Fronius IG 30, IG 40, IG 60, IG 60 HV, IG 20 Operating Instructions Manual

FRONIUS IG
15 / 20 / 30 / 40 / 60 / 60 HV

Grid-connected inverters for
photovoltaic systems

Operating Instructions

EN

/ Battery Charging Systems / Welding Technology / Solar Electronics

42,0410,0828 010-29062016

ud_fr_st_et_00493 01/2012

EN

Dear Reader

Thank you for choosing Fronius - and congratulations on your new, technically high­grade Fronius product! This instruction manual will help you get to know your new
machine. Read the manual carefully and you will soon be familiar with all the many
great features of your new Fronius product. This really is the best way to get the most
out of all the advantages that your machine has to offer.

Please also take special note of the safety rules - and observe them! In this way, you
will help to ensure more safety at your product location. And of course, if you treat your
product carefully, this definitely helps to prolong its enduring quality and reliability - things
which are both essential prerequisites for getting outstanding results.

Introduction

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I

EN

Safety rules

DANGER!

WARNING!

CAUTION!

“NOTE!” indicates a situation which implies a risk of impaired results and

damage to the equipment.

NOTE!

This equipment has been manufactured in accordance with the state of the
art and general safety-engineering principles. Nevertheless, incorrect opera­tion or misuse may still endanger

- the life and well-being of the operator or of third parties,

- the equipment and other tangible assets belonging to the owner/operator,

- working efficiently with the equipment.

All persons involved in any way with starting up, servicing and maintaining
the equipment must

- be suitably qualified

- have good knowledge of dealing with electrical installations and

- read this instruction manual thoroughly and follow the instructions to the
letter.

The instruction manual must be kept at the machine location at all times. In
addition to the instruction manual, it is important to comply with both the
generally applicable and local accident prevention and environmental protec­tion regulations.

All the safety instructions and warning signs on the machine itself:

- must be kept in a legible condition

- must not be damaged, must not be removed

- must not be covered, pasted or painted over

General Remarks

Important!

“DANGER!” indicates an imminently hazardous situation which, if not

avoided, will result in death or serious injury. This signal word must be
limited to the most extreme situations. This signal word is not used for
hazards relating to property damage unless there is also a risk of personal
injury appropriate to this level.

“WARNING!” indicates a potentially hazardous situation which, if not
avoided, could result in death or serious injury. This signal word is not used
for hazards relating to property damage unless there is also a risk of perso­nal injury appropriate to this level.

“CAUTION!” indicates a potentially hazardous situation which, if not avo­ided, may result in minor or moderate injury. It may also be used to draw
attention to unsafe practices that may cause damage to property.

“Important!” indicates practical hints and other particularly useful informati­on. It is not a signal word for a harmful or dangerous situation.

Whenever you see any of the symbols shown above, pay close attention to
the contents of the manual!

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II

The machine may only be used for jobs as defined by the “intended purpose”.

Utilisation for any other purpose, or in any other manner, shall be deemed "not
in accordance with the intended purpose". The manufacturer shall not be
liable for any damage resulting from such improper use.

Utilisation in accordance with the “intended purpose” also comprises

- thorough reading of and compliance with all the instructions, safety in­structions and warnings given in this manual

- performing all stipulated inspection and servicing work

- installation in accordance with the instruction manual

Where appropriate, the following guidelines should also be applied:

- regulations of the power supply company for input to the grid

- information provided by the manufacturer of the solar modules

Utilisation for
Intended Purpose
Only

For information about where the safety instructions and warning signs are
located on the machine, please refer to the section of your machine’s in­struction manual headed “General Remarks”.

Any malfunctions which might impair machine safety must be remedied
immediately before the machine is switched on.

Your safety is at stake!

General Remarks

(continued)

Operation or storage of the machine outside the stipulated range is deemed
“not in accordance with the intended use”. The manufacturer shall not be
liable for any damage resulting therefrom.

Please refer to the technical data in your instruction manual for accurate
information about the permissible ambient conditions.

Ambient
Conditions

Qualified Staff The servicing information provided in this instruction manual is only intended

for qualified staff. An electric shock can be fatal. Please do not carry out any
activities other than those referred to in the documentation. This also applies
even if you are suitably qualified.

All cables and other leads must be firmly attached, undamaged, properly
insulated and adequately dimensioned. Have loose connections, scorched,
damaged or under-dimensioned cables and wires repaired immediately by
an authorised specialist company.

Maintenance and repair may only be carried out by an authorised specialist
company.

There is no guarantee in the case of parts sourced from other suppliers that
these parts have been designed and manufactured to cope with the stresses
and safety requirements that will be placed on them. Use only original spare
parts (this also applies to standard parts).

Do not carry out any alterations, installations or modifications to the machine
without first getting the manufacturer’s permission.

Replace immediately any components that are not in perfect condition.

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III

EN

Safety Precauti­ons at the Machi­ne Location

Ensure when installing machines with cooling-air vents that the cooling air can flow freely
through the air vents without obstruction. Only operate the machine with the degree of
protection specified on the rating plate.

Mains connection

High-performance devices (> 16 A) can affect the voltage quality on the mains
network because they can feed powerful current into the main supply.
This may affect a number of types of device in terms of:

- connection restrictions

- criteria with regard to maximum permissible mains impedance

*)

- criteria with regard to minimum short-circuit power requirement

*)

*)

at the interface with the public mains network

see Technical Data

In this case, the plant operator or the person using the device should check
whether or not the device is allowed to be connected, where appropriate
through discussion with the power supply company.

EMC device
classifications

Devices with emission class A:

- are only designed for use in an industrial setting

- can cause conducted and emitted interference in other areas.

Devices with emission class B:

- satisfy the emissions criteria for residential and industrial areas. This
also applies to residential areas in which power is supplied from the
public low-voltage grid.

EMC device classification as per the rating plate or technical specifications

EMC measures In certain cases, even though a device complies with the standard limit

values for emissions, it may affect the application area for which it was
designed (e.g. when there is sensitive equipment at the same location, or if
the site where the device is installed is close to either radio or television
receivers).
If this is the case, then the operator is obliged to take appropriate action to
rectify the situation.

Information on
noise emission
values

The inverter generates a maximum sound power level of <80 dB(A) (ref. 1pW)
when operating under full load in accordance with IEC 62109-1.

The device is cooled as quietly as possible with the aid of an electronic tempe­rature control system, and depends on the amount of converted power, the
ambient temperature, the level of soiling of the device, etc.

It is not possible to provide a workplace-related emission value for this device
because the actual sound pressure level is heavily influenced by the installati­on situation, the power quality, the surrounding walls and the properties of the
room in general.

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IV

Equipment with the CE mark fulfils the basic requirements of the Guideline
Governing Low-Voltage and Electromagnetic Compatibility. (More detailed
information about this may be found in the Annex or in the section of your
documentation headed “Technical Data”.)

Safety markings

The user is responsible for backing up data relating to changes made to
factory settings. The manufacturer will not accept liability if personal settings
are deleted.

Data security

Copyright to this instruction manual remains the property of the
manufacturer.

The text and illustrations are all technically correct at the time of going to
print. The right to make modifications is reserved. The contents of the
instruction manual shall not provide the basis for any claims whatever on the
part of the purchaser. We should be most grateful for your comments if you
have any suggestions for improvement, or can point out to us any mistakes
which you may have found in the manual.

Copyright

Do not dispose of this device with normal domestic waste!
To comply with the European Directive on Waste Electrical and Electronic
Equipment and its implementation as national law, electrical equipment that
has reached the end of its life must be collected separately and returned to an
approved recycling facility Any device that you no longer require must be
returned to our agent, or find out about the approved collection and recycling
facilities in your area.
Ignoring this European Directive may have potentially adverse affects on the
environment and your health!

Disposal

Danger of damage to electronic components due to electrostatic discharge.
Take appropriate protective measures when replacing and installing the
components.

ESD Protective
Measures

Electrical Installa­tions

Electrical installations may only be executed in accordance with the relevant
national and regional standards and specifications.

Only operate the machine if all its protective features are fully functional. If
any of the protective features are not fully functional, there is a danger to:

- the life and well-being of the operator or other persons

- the equipment and other tangible assets belonging to the owner/operator

- working efficiently with the equipment.

Have any safety features that are not fully functional repaired by an autho­rised specialist company before switching the machine on again.

Never bypass or disable safety features.

Safety Precau­tions in Normal
Operation

1

ENEN

Table of Contents

Safety of persons ................................................................................................................... 4

Safety............................................................................................................................ 4

Housing unit .................................................................................................................. 4

Galvanic insulation ........................................................................................................ 4

Monitoring the electrical mains network ........................................................................ 4

Photovoltaic generator .................................................................................................. 5

Mains connection .......................................................................................................... 5

DC plugs ....................................................................................................................... 5

AC plugs ....................................................................................................................... 5

The Safety Concept ............................................................................................................... 6

Standards and Regulations........................................................................................... 6

Conformity Declaration ................................................................................................. 6

General Introduction............................................................................................................... 7

How a photovoltaic system works ..................................................................................... 7

General information ...................................................................................................... 7

Your roof is your power generator ................................................................................. 7

Electricity is converted under the roof ........................................................................... 8

The FRONIUS IG Unit in the Photovoltaic System ........................................................... 9

General information ...................................................................................................... 9

Transforming DC into AC electricity .............................................................................. 9

Fully automatic operation management ........................................................................ 9

Voltage transformation and galvanic insulation ............................................................. 9

Monitoring the mains network ..................................................................................... 10

Display function and data communication .................................................................. 10

Your advantage ............................................................................................................11

Product description .............................................................................................................. 12

The FRONIUS IG Unit..................................................................................................... 12

How it functions........................................................................................................... 12

Startup phase.............................................................................................................. 12

Overview for FRONIUS IG (for indoor housing) ......................................................... 14

Overview for FRONIUS IG Outdoors .......................................................................... 15

LED for operating status ............................................................................................. 16

Operating scheme ................................................................................................................18

The Display .....................................................................................................................18

General information .................................................................................................... 18

Functions of the keys .................................................................................................. 18

Symbols ...................................................................................................................... 18

Navigating in the Display ................................................................................................. 19

Display illumination ..................................................................................................... 19

Menu level................................................................................................................... 20

Select display mode .................................................................................................... 20

Scrolling between display functions ............................................................................ 21

2

Display Modes................................................................................................................. 21

Scheme of display modes ........................................................................................... 21

Scheme of display readings ........................................................................................ 22

Display mode „Now“ .................................................................................................... 23

Display mode „Day / Year / Total“ ................................................................................ 26

The Setup Menu.............................................................................................................. 29

List of menu items....................................................................................................... 29

Display mode „Setup“ ................................................................................................. 30

Enter the setup menu ................................................................................................. 30

Scroll among menu items ........................................................................................... 30

Setting the menu items ............................................................................................... 31

Additional information........................................................................................................... 41

Upgrading the system ................................................................................................. 41

Forced ventilation........................................................................................................ 42

Installation manual ............................................................................................................. 43

Open the housing ................................................................................................................. 44

FRONIUS IG (installation of the indoor housing) ........................................................ 44

FRONIUS IG Outdoors ............................................................................................... 45

Installation ............................................................................................................................ 46

Choosing the location general .................................................................................... 46

Choosing the location - indoor housing....................................................................... 46

Choosing the location - outdoor housing..................................................................... 47

Fixing the wall mounting frame for indoor housing...................................................... 48

Fixing the wall mounting frame for FRONIUS IG Outdoors ....................................... 49

Connection ........................................................................................................................... 52

Connection to the Solar Modules and to the Public Mains .............................................. 52

Solar modules ............................................................................................................. 52

Mains network monitoring ........................................................................................... 52

Schemes with more than one inverter ........................................................................ 52

AC-side overcurrent protection ................................................................................... 53

Connection alternatives .............................................................................................. 53

1. Terminal block ......................................................................................................... 53

2. DC plug ................................................................................................................... 54

3. AC plug connection and DC plug ............................................................................ 55

4. FRONIUS IG Outdoors ........................................................................................... 57

Start up Operation ................................................................................................................ 59

Configuring your Inverter ................................................................................................. 59

Factory pre-set configuration ...................................................................................... 59

Your personal configuration ........................................................................................ 59

LocalNet ............................................................................................................................... 60

System upgrading /slot-in board system ..................................................................... 60

Data recorder .............................................................................................................. 60

COM Card ................................................................................................................... 60

Insert slot-in boards, FRONIUS IG (Installation for indoor housing) ........................... 61

3

ENEN

Configuration............................................................................................................... 62

Example ...................................................................................................................... 62

Status diagnosis and repair .................................................................................................. 64

Service-Codes Displayed ................................................................................................ 64

Service display ............................................................................................................ 64

General service codes ................................................................................................ 64

Complete failure .......................................................................................................... 65

FRONIUS IG with several power stage sets ............................................................... 65

Class 1 ........................................................................................................................ 66

Class 2 ........................................................................................................................ 67

Class 3 ........................................................................................................................ 68

Class 4 ........................................................................................................................ 69

Class 5 ........................................................................................................................ 71

Customer service ........................................................................................................ 72

Annex ................................................................................................................................... 73

Technical Data................................................................................................................. 73

Fronius IG 15 / 20 / 30 ................................................................................................ 73

Fronius IG 40 / 60 / 60 HV .......................................................................................... 74

Our product complies with the following standards and regulations ........................... 75

Warranty and Liability ....................................................................................................... 76

Fronius manufacturer's warranty ................................................................................... 76

Maintenance and disposal of obsolete equipment ............................................................ 76

Maintenance ................................................................................................................ 76

Recycling ..................................................................................................................... 76

EC-Declaration of conformity ................................................................................................ 77

4

The design and function of the FRONIUS IG unit offer a maximum of safety,
both during installation as well as in operation. A complete galvanic insulati­on between DC and AC side guarantees maximum safety.

The FRONIUS IG takes over the tasks of galvanic insulation and network
monitoring. The passive and active measures for the protection of per­sons and equipment are understood by this.

Whenever conditions in the electric mains network are inconsistent with
standard conditions (for example mains switch-off, interruption), your
FRONIUS IG unit will immediately stop operating and interrupt the supply
of power into the mains.

Your FRONIUS IG unit can monitor the situation in the mains in several
ways, by

- monitoring voltage

- monitoring cycle frequency

- ENS (optional)

The ENS option is compulsory in only a few countries, and only for them
the FRONIUS IG unit is available with this option. In any case however
will the monitoring and safety systems integrated in the FRONIUS IG unit
be available as standard equipment.

Only qualified installers are authorized to open the connection area.

Opening the connection area is only permitted when it is not under voltage.

The separately insulation encased power stage shall only be opened
when not under voltage and only by Fronius-trained service staff.

Safety of persons

Housing unit

Galvanic insu­lation

Monitoring the
electrical
mains net­work

Warning! Incorrect operation and work performed incorrectly can

cause serious injury & damage! Only qualified staff are authorized to
put your FRONIUS IG unit into operation and only within the scope
of the respective technical regulations. Do not start operation or
carry out maintenance works before you have read the chapter
„Safety Conditions“!

Safety

5

ENEN

The permanent ENS mains monitoring scheme is an additional link in its
safety chain. One of the signs by which ENS identifies abnormal situati­ons in the mains is a sudden increase of the impedance in the mains
network.

Both the permanent mains monitoring by your FRONIUS IG unit directly
as well as ENS make sure that in case of a mains blackout (due to being
switched off by the utility company or due to a defect in the transmission
line) it stops feeding power into the mains.

This scheme definitely prevents dangerous voltages at the AC lines and
constitutes an essential contribution towards avoiding hazards for the
maintenance staff.

Before connecting the solar modules, you must check whether the voltage
parameters laid down in the manufacturer’s data correspond with reality.

When checking the voltage reading, please take into account that solar
modules supply a higher no-load voltage when temperatures are low and
insolation remains unchanged.

At an outside temperature of -10 degrees centigrade the no-load voltage
of the solar modules must in no case exceed 500 V - or 530 V for the IG
60 HV. The data sheet of the solar module will tell you the temperature
factors applicable for ascertaining the theoretical no-load voltage at -10
degrees centigrade.

In case the solar modules exceed a no-load voltage of 500 V - or 530 V
for the IG 60 HV - the FRONIUS IG unit will be completely damaged and
all warranty rights will cease to exist.

Photovoltaic
generator

Only a licenced electricity installer is authorized to carry out the connec­tion works to the public mains network.

Mains connec­tion

Monitoring the
electric mains
network

(continued)

Note! If DC plugs are provided, they must never be disconnected
from the sockets of the solar modules as long as the FRONIUS IG
unit is feeding power into the mains. Before disconnecting the DC
plug you must always disconnect in the fuse for the house distribu­tion.

DC plugs

Note! Disconnect AC plug connections only when the equipment

is not under voltage, after having disconnected the fuse for the in­house distribution panel.

AC plugs

6

The Safety Concept

Your FRONIUS IG unit complies with all applicable standards and regula­tions.

They comprise in particular:

- Guideline 89/336/EEC electromagnetic compatibility

- Guideline 93/68/EEC CE-marking

- European standards EN 50 081-1, EN 50 082-2, EN 61 000-3-2

- „Guideline for parallel operation of self-owned photovoltaic generating
systems with the low voltage mains network of the utility supply compa­ny“, issued by the Association of German Electric Utility Supply Compa­nies (VDEW)

- „Technical Guidelines for parallel operation of self-owned photovoltaic
generating systems with the low voltage mains network of the utility
supply company“, issued by the Association of Electric Utility Supply
Companies of Austria

- „Safety requirements for photovoltaic energy generation plants“
(ÖNORM/ÖVE E2750), to the extent that these regulations are applica­ble for the inverter.

Standards and
Regulations

The respective conformity declarations you will find in the appendix to
these operating instructions.

Conformity
Declaration

7

ENEN

The energy from worldwide insolation amounts to a total of about
1,540,000,000,000,000,000 kWh/year (1,540 Peta kWh/year). This is

15.000 times as much as the electricity consumption worldwide. We

congratulate you on your decision to actively use world’s biggest energy
pool. By the way, it was a scientist in the field of of physics, Alexandre­Edmond Bequerel, who first discovered the photo-voltaic effect in 1839.
The name photo-voltaic comes from the driving force behind this techno­logy, which is the ray of light. The ray of light consists of unimaginably tiny
particles, the photons.

General infor­mation

How a photovoltaic system works

Let us simply start our explanation with a straight silicon solar cell. Re­membering our physics class in school, we know that there are four elec­trons in the outside electron shell of a silicon atom arranged around its
atomic nucleus, they are the so-called peripheral valency electrons. The
sunlight’s photons enter the solar cells and concentrate energy in the
valency electrons. The electron eventually separates from the silicon atom
and leaves behind it an atom with a positive charge.

So that the free electrons will flow in one direction and thus generate
electricity, the poles on the front and back side of the cell must be diffe­rent from each other.

The silicon atoms of the front must be packed with a slight quantity of
phosphor atoms which contain an additional valency electron. On the
back of the cell, atoms of boron having only three valency electrons are
added to the silicon atoms.

The result is an imbalance which makes the electrons flow, and this is
how electric power is generated.

Many such solar cells united together and packed behind glass form one
of your solar modules.

Your roof is
your power
generator

General Introduction

8

total string tension =

tension module 1, 2, ... n

The direct current generated in the solar modules can be fed into the
public mains network or put to home use after having been transformed in
an inverter.
This is the basic purpose of your FRONIUS IG unit.

Electricity is
converted
under the roof

In a parallel connection of several
such strings the potential output
and the modular electric power will
increase, while the voltage will
remain unchanged. The total of all
solar modules connected parallel
and in series is called solar genera­tor.

mod. 1 mod. 2 mod. n

string 1

string 2

string 3

+

-

Your roof is
your power
generator

(continued)

tension

module 1

Power output and voltage are
increased by combining a number
of solar cells. If solar modules are
connected in series like on a string,
both the output potential as well as
the voltage will increase.

mod. 1

mod. 2

mod. n

string

+

-

total string tension

tension

module 2

tension

module 3

9

ENEN

Your FRONIUS IG unit is the latest generation of solar inverters. It is the
highly complex link between solar modules and the public electricity
mains network.

As such it is in charge of a number of highly qualified tasks.

General infor­mation

The FRONIUS IG Unit in the Photovoltaic System

The FRONIUS IG unit transforms the direct current generated by the solar
modules into alternating current. This alternating current is fed into your
home system or into the public mains synchronically with the voltage
which is used there. The FRONIUS IG has been designed exclusively for
use in mains connected photovoltaic schemes. It cannot generate electric
power independent from the public mains network.

Transforming
DC into AC
electricity

The operation of the FRONIUS IG unit is fully automatic. Starting with
sunrise, as soon as the solar modules generate enough power, the auto­matic control unit starts monitoring voltage and frequency. As soon as
there is a sufficient level of insolation, your solar inverter starts supplying
and feeding power. A few Watts of solar power output are sufficient to
achieve this, depending on which version the unit is!

The operation of the FRONIUS IG unit ensures that at any time the maxi­mum possible power output is drawn from the solar modules.

This function is called MPPT (Maximum Power Point Tracking). It opera­tes with extremely high precision. As dusk starts there is no more suffi­cient energy available to feed power into the mains, the FRONIUS IG unit
shuts the mains connection completely and stops operating. All settings
and data recorded are of course saved.

Fully automa­tic operation
management

The FRONIUS IG has been designed for use with solar modules of a wide
range of input voltages. This allows the use of the greatest variety of
types of solar modules. Important notice: the parameters indicated for
maximum DC voltage (total voltage of the solar cells connected) must at
no time be exceeded!

By its design and operation, the FRONIUS IG offers a maximum of safety
during installation as well as in operation.

Voltage trans­formation and
galvanic insu­lation

10

The complex technical systems of innovative solar inverters make it ne­cessary to design the display which is the interface with the user very
carefully. It is an unwavering design aiming at ease of operation and
permanent availability of the system’s data.

The FRONIUS IG unit is equipped with a basic recording function for
monitoring minimum and maximum data on a daily and a cumulative
basis directly from the display. There is also an option to allow the reading
of the following weather data on the display:

- two different temperature readings (for example temperature at the
solar modules as well as the outside temperature in the shade)

- insolation

In additition to the functions installed in the FRONIUS IG unit, a wide
choice of elements offered for data communication allows for many possi­bilities of recording and visualising data. The respective components
required to upgrade the system are easy to install using the FRONIUS IG
DatCom operating instructions. The installation of system upgrades, such
as DatCom components, allows for possible remote system monitoring

Display func­tion and data
communicati­on

The FRONIUS IG unit is in charge of monitoring the mains network. This
responsibility comprises all measures necessary for the protection of
persons and machines in case of a power blackout.

The FRONIUS IG unit is programmed to stop operation immediately and
stop supplying power whenever conditions in the mains network deviate
from standard (for example when power is switched off or in case of any
other kind of interruption).

There are several ways how the FRONIUS IG unit can identify a mains­cutoff, it can do so for example by monitoring:

- voltage

- frequency

- resistance (only FRONIUS IG with ENS)

For this purpose it is important that the specific monitoring procedures
applicable for the respective countries are carried out directly by the FRO­NIUS IG unit without the use of additional electronic monitoring devices.
This will result in a substantial reduction of the installation work and cost.

Monitoring the
mains network

The FRONIUS IG is equipped with an HF-transformer (HF = high frequen­cy) which assures a galvanic insulation between the DC side and the
mains. In addition, the HF principle results in a drastic reduction of the
transformer’s size, which means that it requires less space and has consi­derably less weight. In spite of its full galvanic insulation, the FRONIUS IG
unit achieves a high degree of efficiency, due to its innovative circuit
schemes.

Voltage trans­formation and
galvanic insu­lation

(continued)

11

ENEN

With each additional task, as described above and controlled directly by
the inverter, installation becomes easier and less costly because no addi­tional peripheral equipment will be required. Based on our experience and
the use of the most innovative technologies, the FRONIUS IG unit is able
to manage all these tasks simultaneously.

In addition, the FRONIUS IG unit complies with a whole number of requi­rements established for the safety of people and other household ap­pliances, as well for its own safety.

Some of these requirements are:

- ability to monitor the mains network

- the quality of the electricity supplied

- detection of outside disturbance and interference (for example mobile
telephones).

Annexed you will find the respective certificates.

Your advan­tage

Display func­tion and data
communicati­on

(continued)

via modem, text messages to mobile phones in the event of faults, data
visualisation and data comparison on the PC.

12

Product description

The FRONIUS IG Unit

The FRONIUS IG unit is designed for fully automatic operation. Basically
no personal control is necessary for feeding the power it generates into
the mains network.

The FRONIUS IG unit starts operating automatically as soon as the solar
modules produce sufficient power output after sunrise. From this point
onwards, you will also receive system information from the FRONIUS AG
graphic display.

During its operation the FRONIUS IG unit maintains the voltage of the
solar modules at any time within the range of optimal power withdrawal.

- the optimal voltage for any particular status of operation of the solar
modules is called MPP voltage (MPP = maximum power point)

- exactly maintaining the MPP voltage guarantees an optimal level of the
efficiency factor of your solar modules at any time (MPP-tracking).

As soon as dusk begins there is no more sufficient energy available to
feed into the mains network, the FRONIUS IG unit fully shuts off the
mains connection.

- during the night the FRONIUS IG unit does not draw any energy from
the public mains

- the data and parameters set remain available

- it is also possible to shut the unit off manually

How it func­tions

After having switched on automatically, the FRONIUS IG unit goes throu­gh a self-test, and after that through a test of the public mains network.

This test takes between only few seconds up to several minutes, depen­ding on the regulations in your country. During startup the LED illuminati­on is yellow.

(1) Segment test

- all display elements light up for about one second

(2) TEST

- self test of important components of the FRONIUS IG unit

- The FRONIUS IG unit goes through a master check list for a period
of only a few seconds

- the display says „TEST“ and indicates the respective component
which is being tested (for example „LED“)

Startup phase

13

ENEN

Startup phase

(continued)

(4) Startup test

- Before the FRONIUS IG unit starts supplying power into the mains,
the conditions of the mains network are tested in detail in accor­dance with the regulations of your country.

- the screen displays „STARTUP“

Depending on the regulations of each country, the startup test can take
between just a few seconds up to several minutes. The time elapsed is
indicated by a bar shrinking from top down.

(5) Synchronisation ENS (option)

- if the FRONIUS IG unit is equipped with the ENS option, every
detail of the ENS will be tested and synchronized

- the screen displays „SYNC

ENS

“

Depending on the operating status of the ENS, test and synchronization
may take up to several seconds.

(6) Operation of feeding power supply into the mains network

- After termination of the tests, the FRONIUS IG unit starts feeding
power into the mains network.

- The LED lights up green, and the FRONIUS IG unit starts operating

Whenever two scale divisions stop flashing and disap­pear, 1/10 of the total duration of the test is over

(3) Synchronisation with mains

- The screen displays „SYN­C

AC

“

- „WAITPS“ is displayed: The
FRONIUS IG is waiting for all
power supplies in the network
to be on stand-by. This proce­dure takes place dependent
on the DC-voltage.

- „SYNCAC“ is displayed subse­quently.

14

(1) storage area for operation and installation manual

(2) ventilation grill

(3) LED for operation status

(4) display

(5) keyboard

(6) slot -in board area

(7) various versions of connection plate

(8) connection area - to be opened only by licensed electricity installers

(9) power stage, separately insulation encased - to be opened only by

Fronius trained service staff

Overview for
FRONIUS IG
(for indoor
housing)

(9)

(2)

(6)

(7)

(5)

(4)

(3)

(8)

(1)

15

ENEN

(1) tightening screws for housing

(2) cooling bonnets

(3) LED for operation status

(4) display outside

(5) keyboard outside

(6) covering for AC connection and slot-in board area

(7) connection rail Multicontact

(8) cover slide to protect the buttons and the display from the sun’s rays.

Note! We recommend that the cover slide is pushed in front of the
display in cases of direct sunshine.

Overview for
FRONIUS IG
Outdoors

(7)

(1)

(1)

(2)

(1) (6)

(3)
(4)
(5)

(2)

(8)

16

Depending on the operating status, the LED assumes different colours

(1) LED lights up green:

- a green light starts as soon as the FRONIUS IG unit has completed
the startup phase, it stays green as long as the operation of feeding
power into the network continues

- it indicates faultless operation of the photovoltaic equipment

(2) LED flashes green:

- as long as the photovoltaic equipment is operating without fault

- and an additional message is displayed on the screen

Note! A message appears for example if there is an insulation
fault, which however does not affect the function of the FRONIUS
IG. However for safety reasons we recommend that the insulation
fault is remedied as soon as possible.
Depending on the country setup, the inverter can also disconnect
from the public grid when there is an insulation error and stop
feeding energy into the grid.

The FRONIUS IG with display shows a status message. A message is
displayed in the FRONIUS IG.access software for the FRONIUS IG wit­hout display.

If a message (e.g. „502“, Section „Status diagnosis and remedy) is shown,
rectify the relevant status and acknowledge this by pressing the „Enter“
button.

(3) LED lights up orange:

- The FRONUS IG unit will enter the automatic startup-phase, as soon
as after sunrise the photovoltaic modules yield sufficient power output

LED for opera­ting status

LED

17

ENEN

(4) LED flashes orange:

- when a warning is being displayed on the screen

- or the FRONIUS IG unit has been set to standby operation in the
setup menu = manual shutoff of power supply operation

- after the next day sunrise, power supply operation will be resu-

med automatically

- during the time while the orange LED keeps flashing, the power

supply operation can be resumed manually at any time (see
chapter „Setup Menu“)

(5) LED lights up red:

- general status: the respective service code is displayed on the
screen
Inverter does not feed energy into the public grid.

A list of all service codes, the corresponding status informations, their
status causes and repair measures can be found in the chapter „Sta­tus Diagnosis and Repair“ of the installation and service manual.

(6) LED remains dark:

- there is no connection to the solar modules

- no power output from module due to darkness

LED for opera­ting status

(continued)

18

Symbols

(5)

(7)

(9)

(11)

(12)

(8)
(6)

(10)

(4)

(2)

(1) (3)

Operating scheme

The Display

Key (A) and (B):

- for scrolling

key (C):

- for switching to the menu level
(„Menu“) or exit from the setup
menu („Esc“) key „Enter“ (D):

- for confirming a choice

Functions of
the keys

(C) (D)(B)(A)

The FRONIUS IG unit is pre-configured to be ready for operation, therefo­re it is not necessary to make any adjustments in order to be able to get it
to operate fully automatic and feed power into the mains.

The display is powered by the solar module and is therefore available
throughout the day.

Important! The display of the FRONIUS IG is not a calibrated measuring
device. A slight deviation by a few percent is inherent in the system.
Therefore, a calibrated meter is required for accurate settlement of data
with the electricity supply company.

General infor­mation

(1) symbols for keys (A) through (D)

(2) symbols for the display modes „Now“ through „Setup“

19

ENEN

Symbols

(continued)

Press any key to activate the display lighting. If no key is pressed during
30 seconds, the display lighting stops. At the same time the setup menu
offers a choice between permanently lit or permanently dark display.

Display illumi­nation

Navigating in the Display

(3) area for data display ... for displaying the data value measured

(4) area for unit display ... for displaying the measuring unit applicable

(5) segment bar ... indicates at any time the power output fed into the

mains at a given time - independent from the display mode chosen.
The screen displays % of the maximum possible power supply out
put of your solar inverter

(6) ... appears with data readings which are directly related to the

public mains network

(7) ... appears with data readings which are directly related to

the solar modules

(8) ... appears with data readings which are related directly to the

FRONIUS IG unit

(9) ... appears with data readings which are related to environment

conditions, like insolation and temperature (optional)

(10) ...appears with data readings which are transmitted by the con-

sumption sensor (optional)

(11) Max ... the data reading indicates the maximum within the period of

observation (depending on the display mode chosen)

(12) Min ... the data reading indicates the minimum within the period of

observation (depending on the mode of display chosen)

Important! The Min. and Max. values do not correspond to the absolute
extreme values, as the measuring data value capture takes place at two
second intervals

20

(D)

Select display
mode

- move into the menu level

- select the desired display mode
(1) to (4) by pressing keys (A) or
(B)

- enter the display mode selected:
press key „Enter“ (D)

Note! for the menu item
„Year“ a real time clock is
required. The menu item
„Year“ is only supported
when the option data recor­der is connected. This
system upgrade is equipped
with a real time clock.

(1) (2) (3) (4)

(A) (B) (D)

(A)

(B)

From the menu level you enter the
display mode or the setup menu.
Move into the menu surface by
pressing key (C)

Menu level

(C)

(C)

- the screen displays „Menu“

- the display is operating in the
menu level

21

ENEN

Display Modes

Scheme of
display modes

The following display modes are available:

display mode „Now“ ...shows present data

display mode „Day“ ... shows data for supply into the mains for the

current day

display mode „Year“ ...shows data for supply into the mains in current
calendar year - only in combination with data recorder option

display mode „Total“ ... shows data for supply into the mains since your
FRONIUS IG unit has been first operating

Scrolling
between dis­play functions

(A) (B) (A) (B)

- select the desired display mode (see above)

- scroll between the display functions available with keys (A) or (B)

(A) (B)

22

Mode „Now“ Mode „Day“ / „Year“ / „Total“

output supplied

(W)

energy supplied

(kWh / MWh)

voltage

(V)

electricity supplied

(A)

mains frequency

(Hz)

* mains impedance

(Ohm)

module voltage

(V)

module power

(A)

* module temperature

(°C;alternatively also °F)

insulation resistance

(MOhm)

yield

(set applicable currency)

power output supplied (maxim.)

(W)

* energy as read by consumption

meter

(kWh / MWh)

CO2-reduction

(kg / t)

mains voltage (maximum)

(V)

* module temperature (maximum)

(°C; alternat. also °F)

mains voltage (minimum)

(V)

* module temperature (minimum)

(°C; alternat. also °F)

* output reading of consumption

meter

(W)

* ambient temperature

(°C; alternnatively also in °F)

* insolation

(W/m²)

* insolation (maximum)

(W/m²)

* ambient temperature(maximum)

(°C; alternat. also °F)

* ambient temperature( minimum)

(°C; alternat. also °F)

* time

(HH:MM)

Scheme of
display rea­dings

The following scheme contains a brief list of the display readings available.

Display readings without footnote are shown when the setting „standard“
is chosen (factory setting).

* optional - if the required option card is not available, the message

„N.A.“ (nicht angeschlossen = not connected) is displayed.

module voltage (maximum)
(V)

operating hours of FRONIUS IG
unit

(HH:MM)

23

ENEN

* mains impedance ... resi-

stance of mains - parameter for
safe power supply to mains
(Ohm; optional ENS)

The resistance of the local low voltage mains up to the next transformer
station is metered.

Whenever the local low voltage mains network is switched off for repair
works, the mains impedance will increase substantially, in this case the
FRONIUS IG unit will interrupt power supply for safety reasons.

power supplied ...power
supplied to mains at the parti­cular moment (Ampere)

power supplied .. power
supplied to mains at this mo­ment (Watt)

- for the next item press key (B)

- to scroll back press key (A)

mains frequency

(cycles)

mains voltage

(Volt)

(A) (B)

Display mode
„Now“

Displays present readings

- select display mode „Now“ (chapter „The Display“)

- the first display function of the display mode „Now“ appears

* optional - in case the card for the required option is not available, the

message „N.A.“ is displayed

24

isolation resistance of photo­voltaic generator (MOhm)

* module temperature ... tem-

perature at solar modules
(degrees centigrade; can also
be set for degrees Fahrenheit;
temperature sensor No.1;
sensor card optional)

module power ... power supp­lied by solar modules at the
moment of data display (Am­pere)

The FRONIUS IG unit keeps the module voltage always within the range
of the maximum possible power withdrawal from the solar modules. This
results in the optimum for the module electricity.

Isolation resistance is the resistance between the positive pole or the
minus pole of the photovoltaic generator and the grounding potential.
Whenever an isolation resistance higher than 500 kOhm is shown, the
photovoltaic generator is sufficiently insulated.

Warning! An isolation resistance < 500 kOhm can be caused by an
insufficiently insulated DC cable or by defective solar modules. In
case of an insufficient isolation resistance you must in any case
contact your Fronius service partner.

Important! Only an isolation resistance of less than 500 kOhm indicates
that there is an error. Whenever a higher insulation reistance is shown it is
not to be interpreted as an error.

Whenever there is an isolation resistance of less than 10 MOhm, the
display differentiates between the negative potential and the earthing
(minus sign „-“) and the positive potential and the earthing (plus sign „+“)

module voltage... voltage in
the solar modules at the mo­ment of data display

The voltage indicated during power supply into mains is equal to the so­called MPP voltage (MPP = maximum power point). The FRONIUS IG
unit keeps the module voltage always within the maximum possible power
output withdrawal from the solar modules. This always guarantees an
optimum efficiency performance of your photovoltaic generator..

Display mode
„Now“

(continued)

25

ENEN

* time of the day (data recorder

is optional)

* power output drawn from

mains supply... present con-

sumption (Watt; sensor card
optional)

* ambient temperature (°C;°C;

can also be set for °F in setup
menu; temperature sensor
Nr.2; sensor card optional)

Display mode
„Now“

(continued)

* insolation ... insolation power

output impact per square meter
(Watt/m²; sensor card option)

Display example for positive poten­tial (sign „+“)
Short circuit between DC+ line and
earth

Display example for negative po­tential (sign „-“)
Short circuit between DC- line and
earth

26

Display mode
„Day / Year /
Total“

Display mode „Day“ ... shows readings for mains supply feed-in of current
day

Important! For the FRONIUS IG unit, the day begins with the moment it
switches on. In case the DC supply line is disconnected, the following
parameters will be re-set after repeating the start-up:

- power supplied (kWH)

- yield (currency can be selected)

-CO

2

-reduction (kg)

- maximum power supplied (Watt)

- maximum mains voltage(Volt)

- minimum mains voltage (Volt)

- energy drawn from mains supply (kWh)

- operating hours for FRONIUS IG unit

The information given above does not apply for the data recorder option.
If the data recorder option is available the display values listed always
apply for the whole of the mains supply feed day.

Display mode „Year“ ...shows readings of power supply for the current
calendar year (only in conjunction with data recorder)

Display mode „Total“ ...shows readings of power supply since original start
of operation of the FRONIUS IG unit.

- select display mode „Day“ / „Year“ / „Total“ (chapter „The Display“)

- the first display function of the display mode selected will appear

* optional - in case the required sensor card is not available, the mes-

sage „N.A.“ is displayed.

27

ENEN

CO2-reduction ... CO2 emissi-
on saved during monitored
period (kg/t)

Maximum mains voltage ...
highest reading of mains volta­ge (V) during observation
period

Yield ... money earned during
period monitored (set currency
in setup menu)

Important! As was the case for the energy supplied, also here readings
may differ from those of other instruments.

Chapter „Setup Menu“ tells how to set currency and rate applicable for
invoicing. The factory setting is 0,48 Euro/kWh.

Energy supplied ... energy
supplied during period monito­red (kWh / MWh)

Due to different monitoring systems there can be deviations in compari­son with readings of other metering instruments. For invoicing of the
energy supplied only the readings of the calibrated meter supplied by the
electric utility company are relevant.

- press key (B) for next item

- to scroll back press key (A)

Display mode
„Day / Year /
Total“

(continued)

Indication of CO2 emission (in kg/t) which would be released during gene­ration of same amount of electricity in a thermal power station. Set for
0,59 kg/kWh in the factory (source of information: DGS - German Society
for Solar Energy).

Maximum power input ..
highest power input into main
during observation period (W)

(A) (B)

28

* minimum temperature at

module...lowest temperature

reading at solar modules du­ring observation period (°C;
can also be set for°F in setup
menu; temperature sensor No.
1; applicable for sensor card)

Minimum mains voltage...

lowest reading of mains volta­ge (V) during observation
period

* maximum temperature at

module... highest temperature

reading at solar modules du­ring observation period (°C;
can also be set for°F in setup
menu; temperature sensor No.
1; applicable for sensor card)

* Energy consumption meter

reading

energy consumed during ob­servation period (kWh / MWh;
applicable for consumption
sensor)

Display mode
„Day / Year /
Total“

(continued)

* maximum ambient tempera-

ture ... highest temperature

reading during observation
period (°C; can also be set for
°F in setup menu; temperature
sensor No. 2; applicable for
sensor card)

* minimum ambient tempera-

ture...lowest temperature

reading at solar modules du­ring observation period (°C;
can also be set for °F in setup
menu;temperature sensor No2;
applicable for sensor card)

Maximum module voltage...
highest reading of module
voltage (V) during observation
period

Note! Fit the temperature
probe on the rear side of
the solar module.

29

ENEN

operating hours ... duration of
operation of FRONIUS IG unit
(HH:MM)

* maximum insolation... high-

est insolation during observati­on period (W/m²; sensor card
optional)

Display mode
„Day / Year /
Total“

(continued)

Duration of operation is shown in hours and minutes upto 999 h and 59
min (display: „999:59“). From then on only full hours are displayed.

Although the FRONIUS IG unit is not operating during the night, all data
required for the sensor card option are monitored and saved around the
clock.

The following brief scheme shows the menu items provided for readju­sting preset parameters of the FRONIUS IG unit

The Setup Menu

List of menu
items

Standby

Contrast

LightMode

currency

Enter

0 ... 7

AUTO ON

Cash

OFF

rate / kWh

01 ... 99 (100. FRONIUS IG = 00)

IG-NR

DatCom

Error

OKCom

Time

Time

Version

Date

MainCtrl

PS01

ENS

SIGCD_TEST

State_PS

Status display - power stage sets

Extended

Iso_Warn

ON OFF

30

Display mode
„Setup“

The setup menu allows easy readjustment of the preset parameters of the
FRONIUS IG unit in order to adapt to your needs and requirements in the
best possible way.

(D)

Enter the
setup menu

- move to to the menu level (chap­ter „Navigating in the Display“)

- select mode „Setup (5)“ with keys
(A) or (B)

- enter the mode „Setup“ (5) :
press key „Enter“ (D)

(1) (2) (3) (4) (5)

(A) (B) (D)

(A)

(B)

- „Standby“, the first item on the
menu, is displayed

Scroll among
menu items

(A) (B) (A) (B)

- select the desired display mode (see above)

- scroll with keys (A) or (B) among the menu items available

(A) (B)

31

ENEN

- „Standby“ ...activate/deactivate
the standby operation by pres­sing the „Enter“ key

(D)

The menu item „Standby“ allows manual activation of the standby operati­on of the FRONIUS IG unit.

During standby operation the electronic system of the power stage is
switched off. No power is fed into the mains. There is an orange flash on
the LED. The following message is flashed intermittently on the screen::

„STANDBY“ „ENTER“

- The orange flashing LED stops with dusk arriving.

- After the subsequent sunrise, the power supply operation into the mains
is resumed automatically (after termination of the startup phase the
LED is illuminated green)

- mains supply operation can be resumed at any time whenever the LED
is flashing orange (deactivate „standby“)

- LED with green light: activate „standby“ =manual shutoff of operation
supplying power into mains system:

- press key „Enter“ (D)

- LED with orange flash: deactivate „standby“ = resuming operation
supplying power into mains system

- press key „Enter“ (D)

Setting the
menu items

32

(D)

(A)

(B)

(C) (D)

(C) (D)

...

- „Menu Mode“ ... cannot be
selected

- „Contrast“ ... set contrast on
LCD display

- enter „Contrast“: press key „En­ter“ (D)

As contrast depends on tempera­ture, it may be necessary to adjust
the menu item „Contrast“ when
ambient conditions change.

Settings for minimum possible
contrast (0) upto maximum possib­le contrast (7):

- accept: press key „Enter (D)“

- maintain previous setting: press
key „Esc“ (C)

- select from settings „0“ to
„7“ - press key (A) or (B):

(C) (D)

(C)

33

ENEN

(D)

- „Light Mode“ ... pre-setting of
display illumination

- to enter „Light Mode“: press key
„Enter“ (D)

(A)

(B)

(C) (D)

(C) (D)

(C) (D)

- To switch between settings
Auto 1., On 2. and Off 3.

- press keys (A) or (B):

(A)

(B)

(C) (D)

- „Cash“ ... setting of currency
and rate for invoicing the energy
supplied

- enter „Cash“ by pressing key
„Enter“ (D)

(C) (D)

(D)

1

Important! These instructions are only applicable for the display back­ground illumination. It is not necessary to deactivate the display itself
because its energy consumption is less than one mW (1/1000 W).

2

1.The display illumination will stop
30 seconds after the last time a
key has been pressed

- accept: press key „Enter“ (D)

- maintain previous setting: press
key „Esc“ (C)

2.The display will remain perma­nently illuminated for the duration
of the operation of power supply
into the mains

- accept: press key „Enter“ (D)

- maintain previous setting: press
key „Esc“ (C)

3.The display illumination will be
permanently off:

- accept: press key „Enter“ (D)

- maintain previous setting: press
key „Esc“ (C)

34

(B) (D)

2.Enter rate per kWh according
currency selected (preset rate:
0,48 EUR/kWh)

- first digit starts flashing

- select a figure for the first digit by
pressing key (A) or (B)

- confirm by pressing key „Enter“
(D)

- next digit starts flashing

- for subsequent digits, follow
same procedure as described
above for first digit

(A)

(B)

1. Enter currency (factory pre-set
for EUR)

- first digit starts flashing

- select a character for the first
digit by pressing key (A) or (B)

- confirm by pressing key
„Enter“(D)

- next digit starts flashing

1

- follow same procedure as descri­bed above for subsequent digits

- accept the currency selected by
pressing key „Enter“ (D)

- to maintain previous setting,
press key „Esc“ (C)

(A)

(B) (D)(A)

(C)

(D)

- decimal point starts flashing

- move the decimal point to the
position desired by pressing keys
(A) or (B)

- accept the rate set by pressing
key „Enter“ (D)

- to maintain previous setting,
press key „Esc“ (C)

(B) (D)(A)

(B)(A)

...

... ...

...

2

Note! numbers between
000,1 and 99,99 may be
selected

(D)

(D)

(D)

(D)

(D)(C)

(C)

(C)

(C)

35

ENEN

- „IG-NR“ ...Setting the number
(=address) of the FRONIUS IG
unit in a setup comprising more
than one photovoltaic inverter
linked with each other

- enter „IG-NR“ by pressing the
key „Enter“ (D)

(D)

(B)

enter address (01 ... 99)
(factory setting: 01)

- first digit starts flashing

- select a figure for the first digit by
pressing key (A) or (B)

- confirm with key „Enter“ (D)

- subsequent digit starts flashing

(A)

(B) (D)(A)

- for second digit follow procedure
as described above for first digit

- accept the IG-No. selected: press key „Enter“ (D)

- maintain previous setting: press key „Esc“ (C)

Note! Allocate an own address to each FRONIUS IG when con­necting several FRONIUS IG into a data communication network
using data recorders.

It is important to give each FRONIUS IG an own address, so that the data
recorder can differentiate between the individual static inverters. If two
FRONIUS IG are in the system with the same address, they cannot com­municate with the data recorder. Set another address on the FRONIUS IG
showing the status-message 504.

(D)

(D)(C)

(C) (D)

36

(C) (D)

(D)

If a successful data link has been
set up then „OK

COM

“ is displayed.

„Error“ is displayed if DatCom is
not installed or the data link is
not functioning correctly.

(B)(A) (B)(A)

Signal Card active

- The Signal Card‘s acoustic signal sounds for confirmation.

Important! Check the signal lines if the signal fails to sound.

Signal Card not installed

(D)

(C)

(C)

(B)

- Start the Signal Card test by
pressing the „Enter“ key (D)

(D)

- Press key (B) to call up the Sig­nal Card test

37

ENEN

Important! The menu item „Year“ is
only supported when the option
data recorder is connected.

- „Time“ ... setting of date and
time

- enter „Time“ by pressing key
„Enter“ (D)

1.Enter date (e.g.: 03.10.2003)

- first digit starts flashing

- select a character for the first
digit by pressing key (A) or (B)

- confirm by pressing key „Enter“
(D)

- next digit starts flashing

- follow the same procedure as
described above for subsequent
digits

- accept the date selected by
pressing key „Enter“ (D)

- to maintain previous setting,
press key „Esc“ (C)

(C) (D)

(D)

(B)(A)

(B) (D)(A)

(D)(C)

(C)

(D)

(D)

2.Enter time (e.g.: 15:47)

- first digit starts flashing

- select a figure for the first digit by
pressing key (A) or (B)

- confirm by pressing key „Enter“
(D)

- next digit starts flashing

- for subsequent digits, follow
same procedure as described
above for first digit

- accept the time set by pressing
key „Enter“ (D)

- to maintain previous setting,
press key „Esc“ (C)

(B)(A)

(B) (D)(A)

(D)(C)

(C)

(D)

38

(D)

2x

(D)

(C)

(D)

(A)

(B)

(D) (C)

(D)

- „Extended“ ... Isolation warning
activation and deactivation

- Press „Enter“ (D)

- Isolation warning menu display

- Press „Enter“ (D)

- Use button (A) or (B) to selected
the „Off“ or „On“ setting

- Press „Enter“ (D) to apply the
setting

When the setting is „Off,“ the „State
502“ Isolation warning is deactiva­ted.

„Off“ is recommended for solar
modules with a high ohm grounded
DC+ and DC- connection.

39

ENEN

- The display for the first power
stage set (PS00) re-appears

- Change over to the second po­wer stage set by pressing key (B)

- In this case for example the
second power stage set (PS01)
is on „Run“

- „Run“ means intact delivery of
electricity to the public mains

- Press „Enter“ key (D)

(B)

(D)

(B)

(D)

Alternately

- Display of the most recently

stored service code (e.g. „State---

-“)

Important! The most recently
stored service code and the display
„State Load“ appear alternately.

- Escape: Press „Esc“ key (C)
twice

(C)

2x

(D)

(D)

- „STATE_PS“ ... Status display of
power stage sets

- Press „Enter“ key (D)

- In this case for example the first
power stage set (PS00) is on
„Standby“

- „Standby“ means no electricity is
being fed into the public mains

- Press „Enter“ key (D)

(D)

(D)

Alternately

- Display of the most recently
stored service code (e.g. „State
406“)

Important! The most recently
stored service code and the display
„State Load“ appear alternately.

- Press „Esc“ key (C)

(C)

(C)

Important! Status displays 306 (Power Low) and 307 (DC-Low) appear
naturally every morning and evening due to low solar irradiation. These
status messages are not the result of a fault.

40

(D)

- „Version“ displays version num­ber and serial number of the IG
control unit and the power stage

- enter „Version“by pressing key
„Enter“(D)

1. For displaying version number of
the IG control unit : press key
„Enter“ (D)

- exit by pressing key „Esc“ (C)

- to switch into display of serial
number for the IG control unit:
press keys“ (A) or (B)“

- exit with key „Esc (C)“

(A)

(B)

(C) (D)

- To switch between displays
MAIN

CTRL

1., PS01 2. and ENS

3. - press key (A) or (B)

display
version number

display
serial number

(B)(A)

(C)

3.To display type number of ENS:
press key „Enter“ (D)

- exit with key „Esc“ (C)

- to switch into display of version
number for ENS:
press keys (A) or (B)

- exit with key „Esc“ (C)

Note! in case the FRONIUS
IG unit is not equipped with
the ENS option, type num­ber and version number
cannot be displayed.

- after the „Enter“ key (D) has
been pressed, the message
„N.A.“ is displayed on the screen

- exit by pressing key „Esc (C)“

(C) (D)

display
type number

display
version number

(B)

(A)

(C)

2.To display version number of
power stage, press key „Enter
(D)“ - exit with key „Esc (C)“

- to switch into display of serial
number of the power stage,
press keys „(A) or (B)“ - exit with
key „Esc (C)“

(C) (D)

display
version number

display
serial number

(B)

(A)

(C)

(A)

(B)

2

41

ENEN

For an unlimited individual use of system upgradings, Fronius has de­veloped the LocalNet. LocalNet is a data network which allows linking
more than one FRONIUS IG units with the system upgrade elements.

LocalNet is a bus system. One single cable is sufficient to allow communi­cation between one or several FRONIUS IG units with all system upgrade
elements. This reduces the cable requirement to a minimum.

Upgrading the
system

For increased flexibility, all upgradings are also available in a version with
external housing

Additional information

The FRONIUS IG unit is prepared for a whole series of system upgrades,
such as:

- for communicating between FRONIUS IG and outside system extensi­ons, for example with other FRONIUS IG units

- Data logger (for recording and managing data from your photovoltaic
system by PC) including datalogger and modem connection

- Various large displays (FRONIUS IG Public Display)

- Actuators / Relays / Alarm (FRONIUS IG Signal Card)

- Sensors (Thermo sensors / Irradiance / Metering)

The system upgrades are offered in slot-in boards, similar to those on
your personal computer.

42

The FRONIUS IG unit is equipped with a temperature and rotation con­trolled air circulator which provides for the following features:

- smaller heat sinks - more compact housing

- components are better cooled - efficiency increases / longer life

- least possible energy consumption / noise level, due to rotation control
and ball bearing support

- should there not be sufficient heat discharge in spite of maximum rotati­on of the ventilator (for example no adequate heat transfer away from
the control panels) the power will be derated for auto-protection of the
FRONIUS IG unit.

- derating the power reduces the output of the FRONIUS IG unit for a
short period sufficient to ensure that the temperature will not exceed
the admissible parameter.

- your FRONIUS IG unit will remain ready for operation as long as
possible without any interruption.

- Even if the FRONIUS IG is frequently used at full load the fan can
be expected to last approx. 20 years.

Forced venti­lation

Please take further details from the chapter „LocalNet“ of the installation
and service manual.

Upgrading the
system

(continued)

43

ENEN

Installation manual

44

Open the housing

Warning! Hazard due to supply voltage and DC-voltage from the

solar modules. Only licenced electricity installers are authorized to
open the connection area. Only Fronius-trained service staff are
authorized to open the separately insulation-enclosed power stage
on condition that it is not under voltage.

Opening connection area

FRONIUS IG
(installation of
the indoor
housing)

- insert screwdriver into the borehole (1) at the bottom of the FRONIUS IG

- unlock cover (2) of connection area by lifting the screwdriver carefully at
the end of its handle

- pull cover (2) of connection area downwards and away

Important! To close the connection area put on cover (2) and push it
forward until it reaches the locking position.

1.

2.

(1)

(2)

(2)

45

ENEN

(3) connection section is open
(4) power stage

Warning! Hazard due to
supply voltage and DC-volta­ge from the solar modules.
Only Fronius-trained service
staff are authorized to open
the separately insulation­enclosed power stage

(3) (4)

(5)

- loosen four screws (1)

- remove cover (2)

- loosen securing screw (5) and remove wall mounting frame

FRONIUS IG
Outdoors

FRONIUS IG
(installation of
the indoor
housing)

(continued)

(2)

(1)

(1)

46

The FRONIUS IG unit can only be installed inside buildings or on outside
locations provided that they are protected from rain or snow.

- During certain operation phases the FRONIUS IG unit may develop a
slight noise level, for this reason it should not be installed in the immedi­ate vicinity of living areas

- the FRONIUS IG unit is not to be set up in areas where there is heavy
dust development

- the FRONIUS IG unit is not to be set up in areas where there is heavy
incidence of conducting dust particles (for example iron filings)

- the FRONIUS IG unit is to be installed at a height which keeps the
display slightly below the position of your eyes in order to secure best
possible readability of the display.

- The distance between the top edge of the FRONIUS IG and the ceiling
should be approx. 30 cm.

Do not install the inverter in:

- areas with large amounts of dust

- areas with large amounts of conducting dust particles (e.g., iron filings)

- areas with corrosive gases, acids or salts

- areas where there is an increased risk of accidents, e.g., from farm
animals (horses, cattle, sheep, pigs, etc.)

- stables or adjoining areas

- storage areas for hay, straw, chaff, animal feed, fertilizers, etc.

Choosing the
location ­indoor hou­sing

Installation

Make the best possible use of your FRONUS IG unit by additionally ob­serving the following conditions:

- mains impedance should not be unnecessarily increased by a too nar­row AC conductor cable cross section between the FRONIUS IG unit
and the in-house distribution panel. The AC conductor cable resistance
between the FRONIUS IG unit and the house distribution panel must
not exceed 0,5 Ohm.

- install it only on a solid vertical wall

- The ambient temperature should not be under minus 20 degrees or
over 50 degrees centigrade.

- No objects must be located within a distance of 15 cm around the air
vents on both sides of the FRONIUS IG unit

- Keep a lateral distance of 20 cm between individual FRONIUS IG units.

- The air flow direction within the inverter is from left to right (cold air
intake left, hot air exit right).

- When installing the FRONIUS IG unit in a switch panel cabinet (or
similar closed sections) it is necessary to make sure that the hot air
which develops will be discharged by forced ventilation.

Choosing the
location gene­ral

47

ENEN

- The IP 45 protection system means that the FRONIUS IG can be ex­posed to moisture. However we recommend if possible that direct mois­ture is avoided.

- In spite of the IP 45 protection system the FRONIUS IG Outdoors
should if possible not be exposed to the effects of the sun as there is no
display film worldwide that is resistant to UV-Rays over a period of time.
However to achieve a long life the FRONIUS IG Outdoors has an exteri­or casing and a display with a cover slide.

- The protection of the display unit provided by the cover slide also incre­ases the life of the film. (The ideal situation is choosing a partially pro­tected fitting position for the FRONIUS IG Outdoors with exterior casing
e.g. in the area of the solar module, or under a projecting roof).

- FRONIUS IG can be installed vertically as well as horizontally - accor­ding to chapter „Fixing the wall mounting for FRONIUS IG Outdoors“.

- For use in environments with heavy dust development: If necessary
remove the fan plates and clean the integrated fly screen

Do not install the inverter:

- where it can be exposed to ammonia, corrosive gasses, acids or salts
(e.g., fertilizer storage areas, vent openings of livestock stables, chemi­cal plants, tanneries)

Choosing the
location ­outdoor hou­sing

Choosing the
location ­indoor hou­sing

(continued)

- storage or processing areas for fruit, vegetables or winegrowing pro­ducts

- areas used in the preparation of grain, green fodder or animal feeds

- greenhouses

48

Important! Dowels and screws are
not included as there are too many
different types on the market to suit
different wall surfaces.

- fix wall mounting frame (1) with
suitable screws (2) and dowels
(3) on to a solid base.

- Open the connection area of the
FRONIUS IG unit (chapter „Ope­ning the Housing“)

(4)

Caution! There is a danger of the machine toppling over. Hang the
FRONIUS IG unit into the wall mounting frame and secure it with
screw (4) in the connection area.

- install AC and DC cable as described in chapter „Connection“.

- close connection area and mount cover by means of tightening screw.

The housing is designed for a cable channel of up to 50 mm height which
can be located directly below the connection area, without

- cables visible below the FRONIUS IG unit

- impairing access to the connection area and the slot- in board area

Fixing the wall
mounting
frame for
indoor hou­sing

(continued)

Fixing the wall
mounting
frame for
indoor hou­sing

Hazard due to supply voltage and DC-voltage from the solar modu­les. Only licensed electricity installers are authorized to open the
connection area.

(2x)

(1x)

(1)

(2) (3)

(2) (3)

(4)

IG 30: 130 mm

IG 60: 373 mm

49

ENEN

Fixing the wall
mounting
frame for
FRONIUS IG
Outdoors

Important! According to the illustration above the wall mounting frame can

be mounted for horizontal position as well as for vertical position of the
FRONIUS IG.

For draining seeped-in water:

- Vertical mounting position: remove draining screw (1)

- Horizontal mounting position: remove draining screw (2)

26 mm

Important! Should a cable channel
be located below the FRONIUS IG
unit, the following must be obser­ved:

- lower edge of FRONIUS IG unit
will be located exactly 26 mm
beneath the wall mounting frame

Fixing the wall
mounting
frame for
indoor hou­sing

(continued)

vertical mounting
position

horizontal mounting position

(2)

(1)

50

Fixing the wall
mounting
frame for
FRONIUS IG
Outdoors

(continued)

The following illustration shows both parts (1) and (2) of the wall bracket.
Both parts are included with the FRONIUS IG. The illustration shows how
the FRONIUS IG is hung in part (1).

Part (2) is fitted as follows:

- Slacken the screws (3) on the bottom of the FRONIUS IG

- Fit part (2) using the screws (3)

(2)

(1)

(3)

51

ENEN

Note! Rawl plugs and screws are not included as every base sur­face requires different ones.

- Fit part (1) of the wall mounting to a solid base surface using suitable
screws (3) and rawl plugs (4)

- Open on the FRONIUS IG connecting area (section „Open housing“)

Caution! There is a danger of the machine toppling over if the
FRONIUS IG is not secured using part (2) of the wall bracket. Hang
the FRONIUS IG into part (1) of the wall bracket and secure using
part (2) of the wall bracket.

- Fit part (2) of the wall bracket using suitable screws and rawl plugs.

- Fit AC and DC cables as described in the section „Connection“

26 mm

Important! Pay attention to the
following if a cable duct is fitted
underneath the FRONIUS IG:

- The bottom edge of the FRONI­US IG is exactly 26 mm underne­ath the top edge of part (2) of the
wall bracket

(2x)

(1)

(4) (5)

(4)

(5)

Fixing the wall
mounting
frame for
FRONIUS IG
Outdoors

(continued)

IG 30: 434 mm

IG 60: 677 mm

52

As your FRONIUS IG unit need be connected to only one phase of the
mains network, in can be installed in almost any part of the house.

Warning! In order to ensure the best possible functioning of the
mains monitoring system, it is important to make sure that there is a
minimum of resistance in the feeding lines to the connection point.
The AC conductor resistance between the FRONIUS IG unit and the
house distribution panel must not exceed 0,5 Ohm.

Warning! Hazard due to supply voltage and DC-voltage from the
solar modules. Only licenced electricity installers are authorized to
open the connection area and only provided that it is not under
voltage.

Mains network
monitoring

For larger photovoltaic schemes it is possible to connect several FRONI­US IG units in parallel without any problems.

In order to secure a symmetric feed-in of the power supply, the FRONIUS
IG units should be connected evenly to all 3 phases.
If you have any doubt you should approach your specialized dealer whe­never there are technical problems.

Schemes with
more than one
inverter

Connection to the Solar Modules and to the Public
Mains

The following points are important for the most economic use of the FRO­NIUS IG unit when choosing suitable solar modules:

- the no-load voltage increases when temperature decreases with insola­tion remaining unchanged. Therefore the no-load voltage must not
exceed 500 V - or 530 V for the IG 60 HV.

Whenever the no-load voltage of the solar modules exceeds 500 V - or
530 V for the IG 60 HV - the FRONIUS IG unit will be destroyed, and all
warranty rights will become null and void.

- More exact data for dimensioning the solar modules for the location
chosen can be obtained using calculation schemes such as the FRONI­US configurator (available on www.fronius.com).

Solar modules

Connection

53

ENEN

Depending on the options installed in your FRONIUS IG unit, you have
the following alternatives to connect the solar inverter at the DC solar
modules and to the public AC mains:

1. Terminal block (connection within the housing)

2. DC plug (choice of up to 5 DC sockets, AC connection within the hou-

sing)

3. DC plug and AC plug connection (choice of up to 5 DC plug pairs, AC

plug connection)

4. FRONIUS IG Outdoors

The following chapters show the connection of the FRONIUS IG unit
separately for each one of the connection alternatives.

Connection
alternatives

- Fix the FRONIUS IG unit to the wall as shown in chapter „Installation“.

The housing is designed for a cable channel of up to 50 mm height which
can be located directly below the connection area, without

- cables visible below the FRONIUS IG unit

- impairing access to the connection area and the slot- in board area

Permissible cross-sections for AC and DC connection cables:

- cable without wire end ferrules: 6 mm² and 10 mm²

- cable with wire end ferrules: 6 mm²

Note! Tighten the screws of the terminal strip with 1.8 Nm.

1. Terminal
block

AC-side over­current pro­tection

Important! We recommend the following for AC-side overcurrent protec-

tion:

- A separate 16 A fuse for each Fronius IG 15 and 30

- A separate 25 A fuse for each Fronius IG 40 and 60

- Alternative for Fronius IG 40 and 60: 32 A automatic circuit breaker, type
„C“

Note! A residual current circuit breaker for the AC connecting cable
may be required depending on local regulations, the power supply
company as well as other conditions. A type A residual current
circuit breaker is generally sufficient in this case. However, false
alarms can be triggered for the residual current circuit breaker in
individual cases and depending on local conditions.
For this reason, Fronius recommends that you use a residual
current circuit breaker suitable for a frequency converter.
The residual current circuit breaker for each individual inverter
must have a rated current of at least 30 mA.

54

2. DC plug For easier installation and maintenance the solar modules are connected
via a contact- voltage-proof plug connection with a choice between one
and five plug pairs

- fix the FRONIUS IG unit on the wall as shown in chapter „Installation“

- open connection area - see
chapter „Open the Housing“

- slide the 3 pole connection cable
for the public mains through the
connection plate and strain relief
into the terminal block

- connect the leads of the connec­tion cable as marked on the
terminal

terminal rail for the leads
of connecting cable (AC)

DC plugs +

DC sockets -

PE N L1

terminal rail for the leads
of the (AC) connection
cable

- lead the connection cable for the
DC supply through the connector
rail and strain relief device and
slide it into the terminal block

- connect the leads of the connec­tion cable according to terminal
markings

- fix the connection cables with the
strain relief device

- close connection area

termnal rail for the
leads of the (DC)
connection cable

+

-

PE

NL1

DC DCAC

- feed the 3 pole connection cable
to the public mains through the
connector rail and strain relief
device and slide it into the termi­nal block

- connect the leads of the connec­tion cable as marked on terminal

connection rail for alternative with terminal rail

Strain relief for the
connection cables (DC)

strain relief for
connection cable (AC)

1. Terminal
block

(continued)

Note! Tighten the screws of the terminal strip with 1.8 Nm.

55

ENEN

Note! When installing the
DC plugs for connection
with the solar modules,
make sure that the poles of
the solar modules correctly
correspond with the sym­bols „+“ and „-“.

DC plug +

Connection rail with 5 pairs of plugs

Illustration also applicable for connection rail
with 1 - 5 pairs of plugs

DC sockets -

Strain relief for
connection cablel

- fix connection cable with strain relief device

- close connection area, install cover

DC plug example: multicontact plug

2. DC plug

(continued)

- install the multicontact plugs at plus and minus poles of solar module
strings

- connect the strings to the FRONIUS IG unit

Note! Never disconnect the DC plugs from the respective sockets
during power feed operation of the FRONIUS IG unit. Before dis­connecting the strings always first disconnect the mains supply or
switch the FRONIUS IG to standby operation.

Not complying with this instruction may damage the connection plugs.

Should an electric arc develop during disconnecting, both plug and socket
must be replaced. Do not re-use defective DC plugs.

To make installation and maintenance work easier, the solar modules and
the mains are connected with plugs. Depending on which version is used,
up to five pairs of DC plugs are available for connecting the solar modu­les. Connection to the mains is effected by means of a touchproof AC plug
which can be latched.

- Fix the FRONIUS IG unit on the wall as shown in chapter „Installation“

Note! Only cables up to a cross section of 4 mm² are permitted for
the AC-plug-type connector.

3. AC plug
connection
and DC plug

- max. current at MC3 = 20 A

- max. current at MC4 = 30 A

56

- assemble AC plug

- connect AC plug to FRONIUS IG unit and latch

Note! Always shut off voltage before unplugging the AC connec­tion by disconnecting fuse in the house distribution cabinet.

(1) (2) (3)

white: for main cable with
5 to 11 mm diameter

black: for main cable with
9,5 to 15 mm diameter

Connection earth
(yellow/green)

Connect phase

(brown)

Connect zero lead

(blue)

Install the AC plug as follows:

- slide parts (2) and (3) on to the
mains cable as shown in the
illustration below

- connect the mains cable leads
with the AC plug as shown in
opposite illustration

Bare the mains cable as shown in
the illustration for the AC-plug-type
connector

20 mm

5 mm

3. AC plug
connection
and DC plug

(continued)

DC plug example: multicontact plug

- max. current at MC3 = 20 A

- max. current at MC4 = 30 A

57

ENEN

- install DC connections on the plus and minus pole of the strings on the
solar modules

- plug the strings on to the FRONIUS IG unit

Note! Never disconnect the DC connections of the FRONIUS IG
unit from the sockets when it is in operation of feeding power
supply. Before disconnecting the strings, always first disconnect
fuse in the house distributor panel.

Failing to comply with this instruction may damage the plug connections.

Should an electric arc develop during unplugging, both plug and socket
must be replaced. Never re-use damaged DC connections.

Note! When installing DC
connections for solar modu­les make sure that the plus
and minus poles correspond
with the respective symbols.

DC plugs +

Connector rail with 5 pairs of DC plugs

DC sockets -AC-plug

Illustration also applicable for connector rail
with 1 - 5 DC plug pairs

- fix the FRONIUS IG unit on the wall as shown in chapter „Installation“

- loosen four tightening screws at the cover (2)

- detach cover (2)

- loosen strain relief device (3) at the cover (2)

4. FRONIUS IG
Outdoors

(1)

(1)

(2)(3)

3. AC plug
connection
and DC plug

(continued)

58

Note! When installing DC connections for solar modules make
sure that the plus and minus poles correspond with the respective
symbols.

- install DC connections on the plus and minus pole of the strings on the
solar modules

- plug the strings on to the FRONIUS IG unit

Note! Never disconnect the DC plugs of the FRONIUS IG unit
from the sockets when it is in operation of feeding power supply.
Before disconnecting the strings, always first disconnect fuse in
the house distributor panel.

Failing to comply with this instruction may damage the plug connections.

Should an electric arc develop during unplugging, both plug and socket
must be replaced. Never re-use damaged DC plugs.

- lead the 3 pole connection cable to the public mains through connector
rail (3) and strain relief device and slide it into the terminal block (4)

- connect the leads of the connection cable as marked on terminal block

- fix cover (2) with four tightening screws (1)

- fix connection cable with strain relief device (3)

(4)

Stecker DC-

Buchsen DC+

+

-----

++++

PENL1

4. FRONIUS IG
Outdoors

(continued)

DC plug example: multicontact plug

- max. current at MC3 = 20 A

- max. current at MC4 = 30 A

59

ENEN

Start up Operation

Configuring your Inverter

Your FRONIUS IG unit has been pre-configured in the factory and is ready
for operation.

After connecting the FRONIUS IG unit to the solar modules (DC) and to
the public utility mains (AC), all you have to do is close the AC and DC
isolating switch.

Factory pre­set configura­tion

LED

Your personal
configuration

For your personal configuration please consult the chapter „Operating
Scheme“, section „Setup Menu“ of your operating instructions.

For settings to connect more than one inverter at the LocalNet (such as
numbering of the bus partners connected/system upgrading) please con­sult the chapter LocalNet

- as soon as the photovoltaic modules produce sufficient power, the LED
lights up orange and the screen starts displaying the startup procedure

- the orange light of the LED indicates that the automatic startup procedu­re of the FRONIUS IG unit will begin shortly

- after the FRONIUS IG unit has started automatically, the LED light turns
green

- the LED light continues green as long as power supply is fed into the
mains, it confirms that the operation continues to function without fault.

In case the initial operation of your FRONIUS IG unit does not proceed as
shown above and the FRONIUS IG unit does not start feeding power
supply into the mains network, you should consult the chapter „Error
Diagnosis and Repair“

60

In order to tie in the FRONIUS IG unit with the LocalNet, the following
system upgrading is required (slot-in board)

- COM card ......................... for exchanging data between your FRONIUS

IG unit and the LocalNet, including the re­spective upgradings

Note! Should the data recorder collect only data of one single
photovoltaic converter, a COM card is nevertheless required. In
this case the COM card is needed to couple the internal network of
your FRONIUS IG with the LocalNet interface of the data recorder.

COM Card

Data recorder The data recorder is the core of the LocalNet. It coordinates data trans-

mission and ensures quick and safe distribution also of larger data volu­mes.

LocalNet

System upgra­ding /slot-in
board system

Your FRONIUS IG is pre-set for quite a number of system upgrades:

- data recorder (for recording and managing the data of your photovoltaic

system on your personal computer) including modem tie in, wie z.B.:

- data recorder (for recording and managing photovoltaic system data on

your PC) including data recorder and modem connection

- Various large displays (FRONIUS IG Public Display)

- Actuators / Relays / Alarm (FRONIUS IG Signal Card)

- Sensors (Thermosensors / Irradiance/ Metering)

The system upgrades are available in slot-in boards as you have them for
your personal computer. To increase flexibility, several system upgrades
can be obtained also with external housing. Your FRONIUS IG unit is pre­set to accept slot-in boards within the housing.

Fronius has developed the LocalNet in order to provide unrestricted indivi­dual use of the system’s upgrade possibilities. For more flexibility the
system upgrades are also available in a version with external housing.

61

ENEN

For inserting the system upgrade slot-in boards proceed as follows:

Warning! Hazard due to supply voltage and DC-voltage from the
solar modules. Only licensed electricity installers are authorized to
open the connection area and only on condition that is not under
voltage.

Insert slot-in
boards, FRO­NIUS IG (In­stallation for
indoor hou­sing)

insert ENS card only
in this slot

(1)

(2)
(3)

(4)

Insert slot-in
boards, FRO­NIUS IG (In­stallation for
indoor hou­sing)

(continued)

- open connection area - see chapter „Open the Housing“

- slide display towards the left side (1) and remove it from the front (2)

- loosen fastening screw and remove board slot cover

Note! In dealing with slot-in boards please observe the general
ESD regulations.

- insert board (3) in any one of the slots

- tighten board (3) with fastening screw (4)

For versions for countries where the ENS card is a standard requirement,
the unit will not operate without this card. Legal regulations require a
safety system which does not allow operation of the FRONIUS IG without
installation of ENS.

- power supply feeding operation can be resumed as soon as the ENS

card is placed back in the slot (slot on the left outside, see illustration)

62

Example

Example: Recording and archiving inverter and sensor data by means of a

datalogger card and sensor box.

The cards communicate within the FRONIUS IG unit via its internal net­work. External communication (LocalNet) is effected via the COM cards.
Each COM card has two RS-485 interfaces for entry and exit. Connection
is effected with RJ45 plugs.

The first FRONIUS IG unit with COM card can be located at a distance of
up to 1000 m from the last FRONIUS IG unit with COM card.

LocalNet automatically identifies different system upgrades (data recorder,
sensor card, ...)

To differentiate between several identical system upgradings, the respecti­ve units must have an individual number.

To define each FRONIUS IG clearly in the LocalNet, an individual number
must also be allocated to each FRONIUS IG.

For the respective procedure, please consult the chapter „Setup Menu“ in
your operating instructions.

Configuration

Insert slot-in
boards, FRO­NIUS IG (for
external
mounting)

- Release four screws (1)

- Remove cover (2)

- Release fastening screw (4) and
remove cover the relevant slot
(se illustration in the section
„Insert slot-in boards FRONIUS
IG (for indoor housing)“.

Note! When dealing with
slot-in boards, please obser­ve general ESD regulations.

- Insert board (3) in any of the slots

- Attach the board (3) with faste­ning screw (4)

(2)

(1)

(1)

Note! Please see the versions and notes for the ENS card (in the
chapter „Insert slot-in card (for indoor housing)“.

63

ENEN

- Equipping a FRONIUS IG with a datalogger card
(Illustration: FRONIUS IG 2)

- Equipping all FRONIUS IGs with a COM Card

The data recorder has two RS-232 interfaces for the connection with
personal computer and modem.

COM Card

(5)

OUT

IN

Data recorder

PC

(5)

(6)(6)(6)

COM Card

COM Card

(5) Blind plug
(6) Data cable

Sensor Box in

external Housing

IN OUT

IN OUT

PC

IN

OUT

ENS

ENS

ENS

RS-232

Note! Basically the order of sequence for placing the cards does
not matter.
Important however is:

- One FRONIUS IG can have only one COM card

- One network can contain only one data recorder.

More information on the various system upgrade possbilities you will find in
the respective service manuals or in the internet under www.fronius.com.

Example

(continued)

64

After a short time of waiting the FRONIUS IG resumes network synchroni­zation (message: „SYNCAC“).

As long as the power output at the solar modules is insufficient, the dis­play shows the message „POWER

LOW

“.

Status diagnosis and repair

Service-Codes Displayed

Your FRONIUS IG unit is equipped with a self diagnostic system which
automatically identifies a large number of possible defects by itself and
displays them on the screen. It is thus possible to quickly ascertain de­fects in the FRONIUS IG unit, in the photovoltaic system as well as instal­lation and operation errors.

Whenever the self diagnostic system has identified a particular defect, the
respective service code is displayed on the screen.

Note! Display of a service code for a short time may be a result of
the control procedure of your FRONIUS IG unit. If subsequently it
continues to operate normally, there has not been a case of an
error.

Service dis­play

As soon as the no-load voltage exceeds 150 V, the FRONIUS IG unit
starts synchronizing the network (display shows „SYNCAC“).

General ser­vice codes

As long as the no load voltage of the solar modules is not sufficient, the
screen displays the information „DC

LOW

“.

65

ENEN

Should the display remain dark for a longer period of time after sunrise
you must check the no-load voltage of the solar modules.

Should the no-load voltage of the modules (at the connecting points of the
FRONIUS IG UNIT) not reach 160 V, it is possibly the case of a defect in
the remaining part of the photovoltaic system.

If the no-load voltage of the solar modules (at the connection points of the
FRONIUS IG unit) amounts to more than 160 V, there may be a basic
defect in the FRONIUS IG unit. In this case you must consult a Fronius
trained service technician.

Complete
failure

Display in normal operation

(D)

Fault in one of the two power stage
sets:

- Display of a service code (e.g.
„State 515“)

Alternately

(D)

Important! The display of the
service code alternates with „En­ter“.

- Press „Enter“ key twice

(D)2x

FRONIUS IG
with several
power stage
sets

A special status diagnostic is run if an error occurs in a FRONIUS IG with
several power stage sets. The examples shown below illustrate the trou­ble-shooting process.

Important! It is also possible to call up status messages even if there is
no actual error in existence. This form of status polling may be found in
the set-up menu.

1

(D)

- The status display of the power
stage sets „State_ PS“ appears

- Press the „Enter“ key

1

Important! Please see the Section entitled „The Set-Up Menu“,
„STATE_PS“ for how to proceed.

66

Service codes of service class 1 appear mostly only temporarily, their
cause lies in the public mains network.

The first reaction of your FRONIUS IG unit is to disconnect from the
mains. Subsequently the mains network will be checked for the duration of
the observation period stipulated. If after the end of this period no further
defect is identified, your FRONIUS IG unit resumes operating and feeding
power into the mains network.

The following schedule lists a number of service codes with their respecti­ve designation, description, and repair measures.

Class 1

FRONIUS IG resumes fee­ding power into the mains
network as soon as the
mains network conditions
have returned to the per­missible range following
detailed checking procedu­res.

108 Islanding detected Contact your installation

specialist if the service
code fails to disappear.

As soon as the mains volta­ge, after detailed check pro­cedure has returned to ad­missible range, FRONIUS
IG resumes feeding power
into the mains network

101 Mains voltage not wi-

thin admissible range

Check mains voltage

If the service code does
not disappear you should
contact your installation
specialist

As soon as mains frequen­cy after detailed check pro­cedure has returned to ad­missible range, FRONIUS
IG resumes feeding power
into the mains network

104 Mains frequency not wi-

thin admissible range

Check mains frequency

If the service code does
not disappear you should
contact your installation
specialist

As soon as the mains net­work conditions after detai­led check procedure have
returned to admissible ran­ge, FRONIUS IG resumes
feeding power into the mains
network

107 AC mains network not

available

Check mains connec­tions and fuses

If the service code does
not disappear you should
contact your installation
specialist

Code Designation Description Repair

67

ENEN

As soon as the mains volta­ge, after detailed check, has
returned to the admissible
range, your FRONIUS IG
resumes feeding power into
the mains network

201 Excessive mains volta-

ge

Service class 2 codes can only arise in connection with the ENS option.

Class 2 service codes are also related to the parameters of the mains
network. Some of the checking procedures therefore overlap with those of
service class 1. Your FRONIUS IG unwill react in the same way as in the
case of service codes in service class 1.

Code Designation Description

Class 2

Check mains voltage

If the service code does
not disappear, you
should contact your
installation specialist

Repair

As soon as the mains volta­ge, after a detailed check,
has returned to the admissi­ble range, your FRONIUS
IG resumes feeding power
into the mains network

202 Insufficient mains

voltage

Check mains voltage

If the service code does
not disappear, you
should contact your
installation specialist

As soon as the mains fre­quency, after a detailed
check, has returned to the
admissible range, your
FRONIUS IG resumes fee­ding power into the mains
network

203 Excessive mains

frequency

Check mains frequency

If the service code does
not disappear, you
should contact your
installation specialist

As soon as the mains fre­quency, after a detailed
check, has returned to the
admissible range, your
FRONIUS IG resumes fee­ding power into the mains
network

204 Insufficient mains fre-

quency

Check mains frequency

If the service code does
not disappear, you
should contact your
installation specialist

As soon as the mains impe­dance after a detailed check,
has returned to the admissi­ble range, your FRONIUS
IG resumes feeding power
into the mains network

205 Imbalance of mains

network impedance

Imbalance reaction can
be only short termed

As soon as the mains impe­dance after detailed che­cking, has returned to the
admissible range, your
FRONIUS IG resumes fee­ding power into the mains
network

206 Absolute reading of

mains impedance too
high

Check in-house line ca­ble cross section

ENS recognises a faulty207 Problems with the

mains relay

Check ENS-Jumper

If Service-Code is dis­played permanently, you
should contact a Fronius
trained service technici­an

mains relay

68

Short interruption of power
supply feeding into mains
network caused by overload
current
FRONIUS IG resumes star­ting up phase

301 overload current (AC)

Service class 3 comprises service codes which may appear during opera­tion of feeding power supply, which however basically do not cause a
permanent interruption of the operation of feeding power into the mains.
After automatic disconnection from the mains and monitoring of the mains
as stipulated, your FRONIUS IG unit will try to resume the feeding operati­on.

Code Designation Description

Class 3

automatically by itself

Should the service load
appear permanently you
should contact your in­stallation specialist

Repair

Short interruption of power
supply feeding into mains
network caused by overload
current
FRONIUS IG resumes star­ting up phase

302 overload current (DC) automatically by itself

Should the service load
appear permanently you
should contact your in­stallation specialist

Short interruption of power
supply feeding into mains
network caused by tempe­rature excursion

air vents clogged

303 * temperature excursion

AC side

after a two minutes’ coo­ling phase your FRONI­US IG unit begins star­ting up again

clean air vents.

Should the service load
appear permanently you
should contact your in­stallation specialist

Short interruption of power
supply feeding into mains
network caused by tempe­rature excursion

304 * temperature excursion

DC-side

after a two minutes’ coo­ling phase your FRONI­US IG unit begins star­ting up again

clean air vents.

Should the service load
appear permanently you
should contact your in­stallation specialist

air vents clogged

* Service code 303 and 304 are shown briefly under certain circumstances. A brief

display of the service codes 303 and 304 does not mean there is a fault.

ENS recognises a faulty
mains relay

208 Problems with the

mains relay

If Service-Code is dis­played permanently, you
should contact a Fronius
trained service technici­an

Code Designation Description Repair

Class 2

(continued)

69

ENEN

If it is possible, your FRONI­US IG unit will resume the
power feeding operation af­ter successfully completing
another attempt to connect

401 no internal communica-

tion with power stage

Class 4 service codes require in some cases the intervention of a trained
Fronius service technician.

Code Designation Description

Class 4

If an error code is dis­played permanently, you
should contact a Fronius
trained service technici­an

Repair

If it is possible, your FRONI­US IG unit will resume the
power feeding operation af­ter successfully completing
another attempt to connect

402 no internal communica-

tion with ENS

If Service-Code is dis­played permanently, you
should contact a Fronius
trained service technici­an

If it is possible, your FRONI­US IG unit will resume the
power feeding operation af­ter successfully completing
another attempt to connect

403 EEPROM faulty If Service-Code is dis-

played permanently, you
should contact a Fronius
trained service technici­an

If it is possible, your FRONI­US IG unit will resume the
power feeding operation af­ter successfully completing
another attempt to connect

404 No communication

possible between the
control unit and ENS

FRONIUS IG has no net­work connection. Check
if the mains supply isola­tor is switched on

If Service-Code is dis­played permanently, you
should contact a Fronius
trained service technici­an

If it is possible, your FRONI­US IG unit will resume the
power feeding operation af­ter successfully completing
another attempt to connect

405 Incorrect or faulty ENS-

card

If Service-Code is dis­played permanently, you
should contact a Fronius
trained service technici­an

FRONIUS IG disconnects
from the mains supply for
safety reasons

406 AC temperature sensor

faulty

If Service-Code is dis­played permanently, you
should contact a Fronius
trained service technici­an

FRONIUS IG disconnects
from the mains supply for
safety reasons

407 DC temperature sensor

faulty

If Service-Code is dis­played permanently, you
should contact a Fronius
trained service technici­an

FRONIUS IG disconnects
from the mains supply for
safety reasons

408 Direct current input If Service-Code is dis-

played permanently, you
should contact a Fronius
trained service technici­an

FRONIUS IG does not
switch itself onto the mains
supply.

409 No +15V supply avai-

lable for the control
electronics

If Service-Code is dis­played permanently, you
should contact a Fronius
trained service technici­an

70

Fixing voltage lower than the
current MPP-voltage

412 The setting voltage has

been selected instead
of the MPP-voltage
operation and the set­ting voltage is set to
too low a value.

Check the module volta­ge and change the PV
generator connection if
the input voltage is too
high

If Service-Code is dis­played permanently, you
should contact a Fronius
trained service technici­an

2-pole plug inserted in the
wrong socket.

410 Service plug was not

inserted in its original
position

If Service-Code is dis­played permanently, you
should contact a Fronius
trained service technici­an

The FRONIUS IG briefly dis­connects from the mains
supply due to changed net­work requirements.

413 Control problems If Service-Code is dis-

played permanently, you
should contact a Fronius
trained service technici­an

Class 4

(continued)

Memory component trigge­red

414 EEPROM faulty If Service-Code is dis-

played permanently, you
should contact a Fronius
trained service technici­an

Defect in the ENS micro­controller, lead to ENS
faulty

415 No ENS enabling

signal

If Service-Code is dis­played permanently,
contact a Fronius-trained
service technician

Code Designation Description Repair

Orange LED lights up, then
the FRONIUS IG attempts a
new start

416 Communication with

IG-Ctrl not possible

If Service-Code is dis­played permanently,
contact a Fronius-trained
service technician

443 Orange LED lights up and

then the FRONIUS IG
attempts a restart

Energy transfer not
possible

If the service code conti­nues to be displayed:
notify a Fronius-trained
service technician

The FRONIUS IG blocking,
red LED displays critical er­rors

417 Two power supplies

have the same Print
Number

If Service-Code is dis­played permanently,
contact a Fronius-trained
service technician

The FRONIUS IG blocking,
red LED displays critical er­rors

419 Two or more power

supplies recognised
with the identical soft­ware serial number.

If Service-Code is dis­played permanently,
contact a Fronius-trained
service technician

The FRONIUS IG blocking,
red LED displays critical er­rors

421 Print Number set incor-

rectly

If Service-Code is dis­played permanently,
contact a Fronius-trained
service technician

Orange LED lights up, then
the FRONIUS IG attempts a
new start

425 No communication

possible with the po­wer supply.

If Service-Code is dis­played permanently,
contact a Fronius-trained
service technician

71

ENEN

FRONIUS IG adress issued
twice

The LocalNet components
required are in the FRONI­US IG unit: still, communi­cation is possible

504 communication not

possible in LocalNet

change FRONIUS IG
address (chapter: “Setup
Menu“)

Status message goes out
after the FRONIUS IG
address is altered.

Data from the Setup menu
is lost

505 EEPROM faulty Automatic rectification

Data from the „Total“ menu
is lost

506 EEPROM faulty Automatic rectification

Data from the menu „Day“ /
„Year“ is lost

507 EEPROM faulty Automatic rectification

Address for data communi­cation is no longer saved

508 FRONIUS IG address

is faulty

Set address again

e.g. solar module covered
in snow

509 24h no feed e.g. remove snow from

solar module

SMS settings were restored
to standard

510 EEPROM faulty If necessary, reconfigu-

re SMS

Sensor card settings were
restored to standard

511 EEPROM faulty If necessary, reconfigu-

re metering channels

If Service-Code is dis­played permanently,
contact a Fronius-trained
service technician

Too many power supplies
recognised in the system

512 Too many power sup-

plies in the system

In spite of insufficient power
generation the temperature
in the unit is too high

501 defective ventilator

air vents blocked

Class 5 service codes generally do not impair the operation of feeding
power into the mains network. They will be displayed so long until the
service code displayed is cancelled by pressing a key (the FRONIUS IG
unit, however, continues working normally in the background).

- press any key

- error message disappears

Code Designation Description

Class 5

contact your installation
specialists

clean air vents

Repair

In case of automatic moni­toring of isolation by the
FRONIUS IG unit, an isola­tion error against earthing
has been recorded

502 insufficient isolation

value reading

check isolation of your
photovoltaic system

service code reappears:
contact your installation
specialist

72

Class 5

(continued)

Warning message from one
of the power stage sets, se­cond power stage set wor­king normally

514 No communication with

one of the power stage
sets

Contact Fronius-trained
service technician if ser­vice code is displayed
permanently

Temperature sensor DC/AC
or DC/DC faulty, Service
jumper located on „service“
plug-in station or „+15 V
secondary“ not connected

515 Faulty plug-in connec-

tions

Check plug-in connec­tions

It is not possible to activate
all power stage sets

516 Status message pre-

sent for one of the po­wer stage sets

Carry out analysis. Sec­tion entitled „The Set-Up
Menu“, „State_PS“ for
further details. Contact
Fronius-trained service
technician if service code
is displayed permanent­ly

Important! contact your Fronius dealer or Fronius trained service partner
if an error not mentioned in the schedule appears frequently or perma­nently.

Customer
service

Code Designation Description Repair

Transformer not connected/
not plugged in

Bridge short-circuit

Detection of intermediate
circuit voltage damaged

517 Change of master has

taken place

Check possible errors
referred to in „Descripti­on“. If service code is
displayed permanently:
contact Fronius-trained
service technician.

73

ENEN

Technical Data

Annex

Input data IG 15 IG 20 IG 30

Recommended PV power 1300-2000 Wp 1800-2700 Wp 2500-3600 Wp

MPP-voltage range 150 - 400 V

Max. input voltage
(at 1000 W/m² / - 10°C in no-load operation) 500 V

Max. input current 10,75 A 14,34 A 19 A

Output data IG 15 IG 20 IG 30

Nominal output power (P

nom

) 1,3 kW 1,8 kW 2,5 kW

Max. output power 1,5 kW 2,05 kW 2,65 kW

Nominal mains voltage 230 V, +10 / -15 % *

Nominal output current 5,7 A 7,8 A 10,9 A

Nominal frequency 50 +/-0,2 Hz *

Total harmonic distortion < 3%

Power factor 1

General data IG 15 IG 20 IG 30

Maximum efficiency 94,2 % 94,3 % 94,3 %

Euro-efficiency 91,4 % 92,3 % 92,7 %

Consumption during night 0,15 W *

Consumption during operation 7 W

Cooling controlled forced ventilation

Protection type (indoor/outdoor housing) IP 21 / IP 45

Size l x w x h 366 x 344 x 220 mm / 500 x 435 x 225 mm

Weight 9 kg / max. 13 kg

Admissible ambient temperature
(at 95% rel. humidity) -20 ... 50 °C **

Protection devices IG 15 IG 20 IG 30

DC-isolation monitoring Warning / Shut-off

***)

when R

ISO

< 500 kilohms

DC-excess voltage protection integrated

DC reverse polarity protection integrated

Reaction at DC-overload shift of operating point

*) Values given are standard. Your FRONIUS IG unit has been specifically adjusted in

accordance with the regulations of your country.

**) The AC-output reduces (power-derating) when the ambient temperature is increased, from

approx. 35 °C (dependent on the solar module voltage).

***) Depending on the country setup

Fronius IG 15 /
20 / 30

74

Input data IG 40 IG 60 IG 60 HV

Recommended PV power 3500-5500 Wp 4600-6700 Wp 4600-6700 Wp

MPP-voltage range 150 - 400 V

Max. input voltage
(at 1000 W/m² / - 10°C in no-load) 500 V 500 V 530 V

Max. input current 29,4 A 35,84 A 35,84 A

Output data IG 40 IG 60 IG 60 HV

Nominal output power (P

nom

) 3,5 kW 4,6 kW 4,6 kW

Max. output power 4,1 kW 5 kW 5 kW

Nominal mains voltage 230 V, +10 / -15 % *

Nominal output current 15,22 A 20 A 20 A

Nominal frequency 50 +/-0,2 Hz *

Total harmonic distortion < 3%

Power factor 1

General data IG 40 IG 60 IG 60 HV

Maximum efficiency 94,3 % 94,3 % 94,3 %

Euro-efficiency 93,5 % 93,5 % 93,5 %

Consumption during night 0,15 W *

Consumption during operation 12 W

Cooling controlled forced ventilation

Protection type (indoor/outdoor housing) IP 21 / IP 45

Size l x w x h 610 x 344 x 220 mm / 733 x 435 x 225 mm

Weight 16 kg / max. 22 kg

Admissible ambient temperature
(at 95% rel. humidity) -20 ... 50 °C **

Protection devices IG 40 IG 60 IG 60 HV

DC-isolation monitoring Warning / Shut-off

***)

when R

ISO

< 500 kilohms

DC-excess voltage protection integrated

DC reverse polarity protection integrated

Reaction at DC-overload shift of operating point

*) Values given are standard. Your FRONIUS IG unit has been specifically adjusted in

accordance with the regulations of your country.

**) The AC-output reduces (power-derating) when the ambient temperature is increased, from

approx. 35 °C (dependent on the solar module voltage).

***) Depending on the country setup

Fronius IG 40 /
60 / 60 HV

75

ENEN

The FRONIUS IG unit complies with the „Regulation for supply and parallel
operation of low voltage network power generation systems for owner’s own
use“ (Richtlinie für Anschluß und Parallelbetrieb von Eigenerzeugungsanla­gen am Niederspannungsnetz) of VDEW, the German Association of Pro­ducers of Electric Energy (Verband der Elektrizitätswirtschaft).

In addition, all prerequisites of the applicable standards as well as regula­tions within the scope of the applicable EU (European Union)regulation
are complied with, so that all equipment bears the CE label.

In countries with applicable regulations the FRONIUS IG unit is equipped
with a circuit element to prevent isolated operation, as officially accepted
by the German professional association „Berufsgenossenschaft für Fein­mechanik und Elektrotechnik“ (professional association for precision
mechanics and electricity technology) in accordance with the German
standard DIN VDE 0126. This so-called ENS device is based on the prin­ciple of impedance monitoring (for of product reliability confirmation docu­ment see annex).

In the particular country versions both with as well as without ENS the moni­toring and safety systems integrated in the FRONIUS IG as part of its stan­dard equipment make sure that in case of a mains dropout (caused either by
shutoff effected by the utility supplier or by power transmission line failure)
the power supply feeding will be immediately interrupted.

In particular, the following standards and regulations are being complied with:

- EN 61000-3-2 (harmonic oscillations), EN 61000-6-2, EN 61000-6-3

- EN 6100-6-3 (EMV-interference emissions)

- EN 6100-6-2 (EMV-interference immunity)

- EN 50178 (electric safety)

- E DIN VDE 0126 (ENS:country versions with standard ENS card)

- Regulation 2004/108/EC electromagnetic compatibility

- Regulation 93/68/EECCE marking

- „Regulation for photovoltaic generation plants in parallel operation with
the low voltage mains network of the utility electricity companies“, issu­ed by VDEW, the Association of German Electric Utility Supply Compa­nies (Vereinigung Deutscher Elektrizitätswerke).

- „Technical regulations for photovoltaic plants in parallel operation with
the low voltage mains network of the electric utility companies“, issued
by the Association of Electric Utility Companies of Austria (Verband der
E-Werke Österreichs)

- Safety requirements for photovoltaic energy generation plants (Austrian
standard ÖNORM/ÖVE E2750), as far as these regulations are applica­ble for the inverter.

This is the guarantee for an unproblematic and unbureaucratic authorizati­on of operation by the distribution network operator and the electric utility
supply company (for confirmity declaration documents see annex)

Our product
complies with
the following
standards and
regulations

76

Detailed, country-specific warranty terms are available on the internet:
www.fronius.com/solar/warranty
To obtain the full warranty period for your newly installed Fronius inverter
or storage system, please register at: www.solarweb.com.

Fronius
manufacturer's
warranty

Warranty and Liability

Should your inverter be replaced at some future date, Fronius will accept
the obsolete equipment back and provide for its proper recycling.

Maintenance and disposal of obsolete equipment

Recycling

The filter should be checked regularly to maintain its high quality and to
ensure that it is functioning correctly.

Maintenance

77

ENEN

78

79

ENEN

80

81

ENEN

82

ud_fr_se_so_00913 102013

Fronius International GmbH

4600 Wels, Froniusplatz 1, Austria
E-Mail: pv-sales@fronius.com
http://www.fronius.com

USAA

Fronius Worldwide - www.fronius.com/addresses

Fronius USA LLC Solar Electronics Division

6797 Fronius Drive, Portage, IN 46368
E-Mail: pv-us@fronius.com
http://www.fronius-usa.com

Under http://www.fronius.com/addresses you will find all addresses of our sales branches and partner firms!