Hmm, this unit was made in 2023, I would have thought that was well after the supply shortages recovered. There is NO shortage of Panasonic, Omron etc decent quality relays that I am aware of.

They can switch suppliers but they can't update a brochuer? Hmmmkay.

Interesting. But the inverter is widely used. We will see.with time

When substituting components for chinese equivalents sometimes they can be superior especially recently. The challenge is to maintain that consistency in the supply chain because the first 10,000 off may even be rebadged as chinese when they are not until you replenish further down the line and find out they change it. If the manufacturer monitors failure rates and keeps track of what fails the results can be surprising, why spend 5$ on a relay when $1 has no additional failures. We perhaps need to change our perceptions that its automatically rubbish if note made here or a brand we don't recognise, in a lot of cases they come down the same production line. Its maintaining that quality and keeping fakes out of the supply chain thats a pain - and that applies to branded stuff as well.

@@ThePonderi my brand new new Deye 50K uses Nichicon capacitors, didn't go further inside to check the semiconductors. But some are still using the old brands.

GREAT!!!!!!!!!!!!!!!!!!! :):):)

I don’t know how they ever managed to obtain or enforce that patent. Multilevel inverter topologies have been published in literature for decades, and the single-phase tri-level topology is both commonly known and bloody obvious. Where is the innovation in it?

@@simontillson482 The whole patent system is a swamp of morons frankly. It starts with the patent offices and ends with the courts. My company holds a patent for a simple mathematic operation on a measured value in a niche industry. Everytime someone mentions it I can't help but shake my head... Likewise some of our competitors hold patents that block us because they managed to patent basic mechanical principles. One of them even managed to patent a simple translatoric servo system. It's not about actually protecting ingenuity, it's just a way for big companies to troll one another.

Although don't forget while the original EP2086102A3 patent has expired *in some regions* , the name "HERIC" is a legally separate and distinct registered trademark which will never expire (if renewed correctly).

@@WizardTim I don't believe any inverters sold have ever boasted in print 'Contains HERIC(TM) technology.' This would infringe on the use of the trademark name. Today, the inverters just boast a global conversion % efficiency.

Made of the finest Chinesium you can get though. We promise.

They almost got away with ommiting the AC main relays in their microinverters (or not using them). They left them out because it's a failure prone item. They used them for the regulatory test units but not in retail ones. German regulators didn't like that move and pulled them from the market and mandated them to install relays.

I totally agree, but in that case we have to shut down 99% of all companies?

what you expect? they are chinese after all.

@@p_mouse8676yes we should! But not permanently, just long enough for them to wake up to the fact that regulatory agencies don’t want them skirting the system.

Where is the dealer?

@@robertheritage-i8h Truganina

Who the f would open an entire production line just to make resistors. Unbelievable BS.

My Sun-8k SG04LP3-EU which is three phase has the real deal inside---> Nichicon all the way😃 It was produced in August 2022! So maybe the had to cheap out on the way....?

​@@animarkzeromaybe this is part of the Chinese companies' response to America's trade wars. Preemptively swap out western and Japanese components before they get banned.

Yeah, fair enough.

But they must have some sort of DC elimination strategy for normal operation - it's easy to end up applying a small amount of DC to the transformer over a long period from changes in modulation (phase shift, duty cycles etc.) and then you end up with core saturation. Either there is a blocking cap hidden along with the transformer in that potted enclosure, or they're doing something fancy like measuring the core flux or one of the other uncommon ways of mitigating this issue (maybe something to do with the extra leads), in which case, why put one on the high voltage side?

Probably PSFB and not running it all the way to 100%/50% dutycycle, bleeding off any extra flux in that "short" time

I was thinking it could be susceptible to flux walking and maybe it was an llc as there is a large series capacitor labelled Cr5 on the hv side but there are other parts missing in that case. It's likely operated differently.

I would have thought that they would be using an LC resonant tank circuit to reduce losses and therefore only need one capacitor. I don't think it would have anything to do with safety. Not sure if they are doing a full DAB topology without looking at transformer construction and switching waveforms

Yeah, was still annoying and sticky enough to not easily be able to get the coils out though.

@@EEVblog That was a really good teardown man. Between you showing the parts numbers and their ability to produce a decent looking silk screen a person could practically duplicate that thing, if it were worth duplicating that is. You were showing those links etc and talking about them needing more is definitely reminding me if these potted controllers. These are very high wattage dealies from electric dirt bikes so 10k+ wattage. They are linking these phases etc so unevenly it drives me nuts. You spend 2 hours depotting the thing and you still have to get to the power stage board underneath the brains of it and then it's just all kinds of ugly when you get to it. Just biggkes the mind. No wonder they encased it like Han Solo, they were embarrassed for anyone to see it. I try to comfort myself by thinking they use a thermal camera and just add more links at hot spots and someone actually cares but that probably not a thing. What I see happening is this, one company haxs a bunch of different names they operate under, they saturated the market so it looks like there are choices. They own all the most well known brands for this specific market so they are only competing with themselves but no one realizes this. They purposely provide some of the worst documentation . China has quite a few people I've heard, but apparently one that speaks English and understands these controllers is not possible. People get fed up and just switch brands. To be fair they really go out of their way to obfuscate the fact that they are all connected. They even choose different protocols etc between brands, maybe to make you buy another programmer or maybe it's just the difference in usage in Asian markets. People are using what are motorcycle controllers on bicycles. They get you coming and going, I guess it's good business maybe? I don't run my business that way but I don't live in China either so there's that. I hope those inverters are cheap. The Chinese metric system I always just assume the numbers they give you can probably run at 33% comfortably and %50 if you want to push it so you buy 3 if the things, use 2 to equal 1 good one, have a 3rd as a spare which you are definitely going to need and you still have money left over. How can you compete with that? Sometimes you put out the money for the good one and it dies too . Step right up, spin the wheel. Everyone's a winner. Uh huh.

@@zentechnician Very nice explanation of how the Chinese market works.

@@patrickpafarnis5798 To be fair our companies do the same stuff. I think it was a National Geographic article maybe that I read about a Consumer Reports type company that realized that 3 of the washing machines they had fur review were the same machine. Whirlpool owns lots of brands they dosone Kenmore stuff and Amana, I think Maytag too. Many more. So the machines all performed exactly the same, the difference was different art of the control panels and slightly fancier plastic knobs on the Amana. So there was a cheap one then the next one up was like 60 bucks more, and then the Amana with the fanciest knobs was $130 more. Everything underneath that outer shell was exactly the same aside from some branding, but it was all made in the same factory. This us like one of those brain on drugs commercials. Who taught you this? I learned it from you dad I learned it from you. lol

@@zentechnician They must like gambling if that's how they do business, I kind of get why they like gacha games so much.

Thats right, power-semis and electrolytics are exclusively Japanese, European and/or US sourced.

and that is one of the reasons the solarks are so much more expensive. i am sure.

@@ursodermatt8809 I know. I wasted money and time buying cheaper inverters. All my problems went away when I bought the Solark.

They an OEM manufacturer - they make inverters for SunSynk as well besides for themselves - same case and board but the panel software is different, and they got their own dongle and website.

Thats the key point, external well known brands check to insure BOM parts match, because they have a reputation to maintain. SOP for Chinese manf's of Western goods will simply run extra shifts with similar Chinese parts to minimize unit cost and utilize the R&D thats aleady been done and the end profit it simply amazing. Amazing what you can make when you have cheap labor, cheap parts, and high-end existing IP already paid for.

We'll see, fingers crossed.

For modern cheap Chinese hybrid inverters ' you have to dissassemble them first (DON'T TURN ON), look carefully, add all points of soldering needed, etc. Only then, after carefull inspection - you can turn it on, under a power.

I tried a Growatt Inverter for about 2 weeks and cut my losses pretty quickly. Over volting the batteries and forcing them to shutdown into protection mode.

How do the two extra IGBTs improve the design? I can see the point if it were a split phase design with a split bus cap, but for single phase, doesn't that achieve the same result as simply just turning on both low side or both high side IGBTs?

@@NiHaoMike64 It's the same result except for the common mode voltage applied between the DC and grid side, which if done at high frequency may create common mode noise issues due to the environmental capacitance between the solar arrays and ground. So maybe HERIC reduces the common mode noise filtering requirement.

@@RLPE Wouldn't it be more straightforward to have the AC output inductance all on the hot side and just have the neutral side be switching at a low frequency?

A normal h bridge switching 3 level creates a pwm frequency common mode square voltage on the dc side. This is because during the 0 state with both high or both low switches are on and thus a common mode voltage is presented to the grid. Using the extra two switches for this 0 state means the grid side is effectively disconnected from the high voltage dc side and no common mode voltage is presented. Also need to realise that the grid is earth reference so any common mode voltage present actually appears on the hv bus side wrt earth. Now all those heat sunk devices (on an earth heatsink) and even the solar panel array are all pinging away at pwm frequency to earth. That's an emi nightmare, it'll probably just blow up from self interference. SMA had their own H5 that achieved the same thing. Also various H6 and other esoteric versions of h bridge have been proposed to overcome this.

​@@NiHaoMike64 To be equivalent the pwm operated half bridge would need to operate at twice the frequency... Good luck with 1200V igbt. Or the inductor be twice as big. This is however a more feasible idea with GaN and is called a totem pole PFC. You can also look at a single phase neutral point clamped topology that gives 3 levels from a half bridge tied to the active while the neutral ties to the dc bus mid point.

i think the specs where for the american solark which is something like 3 times more expensive.

@@ursodermatt8809 Deye branded brochure, and was given to the Australian owner

Other way around.

lol USA really has a love hate relationship with China. Here in Europe we have far more real European options, for example from Europe. Where are your TRUE American inverter companies ?

Those links are handy because you can fit thousands of them on one slim reel in the PnP machine, low weight, fast to place etc. With those body diodes, I've been meaning to do a video on how regen braking on cars work which uses those nicely.

@@EEVblog You surprise me - I would have thought that body diodes would have far too much voltage drop compared with turning the FETs on, but I bow to your expertise!

@@EEVblog Regen braking absolutely does not use the body diodes! Voltage synthesis is active at all times ie gates are being fired. Body diodes are really only conducting during dead time period and these days that's very short

don't worry - the inverter will fail much faster than the battery😅

@@mihaiachim5299 Yes, and also there should be no load on it unless there is no grid, PV or storage battery! I've got a heating programmer that's well over 20 years old and its CR2032 still powers it fine if the mains fails.

It's just for the realtime clock.. could last 10-20 years in that duty. The display PCB controls all the communication and user interface and scheduling for different time based modes.

@@hilo90mhz You may well be right but given where it is, wont it be a throw-away when it does? Given we are "trying to save the planet"(TM) that doesn't seem like the bet idea ever.

​@@stusue9733it's actually quite easy to get to the back of the screen, I have opened mine. Just the 8x hex screws and you're there. So really not hard to replace.

agreed. however, the main DSP chip seemed to be the same. Your teardown vid was awesome btw. We used to be a Deye dealer, but now we sell SolArks. reliable and best support in the biz.

Yes, definitely.

If that fise is going to blow, I think that arcing in this particular area is one of the "minor" issues.

Not likely, because shiny metal surfaces have low IR emissivity, so their capability to dissipate heat radiatively is very low. Copper with solder mask on it radiates heat an order of magnitude better. Emissivity of shiny metal is like 0.05-0.1, with any non condutive coating it goes up to 0.8-0.98.

​@@mrnmrn1 LOL. OK sure, pal.

Fair call.

Pretty sure it's a matter of the sales people not updating that brochure... I have their HV model and it does have real TI DSP and I believe Nippon capacitors.. didn't check the fets.. but they have used all those brands in the past, they're just not keeping up with the marketing materials as they lower costs.

Sounds like someone is speaking from experience. ;-)

@@blockbertus Any stuff would work. I learned this through an accident ;-)

Yes of course.

nobody is making large quantities of cheap high powered GaN mosfets or IGBTs yet. Certainly not cheap enough to offset their cost in the device's expected 5-15year lifespan with efficiency improvements only

Oh wow, that's a how long is a piece of string question.

There is some kind of plastic insulation between them @ 7:54

Yeah, you overlooked the plastic sheets dividing each toroid. Pretty great build quality, but why the lies? I hate false advertisement sooooo much

@@cannesahs yeah, thanks

@@brentdennard6722 the cure is not to buy :) But we love good lies…. That’s the problem … We love good specs for good money … and sometimes you can achieve this through an honest and successful design and other times through lying…

@@brentdennard6722 Yes, there is an insulation sheet between each one.

From the manual I understand that there is a separate 'backup load' that gets the fine stuff on grid outage.

If the grid goes down, some relays will separate the grid from the inverters AC rail.

I'm old.

No way

Electrical part failure and permanent MOSFET shoothrough. BUt as someone pointed out, it's 150A fused.

The tooling, molds and production lines were probably all part of the initial ramp-up expense made by the initial Western company. Why shut the plant down at 1700 hours and let it sit not making money?

@@boots7859 was referring to the PC board components that are sourced out.

The grid has an impedance, as does the inverter. The output filters also act to form a bit of a buffer. The inverter simply controls it's applied voltage to either take current from the gird (output V lower than grid) or to push current onto the grid (Vout > Grid) The votlage is of course in the AC domian and hence the inverters waveform must comensurately match that of the grid, ie it must be "sync'd" to the grid frequency

Lots of complications: being "grid tied" it has to synchronise its AC output to the phase/frequency/voltage of the grid, and also instantly disconnect if the grid fails, for safety reasons (to avoid electrocuting anyone working on the supply). In terms of power direction, at its simplest I guess if the voltage on the DC bus is higher than the grid, it exports; otherwise, it imports.

The simple answer is that they use closed loop sinusoidal current control performed digitally inside the dsp. If you can control current into a stiff voltage (the grid) you can control power. Another way to think about it is that it is a like buck converter when generating and becomes like a boost converter when charging. But with sinusoidal current.

@@otherphoenix1 Explains why it's difficult to find an explanation of how this works! What "sample rate" does the system need to operate at to control the output?

These micro-inverrters were allegedly grey imported by german vendors Not shure if it was deyes fault or if they had been built for other countries.

In theory the rest of the board has solder mask whcih does the same thing. You only need to cover the exposed solder connections.

The coating is expensive… all costs add up

The most likely places for moisture induced leakage current and corrosion is where the lead spacing is fine, like SMD ICs and other SMD parts. When your board is full of connectors you can't submerge it into a pool of lacquer, so they hand paint it, and to save time and material, they paint it only where it is really neccessary.

A lot of the coating is over parts that are either safety isolation or high voltage functional isolation. You don't need it everywhere if you want lowest cost.

You can't conformal coat connectors or they will fail, so you selectively coat. And as mentioned coating blank spots on the board is a waste of money.