SOLAR MICRO INVERTER

LEADING SOLAR INVERTER
HIGH EFFICIENCY SOLAR INVERTER
HIGH COST PERFORMANCE SOLAR INVERTER

Micro-grid solar power inverter with high reliability, working temperature range of -40 ~ +85 ºC:, with a 15-year warranty

SOLAR MICRO INVERTER PARAMETERS

Type

200-EU

Input Data (DC)

Recommended PV Module Power (STC) Range

180W-280W

MPPT Voltage Range

20V-45V

Maximum Input DC Voltage

55V

Maximum Input Current

12A

Output Data (AC)

Rated Output Power

200W

Maximum Output Power

225W

Rated Output Current

0.87A

Maximum Output Current

1.2A

Nominal Output Voltage/Range

230V / 180V-270V

Nominal Output Frequency/Range

Maximum units per branch

50Hz / 47Hz-52Hz1

Performance

Peak inverter efficiency

95%

Euro Efficiency

94%

Nominal MPP tracking efficiency

99%

Power factor

>0.99

Total Harmonic Distortion

<5%

Night time power consumption

30mW

Mechanical Data

Operating temperature range

-40oC to +65oC

Storage temperature range

-40oC to +65oC

Dimensions (WxHxD)

218mm X 137mm X 35mm

Weight

2.5kg

Enclosure Rating

IP65

Cooling

Natural Convection

Features & Compliance

EMC (emissions & immunity) compliance

EN61000-6-3, EN61000-6-1

Safety class compliance

prEN 62109-1, IEC62116

Communication

Powerline

Warranty

15 yrs

1 Detailed parameter please see local grid standard.

Micro-inverter parameter (Northern America)

Micro-inverter	Northern America 240V/60Hz
Model	200-NA
DC input	-
Recommended input power STC(W)	240
Input voltage range(V)	30~55
Maximum input current(A)	12
AC output	-
Rated output power(W)	200
Maximum output power(W)	240
Rated RMS output current(A)	0.83
Rated RMS output voltage(V)	240
Peak efficiency (%)	95
CEC Weighted efficiency (%)	94
Maximum power point tracking efficiency (%)	99
Output power factor	0.99
Max THD (%)	3
Storage temperature(C)	-40 to +85
Operating temperature(C)	-40 to +85
Electromagnetic Compatibility	FCC Part15 Class B
Safety norms	UL1741/IEEE1547, CE
Shelf Life	15Years
Size (LxWxH,cm)	~20X13X3.2
Weight(Kg)	~2
Package Rating	IP65/NEMA6
Cooling	Nature
Isolation voltage(V)	600
Over-temperature protection(C)	80

250

Type	250
Input Data (DC)
Recommended PV module power (STC) range	180W-260W
MPPT voltage range	22V-35V
Maximum input voltage	45V
Maximum input current	12A
Maximum input power	250W
Output Data (AC)
Maximum output power	235W
Nominal output voltage/range	Match grid requirement
Nominal output frequency/range	Match grid requirement
Power factor	>0.95
Total Harmonic Distortion	<3%
Maximum units per branch	15
Efficiency
Peak inverter efficiency	95.5%
Euro weighted efficiency	95.0%
Nominal MPP tracking efficiency	99.0%
Mechanical Data
Operating temperature range (Ambient)	-40ºC to +65ºC
Storage temperature range	-40ºC to +85ºC
Dimensions (W x H x D)	160mm X 150mm X 25mm
Weight	1.5kg
Enclosure Rating	IP65
Cooling	Natural Convection
Features & Compliance
Communication	Powerline
Design lifetime	25 yrs

500

Relation knowledge about solar micro inveter

A solar power system for your home is a great way for you to generate a good amount of free electricity and can help you lower or eliminate your electricity bill each month. Over the years, improvements in these systems have made them less expensive, more efficient and easier to install than older systems and the innovations still continue. One of the latest technological improvements being offered in several solar panel systems is a device called a solar micro inverter and this may prove to be a major upgrade to the standard solar panel.

The DC current from all of the panels in the solar power system is routed to a large inverter that is usually located near the homes electrical panel. This inverter does a few things, but its primary job is to convert the DC current being produced by the solar panels into AC current that can be used by your home. When the panels are producing current, the inverter will send this to your home and disconnect you from the local power utility. If you generate more power than you are using during the day, the excess power is sent back to the local utility and you will receive a credit for this power. In the evening when the sun has set, the inverter switches you back to the local utility so you can once again buy the power you need for your home. The idea is to generate enough excess power during the day to offset any power you need to buy during the evenings and on cloudy days so your electricity bill will be zero.

The challenge with this current scenario is that because of the long run of wires between the solar panels and the inverter, there is a lot of power lost in the journey. Also a low voltage DC current suffers more loss than a higher voltage AC current does and this compounds the problem. Up until now this loss was just tolerated as part of the system and adjustments had to be made to generate more power to compensate for the loss.

All solar power systems work in a pretty similar way. The solar panels themselves are mounted on the roof of a home, or in an area that is exposed to the sun for most of its daily travel. When the sun strikes the panels, they produce a DC current proportional to the amount of sunlight that they receive.

The new solar micro inverter is looking to change all that and is fast becoming a favorite among solar enthusiasts. Instead of having one large inverter that handles all of the conversion from DC current to AC current for the home, these new solar panels have a solar micro inverter installed in each of them that does this conversion in the panel. This solar micro inverter takes the DC current generated by the solar panel, and converts it directly to AC current before leaving the panel. This way you have a complete solution within the solar panel that can produce the exact power your home needs to operate. Because higher voltage AC electricity has a lot less loss over the long wire run into your house, you get a more efficient conversion and can use a larger portion of the power you are generating with your solar panels. This also makes expanding your solar power system each year easier as well since you can simply buy more panels and add them to your homes wiring. There is never a need to worry about having to upgrade your inverter. Even though these new solar panels are a little more expensive than the older ones, eliminating the cost of the larger inverter makes the total system cost about the same.