Unit description, 1 included in box, 2 designing the pv array – KACO blueplanet 1502x User Manual

blueplanet Installation Instructions 1502x - 5002x

Page 9

4 Unit Description

!

CAUTION

Incorrect use is prohibited.

The galvanically isolated blueplanet units are available

with different power ratings. The appropriate inverter

type is selected according to the maximum output of

the photovoltaic modules that have been installed. The

maximum output values can be found in the data sheet

(see Technical Data, section 3).

You can find the name of your inverter on the name

plate on the left side of the inverter.

4.1 Included in box

– blueplanet inverter

– Wall bracket

– Documentation

4.2 Designing the PV array

The selection of the PV array is of great importance

when designing a PV installation. When doing so, you

must ensure that the solar array is compatible with the

inverter.

Observe the data provided in the data sheet (see sec-

tion 3, Technical Data) when designing your solar array.

NOTE

PV-Pilot, a dimensioning program for the easy selec-

tion of PV modules, can be downloaded at no cost at

the following address:

http://www.kaco-newenergy.com

Designing the PV array:

– The number of PV modules connected in series must

be selected in such a way that the output voltage of

the PV generator stays within the permitted input

voltage range of the inverter – even during extreme

outside temperatures. Depending on the way in

which the modules are installed and the geographic

location, a suitable temperature should be used when

calculating the voltage. The temperature coefficients

of the solar modules should be taken into account.

The following criteria must be met for calculating the

voltage of the PV generator:

– U

0

(voltage open circuit) < max. input voltage of the

inverter. Even at very low outside temperatures, the

open circuit voltage of the connected string must lie

within the permitted input voltage range. The open

circuit voltage of the entire string must be less than

the max. input voltage under all conditions.

– U

Mpp

(voltage maximum power point) > min. input

voltage. Even at very high outside temperatures, the

MPP voltage of the connected string should lie within

the permitted input voltage range. The MPP voltage

of the entire string must always be greater than the

lowest MPP voltage of the inverter.

If the MPP voltage moves outside of the permitted input

range, the installation may still appear to function prop-

erly. In this situation, the maximum possible amount of

power is not fed into the grid; instead, a smaller amount

is back fed to the utility grid. The amount of energy fed

into the grid will depend on what point the inverter is

operating on the PV generator Voltage/Current curve.

Provided that the input voltage is within the permitted

input voltage range, the inverter will not be damaged

if a connected PV generator provides current that is

above the max. usable input current.

The solar generator still represents the largest factor

in the cost of a solar installation. For this reason, it is

extremely important to obtain maximum energy yields

from the solar generator. To achieve this, solar genera-

tors in the northern hemisphere should be oriented

to the south at an angle of inclination best suited for

the location. The PV generator should never be shaded.

This orientation is quite often not possible due to

structural reasons. In order to achieve the same energy

yield as an optimally oriented solar generator, the solar

generator power can be increased.

For roofs with an east-west orientation, we recommend

a multi-string PV installation. To achieve an optimum

yield from the installation, half of the strings must be

installed on the east side of the roof; the second half

on the west side.

For exposed locations in mountains or in southern

regions with higher than normal solar radiation, we

recommend that the power generator be reduced

appropriately. Please consult with us or your specialty

dealer about this matter.

4.3 Protection concepts

The following monitoring and protective functions are

integrated into blueplanet inverters:

– Overvoltage conductors/varistors to protect the

power semiconductors from high-energy transients

on the grid side.

– Temperature monitoring of the heat sink.

– EMC filters to protect the inverter from high-fre-

quency line interference.

– PV generator grounded varistors to protect the

inverter against bursts and surge pulses.

– Islanding detection according to IEEE 1547.

– Ground Fault Detector Interrupter (GFDI) according

to NEC 690.5.

Section 4 ·

Unit Description