Philippines Automotive Motors Market Overview, 2030

The Automotive Motors Market is undergoing a monumental transformation, driven by the seismic shift towards vehicle electrification and the increasing demand for enhanced safety and convenience features. A key development is the accelerated adoption of electric and hybrid vehicles, which require a significantly higher number of specialized motors for propulsion, steering, braking, HVAC systems, and battery cooling, unlike traditional internal combustion engine vehicles. This fuels immense growth for various motor types, particularly high-efficiency traction motors. Another prominent trend is the widespread integration of brushless DC BLDC motors, favored for their superior efficiency, longer lifespan, reduced maintenance, and compact design compared to traditional brushed motors. This transition is crucial for optimizing space utilization and improving overall vehicle performance and range. Furthermore, the burgeoning demand for Advanced Driver-Assistance Systems ADAS and other in-vehicle automation, such as power windows, sunroofs, and seat adjustments, necessitates numerous smaller electric motors, propelling market expansion for these auxiliary applications. The market faces notable challenges. High development costs and complex manufacturing processes for advanced, highly efficient, and compact motors present significant hurdles, especially for propulsion systems in EVs. The volatility in raw material prices, particularly for rare earth elements critical to many high-performance motors, can impact production costs and supply chain stability. The ongoing semiconductor shortages continue to affect automotive production, indirectly impacting motor demand as vehicle output is constrained. Thermal management within increasingly compact and powerful motor designs also poses an engineering challenge, critical for ensuring reliability and longevity. Solutions involve significant investments in R&D for next-generation motor technologies, focusing on more efficient designs and alternative materials to reduce reliance on scarce resources.

The Automotive Motors market is experiencing robust growth, primarily propelled by the accelerated transition towards electric and hybrid vehicles. This shift fundamentally redefines vehicle architecture, replacing traditional mechanical linkages with numerous electric motors for propulsion, steering, braking, and various auxiliary functions. The sales of electric cars represent a significant percentage of new car sales worldwide, a direct driver for increased motor demand. Another significant driver is the rising consumer demand for enhanced safety, convenience, and comfort features within both traditional and electrified vehicles. Advanced Driver-Assistance Systems ADAS such as automatic emergency braking, lane-keeping assist, and adaptive cruise control, heavily rely on electric motors for precise control and actuation. Features like power windows, automatic seats, sunroofs, and sophisticated HVAC systems also necessitate a multitude of smaller, high-efficiency motors. Advancements in motor technology, particularly the increasing adoption of brushless DC BLDC motors, contribute significantly. BLDC motors offer superior efficiency, longer lifespan, reduced maintenance, and more compact designs compared to their brushed counterparts. This technological evolution allows for better performance and energy optimization across various vehicle systems, aligning with the industry's focus on lightweighting and improved fuel economy. The continuous innovation in motor control electronics and the integration of smart motor technologies for real-time diagnostics and energy monitoring further bolster market expansion.

Brushed DC Motors are traditional workhorses, characterized by their simplicity and cost-effectiveness. They utilize mechanical brushes and a commutator to control current flow, finding applications in less demanding auxiliary systems like power windows, seat adjustments, and wiper systems. While their efficiency and lifespan are generally lower than brushless alternatives, their mature technology and lower cost ensure their continued presence. Brushless DC Motors represents a significant advancement, rapidly gaining traction across various automotive applications. These motors eliminate brushes and commutators, relying instead on electronic commutation, which results in higher efficiency, extended lifespan, lower noise, and reduced maintenance. BLDC motors are increasingly prevalent in high-performance auxiliary systems, such as electric power steering, ABS braking systems, and advanced HVAC blowers, driven by the demand for improved vehicle efficiency and reliability. Stepper Motors are primarily used for precise, incremental motion control, making them ideal for applications requiring accurate positioning. In automotive contexts, they are found in instrument clusters for gauge needles, headlight leveling systems, and certain fluid control valves. Traction Motors are the most critical motor type in the context of vehicle electrification. These high-power electric motors are responsible for propelling electric vehicles BEVs and plug-in hybrid electric vehicles PHEVs. They convert electrical energy into mechanical energy to drive the wheels, demanding high efficiency, power density, and robust thermal management. The rapid surge in EV adoption directly drives the growth of the traction motor segment, as they are the core of the electric powertrain.

Electric Vehicles heavily rely on electric motors for propulsion and numerous auxiliary systems, traditionally mechanical or hydraulic in non-electric vehicles. The sheer number and power demands of motors in EVs, especially traction motors, drive significant innovation and market expansion. Non-electric Vehicles, comprising traditional Internal Combustion Engine ICE vehicles, still form a substantial portion of the automotive fleet. Battery Electric Vehicles BEVs represent the pure electric segment, solely relying on electric motors for propulsion via a large onboard battery. Consequently, BEVs are the most motor-intensive, incorporating multiple high-power traction motors and extensive smaller electric motors for every auxiliary function, including electric power steering, regenerative braking, advanced thermal management, and electric air conditioning. Plug-in Hybrid Electric Vehicles PHEVs combine an ICE with electric motors and a rechargeable battery. PHEVs use electric motors for propulsion over shorter ranges and to assist the ICE, enhancing fuel efficiency. Their motor systems are often more complex, demanding sophisticated control for seamless switching between electric and hybrid modes. Within non-electric vehicles, Passenger vehicles are the largest sub-segment for motors, incorporating numerous small and medium-sized electric motors for comfort, convenience, and safety features like power windows, central locking, power seats, and ADAS actuators. Light Commercial Vehicles LCVs also extensively use electric motors for auxiliary functions, often requiring higher durability for commercial applications. Heavy Commercial Vehicles HCVs utilize robust and high-torque electric motors for demanding auxiliary tasks like power steering, air brake compressors, and cooling systems for high-performance engines, with durability and reliability being paramount.

HVAC short for Heating, Ventilation, and Air Conditioning systems constitute a significant application segment for automotive motors. Motors are critical for driving blower fans to circulate air, actuating vents for air distribution, and powering compressors in air conditioning systems. The increasing consumer demand for cabin comfort, coupled with the rising prevalence of automatic climate control systems, fuels the demand for efficient and quiet HVAC motors. This applies to both electric and non-electric vehicles, though in electric vehicles, HVAC motors often contribute to battery thermal management as well. Engine-related applications for motors are crucial in non-electric vehicles, though their role is different from propulsion. Motors in this segment include starter motors to crank the engine, fuel pump motors to deliver fuel, and various actuator motors for controlling engine parameters like throttle valves, EGR Exhaust Gas Recirculation valves, and variable valve timing. Even in hybrid vehicles, electric motors can assist the engine or facilitate start-stop functions. Safety and Security applications represent a rapidly growing segment due to the proliferation of Advanced Driver-Assistance Systems ADAS and active safety features. Motors are vital for critical systems such as Anti-lock Braking Systems ABS, Electronic Stability Programs ESP, electric power steering EPS, and automatic emergency braking. They also power features like automatic parking assist and adaptive cruise control. The others category is a broad segment encompassing numerous auxiliary and convenience applications. This includes motors for power windows, power seats, sunroofs, windshield wipers, headlamp leveling, mirror adjustments, and electric parking brakes.



The OEM segment represents the initial installation of automotive motors into newly manufactured vehicles. This channel involves direct procurement of motors by vehicle manufacturers from specialized motor suppliers. This segment is characterized by long-term supply agreements, stringent quality control, and collaborative research and development between OEMs and their suppliers to integrate motors seamlessly into new vehicle designs. The demand in the OEM channel is directly tied to vehicle production volumes and the increasing complexity and electrification of new vehicles. As automakers continuously introduce new models and integrate more motor-driven features, the OEM channel remains the largest revenue contributor to the automotive motors market, driven by mass production and economies of scale. The Aftermarket segment pertains to the sale of replacement motors for vehicles already in operation. This includes motors needed due to wear and tear, malfunction, accidents, or for performance upgrades. The aftermarket is diverse, encompassing sales through independent repair shops, authorized service centers, parts distributors, and online retail platforms. Demand in this channel is influenced by factors such as the average age of vehicles on the road, vehicle mileage, and consumer preferences for repair versus replacement. While individual motor unit sales might be smaller than OEM bulk orders, the sheer volume of vehicles in use globally ensures a consistent and substantial aftermarket demand.


Considered in this report
• Historic Year: 2019
• Base year: 2024
• Estimated year: 2025
• Forecast year: 2030

Aspects covered in this report
• Automotive Motors Market with its value and forecast along with its segments
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation

By Motor Type
• Brushed DC Motor
• Brushless DC Motor
• Stepper Motor
• Traction Motor

By Vehicle Type
• Electric Vehicle
• Non-electric Vehicle

By APPLICATION
• HVAC
• Engine
• Safety and Security
• Others

By Sales Channel
• OEM
• Aftermarket

The approach of the report:
This report consists of a combined approach of primary as well as secondary research. Initially, secondary research was used to get an understanding of the market and listing out the companies that are present in the market. The secondary research consists of third-party sources such as press releases, annual report of companies, analyzing the government generated reports and databases. After gathering the data from secondary sources primary research was conducted by making telephonic interviews with the leading players about how the market is functioning and then conducted trade calls with dealers and distributors of the market. Post this we have started doing primary calls to consumers by equally segmenting consumers in regional aspects, tier aspects, age group, and gender. Once we have primary data with us we have started verifying the details obtained from secondary sources.

Intended audience
This report can be useful to industry consultants, manufacturers, suppliers, associations & organizations related to this industry, government bodies and other stakeholders to align their market-centric strategies. In addition to marketing & presentations, it will also increase competitive knowledge about the industry.