EPEVER IP350-Plus, IP500-Plus, IP1000-Plus, IP1500-Plus, IP2000-Plus User guide

1

Model
IP350-Plus, IP500-Plus
IP1000-Plus, IP1500-Plus
IP2000-Plus, IP3000-Plus
IP4000-Plus, IP5000-Plus

Pure sine wave inverter

USER MANUAL

Contents

Important safety instructions ...................................................................................... 1

1 Overview ................................................................................................................ 4

2 Appearance ............................................................................................................ 6

3 Naming rule .......................................................................................................... 12

4 Connection diagram .............................................................................................. 13

5 Remote meter ....................................................................................................... 15

5.1 Appearance ......................................................................................................................... 15

5.2 Status display ...................................................................................................................... 15

5.3 Buttons ................................................................................................................................ 16

5.4 LCD interface ...................................................................................................................... 16

5.5 Settings ............................................................................................................................... 16

5.6 Error code ............................................................................................................................ 17

6 Installation ............................................................................................................ 18

6.1 Attentions ............................................................................................................................. 18

6.2 Wire size and circuit breaker ............................................................................................... 18

6.3 Mounting .............................................................................................................................. 20

6.4 Rotate the LCD.................................................................................................................... 26

7 Protections............................................................................................................ 27

8 Troubleshooting .................................................................................................... 30

9 Maintenance ......................................................................................................... 31

10 Specifications...................................................................................................... 32

Appendix 1 Disclaimers............................................................................................ 41

1

Important safety instructions

Please reserve this manual for future review.

This manual contains all safety, installation, and operation instructions for the IPower- Plus series
high-frequency pure sine wave inverter ("inverter" referred to in this manual).

1. Explanation of symbols

Please read related literature accompanying the following symbols to efficiently use the product and
ensure personal and property safety.
The entire system should be installed by professional and technical personnel.

Symbol

Definition

TIP

Indicate any practical advice for reference.

IMPORTANT: Indicates a critical tip during the operation, if ignored, may cause the
device to run in error.

CAUTION: Indicates potential hazards, if not avoided, may cause the device
damaged.

WARNING: Indicates the danger of electric shock, if not avoided, would cause
casualties.

WARNING HOT SURFACE: Indicates the risk of high temperature, if not avoided,

would cause scalds.

Read the user manual carefully before any operation.

2. Requirements for professional and technical personnel

 Professionally trained；
 Familiar with related safety specifications for the electrical system;
 Read this manual carefully and master related safety cautions.

3. Professional and technical personnel is allowed to do

 Install the inverter to a specified location.
 Conduct trial operations for the inverter.
 Operate and maintain the inverter.

4. Safety cautions before installation

 When you receive the inverter, check whether there is any damage that occurred in transportation.

Contact the transportation company or our company in time for any problem.

 When place or move the inverter, must follow the instructions in the manual.

2

 When installing the inverter, you must evaluate whether any arc danger exists in the operation area.
 The inverter needs to be connected to a battery. The battery's minimum capacity (Ah) is

recommended to be five times the current equals the inverter's rated output power divided by the
battery voltage.

 Keep the inverter out of reach of children.
 This inverter is an off-grid type. It is strictly prohibited to connect the inverter to the grid; otherwise, it

will be damaged.

 This inverter is only allowed for stand-alone operation. It is prohibited to connect multiple units in

parallel or series; otherwise, the inverter will be damaged.

5. Safety cautions for mechanical installation

 Before installation, make sure the inverter has no electrical connection.
 Ensure enough heat dissipation space for the inverter before installation. Do not install the inverter

in a harsh environment such as humid, greasy, flammable, explosive, or dust accumulation.

6. Safety cautions for electrical connection

 Check whether all the wiring connections are tight to avoid the danger of heat accumulation due to

loose connections.

 The protective grounding must be connected to the ground. The cross-section of the wire should not

be less than 4mm2

 The DC input voltage must strictly be following the parameter table. Too high or too low DC input

voltage will affect the inverter's normal operation and damage it.

 It is recommended that the connection between the battery and the inverter be less than 3 meters. If

greater than 3 meters, please reduce the current density of the connection wire.

 A fuse or breaker should be used between battery and inverter; the fuse or breaker's rated current

should be twice the inverter rated input current.

 DO NOT install the inverter close to the flooded lead-acid battery because the terminals' sparkle

may ignite the hydrogen released by the battery.

 The AC output terminal is only for the load connection. Do NOT connect it to other power sources or

utilities; otherwise, the inverter will be damaged. Turn off the inverter when connecting loads.

 Do not connect battery chargers or similar products to the inverter's input terminal; otherwise, the

inverter will be damaged.

7. Safety cautions for controller operation

 When the inverter is working, the shell will generate a lot of heat. The temperature is very high;

please do not touch it.

 When the inverter is running, please do not open the cabinet.
 The inverter's AC output is of high voltage, do not touch the wiring connection.

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8. Dangerous operations which would cause electric arc, fire or explosion

 Touch the wire end that hasn't been insulation treated and maybe electriferous.
 Touch the wiring copper row, terminals, or internal modules of the inverter that may be electriferous.
 The connection of the power cable is loose.
 Screw or other spare parts inadvertently falls into the inverter.
 Improper operations by untrained non-professional or technical personnel.

WARNING

Once an accident occurs, it must be handled by professional and technical personnel.
Improper operations would cause more serious accidents.

9. Safety cautions for stopping the inverter

 After the inverter stop running for five minutes, the internal conductive modules could be touched.
 The inverter is allowed to restart after removing the faults, which affects safety performance.
 There are no serviceable parts inside. If any maintenance service is required, please contact our

service personnel.

WARNING

Do NOT touch or open the shell after the inverter is powered off within ten minutes.

10. Safety cautions for inverter maintenance

 It is recommended to check the inverter with testing equipment to ensure there is no voltage and

current.

 When conducting electrical connection and maintenance, post a temporary warning sign or put up

barriers to prevent unrelated personnel from entering the electrical connection or maintenance area.

 An improper operation of the inverter may cause personal injury or equipment damage.
 Please wear an anti-static wrist strap to prevent static damage or avoid unnecessary contact with

the circuit board.

4

1 Overview

IPower-Plus is a new generation of pure sine wave inverter compatible with the lithium battery system.
This new inverter adopts surge current suppression technology to effectively prevent the surge current
from damaging the lithium battery cells and BMS (Battery Management System). Also, adopting the
voltage and current double closed-loop control algorithm brings the inverter a faster response and better
resistance to the load impact. The inverter selects key components with a high power density and long
lifespan to provide a stable and reliable power guarantee. The optional communication solutions allow
users to monitor the real-time status or change the parameters wherever. The inverter can be widely
used in DC to AC areas, such as solar AC power system, vehicle system, RV power supply, security
monitoring system, emergency lighting system, field power system, household power system, etc. With
an excellent EMC (Electro Magnetic Compatibility) characteristic, the inverter is also suitable for
occasions with high power quality requirements.

Features:

 Completely electrically isolated design for input and output
 Full digital double closed-loop control
 Excellent EMC characteristic, widely applied to higher quality power system
 Advanced SPWM technology and pure sine wave output.
 Input surge current suppression technology, applying to the lithium battery system
 Outstanding load resistance to impact, applying to the air conditioners, washing machines,

refrigerators, etc.

 High power density and high-quality components to ensure the reliability
 Output power factor up to 1
 Low loss of zero loads and standby. Low THD (Total Harmonic Distortion). High conversion

efficiency

 Extensive protections: input reverse polarity/under voltage/over voltage, output overload/short

circuit/overheating

 Air cooling is controlled by temperature and load
 Rotatable LCD meter to simplify the system wiring
 Friendly LCD meter to simply monitor and parameter configure
 Remote control by the phone Apps and PC software
 Configurable output voltage and output frequency①
 Charging mobile phones, DC fans, and other electrical equipment by the USB port②

 Support a variety of options by connecting with the RS485 com. port③

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 External switch contact design to allow remote control
 IEC62109, EN61000, RoHS approved

① Configure the parameters via the local LCD meter, remote LCD meter, phone Apps, and PC

software.

② This function is unavailable for inverters with 48V input voltage.
③ There is no communication isolation design for inverters with 12V/24 input voltage. This

function(communication isolation design) is just for inverters with 48V input voltage.

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2 Appearance

 IP350-xx-Plus

 Appearance with decorative cover is suitable for AC output of T-terminal / C-Chinese

dual socket / N-North America

 Appearance without decorative cover is suitable for AC output of A-Australia /

E-European / F-French / UK-United Kingdom

 IP500-xx-Plus

 Appearance with decorative cover is suitable for AC output of T-terminal / C-Chinese

dual socket / N-North America

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 Appearance without decorative cover is suitable for AC output of A-Australia /

E-European / F-French / UK-United Kingdom

 IP1000-xx-Plus

 IP1500-xx/IP2000-2x/IP2000-4x/IP3000-42-Plus

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 IP2000-1x-Plus

 IP3000-1x-Plus

 IP3000-2x-Plus

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 IP3000-41/IP4000-4x/IP5000-4x-Plus

❶

DC input terminal positive

❻

RS485 communication port

❷

DC input terminal negative

❼

USB output port 5VDC/Max.1A③

❸

Cooling fan①

❽

External switch port

❹

LCD ❾ Inverter switch

❺

AC outlet②

❿

Grounding terminal

① Cooling fan

 Conditions to start the cooling fan:

Heat sink temperature is higher than 45℃ or
The internal inverter temperature is higher than 45℃ or

The output power is higher than 700W

IP1500-11-Plus(T/N)

IP1500-12-Plus(T)

IP1500-21-Plus(T/N)

IP1500-22-Plus(T)

IP1500-41-Plus(T/N)

IP1500-42-Plus(T)

Heat sink temperature is higher than 45℃ or
The internal inverter temperature is higher than 45℃ or

The output power is higher than 50% of the rated power

IP350-11-Plus(T/N)

IP350-12-Plus(T/C/A/E/F/UK)

IP350-21-Plus(T/N)

IP350-22-Plus(T/C/A/E/F/UK)

IP500-11-Plus(T/N)

IP500-12-Plus(T/C/A/E/F/UK)

IP500-21-Plus(T/N)

IP500-22-Plus(T/C/A/E/F/UK)

IP1000-11-Plus(T/N)

IP1000-12-Plus(A/E/C/T)

IP1000-21-Plus(T/N)

IP1000-22-Plus(A/E/C/T)

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IP2000-11-Plus(T)

IP2000-12-Plus(T)

IP2000-21-Plus(T)

IP2000-22-Plus(T)

IP2000-41-Plus(T)

IP2000-42-Plus(T)

IP3000-11-Plus(T)

IP3000-12-Plus(T)

IP3000-21-Plus(T)

IP3000-22-Plus(T)

IP3000-41-Plus(T)

IP3000-42-Plus(T)

IP4000-41-Plus(T)

IP4000-42-Plus(T)

IP5000-42-Plus(T)

Symbols of A/C/E/F/N/UK/T mean different AC outlets: A-Australia, C-Chinese dual-socket,
E-European, F-French, N-North America, UK-United Kingdom, and T-Terminal.

 Conditions to stop the cooling fan:

Heat sink temperature is lower than 40℃ and
The internal inverter temperature is lower than 40℃ and

The output power is lower than 300W

IP1000-11-Plus(T/N)

IP1000-12-Plus(A/E/C/T)

IP1000-21-Plus(T/N)

IP1000-22-Plus(A/E/C/T)

Heat sink temperature is lower than 40℃ and
The internal inverter temperature is lower than 40℃ and

The output power is lower than 500W

IP1500-11-Plus(T/N)

IP1500-12-Plus(T)

IP1500-21-Plus(T/N)

IP1500-22-Plus(T)

IP1500-41-Plus(T/N)

IP1500-42-Plus(T)

Heat sink temperature is lower than 40℃ and
The internal inverter temperature is lower than 40℃ and

The output power is lower than 40% of the rated power

IP2000-11-Plus(T)

IP2000-12-Plus(T)

IP2000-21-Plus(T)

IP2000-22-Plus(T)

IP2000-41-Plus(T)

IP2000-42-Plus(T)

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IP3000-11-Plus(T)

IP3000-12-Plus(T)

IP3000-21-Plus(T)

IP3000-22-Plus(T)

IP3000-41-Plus(T)

IP3000-42-Plus(T)

IP4000-41-Plus(T)

IP4000-42-Plus(T)

IP5000-42-Plus(T)

Heat sink temperature is lower than 40℃ and
The internal inverter temperature is lower than 40℃ and

The output power is lower than 30% of the rated power

IP350-11-Plus(T/N)

IP350-12-Plus(T/C/A/E/F/UK)

IP350-21-Plus(T/N)

IP350-22-Plus(T/C/A/E/F/UK)

IP500-11-Plus(T/N)

IP500-12-Plus(T/C/A/E/F/UK)

IP500-21-Plus(T/N)

IP500-22-Plus(T/C/A/E/F/UK)

Symbols of A/C/E/F/N/UK/T mean different AC outlets: A-Australia, C-Chinese dual-socket,
E-European, F-French, N-North America, UK-United Kingdom, and T-Terminal.

② AC outlet types include A-Australia, C-Chinese dual-socket, E-European, F-French, N-North

America, UK-United Kingdom, and T-Terminal. A different inverter may have a different AC
outlet.

③ USB output port is not available for inverters with 48V input voltage.

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3 Naming rule

13

4 Connection diagram

 IP350-xx-Plus (take the “Appearance with decorative cover” as an example)

 IP500-xx-Plus(take the “Appearance with decorative cover” as an example)

 IP1000-xx/IP1500-xx/IP2000-2x/IP2000-4x/IP3000-42-Plus

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 IP2000-1x-Plus

 IP3000-1x-Plus

 IP3000-2x/IP3000-41/IP4000-4x/IP5000-4x-Plus

CAUTION

It is recommended to connect the inverter DC input terminal to the battery terminal
directly. DO NOT connect it to the charge source terminal. Otherwise, the charging
voltage spikes of the charge source may cause over-voltage protection of the inverter.

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5 Remote meter

5.1 Appearance

❶

LCD ❹ Working status indicator(Blue)

❷

UP/Setting button

❺

DOWN/Enter button
Output ON/OFF button

❸

Fault indicator(red)

❻

Fixing screws

5.2 Status display

Working status indicator

Fault indicator

Buzzer

Status

Blue ON solid

Red OFF

No beeps

Output voltage

normal

Blue slowly flashing(1/4Hz)

Red OFF

Buzzer beeps

Input under voltage

Blue fast flashing (1Hz)

Red OFF

Buzzer beeps

Input over voltage

Blue OFF

Red ON solid

Buzzer beeps

Inverter over

temperature

Heat sink over

temperature

Blue OFF

Red fast flashing

(1Hz)

Buzzer beeps

Load short circuit

Blue ON solid

Red slowly

flashing(1/4Hz)

Buzzer beeps

Overload

Blue OFF

Red OFF

Buzzer beeps

Output voltage

abnormal

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5.3 Buttons

Click

Move up

Press for 2s

In the real-time interface, press it for 2s to enter the
setting interface.
In the setting interface, press it for 2s to enter the
parameters configuration interface.

Click

Move down

Press for 2s

Press it to turn on/off the load output (default ON) in the
real-time interface.
Confirm the settings

+

Click

In the setting interface, click them to exit the parameters
configuration interface.

Press for 2s

In the real-time interface, press them for 2s to clear the
faults.

CAUTION

The long buzzer beeps for the parameter confirming and short beeps for other button
operations.

5.4 LCD interface

Click or to browse the real-time interface.

5.5 Settings

Operation:

Step1: In the real-time interface, press for 2s to enter the setting interface.

Step2: Click or to select the parameter to be configured.

Step3: Press for 2s to enter the configuration interface of the specified parameter.

Step4: Click or to configure the parameter value.

Step5: Press for 2s to confirm the configuration.

Step6: Click + to exit the current interface.

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Display

Parameters

Default

User define

Output voltage class①

220VAC

220VAC/ 230Vac

110VAC

110VAC/ 120VAC

Output frequency class

①

50Hz

50Hz/60Hz

LCD backlight time

30s

30s/ 60s/100s(ON solid)

Low voltage

disconnect voltage②

12V: 10.8V
24V: 21.6V
48V: 43.2V

12V: 10.5V~14.2V; step size 0.1V

24V: 21V-30.2V; step size 0.1V
48V: 42V-62.4V; step size 0.1V

Low voltage reconnect

voltage②

12V: 12.5V

24V: 25V
48V: 50V

12V: 11.5V~15.2V; step size 0.1V

24V: 22V-31.2V; step size 0.1V
48V: 43V-63.4V; step size 0.1V

Over voltage reconnect

voltage②

12V: 14.5V

24V: 29V
48V: 58V

12V: 11.5V~15.2V; step size 0.1V

24V: 22V-31.2V; step size 0.1V
48V: 43V-63.4V; step size 0.1V

Over voltage

disconnect voltage②

12V: 16V
24V: 32V
48V: 64V

12V: 12.5V~16.2V; step size 0.1V

24V: 23V-32.2V; step size 0.1V
48V: 44V-64.4V; step size 0.1V

① After configuring the parameters marked with ①, the inverter will restart automatically. It will

resume work according to the new parameter value.

② For the parameter user defines, please refer to the input voltage rules in Chapter 7 Protections.

Otherwise, the parameter setting will not succeed.

5.6 Error code

Error code

Faults

Buzzer

Inverter over temperature

Heat sink over temperature

Five beeps

Input over voltage

Input low voltage

Output short circuit

Output overload

Output voltage abnormal

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6 Installation

6.1 Attentions

 Read all the installation instructions carefully in the manual before installation.
 Be very careful when installing the batteries. When installing the open-type lead-acid battery, please

wear eye protection and rinse with clean water in time for battery acid contact.

 Keep the battery away from any metal objects, which may cause a short circuit of the battery.
 Loose power connections and corroded wires may result in high heat that can melt wire insulation,

burn surrounding materials, or even cause a fire. Ensure tight connections and secure cables with
clamps to prevent them from swaying while moving the inverter.

 The DC input voltage must strictly be following the parameter table. Too high or too low DC input

voltage will affect the inverter's normal operation and damage it. The surge voltage shall be less
than 20V@12V system, less than 40V@24V system, and less than 80V@48V.

 Select the connection cables according to the current density of 3.5A/mm2 or less.
 Avoid direct sunlight and rain infiltration when installing it outdoor.
 After turn off the power switch, do not open or touch the internal component immediately. Related

operations are performed after 10 minutes.

 Do not install the inverter in a harsh environment such as humid, greasy, flammable, explosive, or

dust accumulation.

 The AC output is of high voltage, do not touch the wiring connection to avoid electric shock.
 To prevent injury, do not touch the fan while it is working.

6.2 Wire size and circuit breaker

The wiring and installation methods must conform to the national and local electrical code requirements.

 Wire, terminals, and circuit breaker selection for battery

Models

Battery wire size

Ring

terminal

Circuit breaker

IP350-11-Plus(T/N)

6mm²/10AWG

RNB5.5-6

DC/2P-40A

IP350-12-Plus(T/C/A/E/F/UK)

6mm²/10AWG

RNB5.5-6

DC/2P-40A

IP350-21-Plus(T/N)

2.5mm²/13AWG

RNB3.5-6

DC/2P-32A

IP350-22-Plus(T/C/A/E/F/UK)

2.5mm²/13AWG

RNB3.5-6

DC/2P-32A

IP500-11-Plus(T/N)

10mm²/7AWG

RNB8-6S

DC/2P—63A

IP500-12-Plus(T/C/A/E/F/UK)

10mm²/7AWG

RNB8-6S

DC/2P—63A

IP500-21-Plus(T/N)

6mm²/10AWG

RNB5.5-6

DC/2P-32A

IP500-22-Plus(T/C/A/E/F/UK)

6mm²/10AWG

RNB5.5-6

DC/2P-32A

19

IP1000-11-Plus(T/N)

25mm2/3AWG

RNB38-6

DC/2P-125A

IP1000-12-Plus(A/E/C/T)

25mm2/3AWG

RNB38-6

DC/2P-125A

IP1000-21-Plus(T/N)

16mm2/5AWG

RNB14-6S

DC/2P-63A

IP1000-22-Plus(A/E/C/T)

16mm2/5AWG

RNB14-6S

DC/2P-63A

IP1500-11-Plus(T/N)

25mm2/3AWG*2

RNB60-6

DC-100A(2P in parallel)

IP1500-12-Plus(T)

25mm2/3AWG*2

RNB60-6

DC-100A(2P in parallel)

IP1500-21-Plus(T/N)

16mm2/5AWG

RNB14-6S

DC/2P-125A

IP1500-22-Plus(T)

16mm2/5AWG

RNB14-6S

DC/2P-125A

IP1500-41-Plus(T/N)

10mm2/7AWG

RNB14-6S

DC/2P-63A

IP1500-42-Plus(T)

10mm2/7AWG

RNB14-6S

DC/2P-63A

IP2000-11-Plus(T)

35mm2/2AWG *2

RNB70-10

DC-125A(2P in parallel)

IP2000-12-Plus(T)

35mm2/2AWG *2

RNB70-10

DC-125A(2P in parallel)

IP2000-21-Plus(T)

35mm2/2AWG

RNB38-6

DC/2P-125A

IP2000-22-Plus(T)

35mm2/2AWG

RNB38-6

DC/2P-125A

IP2000-41-Plus(T)

16mm2/5AWG

RNB14-6S

DC/2P-63A

IP2000-42-Plus(T)

16mm2/5AWG

RNB14-6S

DC/2P-63A

IP3000-11-Plus(T)

25mm2/3AWG*4

RNB80-10

DC-125A(3P in parallel)

IP3000-12-Plus(T)

25mm2/3AWG*4

RNB80-10

DC-125A(3P in parallel)

IP3000-21-Plus(T)

25mm2/3AWG*2

RNB60-6

DC-100A(2P in parallel)

IP3000-22-Plus(T)

25mm2/3AWG*2

RNB60-6

DC-100A(2P in parallel)

IP3000-41-Plus(T)

25mm2/3AWG

RNB22-6S

DC/2P-125A

IP3000-42-Plus(T)

25mm2/3AWG

RNB22-6S

DC/2P-125A

IP4000-41-Plus(T)

35mm2/2AWG

RNB38-6

DC/2P-125A

IP4000-42-Plus(T)

35mm2/2AWG

RNB38-6

DC/2P-125A

IP5000-42-Plus(T)

25mm2/3AWG*2

RNB60-6

DC-100A(2P in parallel)

IMPORTANT

The above wire size and circuit breaker size are for reference only; please choose a
suitable wire and circuit breaker according to the actual situation.

 Wire and circuit breaker selection for AC output

Models

Wire size

Circuit breaker

IP350-11-Plus(T/N)

1mm²/18AWG

AC/2P—6A

IP350-12-Plus(T/C/A/E/F/UK)

1mm²/18AWG

AC/2P—6A

IP350-21-Plus(T/N)

1mm²/18AWG

AC/2P—6A

IP350-22-Plus(T/C/A/E/F/UK)

1mm²/18AWG

AC/2P—6A

IP500-11-Plus(T/N)

1mm²/18AWG

AC/2P—10A

IP500-12-Plus(T/C/A/E/F/UK)

0.5mm²/20AWG

AC/2P—10A

20

IP500-21-Plus(T/N)

1mm²/18AWG

AC/2P—10A

IP500-22-Plus(T/C/A/E/F/UK)

0.5mm²/20AWG

AC/2P—10A

IP1000-11-Plus(T/N)

2.5mm²/13AWG

AC/2P-16A

IP1000-12-Plus(A/E/C/T)

1.5mm2/15AWG

AC/2P-10A

IP1000-21-Plus(T/N)

2.5mm²/13AWG

AC/2P-16A

IP1000-22-Plus(A/E/C/T)

1.5mm2/15AWG

AC/2P-10A

IP1500-11-Plus(T/N)

4mm2/11AWG

AC/2P-25A

IP1500-12-Plus(T)

1.5mm2/15AWG

AC/2P-10A

IP1500-21-Plus(T/N)

4mm2/11AWG

AC/2P-25A

IP1500-22-Plus(T)

1.5mm2/15AWG

AC/2P-10A

IP1500-41-Plus(T/N)

4mm2/11AWG

AC/2P-25A

IP1500-42-Plus(T)

1.5mm2/15AWG

AC/2P-10A

IP2000-11-Plus(T)

4mm2/11AWG

AC/2P-32A

IP2000-12-Plus(T)

2.5mm²/13AWG

AC/2P-16A

IP2000-21-Plus(T)

4mm2/11AWG

AC/2P-32A

IP2000-22-Plus(T)

2.5mm²/13AWG

AC/2P-16A

IP2000-41-Plus(T)

4mm2/11AWG

AC/2P-32A

IP2000-42-Plus(T)

2.5mm²/13AWG

AC/2P-16A

IP3000-11-Plus(T)

6mm2/10AWG

AC/2P-50A

IP3000-12-Plus(T)

4mm2/11AWG

AC/2P-25A

IP3000-21-Plus(T)

6mm2/10AWG

AC/2P-50A

IP3000-22-Plus(T)

4mm2/11AWG

AC/2P-25A

IP3000-41-Plus(T)

6mm2/10AWG

AC/2P-50A

IP3000-42-Plus(T)

4mm2/11AWG

AC/2P-25A

IP4000-41-Plus(T)

6mm2/10AWG

AC/2P-63A

IP4000-42-Plus(T)

4mm2/11AWG

AC/2P-32A

IP5000-42-Plus(T)

4mm2/11AWG

AC/2P-40A

IMPORTANT

 The above wire size and circuit breaker size are for reference only; please

choose a suitable wire and circuit breaker according to the actual situation.

 The wire size is only for reference. Suppose there is a long distance between the

inverter and the battery. In that case, larger wires shall be used to reduce the
voltage drop and improve system performance.

6.3 Mounting

Installation procedures:
Step1: Professional personnel reads this manual carefully.

21

Step 2: Determine the installation location and heat-dissipation space

To ensure natural thermal convection, you should install the inverter in a place with sufficient airflow and a
minimum clearance of 150mm from the inverter's upper and lower edges.

CAUTION

Ventilation is highly recommended if mounted in an enclosure.

 IP350-xx-Plus (take the “Appearance with decorative cover” as an example)

 IP500-xx-Plus (take the “Appearance with decorative cover” as an example)

 IP1000-xx/IP1500-xx/IP2000-2x/IP2000-4x/IP3000-42-Plus

 IP2000-1x-Plus

22

 IP3000-1x-Plus

 IP3000-2x/IP3000-41/IP4000-4x/IP5000-4x-Plus

Step3: Wiring

WARNING

The AC loads shall be determined by the continuous output power of the inverter. The
AC load's surge power must be lower than the instantaneous surge power of the
inverter, or the inverter will be damaged.

CAUTION

 Set the inverter switch to OFF status before wiring.
 During wiring, do not close the circuit breaker or fuse. Ensure the poles' leads are

polarity correctly.

 A fuse whose current is 2 to 2.5 times the inverter's rated current must be installed

on the battery end. Distance between them is not more than 150mm.

 The positions of the terminals and ports on the side vary from inverter models.

Wiring sequence (The following wiring sequence is illustrated in the appearance "IP2000-2x-Plus",
wiring positions of other inverters. Please refer to chapter 2 Appearance for reference.)

❶ Ground line

23

❷ Battery

❸ AC loads

1) Definition of the AC output terminal

 It is recommended to use a multi-stranded wire with a wire diameter of not more than 4mm2.
 Add solder to the connection point when selecting the multi-stranded wire and directly insert it

into the corresponding port.

 Stop the inverter before removing the wiring. Then, insert a sharp tool into the small hole (on

the top of the port) and pull out the wiring forcefully.

24

2) Connect the AC load

❹ Optional accessories

1) RS485 communication port

RJ45 Pin Definition:

Pin

Definition

Pin

Definition

1

5VDC

5

RS-485-A

2

5VDC

6

RS-485-A

3

RS-485-B

7

GND

4

RS-485-B

8

GND

2) Connect optional accessories

25

❺ USB port (USB port is not available for inverters with 48V input voltage.)

Step 4：Power on the inverter

⑴ Switch on the breaker at the inverter input terminal or the fuse at the battery end.
⑵ Turn on the inverter switch; the blue indicator will be lighted on, indicating a normal AC output.
⑶ Turn on the AC loads one by one and check the inverter's running status and the loads.

CAUTION

When supplying power for different loads, turning on the load with a large impulse
current is recommended. And then turn on the load with a smaller impulse current
after the load output is stable.

⑷ If the fault indicator flashes red and the buzzer alarms after powering the inverter, please

immediately turn off the load and the inverter. Clear the faults according to Chapter 8

Troubleshooting.

26

6.4 Rotate the LCD

⑴ Remove the screws of the LCD unit with a screwdriver, and rotate it 180°.

⑵ Secure the screws of the LCD unit to the inverter.

27

7 Protections

1) Input reverse polarity protection

When the DC input terminal's polarity is reversed, the indicator will not light up after power on. The
buzzer will not sound, and the inverter will not work. The inverter will start to work normally after
correcting the error wiring.

2) Input voltage protection

 The following rules must be followed when modifying the battery's input voltage parameters:

A. Over voltage limiting voltage (16.2/32.2/64.4V) ≥ Over voltage disconnect voltage ≥ Over

voltage reconnect voltage +1V.
B. Over voltage reconnect voltage ≥ Low voltage reconnect voltage.
C. Low voltage reconnect voltage ≥ Low voltage disconnect voltage +1V.
D. Low voltage disconnect voltage ≥ Low voltage limiting voltage (10.5/21/42V).

 Detail status is shown as the following when the input voltage protection occurs.

Input voltage protection

Status

Over voltage protection

The output is switched OFF.

The blue indicator fast flashes.

Buzzer beeps.

LCD displays the .

Over voltage reconnect

The blue indicator is ON solid.

The output voltage is normal.

Low voltage protection

The output is switched OFF.

The blue indicator slowly flashes.

Buzzer beeps.

LCD displays the .

Low voltage reconnect

The blue indicator is ON solid.

The output voltage is normal.

IMPORTANT

The inverter has over voltage protection. Still, the surge voltage shall be less than
20V@12V system, less than 40V@24V system, and less than 80V@48V.
Otherwise, the inverter may be damaged.

3) Overload protection

IP350-11-Plus
IP350-12-Plus
IP350-21-Plus
IP350-22-Plus

S=1.2Pe
(S: Output power; Pe: Rated power)

The output is switched OFF
after 1 minute.
Buzzer beeps.
The red indicator slowly

28

IP500-11-Plus
IP500-12-Plus
IP500-21-Plus
IP500-22-Plus
IP1000-11-Plus
IP1000-12-Plus
IP1000-21-Plus
IP1000-22-Plus
IP1500-11-Plus
IP1500-12-Plus
IP1500-21-Plus
IP1500-22-Plus
IP1500-41-Plus
IP1500-42-Plus
IP2000-11-Plus
IP2000-12-Plus
IP2000-21-Plus
IP2000-22-Plus
IP2000-41-Plus
IP2000-42-Plus
IP3000-21-Plus
IP3000-22-Plus
IP3000-41-Plus
IP3000-42-Plus

flashes.
LCD displays the .

S=1.5P

e

(S: Output power; Pe: Rated power)

The output is switched OFF
after 30 seconds.
Buzzer beeps.
The red indicator slowly
flashes.
LCD displays the .

S=1.8P

e

(S: Output power; Pe: Rated power)

The output is switched OFF
after 10 seconds.
Buzzer beeps.
The red indicator slowly
flashes.
LCD displays the .

S＞2Pe(Rated input voltage)
(S: Output power; Pe: Rated power)

The output is switched OFF
after 5 seconds.
Buzzer beeps.
The red indicator slowly
flashes.
LCD displays the .

CAUTION

When the overload protection happens, the AC output is recovered automatically
three times (recover after 5s, 10s, 15s separately). After the recovery attempt failed
three times, you need to restart the inverter to recover the AC output.

 When the overload protection happens on IP2000-11-Plus or IP3000-21-Plus, the AC output is

shut down directly and cannot be recovered automatically.

IP3000-11-Plus
IP3000-12-Plus
IP4000-41-Plus
IP4000-42-Plus

S=1.2Pe
(S: Output power; Pe: Rated power)

The output is switched OFF after 1
minute.
Buzzer beeps.
The red indicator slowly flashes.
LCD displays the .

S=1.7P

e

(S: Output power; Pe: Rated power)

The output is switched OFF after 10
seconds.
Buzzer beeps.
The red indicator slowly flashes.

LCD displays the .

29

S＞1.7Pe(Rated input voltage)
(S: Output power; Pe: Rated power)

The output is switched OFF after 5
seconds.
Buzzer beeps.
The red indicator slowly flashes.

LCD displays the .

IP5000-42-Plus

S=1.2Pe
(S: Output power; Pe: Rated power)

The output is switched OFF after 1
minute.
Buzzer beeps.
The red indicator slowly flashes.
LCD displays the .

S=1.4P

e

(S: Output power; Pe: Rated power)

The output is switched OFF after 10
seconds.
Buzzer beeps.
The red indicator slowly flashes.

LCD displays the .

S＞1.4Pe(Rated input voltage)
(S: Output power; Pe: Rated power)

The output is switched OFF after 5
seconds.
Buzzer beeps.
The red indicator slowly flashes.

LCD displays the .

CAUTION

When the overload protection happens, the AC output cannot recover automatically.
The AC output is shut down according to the multiple of the overload. Recover the
AC output after clearing the overload faults and restarting the inverter.

4) Output short circuit protection

Faults

Instruction

The output is switched OFF

immediately.

Buzzer beeps.
Red indicators fast flashes.
LCD displays the .

Note: The AC output is recovered automatically three
times(recover after 5s, 10s, 15s separately). After the recovery
attempt failed three times, you need to restart the inverter to
recover the AC output.

5) Inverter over temperature protection

Faults

Instruction

LCD displays the .
The inverter stops working.

The inverter stops working after the heat sink's temperature, or
the internal modules' temperature exceeds a set value.

The inverter resumes work.

The inverter works after the temperature of the heat sink or the
internal modules' temperature is lower than a set value.

30

8 Troubleshooting

WARNING

A high voltage will occur inside the inverter. DO NOT try to repair or maintain the
inverter by yourself; it may cause an electric shock.

LCD

Faults

Reasons

Troubleshooting

Blue indicator

slowly flashes.

Buzzer beeps.

The DC input
voltage is too

low.

Check whether the DC input voltage is
lower than10.8/21.6/43.2V by a
multimeter.
The inverter will resume work after
adjusting the input voltage.

Blue indicator fast

flashes.

Buzzer beeps.

The DC input
voltage is too

high.

Check whether the DC input voltage is
higher than16/32/64V by a multimeter.
The inverter will resume work after
adjusting the input voltage

Red indicator

slowly flashes.

Buzzer beeps.

Overload

Reduce the number of AC loads, and
restart the inverter.

Red indicators fast

flashes.

Buzzer beeps.

Output short

circuit

Check the loads' connection carefully.
Clear the short circuit faults and restart
the inverter.

Red indicators are

ON solid.

Buzzer beeps.

Inverter over

temperature

Improve the ventilation situation and cool
the surroundings' temperature to restart
the inverter after the temperature drops.
If the fault cannot be cleared after
performing the above operations,
decline the rated power for usage.

31

9 Maintenance

The following inspections and maintenance tasks are recommended at least two times per year
for the best performance.

 Make sure no block on airflow around the inverter. Clear up any dirt and fragments on the heat sink.
 Check all the naked wires to ensure the insulation is not damaged for serious solarization, frictional

wear, dryness, insects or rats, etc. Repair or replace some wires if necessary.

 Check and confirm that the LED or LCD is consistent with the actual operation. Pay attention to any

troubleshooting or error indications. Take corrective action if necessary.

 Check all the terminals for signs of corrosion, insulation damage, high temperature, or

burning/discoloration, and tighten the terminal screws.

 Clear up dirt, nesting insects, and corrosion in time.
 Check and confirm that the lightning arrester is in good condition. Replace a new one in time to

avoid damaging the inverter and even other equipment.

WARNING

Risk of electric shock! Ensure that all the power is turned off. All the power in the
capacitor has been discharged before performing the above operations.

32

10 Specifications

The tags ① / ② in the specification tables are explained as follows.

① It is measured in the condition of continuous output power and rated input voltage.
② It means the max. output efficiency when the inverter is connected with different loads under the rated input voltage.

Parameters

IP350-11-Plus

IP350-21-Plus

IP500-11-Plus

IP500-21-Plus

Continuous output power

350W@35℃@ Rated input voltage

500W@35℃@35℃@ Rated input voltage

Surge power

700W@5S

1000W@5S

Surge current when power on

< 30A

< 50A

Output voltage

110VAC (±3%); 120VAC (-7%~+3%)

Output frequency

50/60Hz ± 0.2%

Output wave

Pure Sine Wave

Output distortion THD

THD ≤ 3% (Resistive load)

THD ≤ 4% (Resistive load)

Load power factor

0.2 ~ 1 (Load power ≤ Continuous output power)

Rated input voltage

12VDC

24VDC

12VDC

24VDC

Input voltage range

10.8 ~ 16.0VDC

21.6 ~ 32VDC

10.8 ~ 16.0VDC

21.6 ~ 32VDC

Rated output efficiency①

> 87.0%

> 90.0%

> 87.5%

> 90.0%

Max. output efficiency②

> 89.0% (40% loads)

> 90.5% (40% loads)

> 90.0% (40% loads)

> 91.0% (40% loads)

Idle current

< 0.2A

< 0.15A

< 0.10A

No-load current

< 0.8A

< 0.4A

< 0.8A

< 0.5A

USB output

5VDC/Max.1A

RS485 com. port

5VDC/200mA

Mechanical parameters

Input terminal

M6

M6

33

Dimension (L×W×H)

229 × 160 × 73mm

286 × 163.5 × 78mm

Mounting size

205 × 75mm

262 × 75mm

Mounting hole size

Φ5mm

Φ5mm

Net Weight

1.5Kg

2.3kg

Parameters

IP1000-11-Plus

IP1000-21-Plus

IP1500-11-Plus

IP1500-21-Plus

IP1500-41-Plus

Continuous output power

1000W@35℃@ Rated input voltage

1500W@35℃@ Rated input voltage

Surge power

2000W@5S

3000W@5S

Surge current when power on

< 100A

< 100A

< 50A

Output voltage

110VAC (±3%); 120VAC (-7%~+3%)

Output frequency

50/60Hz ± 0.2%

Output wave

Pure Sine Wave

Output distortion THD

THD ≤ 4% (Resistive load)

THD ≤ 3% (Resistive load)

THD ≤ 4% (Resistive load)

Load power factor

0.2~1(Load power ≤ Continuous output power)

Rated input voltage

12VDC

24VDC

12VDC

24VDC

48VDC

Input voltage range

10.8~16.0VDC

21.6~32.0VDC

10.8~16.0VDC

21.6~32.0VDC

43.2~64.0VDC

Rated output efficiency①

> 87.0%

> 90.0%

> 88.0%

> 88.0%

> 90.0%

Max. output efficiency②

> 92.0%

(40% loads)

> 92.5%

(30% loads)

> 93.0%

(30% loads)

> 92.5%

(30% loads)

> 92.0%

(30% loads)

Idle current

< 0.2A

< 0.15A

< 0.2A

< 0.15A

< 0.1A

No-load current

< 0.8A

< 0.6A

< 1.0A

< 0.9A

< 0.5A

USB output

5VDC/Max.1A

5VDC/Max.1A

---

RS485 com. port

5VDC/200mA

Mechanical parameters

Input terminal

M6

M6

Dimension (L×W×H)

371 × 231.5 × 123mm

387 × 231.5 × 123mm

34

Mounting size

345 × 145mm

361 × 145mm

Mounting hole size

Φ6mm

Φ6mm

Net Weight

5kg

6kg

Parameters

IP2000-11-Plus

IP2000-21-Plus

IP2000-41-Plus

Continuous output power

2000W@35℃@ Rated input voltage

Surge power

4000W@5S

Surge current when power on

< 100A

< 100A

< 50A

Output voltage

110VAC (±3%); 120VAC (-7%~+3%)

Output frequency

50/60Hz ± 0.2%

Output wave

Pure Sine Wave

Output distortion THD

THD ≤ 5% (Resistive load)

THD ≤ 4% (Resistive load)

THD ≤ 4% (Resistive load)

Load power factor

0.2 ~ 1 (Load power ≤ Continuous output power)

Rated input voltage

12VDC

24VDC

48VDC

Input voltage range

10.8 ~ 16.0VDC

21.6 ~ 32.0VDC

43.2 ~ 64.0VDC

Rated output efficiency①

> 85.0%

> 88.0%

> 88.0%

Max. output efficiency②

> 92.0% (30% loads)

> 92.0% (30% loads)

> 93.0% (30% loads)

Idle current

< 0.2A

< 0.15A

< 0.1A

No-load current

< 1.2A

< 0.9A

< 0.5A

USB output

5VDC/Max.1A

5VDC/ Max.1A

---

RS485 com. port

5VDC/ 200mA

Mechanical parameters

Input terminal

M10

M6

M6

Dimension (L×W×H)

420 × 231.5 × 123mm

421 × 231.5 × 123mm

421 × 231.5 × 123mm

Mounting size

395 × 145mm

395 × 145mm

395 × 145mm

Mounting hole size

Φ6mm

Φ6mm

Φ6mm

35

Net Weight

8kg

6.5kg

6.5kg

Parameters

IP3000-11-Plus

IP3000-21-Plus

IP3000-41-Plus

IP4000-41-Plus

Continuous output power

3000W@35℃@Rated input voltage

4000W@35℃@Rated

input voltage

Surge power

4800W@5S

6000W@5S

6000W@5S

8000W@5S

Surge current when power on

< 100A

< 100A

< 65A

< 65A

Output voltage

110VAC (±3%); 120VAC (-7%~+3%)

Output frequency

50/60Hz ± 0.2%

Output wave

Pure Sine Wave

Output distortion THD

THD ≤ 4% (Resistive load)

THD ≤ 5% (Resistive load)

THD ≤ 4% (Resistive load)

THD ≤ 4% (Resistive load)

Load power factor

0.2 ~ 1 (Load power ≤ Continuous output power)

Rated input voltage

12VDC

24VDC

48VDC

48VDC

Input voltage range

10.8 ~ 16.0VDC

21.6 ~ 32.0VDC

43.2 ~ 64.0VDC

43.2 ~ 64VDC

Rated output efficiency①

> 85.0%

> 87.0%

> 89.5%

> 88.0%

Max. output efficiency②

> 93.0% (30% loads)

> 91.5% (30% loads)

> 93.5% (30% loads)

> 93.0% (30% loads)

Idle current

< 0.2A

< 0.15A

< 0.1A

< 0.1A

No-load current

< 1.6A

< 1A

< 0.4A

< 0.6A

USB output

5VDC/Max.1A

5VDC/Max.1A

---

---

RS485 com. port

5VDC/ 200mA

Mechanical parameters

Input terminal

M10

M6

M6

M6

Dimension (L×W×H)

550 × 274 × 148mm

521 × 274 × 148mm

516 x 231.5 x 123mm

521 × 274 × 148mm

Mounting size

525 × 145mm

495 × 145mm

490 x 145mm

495 × 145mm

Mounting hole size

Φ6mm

Φ6mm

Φ6mm

Φ6mm

Net Weight

13kg

8kg

8kg

12kg

36

Parameters

IP350-12-Plus

IP350-22-Plus

IP500-12-Plus

IP500-22-Plus

Continuous output power

350W@35℃@ Rated input voltage

500W@35℃@ Rated input voltage

Surge power

700W@5S

1000W@5S

Surge current when power on

< 30A

< 50A

Output voltage

220VAC (±3%); 230VAC (-7%~+3%)

Output frequency

50/60Hz ± 0.2%

Output wave

Pure Sine Wave

Output distortion THD

THD ≤ 3% (Resistive load)

Load power factor

0.2 ~ 1 (Load power ≤ Continuous output power)

Rated input voltage

12VDC

24VDC

12VDC

24VDC

Input voltage range

10.8 ~ 16.0VDC

21.6 ~ 32VDC

10.8 ~ 16.0VDC

21.6 ~ 32VDC

Rated output efficiency①

> 89.0%

> 90.0%

> 89.5%

> 91.5%

Max. output efficiency②

> 93.0% (40% loads)

> 91.5% (40% loads)

> 91.0% (40% loads)

> 92.0% (40% loads)

Idle current

< 0.2A

< 0.15A

< 0.10A

No-load current

< 0.9A

< 0.7A

< 0.9A

< 0.6A

USB output

5VDC/Max.1A

RS485 com. port

5VDC/200mA

Mechanical parameters

Input terminal

M6

M6

Dimension (L×W×H)

229 × 160 × 73mm

286 × 163.5 × 78mm

Mounting size

205 × 75mm

262 × 75mm

Mounting hole size

Φ5mm

Φ5mm

Net Weight

1.5Kg

2.3kg

37

Parameters

IP1000-12-Plus

IP1000-22-Plus

IP1500-12-Plus

IP1500-22-Plus

IP1500-42-Plus

Continuous output power

1000W@35℃@ Rated input voltage

1500W@35℃@ Rated input voltage

Surge power

2000W@5S

3000W@5S

Surge current when power on

< 100A

< 100A

< 50A

Output voltage

220VAC (±3%); 230VAC (-7%~+3%)

Output frequency

50/60Hz ± 0.2%

Output wave

Pure Sine Wave

Output distortion THD

THD ≤ 3% (Resistive load)

Load power factor

0.2 ~ 1 (Load power ≤ Continuous output power)

Rated input voltage

12VDC

24VDC

12VDC

24VDC

48VDC

Input voltage range

10.8 ~ 16.0VDC

21.6 ~ 32.0VDC

10.8 ~ 16.0VDC

21.6 ~ 32.0VDC

43.2 ~ 64.0VDC

Rated output efficiency①

> 89.0%

> 90.0%

> 89.0%

> 90.0%

> 92.5%

Max. output efficiency②

> 93.0% (40% loads)

> 93.0% (30% loads)

> 93.0% (30% loads)

> 93.5% (30% loads)

> 94.0% (30% loads)

Idle current

< 0.2A

< 0.15A

< 0.2A

< 0.15A

< 0.1A

No-load current

< 1.1A

< 0.9A

< 1.2A

< 0.9A

< 0.5A

USB output

5VDC/Max.1A

5VDC/Max.1A

---

RS485 com. port

5VDC/200mA

Mechanical parameters

Input terminal

M6

M6

Dimension (L×W×H)

371 × 231.5 × 123mm

387 × 231.5 × 123mm

Mounting size

345 × 145mm

361 × 145mm

Mounting hole size

Φ6mm

Φ6mm

Net Weight

5kg

6kg

38

Parameters

IP2000-12-Plus

IP2000-22-Plus

IP2000-42-Plus

Continuous output power

2000W@35℃@ Rated input voltage

Surge power

4000W@5S

Surge current when power on

< 100A

< 100A

< 50A

Output voltage

220VAC (±3%); 230VAC (-7%~+3%)

Output frequency

50/60Hz ± 0.2%

Output wave

Pure Sine Wave

Output distortion THD

THD ≤ 3% (Resistive load)

Load power factor

0.2 ~ 1 (Load power ≤ Continuous output power)

Rated input voltage

12VDC

24VDC

48VDC

Input voltage range

10.8 ~ 16.0VDC

21.6 ~ 32.0VDC

43.2 ~ 64.0VDC

Rated output efficiency①

> 88.0%

> 91.0%

> 92.5%

Max. output efficiency②

> 94.0% (30% loads)

> 93.0% (30% loads)

> 94.5% (30% loads)

Idle current

< 0.2A

< 0.15A

< 0.1A

No-load current

< 1.2A

< 1.0A

< 0.5A

USB output

5VDC/Max.1A

5VDC/ Max.1A

---

RS485 com. port

5VDC/ 200mA

Mechanical parameters

Input terminal

M10

M6

M6

Dimension (L×W×H)

420 × 231.5 × 123mm

421 × 231.5 × 123mm

421 × 231.5 × 123mm

Mounting size

395 × 145mm

395 × 145mm

395 × 145mm

Mounting hole size

Φ6mm

Φ6mm

Φ6mm

Net Weight

8kg

6.5kg

6.5kg

39

Parameters

IP3000-12-Plus

IP3000-22-Plus

IP3000-42-Plus

IP4000-42-Plus

IP5000-42-Plus

Continuous output power

3000W@35℃@Rated input voltage

4000W@35℃@Rated

input voltage

5000W@35℃@Rated

input voltage

Surge power

6000W@5S

8000W@5S

8000W@5S

Surge current when power
on

< 100A

< 100A

< 65A

< 65A

< 65A

Output voltage

220VAC (±3%); 230VAC (-7%~+3%)

Output frequency

50/60Hz ± 0.2%

Output wave

Pure Sine Wave

Output distortion THD

THD ≤ 3% (Resistive load)

Load power factor

0.2 ~ 1 (Load power ≤ Continuous output power)

Rated input voltage

12VDC

24VDC

48VDC

48VDC

48VDC

Input voltage range

10.8 ~ 16.0VDC

21.6 ~ 32.0VDC

43.2 ~ 64.0VDC

43.2 ~ 64VDC

43.2 ~ 64.0VDC

Rated output efficiency①

> 87.0%

> 90.0%

> 92.5%

> 91.0%

> 91.0%

Max. output efficiency②

> 94.0%

(30% loads)

> 94.0%

(30% loads)

> 94.5%

(30% loads)

> 94.0%

(30% loads)

> 94.0%

(30% loads)

Idle current

< 0.2A

< 0.15A

< 0.1A

< 0.1A

< 0.1A

No-load current

< 1.6A

< 1.0A

< 0.5A

< 0.6A

< 0.8A

USB output

5VDC/Max.1A

5VDC/Max.1A

---

---

---

RS485 com. port

5VDC/ 200mA

Mechanical parameters

Input terminal

M10

M6

M6

M6

M6

Dimension (L×W×H)

557 × 231.5 × 123mm

521 × 274 × 148mm

491 × 231.5 × 123mm

516 × 231.5 × 123mm

531 × 231.5 × 123mm

Mounting size

532 × 145mm

495 × 145mm

465 × 145mm

490 × 145mm

505 × 145mm

Mounting hole size

Φ6mm

Φ6mm

Φ6mm

Φ6mm

Φ6mm

Net Weight

10.5kg

8kg

7kg

8kg

9kg

40

Environment parameters

Environment temperature

-20℃ ~ +60℃ (Refer to the Derating Curve)

Storage temperature

-35℃ ~ +70℃

Relative humidity

< 95% (N.C.)

Enclosure

IP20

Altitude

< 5000m (If the altitude exceeds 1000 meters, the rated power will be reduced according to IEC62040.)

41

Appendix 1 Disclaimers

The warranty does not apply to the following conditions:

 Damage is caused by improper use or an inappropriate environment.

 Load current/voltage/power exceeds the limit value of the inverter.

 Damage caused by working temperature exceeds the rated range.

 Arc, fire, explosion, and other accidents are caused by failure to follow the inverter stickers or

manual instructions.

 Disassemble and repair the inverter without authorization.

 Damage is caused by force majeure.

 Damage occurred during transportation or handling.

Any changes without prior notice! Version number: V2.2

HUIZHOU EPEVER TECHNOLOGY CO., LTD.

Beijing Tel: +86-10-82894896/82894112
Huizhou Tel: +86-752-3889706
E-mail: info@epever.com
Website: www.epever.com