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Operation and Installation Manual for SOLIVIA 2.0/2.5/3.0/3.3/3.6/5.0 EU G4 TR

6. Operating Behavior

6.1 General Principle of Operation

The solar inverter converts DC electricity into AC electricity, which

is then fed into the local power grid.

MPP Tracking

The solar inverter has an MPP tracker. The MPP (Maximum Power

Point) tracker is an automatic function that searches in regular

intervals for the operating point with the highest possible power.

On the normal setting, the MPP tracker searches the DC input volt-

age range near the current operating point. If a higher power point

is found, the solar inverter sets this as the new operating point.

The manual "Shadowing" function can be used to set the MPP

tracker to scan over a wider DC voltage range. This MPP tracking

function is especially useful when small shadows regularly pass

over the PV modules, e.g., from chimneys or trees. In order to

adapt the function to local conditions as precisely as possible, the

extended MPP tracking can be congured in three stages.

Electrical Isolation

The AC and DC sides of the solar inverter are electrically isolated

by a high frequency transformer. This makes it impossible for DC

electricity to reach the AC side of the inverter.

Anti-Islanding

The integrated anti-islanding device switches off the solar inverter

when the grid fails.

Temperature Control

The convection cooling system provides optimal heat dissipation.

An internal temperature controller reduces the output power at

ambient temperatures in the upper operating range. The higher the

operating temperature, the greater the power reduction. It is pos-

sible for the power reduction to be adjusted to 0 kW.

6.2 Impact of DC Input Voltage

The DC input voltage values mentioned in this section can be found

in Chapter “15 Technical Specications”, p. 80.

The maximum input voltage must never be exceeded. Measure

the input voltage and use an overvoltage protection device on the

DC side to prevent higher voltages from reaching the inverter. The

maximum open-circuit voltage occurs at the lowest assumed tem-

perature. More exact information on temperature dependency is

provided in the PV module data sheet.

The feed-in voltage range of the solar inverter denes the range

of input voltages over which the solar inverter will feed electricity

into the grid.

The MPP input voltage range of the solar inverter denes the

range of input voltages over which the MPP tracker is activated.

6.3 ConguringPermanentActiveandReac-

tive Power Reduction

The settings for reduction of active power and/or reactive power

can be congured during initial commissioning. After completion of

initial commissioning the values can only be changed using a PIN.

6.4 Functions Affecting Operating Behavior

The solar inverter offers various functions for affecting operating

behavior:

● Active power control

● Reactive power control

● Insulation and grounding monitoring

● Extended MPP tracking in the case of partial shadowing of the

PV modules

The availability of individual functions depends on the congured

grid.

A detailed description of the functions is provided in Chapter

“10 Settings”, p. 52.

6.5 Balancing Asymmetrical Grid Loads

When using single-phase power inverters in a three-phase grid, an

asymmetric phase failure can lead to unreliable grid load.

In some countries, there are specic limits for the grid load, for

example, in Germany this is max. 4.6 kVA between two phases.

If an unreliable grid load can occur during installation, single-phase

solar inverters can only be operated in these countries when a

SOLIVIA Gateway M1 G2 is installed as well.

The Gateway controls the feed-in so that an impermissible grid load

cannot occur during an asymmetric phase failure.

The asymmetrical grid load balancing can be activated during the

initial commissioning.

After completion of initial commissioning, the function can only be

changed using a PIN.

A detailed description of this function can be found in Chapter

“7.1 Planning the Installation”, p. 24.

6.6 Data Analysis and Communication

The solar inverter has a comprehensive system for recording oper-

ating behavior.

The log can be viewed directly on the display. It is also possible

to view the log on a computer using the communication interface

(RS485).

Connecting a SOLIVIA Gateway M1 G2 to the solar inverter allows

this information to be accessed worldwide via the Internet.

All information can be saved to a USB drive to be used later.

The following information and data are logged:

Production Information

The most important production information is recorded in statistics

for day, week, month, year and total runtime. There are also special

statistics for the last seven days the solar inverter was in operation.

All production information is backed up to a separate hard drive

monthly.

CongurationSettings

The conguration settings of the solar inverter can be exchanged

between solar inverters of the same type by using a USB drive.

This above all makes switching solar inverters easier.