Teco F510 series User manual

Table of Contents

Preface.............................................................................................................................0-1

Chapter 1 Safety Precautions........................................................................................1-1

1.1 Before Supplying Power to the Inverter...................................................................1-1

1.2 Wiring..........................................................................................................................1-1

1.3 Before Operation .....................................................................................................1-2

1.4 Parameters Setting..................................................................................................1-2

1.5 Operation.................................................................................................................1-2

1.6 Maintenance, Inspection and Replacement.............................................................1-3

1.7 Disposal of the Inverter............................................................................................1-3

Chapter 2 Model Description.........................................................................................2-1

2.1 Nameplate Data......................................................................................................2-1

2.2 Model Identification.................................................................................................2-1

Chapter 3 Environment and Installation.......................................................................3-1

3.1 Environment ............................................................................................................3-1

3.2 Installation ...............................................................................................................3-2

3.2.1 Installation Spaces ...............................................................................................3-2

3.2.2 External View .......................................................................................................3-3

3.2.2.1 External View (IP00/ IP20)...................................................................3-3

3.2.2.2 External View (IP55)............................................................................3-6

3.2.3 Warning Labels................................................................................................3-7

3.2.4 Removing the Front Cover and Keypad...........................................................3-8

3.2.4.1 Standard Type (IP00/IP20)............................................................3-9

3.2.4.2 Built-in Filter Type (IP20/IP00)........................................................3-16

3.2.4.3 Water proof Type (IP55) .................................................................3-18

3.3 Inverter Wiring.......................................................................................................3-20

3.3.1 Wire Gauges and Tightening Torque............................................................3-20

3.3.2 Wiring Peripheral Power Devices .................................................................3-21

3.3.3 General Wiring Diagram...............................................................................3-23

3.3.3.1 General Wiring Diagram (For Standard H & C type) ......................3-23

3.3.3.2 General Wiring Diagram (For Enhanced E & G type).....................3-24

3.3.4 Single/ Multi- Pump Dedicated Wiring Diagram............................................3-25

3.3.4.1 For Standard H & C type.................................................................3-25

3.3.4.2 For Enhanced E & G type...............................................................3-28

3.3.5 Wiring for Control Circuit Terminals..............................................................3-31

3.3.5.1 Wiring for Control Circuit Terminals (For Standard H & C type) .....3-31

3.3.5.2 Wiring for Control Circuit Terminals (For Enhanced E & G type) ...3-34

3.3.6 Wiring for Main Circuit Terminals .................................................................3-37

3.3.6.1 Wiring for Main Circuit Terminals (For Standard H & C type).........3-37

3.3.6.2 Wiring for Main Circuit Terminals (For Enhanced E & G type) .......3-42

3.3.7 Wiring Precautions .......................................................................................3-52

3.3.8 Input Power and Cable Length .....................................................................3-54

3.4 Inverter Specifications ..........................................................................................3-55

3.5 Inverter De-rating Based on Carrier Frequency ...................................................3-59

3.6 Inverter De-rating Based on Temperature............................................................3-63

3.7 Inverter Dimensions..............................................................................................3-64

3.7.1 Standard Type (IP00/IP20)...........................................................................3-64

3.7.2 Standard Type with Built-in Filter (IP00/IP20)...............................................3-73

3.7.3 Water proof Type (IP55) ..............................................................................3-75

Chapter 4 Keypad and Programming Functions..........................................................4-1

4.1 LED Keypad ............................................................................................................4-1

4.1.1 Keypad Display and Keys...............................................................................4-1

4.1.2 Seven Segment Display Description...............................................................4-3

4.1.3 LED Indicator Description...............................................................................4-5

4.1.4 Power-up Monitor ...........................................................................................4-7

4.1.5 Modifying Parameters/ Set Frequency Reference..........................................4-8

4.1.6 Operation Control .........................................................................................4-10

4.2 LCD keypad...........................................................................................................4-11

4.2.1 Keypad Display and Keys............................................................................4-11

4.2.2 Keypad Menu Structure ..............................................................................4-13

4.3 Parameters............……………………………………………………………………..4-17

4.4 Description of Parameters....................................................................................4-70

4.5 Built-in PLC Function..........................................................................................4-309

4.5.1 Basic Command .........................................................................................4-309

4.5.2 Basic Command Function...........................................................................4-310

4.5.3 Application Functions..................................................................................4-311

4.6 Modbus Protocol Descriptions ...........................................................................4-319

4.6.1 Communication Connection and Data Frame.............................................4-319

4.6.2 Register and Data Format ..........................................................................4-323

4.7 BacNET Protocol Descriptions ..........................................................................4-343

4.7.1 BACnet Services.........................................................................................4-343

4.7.2 BACnet Protocol Structure..........................................................................4-344

4.7.3 BACnet Specifications................................................................................4-345

4.7.4 BACnet Object Properties...........................................................................4-346

4.8 MetaSys N2 Communication Protocol ...............................................................

4-349

4.8.1 Introduction and Setting..............................................................................4-349

4.8.2 MetaSys N2 Specification...........................................................................4-349

4.8.3 Definition of MetaSys N2 Communication Protocol ....................................4-350

4.8.4 MetaSys N2 Communication Protocol in F510 Model.................................4-351

Chapter 5 Check Motor Rotation and Direction ...........................................................5-1

Chapter 6 Speed Reference Command Configuration ................................................6-1

6.1 Reference from Keypad ..........................................................................................6-1

6.2 Reference from External Analog Signal (0-10V / 4-20mA) .................................... 6-2

6.3 Reference from Serial Communication RS485 (00-05=3) .......................................6-4

6.4 Reference from two Analog Inputs .........................................................................6-6

6.5 Change Frequency Unit from Hz to rpm .................................................................6-6

Chapter 7 Operation Method Configuration (Run / Stop)...........................................7-1

7.1 Run/Stop from the Keypad (00-02=0) – Default Setting .........................................7-1

7.2 Run/Stop from External Switch / Contact or Pushbutton (00-02=1)........................7-2

7.3 Run/Stop from Serial Communication RS485 (00-02=3).........................................7-3

Chapter 8 Motor and Application Specific Settings.....................................................8-1

8.1 Set Motor Nameplate Data (02-01, 02-05)...............................................................8-1

8.2 Acceleration and Deceleration Time (00-14, 00-15) ...............................................8-2

8.3 Torque Compensation Gain (01-10)........................................................................8-3

III

8.4 Automatic Energy Savings Function (11-19) ...........................................................8-4

8.5 Emergency Stop......................................................................................................8-6

8.6 Direct / Unattended Startup ....................................................................................8-7

8.7 Analog Output Setup ...............................................................................................8-8

Chapter 9 Using PID Control for Constant Flow / Pressure Applications..................9-1

9.1 What is PID Control?...............................................................................................9-1

9.2 Connect Transducer Feedback Signal (10-01).......................................................9-3

9.3 Engineering Units ...................................................................................................9-4

9.4 Sleep / Wakeup Function ........................................................................................9-5

Chapter 10 Troubleshooting and Fault Diagnostics..................................................10-1

10.1 General ..............................................................................................................10-1

10.2 Fault Detection Function ....................................................................................10-1

10.3 Warning / Self-diagnosis Detection Function .....................................................10-7

10.4 Auto-tuning Error .............................................................................................10-15

10.5 PM Motor Auto-tuning Error..............................................................................10-16

10.6 General troubleshooting ...................................................................................10-17

10.7 Troubleshooting of the Inverter.........................................................................10-18

10.7.1 Quick troubleshooting of the Inverter........................................................10-18

10.7.2 Troubleshooting for OC, OL error displays...............................................10-20

10.7.3 Troubleshooting for OV, LV error..............................................................10-21

10.7.4 The motor can not run ..............................................................................10-22

10.7.5 Motor Overheating....................................................................................10-23

10.7.6 Motor runs unbalanced.............................................................................10-24

10.8 Routine and periodic inspection........................................................................10-25

10.9 Maintenance.....................................................................................................10-26

Chapter 11 Inverter Peripheral devices and Options.................................................11-1

11.1 Braking Resistors and Braking Units ..................................................................11-1

11.2 AC Line Reactors ................................................................................................11-5

11.3 Input Noise Filters ...............................................................................................11-7

11.4 Input Current and Fuse Specifications ................................................................11-9

11.5 Other options ....................................................................................................11-11

11.6 Communication options ....................................................................................11-16

11.7 Others Options ..................................................................................................11-17

11.8 NEMA1 Kit.........................................................................................................

11-18

11.9 PROFIBUS high speed communication expansion card....................................11-19

11.9.1 Communication hardware and data structure...........................................11-19

11.9.2 Product specifications...............................................................................11-19

11.9.3 Installation instructions .............................................................................11-20

11.9.4 LED indicator descriptions........................................................................11-21

11.9.5 Driver parameter setting descriptions.......................................................11-22

11.9.6 Connection instructions ............................................................................11-23

11.9.7 Meanings of each character .....................................................................11-24

11.9.8 PKW regional access parameters.............................................................11-25

11.9.9 Troubleshooting........................................................................................11-27

11.9.10 GSD File.................................................................................................11-27

11.10 CANopen high speed communication expansion card ....................................11-28

11.10.1 Communication hardware and data structure.........................................11-28

11.10.2 Product specifications.............................................................................11-28

11.10.3 Installation instructions ...........................................................................11-28

11.10.4 LED indicator descriptions......................................................................11-30

11.10.5 Driver parameter setting descriptions.....................................................11-31

11.10.6 Connection instructions ..........................................................................11-32

11.10.7 Object index list ......................................................................................11-34

11.10.8 Troubleshooting......................................................................................11-40

11.10.9 EDS file...................................................................................................11-41

11.11 Introduction to the EtherCAT high speed communication expansion module..11-42

11.11.1 Communication hardware and data structure.........................................11-42

11.11.2 Product specifications.............................................................................11-42

11.11.3 Installation instructions ...........................................................................11-43

11.11.4 LED indicator descriptions......................................................................11-44

11.11.5 Object index list ......................................................................................11-45

11.11.6 Troubleshooting......................................................................................11-47

11.11.7 xml file ....................................................................................................11-47

11.12 I/O expansion card...........................................................................................11-48

11.12.1 Hardware and data structure ..................................................................11-48

11.12.2 Product specifications.............................................................................11-48

11.12.3 Installation instructions ...........................................................................11-48

11.12.4 Driver parameter setting descriptions.....................................................11-49

11.13 DC reactor.......................................................................................................11-50

11.14 Sinusoidal output reactor.................................................................................11-52

11.15 DC24V power expansion card.........................................................................11-54

11.15.1 JN5-PS-DC24V Product specifications...................................................11-54

Appendix-A Instructions for UL....................................................................................A-1

0-1

Preface

The F510 product is an inverter designed to control a three-phase induction motor. Please

read this manual carefully to ensure correct operation, safety and to become familiar with

the inverter functions.

The F510 inverter is an electrical / electronic product and must be installed and handled by

qualified service personnel.

Improper handling may result in incorrect operation, shorter life cycle, or failure of this

product as well as the motor.

All F510 documentation is subject to change without notice. Be sure to obtain the latest

editions for use or visit our website at http://industrialproducts.teco.com.tw/.

Available Documentation:

1. F510 Start-up and Installation Manual

2. F510 Instruction Manual

Read this instruction manual thoroughly before proceeding with installation, connections

(wiring), operation, or maintenance and inspection.

Ensure you have sound knowledge of the inverter and familiarize yourself with all safety

information and precautions before proceeding to operate the inverter.

Please pay close attention to the safety precautions indicated by the warning and

caution symbol.

Warning Failure to ignore the information indicated by the warning symbol

may result in death or serious injury.

Caution Failure to ignore the information indicated by the caution symbol

may result in minor or moderate injury and/or substantial property

damage.

1-1

Chapter 1 Safety Precautions

1.1 Before Supplying Power to the Inverter

Warning

The main circuit must be correctly wired. For single phase supply use input terminals (R/L1,

T/L3) and for three phase supply use input terminals (R/L1, S/L2, T/L3). Terminals U/T1,

V/T2, W/T3 must only be used to connect the motor. Connecting the input supply to any of

the U/T1, V/T2 or W/T3 terminals will cause damage to the inverter.

Caution

To avoid the front cover from disengaging or other physical damage, do not carry the

inverter by its cover. Support the unit by its heat sink when transporting. Improper handling

can damage the inverter or injure personnel, and should be avoided.

To avoid the risk of fire, do not install the inverter on or near flammable objects. Install on

nonflammable objects such as metal surfaces.

If several inverters are placed inside the same control panel, provide adequate ventilation

to maintain the temperature below 40°C/104°F (50°C/122°F without a dust cover) to avoid

overheating or fire.

When removing or installing the digital operator, turn off the power first, and then follow the

instructions in this manual to avoid operator error or loss of display caused by faulty

connections.

Warning

This product is sold subject to IEC 61800-3. In a domestic environment this product may

cause radio interference in which case the user may need to apply corrective measures.

Over temperature protection function on motor is provided, please follow the description of

control circuit terminals, and refer to the parameter group 08.

1.2 Wiring

Warning

Always turn OFF the power supply before attempting inverter installation and wiring of the

user terminals.

Always turn OFF the power supply before attempting inverter installation and wiring of the

user terminals.

Wiring must be performed by a qualified personnel / certified electrician.

Make sure the inverter is properly grounded. (200V Class: Grounding impedance shall be

less than 100Ω. 400V Class: Grounding impedance shall be less than 10Ω.) It is required

to disconnect the ground wire in the control board to avoid the sudden surge causing

damage on electronic parts if it is improperly grounded.

Please check and test emergency stop circuits after wiring. (Installer is responsible for the

correct wiring.)

Never touch any of the input or output power lines directly or allow any input or output

power lines to come in contact with the inverter case.

Do not perform a dielectric voltage withstand test (megger) on the inverter or this will result

in inverter damage to the semiconductor components.

Caution

The line voltage applied must comply with the inverter’s specified input voltage.

Connect braking resistor and braking unit to the designated terminals.

Do not connect a braking resistor directly to the DC terminals P(+) and N(-),otherwise fire

may result.

Use wire gauge recommendations and torque specifications.

Never connect input power to the inverter output terminals U/T1, V/T2, W/T3.

Do not connect a contactor or switch in series with the inverter and the motor.

1-2

Do not connect a power factor correction capacitor or surge suppressor to the inverter

output.

Ensure the interference generated by the inverter and motor does not affect peripheral

devices.

1.3 Before Operation

Warning

Make sure the inverter capacity matches the parameters 13-00 before supplying power.

Reduce the carrier frequency (parameter 11-01) If the cable from the inverter to the motor

is over 80 ft (25m). A high-frequency current can be generated by stray capacitance

between the cables and result in an overcurrent trip of the inverter, an increase in leakage

current, or an inaccurate current readout.

Be sure to install all covers before turning on power. Do not remove any of the covers while

power to the inverter is on, otherwise electric shock may occur.

Do not operate switches with wet hands, otherwise electric shock may result.

Do not touch inverter terminals when energized even if inverter has stopped, otherwise

electric shock may result.

1.4 Parameter Setting

Caution

Do not connect a load to the motor while performing an auto-tune.

Make sure the motor can freely run and there is sufficient space around the motor when

performing a rotational auto-tune.

1.5 Operation

Warning

Be sure to install all covers before turning on power. Do not remove any of the covers while

power to the inverter is on, otherwise electric shock may occur.

Do not connect or disconnect the motor during operation. This will cause the inverter to trip

and may cause damage to the inverter.

Operations may start suddenly if an alarm or fault is reset with a run command active.

Confirm that no run command is active upon resetting the alarm or fault, otherwise

accidents may occur.

Do not operate switches with wet hands, otherwise electric shock may result.

An external emergency stop switch is enabled when parameter 08-30 is set for the run

permissive function.

It provides an independent external hardware emergency switch, which emergently shuts

down the inverter output in the case of danger.

If automatic restart after power recovery (parameter 07-00) is enabled, the inverter will start

automatically after power is restored.

Make sure it is safe to operate the inverter and motor before performing a rotational

auto-tune.

Do not touch inverter terminals when energized even if inverter has stopped, otherwise

electric shock may result.

Do not check signals on circuit boards while the inverter is running.

After the power is turned off, the cooling fan may continue to run for some time.

Caution

Do not touch heat-generating components such as heat sinks and braking resistors.

Carefully check the performance of motor or machine before operating at high speed,

otherwise Injury may result.

Note the parameter settings related to the braking unit when applicable.

Do not use the inverter braking function for mechanical holding, otherwise injury may result.

1-3

Do not check signals on circuit boards while the inverter is running.

1.6 Maintenance, Inspection and Replacement

Warning

Wait a minimum of 5 minutes after power has been turned OFF before starting an

inspection. Also confirm that the charge light is OFF and that the DC bus voltage has

dropped below 25Vdc. Wait a minimum of 15 minutes while inverter is over 20HP.

Never touch high voltage terminals in the inverter.

Make sure power to the inverter is disconnected before disassembling the inverter.

Only authorized personnel should perform maintenance, inspection, and replacement

operations. (Take off metal jewelry such as watches and rings and use insulated tools.)

Caution

The Inverter can be used in an environment with a temperature range from 14° -104°F

(-10-40°C) and relative humidity of 95% non-condensing.

The inverter must be operated in a dust, gas, mist and moisture free environment.

1.7 Disposal of the Inverter

Caution

Please dispose of this unit with care as an industrial waste and according to your required

local regulations.

The capacitors of inverter main circuit and printed circuit board are considered as

hazardous waste and must not be burned.

The Plastic enclosure and parts of the inverter such as the top cover board will release

harmful gases if burned.

Equipment containing electrical components may not be disposed of together with

domestic waste. It must be separately collected with electrical and electronic waste

according to local and currently valid legislation.

2-1

P/N BARCODE S/N BARCODE

Chapter 2 Model Description

2.1 Nameplate Data

It is essential to verify the F510 inverter nameplate and make sure that the F510 inverter has the

correct rating so it can be used in your application with the proper sized AC motor.

Unpack the F510 inverter and check the following:

(1) The F510 inverter and quick setting guide are contained in the package.

(2) The F510 inverter has not been damaged during transportation there should be no dents or

parts missing.

(3) The F510 inverter is the type you ordered. You can check the type and specifications on the

main nameplate.

(4) Check that the input voltage range meets the input power requirements.

(5) Ensure that the motor HP matches the motor rating of the inverter.

2.2 Model Identification

F510 - 4 010 – E 3 F N4

Inverter Model and Motor Rating

UL and CE Marks

Input Power Specifications

Output Power Specifications

Series No.

F510

Inverter

Series Voltage Rating

2: 200V

4: 400V

Motor Rating

001: 1HP

002: 2HP

003: 3HP

005: 5HP

008：8HP

150: 150HP

175: 175HP

215: 215HP

535：535HP

800：800HP

Input

Blank: 1Ph/3Ph

3: 3Ph

Noise Filter

Blank: No RFI

F: RFI Filer

Operator Type

H: Standard Type (LED Keypad)

C: Standard Type (LCD Keypad)

E: Enhanced Type (LED Keypad)

G: Enhanced Type (LCD Keypad)

Protection Class

Blank: IP00/IP20

N4: IP55

2-2

Inverter Models – Motor Power Rating：

200V Class

Voltage (Vac)

Frequency (Hz) F510 Model Motor

Power

(Hp)

Applied

Motor

(kW)

Filter Protection

Class

(IP55)

with without

3ph

200~240V

+10%/-15%

50/60Hz

F510-2001-□1 0.75 ◎

F510-2002-□2 1.5 ◎

F510-2003-□3 2.2 ◎

F510-2005-□5 3.7 ◎

F510-2008-□7.5 5.5 ◎

F510-2010-□10 7.5 ◎

F510-2015-□15 11 ◎

F510-2020-□20 15 ◎

F510-2025-□25 18.5 ◎

F510-2030-□30 22 ◎

F510-2040-□40 30 ◎

F510-2050-□50 37 ◎

F510-2060-□60 45 ◎

F510-2075-□75 55 ◎

F510-2100-□100 75 ◎

F510-2125-□125 94 ◎

F510-2150-□150 112 ◎

F510-2175-□175 130 ◎

2-3

400V Class

Voltage (Vac)

Frequency (Hz) F510 Model Motor

Power

(Hp)

Applied

Motor

(kW)

Filter Protection

Class

(IP55)

with without

3ph

380~480V

+10%/-15%

50/60Hz

F510-4001-□31 0.75 ◎

F510-4001-□3F 1 0.75 ◎

F510-4001-C3FN4 1 0.75 ◎◎

F510-4002-□32 1.5 ◎

F510-4002-□3F 2 1.5 ◎

F510-4002-C3FN4 2 1.5 ◎◎

F510-4003-□33 2.2 ◎

F510-4003-□3F 3 2.2 ◎

F510-4003-C3FN4 3 2.2 ◎◎

F510-4005-□35 3.7 ◎

F510-4005-□3F 5 3.7 ◎

F510-4005-C3FN4 5 3.7 ◎◎

F510-4008-□37.5 5.5 ◎

F510-4008-□3F 7.5 5.5 ◎

F510-4008-C3FN4 7.5 5.5 ◎◎

F510-4010-□310 7.5 ◎

F510-4010-□3F 10 7.5 ◎

F510-4010-C3FN4 10 7.5 ◎◎

F510-4015-□315 11 ◎

F510-4015-□3F 15 11 ◎

F510-4015-C3FN4 15 11 ◎◎

F510-4020-□320 15 ◎

F510-4020-□3F 20 15 ◎

F510-4020-C3FN4 20 15

◎◎

F510-4025-□325 18.5 ◎

2-4

Voltage (Vac)

Frequency (Hz) F510 Model Motor

Power

(Hp)

Applied

Motor

(kW)

Filter Protection

Class

(IP55)

with without

3ph

380~480V

+10%/-15%

50/60Hz

F510-4025-□3F 25 18.5

◎

F510-4025-C3FN4 25 18.5

◎◎

F510-4030-□330 22 ◎

F510-4030-□3F 30 22

◎

F510-4030-C3FN4 30 22

◎◎

F510-4040-□340 30 ◎

F510-4040-□3F 40 30

◎

F510-4040-C3FN4 40 30

◎◎

F510-4050-□350 37 ◎

F510-4050-□3F 50 37 ◎

F510-4050-C3FN4 50 37 ◎◎

F510-4060-□360 45 ◎

F510-4060-□3F 60 45 ◎

F510-4060-C3FN4 60 45 ◎◎

F510-4075-□375 55 ◎

F510-4075-□3F 75 55 ◎

F510-4075-C3N4 75 55 ◎◎

F510-4100-□3100 75 ◎

F510-4100-C3N4 100 75 ◎◎

F510-4125-□3125 94 ◎

F510-4150-□3150 112 ◎

F510-4175-□3175 130 ◎

F510-4215-□3215 160 ◎

F510-4250-□3250 185 ◎

F510-4300-□3300 220 ◎

F510-4375-□3375 280 ◎

F510-4425-□3425 317 ◎

F510-4535-□3535 400 ◎

F510-4670-□3670 500 ◎

F510-4800-□3800 600 ◎

3-1

Chapter 3 Environment and Installation

3.1 Environment

The environment will directly affect the proper operation and the life span of the inverter. To

ensure that the inverter will give maximum service life, please comply with the following

environmental conditions:

Protection

Class IP20/ IP21/ NEMA 1, IP00

IP55/ NEMA 12 Ambient Environment

Operating

Temperature

IP20/IP21/IP55: -10°C - +40°C (14 -104 °F)

IP00 (Without Cover): -10°C - +50°C (14-122 °F)

Enhanced type frame 5 is 50°C without de-rating.

The maximum operating temperature is 60°C, but it is required to derate 2% of current

at each additional 1°C.

If several inverters are placed in the same control panel, provide a heat removal means to

maintain ambient temperatures

Storage

Temperature -20°C - +70°C (-4 -158 °F)

Humidity 95% non-condensing

Relative humidity 5% to 95%, free of moisture.

(Follow IEC60068-2-78 standard)

Altitude Altitude: Below 1000 m (3281 ft.)

It is required to derate 1% of current at each additional 100 m.

The maximum altitude is 3000 m.

Installation

Site

Avoid direct sunlight.

Avoid exposure to rain or moisture.

Avoid oil mist and salinity.

Avoid corrosive liquid and gas.

Avoid dust, lint fibers, and small metal filings.

Avoid electromagnetic interference (soldering machines, power machines).

Keep away from radioactive and flammable materials.

Avoid vibration (stamping, punching machines etc.).

Add a vibration-proof pad if the situation cannot be avoided.

Shock Maximum acceleration: 1.2G (12m/s²), from 49.84 to 150 Hz

Displacement amplitude : 0.3mm (peak value), from 10 to 49.84 Hz

(Follow IEC60068-2-6 standard)

3-2

3.2 Installation

3.2.1 Installation Spaces

When installing the inverter, ensure that inverter is installed in upright position (vertical

direction) and there is adequate space around the unit to allow normal heat dissipation as per

the following Fig. 3.2.1

5.9in.

150mm 5.9in.

150mm

Air Flow

5.9in.

150mm

5.9in.

150mm

Fig 3.2.1: F510 Installation space

X = 1.18” (30mm) for inverter ratings up to 18.5kW

X = 1.96” (50mm) for inverter ratings 22kW or higher

Important Note: The inverter heatsink temperature can reach up to 90°C/ 194°F during

operation; make sure to use insulation material rated for this temperature.

3-3

3.2.2 External View

3.2.2.1 External View (IP00/ IP20)

(a) 200V 1-7.5HP/ 400V 1-10HP

(Wall-mounted type, IEC IP00) (Wall-mounted type, IEC IP20, NEMA1)

(b) 200V 10-30HP/ 400V 15-40HP

(Wall-mounted type, IEC IP00) (Wall-mounted type, IEC IP20, NEMA1)

3-4

(Wall-mounted type, IEC IP20, NEMA1)

(d) 200V 60-125HP/ 400V 100-250HP

(Wall-mounted type, IEC IP00) (Wall-mounted type, IEC IP20, NEMA1)

3-5

(e) 200V 150-175HP/ 400V 300-425HP

(Wall-mounted type, IEC IP00) (Wall-mounted type, IEC IP20)

(f) 400V 535-800HP

(Wall-mounted type, IEC IP00) (Wall-mounted type, IEC IP20)

3-6

3.2.2.2 External View (IP55)

(a) 400V 1-25HP (b) 400V 30-100HP

(Wall-mounted type, IEC IP55) (Wall-mounted type, IEC IP55)

3-7

3.2.3 Warning Labels

Important:

Warning information located on the front cover must be read upon installation of

the inverter.

(a) 200V: 1-7.5HP/ 400V: 1-10HP (IP20)

(b) 200V: 10-15HP/ 400V: 15-20HP (IP20)

(d) 400V：1-100HP (IP55)

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