More Range per Charge or More Years per Battery? Rethinking What Matters in EVs

By Deepak Mutreja
(Vice President – Sales & Marketing, Suzuki Motorcycle India Pvt. Ltd.)

The electric two-wheeler (EV 2W) market in India is booming, driven by the urgent need for sustainable mobility. While range per charge dominates conversations, the real breakthrough in EV technology lies elsewhere—battery longevity, reliability, and long-term value.

As the industry matures, we must shift focus from the “race for range” to a more balanced approach—one that prioritizes durability, safety, and cost-efficiency over short-lived performance claims.

The Flawed “Range Race” Mindset

Many manufacturers compete on maximum range figures, but this often comes at a cost:

• Faster battery degradation (NMC batteries lose capacity quicker).
• Higher replacement costs due to shorter lifespans.
• Compromised safety with energy-dense but unstable chemistries.

At Suzuki, we believe the true measure of an EV’s worth isn’t just how far it goes today, but how well it performs 5 years from now.

Reliability & Longevity: The Real EV Game-Changers

1. Battery Chemistry Matters: LFP vs. NMC

While most EVs use Nickel Manganese Cobalt (NMC) batteries for high energy density, Suzuki’s e-ACCESS adopts Lithium Iron Phosphate (LFP) technology, offering:

Why LFP Wins:

• 2–3x longer lifespan = Lower cost of ownership.
• Stable chemistry = Safer in India’s extreme climates.
• Consistent performance = No steep range drop over time.

Also check: How LFP Battery technology used in e Access scooter provides long term value

Also check: Full photo gallery of all new Suzuki e Access Electric Scooter in Pearl White color

2. Smart Engineering for Real-World Durability

A battery is only as good as its protection and management systems. The e-ACCESS features:

• Advanced Battery Management System (BMS): Prevents overcharging, deep discharges, and overheating.
• Ruggedized Design: Aluminium casing, vibration resistance, and waterproofing.
• Rigorous Testing: Extreme heat, cold, and impact tests for reliability.

3. The Hidden Cost of “High-Range, Low-Durability” EVs

A scooter with a 100 km range today might drop to 60 km in 2–3 years if built with inferior battery tech. This leads to:

• Frequent recharging (inconvenience).
• Early battery replacements (high costs).
• Poor resale value (rapid depreciation).

In contrast, an LFP-based EV like the e-ACCESS retains ~80% capacity even after years, ensuring long-term usability and savings.

The Future of EVs: Sustainability Beyond Range

The industry must evolve from selling specs to delivering lasting value. Key priorities should include:
Battery Health: Slow degradation > temporary range boosts.
Rider Trust: Dependability over marketing hype.
Total Cost of Ownership: Lower maintenance, fewer replacements.

At Suzuki, we’re committed to engineering EVs that last, not just ones that look good on paper. The e-ACCESS embodies this philosophy—a scooter built for decades, not just headlines.

FAQs: Range vs. Battery Life in EVs

Q1: Is a higher-range EV always better?
Not necessarily. If the battery degrades quickly, you’ll face reduced range, frequent charging, and costly replacements. Longevity matters more.

Q2: Why does Suzuki use LFP batteries?
For safety, longevity, and lower costs. LFP lasts 2–3x longer than NMC and is less prone to overheating.

Q3: How long does the e-ACCESS battery last?
With proper care, LFP batteries can retain 80%+ capacity for years, far outperforming NMC alternatives.

Q4: Will Suzuki expand its EV lineup?
Yes. We’re investing in reliable, rider-centric EVs that prioritize sustainability, not just range numbers.

Final Thought:
The best EV isn’t the one with the highest range—it’s the one that stays dependable, safe, and cost-effective for years. That’s the future Suzuki is building.

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