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My regular readers may remember that two years ago, I was winning so hard at life that I bought myself a brand-spankin’ new boat as a treat. Don’t get me wrong, I’m still on an independent journalist’s salary here though, so when I say that I had “boat money”, I mean I scraped together enough to buy a $1,000 electric boat directly from China. It’s now been two years since that Alibaba delivery, so let’s see how it’s held up and what it looks like now.

As a bit of a refresher first though, here’s what I got at the time. Inside of a surprisingly well-made steel frame and plywood-lined crate (that probably would have cost $1k by itself to have made in the US), my five-seater fiberglass boat awaited me.

It was powered by a cute little 500W inboard motor with a belt and pulley drive connecting it to a rudimentary prop fashioned out of 1/8″ (3mm thick) steel plate bent and welded onto a section of pipe.

The boat didn’t have batteries, so I added my own pair of 12V 200Ah LiFePO4 batteries to create a 5 kWh battery pack that was likely way bigger than I needed.

You can check out my unboxing and testing video here, which went viral with nearly four million people having now joined me at the beginning of this crazy adventure.

The boat seemed to work, in that it stayed above the waterline of our local lake and could move both fore and aft under its own power, fulfilling the major requirements of what it takes to be a motorboat.

However, its performance left a lot to be desired. The prop was only around 75% submerged, meaning there was a lot of cavitation and wasted power churning air through the water. Not only did that make it inefficient, but also slow.

It was hard to travel over a single knot, though I did briefly hit 2 knots on my GPS speedometer app (and I’m counting that, even if I can’t be sure it wasn’t a fluke).

In other words, the boat was surprisingly decent, yet the performance was underwhelming.

For a while now, I’ve been chipping away at a few upgrades to the boat each time I visit my parent’s house, where I keep it. It’s been a fine little boat for my dad to take the grandkids out on and teach them about boating, but it has been due for some deferred love, maintenance, and upgrades.

First of all, here’s how it has aged. Without regular cleaning, there was some serious marine grime building up, but the fiberglass has actually held up surprisingly well in two years of harsh Florida sun and UV.

After two years, the chrome railings had a decent amount of corrosion and what looked like pitting, though it pretty much all buffed right out when I disassembled the canopy to clean everything really well.

After buffing the shine back into the rails, I applied a clear coat so that the rails will hopefully keep their shimmer and I won’t have to re-scrub the life back into them next year. The rest of the boat’s hull and canopy got a simple soapy scrub down.

As I put the canopy back together, I finally made a big addition I’ve been planning ever since I got the boat: solar panels. I put a pair of 100W solar panels on the canopy and wired them into an MPPT solar charge controller that feeds back into the batteries. The panels don’t charge quite as quickly as the boat drains, but it has meant that I never need to pull the boat out to charge it anymore since it just slowly charges up all day while it’s floating around at the dock.

Solar panels on electric boats are a game changer, especially those used for only a few hours a week, such as a Sunday cruise. You can run your battery nearly empty on the water in a day, then let it charge itself up over the next few days.

The next big upgrade I’ve been planning is more power. To get there, I had a slick idea that would let me replace the old rudder and motor in one fell swoop.

The rudder was horribly rusted out at this point, though amazingly that terribly inefficient propellor looked nearly as good as new, so I suspect they actually used stainless steel to fabricate it.

The rudder was a rusty mess, though the propellor appears to have been made out of stainless steel
Below deck, the inboard motor doesn’t look like much but it held up fairly well (even if the pulleys are super rusty now)

Since the design of the propellor shaft meant that its angle forced the propellor to be too high, I decided to simply replace that entire system with an alternative. Instead of yanking out the propellor shaft and needing to seal the stuffing box, I left the existing seals in place and just cut off the propellor. It ain’t pretty, but it’s below the waterline. It was also a rare case of the easiest solution and the safest solution converging on the same answer, since the shaft is already perfectly sealed against water ingress.

I found an 80 lb thrust Minn Kota trolling motor used online and snagged it for around $200 (it cost over $1,400 new for this American-made motor). It has what Minn Kota refers to as an indestructible shaft, which I believe since it was hard as hell to cut it down to length using a pipe cutter, which was necessary to preserve the wires that run down the shaft.

I removed the rudder and replaced it with the entire trolling motor, now with its shortened shaft, and welded up some new linkage to connect it to the old rudder controls. After yanking out the Minn Kota’s control board and wiring it into my batteries, I had a Frankenstein setup that I figured would give me much more power and also some effective thrust vectoring since I could control the direction of the motor from the wheel, like a real outboard.

Ignore those wire nuts, they were just temporary for the testing. That blue potentiometer is still the throttle though!

I hadn’t yet run the wires up to the helm, so the boat temporarily required a crew of two when I put it back into the water. My dad took the wheel while I stayed in the ‘engine room’ in the back to control the throttle.

It was immediately apparent how much more powerful the boat was now, actually leaving a wake. Unfortunately, it was also immediately apparent why boats have rudders, since this flat bottom boat now had the worst case of oversteer I’ve ever seen.

With the powerful thrust, the boat basically shoved its ass-end all over the place with just a bit of nudging. The cool thing was that it could literally turn in its own length, though we were basically always turning until we could find neutral on the wheel.

My dad described what we had done as “like putting an outboard motor on a pie tin”, and I have to say that felt pretty accurate. It made for some great laughs (see the testing video here, highly recommended!) but was barely controllable. It felt like a bumper car on water.

To fix it, I added a simple bolt-on rudder on the motor shaft. Putting the boat back in proved that there was more control, but it still tends to oversteer a bit. Don’t get me wrong, it’s fun as hell, but it’s still doesn’t have the precision control I was hoping for. Oh well, it’s good enough for a $1,000 Chinese boat with nearly half as much added into it as part of the upgrades!

Now, the boat is solar-powered, so it never needs charging, and the power is much better to allow for some actually fun cruising at speeds of up to approximately 5 knots. I don’t think we’ll be pulling a water skier anytime soon, but we’re definitely leaving a wake now.

The last thing I need to do is add a pair of bilge pumps (it’s got two sponsons that create low points on either side, so I need two pumps). I had been putting off that project because I never thought I’d really need them, and it was more of a precaution in case of some type of freak accident where I rammed something submerged that holed the hull. I was also dreading putting a hole in a perfectly good fiberglass boat for the pump outlet, even if it was going to be well above the water line.

However, what I didn’t account for was Hurricane Milton, which put so much rain into the boat at such a steep angle that it actually started working its way under the rear bench and filling up the “engine room” area below deck. The boat is self-bailing, at least in normal rain, and has a central scupper that funnels rainwater down through the hull. With around a foot (30 cm) of freeboard, it’s never been an issue, even in hard Florida rains. But a Cat 3 hurricane is a different animal, and once enough water worked its way under the rear bench and the sideways wind/rain duo started tipping the boat, physics took the wheel and the below picture is how things looked after the storm passed.

Not as bad as it looks, though I’ll admit this doesn’t look good

Fortunately, this was pretty much the only damage my parents’ place took. The boat had probably 100 gallons 380 liters) of water below deck and so my dad couldn’t right it by himself. It sat that way for around six weeks until my next visit, when we pumped the water out. The hull was still secure and she floated right back to her former self.

Having survived two years of use and a Category 3 hurricane, it was time to finally give the old girl’ a name. I asked my subscribers for their recommendations and received hundreds of great ideas (including dozens of Boaty McBoatface) but finally decided on what I felt was the best name of all.

As you read this, the Sunny Side Up still floats, basking in the battery-charging sun and cruising the local private waterways at speeds fast enough to get a fist shaken at you in a no-wake zone.

She ain’t the prettiest boat out there. Nor the fastest. But she’s mine, and she’s beautiful to me.

Two years late, but I finally chose and applied a name during a christening ceremony at the lake

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Gogoro goes affordable with new Ezzy battery-swapping scooter

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Gogoro goes affordable with new Ezzy battery-swapping scooter

Taiwanese smart-scooter pioneer Gogoro is taking a step into more accessible territory with its newest model, the Ezzy. The company hopes to leverage its massive lead in battery-swapping technology while also bringing its smart scooters to a broader audience by lowering its price point.

Designed as a no-frills, budget-friendly ride that doesn’t skimp on modern conveniences, Ezzy is priced around NT$59,980 (around US $2,000). Once you add in the government subsidies from its native Taiwan, that price drops below NT$30,000 (around US $1,000). For Gogoro, this is the smartscooter distilled to its essential core: practical, connected, and ready for daily life.

The Ezzy looks like it is trying to build on Gogoro’s success with its 2024 Jego launch, the company’s previous forray into lower cost electric scooters. The Jego was a massive success and wound up resulting in around 40% of the company’s sales. Now the Ezzy looks to keep the good vibes rolling in a sleek, compact, and intuitive package.

The scooter features a rounded, minimalist body with a durable front panel and straightforward controls. Practicality is the guiding principle: a 68 cm (27 inch) long seat, spacious footwell, and a 28 liter (7.4 gallon) under-seat storage compartment, which the company says is large enough for two helmets – if they’re a 3/4 and a half helmet. Put it all together, and the features sound like they should make the Ezzy ideal for urban errands or weekend jaunts. Add in a built-in cupholder and flip-out footrests, and you’ve got a scooter designed to seamlessly slot into everyday routines with one or two riders aboard.

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The design is cute, but it’s under the panels where Gogoro usually tries to set itself apart. Ezzy is powered by a new hub motor capable of speeds up to 68 km/h (42 mph), high enough for city traffic while keeping maintenance low. The last time I was scootering around in Taipei, those speeds felt like plenty on the congested streets.

And while Gogoro’s scooters have long been impressive, the most important part of the company’s offerings isn’t even its rides, it’s how they’re powered. Ezzy integrates directly into Gogoro’s famed battery-swapping network, which includes thousands of swap stations around Taiwan.

Riders can skip charging downtime by swapping depleted packs at GoStation kiosks, which regularly see hundreds of thousands of battery swaps every day.

Electrek’s Take

In terms of performance, Ezzy strikes a balance. It’s not built for speed demons, but it likely won’t bog down in traffic either. It’s not overflowing with gadgets, yet includes thoughtful features that matter – cup holder, flip-out footrests, and room for two helmets. At around US $2,000 retail before subsidies, it’s clearly aimed at broadening access to smart two-wheeling in dense cities. And since the combustion engine scooters still dominate cities in most countries, making electric alternatives more affordable is a key part of displacing those heavy polluters.

This feels less like a normal launch and more like a strategic pivot for Gogoro. While the company’s premium Smartscooters – like the sports car-inspired Pulse or high-performance SuperSport – are impressive, they’re also spendy and niche. Ezzy, by contrast, looks like what Gogoro might want every city overpopulated by cars to embrace: a stylish, comfortable, and economical electric scooter that’s accessible to the masses.

It’s still early days and Gogoro hasn’t confirmed availability beyond Taiwan, but enthusiasm for affordable, swappable-battery electric scooters is growing. If Ezzy finds even moderate success in its initial market, it could pave the way for Gogoro to expand its smart ecosystem deeper into urban centers worldwide.

In short, Ezzy may not be a headline-grabbing performance machine, but that’s exactly the point. Sometimes progress happens not with fireworks, but with smart, thoughtful moves that make electric mobility more attainable for everyone. And that’s an evolution worth riding along with.

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750W e-bikes in Europe? Discussions underway to update e-bike laws

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750W e-bikes in Europe? Discussions underway to update e-bike laws

The e-bike industry in the West has long been a tale of two territories. North Americans enjoy higher speeds and power limits for their electric bicycles while Europeans are held to much stricter (i.e. slower and lower) speed and power limits. However, things might change based on current discussions on rewriting European e-bike regulations.

New power levels are not totally without precedent, either. The UK briefly considered doubling its own e-bike power limit from 250 watts (approximately 1/3 horsepower) to 500 watts, though the move was ultimately abandoned.

But this time, the call for more power is coming from within the house – i.e., Germany. The Germans are the undisputed leaders and trend setters in the European e-bike market, accounting for around two million sales of e-bikes per year. Home to leading e-bike drive makers like Bosch, the country has yet another advantage when it comes to making – or regulating – waves in the industry.

And while there aren’t any pending law changes, the largest German trade organization ZIV (Zweirad-Industrie-Verband), which is highly influential in achieving such changes, is now discussing what it believes could be pertinent updates to current EU electric bike regulations.

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Some of the new regulations involve creating rules maxing out power at levels such as 400% or 600% of the human pedaling input. But a key component of the proposed plan includes changing the present day power limit of e-bikes from 250W of continuous power at the motor to 750W of peak power at the drive wheel.

The difference includes some nuance, since continuous power is often considered more of a nominal figure, meaning nearly every e-bike motor in Europe wears a “250W” or less sticker despite often outputting a higher level of peak power. Even Bosch, which has to walk the tight and narrow as a leader in the European e-bike drive market, shared that its newest models of motors are capable of peak power ratings in the 600W level. That’s still far from the commonly 1,000W to 1,300W peak power seen in US e-bike motors, but offers a nice boost over an actual 250W motor.

Other new regulations up for discussion include proposals to limit fully-loaded cargo e-bike weights to either 250 kg (550 lb) for two-wheelers or 300 kg (660 lb) for e-bikes with more than two wheels. As road.cc explained, ZIV also noted that, “separate framework conditions and parameters must be defined for cargo bikes weighing more than 300 kg (see EN 17860-4:2025) as they differ significantly from EPACs and bicycles in their dynamics, design and operation.” Such heavy-duty cargo e-bikes, which often more closely resemble small delivery vans than large cargo bikes, are becoming more common in the industry and have raised concerns about cargo e-bike bloat, especially in dedicated cycling paths.

It’s too early to say whether European e-bike regulations will actually change, but the fact that key industry voices with the power to influence policy are openly advocating for it suggests that new rules for the European market are a real possibility.

ride1up prodigy v2 electric bike brose motor

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China overhauls EV charging: 100,000 ultra-fast public stations by 2027

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China overhauls EV charging: 100,000 ultra-fast public stations by 2027

China just laid out a plan to roll out over 100,000 ultra-fast EV charging stations by 2027 – and they’ll all be open to the public.

The National Development and Reform Commission’s (NDRC) joint notice, issued on Monday, asks local authorities to put together construction plans for highway service areas and prioritize the ones that see 40% or more usage during holiday travel rushes.

The NDRC notes that China’s ultra-fast EV charging infrastructure needs upgrading as more 800V EVs hit the road. Those high-voltage platforms can handle super-fast charging in as little as 10 to 30 minutes, but only if the charging hardware is up to speed.

China had 31.4 million EVs on the road at the end of 2024 – nearly 9% of the country’s total vehicle fleet. But charging access is still catching up. As of May 2025, there were 14.4 million charging points, or roughly 1 for every 2.2 EVs.

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To keep the grid running smoothly, China wants new chargers to be smart, with dynamic pricing to incentivize off-peak charging and solar and storage to power the charging stations.

To make the business side work, the government is pushing for 10-year leases for charging station operators, and it’s backing the buildout with local government bonds.

The NDRC emphasized that the DC fast chargers built will be open to the public. This is a big deal because a lot of fast chargers in China aren’t. For example, BYD’s new megawatt chargers aren’t open to third-party vehicles.

As of September 2024, China had expanded its charging infrastructure to 11.4 million EV chargers, but only 3.3 million were public.

Read more: California now has nearly 50% more EV chargers than gas nozzles


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