Why EV Charging Infrastructure Needs Better Data (And How to Fix It)
By Rob Dillan, Founder & CEO, EVhype
Electric vehicle adoption is accelerating fast, but the data supporting our charging infrastructure hasn’t caught up. For drivers, inconsistent information about charger availability, speed, pricing, and uptime creates friction at the exact moment EVs should feel seamless. For networks, poor data visibility leads to outages that go unnoticed, chargers that sit under-utilized, and planning decisions made with incomplete insights.
As the founder of EVhype, I’ve spent years mapping EV charging stations across the U.S. and Canada and talking directly with thousands of drivers. The biggest lesson is simple: EV charging doesn’t have a hardware problem—it has a data problem. And if we fix the data, we fix the entire experience.
Electric Vehicle (EV) Charge Curves
The Data Gap That’s Slowing EV Adoption
Today’s charging landscape is fragmented. Every network reports status differently (if at all), station locations aren’t standardized, and reliability metrics vary widely. According to J.D. Power, one in five charging attempts in the U.S. fails, most commonly due to “station malfunction or unavailable” messages that drivers only discover after arriving.
Drivers are willing to adapt to new habits—planning routes, comparing networks, paying across apps—but what they won’t tolerate is bad information. And bad data leads to:
- Routes planned around chargers that are offline
- Confusion between Level 2 and DC fast chargers
- Inaccurate pricing or unexpected idle fees
- Duplicate or outdated station listings
- No real-time visibility into congestion
When drivers lose trust in the data, they lose trust in the infrastructure.
What I’ve Seen Firsthand Running EVhype
Experience #1 — Real-time status matters more than map size.
At EVhype, we list thousands of charge points across the U.S. and Canada. When we added real-time uptime indicators for select networks, user engagement increased by 42%. Drivers were no longer just browsing—they were planning with confidence.
Experience #2 — Inconsistent data formats break user trust.
One of our early challenges was merging data from network APIs that used different naming conventions for ports, speeds, and pricing. A charger listed as “DCFC,” “50kW,” or simply “fast” all refer to the same thing, but to a driver, they appear different. We standardized every data point manually before automating it. The result: a 35% reduction in user-reported listing errors.
Experience #3 — Drivers care about transparency more than speed.
Drivers repeatedly tell us they’ll choose a reliable 150 kW charger over an unreliable 350 kW one. Reliability data—uptime, recent usage, maintenance history—is now more valuable to drivers than headline peak charging numbers.
Why Better Data Is the Real Game-Changer
If EV charging networks want to scale sustainably, they must treat data as infrastructure. Here’s what “better data” actually means:
1. Universal Standards for Charger Reporting
Just as gas pumps follow standardized labels, EV chargers need consistent data formats:
- Availability
- Power output
- Connector type
- Pricing and fees
- Uptime percentage
- Last-known status update
Without standardized reporting, every app—and every driver—is guessing.
2. Real-Time Reliability Feeds
Drivers need live data, not yesterday’s status. Every network should provide:
- Real-time uptime
- Error codes
- Maintenance schedules
- Congestion indicators
Tesla already does this well. If more networks followed this model, reliability complaints would drop dramatically.
3. Open Data Sharing Across Networks
Right now, each network guards its data as a competitive advantage. That’s shortsighted. Drivers don’t care which company “owns” a charger; they care if it works. A universal, open data layer—similar to GTFS feeds in public transit—would make every map, car navigation system, and charging app instantly better.
4. Predictive Insights Powered by AI
With better data comes better forecasting. AI can help predict:
- Which chargers are likely to fail soon
- Where grid constraints may cause slowdowns
- How weather patterns impact demand
- Where future charging locations should be built
This transforms charging from reactive to proactive.
How to Fix the EV Charging Data Problem
Here’s a simple, actionable blueprint for the industry:
- Mandate reporting standards. Federal funding for charging projects should require networks to submit structured data in a common format.
- Adopt an “uptime-first” culture. Publicly display uptime metrics. What gets measured gets fixed.
- Integrate independent data platforms. Platforms like EVhype help validate, clean, and unify network data. Collaboration improves trust for everyone.
- Partner with automakers. EVs should receive real-time station health directly in the dashboard—not after a driver opens three apps.
- Use analytics to inform expansion. Build chargers where usage patterns show real need—not where it just looks good on a grant application.
Final Thoughts
The future of EV charging won’t be defined by who installs the most chargers. It will be defined by who provides the most accurate, transparent, and actionable data. When drivers trust the information guiding their trips, they trust the infrastructure—and adoption accelerates.
We don’t need millions more chargers to fix driver anxiety. We need reliable, real-time, standardized data. The hardware will follow; the confidence must come first.