Tech Feature: Hybrid Service will Increase as Hybrids Move Out of Warranty and into the Independent Service Bays

Tech Feature: Hybrid Service will Increase as Hybrids Move Out of Warranty and into the Independent Service Bays

By now it's no secret that the price of one gallon of regular-grade gasoline has topped the $4 mark and will undoubtedly be even higher one year from now. In light of rising fuel costs, consumers are once again returning to basic transportation by trading in their old gas-guzzling SUVs for more economical vehicles, especially those powered by hybrid electric vehicle (HEV) technology. On the one hand, the current popularity of hybrid technology seems to offer an ....

By Gary Goms
Contributing Editor

By now it’s no secret that the price of one gallon of regular-grade gasoline has topped the $4 mark and will undoubtedly be even higher one year from now. The effects of escalating gasoline prices are being felt throughout all sectors. The airline industry is discontinuing marginally profitable economy flights and thousands of independent truckers and trucking companies are suddenly finding themselves operating in the red due to the price of diesel fuel approaching $5 per gallon. Of course, that particular bit of bad news doesn’t include the increasing prices of goods that require oil or petroleum-based products to grow, manufacture, process or transport.

In light of rising fuel costs, consumers are once again returning to basic transportation by trading in their old gas-guzzling SUVs for more economical vehicles, especially those powered by hybrid electric vehicle (HEV) technology. On the one hand, the current popularity of hybrid technology seems to offer an unbounded service opportunity for independent automotive service providers. On the other hand, a currently limited, 1-million HEV population might be operating under an 8-year, 80,000-mile manufacturer’s “49-state” warranty or an extended warranty in California.

Right now, the service opportunities lie mainly in the future as hybrids move out of warranty and into the independent service bays. In either case, it’s entirely realistic to expect hybrids to become a growing part of the automotive service market. So let’s take a brief look at what hybrid technology is all about and what effect it might have on the independent service market.

At the time of this writing, most major auto manufacturers have some type of hybrid design in the various stages of planning, manufacturing or marketing. Although hybrid designs have been on the market for about 10 years, only recently have the “global warming” movement and rising oil prices focused the nation’s attention on the hybrid’s high fuel economy and low greenhouse gas exhaust emissions. In fact, driving a hybrid has become as much of an environmental status symbol as it has a matter of thrift.

When discussing hybrids, it’s important to remember that hybrid technology is a work in progress and that there’s no such thing as a “generic” hybrid design. Hybrids use three fundamentally different powertrain arrangements, series, parallel and series-parallel, to transmit mechanical and electrical torque to the front wheels and to recharge the vehicle’s main batteries. Battery technology is also progressing from nickel metal hydride (Ni-MH) to lithium ion-based designs, which means that an HEV’s storage capacity will markedly increase, as will the service life and the projected cost of the batteries.

Next, remember that the terms, “engine” and “motor” are not interchangeable in hybrid or any other alternative motive power technology. An internal combustion engine (ICE) develops rotating torque by converting one form of energy (gasoline) into another form of energy (heat), which is converted into mechanical energy rotates the engine’s crankshaft. The electric motor (EM), on the other hand, develops rotating torque by directly converting electricity into a magnetic force that rotates the motor’s armature shaft. Although many hybrids use a conventional 12-volt starter motor and ring gear as a backup, the hybrid’s electric drive motor normally serves as a silent starter motor for the gasoline engine.

Last, it’s important to understand that power management in a hybrid or other alternative motive power technologies is accomplished by using a complex computer system to monitor and coordinate all vehicle functions. Modern hybrids use the latest computer networking, electrical multiplexing and drive-by-wire technologies to operate practically all systems and subsystems and to achieve optimum fuel economy and exhaust emissions.

Modern hybrids also use regenerative braking to recharge the batteries during deceleration. Regenerative braking, in most cases, conserves gasoline by transforming the kinetic energy of the vehicle into electrical energy that can be used to not only slow the vehicle, but also to recharge the vehicle’s batteries. In most cases, the hydraulic service brakes operate only under severe braking conditions or to merely slow or stop the vehicle at low vehicle speeds.

Last, a hybrid’s gasoline engine runs only when the batteries need charging or when additional power is required for climbing hills or passing other vehicles. This feature not only saves gasoline, but saves wear and tear on the engine itself.

Hybrid service can be broken into three categories: routine maintenance, engine service and transaxle/battery service. Routine maintenance includes the lubrication, filter and inspection services that all conventional vehicles require. The only difference is that hybrid vehicles require less routine maintenance than normal because 1) the gasoline engine runs only when required, and 2) the conventional hydraulic service brakes operate only during emergency situations or at very low vehicle speeds. The spark plug replacement interval for the iridium-tipped spark plugs on a 2006 Toyota Prius, for example, is 120,000 miles versus a 100,000-mile interval for conventional platforms.

Taxi drivers using the Toyota Prius vehicles in metro taxi service are reporting a brake friction life in excess of 100,000 miles. Battery life is also estimated to average about 10 years, so it’s not quite accurate to say that there’s a pent-up demand awaiting the shop that gears up for routine hybrid maintenance.

The gasoline engine itself falls under EPA requirements for the tooling and information needed to diagnose and repair emissions-related failures. Since the engine is completely computer-controlled, technicians must familiarize themselves with correct service procedures including “locking” the vehicle to prevent the engine from attempting to start automatically during a routine service such as an oil change. In addition, technicians must understand that hybrid vehicles require special service and repair procedures. The Prius’s 12-volt absorbed glass mat (AGM) auxiliary battery for operating accessories, for example, must be recharged using a special Toyota battery charger or a low-amperage equivalent.

Last, attention must be paid to vehicle-specific details when performing routine maintenance on hybrid vehicles. Honda Insights, for example, incorporate aluminum bodies held together by special corrosion-resistant bolts. Some hybrids use a letter mark on the end of the spark plug electrode to index the spark plug gaps to the cylinder’s combustion chambers. Similarly, all hybrid vehicles use special low-rolling resistance tires. Using generic substitutes will reduce fuel economy which, in most cases, will be immediately noticed by a mileage-conscious owner.

Any service or repair involving the high-voltage (HV) system, which includes the transaxle, electric generator, drive motors, constant variable speed transaxles, and the high-voltage batteries, requires special technical training and service safety precautions. The generator/motor assemblies and constant variable speed transaxles are currently supplied only as new, complete assemblies from the hybrid manufacturers. Very few major components in the hybrid design lend themselves to in-house servicing or rebuilding.

When servicing hybrids, keep in mind that contact with any voltage potential of 60 volts or more can be fatal. Generator voltages can range as high as 500 volts and battery voltages can range as high as 300 volts. To warn technicians of the danger, all high-voltage wiring is colored orange. Special high-voltage electrical test and safety equipment like high-voltage insulating gloves are required for servicing high-voltage battery systems.

With that said, any independent shop must evaluate the potential costs and profits of servicing hybrid vehicles. Routine maintenance and engine service, of course, requires no appreciable amount of special equipment. Generator/motor, transaxle, and battery service, on the other hand, requires vehicle-specific training and some special tooling like high-voltage insulated gloves and high voltage electrical test equipment. In-depth service might also require an OE database like Toyota’s new TechStream information system. This system costs about $8,000 for a complete OE diagnostic hardware and data access package, but is necessary to diagnose the on-board electronics and access the latest module calibrations.

But technology keeps moving on. One European manufacturer is looking at adapting some hybrid features into its conventional vehicle platforms by automatically shutting off the engine when the vehicle is at rest. At future prices of gasoline, this and other hybrid-style fuel-saving features may well point the way to major changes in the way the automotive aftermarket provides service and parts to the motoring public.

Gary Goms is a former educator and shop owner who remains active in the aftermarket service industry. Gary is an ASE-certified Master Automobile Technician (CMAT) and has earned the L1 advanced engine performance certification. He is also a graduate of Colorado State University and belongs to the Automotive Service Association (ASA) and the Society of Automotive Engineers (SAE).

You May Also Like

Steering Angle Sensor Service

Ninety percent of the time when a steering angle sensor code is active, it means the sensor needs to be calibrated.

You just finished a car or truck alignment or other repair that might have disconnected power to the vehicle. You pulled the vehicle off the lift and parked it in the lot. The customer pulls away and, within five minutes, they are back complaining an ABS, stability control or ADAS light is illuminated or a warning message is displayed. What happened?

Honda Launches Fuel Cell Electric Vehicle in Ohio

Production of the 2025 CR-V e:FCEV fuel cell EV begins at Performance Manufacturing Center in Marysville, Ohio.

Schaeffler Showcases Hydrogen Electrolyzers and Fuel Cells

Schaeffler also is demonstrating its progress toward the commercialization of green hydrogen.

Bosch Releases 87 New Part Numbers in June

Bosch’s new part numbers cover 318 million vehicles in operation across North America.

Educate Your Customers Utilizing AI

Discover how to generate quick, accurate explanations for repair orders and estimates, boosting your shop’s credibility and customer trust.

Other Posts

AAPEX: Navigating the Automotive Aftermarket’s Digital Evolution

The shift toward digital platforms has reshaped how businesses operate, from inventory management to customer interactions.

Schaeffler Recognized as a GM 2023 Top Global Supplier

This is the fourth time Schaeffler has been honored with this award.

Schaeffler, ATSG Partner to Support Technical Education

Schaeffler will provide ATSG members with ongoing education and technical resources.

Schaeffler Releases TorCon 6L80 Torque Converter

The LuK TorCon 6L80 is “the only all-new, never remanufactured torque converter available in the aftermarket,” Schaeffler said.