Teardown

559 Articles

How A Belkin USB Charger Pulls Off A 3 Milliwatt Standby Usage

March 22, 2026 by 18 Comments
Belkin charger standby power. (Credit: Denki Otaku, YouTube)
Belkin charger standby power. (Credit: Denki Otaku, YouTube)

A well-known property of wall warts like power bricks and USB chargers is that they always consume some amount of power even when there’s no connected device drawing power from them. This feels rather wasteful when you have a gaggle of USB chargers constantly plugged in, especially on a nation-sized scale. This is where a new USB-C wall charger by Belkin, the BoostCharger Pro, is interesting, as it claims ‘zero standby power’, which sounds pretty boastful and rather suspect. Fortunately, [Denki Otaku] saw fit to put one to the test and even tear one down to inspect the work of Belkin’s engineers.

Naturally, no laws of physics were harmed in the construction of the device, as ‘zero standby power’ translated from marketing speak simply means ‘very low standby power usage’, or about 3 milliwatt with 0.3 mA at the applied 100 VAC.

Fascinatingly, plugging in an e-marker equipped USB-C cable with no device on the other end caused this standby usage to increase to about 30 mW, clearly disabling the ‘zero standby’ feature. With that detail noted, it was time to tear down the charger, revealing its four PCBs.

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Studying A Battle Born LFP Battery’s Death Under Controlled Conditions

March 19, 2026 by 30 Comments
The test setup for the Battle Born LFP cycling. (Credit: Will Prowse, YouTube)
The test setup for the Battle Born LFP cycling. (Credit: Will Prowse, YouTube)

There has been quite a bit of news recently about the  Battle Born LiFePO4 (LFP) batteries and how they are dying in droves if not outright melting their plastic enclosures. Although the subsequent autopsies show molten plastic spacers on the bus bars and discolored metal in addition to very loose wiring, it can be educational to see exactly what is happening during repeated charge-discharge cycles at a fraction of the battery’s rated current. Thus [Will Prowse] recently sacrificed another Battle Born 75 Ah LFP battery to the Engineering QA Gods.

This time around the battery was hooked up to test equipment to fully graph out the charging and discharging voltage and current as it was put through its paces. To keep the battery as happy as possible it was charged and discharged at a mere 49A, well below its rated 100A.

Despite this, even after a mere 14 cycles the battery’s BMS would repeatedly disconnect the battery, as recorded by the instruments. Clearly something wasn’t happy inside the battery at this point, but the decision was made to push it a little bit harder while still staying well below the rated current.

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Teardown Of A 2026 LEGO SMART Brick

March 18, 2026 by 44 Comments
LEGO SMART brick from its side. (Credit: EvilmonkeyzDesignz, YouTube)
LEGO SMART brick from its side. (Credit: EvilmonkeyzDesignz, YouTube)

At the beginning of March this year LEGO released their new SMART brick, which looks like a 2×4 stud brick and is filled to the brim with sensors, LEDs, NFC and Bluetooth functionality, as well as a purported custom ASIC. The central idea behind it appears to be to add a lot of interactivity to LEGO builds while allowing for mesh-style communication with other SMART bricks. Naturally, this makes it a great subject for a teardown, which is what [EvilmonkeyzDesignz] over on YouTube did in a recent video.

Normally the only way you can purchase one of these new bricks is by buying them as part of a ‘Smart Play’ set, but someone was selling singular bricks on EBay. As the brick is inductively recharged, it’s pretty well-sealed, requiring a fairly destructive opening method.

Directly below the transparent top is a speaker, with the opposing PCB on the main body containing a microphone as well as a number of RGB LEDs. On the opposite side of this PCB we find the photo sensor, but to get to this part of the PCB the copper wires that wrap around the entire main assembly have to be disconnected from the PCB’s side pads with some force as they’re apparently pressed in place without the use of solder.

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A Look Inside The Creative MB-10 MIDI Blaster

March 3, 2026 by 16 Comments

Before it became viable to distribute and play music tracks on home computers, the use of FM and Wavetable synthesis was very common, with MIDI Wavetable-based devices like the Roland MT-32 and SC-55 still highly sought after today. The Creative Midi Blaster MB-10 that [Yeo Kheng Meng] reviewed and tore down for an analysis isn’t quite as famous or sought after, but it provides a good example of what Creative Labs was doing at the time in this space.

Released in 1993, it definitely has more of a popular style vibe to it than the utilitarian Roland devices, even if this means highly impractical curves. In the list of features it claims Roland MT-32 emulation, which would have made it quite a bit more useful to the average user, including gamers of the era. Games like DOOM supported these MIDI devices for audio, for example.

In terms of price only the Roland SC-55ST comes close to the MB-10, similarly dropping a screen and a host of features. In terms of features the MB-10 claims far fewer instruments than the SC-55 variants, with even with the slightly higher priced SC-55ST massively outgunning it in raw specs. So would you ever buy the MB-10 back then and consider it a ‘good deal’? If $100 in 1990s money was worth losing full MIDI compatibility for, then it seems the answer was ‘yes’.

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Teardown Of Dangerous Fake Wago Connectors

March 1, 2026 by 31 Comments

Everyone loves Wago connectors for how versatile and effective they are for quickly and securely connecting conductors, but it can be tempting to buy a bag of the significantly cheaper knock-offs. The reason why this can be a terrible idea is explained by [Big Clive] who tore down a few bags of them to ogle at their internals.

The main problem with some of these knock-offs is the way that they use the plastic molding as part of the structure that holds the conductors in place. Over time this plastic will develop larger tolerances, with heat developed from passing large currents speeding up the process. As the examined type of connector relies on metal clamps that securely push the conductor onto the busbar, having the plastic weaken, and the clamp correspondingly loosen up, is clearly not a desirable scenario.

As [Clive] says in the video, you’re probably okay using these cheapo knock-offs for a quick test on the bench, but you should never put them in a permanent installation. Not just due to potential fiery scenarios, but also for insurance claims should the worst come to pass, and the insurance company finds dodgy connectors everywhere in the electrical wiring. This isn’t the first we’ve heard of knock-off Wago problems.

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Time to enjoy your favorite TV shows. (Credit: SpaceTime Junction, YouTube)

Vend-o-Vision: Trading Quarters For Watching TV In Public

February 28, 2026 by 16 Comments
The timer mechanism of the Vend-o-Vision. (Credit: SpaceTime Junction, YouTube)
The timer mechanism of the Vend-o-Vision. (Credit: SpaceTime Junction, YouTube)

There was a time before portable TVs and personal media players when the idea of putting coin-operated TVs everywhere, from restaurants to airports and laundromats, would have seemed like a solid business model. Thus was born the Vend-o-Vision by Mini-TV USA, which presented itself as a cash earner for businesses and a way to make their customers even happier. One of these new-in-box units recently made its way over to [Mark] of the SpaceTime Junction YouTube channel.

This unit is very simple, with what appears to be an off-the-shelf Panasonic black-and-white TV with UHF and VHF reception capability, inside a metal box that contains the timer mechanism, which is linked to the coin mechanism. Depending on a physical slider with three positions, you get anywhere from 10 to 20 minutes per quarter, with the customer having to tune into the station themselves using the TV’s controls. A counter mechanism is provided as an option.

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Inside A Compact Intel 3000 W Water-Cooled Power Supply

February 22, 2026 by 10 Comments

Recently [ElecrArc240] got his paws on an Intel-branded 3 kW power supply that apparently had been designed as a reference PSU for servers. At 3 kW in such a compact package air cooling would be rather challenging, so it has a big water block sandwiched between the two beefy PCBs. In the full teardown and analysis video of the PSU we can see the many design decisions made to optimize efficiency and minimize losses to hit its 80 Plus Platinum rating.

For the power input you’d obviously need to provide it with 240 VAC at sufficient amps, which get converted into 12 VDC at a maximum of 250 A. This also highlights why 48 VDC is becoming more common in server applications, as the same amount of power would take only 62.5 A at that higher voltage.

The reverse-engineered schematic shows it using an interleaved totem-pole PFC design with 600 V-rated TI LMG3422 600V GaN FETs in the power stages. After the PFC section we find a phase-shifted full bridge rectifier with OnSemi’s SiC UF3C065030K4S Power N-Channel JFETs.

There were a few oddities in the design, such as the Kelvin source of the SiC JFET being tied into the source, which renders that feature useless. Sadly the performance of the PSU was not characterized before it was torn apart which might have provided some clues here.

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