Smart 453EQ sa zapaljenim inverterom. Zasto EU ne štiti EU vozače od tvorničkih grešaka? Ne samo na strujićima već i na fosilcima/hybridima. Ona vozila koja su sa razlogom u opozivu jer je tvornička greška, ista je opasnost u Americi, Norveškoj, Kini i u opozivu je, besplatno mjenjaju dio o svom trošku. Kao nissan leaf sa škart opasnom baterijom zbog napuhavanja ćelija i kratkog spoja, kao što je Kia Soul u opozivu za bateriju i opasnost od napuhavanja ćelija pa mjenjaju besplatno, kao Stellantis OBC i baterije… i 50 drugih primjera, vozila su opozivu i mjenja se tvornicka greska svagdje osim u EU. Unutar EU vlasnici placaju tudje greške. Smart 453EQ ima osim programiranih kvarova i ne evidentiranu tvornicku gresku DCDC invertera koji je se u 5 evidentiranih slučajeva zapalio samo u Zagrebu, za dva vozila iz njemačke znamo da su i vozila nagorila kompletno. DCDC se nalazi u modulu motora (powertrain jedinica), osim glupog i nefunkcionalnog dizajna gdje za svaki kvar skidas kompletan zadnji kraj takodjer je i preskup, totalno neodrživ. DCDC je ovom vozilu “alternator” za punjenje malog akumulatora, sto se tocno desi niie jasno ali osim programirane greske kad se izbriše, poremeti, nije moguce ni fleshanjem online SCN osposobiti. Samo reparacija na stolu pomaže. Ustanovili smo da i loš akumulator ga ošteti. Takodjer ga ošteti ako antifriz nije pravilno ozračen, jer on se nalazi u samom vrhu sustava a hladi se sa antifrizom. A najzanimljivije je to što vecina vlasnika u garanciji ni nezna da im se zapalio DCDC, a sam razvoj horora ide ovako: ujutro se probudite smart ne vozi, odvezes u servis, javljaju da je velika baterija neispravna… ok garancija, čekaš, oni montiraju i zovu da je JOS NEŠTO NEISPRAVNO(to je znak). U nekim slučajevima ako je nagoreni dcdc zalijepio kontaktore i skurio bateriju/osigurac moguce da je DCDC i dalje u kratkom spoju od 0 ohm. Decki ugrade novu bateriju pa spale i nju. Nekad znaju dva puta mjenjati bateriju, dok ne skuže da je šlus i na autu. Onda zamjene powertrain jedinicu i bateriju pa Smart proradi. Ovlasteni servisi vracaju stare dijelove tvornici i niti ne znaju da je požar bio u modulu, koji srećom nije eskalirao dalje. Proizvodjač zna za problem ali od 2017 godine nitko nije napravio opoziv. Isti se problem desava na Twingu, Zoe i elektricnom Smartu 453EQ. Vrlo opasan problem za koji bi netko od proizvodjača trebao u zatvor. Problem je jako kompleksan jer dovodi u problem sve, i radi ogromnu stetu svima. Prvo mi ugradjujemo nove original komponente u DCDC kad je neispravan, medjutim on je i dalje tvornicka greška dizajnom, jer je i nov tvornička greška. Odgovornost prenose na nas da se čak razmišljamo kompletno obustaviti radove na ovom tipu vozila kao i za Nissan Leaf bateriie. Ovo je wakeup call vlasnicima da ipak kontaktiraju zastitu potrosaca i prijave problem jer na ovim temama i istazivanjima ne radi niko. Možda čak i NHTSA prijaviti. I vrlo bitno za napomenuti je da tehnicari ovlastenog servisa imaju vezane ruke, ne smiju otvarati powertrain za provjeru, odgovornost je najmanje na njima, samo na proizvodjuču. Ovo vozilo je za totalni opoziv DCDC invertera.
Part number: 292A05698R, A4533404500
Supplier: Delta
Engineering: Renault
Why isn’t the EU protecting its drivers from factory defects, not only in electric vehicles but also in ICE and hybrid cars? Take the Smart 453EQ for example, which has a recurring issue with a burning inverter. In other markets like the US, Norway, and China, vehicles are recalled, and faulty parts are replaced at no cost to the owner when factory defects pose safety risks. Examples include the Nissan Leaf’s battery issues due to cell swelling and short circuits, the Kia Soul’s recall over dangerous battery defects, and Stellantis’ recalls for onboard chargers and batteries. Yet in the EU, it’s a different story—owners end up paying for manufacturers’ mistakes.
Beyond programmed faults, the Smart 453EQ has an undocumented factory defect in its DCDC inverter, which has caused fires in five cases just in Zagreb, with two cars imported from Germany completely burning. The DCDC, responsible for charging the 12V battery, is placed within the powertrain module in a poorly designed, hard-to-access location that requires removing the entire rear end for repairs. Not only is this setup impractical, but it’s also costly and unsustainable.
The root issue is unclear, but besides the programmed fault that causes it to malfunction, attempts to enable it via online SCN coding have failed. It can only be fixed on the workbench. We’ve discovered that a bad battery or improper antifreeze circulation—since it’s cooled at the top of the system—can also damage the DCDC. What’s more alarming is that many owners are unaware their DCDC failed during the warranty period. Here’s how it often plays out: the car won’t start in the morning, it goes to the service center, they identify a problem with the main battery, and you wait for the warranty replacement. But then they inform you there’s “something else wrong,” indicating deeper issues.
In some instances, a burnt DCDC can weld its contactors, damaging both the battery and fuse, leading to a short circuit. Service centers may install a new battery, only for it to burn out again because they didnt check HV output resistance directly on the cable. It’s sometimes only after two battery replacements that the real problem is identified, prompting the replacement of the entire powertrain module. Yet, authorized service centers often return the damaged parts to the manufacturer, unaware that a fire occurred within the module. The manufacturer has known about this problem since 2017 but has not issued a recall. This issue extends to the Renault Twingo, Zoe, and electric Smart 453EQ, posing a significant safety hazard that should lead to accountability for the manufacturers.
The complexity of the issue means it affects everyone involved, causing substantial losses. Even after replacing the DCDC with new original components, the defect remains due to a flawed design. DCDC input and output doesnt have its own FUSE. Given the risks and responsibilities being unfairly placed on us, we are considering halting repairs on this model as well as on Nissan Leaf batteries. Owners need to take action by contacting consumer protection agencies to report these problems, as there are no ongoing investigations or corrective measures. Reporting to the NHTSA might be a necessary step.
The Smart 453 EQ encountered a significant charging issue, with the manufacturer in Germany quoting €8,000 for repairs, despite the actual cost of the faulty component being just €2. The issue stemmed from an inability to charge via Type 2. OEMs often opt to replace entire powertrain units rather than diagnosing and repairing individual components, but at EV Clinic, we specialize in in-depth diagnostics and component-level repairs.
In some cases, design choices prioritize aesthetics over serviceability, leading to complex and costly repairs for owners. In this instance, the fault appeared to be related to the onboard charger (OBC). However, after thoroughly inspecting the powertrain and finding no faults, we discovered a hidden fuse within the charge port cable. If this fuse fails, there is no redundant failsafe system to detect or report it. Despite this, an authorized service center had proposed replacing the entire powertrain for approximately €8,000, when the actual solution was simply replacing a €2 fuse in the charge port cable—an evident diagnostic oversight.
Additionally, it appears that multiple different failures, such as those involving the DC-DC converter, OBC, and inverter, are often addressed through full powertrain replacements, each reportedly costing around €8,000. This raises concerns about cost-effective repair strategies. In contrast, we find the older Smart 451 ED to be of notably higher quality and more serviceable, offering a more sustainable long-term ownership experience.
This was a mission of 3 months, a mission of a personal nature, a mission with the goal of saving the most beloved and highest quality small city EV from global cannibalization for parts. The Smart 451ED, first made by Tesla with its drive system in early 2008/09 for Daimler, was later produced by Daimler itself with the BOSCH drive system SMG180 electric motor, BOSCH AccuMotive, and “made in Germany” LiTec pouch 50Ah cells which were a fairly high technological achievement at the time. However, 10 years have passed and there are no adequate replacement cells available for these vehicles anywhere. This is also a story of the unsustainability of the automotive industry that doesn’t offer a long-term solution for replacement, and even “component level” parts, as this Smart 451ED chronically suffers from a lack of parts, especially for the battery system. The battery system, in addition to having integrated programmed BMS errors meant to bankrupt the owner, also has the long-term problem of degradation of the edge cells, which, despite active cooling and heating of the battery with antifreeze, leads to the crystallization of the electrolyte and damage to the cell layers themselves. As shown in the image below, where the edge of the cell has crystallized, risen, and started to cut into the layers of the adjacent cell.
A degraded battery pack typically has around 12 cells that need replacement to restore about 90% of the battery’s health. This is only possible if you have the materials on hand, and here lies the problem: there are no materials available. The only material that can be obtained is by cannibalizing one electric 451ED to repair 4-8 vehicles, of course, if only about 10 cells need replacement. However, in practice, the situation is even more dire because we’ve encountered cases where up to 80 out of 93 cells were damaged, which is essentially a total loss.
But for months we’ve been devising a plan and have found a solution. The solution came about quite accidentally in the form of recycled cells from a Ford Hybrid. The Ford Hybrid ended up as junk, where every hybrid arguably belongs, and we used its cells to design an entirely new battery assembly with a “block to pack” homologated and certified system that already had an integrated voltage sense PCB connector, steel housing, insulation, stress and drop test, and most importantly, state-of-the-art Samsung SDI Prismatic cells with a 6C discharge rate and 50Ah capacity. These cells perfectly match the old design in capacity, but with a significant improvement in cell body cooling, and crucially, a reduction in the overall battery weight by 50 kilograms while retaining the original battery capacity.
Thus, through mathematics, dimension measurements, and even before the start of the project, we concluded that this is the only adequate and safe solution for the reincarnation of the Smart 451ED. At the same time, it’s a solution that turns the Hybrid, the biggest misstep of the automotive industry, into something with a more noble and useful purpose than wasting resources on placebo “savings” and “cost-effective movement.” The project began as follows:
And in the end, it concluded like this and successfully operated from the first attempt:
In the entire process, we recycled absolutely everything. We utilized the original protective aluminum cage which served as the edge shield and holder for the original cells. The original “coolant plates” radiators were used, as were the original wiring for the 451 battery and the original wiring of the Ford block with “Voltage Sense wiring.” We incorporated the original busbar, BMS system, contactors, HV connector, fuses, and the entire protective structure with added reinforcement for the bottom and top parts of the battery system.
Before assembly, we conducted an OBD test on the table to ensure that we correctly connected all “voltage sense wiring” from Ford cells to the CSE slave balance board controllers.
Now, the most crucial part: the battery that served as a donor for this project had around 50 damaged cells and was deemed a total loss since the number of cells for replacement exceeded the vehicle’s value. The remaining functional cells were tested and recycled for the restoration of 3 vehicles from Croatia, each having about 10 damaged cells. Thus, we maintained a sustainability loop without the unsustainable cannibalization of another vehicle.
Now, some statistics, estimated prices, and our future plan. First: This battery reduced the vehicle’s weight by 50 kilograms, which will inherently reduce consumption and extend range. Second: It reduced the internal cell resistance from the old 1.1 mOhm to a new 0.98 mOhm, while the DCir was lowered from 3 mOhm to 1.2mOhm. This result is the holy grail of the entire project, as this reduces battery heating, thermal losses under load, and charging losses, all of which add a performance and range bonus. Third: Cell cooling is more efficient because it cools with a larger contact surface than before, where previously only copper bridges were cooled after battery terminals and small welds on connections. Fourth: We didn’t design the battery just to make it and then be unable to repair it ourselves or by a third party. The sustainability of any automotive product is based not on how expensive it is to fix, but on how simple it is to repair and replace a part. We configured blocks in the original casing with CSE wiring such that a few screws and some connector unhooking will easily replace the block. You don’t need an astronaut to fix the system as you would with a Hybrid or Hydrogen nonsense.
The system’s price will be between 6000 and 8000€ including VAT, where you leave your old unopened battery for exchange and receive a tested EVC battery. We’ll streamline the process to 3 work hours for battery service. Your old battery goes for EVC reincarnation, and the old cells are used to rescue other vehicles on the road, permanently halting cannibalization. Considering that the MB service asks for 14000e for another used battery and allegedly 28000e for a new one, this is more than an acceptable price for a far better, longer-lasting, and higher quality solution.
And now, the most important question is, “how many ‘million kilometers on a single tank with a catheter connected to the pee pipe’ does it go?” The range that, in practice, with a 10-year-old battery and somewhat healthy cells was around 90km in summer, and 60 in winter, we have raised it to a realistic 140 km range in summer at moderate temperature. We will test the winter range as it had the most significant losses due to the increased internal resistance of the cells at lower temperatures. This is a project I did for myself and my vehicle, so the effort invested in details is primarily focused on meeting my high demands for quality and sustainability. Driven by the goal to make it better than the original and to have a sustainable solution in the entire circular economy. I have closed that circle; it’s up to you to continue it with me.
And in conclusion, a point we’ve emphasized several times is that the European automotive industry is highly deceptive and unsustainable. They manufacture vehicles without providing a sustainable solution for sourcing/producing replacement parts, integrate programmed faults, and limit access to service information. Promoting eMobility as sustainable while selling unsustainable products is akin to the Dieselgate scandal, just dressed in silk.
Rest assured, EVC won’t let that slip under the radar.
HRVATSKI
PROJEKT “VALHALA”
Ovo je bila misija od 3 mjeseca, misija personalne prirode, misija u kojoj je bio cilj da najdraži i najkvalitetniji mali gradski EV spasimo od globalne kanibalizacije za dijelove. Smart 451ED kojeg je prvo Tesla napravila sa svojim pogonskim sustavom rane 2008/09 za Daimler, kasnije ih je radio sam Daimler sa BOSCH pogonskim sustavom SMG180 elektromotorom , BOSCH AccuMotive i “made in germany” LiTec pouch 50Ah celijama koje su u to vrijeme bile poprilično visoko tehnološko postignuće. Medjutim prošlo je 10 godina i za ta vozila nigdje nije moguće kupiti adekvatne zamjenske ćelije. Ovo je i priča o primjeru neodrživosti automobilske industirije koja ne nudi dugoročno riješenje za zamjenske pa čak i “component level” dijelove, jer ovaj Smart 451ED kronično boluje od nedostatka dijelova, najviše za baterijski sustav. Baterijski sustav osim što ima intergrirane programirane greške BMS-a kako bi vlasnika bankrotiralo, također je i dugorocni problem degradacije rubnih ćelija, koje i pored aktivnog hladjenja i grijanja baterije antifrizom dolazi do kristalizacija elektrolita i oštećenja samih slojeva ćelije. Kao što je prikazano na donjoj slici gdje je rub ćelije kristalizirao, uzdigao se i počeo rezati slojeve susjedne ćelije.
Jedan degradirani battery pack ima od prilike oko 12 ćelija za izmjenu kako bi se vratilo u obim 90% zdravlja baterije. To je moguće samo ako imaš materijal na stanju i tu nastaje problem, jer materijala nema. Jedini materijal koji se moze dobiti je kanibaliziranjem jednog elektricnog 451ED kako bi popravio 4-8 vozila, naravno ako je samo 10ak celija za izmjenu. Medjutim u praksi je priča još žalosnija jer imali smo primjere gdje je bilo oštećeno i 80 od 93 ćelije, što je ujedno i totalna šteta.
Ali zato smo mi mjesecima kovali plan i došli do riješenja. Riješenje koji je naišlo sasvim slučajno u obliku reciklirani ćelija iz Ford Hybrida, ford hybrid je zavrsio na smeću gdje je svakom hyridu i mjesto a mi smo ćelije iskoristili u dizjaniranje kompletno novog baterijskog sklopa sa “block to pack” homologiranim i atestiranim sustavom koji je imao već intergriran voltage sense PCB konektor, čelično kućište, izolaciju, stress i drop test i ono najbitnije, state of the art Samsung SDI Prismatic ćelijema sa 6C discharge rate i 50Ah kapaciteta koje u potpunosti kapacitetom odgovaraju starom dizajnom, ali sa jedni velikim poboljšanjem hlađenja tijela ćelije i ono najvažnije smanjenjm ukupne mase baterije za 50 kilograma zadržavajuci isti originalni kapacitet baterije.
Tako smo matematikom , mjerenjem dimenzija i prije samog početka projekta došli do zaključka da je ovo jedino adekvatno i sigurno riješenje za reinkarnaciju Smart 451ED. Ujedno i riješenje da Hybrid kao najveći promašaj autoindustrije ipak ima neku plemenitiju i korisniju svrhu od trošenja resursa na placebo “uštedu” i “jeftinije kretanje”. Projekat je ovako počeo:
A na kraju je ovako završio i uspješno proradio od prvi put:
U kompletnom procesu reciklirali smo apsolutno sve. Koristili smo original zaštitni kavez od aluminija koji je bio rubni štit i nosač za original ćelije, korišteni su original “coolante plate” hladnjaci, originalno ožičenje i 451 baterije i original ožičenje Ford bloka sa “Voltage Sense wiring”. Original busbar, BMS sustav, kontakotri, HV konektor, osigurači i kompletna zaštitna konstrukcija sa dodanim ojačanjem donjeg i gornjed dijela baterijskog sustava.
Prije samo sastavljanja napravili smo OBD test na stolu da potvrdimo da smo spojili pravilno sve “voltage sense wiring” sa Ford ćelija na CSE slave balance board kontrolere.
A sada ono najbitnije, baterija koja je bila donor ovom projektu imala je oko 50 oštećenih ćelija i baterija je progašena totalnom štetom jer broj ćelija za izmjenu prelazi vrijednost vozila. Ostatak ispravnih ćelija smo ispitali i reciklirali za resturacija 3 vozila iz Hrvatske koji su imali po 10 oštećenih ćelija. Tako da smo krug održivosti zadržali bez neodržive kanibalizacije drugog vozila.
A sad malo statistike, okvirne cijene i koji nam je plan za dalje. Prvo:Ova baterija spustila je masu vozila za 50 kilograma što će samo po sebu smanjiti potrošnju i povecati domet, Drugo: Smanjila je unutarnji otpor ćelije sa starih 1.1 mOhm na nove od 0.98 mOhm, dok je DCir smanjen sa 3 mOhm na 1.2mOhm. Taj rezulat je sveti gral cijelog projekta jer ovim smanjujemo grijanje baterije i termalne gubitke pod opterećenjima i gubitke na punjenju što paralelno dodaje plus na performanse i domet. Treće: Hladjenje celija je efektivnije jer se hladi vecom dodirnom površinom nego prije, gdje je prije hladilo samo bakarne mostove poslje baterijskih terminala i malih varova na spojevima. Četvrto: Bateriju nismo osmislili da je napravimo a da je ne možemo mi ili neko treći popraviti. Održivost bilo kojeg automotiv proizvoda temelji se na činjenici ne koliko je skup za popraviti, već koliko je jednostavan za popraviti i zamjeniti dio. Blokove smo konfigurali i originalnom kućištu zajedno sa CSE wiringom tako da je odvijanjem par vijaka i odpajanjem konekotra blok vani i jednostavno ga zamjenite. Ne treba vam astronaut da vam popravi sustav kao na Hybridu ili Hydrogen budalaštini.
Cijena sustava ce biti izmedju 6000 i 8000€ sa PDV, gdje vi ostavljate svoju staru neotvaranu bateriju na razmjenu a dobijate EVC bateriju testiranu. Proces ćemo svesti na 3 radna sata za servis baterije. Vaša stara baterija ide na EVC reinkarnaciju a stare ćelije idu za spašavanje drugih vozila na cesti tako da ćemo kanibalizaciju trajno zaustaviti. S obzirom da MB servis trazi 14000e za drugu rabljenu bateriju i navodno 28000e za novu, ovo je i vise nego prihvatljiva cijena za daleko bolje, dugotrajnije i kvalitetnije rijesenje.
A sada ono najbitnije pitanje je, koliko to ide “milijuna kilometara sa jednom rezervarom i spojenim kateterom na pipi”. Domet koje je u praksi sa 10g starom baterijom i koliko toliko zdravim celijama bio oko 90km ljeti, i 60 zimi, mi smo ga digli na realnih 140 km dometa ljeti na umjerenoj temperaturi. Domet zimi tek budemo testirali jer tu je imao najvece gubitke zbog porasta unutarnjeg otpora celija na nizim temperaturama. Ovo je projekat koji sam radio sebi za svoje vozilo, tako da ulozeni trud u detalje je primarno fokusiran da zadovolji moje visoke zathjeve kvalitete i održivosti. Vodjen ciljem da se napravi bolje nego je original i da je riješenje održivo u kompletnoj kružnoj ekonomiji. Ja sa taj krug zatvorio, na vama je da ga skupa nastavimo.
I na kraju kompletan zakljucak koji vec nekoliko puta naglasavamo je da je europska autoindustrija izrazito obmanjujuca i neodrziva, proizvode vozila za koje nemaju odrzivo rijesenje nabave/proizvodnje zamjenskih dijelova, integriraju programirane kvarove i limitiraju pristup servisnim infomarmacijama. Put kojim promoviraju eMobility kao odrziv a prodaju neodrzive prozivode je isto što i dizelgate afera, samo u svilenom ruhu.
Used OEM battery: 14000 Euro NEW OEM battery: 28000 Euro EVC NEW battery: 8000 Euro
You ask and we deliver. Smart 451ED BMS repair and reset operation manual is available in EVC Academy and in 15 steps you can stop cost policy where OEM request complete battery change because there is programmed defect which lock out battery pack. Sometimes even healty one must be changed because there is programmed defect in BMS. So if you are in trouble with programmed defect inside BMS unit we can successfully program it so your battery can live again.
Electric SMART 451ED with BRUSA NLG664 Onboard Charger repair operation manual by EVC Academy pursue 99% success rate of repairs on those units. We know there are forums and some free DIY instructions and everybody knows that capacitators are problem but they are not complete and without tips&tricks how to prevent total damage during repair process. We had 20 inquires for repair of those devices but owners tried to repair it themselves and they destroyed PCB and other components which are not produced anymore. In most cases after DIY attempt, repair is not possible. Problem is that this OBC is 8000€ in Mercedes workshop and 20 owners with DIY repair attempts from FREE Forum instructions ended up with total 160,000€ of damage and 20 immobilised vehicles. Which is is unsustainable path to maintain EV. I can freely say that total EV Killer is free forum repair. We made full repair instruction with full part list and webshop link, because thise parts are not produced anymore and hard to find and only same dimension fits inside.
Smart 453 EQ – A Costly and Challenging Repair Landscape
After extensive testing and repeated analysis, we have found that this vehicle presents some of the most complex and costly repair challenges in recent automotive history. Many critical components are integrated in such a way that even minor malfunctions require the removal of the entire electric powertrain—a time-consuming and expensive process.
For instance, if the DC-DC buck converter (which charges the 12V battery from the high-voltage system) fails, accessing it requires dismantling a significant portion of the vehicle, including 350 bolts, cables, connectors, and covers. However, what makes the situation more problematic is that, instead of replacing just the defective component, the standard repair procedure at authorized service centers involves replacing the entire drive unit at a cost of approximately €5,500.
Bundled Replacements & High Repair Costs
If a failure is diagnosed in the DC-DC converter, the entire RLC filter, DC-DC converter, onboard charger (OBC), and VFD inverter are all replaced simultaneously—every time. Similarly, if the onboard charger (OBC) fails, the entire assembly is replaced again because all components are integrated into a single aluminum housing on the electric motor.
No individual component sales: The manufacturer does not offer separate replacements for these parts, making every repair a full powertrain replacement at a minimum of €5,500.
Drive motor issues: We have also observed instances of electric motor failures (buzzing, scraping, rattling, etc.) appearing at approximately 100,000 km, though further analysis is needed.
Warranty limitations: The warranty for these crucial components is only 2 years or 20,000 km, meaning many owners encounter major repair costs early in the vehicle’s lifespan.
Battery Management & Programmed Faults
Beyond powertrain replacements, we have identified multiple recurring issues affecting the high-voltage battery system, including:
BMS hardware failures (serial defect)
Firmware-related BMS errors
Crash lock & counter limitations
Recurring warranty disputes over repair eligibility
Over the past two years, EV Clinic has researched and documented every possible failure mode, as well as all available solutions and repair methods. Unfortunately, these issues significantly impact the reliability and long-term sustainability of the Smart 453 EQ, which otherwise serves as an excellent urban EV.
Industry Trends & Manufacturer Strategy
These challenges are not exclusive to the Smart 453—we have observed similar powertrain issues across multiple electric models from this manufacturer since 2010. While we remain committed to finding sustainable repair solutions, it is evident that these design choices lead to high long-term ownership costs for EV drivers.
Part number: A4533404500, 292A05698R
Error: P0852F1, P085296
OEM Workshop: 5500 euro
EV Clinic: 1500 euro
What we offer:
-Full powertrain disassembly training
-Full DCDC Repair training
-Full OBC Repair training
-Full Drive inverter cloning, programming and repair training
-Full Battery repair training
-Full BMS software reading, writing and programmed defect reset training
Troy fell because of horses and EV trust will fall because of this Smart 453 (not 451 which is 10x better). There is nothing worse to work on, repair and pay for defects. Each breakdown is €5,000 starting price up to €15,000. This one came from Belgrade with only 2000 km on the clock. The battery went into programmed BMS failure for unknown reasons. After that, the BMS is permanently locked, it cannot even drive or charge. This failure was unsolvable until we were the first in the world, after 6 months of work, (4 years ago) to crack the OTP programmed failure for the first time, to manually fix it in the eeprom of the SPC564 processor. Programming the BMS controller alone is not enough, as the newly created deep discharge failure was not resolved, recovery charging and balancing needed. The removal of this defect to an authorized service center costs €15,000 and there was no alternative before. This battery normally has 4 serial errors: internal instrument ISO ohmmeter defect, processor defect, programmed failure with amplifier how many times you activate the contact (180000), hardware error boot sector on 12V powerglitch bug, voltage drop due to low SOC discharge…etc etc. Most of the crying happens already at 20,000-30,000 km. It is advisable to recommend the vehicle to the mother-in-law, stepmother, ex-wife and other enemies.
Troja je pala zbog konja a EV povjerenje će zbog ovog Smarta 453 (ne 451 koji je 10x bolji). Nema goreg za raditi, popravljati i plaćati defekte. Svaki kvar je 5000€ start cijena pa sve do 15000€. Ovaj je došao iz Beograda sa samo 2000 km na satu. Baterija je otišla iz nepoznatih razloga u programirani BMS kvar. Nakon toga se BMS trajno zaključa, ne može ni voziti ni puniti. Ovaj kvar je bio ne riješiv dok nismo prvi u svijetu nakon 6mj posla (prije 4 godine) uspjeli provaliti po prvi put OTP programirani kvari, ručno ga otkloniti u eeprome SPC564 procesora. Samo programiranje BMS kontrolera nije dovoljno ukoliko se ne rijesi i novo nastali kvar dubokog praznjenja, zatim punjenja i balansiranja. Otklon ovog defekta u ovlastenom servisu košta 15000€ i nije bilo alternative. Ova baterija inače ima vise od 4 serijeske greške: defekt ISO ohmmeter unutarnjeg instrumenta, defekt procesora, programirani kvar sa projačom koliko puta aktivirate kontakt (180000), hardwerska greška boot sector na 12V powerglitch bug, voltage drop zbog low SOC discharge… itd itd. Većina plakanja se dešava već na 20000-30000km. Vozilo je poželjno preporučiti punici, maćehi, bivšoj i ostalim dušmanima.
REPAIR+RECYCLING Li-Ion Batteries We offer: Battery repair, BMS Repair, Cells, Repair training. CONTACT US
Electric Smart 451 ED 2014 from Koper, after 2 days of measurement and we repair it in one day, the malfunction of reduced range and shutdown at only 20%.
Range increased from 40km to almost 100km range. Out of 93 pouch cells, on the first measurement 3 showed reduced capacity where the entire battery pack suffered, because the battery is as strong as the weakest cell in the series. The total capacity was only 9.5-10.2kWh out of a maximum of 18.7kWh. 4 precisely located cells were replaced, where the electrolyte crystallized around the edge and reduced the total capacity. However, this still does not mean, according to the interpretation of “fossilizers”, that the old ones are defective and that we have to throw them away, given that they still have 50% of their nominal capacity, we will give them a new role, we will use them to restore “12V Boosters” for starting diesel and gasoline engines when their 12V battery runs out. Very often Boosters with lead batteries do not even last a few months. So if you find all those Lithium batteries that are poisoning nature from media headlines or you see someone throwing them away, please bring them to us… we pay.
The repair of this 8-year-old Smart with 32,000 km cost €1,300 including VAT. The cost is lower because it arrived on time in driving condition, the BMS was not locked. Savings of €9,000.
POPRAVKA+RECIKLAŽA li-Ion Baterije
Električni Smart 451 ED 2014 iz Kopra, nakon 2 dana mjerenja i popravke u jednom danu, otklonjen kvar smanjenog dometa i gašenja na samo 20%.
Domet dignut sa 40km na skoro 100km dometa. Od 93 pouch ćelije, na prvom mjerenju 3 su pokazale smanjeni kapacitet gdje je cijeli battery pack trpio, jer baterija je jaka kolko je jaka najslabija ćelija u seriji. Ukupan kapacitet je bio samo 9.5-10.2kWh od max 18.7kWh. Zamjenjene su točno locirane 4 ćelije kojima je po rubu kristalizirao elektrolit i smanjio ukupni kapacitet. Medjutim to i dalje ne znači po tumačenju “fosiledžija” da su stare neispravne i da ih moramo baciti, s obzirom da i dalje imaju 50% nazivnog kapaciteta budemo im dali novu ulogu, od njih radimo restauraciju “12V Boostera” za paljenje dizelaša i benzinaca kad im se 12V akumulator isprazni. Vrlo često Boosteri sa olovnim baterijama ne izdrže ni par mjeseci. Tako da ako nadjete sve te Litij baterije koje truju prirodu iz medijskih natpisa ili vidite da ih neko baca, molimo da nam ih donesete.. plaćamo.
Reparacija ovog Smarta starog 8 godina i sa 32000km koštala je 1300€ sa PDV. Trošak je manji jer je na vrijeme došao u voznom stanju, BMS nije bio zaključan. Ušteda 9000€.
P18051C – The cell voltaes of the hybrid/high-voltage battery module are too high. The voltage value is outside the permissible range.
If you’ve never stood as a guarantor for a questionable loan, never had a less-than-pleasant experience in a high-security facility, never borrowed money from a less-than-official lender, or never owned a temperamental Citroën, VW, or BMW hybrid but want to experience all of that at once—this exceptional vehicle might be your perfect introduction.
German engineering, once renowned for its excellence, hasn’t just declined slightly—it seems to have reached an entirely new dimension. To perform a simple task like inflating the tires, one must first remove the entire engine, as the valve is ingeniously placed inside the motor’s stator. But before even attempting that, you’ll need to split the car in half—yes, literally!
Repair costs for this masterpiece don’t start at €1,000, nor €2,000, or even €3,000. Instead, every significant issue demands an eye-watering €5,500, because the solution is always the same—replace the entire powertrain module. If your windshield wipers stop working, you might as well contact an industrial machinery specialist to weld a whole new front end of the car—because, apparently, that’s the more practical approach.
But wait, there’s more! This vehicle boasts not just one, but four distinct faults that require full module replacements, two of which appear to be software-related. And the fun doesn’t stop there—battery defects? Of course! Not just a minor issue, but six different recurring serial faults. Out of those, three are seemingly software-triggered (contactor counter, impact detection, and cell imbalance OTP error), leading to the inevitable replacement of a perfectly functional battery—at a staggering cost of €15,000.
The challenges associated with this vehicle remained unresolved until it arrived at EV Clinic. Over the course of 12 months, we conducted extensive research across three different fleets and multiple vehicles, identifying and addressing numerous technical issues. Through this process, we uncovered a range of design choices that significantly impact repairability and maintenance.
For instance, the high-voltage cable incorporates integrated cylindrical 40A fuses, meaning that if a fuse fails, the entire cable must be replaced instead of a simple fuse swap. Additionally, we observed a recurring issue with the internal instrument in the Battery Management System (BMS) responsible for measuring insulation resistance. In its current design, the standard repair approach requires replacing the entire battery pack rather than just the affected BMS component.
One notable aspect of this vehicle is that body parts are relatively affordable, which may provide some cost benefits in certain repair scenarios.
Let’s go through the serial defects:
DCDC hardware defect: €5500 DCDC programmed fault: €5500 Inverter: €5500 Charger: €5500 Motor bearing: €5500 Fuse in the type 2 cable port: €800 Battery after a crash – programmed fault: €15,000 Battery “unable to charge” internal bug never resolved by the manufacturer: €25 million BMS ISO error: €15,000 BMS programmed fault P18051C: €15,000 Front headlight Daylight LED DCDC: €350
To highlight the positives, this car is an excellent choice for city driving. Its compact size makes parking and maneuvering effortless, making it a practical urban vehicle. However, when it comes to long-term ownership and maintenance, it is best suited for those with deep expertise—like us at EV Clinic—or for someone with close ties, such as a family member, trusted friend, or colleague. For the average owner, maintaining this vehicle can present significant challenges.
At EV Clinic, this model will serve as our future replacement vehicle for clients, but we do not recommend purchasing it unless the price is low enough to account for the potential high repair costs. If there’s one thing we firmly stand against, it’s unreliable vehicles—regardless of whether they are electric, hybrid, or combustion-powered. In contrast, the first-generation Smart 451 ED is a well-designed and durable electric vehicle, offering far better engineering solutions and fewer faults, making it our recommended choice.
EV Clinic’s Perspective on Repairability:
While electric mobility has great potential, certain design choices can make repairs unsustainable. Models such as the Smart 453 EQ, Renault Twingo, and Renault Zoe R240 appear to have been designed in a way that leads to recurring failures, often at intervals as low as 50,000 km—or, in some cases, as little as 10,000 km. While we cannot change the original design, our goal is to help customers avoid unnecessary spending on non-sustainable repair solutions.
A particularly concerning issue is the use of non-repairable onboard charging (OBC) systems. Instead of using commercially available and serviceable components, these models incorporate the FS200T12A1T4 Infineon HybridPACK1 IGBT—a component typically designed for driving electric motors but repurposed here for handling 22kW charging power. Unfortunately, this IGBT is not available for purchase separately, nor is the Battery Charger Box (BCB) module itself. As a result, when a fault occurs, the only option offered by the manufacturer is to replace the entire powertrain box, leading to excessive costs.
Additionally, testing repairs on these systems requires full disassembly and reassembly—an intricate process that can take up to eight labor hours just to verify whether the fix was successful. Our mission at EV Clinic is to introduce sustainable repair solutions where possible, even when the original design does not prioritize serviceability. While this is not always easy and can be time-consuming, we are committed to making electric vehicle repairs more practical and cost-effective.
This is Research and Development lab for EV and PHEV vehicles. Our primary sponsors are defect Hybrids and ICE Dismiss
Important for ALL customers! 🚗⚡
Our lab is located on a secured site with access control and closed gates, spontaneous visits are not possible!
Due to high demand and our limited capacity, we may not be able to respond to your requests immediately. Delays of up to 2 weeks are possible due to multiple employees being sick and a shortage of workforce.
📅 Please schedule an appointment in advance via email so we can register your access. Visits without invitation is forbiden.
Smart 453EQ sa zapaljenim inverterom. Zasto EU ne štiti EU vozače od tvorničkih grešaka? Ne samo na strujićima već i na fosilcima/hybridima. Ona vozila koja su sa razlogom u opozivu jer je tvornička greška, ista je opasnost u Americi, Norveškoj, Kini i u opozivu je, besplatno mjenjaju dio o svom trošku. Kao nissan leaf sa škart opasnom baterijom zbog napuhavanja ćelija i kratkog spoja, kao što je Kia Soul u opozivu za bateriju i opasnost od napuhavanja ćelija pa mjenjaju besplatno, kao Stellantis OBC i baterije… i 50 drugih primjera, vozila su opozivu i mjenja se tvornicka greska svagdje osim u EU. Unutar EU vlasnici placaju tudje greške. Smart 453EQ ima osim programiranih kvarova i ne evidentiranu tvornicku gresku DCDC invertera koji je se u 5 evidentiranih slučajeva zapalio samo u Zagrebu, za dva vozila iz njemačke znamo da su i vozila nagorila kompletno. DCDC se nalazi u modulu motora (powertrain jedinica), osim glupog i nefunkcionalnog dizajna gdje za svaki kvar skidas kompletan zadnji kraj takodjer je i preskup, totalno neodrživ. DCDC je ovom vozilu “alternator” za punjenje malog akumulatora, sto se tocno desi niie jasno ali osim programirane greske kad se izbriše, poremeti, nije moguce ni fleshanjem online SCN osposobiti. Samo reparacija na stolu pomaže. Ustanovili smo da i loš akumulator ga ošteti. Takodjer ga ošteti ako antifriz nije pravilno ozračen, jer on se nalazi u samom vrhu sustava a hladi se sa antifrizom. A najzanimljivije je to što vecina vlasnika u garanciji ni nezna da im se zapalio DCDC, a sam razvoj horora ide ovako: ujutro se probudite smart ne vozi, odvezes u servis, javljaju da je velika baterija neispravna… ok garancija, čekaš, oni montiraju i zovu da je JOS NEŠTO NEISPRAVNO(to je znak). U nekim slučajevima ako je nagoreni dcdc zalijepio kontaktore i skurio bateriju/osigurac moguce da je DCDC i dalje u kratkom spoju od 0 ohm. Decki ugrade novu bateriju pa spale i nju. Nekad znaju dva puta mjenjati bateriju, dok ne skuže da je šlus i na autu. Onda zamjene powertrain jedinicu i bateriju pa Smart proradi. Ovlasteni servisi vracaju stare dijelove tvornici i niti ne znaju da je požar bio u modulu, koji srećom nije eskalirao dalje. Proizvodjač zna za problem ali od 2017 godine nitko nije napravio opoziv. Isti se problem desava na Twingu, Zoe i elektricnom Smartu 453EQ. Vrlo opasan problem za koji bi netko od proizvodjača trebao u zatvor. Problem je jako kompleksan jer dovodi u problem sve, i radi ogromnu stetu svima. Prvo mi ugradjujemo nove original komponente u DCDC kad je neispravan, medjutim on je i dalje tvornicka greška dizajnom, jer je i nov tvornička greška. Odgovornost prenose na nas da se čak razmišljamo kompletno obustaviti radove na ovom tipu vozila kao i za Nissan Leaf bateriie. Ovo je wakeup call vlasnicima da ipak kontaktiraju zastitu potrosaca i prijave problem jer na ovim temama i istazivanjima ne radi niko. Možda čak i NHTSA prijaviti. I vrlo bitno za napomenuti je da tehnicari ovlastenog servisa imaju vezane ruke, ne smiju otvarati powertrain za provjeru, odgovornost je najmanje na njima, samo na proizvodjuču. Ovo vozilo je za totalni opoziv DCDC invertera.
