Omnik Omnikhyd Inverter 3KW User manual

Brand: Omnik

Model: Omnikhyd Inverter 3KW

Type: User manual

Omnik Omnikhyd Inverter 3KW

The Omnik Omnikhyd Inverter 3KW is a hybrid PV inverter that can generate continuous power from three different power sources: PV solar modules, batteries, and the grid. It is compatible with single crystalline and polycrystalline PV module types. The inverter is equipped with Maximum Power Point Tracking (MPPT) technology to harvest the maximum amount of energy from the solar panels.

The inverter has the following features:

Comprehensive data with easy-to-read graphic design in LCD display
Ground Fault Current Interruption (RCD)
Bundled software to remote access the inverter data

Omnik Omnikhyd Inverter 3KW

The inverter has the following features:

Comprehensive data with easy-to-read graphic design in LCD display
Ground Fault Current Interruption (RCD)
Bundled software to remote access the inverter data

Page 1 of 21 Rev. A

User MANUAL

InfiniSolar Inverter 3KW

Omnikhyd Inverter 3KW

Page 2 of 21 Rev. A

1.0 Revision Summary

REVISION SECTION DESCRIPTION

Rev. A

Page 3 of 21 Rev. A

1. Scope of delivery

The manual provides safety guidelines, detailed planning and setup information. It provides

procedures for installing the inverter and information about operation and troubleshooting of

the unit. This manual does not contain details about photovoltaic (PV) panels. Please consult

with system integrator for the information.

2. Important Safety Instructions

SAVE THESE INSTRUCTIONS — this user manual contains important instructions that shall be

followed during the installation and maintenance of the InfiniSolar Inverters.

The following warnings identify conditions or practices that could result in personal injury or loss

of life.

1) Before installing and using the Solar Inverter, read all instructions and cautionary markings

on the inverter and all appropriate sections of this guide.

2) To reduce risk of fire hazard, do not cover or obstruct the inverter.

3) Under some conditions, the surface of Inverter case could be hot enough to cause skin

burns if accidentally touched. Ensure that the Inverter is located away from normal traffic

areas.

4) Use only accessories recommended or sold by the installer. Otherwise, not-qualified tool

may result in a risk of fire, electric shock, or injury to persons.

5) To avoid a risk of fire and electric shock, make sure that existing wiring is in good condition

and the wire is not undersized. Do not operate the Inverter with damaged or substandard

wiring.

6) Do not operate the Inverter if it has received a sharp blow, been dropped, or otherwise

damaged in any way. If the Inverter is damaged, call for an RMA (Return Material

Authorization)

7) Do not disassemble the Solar Inverter. It contains no user-serviceable parts. Attempting to

service the Solar Inverter yourself may result in a risk of electrical shock or fire and will void

warranty from manufacturer.

8) Authorized service personnel should reduce the risk of electrical shock by disconnecting

both the AC and DC power from the Inverter before attempting any maintenance or

cleaning or working on any circuits connected to the inverter. Turning off controls will not

reduce this risk. Internal capacitors can remain charged for 5 minutes after disconnecting

all sources of power.

9) Normally grounded conductors may be ungrounded and energized when a ground fault is

indicated.

followed during the installation and maintenance of the Omnikhyd Inverters.

Page 4 of 21 Rev. A

3. Introduction

InfiniSolar inverter is a hybrid PV inverter which consists of Grid input, PV input, battery

input, and AC output. The configuration is illustrated in Figure 1, showing the PV energy

has been feed back to grid, or used to charge the battery. It can supply power to load from

PV source, battery or both sources simultaneously.

Figure 1

Working Operations

1） Line mode（in Figure 2）

Figure 2

When the inverter is successfully connected to the grid, the inverter will operate in Line Mode.

Under this mode, when PV power is strong, the inverter will charge battery first and the

remaining power will feed to the grid and load.

When PV energy is too weak to charge battery, the inverter will get power from the grid to

charge battery.

Omnikhyd inverter is a hybrid PV inverter which consists of Grid input, PV input, battery

Page 5 of 21 Rev. A

2） BATTERY mode（ in Figure 3）

Figure 3

Under this mode, the inverter is not able to connect to the grid. Either solar power or battery

power becomes major power source. When PV power is strong, the inverter will power load first

and the remaining power will charge battery. When PV power is too weak to charge battery or

power load, the inverter will convert battery power to supply loads.

3） PV charging mode（ in Figure 4）

Figure 4

When the inverter is not connected to the grid and there is no load connected, PV power will

charge battery directly.

PV Compatibility

This hybrid inverter is designed to generate continuous power from three different power

sources, PV solar modules (solar panels), battery, and the grid, depending on different power

situations. When MPP input voltage of PV modules is within 150 VDC to 500 VDC, this hybrid

inverter is able to generate power to feed the grid and charge battery. This inverter is

compatible with PV module types of single crystalline and poly crystalline.

Note: When PV input voltage is lower than 250V, the power of inverter will de-rate.

Maximum Power Point Tracking (MPPT)

Page 6 of 21 Rev. A

The Solar Inverter is applied with Maximum Power Point Tracking (MPPT) technology to harvest

the maximum amount of energy from the solar panel.

Measurement must be taken to ensure that the maximum open circuit voltage of 500 VDC is

never exceeded. Please note that the maximum open-circuit voltage will occur at the lowest

temperatures anticipated. You will find more detailed information about temperature

dependency in the data sheet of the PV modules.

Standard Features

The Solar Inverter has the following standard features:

z Provides comprehensive data with easy-to-read graphic design in LCD display

z Ground Fault Current Interruption, which is also known as RCD (Residual Current Device).

To prevent electrical hazard, a current transformer is used to monitor the different

current between L and N. When current difference is larger than specified value stated in

section “General Data”, inverter will cut its output to grid.

z Bundled software to remote access the inverter data

z Provides standard RS485 communication and optional communication cards

Page 7 of 21 Rev. A

4. Equipment overview

FRONT VIEW

BACK VIEW

A: PV input connector

B: Grid input connector

C: battery input connector

D: AC output connector

E: Grounding

F: RS-232 Communication port

C GHF

Page 8 of 21 Rev. A

G: Intelligent slot

H: Parallel connector

5. Installation

5.1 Installation location

z Do not mount the inverter on flammable construction materials.

z Mount on a solid surface

z High temperature may cause a power reduction due to excessive heating.

z Install this inverter at eye level in order to allow the LCD display to be read at all times.

z Dusty conditions on the unit may impair the performance of this inverter.

5.2 Minimum requirements

z For proper air circulation to dissipate heat, allow a clearance of approx. 20 cm to the side

and approx. 50 cm above and below the unit.

z For proper operation of this inverter, please use appropriate cables (cable length,

cable cross-section) for grid impedance requirement at the supply terminal.

z The recommended installation position is to be adhered to (vertical).

5.3 Installation

Installation to the wall should be implemented with the proper screws so that the solar inverter

can be easily attached to the wall. After that, the device should be bolted on securely.

Assembly instructions:

z Select an appropriate mounting location. Install the solar inverter in a protected area that is

free of excessive dust and has adequate air flow. Do NOT operate it where the temperature

and humidity is outside the specific limits. (Please check the specs for the limitations.)

z Drill four holes in the marked locations with four screws. (see Fig. 1 & Fig. 2) Place the unit

on the surface and align the mounting holes with four screws.

z Check if the solar inverter is securely fixed.

Page 9 of 21 Rev. A

Figure 1 Figure 2

5.4 Ambient temperature

The solar inverter can be operated in an ambient temperature between 0℃ to +40℃.

5.5 Grid Connection

Measure grid voltage and frequency. It should be 230VAC, 50HZ, and single phase.

Open the breaker or fuse between the inverter and utility. Connect AC wires as table 1 list.

Connectors wire suggestion

PV PV+ A:+

12AWG or 4mm2

PV- A:-

GRID L B:L1

N B:N

GROUND E

BATTERY BAT+ C:POS+

6AWG or 15mm2

BAT- C:NEG-

AC OUTPUT L D:L

12AWG or 4mm2 N D:N

GROUND D:GROUND

WALL

Page 10 of 21 Rev. A

Table 1

To prevent risk of electric shock, ensure the ground wire is properly earthed before operating

the solar inverter.

5.6 Connection of PV modules

Before the photovoltaic system is connected, the polarity of the PV voltage must be checked to

ensure that it is correct. Connect PV wires as table 1 list.

Please ensure the following at all times:

z That there is never any risk of anyone coming into contact with the solar inverter connection

terminals, due to the risk of dangerous voltages across them.

z Never disconnect running inverter from PV modules. If it’s necessary, first switch the grid

off so that the solar inverter cannot absorb any further power.

The maximum input voltage of the solar inverter is 500V.

5.7 Connection of battery

Please ensure that he nominal battery voltage is 48Vdc first. Open the breaker or fuse between

the inverter and battery. Connect battery wires as table 1

5.8 Connection of the AC output to the load

Connect output wires to the load as table 1.

6. Commissioning

6.1 Startup Procedure

Check the following requirements before commissioning:

z Check DC voltage of PV modules

Uncover the PV modules and expose them to full sunlight. The sunlight must be intense

enough to produce the required PV output voltage.

Measure Open Circuit DC Voltage of PV modules via DC positive (+) and DC negative (–)

terminals. This voltage must be within 150 VDC to 500VDC to energize the inverter

electronics and prevent damage to input circuitry of the.

z Check AC utility voltage

Switch ON the main and inverter Circuit breakers in the main utility electrical service panel.

Page 11 of 21 Rev. A

Using an AC voltmeter, measure the AC open circuit utility voltage between L and

N. Ensure this voltage is at approximately nominal value expected for the local

utility company.

z Check battery voltage

Ensure that battery voltage is at approximately nominal value expected for inverter(48Vdc).

z The line breaker and battery breaker are correctly rated

z Before switching on the power, check all feeders and connections again.

z Start up the inverter by switching the breaker of PV, Grid and battery to “ON’ status.

The LCD will display the device state. Keep pressing the ON key continuously until

the buzzer continuously sound. Then, the inverter will be turned on. If you want to turn off

the inverter, simply keep pressing the OFF key continuously until the buzzer continuously

sound.

7. Monitoring the Inverter

7.1 LCD Information Define

NOTICE: To accurately monitor and calculate the energy generation, please calibrate the timer

of this unit via software every one month. For the detailed calibration, please check the user

manual of bundled software.

NOTIEC: There is a battery inside of control board. It’s recommended to replace the battery

every 5 years. Check the replacement procedure in Maintenance section.

Displa

Function

Indicates AC input volta

e or frequency.

Vac: voltage, Hz: frequency

Indicates AC output

power, voltage, frequency, or Load

percentage.

KW: power, Vac: Voltage, Hz: frequency, %:

Load percentage

Indicates PV input volta

e or power.

Volt: voltage, KW: power

Page 12 of 21 Rev. A

Indicates battery voltage or percentage.

Volt: voltage, %: percentage

Indicates charging current to battery.

Indicates that the warning occurs.

Indicates that the fault occurs.

Indicates fault code in fault mode or WR for

warning situation.

Indicates date and time, or the date and

time you set for querying energy generated.

Indicates solar panels.

Indicates grid.

Indicates battery.

Indicates load.

Indicates energy generated.

7.2 Button Definition

This display is operated by four buttons.

Button Function

Up ¾ Press this button to select last selection or

increase value.

Down ¾ If it

’

s in que

y menu, press this button to

select next selection or decrease value.

¾ Press this button to mute alarm in

standby mode.

ENTER/ON ¾ Press to enter query menu.

¾ If it’s in query menu, press this button to

confirm selection or entry.

¾ Keep press this button continuously until

the buzzer long time sound, inverter turn on

the AC output.

ESC

OFF ¾ Press to return to last menu.

¾ Keep press this button continuously until

the buzzer long time sound, inverter turn off

the AC out

ut.

NOTE: If backlight shuts off, you may activate it by pressing any button. When an error occurs,

the buzzer will continuously sound. You may press any button to mute it.

Page 13 of 21 Rev. A

7.3 Query Menu Operation

This display shows current values of your system. This displayed values can be changed in query

menu via button operation. Press “Enter” button to enter query menu. There are seven query

selections:

z Grid voltage or frequency of AC input

z Frequency, voltage, power or load percentage of AC output

z Input voltage or power of PV input.

z Battery voltage or capability percentage.

z Date and time.

z Today or total energy generated.

z Mode of query energy generated.

Setting Display Procedure

z Input voltage or frequency of AC input

Procedure

Enter

Down

EnterEnter

z Frequency, voltage, power or percentage of AC output

Procedure

Enter

Down

EnterEnter

2. 3.

Page 14 of 21 Rev. A

z Input voltage or power of PV input.

Procedure

Enter

Down

EnterEnter

2. 3.

z Battery voltage or percentage.

Procedure

Enter

Down

EnterEnter

z Date and time.

Procedure

Page 15 of 21 Rev. A

z Today or total energy generated.

Procedure

z Mode of query energy generated.

Energy generation display of selected day

Procedure:

LCD Display:

Energy generation display of selected month

Procedure:

LCD Display:

Page 16 of 21 Rev. A

Energy generation display of selected year

Procedure:

Enter

Down

Enter

4. 5.

Enter

Flashes

Enter Up Down

Enter

Esc

Returns to main menu

Sets year

LCD Display:

Page 17 of 21 Rev. A

7-4. Device status & Display

Status LCD Display

PV module and battery are

connected and working well, but

it’s not connected to grid.

Inverter is charging battery from

PV energy.

The utility icon flashes.

PV module and battery are

connected and working well, but

it’s not connected to grid.

Inverter is powering loads from

PV and battery energy.

The utility icon flashes. Battery is charging or

dischar

base on the PV in

ower.

PV module is feeding power to

the grid and the inverter is not

connected to battery.

The battery icon flashes.

PV module is feedin

power to

the grid and load. The inverter is

not connected to battery.

The battery icon flashes.

he inverter is not connected to

battery. When PV energy is weak,

PV module and the utility will

power the load at the same time.

The battery icon flashes.

When PV energy is strong, PV

module is feeding power to the

grid, load and charging battery.

Page 18 of 21 Rev. A

WARNING: There are no use

-replaceable parts inside of the inverter. Do not attempt

to service the unit yourself.

When PV energy is weak, PV

module and the utility will power

the load and charge battery.

here is no PV power available

and inverter is not connected to

grid. All loads are powered from

battery energy.

The utility icon flashes.

When PV energy is loss, the utility

is powering the load and charging

battery.

The PV icon flashes.

When there is load connected, the utility will power the load

and the load icon will show u

in the LCD dis

8. Maintenance & Cleaning

Check the following points to ensure proper operation of whole solar system at regular intervals.

z Ensure the inverter’s inlet and outlet is clean all the time.

z Clean the PV modules, during the cool time of the day, whenever it is visibly dirty.

z Periodically inspect the system to make sure that all wires and supports

are securely fastened in place.

9. Warning Situation

There are 5 situations defined as warnings. When a warning situation occurs, icon will flash

and the fault code area will display “WR” wordings.

No PV module is connected flash failure

Inverter initial failure Line loss

Islandin

is detected

Fault Reference Codes

When a fault occurs, the icon will flash as a reminder. See below for fault codes for

reference.

Fault event Fault code Icon

(

flashin

Page 19 of 21 Rev. A

Over voltage on Bus 1

Under voltage on Bus 2

Time out for Bus soft start 3

ime out for Inverter soft start 4

Inverter over current 5

Over temperature 6

Relay fault 7

Output current sensor failure 8

High voltage on PV module 9

Power down 10

DC input over current 11

GFCI failure 12

PV insulation failure 13

Inverter DC current ove

Line value consistent fail between MCU & DSP 15

GFCI sensor failure 16

Connection failure between MCU & DSP 17

Communication failure between MCU & DSP 18

Ground loss 19

Dischar

e failure 20

ime out for dischar

e soft start 21

Battery over volta

e 22

Over load 23

Page 20 of 21 Rev. A

10. Specifications

Item Specification Comments

AC input data

AC start voltage 120~140Vac

Auto restart voltage 194 Vac Tolerance ±3%

AC input voltage range 184~265 Vac

AC input voltage comeback value 194Vac / 255Vac

AC input frequency range 47.5 ～ 50.2 Hz Hz

AC input frequency comeback value 47.6Hz / 50.1Hz

Max. AC Input current 20Amp

PV input data

Max. DC Power 3200W

Nominal DC voltage 360Vdc

Max. Input voltage

(Maximum PV open voltage) 500Vdc

System start-up voltage 116V ± 10V whether PV establish control power

Initial feeding voltage 150V ±5%

Working voltage range 100(±5%) ~ 500 Vdc

(-5%+0%) Which is the DC voltage range that

inverter can feed power to grid

MPPT voltage range 250 ~ 450Vdc

Shutdown voltage <70V typical

Max. DC Input current 13Amp

Converting Power Vs PV Voltage

0.2

0.4

0.6

0.8

1.2

100 150 200 250 300 350 400 450 500

PV Voltage(V)

Converting

Power(Percentage)

The relation of input PV voltage and

output feed power is shown in figure.

Once input V is less than 250V , the

relation of I/P V and load % is

VLoad ×

4.0%

Once input V is higher than 450V ,

the relation of I/P V and load % is

VLoad )450(016.01% −×−=

Grid Output data

Nominal output voltage 230Vac

Max feeding power 3000W

Output voltage range 184 ~ 265 Vac

Output voltage comeback value 194Vac / 255Vac

Operational frequency range 47.5 ～ 50.2 Hz

Output frequency comeback value 47.6/50.1

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Omnik Omnikhyd Inverter 3KW User manual

Brand: Omnik

Model: Omnikhyd Inverter 3KW

Type: User manual

Omnik Omnikhyd Inverter 3KW

The inverter has the following features:

Comprehensive data with easy-to-read graphic design in LCD display
Ground Fault Current Interruption (RCD)
Bundled software to remote access the inverter data

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Omnik Omnikhyd Inverter 3KW User manual

Omnik Omnikhyd Inverter 3KW User manual

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