HP(0.75k W)

015: 2 HP(1.5k W)
022: 3 HP(2.2k W)

MODEL VFD007E23A:

INPUT :3PH 200-240V 50/60Hz 5.1A
OUTPUT :3PH 0-240V 4.2A 1.6kVA 0.75kW/1HP
FREQUEN CY RANGE : 0.1~ 400Hz

007E23A0T 8011230

01.03

02.03

A: St andard dri v
C: CANopen

Ver sion Typ e

P: Col d plate dri ve (fra me A only)
T: Frame A, built-in brake chopp er

Mains In put Volta ge
11:115 Single phaseV
23:23 0 Three phaseV

21: phase230V Sin gle
43:46 0 Three phaseV

E Series

Applicable motor capacity

037: 5 HP(3.7kW)
055: 7 .5 HP(5.5k W)

075: 10 HP(7.5kW)

110: 15 HP(11kW)
150: 20 HP(15k W)

185: 2 5 HP(18.5kW)
220: 3 0 HP(22kW)

Series Name ( ariabl e requency rive)VF D

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1.1.3 Series Number Explanation

8

0T007E23A

230V 3-phase 1HP (0.75kW)

01

1230

Production number
Production week
Production year 2008
Pro du ction f act ory
T: Taoyu an, W: Wu jiang

Model

If the nameplate information does not correspond to your purchase order or if there are
any problems, please contact your distributor.

1.1.4 Drive Frames and Appearances

0.25-2HP/0.2-1.5kW (Frame A)

Input te rminals
(R/L 1, S/ L2, T/L3)

Keypad cover

Cont rol board c over

Outpu t terminals
(U/T1, V/T2, W/T3)

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Chapter 1 Introduction|

1-5HP/0.75-3.7kW (Frame B)

7.5-15HP/5.5-11kW (Frame C)

20-30HP/15-22kW (Frame D)

Input terminals
(R/L1, S/L2, T/L3)

Keypad cover

Case body

Control board cover

Output terminals
(U/T1, V/T2, W/T3)

Input terminals
(R/L1, S/L2, T/L3)

Case body

Keypad cover

Control board cover

Output terminals
(U/T1, V/T2, W/T3)

Input terminals
(R/L1, S/L2, T/L3)

Case body

Keypad cover

Control board cover

Output terminals
(U/T1, V/T2, W/T3)

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Internal Structure

READY: power indicator
RUN: status indicator
FAULT: fault indicator

1.

Switch to ON for 50Hz, refer to
P 01.00 to P01.02 for details

2.

Switch to ON for free run to stop
refer to P02.02

Switch to ON for setting frequency

3.

source to ACI (P 02.00=2)

ACI terminal (ACI/AVI2 switch )

NPN/PNP

Mounting port for extension card

RS485 port (RJ-45)

NOTE

The LED “READY” will light up after applying power. The light won’t be off until the capacitors are

discharged to safe voltage levels after power off.

RFI Jumper Location

Frame A: near the output terminals (U/T1, V/T2, W/T3)

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Chapter 1 Introduction|

Frame B: above the nameplate

Frame C: above the warning label

Frame D: near the input terminals (R/L1, S/L2, T/L3)

Frame Power range Models

VFD002E11A/21A/23A, VFD004E11A/21A/23A/43A,

VFD007E21A/23A/43A, VFD015E23A/43A

VFD002E11C/21C/23C, VFD004E11C/21C/23C/43C,

A (A1) 0.25-2hp (0.2-1.5kW)

VFD007E21C/23C/43C, VFD015E23C/43C

VFD002E11T/21T/23T, VFD004E11T/21T/23T/43T,

VFD007E21T/23T/43T, VFD015E23T/43T

A (A2) 0.25-2hp (0.2-1.5kW)

VFD002E11P/21P/23P, VFD004E11P/21P/23P/43P,

VFD007E21P/23P/43P, VFD015E23P/43P

VFD007E11A, VFD015E21A, VFD022E21A/23A/43A,

B 1-5hp (0.75-3.7kW)

VFD037E23A/43A, VFD007E11C, VFD015E21C,

VFD022E21C/23C/43C, VFD037E23C/43C

C 7.5-15hp (5.5-11kW)

D 20-30hp (15-22kW)

VFD055E23A/43A, VFD075E23A/43A, VFD110E23A/43A,

VFD055E23C/43C, VFD075E23C/43C, VFD110E23C/43C

VFD150E23A/43A, VFD150E23C/43C, VFD185E43A/43C,

VFD220E43A/43C

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RFI Jumper

RFI Jumper: The AC motor drive may emit the electrical noise. The RFI jumper is used to suppress

the interference (Radio Frequency Interference) on the power line.

Main power isolated from earth:

If the AC motor drive is supplied from an isolated power (IT power), the RFI jumper must be cut off.

Then the RFI capacities (filter capacitors) will be disconnected from ground to prevent circuit damage

(according to IEC 61800-3) and reduce earth leakage current.

CAUTION!

1. After applying power to the AC motor drive, do not cut off the RFI jumper. Therefore,

please make sure that main power has been switched off before cutting the RFI jumper.

2. The gap discharge may occur when the transient voltage is higher than 1,000V. Besides,

electro-magnetic compatibility of the AC motor drives will be lower after cutting the RFI

jumper.

3. Do NOT cut the RFI jumper when main power is connected to earth.

4. The RFI jumper cannot be cut when Hi-pot tests are performed. The mains power and

motor must be separated if high voltage test is performed and the leakage currents are

too high.

5. To prevent drive damage, the RFI jumper connected to ground shall be cut off if the AC

motor drive is installed on an ungrounded power system or a high resistance-grounded

(over 30 ohms) power system or a corner grounded TN system.

1.1.5 Remove Instructions

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Chapter 1 Introduction|

Remove Keypad

1. Press and hold in the tabs on each side

of the cover.

2. Pull the cover up to release.

Remove Front Cover

Remove RST Terminal Cover

For Frame B, Frame C and Frame D: it only

needs to turn the cover lightly to open it

For frame A, it doesn’t have cover and can be

wired directly.

Remove Fan

For Frame A, Frame B, Frame C and Frame

D,

press and hold in the tabs on each side of the

fan and pull the fan up to release.

Step 1 Step 2

Remove UVW Terminal Cover

For Frame B, Frame C and Frame D: it only

needs to turn the cover light to open the cover

For frame A, it doesn’t have cover and can be

wired directly.

Remove Extension Card

For Frame A, Frame B, Frame C and Frame

D,

press and hold in the tabs on each side of the

extension card and pull the extension card up

to release. On the other hand, it can install the

extension card into the AC motor drive with

screws.

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Chapter 1 Introduction|

1.2 Preparation for Installation and Wiring

1.2.1 Ambient Conditions

Install the AC motor drive in an environment with the following conditions:

Air Temperature:

Relative Humidity: <90%, no condensation allowed

Operation

Storage

Transportation

Pollution

Degree

Minimum Mounting Clearances

Atmosphere
pressure:
Installation Site
Altitude:

Vibration:

Temperature: -20°C ~ +60°C (-4°F ~ 140°F)

Relative Humidity: <90%, no condensation allowed

Atmosphere
pressure:

Vibration:

2: good for a factory type environment.

-10 ~ +50°C (14 ~ 122°F) for UL & cUL

-10 ~ +40°C (14 ~ 104°F) for side-by-side mounting

86 ~ 106 kPa

<1000m

<20Hz: 9.80 m/s2 (1G) max
20 ~ 50Hz: 5.88 m/s2 (0.6G) max

86 ~ 106 kPa

<20Hz: 9.80 m/s2 (1G) max
20 ~ 50Hz: 5.88 m/s2 (0.6G) max

Frame A Mounting Clearances

Single drive Side-by-side installation Air flow

120mm

m
m

0
5

120mm

120mm

120mm

m
m

0
5

m
m

0
5

m
m

0
5

Air Flow

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Chapter 1 Introduction|

C

Frame B, C and D Mounting Clearances

Single drive Side-by-side installation Air flow

150mm

m
m

0
5

150mm

m
m

0
5

150mm

m
m

0
5

150mm

Air Flow

m
m

0
5

For VFD-E-P series: heat sink system example

Air-extracting apparatus

's heat sink should comply

User

Control panel

AC motor drive

CAUTION!

Duct temperature
Air flow speed

40

2m/s ec

dust collector

fan

C

1. Operating, storing or transporting the AC motor drive outside these conditions may cause

damage to the AC motor drive.

2. Failure to observe these precautions may void the warranty!

3. Mount the AC motor drive vertically on a flat vertical surface object by screws. Other directions

are not allowed.

4. The AC motor drive will generate heat during operation. Allow sufficient space around the unit

for heat dissipation.

5. The heat sink temperature may rise to 90°C when running. The material on which the AC motor

drive is mounted must be noncombustible and be able to withstand this high temperature.

with following conditions:

1. Flatness <0.1mm

2. Roughness <6um

3. Grease 10um~12 um

4. Screw torque: 16Kgf-cm

5. Recommended temperature <80

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6. When AC motor drive is installed in a confined space (e.g. cabinet), the surrounding

temperature must be within 10 ~ 40°C with good ventilation. DO NOT install the AC motor drive

in a space with bad ventilation.

7. Prevent fiber particles, scraps of paper, saw dust, metal particles, etc. from adhering to the

heatsink.

8. When installing multiple AC more drives in the same cabinet, they should be adjacent in a row

with enough space in-between. When installing one AC motor drive below another one, use a

metal separation between the AC motor drives to prevent mutual heating.

Installation with Metal Separation Installation without Metal Separation

120mm

120mm

120mm

120mm

Frame A Frame B, C and D

Air flow

150mm

150mm

150mm

150mm

120mm

A

120mm

Frame A

A

Frame B, C and D

150mm

B

B

150mm

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Chapter 1 Introduction|

1.2.2 DC-bus Sharing: Connecting the DC-bus of the AC Motor Drives in Parallel

1. This function is not for VFD-E-T series.

2. The AC motor drives can absorb mutual voltage that generated to DC bus when

deceleration.

3. Enhance brake function and stabilize the voltage of the DC bus.

4. The brake module can be added to enhance brake function after connecting in parallel.

5. Only the same power system and capacity can be connected in parallel.

6. It is recommended to connect 5 AC motor drives in parallel (no limit in horsepower but

these 5 drives should be the same power system and capacity).

power should be applied at the same time
(only the same power system and c apacity can be connected in parallel)

Power 208/220/230/380/440/480 (depend on models)

U V W U V W U V W U V W

Br ake
module

IM IM IM IM

For frame A, terminal + (-) is c onnected to the terminal + (-) of the brake module.
For frame B, C and D, terminal +/B1 (-) is connected to the terminal + (-) of the brake module.

1-12 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 1 Introduction|

1.3 Dimensions

(Dimensions are in millimeter and [inch])

Frame A

W

W1

H1

H

D

D1

D2

S2S1

Frame W W1 H H1 D D1 D2 S1 S2

A (A1)

A (A2)

72.0

[2.83]

72.0

[2.83]

60.0

[2.36]

56.0

[2.20]

142.0

[5.59]

155.0

[6.10]

120.0

[4.72]

143.0

[5.63]

152.0

[5.98]

111.5

[4.39]

50.0

[1.97]

9.5

[0.37]

4.5

[0.18]

5.2

[0.20]

- 5.3

[0.21]

Unit: mm [inch]

5.2

[0.20]

-

NOTE

Frame A (A1): VFD002E11A/21A/23A, VFD004E11A/21A/23A/43A, VFD007E21A/23A/43A,

VFD015E23A/43A, VFD002E11C/21C/23C, VFD004E11C/21C/23C/43C, VFD007E21C/23C/43C,

VFD015E23C/43C, VFD002E11T/21T/23T, VFD004E11T/21T/23T/43T, VFD007E21T/23T/43T,

VFD015E23T/43T

Frame A (A2): VFD002E11P/21P/23P, VFD004E11P/21P/23P/43P, VFD007E21P/23P/43P,

VFD015E23P/43P

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 1-13

Chapter 1 Introduction|

Frame B

W

W1

H

H1

D

D1

D2

S1

S2

Unit: mm [inch]

Frame W W1 H H1 D D1 D2 S1 S2

100.0

B1

[3.94]

NOTE

Frame B (B1): VFD007E11A, VFD015E21A, VFD022E21A/23A/43A, VFD037E23A/43A,

VFD007E11C, VFD015E21C, VFD022E21C/23C/43C, VFD037E23C/43C

1-14 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

89.0

[3.50]

174.0

[6.86]

162.0

[6.38]

152.0

[5.98]

50.0

[1.97]

4.0

[0.16]

5.5

[0.22]

5.5

[0.22]

Chapter 1 Introduction|

Frame C

W
W1

H

H1

D

D1

D2

S1

S2

Unit: mm [inch]

Frame W W1 H H1 D D1 D2 S1 S2

130.0

C1

[5.12]

NOTE

Frame C (C1): VFD055E23A/43A, VFD075E23A/43A, VFD110E23A/43A, VFD055E23C/43C,

VFD075E23C/43C, VFD110E23C/43C

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 1-15

116.0

[4.57]

260.0

[10.24]

246.5

[9.70]

169.2

[6.66]

78.5

[3.09]

8.0

[0.31]

6.5

[0.26]

5.5

[0.22]

Chapter 1 Introduction|

Frame D

W

W1

H

H1

D

D1

D2

S1

S2

Unit: mm [inch]

Frame W W1 H H1 D D1 D2 S1 S2

200.0

D

[7.87]

NOTE

Frame D (D1): VFD150E23A/23C, VFD150E43A/43C, VFD185E43A/43C, VFD220E43A/43C

1-16 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

180.0

[7.09]

310.0

[12.20]

290.0

[11.42]

190.0

[7.48]

92.0

[3.62]

10.0

[0.39]

10.0

[0.39]

9.0

[0.35]

Chapter 2 Installation and Wiring

After removing the front cover, check if the power and control terminals are clear. Be sure to observe

the following precautions when wiring.

General Wiring Information



Applicable Codes

All VFD-E series are Underwriters Laboratories, Inc. (UL) and Canadian Underwriters

Laboratories (cUL) listed, and therefore comply with the requirements of the National

Electrical Code (NEC) and the Canadian Electrical Code (CEC).

Installation intended to meet the UL and cUL requirements must follow the instructions

provided in “Wiring Notes” as a minimum standard. Follow all local codes that exceed UL

and cUL requirements. Refer to the technical data label affixed to the AC motor drive and

the motor nameplate for electrical data.

The "Line Fuse Specification" in Appendix B, lists the recommended fuse part number for

each VFD-E Series part number. These fuses (or equivalent) must be used on all

installations where compliance with U.L. standards is a required.

CAUTION!

1. Make sure that power is only applied to the R/L1, S/L2, T/L3 terminals. Failure to comply may

result in damage to the equipment. The voltage and current should lie within the range as

indicated on the nameplate.

2. All the units must be grounded directly to a common ground terminal to prevent lightning strike

or electric shock.

3. Please make sure to fasten the screw of the main circuit terminals to prevent sparks which is

made by the loose screws due to vibration.

4. Check following items after finishing the wiring:

A. Are all connections correct?

B. No loose wires?
C. No short-circuits between terminals or to ground?

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 2-1

Chapter 2 Installation and Wiring|

DANGER!

1. A charge may still remain in the DC bus capacitors with hazardous voltages even if the power

has been turned off. To prevent personal injury, please ensure that the power is turned off and

wait ten minutes for the capacitors to discharge to safe voltage levels before opening the AC

motor drive.

2. Only qualified personnel familiar with AC motor drives is allowed to perform installation, wiring

and commissioning.

3. Make sure that the power is off before doing any wiring to prevent electric shock.

2.1 Wiring

Users must connect wires according to the circuit diagrams on the following pages. Do not plug a

modem or telephone line to the RS-485 communication port or permanent damage may result. The

pins 1 & 2 are the power supply for the optional copy keypad only and should not be used for RS-485

communication.

2-2 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 2 Installation and Wiring|

r

Figure 1 for models of VFD-E Series
VFD002E11A/21A, VFD004E11A/21A, VFD007E21A, VFD002E11C/21C, VFD004E11C/21C,
VFD007E21C, VFD002E11P/21P, VFD004E11P/21P, VFD007E21P

Fuse/NFB(None Fuse Breaker)

R(L1)

S(L2)

Recommended Circui t
when power supply
is turned OFF by a
fault output
If the fault occurs, the
contact will b e ON to
turn off the power and
protect the p ower system.

Factory setting:
NPN Mode

NPN

PNP

Please refer to Figure 7
for wi ring of NPN
mode and PNP
mode.

Factory setting:
ACI Mode

ACI/AVI switch
When switch ing to AVI,
it indicates AVI2

Sw1

ACI

Factory
settin g

AVI

Sw2

SA

MC

ON

OFF

FWD/Stop

REV/Sto p

Multi-s te p 1

Multi-s te p 2

Multi-s te p 3

Multi-s te p 4

Digital Si gnal Common

3

2

5K

1

Analog Signal Common

Main c ircuit (pow er) termin als

MC

+
R(L1)
S(L2)

E

RB

RC

+24V

MI1
MI2
MI3
MI4
MI5
MI6

DCM

E

+10V

Power supply
+10V 20m A

AVI

Master Frequency
0 to 10V 4 7K

ACI

4-20mA/0-10V

ACM

E

Control c ircuit terminals

BR

BUE

brake unit
(optional)

brake resisto
( opti ona l)

-

U(T1)

V(T2)

W(T3)

E

RA

Multi-function contact output
Refer to chapter 2.4 for details.

RB

Factor y setting is
malfunction indication

RC

MO1

Factory setting:
Drive is in oper ation
48V50mA Max.

Multi-fu nction
Photocoulper Output

MCM

AFM

ACM

8

Analog Multi-function Output
Te rm i na l
facto ry setting: Analog fr eq.
/ c urre nt me ter

Analog Signal common

E

Factory setting: output frequency

RS-485 serial interface
(NOT for VFD*E*C models)

1: Reserv ed
2: E V
3: GND
4: S G-
5: SG+
6: Reserv ed

1

7: Reserv ed
8: Reserv ed

For VFD*E*C models,
please ref er t o figure 8.

Shielded l eads & Cable

Motor

IM

3~

0~10VDC/2 mA

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 2-3

Chapter 2 Installation and Wiring|

r

Figure 2 for models of VFD-E Series
VFD002E23A, VFD004E23A/43A, VFD007E23A/43A, VFD015E23A/43A, VFD002E23C,
VFD004E23C/43C, VFD007E23C/43C, VFD015E23C/43C, VFD002E23P, VFD004E23P/43P,
VFD007E23P/43P, VFD015E23P/43P

Fuse/NFB(No Fuse Breake r)

R(L1)

S(L2)

T(L3)

Recommended Circuit
when power supply
is turned OFF by a
fault output
If the fault occurs, the
contact will b e ON to
turn off the power and
protect the power system.

Factory setting:
NPN Mode

NPN

Sw1

PNP

Please refer to Figure 7
for wi ring of NPN
mode and PNP
mode.

Factory setting:
ACI Mode

AVI

Sw2

ACI

ACI/AVI switch
When switch ing to AVI,
it indicates AVI2

FWD/Stop

REV/Stop

Multi-s te p 1

Factory
settin g

Multi-s te p 2

Multi-s te p 3

Multi-s te p 4

Digital Si gnal Common

5K

Analog Signal Common

Main circ ui t (power) terminals

OFF

3

1

brake resisto

BR

(o pti onal)

BUE

brake unit

(optiona l)

+
R(L1)
S(L2)

T(L3)

E

SA

ON

MC

RB

RC

MC

+24V

MI1
MI2
MI3
MI4
MI5
MI6

DCM

E

+10V

Power supply

2

+10V 20mA

AVI

Master Frequency
0 to 10V 4 7K

ACI

4-20mA/0-10V

ACM

E

Co ntro l cir cui t ter min als

-

U(T1)

V(T2)

W(T3)

E

RA

Multi-funct ion c ontact output
Refer to chapter 2.4 for details.

RB

Factor y setting is
malfunction indication

RC

MO1

Factory setting:
Drive is in oper at ion
48V50mA Max.

Multi-function
Photocoulper Output

MCM

AFM

ACM

8

Analog Multi-function Output
Terminal
facto ry setting: Analog fr eq.
/ current meter

Analog S ignal common

E

Factory setting: output frequency

RS-485 serial interface
(NO T for VF D*E*C mo dels)

1: Reserv ed
2: E V
3: GND
4: S G-
5: SG+
6: Reserv ed
7: Reserv ed

1

8: Reserv ed

For VFD*E*C models,
please ref er to figure 8.

Shielded l eads & Cable

Motor

IM

3~

0~10VDC/2 mA

2-4 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 2 Installation and Wiring|

r

Figure 3 for models of VFD-E Series
VFD007E11A, VFD015E21A, VFD022E21A, VFD007E11C, VFD015E21C, VFD022E21C

Fuse/NFB(No Fuse B reaker)

R(L1)

S(L2)

Recommended Circuit
when power s upply
is turned OFF by a
fault output
If the fault occurs, the
contact will be O N to
turn off the power and
protect the power system.

Factory setting:
NPN Mode

NPN

Sw1

PNP

Please refer to Figure 7
for w iring of N PN
mod e and PNP
mode.

Factory setting:
ACI Mode

ACI/AVI switch
When switchin g to AVI,
it indicates AVI2

AVI

ACI

Sw2

Factory
setting

SA

MC

ON

OFF

FWD/Stop

REV/Stop

Multi-step 1

Multi-s tep 2

Multi-s tep 3

Multi-step 4

Digital Si gnal Common

3

2

5K

1

Analog Signal Common

Main circuit (power) termina ls

MC

brake resisto
(optional)

BR

+/B1

R(L1)
S(L2)

E

RB

RC

+24V

MI1
MI2
MI3
MI4
MI5
MI6

DCM

E

+10V

Power supply
+10V 20mA

AVI

Master Frequency
0 to 10V 4 7K

ACI

4-20mA/0-10V

ACM

E

Control circuit terminals

B2

-

U(T1)

V(T2)

W(T3)

E

RA

Multi-function cont act output
Refer to chapter2.4 for details.

RB

Factory setting is
malfunction indication

RC

MO1

Factory s etting:
Drive is in operation
48V50mA Max.

Multi-function
Photocoulper O utput

MCM

AFM

ACM

E

Factory s etting: output
frequency

RS-4 85 seri al int erface
(NOT for VF D*E*C models)

1: Reserved
2: EV
3: G ND
4: S G-
5: SG+
6: Reserved

1

7: Reserved

8

8: Reserved

For VFD*E*C mo dels,
please refer to figure 8.

Motor

IM

3~

Analog Multi-function
Output Terminal
factory setting: Analog
freq./ current meter

0~10VDC /2mA

Analog Signal common

Shielded l eads & Cable

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 2-5

Chapter 2 Installation and Wiring|

r

Figure 4 for models of VFD-E Series
VFD022E23A/43A, VFD037E23A/43A, VFD055E23A/43A, VFD075E23A/43A, VFD110E23A/43A,
VFD022E23C/43C, VFD037E23C/43C, VFD055E23C/43C, VFD075E23C/43C, VFD110E23C/43C,
VFD150E23A/23C, VFD150E43A/43C, VFD185E43A/43C, VFD220E43A/43C

brake resisto
( opti ona l)

BR

Fuse/NFB(N o Fuse Breaker)

R(L1)

S(L2)

T(L3)

Recommended Circ ui t
when power supply
is turned O FF by a
fault output
If the fault occurs, the
contact will b e ON to
turn off the pow er and
protect t he power system.

Factory set ting:
NPN Mode

NPN

Sw1

PNP

Please refer to Figure 7
for w iring of N PN
mode and PNP
mode.

Factory set tin g:
ACI Mode

ACI/AVI switch
When switchin g to AVI,
it indicates AVI2

ACI

Factory
setting

AVI

Sw2

SA

MC

ON

OFF

FWD/Stop

REV/Stop

Multi-s te p 1

Multi-s te p 2

Multi-s te p 3

Multi-s te p 4

Digital Signal Common

3

2

5K

1

Analog Signal Common

Main c ircuit (po wer) term inals

MC

+/B1

R(L1)
S(L2)

T(L3)

E

RB

RC

+24V

MI1
MI2
MI3
MI4
MI5
MI6

DCM

E

+10V

Power supply
+10V 20m A

AVI

Master Frequency
0 to 10V 4 7K

ACI

4-20mA/0-10V

ACM

E

Control circuit ter minals

B2

-

U(T1)

V(T2)

W(T3)

E

RA

Multi-function contact output
Refer to chapter2.4 for details.

RB

Factory setting is
malfunction indication

RC

MO1

Factory setting:
Drive is in oper atio n
48V50mA Max.

Multi-fu nction
Photocoulper Output

MCM

AFM

ACM

E

Factory setting: output
frequency

RS-485 serial interface
(NOT for VF D*E*C models)

1: Reserv ed
2: E V
3: GND
4: S G-
5: SG+
6: Reserv ed
7: Reserv ed

1

8

8: Reserv ed

For VFD*E*C models,
please refer to figure 8.

Motor

IM

3~

Analog Multi-function
Output Terminal
factory setting: Analog
freq./ current meter

0~10VDC /2mA

Analog Signal common

Shielded l eads & Cable

2-6 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 2 Installation and Wiring|

Figure 5 for models of VFD-E Series
VFD002E11T/21T, VFD004E11A/21T, VFD007E21T

Fuse/NFB(No Fuse B reaker)

R(L1)

S(L2)

Recommended Circuit
when power s upply
is turned O FF by a
fault output
If the fault occurs, the
contact will be O N to
turn off the pow er and
protect t he power system.

Factory setting:
NPN Mode

NPN

Sw1

PNP

Please refer to Figure 7
for w iring of N PN
mod e and PNP
mode.

Factory setting:
ACI Mode

ACI/AVI switch
When switchin g to AVI,
it indicates AVI2

Factory
setting

AVI

Sw2

ACI

NOTE

For VFD-E-T series, the braking resistor can be used by connecting terminals (B1 and B2) directly. But
it can' t connect DC-BUS i n parallel.

SA

MC

ON

OFF

FWD/Stop

REV/Stop

Multi-step 1

Multi-s tep 2

Multi-s tep 3

Multi-step 4

Digital Si gnal Common

3

2

5K

1

Analog Signal Common

Main circuit (power) termina ls

MC

R(L1)
S(L2)

E

RB

RC

+24V

MI1
MI2
MI3
MI4
MI5
MI6

DCM

E

+10V

Power supply
+10V 20mA

AVI

Master Frequency
0 to 10V 4 7K

ACI

4-20mA/0-10V

ACM

E

BR

brake resi stor
(optional)

B1

B2
U(T1)

V(T2)

W(T3)

E

RA

RB

RC

MO1

MCM

AFM

ACM

E

8

Control circuit terminals

Motor

IM

3~

Multi-function cont act output
Refer to chapter2.4 for details.
Factory setting is
malfunction indication

Factory s etting:
Drive is in operation
48V50mA Max.

Multi-function
Photocoulper O utput

Analog Multi-function
Output Terminal
factory setting: Analog
freq./ current meter

0~10V DC/ 2mA

Analog Signal common

Factory s etting: output
frequency

RS-485

Serial interface
1: Reserved
2: EV

3: G ND
4: S G-

1

5: SG+
6: Reserved
7: Reserved
8: Reserved

Shielded l eads & Cable

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 2-7

Chapter 2 Installation and Wiring|

Figure 6 for models of VFD-E Series
VFD002E23T, VFD004E23T/43T, VFD007E23T/43T, VFD015E23T/43T

Fuse/NFB(N o F use Breaker)

R(L1)

S(L2)

T(L3)

Recommended Circuit
when power s upply
is turned O FF by a
fault output
If the fault occurs, the
contact will be ON to
turn off the power and
protect the power system.

Factory setting:
NPN Mode

NPN

PNP

Please refer to Figure 7
for w iring of N PN
mode and PNP
mode.

Factory setting:
ACI Mode

ACI/AVI switch
When switching to AVI,
it indicates AVI2

Factory

Sw1

setting

AVI

Sw2

ACI

NOTE

For VFD-E-T series, the braking resistor can be used by connecting terminals (B1 and B2) directly. But
it c an't con nect D C-BU S in pa ralle l.

SA

MC

ON

OFF

FWD/Stop

REV/Stop

Multi-s tep 1

Multi-s tep 2

Multi-step 3

Multi-s tep 4

Digital Signal Common

3

2

5K

1

Analog Signal Common

Main circuit (power) terminals

MC

R(L1)
S(L2)

T(L3)
E

RB

RC

+24V

MI1
MI2
MI3
MI4
MI5
MI6

DCM

E

+10V

Power supply
+10V 20mA

AVI

Master Frequency
0 to 10V 4 7K

ACI

4-20mA/0-10V

ACM

E

BR

brake resistor
(optional)

B1

B2
U(T1)

V(T2)

W(T3)

RB

MO1

MCM

AFM

ACM

8

Control circuit terminals

E

RA

Multi-function contact output
Refer to chapter2.4 for details.
Factory setting is
malfunction indication

RC

Factory s etting:
Drive is in operation
48V50mA Max.

Multi-f unctio n
Photocoulper O utput

Analog Multi-function
Output Terminal
facto ry setting: Analog
freq./ cur rent meter

0~10VDC/2mA

Analog Signal common

E

Factory s etting: output
frequency

RS-485

Seri al inte rface
1: Reserved
2: EV

3: G ND
4: S G-

1

5: SG+
6: Reserved
7: Reserved
8: Reserved

Shielded l eads & Cable

Motor

IM

3~

2-8 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 2 Installation and Wiring|

Figure 7 Wiring for NPN mode and PNP mode

A. NPN mode without external power

NPN

PNP

Factory
setting

B. NPN mode with external power

NPN

PNP

Factory
setting

C. PNP mode without external power

NPN

Sw1

PNP

Factory
setting

-

24
Vdc

+

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 2-9

Chapter 2 Installation and Wiring|

D. PNP mode with external power

NPN

Sw1

PNP

Factory
setting

+

24
Vdc

-

Figure 8 RJ-45 pin definition for VFD*E*C models

PIN Signal Description

1 CAN_H CAN_H bus line (dominant high)

2 CAN_L CAN_L bus line (dominant low)

3 CAN_GND Ground / 0V /V-

4 SG+ 485 communication

5 SG- 485 communication

7 CAN_GND Ground / 0V /V-

CAUTION!

1. The wiring of main circuit and control circuit should be separated to prevent erroneous actions.

2. Please use shield wire for the control wiring and not to expose the peeled-off net in front of the

terminal.

3. Please use the shield wire or tube for the power wiring and ground the two ends of the shield

wire or tube.

4. Damaged insulation of wiring may cause personal injury or damage to circuits/equipment if it

comes in contact with high voltage.

5. The AC motor drive, motor and wiring may cause interference. To prevent the equipment

damage, please take care of the erroneous actions of the surrounding sensors and the

equipment.

6. When the AC drive output terminals U/T1, V/T2, and W/T3 are connected to the motor terminals

U/T1, V/T2, and W/T3, respectively. To permanently reverse the direction of motor rotation,

switch over any of the two motor leads.

2-10 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 2 Installation and Wiring|

7. With long motor cables, high capacitive switching current peaks can cause over-current, high

leakage current or lower current readout accuracy. To prevent this, the motor cable should be

less than 20m for 3.7kW models and below. And the cable should be less than 50m for 5.5kW

models and above. For longer motor cables use an AC output reactor.

8. The AC motor drive, electric welding machine and the greater horsepower motor should be

grounded separately.

9. Use ground leads that comply with local regulations and keep them as short as possible.

10. No brake resistor is built in the VFD-E series, it can install brake resistor for those occasions

that use higher load inertia or frequent start/stop. Refer to Appendix B for details.

11. Multiple VFD-E units can be installed in one location. All the units should be grounded directly

to a common ground terminal, as shown in the figure below. Ensure there are no ground

loops.

Excellent

Good

Not allowed

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 2-11

Chapter 2 Installation and Wiring|

y

2.2 External Wiring

Power Suppl

EMI Filter

R/L1 S/L2

U/T1 V/T2

T/L3

W/T3

FUSE/NFB

Magnetic
contactor

Input AC
Line Reactor

Zero-phase
Reactor

Brake

+/B1

B2

-

Zero-phase
Reactor

Output AC
Line Reactor

Items Explanations

Power
supply

Please follow the specific power
supply requirements shown in
Appendix A.

There may be an inrush current

Fuse/NFB

(Optional)

during power up. Please check the
chart of Appendix B and select the
correct fuse with rated current. Use of
an NFB is optional.

Magnetic
contactor
(Optional)

Please do not use a Magnetic
contactor as the I/O switch of the AC
motor drive, as it will reduce the
operating life cycle of the AC drive.

Used to improve the input power
factor, to reduce harmonics and
provide protection from AC line

Input AC
Line Reactor
(Optional)

disturbances.
spikes, short interruptions, etc.). AC
line reactor should be installed when
the power supply capacity is 500kVA
or more or advanced capacity is

(surges, switching

activated .The wiring distance should
be

10m. Refer to appendix B for

≤

details.
Zero phase reactors are used to

Zero-phase

Brake unit

BR

BUE

Reactor
(Ferrite Core
Common
Choke)

resistor

(Optional)

reduce radio noise especially when
audio equipment is installed near the
inverter. Effective for noise reduction
on both the input and output sides.
Attenuation quality is good for a wide
range from AM band to 10MHz.
Appendix B specifies the zero phase
reactor. (RF220X00A)

EMI filter

Brake
resistor and
Brake unit
(Optional)

To reduce electromagnetic
interference.

Used to reduce the deceleration time
of the motor. Please refer to the chart
in Appendix B for specific Brake
resistors.

Motor

Output AC
Line Reactor

2-12 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

(Optional)

Motor surge voltage amplitude
depends on motor cable length. For
applications with long motor cable
(>20m), it is necessary to install a

Chapter 2 Installation and Wiring|

)

2.3 Main Circuit

2.3.1 Main Circuit Connection

Figure 1

For frame A: VFD002E11A/21A/23A, VFD004E11A/21A/23A/43A, VFD007E21A/23A/43A,

VFD015E23A/43A, VFD002E11C/21C/23C, VFD004E11C/21C/23C/43C,

VFD007E21C/23C/43C, VFD002E11P/21P/23P, VFD004E11P/21P/23P/43P,

VFD007E11P/21P/23P/43P, VFD015E23P/43P

No fuse breaker
(NFB)

R
S
T

MC

Brake Resist or(Optional)

R(L1)
S(L2)
T(L3)

E

BR

Brake Unit

BUE

(Optiona l)

+

-

U(T1)

V(T2)

W(T3)

Motor

IM
3~

E

Figure 2

For frame B: VFD007E11A, VFD015E21A, VFD022E21A/23A/43A, VFD037E23A/43A,

VFD007E11C, VFD015E21C, VFD022E21C/23C/43C, VFD037E23C/43C

For frame C: VFD055E23A/43A, VFD075E23A/43A, VFD110E23A/43A, VFD055E23C/43C,

VFD075E23C/43C, VFD110E23C/43C

For frame D: VFD150E23A/23C, VFD150E43A/43C, VFD185E43A/43C, VFD220E43A/43C

No fuse br eaker
( NFB)

R
S

T

Brake Resistor(Optional

+/B1

MC

R(L1)
S(L2)
T(L3)

E

BR

B2

­U(T1)

V(T2)

W(T3)

Motor

IM
3~

E

Figure 3

For Frame A: VFD002E11T/21T/23T, VFD004E11T/21T/23T/43T, VFD007E21T/23T/43T,

VFD015E23T/43T

No fuse breaker
(NFB)

R
S
T

MC

R(L1)
S(L2)
T(L3)

E

B1 B2

BR

Brake Resistor
(Optional)

U(T1)

V(T2)

W(T3)

E

Motor

IM
3~

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 2-13

Chapter 2 Installation and Wiring|

Terminal Symbol Explanation of Terminal Function

R/L1, S/L2, T/L3

U/T1, V/T2, W/T3

+/B1~ B2

+/B1, -

AC line input terminals (1-phase/3-phase)

AC drive output terminals for connecting 3-phase induction motor

Connections for Brake resistor (optional)

Connections for External Brake unit (BUE series)

Earth connection, please comply with local regulations.

CAUTION!

Mains power terminals (R/L1, S/L2, T/L3)

Connect these terminals (R/L1, S/L2, T/L3) via a no-fuse breaker or earth leakage



breaker to 3-phase AC power (some models to 1-phase AC power) for circuit protection.

It is unnecessary to consider phase-sequence.

It is recommended to add a magnetic contactor (MC) in the power input wiring to cut off



power quickly and reduce malfunction when activating the protection function of AC motor

drives. Both ends of the MC should have an R-C surge absorber.

Please make sure to fasten the screw of the main circuit terminals to prevent sparks



which is made by the loose screws due to vibration.

Please use voltage and current within the regulation shown in Appendix A.



When using a general GFCI (Ground Fault Circuit Interrupter), select a current sensor



with sensitivity of 200mA or above, and not less than 0.1-second operation time to avoid

nuisance tripping. For the specific GFCI of the AC motor drive, please select a current

sensor with sensitivity of 30mA or above.

Do NOT run/stop AC motor drives by turning the power ON/OFF. Run/stop AC motor



drives by RUN/STOP command via control terminals or keypad. If you still need to

run/stop AC drives by turning power ON/OFF, it is recommended to do so only ONCE per

hour.

Do NOT connect 3-phase models to a 1-phase power source.



Output terminals for main circuit (U, V, W)

The factory setting of the operation direction is forward running. The methods to control



the operation direction are: method 1, set by the communication parameters. Please refer

2-14 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 2 Installation and Wiring|

)

to the group 9 for details. Method2, control by the optional keypad KPE-LE02. Refer to

Appendix B for details.

When it needs to install the filter at the output side of terminals U/T1, V/T2, W/T3 on the



AC motor drive. Please use inductance filter. Do not use phase-compensation capacitors

or L-C (Inductance-Capacitance) or R-C (Resistance-Capacitance), unless approved by

Delta.

DO NOT connect phase-compensation capacitors or surge absorbers at the output



terminals of AC motor drives.

Use well-insulated motor, suitable for inverter operation.



Terminals [+/B1, B2] for connecting brake resistor

BR

BR

BR

BUE

Brake resistor (optional

Brake unit ( optional)
Refer to Appendix B for details.

+/B1

Connect a brake resistor or brake unit in applications with frequent deceleration ramps,



B1

B2

+/B1

B2

-

short deceleration time, too low brake torque or requiring increased brake torque.

If the AC motor drive has a built-in brake chopper (frame B, frame C and VFDxxxExxT



models), connect the external brake resistor to the terminals [+/B1, B2] or [B1, B2].

Models of frame A don’t have a built-in brake chopper. Please connect an external



optional brake unit (BUE-series) and brake resistor. Refer to BUE series user manual for

details.

Connect the terminals [+(P), -(N)] of the brake unit to the AC motor drive terminals [+/B1, -



]. The length of wiring should be less than 5m with cable.

When not used, please leave the terminals [+/B1, -] open.



WARNI NG !

Short-circuiting [B2] or [-] to [+/B1] can damage the AC motor drive.

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 2-15

Chapter 2 Installation and Wiring|

2.3.2 Main Circuit Terminals

Frame A Main circuit terminals:

R/L1, S/L2, T/L3, U/T1, V/T2, W/T3,

VFD002E11A/21A/23A

VFD004E11A/21A/23A/

VFD007E21A/23A/43A

VFD015E23A/43A

VFD002E11C/21C/23C

VFD004E11C/21C/23C/

VFD007E21C/23C/43C

VFD015E23C/43C
VFD002E11T/21T/23T
VFD004E11T/21T/23T/

VFD007E21T/23T/43T

VFD015E23T/43T

VFD002E11P/21P/23P

VFD004E11P/21P/23P/

VFD007E21P/23P/43P

VFD015E23P/43P

Frame B

Main circuit terminals:

R/L1, S/L2, T/L3, U/T1, V/T2, W/T3,

VFD022E21A/23A/43A,

VFD037E23A/43A,

VFD022E21C/23C/43C,

VFD037E23C/43C,

(3.3-

, +, -

14kgf-cm

(12in-lbf)

2

)

, +/B1, B2, -

18kgf-cm

2

)

(15.6in-lbf)

Stranded

Models Wire Torque Wire type

43A

43C

12-14 AWG.

2.1mm

43T

43P

Models Wire Torque Wire type

VFD007E11A,
VFD015E21A,

8-18 AWG.
VFD007E11C,
VFD015E21C,

(8.4-0.8mm

copper

Only,

75℃

Stranded

copper

Only,
75℃

2-16 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 2 Installation and Wiring|

e

Frame C Main circuit terminals:

R/L1, S/L2, T/L3, U/T1, V/T2, W/T3,

, +/B1, B2, -

Models Wire Torque Wire type

VFD055E23A/43A,

VFD075E23A/43A,

VFD110E23A/43A,

VFD055E23C/43C,

6-16 AWG.

(13.3-1.3mm

30kgf-cm

2

)

(26in-lbf)

Stranded

Only, 75℃

VFD075E23C/43C,

VFD110E23C/43C

NOTE

To connect 6 AWG (13.3 mm

2

) wires, use Recognized Ring

Terminals

copper

Frame D

Main circuit terminals:

R/L1, S/L2, T/L3, U/T1, V/T2, W/T3,

, B1, B2, +, -

Models Wire Torque Wire type

VFD150E23A/23C,

VFD150E43A/43C,

VFD185E43A/43C,

VFD220E43A/43C

4-14 AWG.

(21.2-

2

2.1mm

)

57kgf-cm

(49.5in-lbf)

Stranded

copper

Only, 75℃

2.4 Control Terminals

Circuit diagram for digital inputs (NPN current 16mA.)

NPN Mode

multi-input
terminal

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 2-17

+24

Internal CircuitDCM

PNP Mod

Multi-Input
Termi nal

+24V

DCM

Internal Circui t

Chapter 2 Installation and Wiring|

The position of the control terminals

Terminal symbols and functions

Terminal

Symbol

Terminal Function

MI1 Forward-Stop command

MI2 Reverse-Stop command

MI3 Multi-function Input 3

MI4 Multi-function Input 4

MI5 Multi-function Input 5

MI6 Multi-function Input 6

RA

RB RC

AFM MCM MO1

RS-485

24V

1 0VMI1 MI2 MI3 MI4 MI5 MI6

AVI AC I

DCM

DCM ACM

Factory Settings (NPN mode)

ON: Connect to DCM

ON: Run in MI1 direction

OFF: Stop acc. to Stop Method

ON: Run in MI2 direction

OFF: Stop acc. to Stop Method

Refer to Pr.04.05 to Pr.04.08 for programming the
Multi-function Inputs.

ON: the activation current is 16mA.
OFF: leakage current tolerance is 10μA.

+24V DC Voltage Source +24VDC, 20mA used for PNP mode.

DCM Digital Signal Common

Multi-function Relay output

RA

(N.O.) a

Common for digital inputs and used for NPN
mode.

Resistive Load:

5A(N.O.)/3A(N.C.) 240VAC

5A(N.O.)/3A(N.C.) 24VDC

Multi-function Relay output

RB

(N.C.) b

RC Multi-function Relay common

2-18 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Inductive Load:

1.5A(N.O.)/0.5A(N.C.) 240VAC

1.5A(N.O.)/0.5A(N.C.) 24VDC

Refer to Pr.03.00 for programming

Chapter 2 Installation and Wiring|

AFMA

Terminal

Symbol

Terminal Function

Factory Settings (NPN mode)

ON: Connect to DCM

Maximum 48VDC, 50mA

Refer to Pr.03.01 for programming

Multi-function Output 1

MO1

(Photocoupler)

MO1-DCM

Mo1

Max: 48Vdc

50mA

internal circuit

MCM

MCM Multi-function output common Common for Multi-function Outputs

+10V Potentiometer power supply +10VDC 3mA

Analog voltage Input

+10V

AVI cir cuit

Impedance: 47kΩ

Resolution: 10 bits

Range: 0 ~ 10VDC =

AVI

Analog control signal

ACM

(common)

Analog current Input

AVI

ACM

ACI

internal circuit

ACI circuit

0 ~ Max. Output Frequency

(Pr.01.00)

Selection: Pr.02.00, Pr.02.09, Pr.10.00

Set-up: Pr.04.11 ~ Pr.04.14, 04.19~04.23

Common for AVI, ACI, AFM

Impedance: 250Ω/100kΩ

Resolution: 10 bits

Range: 4 ~ 20mA =

ACI

0 ~ Max. Output Frequency

(Pr.01.00)

Selection: Pr.02.00, Pr.02.09, Pr.10.00

Set-up: Pr.04.15 ~ Pr.04.18

0 to 10V, 2mA

Impedance: 100kΩ

Output current 2mA max

Resolution: 8 bits

Range: 0 ~ 10VDC

Function: Pr.03.03 to Pr.03.04

Analog output meter

ACM circuit

AFM

ACM

internal circuit

internal circuit

0~10V

potentiometer

Max. 2mA

CM

NOTE: Control signal wiring size: 18 AWG (0.75 mm2) with shielded wire.

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 2-19

Chapter 2 Installation and Wiring|

A

Analog inputs (AVI, ACI, ACM)

Analog input signals are easily affected by external noise. Use shielded wiring and keep it



as short as possible (<20m) with proper grounding. If the noise is inductive, connecting

the shield to terminal ACM can bring improvement.

If the analog input signals are affected by noise from the AC motor drive, please connect



a capacitor (0.1μF and above) and ferrite core as indicated in the following diagrams:

C

ferrite core

VI/ACI

ACM

wind each wires 3 times or more around the core

Digital inputs (MI1~MI6, DCM)

When using contacts or switches to control the digital inputs, please use high quality



components to avoid contact bounce.

Digital outputs (MO1, MCM)

Make sure to connect the digital outputs to the right polarity, see wiring diagrams.



When connecting a relay to the digital outputs, connect a surge absorber or fly-back diode



across the coil and check the polarity.

General

Keep control wiring as far away as possible from the power wiring and in separate



conduits to avoid interference. If necessary let them cross only at 90º angle.

The AC motor drive control wiring should be properly installed and not touch any live



power wiring or terminals.

DANGER!

Damaged insulation of wiring may cause personal injury or damage to circuits/equipment if it comes

in contact with high voltage.

The specification for the control terminals

2-20 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 2 Installation and Wiring|

A

RA

RB RC

The position of the control terminals

AFM MCM MO1

Termi nals 1

Ter min al s 2

RS-485 port

24V

CM

10VMI1 MI2MI3 MI4 MI5 MI6

AVI ACI

2

)

DCM

DCM

Frame Control Terminals Torque Wire

A, B, C

Terminals 1 5 kgf-cm (4.4 in-lbf) 12-24 AWG (3.3-0.2mm2)

Terminals 2 2 kgf-cm (1.7 in-lbf) 16-24 AWG (1.3-0.2mm

NOTE

Frame A: VFD002E11A/21A/23A, VFD004E11A/21A/23A/43A, VFD007E21A/23A/43A,

VFD015E23A/43A, VFD002E11C/21C/23C, VFD004E11C/21C/23C/43C, VFD007E21C/23C/43C,

VFD015E23C/43C, VFD002E11T/21T/23T, VFD004E11T/21T/23T/43T, VFD007E21T/23T/43T,

VFD015E23T/43T, VFD002E11P/21P/23P, VFD004E11P/21P/23P/43P, VFD007E21P/23P/43P,

VFD015E23P/43P

Frame B: VFD007E11A, VFD015E21A, VFD022E21A/23A/43A, VFD037E23A/43A, VFD007E11C,

VFD015E21C, VFD022E21C/23C/43C, VFD037E23C/43C

Frame C: VFD055E23A/43A, VFD075E23A/43A, VFD110E23A/43A, VFD055E23C/43C,

VFD075E23C/43C, VFD110E23C/43C

Frame D: VFD150E23A/43A, VFD150E23C/43C, VFD185E43A/43C, VFD220E43A/43C

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 2-21

Chapter 2 Installation and Wiring|

This page intentionally left blank

2-22 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

3.1 Keypad

Chapter 3 Keypad and Start Up

Make sure that the wiring is correct. In particular, check that the



output terminals U/T1, V/T2, W/T3. are NOT connected to power

and that the drive is well grounded.

Verify that no other equipment is connected to the AC motor drive



Do NOT operate the AC motor drive with humid hands.



Please check if READY LED is ON when power is applied. Check



if the connection is well when option from the digital keypad KPE-

LE02.

It should be stopped when fault occurs during running and refer to



“Fault Code Information and Maintenance” for solution. Please do

NOT touch output terminals U, V, W when power is still applied to

L1/R, L2/S, L3/T even when the AC motor drive has stopped. The

DC-link capacitors may still be charged to hazardous voltage

levels, even if the power has been turned off.

There are three LEDs on the keypad:

LED READY: It will light up after applying power. The light won’t be off until the capacitors are

discharged to safe voltage levels after power off.

LED RUN: It will light up when the motor is running.

LED FAULT: It will light up when fault occurs.

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 3-1

Chapter 3 Keypad and Start Up|

3.2 Operation Method

The operation method can be set via communication, control terminals and optional keypad KPE-

LE02.

RS485 port (RJ-45)
It needs to use VFD-USB01 or
IFD8500 converter to connect
to the PC.

3-2 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 3 Keypad and Start Up|

A

ACIA

Operation

Method

Operate from the

communication

Operate from

external signal

Operate from the

optional keypad

(KPE-LE02)

Frequency Source

Operation Command

Source

When setting communication by the PC, it needs to use VFD-USB01 or
IFD8500 converter to connect to the PC.

Refer to the communication address 2000H and 2101H setting for details.

+24V

Factory setting:
NPN Mode

NPN

Sw1

PNP

Factory setting:
ACI Mode

AVI

Sw2

ACI

ACI/AVI switch
When switching to AVI,
it indicates AVI2

FWD/Stop

REV/Stop

Factory
setting

* Don't apply the mains vol tage directl y
to above terminals.

Multi-step 1

Multi-step 2

Multi-step 3

Multi-step 4

Digital Signal Common

3

2

5K

1

Analog Signal Common

MI1
MI2
MI3
MI4
MI5
MI6

DCM

E

+10V

Power supply
+10V 3mA

VI

Master Freque ncy
0 to 1 0V 47 K

4-20mA/0-10V

CM

E

Figure 3-1

MI3-DCM (Set Pr.04.05=10)

MI4-DCM (Set Pr.04.06=11)

External terminals input:

MI1-DCM

MI2-DCM

3.3 Trial Run

The factory setting of the operation source is from the external terminal (Pr.02.01=2).

1. Both MI1-DCM and MI2-DCM need to connect a switch for switching FWD/STOP and

REV/STOP.

2. Please connect a potentiometer among AVI, 10V and DCM or apply power 0-10Vdc to

AVI-DCM (as shown in figure 3-1)

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 3-3

Chapter 3 Keypad and Start Up|

3. Setting the potentiometer or AVI-DCM 0-10Vdc power to less than 1V.

4. Setting MI1=On for forward running. And if you want to change to reverse running, you

should set MI2=On. And if you want to decelerate to stop, please set MI1/MI2=Off.

5. Check following items:

Check if the motor direction of rotation is correct.



Check if the motor runs steadily without abnormal noise and vibration.



Check if acceleration and deceleration are smooth.



If you want to perform a trial run by using optional digital keypad, please operate by the following

steps.

1. Connect digital keypad to AC motor drive

correctly.

2. After applying the power, verify that LED

display shows F 0.0Hz.

3. Set Pr.02.00=0 and Pr.02.01=0. (Refer to

Appendix B operation flow for detail)

4. Press

key to set frequency to

around 5Hz.

5. Press

key for forward running.

And if you want to change to reverse

running, you should press

in

page. And if you want to

decelerate to stop, please press
key.

6. Check following items:

Check if the motor direction of rotation



is correct.

Check if the motor runs steadily



without abnormal noise and vibration.

Check if acceleration and



deceleration are smooth.

If the results of trial run are normal, please start the formal run.

3-4 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters

The VFD-E parameters are divided into 14 groups by property for easy setting. In most applications,

the user can finish all parameter settings before start-up without the need for re-adjustment during

operation.

The 14 groups are as follows:

Group 0: User Parameters

Group 1: Basic Parameters

Group 2: Operation Method Parameters

Group 3: Output Function Parameters

Group 4: Input Function Parameters

Group 5: Multi-Step Speed Parameters

Group 6: Protection Parameters

Group 7: Motor Parameters

Group 8: Special Parameters

Group 9: Communication Parameters

Group 10: PID Control Parameters

Group 11: Multi-function Input/Output Parameters for Extension Card

Group 12: Analog Input/Output Parameters for Extension Card

Group 13: PG function Parameters for Extension Card

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-1

Chapter 4 Parameters|

4.1 Summary of Parameter Settings

: The parameter can be set during operation.

Group 0 User Parameters

Parameter Explanation Settings

00.00 Identity Code of the

00.01 Rated Current

00.02 Parameter Reset

00.03

00.04

AC motor drive

Display of the AC
motor drive

Start-up Display

Selection

Content of Multi-

function Display

Read-only ##

Read-only #.#

0: Parameter can be read/written

1: All parameters are read only

6: Clear PLC program (NOT for VFD*E*C

models)

9: All parameters are reset to factory settings

(50Hz, 230V/400V or 220V/380V depends on
Pr.00.12)

10: All parameters are reset to factory

settings (60Hz, 220V/440V)

0: Display the frequency command value

(Fxxx)

1: Display the actual output frequency (Hxxx)

2: Display the content of user-defined unit

(Uxxx)

3: Multifunction display, see Pr.00.04

4: FWD/REV command

5: PLCx (PLC selections: PLC0/PLC1/PLC2)

(NOT for VFD*E*C models)

0: Display the content of user-defined unit

(Uxxx)

1: Display the counter value (c)

2: Display PLC D1043 value (C) (NOT for

VFD*E*C models)

3: Display DC-BUS voltage (u)

4: Display output voltage (E)

Factory

Setting

0

0

0

Customer

4-2 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

Parameter Explanation Settings

Factory
Setting

Customer

5: Display PID analog feedback signal value
(b) (%)

6: Output power factor angle (n)
7: Display output power (P)

8: Display the estimated value of torque as it
relates to current (t)

9: Display AVI (I) (V)

10: Display ACI / AVI2 (i) (mA/V)

11: Display the temperature of IGBT (h) (°C)

12: Display AVI3/ACI2 level (I.)

13: Display AVI4/ACI3 level (i.)

14: Display PG speed in RPM (G)

15: Display motor number (M)

00.05

User-Defined

Coefficient K

00.06 Power Board

0. 1 to 160.0 1.0

Read-only #.##

Software Version

00.07 Control Board

Read-only #.##

Software Version

00.08 Password Input 0 to 9999 0

00.09 Password Set 0 to 9999 0

00.10 Control Method

0: V/f Control

1: Vector Control

0

00.11 Reserved

00.12

50Hz Base Voltage

Selection

0: 230V/400V

1: 220V/380V

0

Group 1 Basic Parameters

Factory

Parameter Explanation Settings

01.00

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-3

Maximum Output

Frequency (Fmax)

50.00 to 600.0 Hz 60.00

Setting

Customer

Chapter 4 Parameters|

Parameter Explanation Settings

Factory

Setting

Maximum Voltage

01.01

Frequency (Fbase)

0.10 to 600.0 Hz 60.00

(Motor 0)

01.02

01.03

01.04

Maximum Output

Voltage (Vmax)
(Motor 0)

Mid-Point Frequency

(Fmid) (Motor 0)

Mid-Point Voltage

(Vmid) (Motor 0)

115V/230V series: 0.1V to 255.0V 220.0

460V series: 0.1V to 510.0V 440.0

0.10 to 600.0 Hz 1.50

115V/230V series: 0.1V to 255.0V 10.0

460V series: 0.1V to 510.0V 20.0

Minimum Output

01.05

Frequency (Fmin)

0.10 to 600.0 Hz 1.50

(Motor 0)

01.06

01.07

01.08

Minimum Output

Voltage (Vmin)
(Motor 0)

Output Frequency
Upper Limit

Output Frequency
Lower Limit

115V/230V series: 0.1V to 255.0V 10.0

460V series: 0.1V to 510.0V 20.0

0.1 to 120.0%

0.0 to100.0 %

110.0

0.0

01.09 Accel Time 1 0.1 to 600.0 / 0.01 to 600.0 sec 10.0

01.10 Decel Time 1 0.1 to 600.0 / 0.01 to 600.0 sec 10.0

01.11 Accel Time 2 0.1 to 600.0 / 0.01 to 600.0 sec 10.0

01.12 Decel Time 2 0.1 to 600.0 / 0.01 to 600.0 sec 10.0

01.13 Jog Acceleration

Time

01.14 Jog Deceleration

Time

0.1 to 600.0 / 0.01 to 600.0 sec

0.1 to 600.0 / 0.01 to 600.0 sec

1.0

1.0

01.15 Jog Frequency 0.10 Hz to Fmax (Pr.01.00) Hz 6.00

0: Linear Accel/Decel

1: Auto Accel, Linear Decel

2: Linear Accel, Auto Decel

3: Auto Accel/Decel (Set by load)

0

01.16

Auto acceleration /
deceleration (refer
to Accel/Decel time
setting)

4: Auto Accel/Decel (set by Accel/Decel
Time setting)

Customer

4-4 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

Parameter Explanation Settings

5: Linear Accel. controlled by current, linear
Decel.

6: Linear Accel. controlled by current, auto
Decel.

0.0 to 10.0 / 0.00 to 10.00 sec 0.0

0.0 to 10.0 / 0.00 to 10.00 sec 0.0

0: Unit: 0.1 sec

1: Unit: 0.01 sec

0.00 to 600.00 sec

0.00 to 600.00 sec

0.00 to 600.00 sec

0.00 to 600.00 sec

0.00 to 600.00 sec

0.00 to 600.00 sec

0.10 to 600.0 Hz

01.16

01.17

01.18

01.19

01.20

01.21

01.22

01.23

01.24

01.25

01.26

Auto acceleration /
deceleration (refer
to Accel/Decel time
setting)

Acceleration S­Curve

Deceleration S­Curve

Accel/Decel Time
Unit

Delay Time at 0Hz
for Simple Position

Delay Time at 10Hz
for Simple Position

Delay Time at 20Hz
for Simple Position

Delay Time at 30Hz
for Simple Position

Delay Time at 40Hz
for Simple Position

Delay Time at 50Hz
for Simple Position

Maximum Voltage
Frequency (Fbase)

Factory
Setting

0

0

0.00

0.00

0.00

0.00

0.00

0.00

60.00

Customer

(Motor 1)

01.27

01.28

Maximum Output
Voltage (Vmax)
(Motor 1)

Mid-Point
Frequency (Fmid)

115V/230V series: 0.1V to 255.0V

220.0

460V series: 0.1V to 510.0V 440.0

0.10 to 600.0 Hz

1.50

(Motor 1)

01.29

01.30

Mid-Point Voltage
(Vmid) (Motor 1)

Minimum Output
Frequency (Fmin)

115V/230V series: 0.1V to 255.0V

460V series: 0.1V to 510.0V

0.10 to 600.0 Hz

10.0

20.0

1.50

(Motor 1)

01.31

Minimum Output

115V/230V series: 0.1V to 255.0V

10.0

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-5

Chapter 4 Parameters|

Parameter Explanation Settings

460V series: 0.1V to 510.0V 20.0

Factory

Setting

Customer

01.32

01.33

01.34

01.35

01.36

01.37

01.38

01.39

01.40

01.41

01.42

01.43

Maximum Voltage
Frequency (Fbase)
(Motor 2)

Maximum Output
Voltage (Vmax)
(Motor 2)

Mid-Point
Frequency (Fmid)
(Motor 2)

Mid-Point Voltage
(Vmid) (Motor 2)

Minimum Output
Frequency (Fmin)
(Motor 2)

Minimum Output
Voltage (Vmin)
(Motor 2)

Maximum Voltage
Frequency (Fbase)
(Motor 3)

Maximum Output
Voltage (Vmax)
(Motor 3)

Mid-Point
Frequency (Fmid)
(Motor 3)

Mid-Point Voltage
(Vmid) (Motor 3)

Minimum Output
Frequency (Fmin)
(Motor 3)

Minimum Output
Voltage (Vmin)
(Motor 3)

0.10 to 600.0 Hz

115V/230V series: 0.1V to 255.0V

60.00

220.0

460V series: 0.1V to 510.0V 440.0

0.10 to 600.0 Hz

115V/230V series: 0.1V to 255.0V

460V series: 0.1V to 510.0V

0.10 to 600.0 Hz

115V/230V series: 0.1V to 255.0V

1.50

10.0

20.0

1.50

10.0

460V series: 0.1V to 510.0V 20.0

0.10 to 600.0 Hz

115V/230V series: 0.1V to 255.0V

60.00

220.0

460V series: 0.1V to 510.0V 440.0

0.10 to 600.0 Hz

115V/230V series: 0.1V to 255.0V

460V series: 0.1V to 510.0V

0.10 to 600.0 Hz

115V/230V series: 0.1V to 255.0V

1.50

10.0

20.0

1.50

10.0

460V series: 0.1V to 510.0V 20.0

4-6 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

Group 2 Operation Method Parameters

Factory

Parameter Explanation Settings

0: Digital keypad UP/DOWN keys or Multi­function Inputs UP/DOWN. Last used

02.00

02.01

02.02 Stop Method

02.03

02.04

02.05 Line Start Lockout

Source of First
Master Frequency
Command

Source of First
Operation
Command

PWM Carrier
Frequency
Selections

Motor Direction
Control

frequency saved.

1: 0 to +10V from AVI

2: 4 to 20mA from ACI or 0 to +10V from
AVI2

3: RS-485 (RJ-45)/USB communication

4: Digital keypad potentiometer

5: CANopen communication

0: Digital keypad

1: External terminals. Keypad STOP/RESET
enabled.

2: External terminals. Keypad STOP/RESET
disabled.

3: RS-485 (RJ-45)/USB communication.
Keypad STOP/RESET enabled.

4: RS-485 (RJ-45)/USB communication.
Keypad STOP/RESET disabled.

5: CANopen communication. Keypad
STOP/RESET disabled.

0: STOP: ramp to stop; E.F.: coast to stop

1: STOP: coast to stop; E.F.: coast to stop

2: STOP: ramp to stop; E.F.: ramp to stop

3: STOP: coast to stop; E.F.: ramp to stop

1 to 15kHz 8

0: Enable forward/reverse operation

1: Disable reverse operation

2: Disabled forward operation

0: Disable. Operation status is not changed
even if operation command source Pr.02.01
is changed.

1: Enable. Operation status is not changed
even if operation command source Pr.02.01
is changed.

Setting

1

1

0

0

1

Customer

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-7

Chapter 4 Parameters|

Parameter Explanation Settings

2: Disable. Operation status will change if
operation command source Pr.02.01 is
changed.

3: Enable. Operation status will change if
operation command source Pr.02.01 is
changed.

0: Decelerate to 0 Hz

02.06

Loss of ACI Signal
(4-20mA)

1: Coast to stop and display “AErr”

2: Continue operation by last frequency
command

0: by UP/DOWN Key

02.07 Up/Down Mode

1: Based on accel/decel time

2: Constant speed (Pr.02.08)

3: Pulse input unit (Pr.02.08)

Accel/Decel Rate of
Change of

02.08

UP/DOWN

0.01~10.00 Hz 0.01
Operation with
Constant Speed

0: Digital keypad UP/DOWN keys or Multi­function Inputs UP/DOWN. Last used
frequency saved.

1: 0 to +10V from AVI

2: 4 to 20mA from ACI or 0 to +10V from
AVI2

02.09

Source of Second
Frequency
Command

3: RS-485 (RJ-45)/USB communication

4: Digital keypad potentiometer

5: CANopen communication

0: First Master Frequency Command

1: First Master Frequency Command+
Second Master Frequency Command

2: First Master Frequency Command ­Second Master Frequency Command

0.00 to 600.0Hz

0.00 to 600.0Hz

02.10

02.11

02.12

Combination of the
First and Second
Master Frequency
Command

Keypad Frequency
Command

Communication
Frequency
Command

Factory

Setting

1

0

0

0

60.00

60.00

Customer

4-8 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

Parameter Explanation Settings

0: Save Keypad & Communication
Frequency

1: Save Keypad Frequency only

02.13

The Selections for
Saving Keypad or
Communication

Factory
Setting

0

Customer

Frequency
Command

2: Save Communication Frequency only

02.14

02.15

Initial Frequency
Selection (for
keypad &
RS485/USB)

Initial Frequency
Setpoint (for keypad

0: by Current Freq Command

1: by Zero Freq Command

0

2: by Frequency Display at Stop

0.00 ~ 600.0Hz 60.00

& RS485/USB)

02.16

Display the Master
Freq Command
Source

Read Only

Bit0=1: by First Freq Source (Pr.02.00)

Bit1=1: by Second Freq Source (Pr.02.09)

Bit2=1: by Multi-input function

##

Bit3=1: by PLC Freq command (NOT for
VFD*E*C models)

Read Only

Bit0=1: by Digital Keypad

Bit1=1: by RS485 communication

Bit2=1: by External Terminal 2/3 wire mode

Bit3=1: by Multi-input function

##

02.17

Display the
Operation
Command Source

Bit4=1: by PLC Operation Command (NOT
for VFD*E*C models)

Bit5=1: by CANopen communication

02.18

Selection of Carrier
Modulation

0: by carrier modulation of load current and
temperature

1: by carrier modulation of load current

0

Group 3 Output Function Parameters

Factory

Parameter Explanation Settings

0: No function

03.00

Multi-function
Output Relay (RA1,
RB1, RC1)

1: AC drive operational

2: Master frequency attained

Customer

Setting

8

3: Zero speed

4: Over torque detection

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-9

Chapter 4 Parameters|

Parameter Explanation Settings

5: Base-Block (B.B.) indication 1

6: Low-voltage indication

7: Operation mode indication

03.01

Multi-function
Output Terminal
MO1

8: Fault indication

9: Desired frequency 1 attained

10: Terminal count value attained

Factory

Setting

11: Preliminary count value attained

12: Over Voltage Stall supervision

13: Over Current Stall supervision

14: Heat sink overheat warning

15: Over Voltage supervision

16: PID supervision

17: Forward command

18: Reverse command

19: Zero speed output signal

20: Warning(FbE,Cexx, AoL2, AUE, SAvE)

21: Brake control (Desired frequency

attained)

22: Drive ready

23: Desired frequency 2 attained

03.02 Desired Frequency

0.00 to 600.0Hz 0.00
1 Attained

03.03

Analog Output
Signal Selection
(AFM)

0: Analog frequency meter

1: Analog current meter

0

03.04 Analog Output Gain 1 to 200% 100

03.05 Terminal Count

0 to 9999 0

Value

03.06

Preliminary Count
Value

0 to 9999 0

0: Terminal count value attained, no EF

03.07

EF Active When
Terminal Count
Value Attained

display

1: Terminal count value attained, EF active

0

Customer

4-10 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

Parameter Explanation Settings

0: Fan always ON

Factory
Setting

Customer

1: 1 minute after AC motor drive stops, fan
will be OFF

03.08 Fan Control
2: Fan ON when AC motor drive runs, fan

0

OFF when AC motor drive stops

3: Fan ON when preliminary heatsink
temperature attained

Read only

Bit0=1:RLY used by PLC

Bit1=1:MO1 used by PLC

Bit2=1:MO2/RA2 used by PLC

Bit3=1:MO3/RA3 used by PLC

Bit4=1:MO4/RA4 used by PLC

##

03.09

The Digital Output
Used by PLC

(NOT for VFD*E*C
models)

Bit5=1:MO5/RA5 used by PLC

Bit6=1:MO6/RA6 used by PLC

Bit7=1:MO7/RA7 used by PLC

03.10

The Analog Output
Used by PLC

(NOT for VFD*E*C
models)

Read only

Bit0=1:AFM used by PLC

Bit1=1: AO1 used by PLC

##

Bit2=1: AO2 used by PLC

03.11

03.12

Brake Release
Frequency

Brake Engage
Frequency

0.00 to 20.00Hz 0.00

0.00 to 20.00Hz 0.00

Read only

Bit0: RLY Status

Bit1: MO1 Status

Bit2: MO2/RA2 Status

Bit3: MO3/RA3 Status

Bit4: MO4/RA4 Status

##

03.13

Display the Status of
Multi-function
Output Terminals

Bit5: MO5/RA5 Status

Bit6: MO6/RA6 Status

Bit7: MO7/RA7 Status

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-11

Chapter 4 Parameters|

Parameter Explanation Settings

03.14

Desired Frequency
2 Attained

0.00 to 600.0Hz 0.00

Group 4 Input Function Parameters

Parameter Explanation Settings

04.00

Keypad
Potentiometer Bias

0.0 to 200.0 % 0.0

Factory

Setting

Factory

Setting

Customer

Customer

04.01

Keypad
Potentiometer Bias
Polarity

04.02

Keypad
Potentiometer Gain

Keypad

04.03

Potentiometer
Negative Bias,
Reverse Motion
Enable/Disable

04.04 2-wire/3-wire
Operation Control
Modes

04.05 Multi-function Input
Terminal (MI3)

04.06 Multi-function Input
Terminal (MI4)

04.07 Multi-function Input
Terminal (MI5)

04.08 Multi-function Input
Terminal (MI6)

0: Positive bias

1: Negative bias

00

0.1 to 200.0 % 100.0

0: No negative bias command

0

1: Negative bias: REV motion enabled

0: 2-wire: FWD/STOP, REV/STOP

1: 2-wire: FWD/REV, RUN/STOP

0

2: 3-wire operation

0: No function 1

1: Multi-Step speed command 1

2: Multi-Step speed command 2

3: Multi-Step speed command 3 2

4: Multi-Step speed command 4

5: External reset

6: Accel/Decel inhibit 3

7: Accel/Decel time selection command

8: Jog Operation

9: External base block 4

10: Up: Increment master frequency

11: Down: Decrement master frequency

4-12 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

Parameter Explanation Settings

12: Counter Trigger Signal

13: Counter reset

14: E.F. External Fault Input

15: PID function disabled

16: Output shutoff stop

17: Parameter lock enable

18: Operation command selection (external

terminals)

19: Operation command selection(keypad)

20: Operation command selection

(communication)

Factory

Customer

Setting

21: FWD/REV command

22: Source of second frequency command

23: Run/Stop PLC Program (PLC1) (NOT for
VFD*E*C models)

23: Quick Stop (Only for VFD*E*C models)

24: Download/execute/monitor PLC Program
(PLC2) (NOT for VFD*E*C models)

25: Simple position function

26: OOB (Out of Balance Detection)

27: Motor selection (bit 0)

28: Motor selection (bit 1)

Bit0:MI1

Bit1:MI2

Bit2:MI3

Bit3:MI4

Bit4:MI5

Bit5:MI6

04.09

Multi-function Input
Contact Selection

Bit6:MI7

Bit7:MI8

0

Bit8:MI9

Bit9:MI10

Bit10:MI11

Bit11:MI12

0:N.O., 1:N.C.

P.S.:MI1 to MI3 will be invalid when it is 3­wire control.

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-13

Chapter 4 Parameters|

Parameter Explanation Settings

Digital Terminal

04.10

Input Debouncing

1 to 20 (*2ms) 1

Time

04.11

04.12

04.13

04.14

04.15

04.16

04.17

04.18

04.19 ACI/AVI2 Selection

04.20

04.21

04.22

04.23

04.24 The Digital Input

Min AVI Voltage 0.0 to 10.0V

Min AVI Frequency

0.0 to 100.0%

Max AVI Voltage 0.0 to 10.0V

Max AVI Frequency 0.0 to 100.0%

Min ACI Current 0.0 to 20.0mA

Min ACI Frequency

0.0 to 100.0%

Max ACI Current 0.0 to 20.0mA

Max ACI Frequency 0.0 to 100.0%

0: ACI

1: AVI2

Min AVI2 Voltage 0.0 to 10.0V

Min AVI2 Frequency

0.0 to 100.0%

Max AVI2 Voltage 0.0 to 10.0V

Max AVI2
Frequency

0.0 to 100.0%

Read only

Used by PLC

(NOT for VFD*E*C
models)

Bit0=1:MI1 used by PLC

Bit1=1:MI2 used by PLC

Bit2=1:MI3 used by PLC

Bit3=1:MI4 used by PLC

Bit4=1:MI5 used by PLC

Bit5=1:MI6 used by PLC

Bit6=1: MI7 used by PLC

Bit7=1: MI8 used by PLC

Factory

Setting

0.0

0.0

10.0

100.0

4.0

0.0

20.0

100.0

0

0.0

0.0

10.0

100.0

##

Customer

4-14 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

Parameter Explanation Settings

Factory
Setting

Customer

Bit8=1: MI9 used by PLC

Bit9=1: MI10 used by PLC

Bit10=1: MI11 used by PLC

Bit11=1: MI12 used by PLC

04.25

The Analog Input
Used by PLC

(NOT for VFD*E*C
models)

Read only

Bit0=1:AVI used by PLC

Bit1=1:ACI/AVI2 used by PLC

Bit2=1: AI1 used by PLC

##

Bit3=1: AI2 used by PLC

Read only

Bit0: MI1 Status

Bit1: MI2 Status

Bit2: MI3 Status

Bit3: MI4 Status

Bit4: MI5 Status

Bit5: MI6 Status

Bit6: MI7 Status

##

04.26

Display the Status
of Multi-function
Input Terminal

Bit7: MI8 Status

Bit8: MI9 Status

Bit9: MI10 Status

Bit10: MI11 Status

Bit11: MI12 Status

04.27

Internal/External
Multi-function Input

0~4095

0

Terminals Selection

04.28

Internal Terminal
Status

0~4095

0

Group 5 Multi-Step Speeds Parameters

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-15

Chapter 4 Parameters|

r

Parameter Explanation Settings

05.00 1st Step Speed

0.00 to 600.0 Hz 0.00

Frequency

05.01 2nd Step Speed

0.00 to 600.0 Hz 0.00

Frequency

05.02 3rd Step Speed

0.00 to 600.0 Hz 0.00

Frequency

05.03 4th Step Speed

0.00 to 600.0 Hz 0.00

Frequency

05.04 5th Step Speed

0.00 to 600.0 Hz 0.00

Frequency

05.05 6th Step Speed

0.00 to 600.0 Hz 0.00

Frequency

05.06 7th Step Speed

0.00 to 600.0 Hz 0.00

Frequency

05.07 8th Step Speed

0.00 to 600.0 Hz 0.00

Frequency

05.08 9th Step Speed

0.00 to 600.0 Hz 0.00

Frequency

05.09 10th Step Speed

0.00 to 600.0 Hz 0.00

Frequency

05.10 11th Step Speed

0.00 to 600.0 Hz 0.00

Frequency

05.11 12th Step Speed

0.00 to 600.0 Hz 0.00

Frequency

05.12 13th Step Speed

0.00 to 600.0 Hz 0.00

Frequency

05.13 14th Step Speed

0.00 to 600.0 Hz 0.00

Frequency

05.14 15th Step Speed

0.00 to 600.0 Hz 0.00

Frequency

Group 6 Protection Parameters

Parameter Explanation Settings

115/230V series: 330.0V to 410.0V 390.0V

06.00

Over-Voltage Stall
Prevention

460V series: 660.0V to 820.0V 780.0V

0.0: Disable over-voltage stall prevention

Factory
Setting

Factory

Setting

Customer

Custome

4-16 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

r

Parameter Explanation Settings

06.01

06.02

Over-Current Stall
Prevention during
Accel

Over-Current Stall
Prevention during
Operation

0:Disable

20 to 250%

0:Disable

20 to 250%

0: Disabled

Factory
Setting

170

170

Custome

1: Enabled during constant speed operation.

06.03

Over-Torque
Detection Mode
(OL2)

After the over-torque is detected, keep
running until OL1 or OL occurs.

2: Enabled during constant speed operation.
After the over-torque is detected, stop
running.

3: Enabled during accel. After the over-torque
is detected, keep running until OL1 or OL

0

occurs.

06.04

06.05

06.06

Over-Torque
Detection Level

Over-Torque
Detection Time

Electronic Thermal
Overload Relay
Selection

4: Enabled during accel. After the over-torque
is detected, stop running.

10 to 200% 150

0.1 to 60.0 sec 0.1

0: Standard motor (self cooled by fan)

1: Special motor (forced external cooling)

2

2: Disabled

06.07

Electronic Thermal
Characteristic

30 to 600 sec 60

0: No fault

0

1: Over current (oc)

06.08

Present Fault
Record

2: Over voltage (ov)

3: IGBT Overheat (oH1)

4: Power Board Overheat (oH2)

5: Overload (oL)

6: Overload1 (oL1)

7: Motor over load (oL2)

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-17

Chapter 4 Parameters|

r

Parameter Explanation Settings

06.09 Second Most
Recent Fault Record

8: External fault (EF)

9: Current exceeds 2 times rated current

Factory

Setting

during accel.(ocA)

10: Current exceeds 2 times rated current
during decel.(ocd)

11: Current exceeds 2 times rated current
during steady state operation (ocn)

12: Ground fault (GFF)

13: Reserved

14: Phase-Loss (PHL)

15: Reserved

16: Auto Acel/Decel failure (CFA)

06.10 Third Most Recent
Fault Record

17: SW/Password protection (codE)

18: Power Board CPU WRITE failure (cF1.0)

19: Power Board CPU READ failure (cF2.0)

20: CC, OC Hardware protection failure
(HPF1)

06.11
Fourth Most Recent

Fault Record

21: OV Hardware protection failure (HPF2)

22: GFF Hardware protection failure (HPF3)

23: OC Hardware protection failure (HPF4)

24: U-phase error (cF3.0)

06.12

Fifth Most Recent
Fault Record

25: V-phase error (cF3.1)

26: W-phase error (cF3.2)

27: DCBUS error (cF3.3)

28: IGBT Overheat (cF3.4)

29: Power Board Overheat (cF3.5)

30: Control Board CPU WRITE failure (cF1.1)

31: Control Board CPU WRITE failure (cF2.1)

32: ACI signal error (AErr)

33: Reserved

Custome

4-18 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

r

r

Parameter Explanation Settings

34: Motor PTC overheat protection (PtC1)

Factory
Setting

Custome

35: PG feedback signal error (PGEr)

36-39: Reserved

40: Communication time-out error of control
board and power board (CP10)

41: dEb error

42: ACL (Abnormal Communication Loop)

Group 7 Motor Parameters

Factory

Parameter Explanation Settings

07.00 Motor Rated Current

30 %FLA to 120% FLA FLA

Setting

Custome

(Motor 0)

07.01

07.02

Motor No-Load
Current (Motor 0)

Torque
Compensation

0%FLA to 99% FLA 0.4*FLA

0.0 to 10.0 0.0

(Motor 0)

07.03 Slip Compensation

0.00 to 10.00 0.00
(Used without PG)
(Motor 0)

07.04

07.05

07.06

07.07

07.08

Motor Parameters
Auto Tuning

Motor Line-to-line
Resistance R1
(Motor 0)

Motor Rated Slip
(Motor 0)

Slip Compensation
Limit

Torque
Compensation Time

0: Disable

1: Auto tuning R1

0

2: Auto tuning R1 + no-load test

0~65535 mΩ

0

0.00 to 20.00 Hz 3.00

0 to 250% 200

0.01 ~10.00 Sec 0.30
Constant

07.09

Slip Compensation
Time Constant

0.05 ~10.00 sec 0.20

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-19

Chapter 4 Parameters|

r

Parameter Explanation Settings

Accumulative Motor

07.10

Operation Time

0 to 1439 Min. 0

(Min.)

Accumulative Motor

07.11

Operation Time

0 to 65535 Day 0

(Day)

07.12

Motor PTC
Overheat Protection

0: Disable

1: Enable

Input Debouncing

07.13

Time of the PTC

0~9999(*2ms) 100

Protection

Motor PTC

07.14

Overheat Protection

0.1~10.0V 2.4

Level

Motor PTC

07.15

Overheat Warning

0.1~10.0V 1.2

Level

Motor PTC

07.16

Overheat Reset

0.1~5.0V 0.6

Delta Level

0: Warn and RAMP to stop

1: Warn and COAST to stop

2: Warn and keep running

30 %FLA to 120% FLA FLA

0%FLA to 99% FLA 0.4*FLA

07.17

07.18

07.19

Treatment of the
Motor PTC
Overheat

Motor Rated Current
(Motor 1)

Motor No-Load
Current (Motor 1)

Torque

07.20

Compensation

0.0 to 10.0 0.0

(Motor 1)

Slip Compensation

07.21

(Used without PG)

0.00 to 10.00 0.00

(Motor 1)

Motor Line-to-line

07.22

07.23

07.24

Resistance R1
(Motor 1)

Motor Rated Slip
(Motor 1)

Motor Pole Number
(Motor 1)

0~65535 mΩ

0.00 to 20.00 Hz 3.00

2 to 10 4

Factory

Setting

0

0

0

Custome

4-20 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

r

Factory

Parameter Explanation Settings

07.25

07.26

Motor Rated Current
(Motor 2)

Motor No-Load
Current (Motor 2)

30 %FLA to 120% FLA FLA

0%FLA to 99% FLA 0.4*FLA

Torque

07.27

Compensation

0.0 to 10.0 0.0

Setting

Custome

(Motor 2)

07.28

Slip Compensation
(Used without PG)

0.00 to 10.00 0.00
(Motor 2)

07.29

07.30

07.31

07.32

07.33

07.34

Motor Line-to-line
Resistance R1
(Motor 2)

Motor Rated Slip
(Motor 2)

Motor Pole Number
(Motor 3)

Motor Rated Current
(Motor 3)

Motor No-Load
Current (Motor 3)

Torque
Compensation

0~65535 mΩ

0

0.00 to 20.00 Hz 3.00

2 to 10 4

30 %FLA to 120% FLA FLA

0%FLA to 99% FLA 0.4*FLA

0.0 to 10.0 0.0
(Motor 3)

07.35

Slip Compensation
(Used without PG)

0.00 to 10.00 0.00
(Motor 3)

07.36

07.37

07.38

Motor Line-to-line
Resistance R1
(Motor 3)

Motor Rated Slip
(Motor 3)

Motor Pole Number
(Motor 3)

0~65535 mΩ

0

0.00 to 20.00 Hz 3.00

2 to 10 4

Group 8 Special Parameters

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-21

Chapter 4 Parameters|

r

Parameter Explanation Settings

08.00

08.01

08.02

DC Brake Current
Level

DC Brake Time
during Start-Up

DC Brake Time
during Stopping

0 to 100% 0

0.0 to 60.0 sec 0.0

0.0 to 60.0 sec 0.0

Start-Point for DC

08.03

Brake

0.00 to 600.0Hz 0.00

0: Operation stops after momentary power
loss

1: Operation continues after momentary

power loss, speed search starts with the
Last Frequency

08.04

Momentary Power
Loss Operation
Selection

2: Operation continues after momentary

power loss, speed search starts with the
minimum frequency

08.05

08.06

08.07

08.08

08.09

08.10

08.11

08.12

08.13

08.14

Maximum Allowable
Power Loss Time

Base-block Speed
Search

B.B. Time for Speed
Search

Current Limit for
Speed Search

Skip Frequency 1
Upper Limit

Skip Frequency 1
Lower Limit

Skip Frequency 2
Upper Limit

Skip Frequency 2
Lower Limit

Skip Frequency 3
Upper Limit

Skip Frequency 3
Lower Limit

0.1 to 20.0 sec 2.0

0: Disable speed search

1: Speed search starts with last frequency

2: Starts with minimum output frequency

0.1 to 5.0 sec 0.5

30 to 200% 150

0.00 to 600.0 Hz 0.00

0.00 to 600.0 Hz 0.00

0.00 to 600.0 Hz 0.00

0.00 to 600.0 Hz 0.00

0.00 to 600.0 Hz 0.00

0.00 to 600.0 Hz 0.00

Factory

Setting

0

1

Custome

4-22 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

r

Factory

Parameter Explanation Settings

08.15 Auto Restart After

0 to 10 (0=disable) 0

Setting

Custome

Fault

08.16

Auto Reset Time at
Restart after Fault

08.17 Auto Energy Saving

08.18 AVR Function

0.1 to 6000 sec

0: Disable

1: Enable

0: AVR function enable

1: AVR function disable

2: AVR function disable for decel.

60.0

0

0

3: AVR function disable for stop

08.19

08.20

Software Brake
Level

Compensation
Coefficient for Motor

115V / 230V series: 370.0to 430.0V 380.0

460V series: 740.0 to 860.0V 760.0

0.0~5.0

0.0

Instability

08.21 OOB Sampling Time

0.1 to 120.0 sec

1.0

08.22

08.23

Number of OOB
Sampling Times

OOB Average
Sampling Angle

08.24 DEB Function

08.25 DEB Return Time

08.26

Speed Search
during Start-up

Speed Search

08.27

Frequency during
Start-up

00 to 32

Read only

0: Disable

1: Enable

0 to 250 sec

0: Disable

1: Enable

0: By setting frequency

1: By max. operation frequency (Pr.01.00)

20

#.#

0

0

0

0

Group 9 Communication Parameters

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-23

Chapter 4 Parameters|

r

Parameter Explanation Settings

09.00

Communication
Address

1 to 254 1

0: Baud rate 4800bps

09.01 Transmission Speed

1: Baud rate 9600bps

2: Baud rate 19200bps

3: Baud rate 38400bps

0: Warn and keep operating

09.02

Transmission Fault
Treatment

1: Warn and ramp to stop

2: Warn and coast to stop

3: No warning and keep operating

09.03 Time-out Detection

0.1 ~ 120.0 seconds

0.0: Disable

0: 7,N,2 (Modbus, ASCII)

1: 7,E,1 (Modbus, ASCII)

09.04

Communication
Protocol

2: 7,O,1 (Modbus, ASCII)

3: 8,N,2 (Modbus, RTU)

4: 8,E,1 (Modbus, RTU)

5: 8,O,1 (Modbus, RTU)

6: 8,N,1 (Modbus, RTU)

7: 8,E,2 (Modbus, RTU)

8: 8,O,2 (Modbus, RTU)

9: 7,N,1 (Modbus, ASCII)

10: 7,E,2 (Modbus, ASCII)

11: 7,O,2 (Modbus, ASCII)

09.05 Reserved

09.06 Reserved

09.07

Response Delay
Time

0 ~ 200 (unit: 2ms)

Factory

Setting

1

3

0.0

0

1

Custome

4-24 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

r

r

Parameter Explanation Settings

0: Baud rate 4800 bps

1: Baud rate 9600 bps

2: Baud rate 19200 bps

3: Baud rate 38400 bps

09.08

Transmission Speed
for USB Card

Factory

Setting

2

Custome

4: Baud rate 57600 bps

0: 7,N,2 for ASCII

1: 7,E,1 for ASCII

09.09

Communication
Protocol for USB
Card

2: 7,O,1 for ASCII

3: 8,N,2 for RTU

1

4: 8,E,1 for RTU

5: 8,O,1 for RTU

6: 8,N,1 (Modbus, RTU)

7: 8,E,2 (Modbus, RTU)

09.09

Communication
Protocol for USB
Card

8: 8,O,2 (Modbus, RTU)

9: 7,N,1 (Modbus, ASCII)

10: 7,E,2 (Modbus, ASCII)

11: 7,O,2 (Modbus, ASCII)

09.10

Transmission Fault
Treatment for USB
Card

0: Warn and keep operating

1: Warn and ramp to stop

2: Warn and coast to stop

0

3: No warning and keep operating

09.11

09.12

Time-out Detection
for USB Card

COM port for PLC
Communication

(NOT for VFD*E*C

0.1 ~ 120.0 seconds

0.0: Disable

0: RS485

1: USB card

0.0

0

models)

Group 10 PID Control Parameters

Factory

Parameter Explanation Settings

10.00 PID Set Point
Selection

0: Disable PID operation

1: Keypad (based on Pr.02.00)

Custome

Setting

0

2: 0 to +10V from AVI

3: 4 to 20mA from ACI or 0 to +10V from
AVI2

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-25

Chapter 4 Parameters|

r

Parameter Explanation Settings

Factory

Setting

4: PID set point (Pr.10.11)

0: Positive PID feedback from external
terminal AVI (0 ~ +10VDC)

1: Negative PID feedback from external
terminal AVI (0 ~ +10VDC)

10.01

Input Terminal for
PID Feedback

2: Positive PID feedback from external
terminal ACI (4 ~ 20mA)/ AVI2 (0 ~

0

+10VDC).

3: Negative PID feedback from external
terminal ACI (4 ~ 20mA)/ AVI2 (0 ~
+10VDC).

10.02

Proportional Gain
(P)

10.03 Integral Time (I)

10.04

10.05

10.06

10.07

Derivative Control
(D)

Upper Bound for
Integral Control

Primary Delay Filter
Time

PID Output Freq
Limit

0.0 to 10.0 1.0

0.00 to 100.0 sec (0.00=disable)

0.00 to 1.00 sec

1.00

0.00

0 to 100% 100

0.0 to 2.5 sec 0.0

0 to 110% 100

PID Feedback

10.08

Signal Detection

0.0 to 3600 sec (0.0 disable) 60.0

Time

0: Warn and RAMP to stop

1: Warn and COAST to stop

0

2: Warn and keep operation

0.0 to 10.0 1.0

0.00 to 600.0Hz

0.00

10.09

10.10

10.11

Treatment of the
Erroneous PID
Feedback Signals

Gain Over the PID
Detection Value

Source of PID Set
point

10.12 PID Offset Level 1.0 to 50.0% 10.0

10.13

10.14

Detection Time of
PID Offset

Sleep/Wake Up
Detection Time

0.1 to 300.0 sec 5.0

0.0 to 6550 sec 0.0

Custome

4-26 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

r

Parameter Explanation Settings

10.15 Sleep Frequency 0.00 to 600.0 Hz 0.00

10.16 Wakeup Frequency 0.00 to 600.0 Hz 0.00

10.17

Group 11 Parameters for Extension Card

Parameter Explanation Settings

11.00

11.01

11.02

11.03

11.04

Minimum PID
Output Frequency
Selection

Multi-function
Output Terminal
MO2/RA2

Multi-function
Output Terminal
MO3/RA3

Multi-function
Output Terminal
MO4/RA4

Multi-function
Output Terminal
MO5/RA5

Multi-function
Output Terminal
MO6/RA6

20: Warning(FbE,Cexx, AoL2, AUE, SAvE)

0: By PID control

1: By minimum output frequency (Pr.01.05)

0: No function

1: AC drive operational

2: Master frequency attained

3: Zero speed

4: Over torque detection

5: Base-Block (B.B.) indication

6: Low-voltage indication

7: Operation mode indication

8: Fault indication

9: Desired frequency 1 attained

10: Terminal count value attained

11: Preliminary count value attained

12: Over Voltage Stall supervision

13: Over Current Stall supervision

14: Heat sink overheat warning
15: Over Voltage supervision

16: PID supervision

17: Forward command

18: Reverse command

19: Zero speed output signal

Factory

Custome

Setting

0

Factory
Setting

0

0

0

0

0

Customer

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-27

Chapter 4 Parameters|

Parameter Explanation Settings

21: Brake control (Desired frequency

11.05

11.06

11.07

11.08

11.09

11.10

11.11 Multi-function Input

Multi-function
Output Terminal
MO7/RA7

Multi-function Input
Terminal (MI7)

Multi-function Input
Terminal (MI8)

Multi-function Input
Terminal (MI9)

Multi-function Input
Terminal (MI10)

Multi-function Input
Terminal (MI11)

Terminal (MI12)

attained)

22: Drive ready

23: Desired frequency 2 attained

0: No function 0

1: Multi-Step speed command 1

2: Multi-Step speed command 2

3: Multi-Step speed command 3 0

4: Multi-Step speed command 4

5: External reset

6: Accel/Decel inhibit 0

7: Accel/Decel time selection command

8: Jog Operation

9: External base block 0

10: Up: Increment master frequency

11: Down: Decrement master frequency

12: Counter Trigger Signal 0

13: Counter reset

14: E.F. External Fault Input

15: PID function disabled

16: Output shutoff stop 0

17: Parameter lock enable

18: Operation command selection (external
terminals)

19: Operation command selection (keypad)

20: Operation command selection
(communication)

21: FWD/REV command

22: Source of second frequency command

23: Run/Stop PLC Program (PLC1)

(NOT for VFD*E*C models)

Factory

Customer

Setting

0

4-28 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

Parameter Explanation Settings

23: Quick Stop (Only for VFD*E*C models)

24: Download/execute/monitor PLC Program
(PLC2) (NOT for VFD*E*C models)

25: Simple position function

26: OOB (Out of Balance Detection)

27: Motor selection (bit 0)

28: Motor selection (bit 1)

Group 12: Analog Input/Output Parameters for Extension Card

Parameter Explanation Settings

0: Disabled

1: Source of the 1st frequency

12.00

12.01

12.02

12.03

12.04

12.05

12.06

12.07

AI1 Function
Selection

AI1 Analog Signal
Mode

Min. AVI3 Input
Voltage

Min. AVI3 Scale
Percentage

Max. AVI3 Input
Voltage

Max. AVI3 Scale
Percentage

Min. ACI2 Input
Current

Min. ACI2 Scale
Percentage

2: Source of the 2nd frequency

3: PID Set Point (PID enable)

4: Positive PID feedback

5: Negative PID feedback

0: ACI2 analog current (0.0 ~ 20.0mA)

1: AVI3 analog voltage (0.0 ~ 10.0V)

0.0 to 10.0V 0.0

0.0 to 100.0% 0.0

0.0 to 10.0V 10.0

0.0 to 100.0% 100.0

0.0 to 20.0mA 4.0

0.0 to 100.0% 0.0

Factory

Customer

Setting

Factory

Customer

Setting

0

1

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-29

Chapter 4 Parameters|

Parameter Explanation Settings

12.08

12.09

Max. ACI2 Input
Current

Max. ACI2 Scale
Percentage

0.0 to 20.0mA 20.0

0.0 to 100.0% 100.0

0: Disabled

1: Source of the 1st frequency

12.10

AI2 Function
Selection

2: Source of the 2nd frequency

3: PID Set Point (PID enable)

4: Positive PID feedback

5: Negative PID feedback

Factory

Customer

Setting

0

12.11

12.12

12.13

12.14

12.15

12.16

12.17

12.18

12.19

12.20

12.21

12.22

AI2 Analog Signal
Mode

Min. AVI4 Input
Voltage

Min. AVI4 Scale
Percentage

Max. AVI4 Input
Voltage

Max. AVI4 Scale
Percentage

Min. ACI3 Input
Current

Min. ACI3 Scale
Percentage

Max. ACI3 Input
Current

Max. ACI3 Scale
Percentage

AO1 Terminal
Analog Signal Mode

AO1 Analog Output
Signal

AO1 Analog Output
Gain

0: ACI3 analog current (0.0 ~ 20.0mA)

1: AVI4 analog voltage (0.0 ~ 10.0V)

1

0.0 to 10.0V 0.0

0.0 to 100.0% 0.0

0.0 to 10.0V 10.0

0.0 to 100.0% 100.0

0.0 to 20.0mA 4.0

0.0 to 100.0% 0.0

0.0 to 20.0mA 20.0

0.0 to 100.0% 100.0

0: AVO1

1: ACO1 (analog current 0.0 to 20.0mA)

0

2: ACO1 (analog current 4.0 to 20.0mA)

0: Analog Frequency

1: Analog Current (0 to 250% rated current)

0

1 to 200% 100

4-30 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

Parameter Explanation Settings

Factory

Setting

Customer

0: AVO2

12.23

AO2 Terminal
Analog Signal Mode

1: ACO2 (analog current 0.0 to 20.0mA)

0

2: ACO2 (analog current 4.0 to 20.0mA)

12.24

12.25

12.26

12.27

AO2 Analog Output
Signal

AO2 Analog Output
Gain

AUI Analog Input
Selection

AUI Analog Input
Bias

12.28 AUI Bias Polarity

0: Analog Frequency

1: Analog Current (0 to 250% rated current)

0

1 to 200% 100

0: No function

1: Source of the 1st frequency

0

2: Source of the 2nd frequency

0.00~200.00% 0.00

0: Positive bias

1: Negative bias

0

12.29 AUI Analog Gain 1~200% 100

0: No AUI Negative Bias Command

1: Negative Bias: REV Motion Enabled

0

2: Negative Bias: REV Motion Disabled

0~9999 50

12.30

12.31

AUI Negative Bias,
Reverse Motion
Enable/Disable

AUI Analog Input
Delay

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-31

Chapter 4 Parameters|

Group 13: PG function Parameters for Extension Card

Parameter Explanation Settings

Factory
Setting

0: Disabled

13.00 PG Input

1: Single phase

2: Forward/Counterclockwise rotation

0

3: Reverse/Clockwise rotation

13.01 PG Pulse Range 1 to 20000 600

13.02

13.03

13.04

Motor Pole Number
(Motor 0)

Proportional Gain
(P)

Integral Gain (I) 0.00 to 100.00 sec 1.00

2 to 10 4

0.0 to 10.0 1.0

Speed Control

13.05

13.06

13.07

13.08

13.09

13.10

Output Frequency
Limit

Speed Feedback
Display Filter

Detection Time for
Feedback Signal
Fault

Treatment of the
Feedback Signal
Fault

Speed Feedback
Filter

Source of the High­speed Counter

0.00 to 100.00Hz 10.00

0 to 9999 (*2ms) 500

0.0: disabled

0.1 to 10.0 sec

1

0: Warn and RAMP to stop

1: Warn and COAST to stop

1

2: Warn and keep operation

0 to 9999 (*2ms) 16

0: PG card

1: PLC (NOT for VFD*E*C models)

Read

Only

Customer

4-32 Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14

Chapter 4 Parameters|

4.2 Parameter Settings for Applications

Speed Search

Applications Purpose Functions

Windmill, winding
machine, fan and all
inertia loads

Restart free­running motor

Before the free-running motor is
completely stopped, it can be restarted
without detection of motor speed. The
AC motor drive will auto search motor
speed and will accelerate when its
speed is the same as the motor speed.

DC Brake before Running

Applications Purpose Functions

When e.g. windmills,
fans and pumps rotate
freely by wind or flow

Keep the free­running motor at
standstill.

If the running direction of the free­running motor is not steady, please
execute DC brake before start-up.

without applying power

Energy Saving

Applications Purpose Functions

Punching machines
fans, pumps and
precision machinery

Energy saving and
less vibrations

Energy saving when the AC motor
drive runs at constant speed, yet full
power acceleration and deceleration
For precision machinery it also helps
to lower vibrations.

Multi-step Operation

Applications Purpose Functions

Conveying machinery

Cyclic operation by
multi-step speeds.

To control 15-step speeds and duration
by simple contact signals.

Switching acceleration and deceleration times

Applications Purpose Functions

Auto turntable for
conveying machinery

Switching
acceleration and
deceleration times
by external signal

When an AC motor drive drives two or
more motors, it can reach high-speed
but still start and stop smoothly.

Related

Parameters

08.04~08.08

Related

Parameters

08.00

08.01

Related

Parameters

08.17

Related

Parameters

04.05~04.10

05.00~05.14

Related

Parameters

01.09~01.12

04.05~04.08

Revision Oct. 2009, 07EE, SW--PW V1.14/CTL V2.14 4-33

Chapter 4 Parameters|

V

V

V

P

Overheat Warning

Applications Purpose Functions

When AC motor drive overheats, it

Air conditioner Safety measure

uses a thermal sensor to have
overheat warning.

Two-wire/three-wire

Applications Purpose Functions

FWD/STOP

REV/STOP

MI1:("OPEN":STOP)

("CLOSE":F WD)

MI2:("OPEN": STOP)

("CLOSE": REV)

DCM

MI1:("OPEN":STOP)

("CLOSE":RUN)

MI2:("OPEN": FWD)

("CLOSE": REV)

DCM

General application

To run, stop,
forward and
reverse by external
terminals

RUN/STOP

FWD/REV

3-wire

STO

RUN

MI1 ("CLOSE": RUN):

MI3:("OPEN":STOP)

MI2:("OPEN": FWD)

REV/FWD

("CLOSE": REV)

DCM

Operation Command

Applications Purpose Functions

General application

Selecting the
source of control
signal

Selection of AC motor drive control by
external terminals, digital keypad or
RS485.

Frequency Hold

Applications Purpose Functions

General application

Acceleration/
deceleration pause

Hold output frequency during
Acceleration/deceleration

FD-E

FD-E

FD-E

Related

Parameters

03.00~03.01

04.05~04.08

Related

Parameters

02.00

02.01

02.09

04.04

Related

Parameters

02.01

04.05~04.08

Related

Parameters

04.05~04.08

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Auto Restart after Fault

Applications Purpose Functions

Air conditioners,
remote pumps

For continuous and
reliable operation
without operator
intervention

The AC motor drive can be
restarted/reset automatically up to 10
times after a fault occurs.

Related

Parameters

08.15~08.16

Emergency Stop by DC Brake

Applications Purpose Functions

AC motor drive can use DC brake for

High-speed rotors

Emergency stop
without brake
resistor

emergency stop when quick stop is
needed without brake resistor. When
used often, take motor cooling into

Related

Parameters

08.00

08.02

08.03

consideration.

Over-torque Setting

Applications Purpose Functions

The over-torque detection level can be
set. Once OC stall, OV stall and over­torque occurs, the output frequency
will be adjusted automatically. It is
suitable for machines like fans and
pumps that require continuous

Pumps, fans and
extruders

To protect
machines and to
have continuous/
reliable operation

Related

Parameters

06.00~06.05

operation.

Upper/Lower Limit Frequency

Applications Purpose Functions

When user cannot provide
upper/lower limit, gain or bias from
external signal, it can be set
individually in AC motor drive.

Pump and fan

Control the motor
speed within
upper/lower limit

Related

Parameters

01.07

01.08

Skip Frequency Setting

Applications Purpose Functions

The AC motor drive cannot run at

Pumps and fans

To prevent
machine vibrations

constant speed in the skip frequency
range. Three skip frequency ranges

Related

Parameters

08.09~08.14

can be set.

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Carrier Frequency Setting

Applications Purpose Functions

The carrier frequency can be

General application Low noise

increased when required to reduce
motor noise.

Keep Running when Frequency Command is Lost

Applications Purpose Functions

When the frequency command is lost

Air conditioners

For continuous
operation

by system malfunction, the AC motor
drive can still run. Suitable for
intelligent air conditioners.

Output Signal during Running

Applications Purpose Functions

Signal available to stop braking (brake

General application

Provide a signal for
running status

release) when the AC motor drive is
running. (This signal will disappear
when the AC motor drive is free­running.)

Output Signal in Zero Speed

Applications Purpose Functions

When the output frequency is lower

General application

Provide a signal for
running status

than the min. output frequency, a
signal is given for external system or
control wiring.

Output Signal at Desired Frequency

Applications Purpose Functions

When the output frequency is at the

General application

Provide a signal for
running status

desired frequency (by frequency
command), a signal is given for
external system or control wiring
(frequency attained).

Related

Parameters

02.03

Related

Parameters

02.06

Related

Parameters

03.00~03.01

Related

Parameters

03.00~03.01

Related

Parameters

03.00~03.01

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Output Signal for Base Block

Applications Purpose Functions

General application

Provide a signal for
running status

When executing Base Block, a signal
is given for external system or control
wiring.

Related

Parameters

03.00~03.01

Overheat Warning for Heat Sink

Applications Purpose Functions

When heat sink is overheated, it will

General application For safety

send a signal for external system or

Related

Parameters

03.00~03.01

control wiring.

Multi-function Analog Output

Applications Purpose Functions

The value of frequency, output

General application

Display running
status

current/voltage can be read by
connecting a frequency meter or

Related

Parameters

03.06

voltage/current meter.

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Chapter 4 Parameters|

4.3 Description of Parameter Settings

Group 0: User Parameters This parameter can be set during operation.

00.00 Identity Code of the AC Motor Drive

Settings Read Only Factory setting: ##

00.01 Rated Current Display of the AC Motor Drive

Settings Read Only Factory setting: #.#

 Pr. 00.00 displays the identity code of the AC motor drive. The capacity, rated current, rated

voltage and the max. carrier frequency relate to the identity code. Users can use the following

table to check how the rated current, rated voltage and max. carrier frequency of the AC motor

drive correspond to the identity code.

 Pr.00.01 displays the rated current of the AC motor drive. By reading this parameter the user

can check if the AC motor drive is correct.

115V Series 230V Series

kW 0.2 0.4 0.75 1.5 2.2 3.7 5.5 7.5 11 15

HP 0.25 0.5 1.0 2.0 3.0 5.0 7.5 10 15 20

Pr.00.00

Rated Output

Current (A)

Max. Carrier

Frequency



kW 0.4 0.75 1.5 2.2 3.7 5.5 7.5 11 15 18.5 22

HP 0.5 1.0 2.0 3.0 5.0 7.5 10 15 20 25 30

Pr.00.00 3 5 7 9 11 13 15 17 19 21 23

Rated Output

Current (A)

Max. Carrier

Frequency

00.02

Factory Setting: 0

Settings 0 Parameter can be read/written

1 All parameters are read-only

6 Clear PLC program (NOT for VFD*E*C models)

9 All parameters are reset to factory settings (50Hz, 230V/400V or

10 All parameters are reset to factory settings (60Hz, 115V/220V/440V)

0 2 4 6 8 10 12 14 16 18

1.6 2.5 4.2 7.5 11.0 17 25 33 45 65

15kHz

460V Series

1.5 2.5 4.2 5.5 8.5 13 18 24 32 38 45

15kHz

Parameter Reset

220V/380V depends on Pr.00.12)

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 This parameter allows the user to reset all parameters to the factory settings except the fault

records (Pr.06.08 ~ Pr.06.12).

50Hz: Pr.01.00 and Pr.01.01 are set to 50Hz and Pr.01.02 will be set by Pr.00.12.

60Hz: Pr.01.00 and Pr.01.01 are set to 60Hz and Pr.01.02 is set to 115V, 230V or 460V.

 When Pr.00.02=1, all parameters are read-only. To write all parameters, set Pr.00.02=0.

 When Pr.00.02=6, it clears all PLC program. But this function is NOT for VFD*E*C models.

 When the parameter settings are abnormal, all parameters can be reset to factory setting by

setting Pr.00.02 to 9 or 10.

 When Pr.00.02=9, all parameters are reset to factory setting for 50Hz users and voltage will be

different by Pr.00.12 setting.

 When Pr.00.02=10, all parameters are reset to factory setting for 60Hz users.

 Related parameter: Pr.00.12 (50Hz Base Voltage Selection)

NOTE

When Pr.00.02=9 or 10, all parameter are reset to factory setting but it doesn’t clear all PLC program.

Only Pr.00.02=6 can clear all PLC program.

Start-up Display Selection

00.03

Factory Setting: 0

Settings 0 Display the frequency command value (Fxxx)

1 Display the actual output frequency (Hxxx)

2 Display the output current in A supplied to the motor

3 Display the content of user-defined unit (Uxxx)

4 FWD/REV command

5 PLCx (PLC selections: PLC0/PLC1/PLC2)

 This parameter determines the start-up display page after power is applied to the drive.

 For setting 5, PLC0: disable, PLC1: run PLC, PLC2: read/write PLC programs into AC motor

drive.

 Please refer to Pr.00.04 for multi-function display.

 Related parameter: Pr.00.04 (Content of Multi-function Display)

(Axxx)

(NOT for VFD*E*C models)

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Chapter 4 Parameters|

00.04 Content of Multi-function Display

Settings 0 Display the content of user-defined unit (Uxxx)

1

2

3

4

5 Display PID analog feedback signal value in % (b)

6

7

8

9

10

11

12 Display AVI3/ACI2 level (I.)

13 Display AVI4/ACI3 level (i.)

14 Display PG speed in RPM (G)

15 Display motor number 00~03 (M)

 When Pr00.03 is set to 03, the display is according to the setting of Pr00.04.

 When Pr.00.04 is set to 0, please refer to Pr.00.05 for details.

 Related parameter: Pr.00.05 (User Defined Coefficient K)

Display the counter value which counts the number of

pulses on TRG terminal (c)

Display PLC D1043 value (C)
(NOT for VFD*E*C models)

Display the actual DC BUS voltage in VDC of the AC
motor drive (u)

Display the output voltage in VAC of terminals U/T1,
V/T2, W/T3 to the motor (E)

Display the power factor angle in º of terminals U/T1,
V/T2, W/T3 to the motor (n)

Display the output power in kW of terminals U, V and W
to the motor (P)

Display the estimated value of torque in Nm as it relates
to current (t)

Display the signal of AVI analog input terminal in V (I)

Display the signal of ACI analog input terminal in mA or
display the signal of AVI2 analog input terminal in V (i)

Display the temperature of IGBT (h) in °C

Factory Setting: 0

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NOTE

Please refer to Appendix B.8 KPE-LE02 for the 7-segment LED Display of the Digital Keypad.

00.05 User Defined Coefficient K

Settings 0. 1 to 160.0 Factory Setting: 1.0

 The coefficient K determines the multiplying factor for the user-defined unit.

The display value is calculated as follows:

U (User-defined unit) = Actual output frequency * K (Pr.00.05)

Example:

If user wants to use RPM to display the motor speed when 4-polse motor runs at 60Hz. The

user can display the motor speed by setting Pr.00.04 to 0. The application is shown as follows.

From the formula of motor speed, user-defined unit (U) (RPM) = 60X120/4=1800 (disregard

slip). Therefore, User Defined Coefficient K is 30.0.

NOTE

120

speedmotorofFormula

fn

×=

P

n: speed (RPM) (revolution per minute)

P: pole number of motor

f: operation frequency (Hz)

00.06 Power Board Software Version

Settings Read Only

Display #.##

00.07 Control Board Software Version

Settings Read Only

Display #.##

00.08

Password Input

Settings 0 to 9999 Factory Setting: 0

Display 0~2 (times of wrong password)

 The function of this parameter is to input the password that is set in Pr.00.09. Input the correct

password here to enable changing parameters. You are limited to a maximum of 3 attempts.

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After 3 consecutive failed attempts, a blinking “codE” will show up to force the user to restart

the AC motor drive in order to try again to input the correct password.

 Related parameter: Pr.00.09 (Password Set)

Password Decode Flow Chart

Decode

00.08

input password

If the password is correct?

Displays 0 wh en
entering correct
password into
Pr.00.08.

END

3 chances to enter the correct
password.
1st time displays "1" if
password is incorrect.
2nd time displays "2", if
password is incorrect.
3rd time displays " code"
(blink ing)

If the passwo rd was ente red
incorrectly after three tries,
the keypad will be locked.
Turn the power OFF/ON to
re -e nter th e pas swo rd.

Password Set

00.09

Settings 0 to 9999 Factory Setting: 0

Display 0 No password set or successful input in Pr. 00.08

1 Password has been set

 To set a password to protect your parameter settings.

If the display shows 0, no password is set or password has been correctly entered in Pr.00.08.

All parameters can then be changed, including Pr.00.09.

The first time you can set a password directly. After successful setting of password the display

will show 1.

Be sure to record the password for later use.

To cancel the parameter lock, set the parameter to 0 after inputting correct password into Pr.

00.08.

The password consists of min. 1 digits and max. 4 digits.

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 How to make the password valid again after decoding by Pr.00.08:

Method 1: Re-input original password into Pr.00.09 (Or you can enter a new password if you

want to use a changed or new one).

Method 2: After rebooting, password function will be recovered.

 To lock parameters, you can set Pr.00.02 to 1 or Pr.04.05~04.08 to 17 to prevent changing of

parameters settings by unqualified personnel. Please note that it is without password set.

00.10

Control Method

Factory Setting: 0

Settings 0 V/f Control

1 Vector Control

 This parameter determines the control method of the AC motor drive.

 Control of V/f (Voltage/frequency)

1. To operate by the change of frequency and voltage without changing the mechanical

characteristic of motor: it can run by open-loop method and also can use with PG card (refer to

Appendix B) to run by close-loop method. In this control, it gets the change of the

electromagnetic torque of rotor and the load torque from the change of slip ratio.

2. The V/f control is the constant value control mode. Although it prevents the main questions

of the decreasing frequency and increasing magnetic field, the magnetic field is decreasing

with frequency. In such circumstance, insufficient motor torque will occur when the magnetic

field weakens in the low frequency. At this moment, it can get the best operation with Pr.07.02

setting(Torque Compensation) to get the torque compensation.

common applications: pump, conveyor belt, compressor and treadmill

 Vector control:

1. To operate by the change of frequency and voltage without changing the mechanical

characteristic of motor: it can run by open-loop method and also can use with PG card (refer to

Appendix B) to run by close-loop method. In this mode, it is coordinate change. The physical

essence is the relativity of motion. That means the change of rotor current only has relation

with electromagnetic torque and the change of stator current only has relation with

electromagnetic torque. This is the characteristic of vector control.

2.The vector control can eliminate the relation between electromagnetic current vector and

armature flux. Thus, it can control the current vector and armature flux independently to raise

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Chapter 4 Parameters|

the transient response of the AC motor drive.

Applications: textile equipment, press equipment, life equipment and drilling machine.

 Related parameter: Pr.07.02 (Torque Compensation (Motor 0))

00.11

Reserved

00.12

50Hz Base Voltage Selection

Factory Setting: 0

Settings 0

1

230V/400V

220V/380V

 This parameter determines the base voltage for 50Hz.

 When Pr.00.02 is set to 9, the base voltage for 50Hz will set by Pr.00.12.

 Related parameter: Pr.00.02 (Parameter Reset)

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Group 1: Basic Parameters

01.00

Maximum Output Frequency (Fmax)

Unit: Hz

Settings 50.00 to 600.0 Hz Factory Setting: 60.00

 This parameter determines the AC motor drive’s Maximum Output Frequency. All the AC

motor drive frequency command sources (analog inputs 0 to +10V and 4 to 20mA) are scaled

to correspond to the output frequency range.

 Please note that output frequency may be not in this setting range due to parameter setting:

1. Pr.00.10 is set to 0: when enabling Pr.07.03 (Slip Compensation) in V/f mode, it may be not

in this setting range.

2. Pr.00.10 is set to 1: The AC motor drive will auto compensate slip in vector mode, so it also

may be not within this setting range.

 Related parameters: 00.10 (Control Method), 04.12(Min AVI Frequency), 04.14(Max AVI

Frequency), 04.16(Min ACI Frequency), 04.18(Max ACI Frequency), 04.19(ACI/AVI2

Selection), 04.21(Min AVI2 Frequency), 04.23(Max AVI2 Frequency) and 07.03(Slip

Compensation (Used without PG) (Motor 0))

Outpu t
Frequency

01.00
Max. Output
Frequency

Analog Input

0V(4mA)

10V(20mA)

V/F曲線

Signal

01.01 Maximum Voltage Frequency (Fbase) (Motor 0) Unit: Hz

Settings 0.10 to 600.0Hz Factory Setting: 60.00

 This value should be set according to the rated frequency of the motor as indicated on the

motor nameplate. Maximum Voltage Frequency determines the v/f curve ratio. For example, if

the drive is rated for 460 VAC output and the Maximum Voltage Frequency is set to 60Hz, the

drive will maintain a constant ratio of 7.66 V/Hz (460V/60Hz=7.66V/Hz). This parameter value

must be equal to or greater than the Mid-Point Frequency (Pr.01.03).

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 If this parameter setting is less than the rated frequency of the motor, it may cause over

current and damage the motor or trigger the over current protection.

 If this parameter setting is greater than the rated frequency of the motor, it may cause

insufficient motor torque.

 Related parameters: Pr.01.02(Maximum Output Voltage (Vmax) (Motor 0)), Pr.01.03(Mid-Point

Frequency (Fmid) (Motor 0)), Pr.01.04(Mid-Point Voltage (Vmid) (Motor 0)), Pr.01.05(Minimum

Output Frequency (Fmin) (Motor 0)) and Pr.01.06(Minimum Output Voltage (Vmin) (Motor 0)).

01.02 Maximum Output Voltage (Vmax) (Motor 0) Unit: V

Settings 115V/230V series 0.1 to 255.0V Factory Setting: 220.0

460V series 0.1 to 510.0V Factory Setting: 440.0

 This parameter determines the Maximum Output Voltage of the AC motor drive. The Maximum

Output Voltage setting must be smaller than or equal to the rated voltage of the motor as

indicated on the motor nameplate. This parameter value must be equal to or greater than the

Mid-Point Voltage (Pr.01.04).

 If the output voltage of the AC motor drive is smaller than this setting, the output voltage can’t

reach this setting due to input voltage limit.

 If this setting is greater than the rated voltage of the motor, it may cause over current of the

motor output to damage motor or trigger the over current protection.

 If this setting is smaller than the rated voltage of the motor, it may cause the insufficient motor

torque.

 Related parameters: Pr.01.01(Maximum Voltage Frequency (Fbase) (Motor 0)), Pr.01.03(Mid-

Point Frequency (Fmid) (Motor 0)), Pr.01.04(Mid-Point Voltage (Vmid) (Motor 0)),

Pr.01.05(Minimum Output Frequency (Fmin) (Motor 0)) and Pr.01.06(Minimum Output Voltage

(Vmin) (Motor 0)).

01.03 Mid-Point Frequency (Fmid) (Motor 0) Unit: Hz

Settings 0.10 to 600.0Hz Factory Setting: 1.50

 This parameter sets the Mid-Point Frequency of the V/f curve. With this setting, the V/f ratio

between Minimum Frequency and Mid-Point frequency can be determined. This parameter

must be equal to or greater than Minimum Output Frequency (Pr.01.05) and equal to or less

than Maximum Voltage Frequency (Pr.01.01).

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 Please note that unsuitable setting may cause over current, it may cause motor overheat and

damage motor or trigger the over current protection.

 Please note that unsuitable setting may cause insufficient motor torque.

 When it is vector control, the settings of Pr.01.03, Pr.01.04 and Pr.01.06 are invalid.

 This setting must be greater than Pr.01.05.

 Related parameters: Pr.01.01(Maximum Voltage Frequency (Fbase) (Motor 0)),

Pr.01.02(Maximum Output Voltage (Vmax) (Motor 0)), Pr,01.04(Mid-Point Voltage (Vmid)

(Motor 0)), Pr.01.05(Minimum Output Frequency (Fmin) (Motor 0)) and Pr.01.06(Minimum

Output Voltage (Vmin) (Motor 0)).

01.04 Mid-Point Voltage (Vmid) (Motor 0) Unit: V

Settings 115V/230V series 0.1 to 255.0V Factory Setting: 10.0

460V series 0.1 to 510.0V Factory Setting: 20.0

 This parameter sets the Mid-Point Voltage of any V/f curve. With this setting, the V/f ratio

between Minimum Frequency and Mid-Point Frequency can be determined.

 This parameter must be equal to or greater than Minimum Output Voltage (Pr.01.06).

 Related parameters: Pr.01.01(Maximum Voltage Frequency (Fbase) (Motor 0)),

Pr.01.02(Maximum Output Voltage (Vmax) (Motor 0)), Pr,01.03(Mid-Point Frequency (Fmid)

(Motor 0)), Pr.01.05(Minimum Output Frequency (Fmin) (Motor 0)) and Pr.01.06(Minimum

Output Voltage (Vmin) (Motor 0)).

01.05 Minimum Output Frequency (Fmin) (Motor 0) Unit: Hz

Settings 0.10 to 600.0Hz Factory Setting: 1.50

 This parameter sets the Minimum Output Frequency of the AC motor drive. If the frequency

command is greater than this setting, the AC motor drive will accelerate to the frequency

command by the accel./decel. time. If the frequency command is less than this setting, the AC

motor drive will be ready without output voltage.

 Please note that unsuitable setting may cause over current to damage motor or trigger the

over current protection.

 When Pr.08.04 is set to 1(Operation continues after momentary power loss, speed search

starts with the Master Frequency reference value.), it won’t operate by V/f curve.

 Related parameters: Pr.01.01(Maximum Voltage Frequency (Fbase) (Motor 0)),

Pr.01.02(Maximum Output Voltage (Vmax) (Motor 0)), Pr,01.03(Mid-Point Frequency (Fmid)

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