Leading brands trust our advanced MEMS micro speakers and cooling systems to enable smaller, more efficient wearables, AR/VR, and next-gen computing. Discover how our technology drives innovation and performance across industries.
Harnessing advanced piezoelectric MEMS, we deliver micro speakers and cooling systems that redefine performance in compact electronics. Our solutions empower next-generation TWS, AR/VR, and wearables with precise audio fidelity and efficient thermal management. Designed for seamless integration, our technology supports the demands of optical interconnects and high-density processing, ensuring reliability and scalability for the most advanced applications.
Experience exceptional sound clarity and volume in ultra-compact devices. Our MEMS-based speakers are engineered for TWS, hearing aids, and AR/VR, delivering premium audio without increasing device size.
Our MEMS cooling systems provide precise thermal regulation for wearables and dense electronics, maintaining optimal performance and extending device lifespan in challenging environments.
Designed for compatibility, our MEMS solutions integrate smoothly with optical interconnects and processing units, accelerating product development and supporting scalable architectures.
Built on durable MEMS frameworks, our products ensure long-term reliability and meet the rigorous standards of both consumer and industrial electronics.
Harnessing cutting-edge piezoelectric MEMS, our micro speakers deliver exceptional sound quality in ultra-small devices. Ideal for TWS, hearing aids, and AR/VR, these speakers enable seamless integration without sacrificing audio fidelity or device efficiency. Experience robust, high-fidelity sound in the smallest form factors.
Our MEMS-based micro cooling systems offer precise, energy-efficient thermal management for wearables and high-density processors. Maintain optimal device performance and longevity with advanced heat dissipation, supporting the demands of next-generation optical and computing technologies.
From optical interconnects to wearable electronics, our MEMS innovations drive miniaturization and integration across industries. Unlock new levels of device performance, reliability, and design flexibility with technology engineered for the evolving landscape of modern electronics.
Core MEMS features for early-stage projects and prototyping. Ideal for initial exploration and proof-of-concept development.
Monthly
Enhanced MEMS tools for growing teams. Includes advanced design, simulation, and validation capabilities.
Starting at
or $199 yearly
Collaborative MEMS workflows, analytics, and priority support for scaling technical projects and research.
Starting at
or $299 yearly
Comprehensive MEMS solutions for enterprise deployment, integration, and large-scale manufacturing.
Starting at
or $499 yearly
Tailored MEMS engineering, dedicated support, and custom integration for complex, large-scale requirements. Consult with our experts.
Experience the next evolution in MEMS-driven micro speakers and cooling systems. Our advanced solutions deliver unmatched miniaturization, efficiency, and reliability for wearables, AR/VR, and high-performance electronics. Partner with us to redefine what’s possible in device innovation.
“Integrating these advanced MEMS micro speakers and cooling systems has transformed our AR device design. The ultra-compact form factor and exceptional performance enabled us to achieve superior audio fidelity and efficient thermal management in a smaller footprint. Their reliability and scalability have accelerated our product development, allowing us to deliver next-generation wearables with confidence.”
Find comprehensive answers to key questions about piezoelectric MEMS, micro speakers, and advanced micro cooling for next-generation electronics.
Piezoelectric MEMS technology harnesses the ability of specialized materials to convert electrical energy into mechanical movement at the microscale. This enables the development of ultra-compact, energy-efficient components—such as micro speakers and cooling systems—tailored for integration into advanced electronics and wearable devices, where space and performance are critical.
MEMS micro speakers are fabricated using advanced microengineering, resulting in a much smaller footprint than traditional speakers. They deliver precise audio, consume less power, and are ideal for compact devices like TWS earbuds, hearing aids, and AR/VR headsets, where miniaturization and efficiency are essential.
MEMS-based micro cooling systems deliver precise, localized thermal management for densely packed electronics. Their small size allows for effective heat dissipation in wearables and high-performance processing units, enhancing device reliability and supporting sustained operation in demanding environments.
Devices requiring compactness and high efficiency—such as AR glasses, optical interconnects, and wearable health monitors—see significant benefits from MEMS-based speakers and cooling. These solutions enable advanced features and performance without increasing device size or energy consumption.
MEMS components are designed for robust, long-term operation. Their solid-state construction and precision manufacturing ensure consistent performance and reliability, making them well-suited for integration into commercial and consumer electronics that demand durability.
MEMS technology enables the creation of slimmer, lighter, and more capable devices by reducing component size and unlocking new functionalities. This drives innovation in product design, especially where space constraints and efficiency are paramount.
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