LRA Vibration Motor that generate movement in only one direction. This makes them perfect for generating precisely controlled and precise haptic feedback that is crucial in a variety of applications, such as wearable technologies such as intelligent Insoles as well as footbeds.
The Brilliant Sole™ insoles is set to improve user experience through virtual reality, fitness and more, opening the way for new applications of smart footwear technology.
Integration into Brilliant Sole™Insoles LRA Vibration Motor, insoles TSL-ELV081530 integrate to give users real-time feedback via vibrations. The feedback can be customized to different applications, such as:
⚙️Virtual Reality (VR) and Gaming: Enhancing the immersive experience by resembling physical sensations like walking across different surfaces or getting information from the virtual environment.
⚙️The Health and Fitness Monitor: Giving warnings or signals to correct posture and stride adjustment or signalling the wearer that the time is right to either increase or decrease their level of physical activity.
⚙️Navigation: Provides discrete and direction-based signals for the wearer to enable navigation without audio or visual guidance.
Exploring The Role Of LRA Vibration Motor In Brilliant Sole(tm)Footbeds
The incorporation of haptics from linear actuators into the Brilliant Sole™ footbeds allows for numerous applications which range from enhancing experience in virtual spaces to providing information about health via gait analysis. In addition the use of LRAs is a significant factor in the advancement of assistive technology that aids those with visual impairments by using tactile navigation aids.
High Quality Affordable Motor LRA Vibration Motor Parameters
LRA Vibration Motor are used inside Brilliant Sole(tm) soles offers many advantages:
–Accuracy: LRA Vibration Motor offer precise control of the intensity and pattern of vibration that can be vital to conveying specific information or feelings for the person using it.
–Energy Efficiency: When compared to other motors, the linear haptic type is more efficient in energy use, which makes them suitable for wearables that run on batteries such as smart footbeds.
–Long-term durability: linear resonance is made up of smaller moving parts, leading to a greater durability and longer time to live that is crucial for wearables that are subject to frequent and varied usage.
–Insoles that are small in size that are made with linear vibration allow them to be easily incorporated into the footbeds of shoes without compromising design or comfort of the shoes.
| Motor Model | TSL-ELV081530 |
| Length | 15 ± 0.1 mm |
| Width | 8 ± 0.1 mm |
| Height | 3.0 ± 0.05 mm |
| Rated Voltage | 0.9 Vrms AC |
| Work Voltage | 0.1-1.0Vrms AC |
| Overdriver Voltage | 9Vp AC Motor quick start voltage |
| Rated Current | Max 130 mArms |
| Resistance | 9 ± 1Ω |
| Rated Vibration | 0.9 ± 0.15Grms |
| Resonance Frequency | 170 ± 8 Hz |
| Rising Time | Max. 100 msec |
| Falling Time | Max. 130 msec |
| Mechanical Noise | Min 10MΩ @100VDC |
| Weight | 2.1 ± 0.1 Gram |
| Learn More | Click |
