This week we talk about plug-in power, renewables, and Germany.
We also discuss inverters, solar arrays, and microgrids.
Recommended Book: Consider This by Chuck Palahnuik
Transcript
Most climate scientists and knowledgable folks in adjacent fields will tell you that, as a species, we’re way behind where we need to be if we’re going to avoid a whole lot of negative consequences caused by global climate change.
We’ve blazed past a bunch of tipping points already, and while the worst-case scenarios we were worried about a decade ago are no longer likely because of the energy-generation and related changes we’ve made globally, since then, the damage caused up to this point is already doing some pretty bad things to our water cycle and other temperature-regulating systems, and that’s looking like it will get even worse over the next several decades—even if worse no longer means cataclysmic in the sense of ending all life on the planet.
That said, even noting that progress has been a lot slower than most experts would prefer, progress is happening in regards to the deployment of renewable energy sources, and in the replacement and retirement of dirty, carbon- and methane-spewing sources, like coal, petroleum, and gas.
As of 2026, the global share of total electricity generation, so all electricity produced by all sources for all purposes, is about 33.8% for renewables, marking the first time renewables have been used to produce more than a third of the total electricity produced, globally; that also means renewables have surpassed coal for electricity generation for the first time.
While hydro and wind continue to contribute to the growth of renewables deployment and electricity generation, solar power is by far the biggest growth area for renewables right now, and solar, alone, covers 75% of total electricity demand growth in 2025—which means as countries around the world deploy more electricity generation assets to account for electricity demand growth, three-quarters of that demand is being met by solar. And this is notable because typically that kind of demand, the majority of which arises in huge, rapidly scaling countries like China and India, has up till recently been met by the dirtiest of energy production sources, coal.
There’s also been a .02% reduction in fossil fuel generation, year-on-year, which is a very small number, but that level of production is massive, and there are a lot of subsidies and other mechanisms that keep fossil fuels flourishing around the world, so every little sliver of fossil fuel energy production reduction is still a pretty significant thing.
Many of these renewables-related wins, in recent years, have been attributable to the large-scale installation of solar facilities, backed by massive, utility-scale battery backups, primarily in China.
China is by far the largest producer of solar panels and related technologies—Chinese companies produce somewhere between 80-90% of all the key components and perform the same portion of all key manufacturing stages for the global supply chain, while also controlling the vast majority of resources necessary to manufacture solar panels. And it has been on a tear over the past decade or so, installing just a silly amount of solar infrastructure. Which is good, because China is also seeing a lot of growth in energy demand, so if they weren’t deploying that much solar, they would likely be deploying that much coal infrastructure, instead.
That said, while huge solar arrays are important to renewables growth, there’s also been a recent boom in smaller-scale solar energy deployment in recent years, especially but not exclusively across Europe. And that’s what I’d like to talk about today: the emergence of so-called ‘balcony solar,’ and what it might mean for the further expansion of solar’s footprint around the world.
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In 2025, Utah, which is a deeply Conservative, Republican state, became the first US state to pass a bill that makes it easier to legally install plug-in solar panel systems.
As of mid-2026, about 30 states have followed suit, and even more are considering it, laws allowing for the installation of such solar technologies winding their way through legislative bodies on the back of the popularity and seeming no-downsides nature of this tech product category.
Plug-in solar, also sometimes called balcony solar or garden solar, is currently most popular in Germany, which is the biggest market for this product right now, with about four million such systems installed as of 2025.
To understand the popularity of this type of solar installation, it’s useful to understand that conventional solar installations have typically required a decent amount of electrical surgery to install. They’ve usually involved a large number of panels operating as an array, and that array has produced quite a lot of electricity that then has to be funneled as a direct current either back into the local grid using what amounts to two-way wiring, which makes these arrays function like any other power plant, or that electricity is converted using an inverter into an alternating current, where AC is the electrical standard, anyway, so that it can directly power a large building like a hospital or school, or be stored in a large battery facility.
All of these options require a huge up front investment, and a reworking of local energy infrastructure so that solar can be incorporated. And that investment requirement, and the necessity to hire specialist electricians to get it all done, severely limits the range of this tech, because there are only so many entities that can afford it, only so many spaces that can deploy that number of panels, the number required to make that investment make sense, economically, is generally quite large, and there are only so many specialists of that kind in a given country, so the labor aspect of this is a big deal, too, these sorts of projects often severely backlogged.
Plug-in solar, in contrast, is usually sold as a kit with one or two small- to medium-sized panels and a microinverter or plug-in inverter, depending on whether the end-user’s existing electrical setup uses an AC or DC current.
A home owner or even a renter with a balcony or garden, or the right amount of space outside one of their windows, can buy one of these systems, hang or place the solar panel or panels in a location where they will get a decent amount of sun, and then plug them in, via the inverter, directly to their home’s outlet.
The electricity generated by the panels is then shared through the building’s existing wiring to all of their outlets, and this allows the resident to use that available energy, first, only drawing energy from the local grid when there isn’t enough from the solar panels available. And all of this happens automatically—the solar energy is used if available, and if not, energy is drawn from the grid like normal.
This creates a layer of essentially free, clean energy for the resident with a usually fairly small up-front cost: these plug-in solar kits can cost as little as $500, with larger systems that generate more electricity costing between $1200 and $3000; so even on the high-end, because there’s no additional installation cost, the home owner or renter setting it all up themselves, this is an investment that can easily pay for itself, usually within 2-5 years.
There are caveats here, including that not all grid systems are complaint with this use-case, so would-be plug-in solar users have to check to make sure their local setup can handle this sort of application, and there are many places where this product type still isn’t legal, in some cases because of concerns about people installing it without checking to make sure their wiring and the local grid can handle it, and in some cases because of old laws that favor local energy grid companies and their business models, or which favor fossil fuel energy production.
The explosion in use of this type of small solar setup, though, speaks volumes about how good a deal it is for many people, and even those who don’t live in particularly sunny areas—so places where traditional solar arrays wouldn’t make sense, economically—are finding them useful, because they still pay for themselves within some number of years, due to energy bill savings. It’s also possible to install home-scale battery systems alongside these balcony solar systems, which means even small trickles of solar energy production can add up, and can be used at night, when the sun isn’t shining at all.
There are quite a few possible ramifications of this trend.
At the local, household level, these sorts of systems can dampen the impact of energy price increases, due to global issues, like the gumming up of the Strait of Hormuz, and due to local issues, like the trend of energy companies increasing prices because of new data centers being added to their grid. That, in turn, can reduce the impact of certain aspects of inflation on individuals home owners and renters.
Larger-scale, though, these systems also serve as a sort of deconstructed secondary energy grid.
In Germany, for instance, as of late 2025, around 1.14 gigawatts of energy was being produced by balcony solar systems across the country. That’s 1.14 GW of pressure taken off of local energy grids, and that represents more resilience for these grids, too, as reduced pressure means fewer brown-outs and similar negative fluctuations. It also means people who have such systems won’t be as negatively impacted by issues that take down grids; and that means normal, brown-out like issues, but also problems related to potential cyberattacks and hacks and even physical conflicts. That kind of resiliency is what every nation hopes to have, because it makes strikes on them less damaging, and this is one way to achieve that kind of resiliency—a deconstructed network of microgrids, underpinning the macro-scale one—all at a relatively low cost.
These sorts of systems are also becoming more widely available, IKEA selling several kits in many countries where they’ve been made legal, and other retailers, like Lidl and Amazon are also getting in on the action, making these kits more widely available as the trend spreads.
China still controls the vast, vast majority of solar energy asset production, so there’s a chance, especially in the case of a theoretical future conflict, that they could turn off the tap on this and these types of assets would go away for a time, which would be bad if local grids come to rely on them taking some of the pressure off the local macro-grid.
Those theoretical economic warfare concerns aside, though, if legalization continues to spread, plug-in solar could be one of the best and most successful methods for deploying clean energy to areas where it hasn’t been a particularly compelling sell, and where local infrastructure or politics has made such deployment unlikely or impossible up till this point.
Show Notes
https://www.nytimes.com/2026/06/14/opinion/solar-panels-balcony-backyard-plugin.html
https://arstechnica.com/science/2026/04/globally-86-percent-of-the-new-generating-capacity-was-renewable-in-2025/
https://arstechnica.com/science/2026/05/soaring-solar-and-a-surge-in-hydro-push-more-coal-off-the-us-grid/
https://arstechnica.com/science/2026/04/global-growth-in-solar-the-largest-ever-observed-for-any-source/
https://www.iea.org/reports/sdg7-data-and-projections/modern-renewables
https://ember-energy.org/latest-insights/global-electricity-review-2026/
https://ember-energy.org/latest-insights/china-solar-cell-exports-grow-73-in-2025/
https://rhg.com/research/minerals-metals-and-megawatts-how-chinas-power-generation-drives-its-industrial-metals-ecosystem/
https://www.canarymedia.com/articles/solar/what-to-know-balcony-solar
https://www.canarymedia.com/articles/solar/balcony-solar-taking-state-legislatures-by-storm
https://www.canarymedia.com/articles/solar/balcony-panels-germany-utah
https://www.energysage.com/news/plug-in-balcony-solar-panels/
https://en.wikipedia.org/wiki/Balcony_solar_power
https://www.pv-tech.org/maine-passes-balcony-solar-law-virginia-and-colorado-to-follow/
https://www.sierraclub.org/sierra/plug-solar-power-could-be-coming-balcony-near-you
https://en.wikipedia.org/wiki/Solar_panel
https://www.ingka.com/newsroom/solar-energy-for-the-many-ikea-belgium-to-offer-balcony-solar-kits/
