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Solar Inverter Clipping Vs. Throttling Explained

Solar inverter clipping and throttling

You may have come across the terminology “clipping” and “throttling” used in association with solar inverters. These terms have nothing to do with taking out frustrations on solar hardware; so what do they refer to? Here’s a quick explanation.

Just to set the scene to help illustrate, I have a 10kW solar system with an 8kW solar inverter. I don’t have a home battery yet. My Distributed Network Service Provider’s (DNSP’s) grid connection rules stipulate an export limit of 5kW for this system.

What Does This All Mean?

While I have 10kW of solar panels, the maximum amount of useable power they’ll provide to our home is 8kW due to the inverter’s capacity. It’s very common, permissible and desirable to have greater solar panel capacity than inverter capacity. This is called oversizing, explained here.

So, my system is capable of producing 8kW. But if our house is using little electricity, the most surplus power it can send to the grid for a feed-in tariff is 5kW due to the export limit programmed into the hardware. This means the most useable power the system will produce is 5kW if there are no electrical appliances being used in the house.

With that in mind:

Inverter Clipping

Inverter clipping occurs when an oversized solar panel array is generating more than the inverter capacity. The following is an example:

Example of inverter clipping

It’s not the best example given the generation and consumption conditions that day, but you can see the point where the inverter has briefly hit its maximum capacity. Power utilised in the house at that point was 5.33kW, with ~2.67kW exported to the grid = 8kW. You’ll see inverter clipping happening more regularly in households with smaller capacity oversized systems and/or higher daytime energy use.

Properly oversized systems will not wreck an inverter or greatly shorten its service life, but it will make better use of it – and little yield is lost overall.

Inverter Throttling

Inverter throttling occurs when the DNSP-imposed export limit is reached. As mentioned, this limit is programmed into the solar inverter (or inverter smart meter). The following is a decent example of sustained inverter throttling.

Example of inverter throttling

We weren’t using much electricity in the house for much of the day. Even though the inverter is capable of 8kW, the maximum usable power being generated at the point highlighted in the graph was 5.12kW; 190 watts used in the house and (nearly) 5kW being exported at the time.

If you’re wondering how the graphs are generated, they are slightly butchered versions produced by Solar Analytics; an advanced solar  monitoring product. Almost all modern inverters include features to monitor solar production remotely, but most won’t show energy consumption. For that you need extra hardware and software.

Advanced monitoring is an optional extra. It’s well worth spending the few hundred dollars more if you’re considering going solar to get the full picture of your household’s power/energy production and consumption; along with several other benefits.

Learn more about the benefits of advanced solar monitoring.

Original Source: https://www.solarquotes.com.au/blog/inverter-clipping-throttling-mb2718/