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Comparison Deye SUN-6K-SG03LP1-EU vs Huawei SUN2000-6KTL-L1

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Deye SUN-6K-SG03LP1-EU
Huawei SUN2000-6KTL-L1
Deye SUN-6K-SG03LP1-EUHuawei SUN2000-6KTL-L1
Outdated ProductOutdated Product
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Main
Passive cooling
Device typehybrid inverterhybrid inverter
Network type1 phase (230 V)1 phase (230 V)
Maximum efficiency97.6 %98.4 %
Euro efficiency96.5 %97.8 %
AC input / output
Rated power6600 VA6000 VA
Rated power6000 W6000 W
Peak power12000 W
Rated AC current26.1 A
Maximum AC power28.7 А27.3 А
Output waveformpure sinepure sine
Batteries and DC charging
Connection voltage48 V
Number of battery inputs1 шт1 шт
Maximum charge current135 А15 А
Solar PV panels
Max. power7.8 kW9 kW
Operating voltage PV370 V90 – 560 V
Short circuit current
34 А /17 A MPP1, 17 A MPP2/
36 А /18 A MPP1, 18 A MPP2/
MPPT controller(s)22
Number of strings12
Features and control
Control interfaces
Wi-Fi
RS485
Wi-Fi
RS485
Protection
reverse polarity protection
short circuit protection
↑ or ↓ battery voltage protection
overload protection
overheat protection
reverse polarity protection
short circuit protection
↑ or ↓ battery voltage protection
overload protection
overheat protection
General
Displaycolouris absent
Coolingactive (fans)passive
Noise level30 dB
Casing protection classIP65IP65
Operating temperature-40 °C ~ +60 °C-25 °C ~ +60 °C
Dimensions330x580x232 mm365x365x156 mm
Weight20.5 kg12 kg
Added to E-Catalogmay 2023february 2023

Maximum efficiency

Inverter efficiency for solar panels.

The efficiency indicator is the percentage ratio between the amount of energy that the device delivers to the load and the energy consumed from the solar panel. The higher this parameter, the more efficient the operation of the device and the lower the losses during conversion. In modern inverters for solar panels, efficiency values of up to 90% are considered average, and above 90% are considered good.

Euro efficiency

The European inverter efficiency is measured based on several load values (e.g. 10%, 30%, 50%, 100%), which better reflects the actual operating conditions of the device. Indeed, in fact, inverters rarely operate at full power in constant mode. To calculate the Euro index, the weighted average of the inverter efficiency at different load levels is taken into account. Note that there is no single generally accepted formula here - it may vary depending on the specific standard or equipment manufacturer. Nevertheless, Euro efficiency allows you to more accurately assess the efficiency of the inverter under conditions of partial and full power use

Rated power

The rated output power of the inverter, expressed in volt-amperes (VA). Essentially, this value is equivalent to power in watts (W).

This parameter refers to the power that the device can continuously deliver to consumers. When choosing based on this parameter, ensure that the rated power of the inverter exceeds the expected load power by approximately 15-20%. Additionally, keep in mind that some electrical appliances (particularly those with electric motors, such as vacuum cleaners, refrigerators, etc.) consume significantly more energy at startup than during regular operation. For such loads, it's important to check the peak power of the inverter (see the relevant paragraph) — it should be higher than the starting power of the load.

Peak power

The highest total output power in watts (W) that the inverter can deliver to a load for a relatively short period of time, on the order of 2 to 3 seconds. As a rule, this power is 30 - 50% more than the rated power (see above). The peak load value can be useful when calculating how the inverter works together with appliances that consume a lot of energy at start-up (vacuum cleaners, borehole pumps, power tools, etc.). The rule here is simple - the peak power of the inverter must not be lower than the starting power of the load.

Rated AC current

The current strength that the device is capable of stably and safely delivering when operating in rated mode (i.e. for the longest possible time without the risk of overloads and failures). The indicator is expressed in Amperes (A).

Maximum AC power

The maximum current in amperes (A) that the inverter, when operating, is capable of outputting without overloads or failures.

Connection voltage

The efficiency of the solar system, laid down by the manufacturer of the inverter, directly depends on this parameter. The following battery voltage options are most widely used: 12 V, 24 V and 48 V.

Maximum charge current

The maximum amount of direct current in amperes that the inverter can convert. If the solar panel produces a current exceeding this value, the inverter simply does not use it. This is often justified when connecting an inverter to high-power solar panels - the maximum input current of the inverter is reduced to acceptable values so that moderate-sized wires can be used to transmit energy.

Max. power

The maximum allowable input power from solar panels, expressed in kilowatts (kW). Let us remember that 1 kW contains 1000 W.

When selecting an inverter based on this indicator, they are based on the total power of the solar panels involved in generating electricity. Moreover, it often makes sense to select models with an inverter input power slightly less than the maximum power of solar panels - for example, if they are shaded part of the time or for other reasons do not receive enough sunlight during the day. The power of the solar battery should not exceed the power of the inverter by more than 30%. However, for some inverters the excess can be only 10%, while for others it can be up to 100%. It is better to clarify this point in advance.
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