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How EV charging station maintenance reduces costs and increases reliability

Renewable energy, Energy management

The number of electric vehicles (EVs) on Australian roads is expected to reach 22 million by 2030, which will result in a dramatic increase in demand for EV supply equipment (EVSE) infrastructure. How do we meet it?


EV charging station sign against a bright blue sky with fluffy clouds

The biggest problem with EV Charging Infrastructure

Right Now Charging station reliability has been a big issue since the early days of EVs, largely due to a lack of preventive maintenance and slow response time for fixing outages. You can often find EV charging stations around malls, big box retailers, and grocery stores, yet along highways and outside of urban areas, EV charging stations can be few and far between. Those stations that do exist may or may not be fully functional when you drive up, which creates powerful “range anxiety” for EV drivers, who worry about keeping their vehicles charged on long-distance trips.

Successful infrastructure to meet the growing EV demand depends on availability and reliability. Reducing servicing costs for EVSE station owners and operators is critical to increasing both.

Regular EVSE maintenance reduces costs and increases reliability

One way to reduce EVSE service costs — and increase reliability — is to streamline inspections so that EVSE manufacturers and station owners can commit to an ongoing, proactive program of preventive maintenance. Proper maintenance helps minimise downtime and reduce lost revenue from non-functional chargers. Regular maintenance can also help reduce replacement costs by maximising the useful life of charging equipment.

Woman testing an EV charging station while holding a laptop More EVs need more charging stations, which means more technicians are needed to keep those stations functioning reliably and safely.

Some EVSE manufacturers already offer total care plans that guarantee a certain level of uptime for their equipment, and this will likely become an increasingly common standard. A big challenge to implementing those plans is the shortage of experts trained to troubleshoot and maintain EVSE installations. That challenge creates new opportunities and revenue streams for local electrical professionals to install, certify, and maintain the equipment.

A new tool to streamline EVSE maintenance

A tool like the Fluke FEV300 EVSE Test Adapter makes EVSE preventive maintenance more cost-effective and efficient by streamlining the inspection process, thus reducing the time and labor required for maintenance and troubleshooting.

Fluke FEV300 and connector sitting on a curb in front of an electric vehicle at a charging station The Fluke FEV300 lets a technician test an EV charging station without an EV.

A typical preventive maintenance protocol for an EV charger includes cleaning the cables, connectors, and filters, and then checking operability. In the past, the charger operability testing required connecting an actual EV to the charger to see whether the unit was working. This required moving the vehicle from charger to charger. If the charging sequence didn’t start, there was no easy way to tell whether the problem was with the charger or with the vehicle.

Man in optic yellow jacket connecting the Fluke adapter to the cable on an EV charging station New tools like the Fluke FEV300 EVSE Test Adapter can make EVSE maintenance and troubleshooting safer, easier, and faster.

The FEV300 simulates the control pilot charging state of an electric vehicle and automates several safety and functionality tests — with no EV required. The technician simply connects the adapter to a charging port and runs a protective earth (PE) pre-test grounding safety check to make sure the station is wired correctly, and that the PE is functioning. The FEV300 includes a ground fault circuit interrupter function test to ensure the RCD will trip when necessary. With an FEV300, a single technician could test a charger in 10 to 15 minutes.

The FEV300 allows electricians to delegate monthly preventive maintenance inspections to a technician who has completed 5 to 10 hours of EVSE training. If everything checks out, the charger is good for another month. If the technician finds a problem that needs more extensive evaluation, they can call in a licensed electrician to diagnose and fix the problem. This reduces average servicing costs and makes it more practical for EVSE station owners and operators to commit to a regular preventive maintenance program. It also frees up electricians to address problems that require more expertise and produce more revenue.

Faster, easier EVSE troubleshooting

An electrician gets a head start on troubleshooting with an FEV300 because it can quickly identify the most common EVSE problems. Once the problem is identified, the electrician can connect more advanced tools to get to the root cause. For example, they can simulate multiple charging states with the FEV300 and connect a digital multimeter, like the Fluke 87V Industrial Multimeter, to verify voltage transfer from the charger to the EV in each charging state. They can also simulate PE and CP ground fault errors and verify on the digital multimeter that the voltage from the charging station to the EV cuts off when those occur.

Man in optic yellow jacket testing an EV charging station with an FEV300 and a Fluke scopemeter A technician can use the FEV300 with other tools, like portable oscilloscopes and power quality testers, to check out a charging station and identify common issues as part of a preventive maintenance program.

For more advanced testing, electricians can connect other test tools to the FEV300, like the Fluke 120B Series Industrial Scopemeter™ or  such as portable oscilloscopes and power quality testers to an EV adapter to assess insulation resistance, power quality, waveform, and loop impedance analyses, among other measures.

Reduced EVSE service costs are key to EV growth

Being able to delegate more EVSE preventive maintenance to skilled technicians, and helping licensed electricians troubleshoot more complex problems more quickly, can significantly reduce inspection costs, thus making a commitment to preventive maintenance programs more financially attractive to EVSE operators and owners.

The results: more opportunities for electrical professionals to expand into EVSE support, and ultimately a more reliable EVSE infrastructure. At last, EV drivers will be able to be confident that they can charge their vehicles wherever they drive.