Are your structural materials safe for sensitive skin?

Yes, our titanium and TR90 materials are ISO 10993 certified for biocompatibility and are hypoallergenic and resistant to skin oils and sweat.

What is the advantage of graphite thermal sheets?

Graphite sheets are ultra-thin (0.05mm) and lightweight, with superior heat-spreading properties that prevent hotspots near the user's skin compared to copper.

Memory & Structural Solutions

Q: How does LPDDR5 improve AI glasses performance?

LPDDR5 provides 50% more bandwidth than older types, enabling faster AI inference and higher-resolution video processing with lower power consumption and heat.

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Cat	Products Name	Price
AIMRSE-AIG-MSS-001	Standard Embedded ePOP Storage Module
AIMRSE-AIG-MSS-002	Industrial-Grade Embedded eMMC Storage Module
AIMRSE-AIG-MSS-003	Integrated Embedded eMCP Multi-Chip Module
AIMRSE-AIG-MSS-004	High-Speed PCIe Gen4x4 Storage Module
AIMRSE-AIG-MSS-005	Wide-Temperature Industrial SPI NOR Flash Module
AIMRSE-AIG-MSS-006	Enhanced Industrial Embedded eMMC Module
AIMRSE-AIG-MSS-007	Compact Size Embedded eMMC Storage Module
AIMRSE-AIG-MSS-008	Enhanced Embedded ePOP Storage Module
AIMRSE-AIG-MSS-009	High-Performance Embedded ePOP Storage Module

Precision Memory & Structural Solutions for AI Wearables

As the invisible architecture that defines both performance and comfort, our memory and structural solutions provide the robust foundation required for next-generation smart glasses. AIMRSE offers a specialized portfolio of ultra-compact, high-bandwidth memory modules and advanced mechanical components engineered to survive the rigors of daily use. From LPDDR5 modules that feed data-hungry Edge AI SoCs to lightweight titanium-reinforced frames with integrated thermal management, our solutions solve the critical balance between extreme durability and "weightless" ergonomics. Designed for seamless integration into high-density electronics, our structural and storage products enable designers to push the boundaries of what is possible in the AI wearable ecosystem.

Build a Stronger Foundation

Consult with our mechanical and storage engineers for custom frame designs, thermal simulations, and memory optimization.

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24/5 Technical Support with <24h Response Time.

Product Overview

In the engineering of AI smart glasses, memory and structural integrity are the silent enablers of user experience. Memory modules must provide the massive bandwidth necessary for real-time video processing and AI inference, all while occupying a footprint small enough for temple-arm integration. Simultaneously, the structural frame must act as a sophisticated thermal radiator and a durable exoskeleton, protecting sensitive sensors while maintaining the aesthetic appeal of traditional eyewear. Our solutions are designed to eliminate the common trade-offs between performance and form factor.

High-Bandwidth Storage: Ultra-thin LPDDR and UFS modules optimized for low-power SoC environments.
Advanced Thermal Dissipation: Integrated graphite sheets and vapor chambers to prevent device overheating.
Lightweight Structural Frames: Aerospace-grade materials including Titanium, TR90, and Carbon Fiber.
High-Cycle Hinges & Interconnects: Precision mechanical joints and flex-PCBs tested for 20,000+ fold cycles.

By utilizing advanced materials science and high-density semiconductor packaging, AIMRSE helps manufacturers reduce the overall weight of smart glasses without sacrificing strength. Our structural solutions are tested for impact resistance, sweat corrosion, and long-term skin compatibility, ensuring that professional-grade wearables remain comfortable for a full 8-hour shift. Whether you are developing slim consumer lifestyle frames or ruggedized industrial HUDs, our memory and structural components provide the reliability and speed required for the most demanding AI applications.

AIMRSE high-density memory modules and lightweight structural frames for AI glasses

Core Architectural Pillars

Our structural and storage portfolio is divided into four critical pillars, addressing the mechanical and data-flow challenges of high-performance wearables. Click below for detailed specifications:

High-Performance Memory Modules Ultra-thin LPDDR4X/5 and UFS 3.1 storage for high-speed AI data processing.

LPDDR5 / UFS TINYPE-BGA

Working Memory & Storage

Our memory solutions leverage multi-chip packaging (MCP) to combine high-speed LPDDR RAM and NAND flash in a single, ultra-slim BGA package. This reduces PCB space while providing the bandwidth required for 4K video and real-time SLAM.

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Advanced Thermal Solutions Integrated graphite, vapor chambers, and thermal gels for fanless cooling.

GRAPHITE-VC 0.1mm THIN

Thermal Management

We utilize aerospace-grade synthetic graphite with thermal conductivity up to 1500 W/mK. These solutions dissipate heat away from the user's temple, ensuring a maximum surface temperature delta of less than 3°C during peak AI tasks.

Check Cooling Metrics

Ergonomic Structural Frames Titanium and TR90 frames with integrated sensor mounts and wire-routing.

TITANIUM / TR90 ULTRA-LIGHT

Frames & Ergonomics

Our structural designs prioritize mass distribution and facial ergonomics. By utilizing high-strength TR90 plastics and titanium reinforcements, we deliver frames that are 30% lighter than standard smart glasses while maintaining IP67 durability.

Review Material Data

Interconnects and High-Cycle Joints Precision spring hinges and high-flex PCBs for reliable power/data flow.

HIGH-FLEX 20K CYCLES

Interconnects & Hinges

Our specialized spring hinges house high-flexibility circuit bridges, allowing power and data to flow reliably from temple to temple. Tested for over 20,000 opening/closing cycles to ensure lifelong reliability in consumer and industrial use.

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Key Features & Technical Advantages

Optimized Performance-per-Gram

Weight is the single biggest barrier to long-term wearable adoption. Our structural solutions are designed with a "performance-per-gram" philosophy, using finite element analysis (FEA) to remove excess material without sacrificing structural stiffness. This results in AI glasses that weigh less than 50g while housing a full suite of cameras, chips, and batteries.

Next-Gen Storage Bandwidth

Our memory modules support data transfer rates up to 6400Mbps, ensuring that the Edge AI SoC never starves for data during complex SLAM or hand-tracking tasks. By using high-density wafer-stacking technology, we provide up to 256GB of storage and 16GB of RAM in a footprint small enough to be completely hidden within a standard eyewear temple arm.

Industrial-Grade Reliability

Every frame and hinge assembly is tested for salt-fog resistance, perspiration corrosion, and extreme mechanical stress. Our structural components meet MIL-STD-810H standards for shock and vibration, ensuring that the sophisticated electronics inside are protected during accidental drops or usage in rugged industrial environments.

Rapid Design Customization

We provide a comprehensive "Mechanical SDK" that includes 3D CAD templates and wiring reference designs. This allows OEMs to rapidly customize the external look and feel of the glasses while utilizing our pre-validated internal structural layout, significantly shortening the time-to-market for new wearable products.

Ecosystem & Materials Compatibility

Our structural and memory solutions act as the physical and data-flow hub, ensuring all components work in perfect harmony within a unified frame.

Storage Interfaces

Industry-standard data flow for high-speed computation.

LPDDR4X / 5 UFS 2.1 / 3.1 eMMC 5.1 MIPI M-PHY JEDEC Compliant

Mechanical Simulation

ANSYS Thermal FEA Stress Analysis SolidWorks Flow Human-Factor CAD

Material Verification

Titanium Grade 5 EMS TR90 Al-Mg Alloys Bio-compatible PC

Verification & Standards

Verified synergy with key wearable durability requirements.

IEC 60068 Drop Test ISO 10993 Bio-safety MIL-STD-810H Vibration IP67 Water/Dust Ingress

Technical Parameters Comparison

Comparison of our core memory modules and structural materials. Custom dimensions and material blends are available upon request.

Component Class	Specification / Material	Performance Metric	Weight / Thickness	Durability Rating	Typical Application
Memory (RAM)	LPDDR5 (8GB - 16GB)	6400 Mbps Bandwidth	0.65mm Z-Height	JEDEC Standard	High-End Vision AI
Storage (Flash)	UFS 3.1 (128GB - 512GB)	2100 MB/s Sequential Read	0.80mm Z-Height	ECC Protected	4K Video Recording
Thermal Pad	Synthetic Graphite	1500 W/mK conductivity	0.05mm - 0.15mm	Non-aging	SoC Cooling
Frame Chassis	Titanium / Carbon Fiber	>450 MPa Tensile Strength	< 12g (Frame only)	MIL-STD-810H	Industrial AR Glasses

Need 3D CAD files or memory power-profile charts?
We provide full hardware integration guides to ensure your assembly process is as efficient as our components.

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Typical Application Scenarios

Our solutions enable the high-performance storage and durable comfort required for the diverse needs of the wearable industry:

🛡️

Rugged Industrial AR

In heavy manufacturing and energy sectors, workers require headsets that can withstand accidental drops and exposure to sweat and oil. Our titanium-reinforced frames and ECC-protected memory ensure that critical mission data remains accessible and the hardware remains intact in even the harshest industrial conditions.

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Consumer Lifestyle Assistants

For daily-wear AI glasses, weight and thermal comfort are paramount. Our advanced graphite cooling sheets prevent heat from reaching the skin, while our ultra-thin LPDDR modules allow for frames that are indistinguishable from standard fashion glasses, enabling all-day wear without fatigue.

🎞️

High-Fidelity Content Creation

AR devices used for professional filming and 3D modeling require massive data bandwidth. Our UFS 3.1 storage solutions enable simultaneous 4K recording and AI-driven spatial anchoring, providing the high-speed data backbone needed for creative professionals in the metaverse era.

Case Studies

The Challenge

Solving Thermal Throttling in Slim AR Glasses

A consumer tech brand launched a pair of lightweight AR glasses that frequently shut down due to overheating when running SLAM and video translation simultaneously. The temple arms reached 45°C, causing significant user discomfort and reducing battery life by 40%.

The Solution: Hybrid Cooling + High-Efficiency Memory

AIMRSE replaced the standard thermal pads with our custom 0.1mm graphite vapor-spreaders. We also upgraded the memory to our low-power LPDDR5 modules, which reduced storage power draw by 15%. This hybrid approach redistributed the thermal load across the entire titanium frame, acting as a passive radiator.

Success Highlights

8°C Temperature Reduction

The temple surface temperature dropped from 45°C to a comfortable 37°C. The glasses achieved a 2-hour increase in continuous operation time, and thermal throttling was completely eliminated, allowing the device to maintain peak AI performance without interruption.

Why Choose Our Structural Products

Materials Science Leadership

We are pioneers in utilizing aerospace alloys and high-density memory stacking for wearables, ensuring your product leads the market in both speed and ergonomics.

Rigorous Lifecycle Testing

Our components undergo 20,000+ cycle hinge tests and 1.5-meter drop tests, providing the durability required for a consumer product to last for years, not months.

Integrated Supply Chain

By sourcing both memory and mechanical structures from AIMRSE, you ensure perfect hardware compatibility and a simplified logistics path for your assembly line.

Global Certification & Compliance

AIMRSE memory and structural solutions are engineered to meet and exceed the world's most stringent reliability and environmental standards. All our storage modules are JEDEC compliant and undergo rigorous ECC (Error Correction Code) verification for data integrity. Our structural materials are ISO 10993 certified for biocompatibility, ensuring they are safe for prolonged skin contact without causing irritation. Our products are fully compliant with RoHS 3.0, REACH, and Halogen-Free regulations, guaranteeing environmental safety for global distribution. We provide specialized industrial versions that meet MIL-STD-810H standards for vibration and shock resistance. All manufacturing processes are certified to ISO 9001:2015 and ISO 14001 quality management systems. We provide complete technical datasheets, thermal simulation reports, and compliance dossiers to support your system-level certification and global regulatory deployment.

Frequently Asked Questions

How does LPDDR5 improve AI glasses performance compared to older memory types?

LPDDR5 provides up to 50% more bandwidth than LPDDR4X while being more power-efficient. In AI glasses, this extra bandwidth is crucial for feeding the NPU with high-resolution image data for SLAM and object recognition. By reducing data bottlenecks, the system can run more complex AI models with lower latency and less power-induced heat, significantly improving the overall responsiveness of the AR interface.

Are your structural materials safe for users with sensitive skin?

Yes. All materials used in our frame chassis, including Titanium Grade 5 and TR90 plastics, are ISO 10993 certified for biocompatibility. They are hypoallergenic and resistant to perspiration, skin oils, and common cosmetic chemicals. We perform extensive 72-hour skin patch tests to ensure that our materials do not cause irritation even when worn during high-intensity physical activities.

What is the advantage of using a graphite sheet over a traditional copper heat sink?

Graphite sheets are much lighter and can be manufactured as thin as 0.05mm, making them ideal for the tight spaces inside eyewear temples. While copper is a good conductor, graphite has superior anisotropic thermal properties, allowing it to spread heat horizontally across a larger surface area very quickly. This prevents "hot spots" from forming near the user's skin and allows the entire frame to act as a passive radiator.

Can I request a custom frame color or branding for my structural solution?

Yes. We offer extensive ODM services including custom PVD (Physical Vapor Deposition) coatings for titanium parts and specialized dye injection for TR90 frames. We can accommodate specific brand colors, laser-etched logos, and unique surface textures (matte, gloss, or soft-touch) to match your company's aesthetic and branding requirements during the mass production phase.

How do you ensure the internal wiring doesn't break at the hinges?

We use a combination of precision spring hinges and specialized High-Flex FPC (Flexible Printed Circuit) bridges. These bridges are engineered with a specific "loop" geometry and material stack-up that distributes the mechanical strain across a wider area during folding. We test these assemblies in automated rigs for over 20,000 cycles to ensure that power and data signals remain stable for the entire lifespan of the product.

Related Products

Technical data represent typical values. As applications vary, we recommend consulting our technical team to ensure the best fit for your specific requirements.

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