France Brushless DC Motors Market
The France brushless DC motors market is poised for growth, driven by the country's commitment to energy efficiency and the adoption of advanced technologies across various industries. The French government's initiatives to reduce carbon emissions and promote sustainable development have accelerated the transition towards more efficient motor technologies, with brushless DC motors emerging as a preferred choice. These motors offer significant advantages, including higher efficiency, longer lifespan, and reduced maintenance costs, making them ideal for applications in automotive, industrial machinery, and consumer electronics.
In the automotive sector, the shift towards electric vehicles (EVs) and hybrid electric vehicles (HEVs) has been a major driver of the brushless DC motors market in France. These motors are crucial for the propulsion systems of EVs and HEVs, offering superior performance and energy efficiency. Additionally, the increasing trend of automation in manufacturing and the growing popularity of smart home technologies have further fueled market growth.
Leading French companies such as Schneider Electric and Leroy-Somer are at the forefront of the brushless DC motors market, driving innovation and technological advancements. These companies are investing in research and development to enhance motor performance, reduce costs, and expand their application areas. Despite challenges such as high initial costs and integration complexities, the France brushless DC motors market is expected to grow steadily, supported by ongoing technological advancements, regulatory support, and increasing demand from various industries.
Market Research Future (MRFR) predicts the brushless DC motors market to grow at a 7.16% CAGR from 2024 to 2032 (forecast period).
Brushless DC motors are a type of permanent magnet motors that generates an electric current to drive each phase of the motor through a closed-loop controller. These motors feature high efficiency and excellent controllability and are widely used in various applications, such as consumer electronics, transportation, heating and ventilation, industrial engineering, and model engineering.
The major advantage of brushless DC motors is their high level of efficiency, as these motors can be controlled continuously at a maximum rotational force. Furthermore, brushless DC motors have many advantages over other types of motors because they need less maintenance than brushed DC motors. Furthermore, brushless DC motors operate effectively at all speeds with rated loads and offer a greater speed range, lower electric noise generation, and a reduced size with superior thermal characteristics.
Some of the factors that are driving the brushless DC motors market include the increased use of brushless DC motors across major industries such as automotive, rising demand from HVAC application segments, the transition to energy-efficient motors, and the high maintenance costs of brushed DC motors. End-users prefer energy-efficient motors because they reduce their overall cost. For smooth operation, industrial systems all over the world depend on energy-efficient electric motors. Many major players have begun to develop motors that are technologically advanced and have high energy efficiency. ABB, for example, set a record in energy efficiency in 2017 by developing a 44 MW six-pole synchronous motor with an efficiency level greater than 98.9%.
The global brushless DC motor industry is expected to expand rapidly during the forecast period, owing to the growing use of energy-efficient motors in a variety of industries. Policymakers also have taken the initiative to identify opportunities for high-energy efficient motor potentials. In line with this, some of the policies, such as minimum standards and motor labeling schemes, have already been introduced in many countries.
COVID-19 Impact on the Global Brushless DC Motors Market
The COVID-19 pandemic has had a negative impact on the BLDC motors market. For example, the demand for electronics has slowed recently due to low consumer demand and disrupted supply chains of raw materials and components, which has hindered the BLDC motors industry. However, demand for these motors is expected to rise due to the increased production and adoption of electric vehicles that use BLDC motors. Furthermore, the rising demand for washing machines, air conditioners, and other electronic products is expected to drive the market in the coming years.
Market Segmentation
The global brushless DC motors industry has been segmented based on type, speed, and end-use.
By type, the global brushless DC motors market has been segmented into the inner rotor and outer rotor.
By speed, the global brushless DC motors market has been segmented into less than 500 rpm, 501-2,000 rpm, 2,000-10,000 rpm, and above 10,000 rpm.
By end-use, the global brushless DC motors market has been segmented into consumer electronics, automotive, manufacturing, healthcare, and others.
Regional Analysis
The global brushless DC motors industry has been segmented into North America, Europe, Asia Pacific, and the rest of the world.
During the forecast period, Asia Pacific is anticipated to dominate the brushless DC motor market as the region is a hub for manufacturing electronic components and devices for various industries. Furthermore, the region has seen significant investment in the production of electric vehicle components, especially batteries systems.
Key Players
Allied Motion Inc. (US)
Johnson Electric Holdings Limited (Hong Kong)
WEG (Brazil)
Nidec Corporation (Japan)
Arc Systems (US)
Anaheim Automation Inc. (US)
Bühler Motor GmbH (Germany)
Electrocraft Inc. (US)
Toshiba Corporation (Japan)
Ametek Inc. (US)
Rockwell Automation Inc. (US)
Siemens (Germany)
GE (US)
Summary
The global brushless DC motors market is anticipated to grow at a 9.50% CAGR from 2018 to 2023 (forecast period). Brushless DC motors are a permanent magnet motor that generates an electric current to drive each phase of the motor through a closed-loop controller. These motors feature high efficiency and excellent controllability and are extensively used in various applications, such as consumer electronics, transportation, heating and ventilation, industrial engineering, and model engineering.
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