2013 BMW i3
- Failure index
- 55/100 (Moderate risk)
- Segment
- Hatchback
- Battery
- 22.6 kWh · NMC
- Battery supplier
- Samsung SDI
- Range (WLTP/EPA est.)
- 190 km
- Fast charging
- 50 kW
- Drivetrain
- RWD
- Region
- Europe
- 5-year degradation (est.)
- 18%
- Known issues
- European launch year; 60Ah Samsung SDI pack with documented long-term degradation; NHTSA 13V-044 positive battery cable connector recall affects early production
Editorial assessment
The 2013 i3 is the European launch year of BMW's first purpose-built production EV and a genuine milestone in automotive history. Assembled at Leipzig alongside the i8, the vehicle pioneered the LifeDrive architecture — an aluminum Drive Module housing the 60Ah Samsung SDI battery pack (22.6 kWh gross, 18.8 kWh usable) and a carbon fiber-reinforced plastic Life Module forming the passenger cell. No other mass-market vehicle had attempted CFRP at this scale before, and in retrospect BMW got the cell-to-pack mass ratio more right than the subsequent price proved commercially justifiable.
US sales had not yet begun in 2013 — North American deliveries started in Q2 2014 — so the 2013 calendar year is European-only production. NHTSA campaign 13V-044 affected early European production via a positive battery cable issue: tin-coated connectors susceptible to fretting under high current flow, with potential for non-starting, instrument cluster flicker, or engine stall in motion. Remedy involved replacing the connector with a silver-coated version. Most affected vehicles have been remedied by now, but VIN verification through Transport Canada or regional EU equivalents remains the only authoritative check.
Because 2013 i3s are rare in North American used inventory, buyers encountering one should proceed with the understanding that this is a collector-adjacent vehicle rather than a practical commuter. Parts availability, battery degradation on the original 60Ah pack, and orphaning risk all apply.
Editor's take
The 2013 i3 is the vehicle that BMW used to announce its serious intent on electric mobility. It sold on architecture rather than specifications — 81 miles of EPA range was modest even in 2013, but the chassis engineering underneath was genuinely ahead of its time. Driving one today feels like driving a concept car that somehow made it to production, which is both its charm and its liability. Every review that called the original i3 brilliantly engineered and commercially improbable was correct on both counts. At a decade of age with the original 60Ah pack, it is a museum piece in motion.
Buy, lease, or walk away
Our take
Buy used with caution
A 2013 i3 is a defensible purchase only for buyers who understand they are acquiring a niche collector vehicle, not a commuter EV. Battery state-of-health verification is mandatory — the 60Ah packs have documented degradation of 25 percent or more after a decade, and some climate-exposed examples have lost 30-35 percent capacity. Range of 50-60 miles on a fully depreciated pack is the likely reality.
The campaign-completion check is quick: NHTSA and European regulator VIN lookup should confirm 13V-044 remedy status. Beyond that, service history, battery bar count, and an independent EV technician's state-of-health scan are the three essential due-diligence items. Private-party sales with no documentation are higher risk than the discount typically justifies.
Price guidance: Target $6,000-$10,000 for European-market examples with documented service history and verified campaign completion. Collector premiums may apply on low-mileage launch-period examples with original Laurel Grey paint. Avoid paying above $14,000 — a 2017 94Ah will be better ownership at that price.
This is editorial commentary based on depreciation data, warranty timing, and platform risk. Not financial advice — consult a qualified professional for significant purchase decisions.
Worldwide regulatory status
Cross-jurisdictional defect tracking for this model year. This table summarizes publicly filed safety campaigns across regulators. Always verify your specific VIN against the regulator database for your jurisdiction — the summaries below do not substitute for official VIN lookup.
Positive battery cable connector fretting
Trigger: Tin-coated battery cable connectors in vehicle trunk-to-fuse-box power transfer path susceptible to fretting under high current cycling
Failure mode: Non-starting condition, instrument cluster display flicker, or engine stall in motion with loss of vehicle systems
Remedy: Replace positive battery cable connector with silver-coated version and add secondary securing fastener
BMW risk scores over time
Every BMW vehicle we rate, plotted by model year. Lower scores indicate lower reliability risk.
- This vehicle — the 2013 i3 you're viewing
- Low risk — failure index 0–30
- Moderate risk — failure index 31–60
- High risk — failure index 61–100
Data points: 2013 i3: 55, 2014 i3: 60, 2015 i3: 58, 2016 i3: 58, 2017 i3: 48, 2018 i3: 45, 2019 i3: 40, 2020 i3: 42, 2021 i3: 45, 2022 i3: 50, 2022 i4: 40.
What the score means
A failure index of 55/100 places this vehicle in our moderate risk band. Vehicles in this band have one or two concerning factors, typically a less-mature platform, a mid-tier battery supplier, or limited recall history. Suitable for buyers comfortable with average ownership costs.
See our full six-factor methodology for how this score is calculated.
Verify with your regulator
The regulator in your jurisdiction is always the authoritative source for whether your specific VIN is affected by an open safety campaign. Check the database below using your vehicle identification number.
- United States — NHTSA (US)
- Canada — Transport Canada
Before you buy or sign — what to verify
Our risk rating is a category-level assessment based on platform, chemistry, supplier, and documented recall history. It is not an assessment of any specific vehicle you are considering. Individual vehicle condition varies substantially based on factors outside the manufacturer's control — and those owner-side factors often matter more than the platform rating.
Owner behavior matters more than most people realize
Two identical 2013 BMW i3s can be in dramatically different condition at the same odometer reading. The variables that matter most:
- Driving style. Hard acceleration, aggressive braking, and high-speed cornering accelerate wear on battery cells, suspension components, tires, and brake systems. An owner who regularly uses full regenerative braking without balancing with normal friction braking will wear rotors differently than a smooth driver — and neither is the manufacturer's fault.
- Charging habits. Routine DC fast-charging to 100% on NMC or NCA battery chemistry accelerates degradation materially. An LFP-equipped variant charged daily to 100% is fine; an NCA Long Range variant charged that way is not. Charging habits over three or four years can make a 20-point difference in effective battery health between otherwise identical vehicles.
- Climate exposure. Vehicles kept in garages last dramatically longer than those parked outdoors in extreme climates. Salt exposure on coastal routes or heavily salted winter roads accelerates corrosion of undercarriage components regardless of manufacturer.
- Scheduled maintenance. Manufacturers publish specific inspection requirements — typically every 12-24 months — that are conditions of full warranty coverage. Owners who skip these inspections may have valid warranty claims denied, which is not the manufacturer failing the owner but the reverse.
The pre-purchase inspection checklist
Before buying any used EV — especially one in our Moderate, High, or Critical risk bands — commission a pre-purchase inspection from a qualified EV technician. Not a general mechanic, not the dealer selling the vehicle, not a friend with tools. A technician with documented EV service experience.
The inspection should include at minimum:
- Battery state-of-health diagnostic scan. Every major EV platform exposes battery SOC and capacity data through the OBD2 port or manufacturer diagnostic tools. A three-year-old vehicle should retain 90%+ of original capacity; a five-year-old should retain 85%+. Substantially worse numbers indicate either platform issues or abuse.
- Tire condition and wear pattern analysis. Uneven wear indicates alignment issues or aggressive cornering. Mismatched tire brands or sizes across axles indicates the owner cut corners on replacement. Season-inappropriate tires (summer tires year-round, worn-out all-seasons in snow regions) indicate poor upkeep broadly. Tire tread depth and rotation history are among the most reliable diagnostics of overall owner care — a well-maintained vehicle almost always has well-maintained tires.
- Service record review. Ask for complete service history. Dealer-stamped maintenance logs, software update records, and any warranty claims filed. Gaps in the service history matter. Multiple address changes in the service records may indicate the vehicle traveled between owners faster than typical — worth investigating why.
- Visual inspection for signs of abuse. Undercarriage damage, curb rash, curb-struck wheels, aftermarket modifications without documentation, and signs of collision repair not disclosed by the seller.
- Recall campaign completion verification. Run the specific VIN through the regulator databases linked above. Every applicable recall campaign should show "remedy completed" status. If campaigns are outstanding, get them completed before taking possession — campaigns that were not completed by the previous owner may transfer to you as the new registered owner.
Manufacturer maintenance requirements matter for warranty
EV manufacturers typically require specific inspections at defined intervals — often every 12 or 24 months — as a condition of full warranty coverage. These include brake fluid changes, cabin filter replacements, coolant system inspections, tire rotations, and software updates. Owners who neglect these requirements may have warranty claims denied even for issues entirely unrelated to the neglected item.
Check the specific owner's manual for your BMW i3 to understand what inspections are required and when. A vehicle with a complete documented inspection history is measurably more valuable — and lower risk — than an otherwise identical vehicle without maintenance records. When buying used, verify the service history yourself with the manufacturer's dealer network; don't rely solely on what the seller tells you.
What this rating means, specifically
A high failure index score indicates that the category of vehicle (this model, this year, this platform) carries elevated risk relative to alternatives. It does not mean any specific 2013 BMW i3 you encounter will fail. Conversely, a low failure index score does not guarantee a specific well-maintained vehicle is risk-free — a neglected low-risk vehicle can easily be worse than a well-maintained high-risk vehicle.
The rating is a starting point for due diligence, not a substitute for it.
This rating is an editorial assessment based on publicly available data and is not a safety rating, reliability guarantee, or buying recommendation. Individual vehicle condition varies substantially based on owner maintenance, driving style, charging habits, and environmental exposure. A high risk score does not predict failure of any specific vehicle, and a low risk score does not guarantee reliability. Always commission a pre-purchase inspection from a qualified EV technician, verify recall completion through the manufacturer and relevant regulator, and review complete service history before any significant purchase decision.