Key Takeaways
- Unexpected battery no-starts are among the most expensive and disruptive failures fleet operations face — and systematic monitoring makes them predictable and preventable.
- On-board battery monitors track state-of-charge and state-of-health in real time, alerting fleet managers before a battery reaches failure threshold.
- Preventative maintenance testing on a fixed schedule — using a standardized tool like the DSS-5000 HD — catches batteries that pass casual inspection but are close to failure under load.
- Cloud-based data aggregation lets fleet managers verify shop testing compliance and identify which vehicles, routes, or depots have the highest battery failure rates.
- Combining on-board monitoring with periodic PM testing creates a layered defense against no-starts that no single approach achieves alone.
One of the biggest problems that confronts Fleet Operations is the dreaded, unexpected failure of a battery that results in a No-Start event when a truck is in transit on a route or scheduled for route deployment. No-Start events represent enormous cost and profit leakage for Fleet operations, not to mention loss of productivity and damage to Customer relations.
Midtronics has developed ground-breaking on-board battery monitoring, advanced testing & diagnostic solutions, along with data transmission, aggregation, and analytics to help fleet managers avoid and prevent No-Start events before they happen. Midtronics’ new BMS-300 on-board battery monitor examines the truck’s battery current, voltage, and temperature in real time and interfaces with the vehicle telematics system to communicate battery state of charge and state of health information back to fleet operations.
An important component to ensuring fleet vehicles have appropriate battery health is implementation of a rigid shop Preventative Maintenance protocol. This is centered around shops conducting uniform battery testing protocols at prescribed time intervals. Midtronics has developed an easy to use, customizable Heavy Duty battery tester, the DSS-5000 HD, that performs battery and system tests for starters and alternators with an easy-to-use touchscreen interface and simple menu prompts to execute the process. The tester stores all test records on the tester and transmits those records via wi-fi to a cloud-based website where the records are aggregated. The data can be analyzed for operational trends, problems, and remedies. The data transmission of the records enables fleet operation managers to ensure process compliance in shops for prescribed Preventive Maintenance testing.
Robust Preventative Maintenance battery testing protocols, on-board battery health monitoring, and rich data analysis is a proven method of preventing unexpected battery failures that are extremely disruptive and costly to fleet operations. There are different types of battery testing technology available that are suited for different needs and applications. Sign up to learn more about how our technology can significantly impact your fleet’s operating costs.
To discuss your specific needs/application, click the button below to fill out the form or email John Philbrook at jphilbrook@midtronics.com.
Frequently Asked Questions
What is the biggest battery-related cost driver in fleet operations?
Unplanned no-start events. When a truck fails to start on a route or at deployment, the cascading costs — emergency towing, technician dispatch, route reassignment, missed deliveries, and customer impact — far exceed the cost of the battery and the testing program that could have prevented the failure.
How does on-board battery monitoring work in fleet vehicles?
An on-board monitor like the Midtronics BMS-300 continuously measures battery current, voltage, and temperature. It interfaces with the vehicle’s telematics system to transmit state-of-charge and state-of-health data back to fleet operations in real time. When readings trend toward a failure threshold, fleet managers can schedule a battery swap during planned downtime rather than responding to an emergency.
What should a fleet battery PM testing protocol include?
A solid PM protocol defines: which batteries get tested, how frequently, and with which procedure. The DSS-5000 HD is purpose-built for this — it performs battery and charging system tests on heavy-duty vehicles, stores records on-device, and transmits them via Wi-Fi to the cloud. Fleet managers can then monitor compliance across all shop locations.
How do fleet managers use battery test data to prevent failures?
Cloud-aggregated test records from the BMIS platform allow fleet managers to track battery health trends across the entire fleet — identifying vehicles approaching failure before they go down, spotting patterns by vehicle type or route, and verifying that PM testing is happening on schedule at every depot.
Is preventative maintenance testing enough without on-board monitoring?
PM testing catches batteries that have degraded enough to fail a conductance or load test at the time of inspection. On-board monitoring catches failures that develop between scheduled PM intervals. Together they cover the full risk window — PM testing validates health at inspection points, monitoring watches for rapid decline between visits.
What SAE standards apply to fleet battery testing?
SAE International publishes SAE J537 (battery specifications) and SAE J2801 (conductance testing procedures) that cover heavy-duty and commercial vehicle battery testing. Fleet programs aligned with SAE-defined procedures produce consistent, repeatable results that support sound replacement decisions.