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Central Inverter vs. Microinverters: The Pros and Cons

So you’re installing a photovoltaic (PV) system.  Do you go with microinverters or stick with a central inverter? What does an inverter do? The task of an inverter is to convert the direct current (DC) electricity produced by your solar panels into alternating current (AC), which is needed for the overwhelming majority of electrical devices.  The AC power that isn’t used by your home is back-fed into the utility grid, hence the term “grid-tied.”Click here to learn about the basic components of a PV system. Microinverters Microinverters convert the DC electricity from each panel into usable, grid-quality AC electricity.   They attach behind individual solar panels in the array, allowing each module to operate independently instead of optimizing for the “weakest link.”  Turning the solar panels’ DC electricity into AC at a modular level means there is no single point of failure and you’re maximizing the potential output of your system. Because of this, microinverters are particularly advantageous for systems in locations that have shading or some potential coverage (i.e. dirt, snow, chimneys, etc). Microinverters also use a technology called Maximum Power Point Tracking (MPPT), which optimizes the electricity output by responding to the varying levels of light every couple of minutes. In addition to maximizing the yield of your system, micoinverters’ easy design, installation, and scalability have made them popular for residential applications.   Besides getting up on a roof and pulling a permitting, adding to your existing system with microinverters  like the Enphase M215 microinverter should be little trouble.   Each microinverter has its own IP address so it can be monitored remotely with web-based software.  Microinverters also allow for module level monitoring and comprehensive analytics, making it possible for you to view how much energy is being produced by each solar panel. The main disadvantage of microinverters is the price tag- they still cost more per Watt than central inverters.  Critics of microinverters have also made note that these sensitive electronics can exposed to elevated temperatures on the roof and there is lack of field data to go along with their 25-year warranty. Enphase Energy currently dominates the microinverter market and has been increasingly popular for residential applications, particularly in California.   Enphase offers a twenty-five year limited warranty on their microinverters. Microinverters are recommended for residential and DIY solar applications, especially if there are shading concerns or there’s a chance of expanding the system in the future. Pros: • Easy design, installation, & scalability • Maximum Power Point Tracking (MPPT) • Optimized for shading • Remote monitoring capability Cons: • Less of field data • More expensive • Relatively new technology Central Inverter Traditionally, central inverters have...

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Enphase M215, meet the 3rd generation of solar micro inverters

The solar micro inverter from Enphase Energy has come along way since their first generation M175 micro inverter released back in 2008. The Enphase M175 was considered the first commercially successful micro inverter followed by a successor, the Enphase M190 which was introduced in 2009. Since Enphase Energy began selling the M175 to date they have shipped more than 500,000 micro inverters making their product one of the most highly sought after solar inverter by customers. Say hello to the third generation of the solar micro inverter by Enphase Energy, pictured above the Enphase M215 will be released in early June 2011 and will be a game changer in solar inverter market by not only delivering better performance and simplified installation but is now backed by a 25 year limited warranty! One of the key improvements with the new Enphase M215 micro inverter is its innovative cabling system, which offers the benefits of a 12AWG trunk cable which bumps up the number of micro inverters that can be on a single branch circuit up to 17. The Enphase M190 can only support 15 micro inverters per branch circuit. The Enphase M215 is rated at 215 AC Watts which will allow the new inverter to be compatible with high power output 60 cell solar panels such as 250 watt and 260 watt rated solar panels. Mechanically, the Enphase M215 offers faster mounting through its single-bolt design, unlike its predecessors the Enphase M190 and M175 required two bolts to fasten each micro inverter to the rail. check out the video below, what do you think about the new Enphase M215 micro inverter by Enphase Energy? Will micro inverters phase out central string inverters and be the new standard in the solar industry? what do you...

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