Saturday, November 23, 2024

Smallest Frameless BLDC Motor

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The Frameless Brushless DC Motors, designed for robotics, aerospace, and medical devices, deliver torque and efficiency with smooth operation, all within a compact design.

BLDC motor

Frameless Brushless DC Motors are increasingly popular, driven by sectors like robotics, aerospace, medical devices, and handheld power tools. This technology is projected to reach nearly US$ 14 billion by 2033. Known for saving space, delivering high torque, smooth motion, and efficiency, these motors are becoming a top choice in various markets.

Delta Line has extensive experience in crafting motion solutions using Frameless BLDC motors. The latest addition to their portfolio is the compact 38BLF07, with a 38mm outer diameter, joining their range of sizes 38, 50, 70, 85, and 115mm, offering diverse options for different applications.

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The 38BLF07 motor, measuring just 14mm long, provides a rated torque of 0.1Nm at 8000 rpm and a peak torque of 0.3Nm. Weighing only 57g, this motor is designed for dynamic movements with high acceleration and deceleration thanks to its low inertia.

Delta Line’s 38BLF07, a small yet powerful motor, aligns with its commitment to innovation and addressing customer needs. The company claims that the motors cater to the demands of handheld power tools, precision medical devices, and robotics where space is limited and high torque, efficiency, and size matter. Its frameless design allows seamless integration into devices or machines, enhancing overall efficiency and minimizing space.

Brushless DC motors present a range of benefits compared to their brushed counterparts. They provide a high torque to weight ratio, ensuring more power with less bulk. Efficiency is significantly increased as they offer more torque per watt. Their reliability is enhanced due to the absence of brushes and commutators, leading to reduced noise and a longer operational lifetime. Additionally, these motors eliminate ionizing sparks that typically come from the commutator in brushed motors, and they substantially reduce electromagnetic interference (EMI), making them a more stable and sustainable choice for various applications.

For more information, click here.

Nidhi Agarwal
Nidhi Agarwal
Nidhi Agarwal is a journalist at EFY. She is an Electronics and Communication Engineer with over five years of academic experience. Her expertise lies in working with development boards and IoT cloud. She enjoys writing as it enables her to share her knowledge and insights related to electronics, with like-minded techies.

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