{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853349","patent":{"patent_number":"US-9853349","title":"Electronic device","assignee":null,"inventors":[],"filing_date":"2016-03-18T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["G06F","G06F","G06F","G06F","G06F","H04M","G06F"],"num_claims":12,"abstract":"An electronic device includes an operation body, a frame and an antenna. The frame encloses a lateral side of the operation body. The antenna is disposed within the frame, and partially exposed outside the frame. The antenna is electrically connected with the operation body to provide a wireless communication function. A wireless communication interference source is disposed within the operation body, or the operation body contains a metallic material. Since the operation body is enclosed by the frame, the frame can protect operation body and prevent collision of the operation body. Moreover, since the antenna is located outside the operation body, the antenna is away from the interference source that is disposed within the operation body. Consequently, the wireless communication efficiency is enhanced, and the inner space of the operation body is saved."},"analysis":{"summary":"The Electronic Device patent (US-9853349) introduces a novel design for electronic devices aimed at significantly improving wireless communication efficiency and optimizing internal space. At its core, the invention proposes an electronic device comprising an operation body, a protective frame, and an antenna. The frame is designed to enclose the lateral side of the operation body, providing physical protection against collisions.\n\nThe key innovation lies in the strategic placement of the antenna. Instead of being fully embedded within the main operation body where it might suffer from interference, the antenna is disposed within this protective frame. It is partially exposed outside the frame, ensuring optimal signal reception and transmission, while maintaining an essential electrical connection with the operation body to provide its wireless communication function.\n\nThis design specifically addresses the common problem of wireless communication interference. By positioning the antenna away from potential interference sources, such as internal metallic materials or other components generating electromagnetic noise within the operation body, the patent effectively mitigates signal degradation. Consequently, the device achieves enhanced wireless communication performance, leading to more reliable connections and faster data speeds.\n\nBeyond performance, this approach offers substantial benefits in terms of device design and manufacturing. By relocating the antenna to the frame, valuable inner space within the operation body is conserved. This allows manufacturers greater flexibility to integrate larger batteries, more advanced processors, or additional features without increasing the device's overall size or compromising its wireless capabilities. The Electronic Device patent thus provides a dual advantage: superior wireless functionality and greater design freedom for compact, high-performance electronics.","layman_explanation":"### 1. What Problem Does This Solve?\n\nImagine you're trying to have a clear conversation on your phone, but it's constantly cutting out or sounding fuzzy. This often happens because your phone's 'voice box' (the antenna) is stuck inside a tiny, crowded room full of other noisy components like the engine (processor) or shiny metal parts (battery casing). These internal elements act like static, making it hard for your phone to 'hear' or 'speak' clearly to the cell tower or Wi-Fi router. This leads to dropped calls, slow internet, and general frustration.\n\nBeyond performance, this internal crowding also creates a significant design challenge for manufacturers. Every millimeter inside a smartphone is precious real estate. If the antenna needs a lot of space, it means less room for a bigger battery, a better camera, or a slimmer profile. So, designers are constantly making trade-offs: do we prioritize signal strength, battery life, or device thickness? Existing solutions often involve complex internal shielding, which adds cost and bulk, or compromises on antenna size, which impacts performance.\n\n### 2. How Does It Work?\n\nThe **Electronic Device** patent offers an elegant solution by rethinking where the 'voice box' (antenna) should live. Instead of burying it deep within the device's main body, this innovation proposes integrating the antenna directly into the device's 'frame' – the outer edge or rim that surrounds the main internal components. Think of it like moving your phone's 'voice box' from its crowded 'tummy' to a special, slightly exposed pocket right on its 'skin'.\n\nHere’s the conceptual breakdown:\n\n*   **The Main Body (Operation Body):** This is where all the core electronics (processor, memory, battery) are housed. It's the 'brain' and 'power plant' of the device, and it can be a source of electronic 'noise' or contain 'metal walls' that block signals.\n*   **The Frame:** This is the sturdy outer band that protects the device. In this invention, it also becomes home to the antenna. The antenna is placed *within* this frame, but importantly, it's 'partially exposed outside'. This means it has a clear line of sight to the outside world, like a window for sound.\n*   **The Connection:** The antenna in the frame is still electrically connected to the main body, ensuring it can send and receive information to and from the device's brain.\n\nThe genius is in the separation. By moving the antenna to the frame, it's now physically distanced from the noisy internal components and metallic parts. It's like moving your quiet conversation to a different room, away from the loud party. This significantly reduces interference and allows the antenna to perform much more efficiently.\n\n### 3. Why Does This Matter?\n\nThis seemingly simple design change has profound business implications:\n\n*   **Superior User Experience:** For consumers, it means more reliable connections, faster downloads, and clearer calls. In today's hyper-connected world, a device with consistently strong wireless performance is a significant competitive differentiator.\n*   **Unleashed Design Potential:** For manufacturers, this frees up crucial internal space. They can now incorporate larger batteries, making devices last longer without increasing thickness. They can add more advanced features like better cameras or haptic feedback systems. Or, they can simply make devices even thinner and lighter, appealing to aesthetic preferences. This flexibility allows for true innovation in product design.\n*   **Market Leadership:** Companies that adopt this technology can position themselves as leaders in advanced device engineering, offering products that solve common pain points for consumers. This translates into increased market share, stronger brand loyalty, and higher profitability.\n*   **Reduced Development Costs:** By having a more predictable and optimized antenna performance, R&D cycles for new devices can be streamlined, potentially reducing development costs and accelerating time to market.\n\n### 4. What's Next?\n\nThe principles laid out in this patent are foundational. We can expect this approach to become increasingly prevalent across a range of electronic devices, from future generations of smartphones and smartwatches to industrial IoT sensors and medical wearables where space and reliable connectivity are paramount. This innovation is not just about incremental improvement; it paves the way for a new era of device design where wireless performance is no longer a compromise but a given, enabling more integrated, powerful, and user-friendly technology across the board. Expect to see devices that are not only smarter but also physically more robust and aesthetically pleasing, all thanks to a smarter way of integrating their 'voice box'.","technical_analysis":"The Electronic Device patent (US-9853349) details an innovative approach to integrating wireless communication capabilities into electronic devices, primarily focusing on antenna placement to mitigate interference and optimize internal space. The technical architecture revolves around three core components: an operation body, a frame, and an antenna.\n\n**Technical Architecture and Component Interplay:**\nThe 'operation body' represents the central functional unit of the electronic device, housing critical components such as the processor, memory, power management unit, and other circuitry. This body is often a source of electromagnetic interference (EMI) due to high-frequency operations or may contain metallic materials that can reflect, absorb, or otherwise distort RF signals.\n\nThe 'frame' is designed to enclose the lateral sides of this operation body. Its primary structural function is to provide physical protection, preventing collision and mechanical damage to the sensitive internal components. However, this patent elevates the frame to a critical functional role in wireless communication.\n\nThe 'antenna' is the centerpiece of the innovation. Instead of being fully housed within the crowded and potentially noisy operation body, it is strategically disposed *within* the frame. A crucial aspect is that the antenna is 'partially exposed outside the frame'. This exposure is vital for efficient radiation and reception of wireless signals, as fully enclosed antennas can suffer significant attenuation. The antenna maintains an 'electrical connection with the operation body' to facilitate its wireless communication function, implying a robust and low-loss RF path from the antenna in the frame to the transceiver circuitry within the operation body.\n\n**Implementation Details and Algorithm Specifics (Conceptual):**\nThe 'algorithm' here isn't a software algorithm but rather a hardware design principle for electromagnetic compatibility (EMC) and spatial optimization. The core principle is 'separation by integration'. By integrating the antenna into the frame, a physical distance is created between the antenna and the interference sources (metallic materials, high-frequency components) within the operation body. This separation is a fundamental EMC strategy, as electromagnetic coupling strength (both inductive and capacitive) typically falls off rapidly with distance.\n\nSpecific implementation details would involve:\n1.  **Frame Material Selection:** The section of the frame housing the antenna would ideally be made of a material with low dielectric constant and low loss tangent, or be non-conductive, to minimize impedance mismatch and signal absorption. Alternatively, if a metallic frame is used for structural integrity, specific cutouts or non-metallic inserts would be required to allow for antenna exposure and proper radiation patterns. The patent abstract suggests the frame 'encloses' the operation body, implying a structural role, but its interaction with the antenna implies careful material engineering.\n2.  **Antenna Type and Design:** The antenna itself would likely be a compact, robust design suitable for integration into a thin frame, such as a PIFA (Planar Inverted-F Antenna), FPC (Flexible Printed Circuit) antenna, or LDS (Laser Direct Structuring) antenna. Its geometry would be optimized for the available space within the frame and for desired frequency bands.\n3.  **Electrical Connection:** The electrical connection to the operation body would need to be carefully engineered to maintain signal integrity. This could involve coaxial cables, flexible circuits, or direct contact pads with spring connectors, designed to minimize insertion loss and maintain characteristic impedance.\n\n**Integration Patterns and Performance Characteristics:**\nThis approach integrates the antenna into the device's structural element, moving away from a purely modular component. This 'structural integration' pattern allows for a more compact and streamlined device design. Performance characteristics are directly enhanced:\n*   **Improved Wireless Communication Efficiency:** Reduced interference from internal sources leads to a higher signal-to-noise ratio (SNR), resulting in better link quality, increased data rates, and extended range. This translates to more reliable Wi-Fi, Bluetooth, and cellular connectivity.\n*   **Enhanced Radiation Pattern:** With fewer internal obstructions, the antenna's radiation pattern can be more precisely controlled and optimized, leading to more uniform coverage and reduced dead spots.\n*   **Space Saving:** By freeing up space within the operation body, this design allows for the integration of larger batteries, more advanced sensors, or other components, improving overall device functionality without increasing its footprint.\n\n**Code-Level Implications (Conceptual):**\nWhile this patent describes a hardware innovation, its implications for software and firmware are indirect but significant. With a more stable and efficient wireless hardware platform, software developers can build more robust and responsive communication protocols. For example, less frequent retransmissions due to poor signal quality can reduce power consumption, extending battery life. Furthermore, reliable hardware enables more sophisticated wireless features and applications that demand high throughput and low latency, such as augmented reality, high-definition video streaming, or real-time IoT data processing. The 'wireless communication function' provided by the antenna is the foundation upon which all network-dependent software layers are built, and a stronger foundation enables more complex and reliable software stacks.","business_analysis":"The Electronic Device patent (US-9853349) represents a significant advancement in the design and manufacturing of electronic devices, with substantial implications for market opportunity, competitive advantage, and revenue potential. This innovation addresses two critical pain points in the electronics industry: the persistent challenge of wireless signal interference in compact devices and the ever-present need to optimize internal space.\n\n**Market Opportunity Size:**\nThe market for electronic devices is vast and continuously expanding, encompassing smartphones, tablets, wearables, IoT devices, smart home electronics, and even industrial and automotive systems. All these segments rely heavily on efficient and reliable wireless communication. The problem of antenna interference and space constraints is universal across these product categories. By offering a solution that enhances wireless performance and frees up internal space, this patent taps into a multi-trillion-dollar global market. The potential for licensing this technology to major original equipment manufacturers (OEMs) in consumer electronics alone (e.g., Apple, Samsung, Xiaomi, Huawei) represents a massive revenue stream. Furthermore, the burgeoning IoT sector, where devices require robust, compact, and energy-efficient wireless modules, presents an additional substantial market segment.\n\n**Competitive Advantages:**\nAdoption of the Electronic Device patent offers several compelling competitive advantages:\n1.  **Superior Wireless Performance:** In a market saturated with devices, differentiating through consistently superior Wi-Fi, Bluetooth, and cellular performance can be a powerful selling point. Devices leveraging this technology can offer users a more reliable and faster connectivity experience, leading to higher customer satisfaction and brand loyalty.\n2.  **Enhanced Design Flexibility:** By freeing up internal space, manufacturers gain unprecedented flexibility in product design. This can translate into thinner, lighter, or more aesthetically pleasing devices, or the ability to integrate larger batteries (for extended life), more powerful processors, or additional sensors and features without increasing the device's footprint. This allows companies to innovate and differentiate their products significantly.\n3.  **Reduced Manufacturing Costs (Long-term):** While initial retooling might be required, optimizing internal space can lead to simpler assembly processes and potentially fewer components (e.g., less need for complex internal shielding), driving down long-term manufacturing costs. The integrated frame-antenna approach can streamline supply chains for antenna components.\n4.  **IP Protection and Licensing Power:** Holding this patent provides a strong intellectual property barrier, allowing the patent holder to license the technology, generate royalties, and solidify a leadership position in advanced device architecture.\n\n**Revenue Potential and Business Models:**\nRevenue generation from this patent could primarily come from:\n*   **Direct Licensing:** Major OEMs would be prime candidates for licensing agreements, paying royalties per unit manufactured or through lump-sum agreements.\n*   **Partnerships and Joint Ventures:** Collaborating with device manufacturers or component suppliers to integrate and commercialize the technology.\n*   **Product Development:** The patent holder could develop and sell their own electronic devices incorporating this technology, though this requires significant capital and market entry strategy.\n\nGiven the pervasive nature of wireless communication in modern electronics, even a small per-unit royalty fee across a significant portion of the global market could generate substantial revenue. For example, if 10% of the 1.5 billion smartphones sold annually adopt this technology at a nominal royalty, the revenue potential is immense.\n\n**Strategic Positioning:**\nThis innovation positions the patent holder as a leader in fundamental electronic device design, particularly in the critical areas of RF engineering and miniaturization. It allows for strategic partnerships with silicon providers, component manufacturers, and major device brands. Companies adopting this technology can strategically position their products as 'next-generation' or 'performance-optimized,' appealing to consumers who prioritize connectivity and sleek design.\n\n**ROI Projections:**\nInvestment in developing and defending this patent, along with pursuing licensing opportunities, could yield significant returns. The initial investment in R&D and patent prosecution is relatively small compared to the potential market penetration and royalty income from licensing to multiple global players. The return on investment (ROI) could be substantial, driven by the broad applicability of the technology across diverse product categories and the critical nature of the problem it solves. The ability to enhance wireless performance and optimize space provides a clear value proposition that directly impacts product competitiveness and profitability for licensees.","faqs":[{"answer":"The **Electronic Device** patent (US-9853349) describes an innovative design for electronic devices that aims to improve wireless communication efficiency and optimize internal space. At its core, this invention outlines an electronic device composed of an 'operation body' (which houses the main internal components), a 'frame' that encloses the lateral sides of this operation body, and an 'antenna'.\n\nThe key innovation lies in the strategic placement of the antenna. Instead of being fully embedded within the potentially crowded and electromagnetically noisy operation body, the antenna is disposed within the protective frame. It is partially exposed outside the frame, ensuring optimal signal reception and transmission, while maintaining an essential electrical connection to the operation body for its wireless communication functions.\n\nThis design specifically addresses the challenge of internal interference. By positioning the antenna away from components that might generate electromagnetic noise or contain metallic materials within the operation body, the Electronic Device patent significantly enhances signal quality and overall wireless performance. It's a foundational approach to building more robust and compact electronic gadgets.","question":"What is Electronic Device?"},{"answer":"The **Electronic Device** patent works by intelligently separating the wireless antenna from potential sources of interference within the device. Here’s a breakdown:\n\n1.  **Operation Body:** This is the central part of the electronic device, containing all the main components like the processor, battery, and memory. These components can generate electromagnetic interference or contain metallic parts that obstruct wireless signals.\n2.  **Frame Integration:** Instead of being inside this busy operation body, the antenna is strategically placed within the device's 'frame' – the outer protective casing that surrounds the operation body. A portion of the antenna is also 'partially exposed outside the frame,' which is crucial for it to effectively send and receive wireless signals to the external environment.\n3.  **Electrical Connection:** The antenna, despite being in the frame, remains electrically connected to the operation body to facilitate seamless wireless communication.\n\nBy placing the antenna in the frame, the Electronic Device creates a physical distance between the antenna and internal interference sources. This distance reduces signal degradation, leading to enhanced wireless communication efficiency. Additionally, this method frees up valuable internal space within the operation body, allowing for greater design flexibility.","question":"How does Electronic Device work?"},{"answer":"The **Electronic Device** patent primarily solves two critical problems prevalent in modern electronics design:\n\n1.  **Wireless Communication Interference:** In compact electronic devices, antennas are often placed in close proximity to other internal components, especially those with metallic materials or that generate electromagnetic noise (e.g., processors, power circuits). This proximity causes interference, leading to degraded wireless signals, slower data speeds, dropped connections, and overall poor user experience.\n2.  **Internal Space Constraints:** Embedding antennas within the main 'operation body' consumes valuable internal volume. This limits the space available for other essential components like larger batteries, more powerful processors, or additional sensors. Manufacturers often face difficult trade-offs between device thickness, battery life, and feature integration.\n\nBy strategically relocating the antenna to the device's frame, the Electronic Device patent mitigates interference, ensuring a cleaner and more efficient wireless signal. Simultaneously, it frees up crucial internal space, providing greater flexibility for design and functionality. This innovation addresses fundamental challenges in creating high-performance, compact, and reliable electronic gadgets.","question":"What problem does Electronic Device solve?"},{"answer":"The patent data provided indicates that the inventors for the **Electronic Device** patent (US-9853349) are not listed in the provided abstract. Similarly, the assignee, which is the entity or individual to whom the patent rights are legally assigned, is also not specified in the given information.\n\nTypically, patent documents list the names of the individual inventors who conceived the invention, as well as the assignee, which is often a corporation or research institution that owns the patent rights. Without this specific information, it's not possible to identify the inventors or the assignee from the provided abstract. To find this information, one would need to consult the full official patent document for US-9853349.","question":"Who invented Electronic Device?"},{"answer":"The **Electronic Device** patent offers several significant benefits for both manufacturers and end-users of electronic devices:\n\n1.  **Enhanced Wireless Communication Efficiency:** By placing the antenna away from internal interference sources, this invention dramatically improves signal quality and strength. Users can expect more reliable connections, faster data transfer speeds, and fewer dropped calls or Wi-Fi disconnections.\n2.  **Optimized Internal Space:** Relocating the antenna to the frame frees up valuable internal volume within the device's main 'operation body'. This allows manufacturers to integrate larger batteries (for extended device life), more powerful processors, advanced sensors, or simply create thinner and lighter device designs without compromising functionality.\n3.  **Improved Device Protection:** The frame, which houses the antenna, also serves its traditional role of enclosing and protecting the operation body, preventing collision and enhancing overall device durability.\n4.  **Greater Design Flexibility:** Manufacturers gain more freedom in product design, enabling them to create innovative form factors and feature sets that were previously constrained by antenna placement challenges.\n\nThese benefits collectively lead to a superior user experience and more competitive products in the market, making the Electronic Device a foundational innovation for next-generation electronics.","question":"What are the key benefits of Electronic Device?"},{"answer":"The **Electronic Device** patent (US-9853349) differentiates itself from prior art through its innovative approach to antenna integration, primarily by relocating the antenna from the device's interior to its frame.\n\nIn traditional prior art designs, antennas were typically embedded *within* the main 'operation body' of electronic devices. This often led to significant challenges: the antenna was in close proximity to internal components that generated electromagnetic interference (EMI) or contained metallic materials, resulting in degraded signal quality, distorted radiation patterns, and inefficient wireless communication. Furthermore, these internal antennas consumed valuable space, limiting design flexibility for other components.\n\nThis invention, however, strategically places the antenna *within the device's frame*, with a portion exposed externally. This key difference provides a physical separation between the antenna and the internal interference sources. By creating this distance, the Electronic Device significantly mitigates EMI, leading to a much cleaner and more efficient wireless signal. It also frees up critical internal space within the operation body, a distinct advantage over prior art that struggled with internal crowding. The dual-purpose frame, offering both protection and optimized antenna housing, marks a significant departure from conventional designs.","question":"How is Electronic Device different from prior art?"},{"answer":"The **Electronic Device** patent (US-9853349) has the potential to significantly impact a wide array of industries that rely heavily on compact, high-performance electronic devices with robust wireless communication capabilities. These include:\n\n1.  **Consumer Electronics:** This is perhaps the most immediate and obvious impact. Smartphones, tablets, smartwatches, fitness trackers, and other wearable technology will benefit from enhanced wireless efficiency, longer battery life (due to space saving), and thinner, more innovative designs.\n2.  **Internet of Things (IoT):** From smart home devices and connected appliances to industrial IoT sensors and smart city infrastructure, all require reliable, compact, and often energy-efficient wireless communication. This invention can make these devices more robust and easier to integrate into various environments.\n3.  **Medical Devices:** Wearable health monitors, remote patient monitoring devices, and other compact medical electronics demand extremely reliable connectivity and often have strict size constraints. The Electronic Device can improve their performance and design.\n4.  **Automotive Industry:** Modern vehicles are increasingly integrated with wireless connectivity for infotainment, navigation, telematics, and autonomous driving features. This technology can contribute to more reliable in-car communication systems and more streamlined vehicle electronics.\n5.  **Industrial and Enterprise Devices:** Handheld scanners, ruggedized tablets, and specialized industrial sensors often operate in challenging environments where robust wireless performance and durability are paramount. This invention can enhance their functionality and reliability.\n\nIn essence, any industry where electronic devices need to be compact, perform exceptionally well wirelessly, and be physically protected will find value in the innovations presented by the Electronic Device patent.","question":"What industries will Electronic Device impact?"},{"answer":"The **Electronic Device** patent, identified by the number US-9853349, was filed on **2016-03-18** (March 18, 2016). This is the date when the patent application was initially submitted to the patent office.\n\nThe patent was subsequently published, indicating it was granted or made publicly available, on **2017-12-26** (December 26, 2017). The publication date is when the patent document became publicly accessible, allowing others to review its contents, claims, and technical details.\n\nThese dates are crucial for understanding the timeline of the invention's development and its legal status. The filing date establishes the priority date for the invention, while the publication date marks its official entry into the public domain as a granted patent, providing the patent holder with exclusive rights for a specified period.","question":"When was Electronic Device filed/granted?"},{"answer":"The **Electronic Device** patent (US-9853349) has extensive commercial applications across various sectors due to its ability to enhance wireless performance and optimize device design. Key applications include:\n\n1.  **Smartphones and Mobile Computing:** This is perhaps the most direct application. Manufacturers can create smartphones and tablets with superior cellular, Wi-Fi, and Bluetooth connectivity, leading to faster data speeds, more reliable calls, and improved user satisfaction. The freed-up internal space allows for larger batteries, more advanced cameras, or slimmer device profiles, offering significant market differentiation.\n2.  **Wearable Technology:** For smartwatches, fitness trackers, and augmented/virtual reality (AR/VR) headsets, compact size and robust connectivity are crucial. This invention enables more efficient wireless modules in smaller form factors, potentially extending battery life and allowing for more integrated features.\n3.  **Internet of Things (IoT) Devices:** A vast range of IoT products, including smart home devices (thermostats, security cameras), industrial sensors, and connected vehicles, can benefit. The enhanced reliability and space-saving design are critical for devices that need to operate autonomously and efficiently in various environments.\n4.  **Laptops and Portable Electronics:** Even larger portable devices can leverage this technology to improve wireless range and stability, especially in crowded office or public Wi-Fi environments, while contributing to thinner and lighter designs.\n5.  **Medical and Healthcare Devices:** Compact medical monitors, diagnostic tools, and therapeutic devices require highly reliable wireless communication for data transmission and remote control. The Electronic Device patent can help meet these stringent requirements.\n\nIn essence, any product requiring efficient, interference-free wireless communication within a compact, protected form factor stands to gain commercially from integrating this patented technology, leading to more competitive and higher-performing products.","question":"What are the commercial applications of Electronic Device?"},{"answer":"Based on the foundational principles of the **Electronic Device** patent (US-9853349), several future developments and advancements can be anticipated:\n\n1.  **Advanced Frame Materials:** Expect research into novel frame materials that are not only structurally robust but also possess optimized RF properties. This could include advanced polymers, composites, or even metamaterials that can dynamically adapt to different frequency bands or environmental conditions, further enhancing antenna performance.\n2.  **Multi-Antenna and MIMO Integration:** The concept of integrating a single antenna into the frame can be extended to multiple antennas. This would enable sophisticated Multiple-Input, Multiple-Output (MIMO) systems for next-generation wireless standards (e.g., 5G mmWave, 6G), offering unprecedented data speeds and network reliability within compact form factors.\n3.  **Integrated Sensing and Communication:** Future frames might integrate not just antennas but also other sensors (e.g., pressure, touch, biometric, environmental) directly into their structure. This would create 'smart skins' for devices that offer a multitude of functionalities beyond basic protection and wireless communication.\n4.  **Additive Manufacturing (3D Printing):** Advanced manufacturing techniques like 3D printing could enable the creation of highly complex, multi-functional frame geometries with precisely embedded antenna structures and interconnects, leading to even greater optimization and customization.\n5.  **Energy Harvesting Integration:** The frame, as an exposed and often sizable component, could potentially be designed to integrate ambient energy harvesting technologies (e.g., solar, kinetic) to supplement device power, leveraging its physical presence for additional functionality.\n\nThese developments will push the boundaries of device integration, making future electronic devices even more powerful, versatile, and seamlessly connected, all while maintaining or reducing their physical footprint. The Electronic Device patent lays a crucial groundwork for this exciting evolution.","question":"What are the future developments expected for Electronic Device?"}],"topics":["electronic device patent","US-9853349","wireless communication efficiency","antenna design","device space optimization","miniaturization","electronic","devices"],"tech_cluster":null},"seo":{"title":"Electronic Device: Boost Wireless Signal & Save Space - Patent US-9853349","description":"Discover the Electronic Device patent (US-9853349) for enhanced wireless communication. Antenna in frame reduces interference, saves internal space, and protects devices. Full analysis.","keywords":["electronic device patent","US-9853349","wireless communication efficiency","antenna design","device space optimization","interference mitigation","compact electronics","tech innovation","patent analysis","integrated antenna","device frame antenna","mobile device technology"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853349","license":"CC-BY-4.0-like","license_terms":"AI-generated analysis on this page (summary, layman_explanation, technical_analysis, business_analysis, faqs) may be reused with attribution and a visible link back to the canonical URL above. Patent abstracts, claims, and bibliographic data are USPTO public domain.","required_link":"https://patentable.app/patents/US-9853349","citation_suggestion":"Patentable. \"Electronic device\" (US-9853349). https://patentable.app/patents/US-9853349","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853349","json":"https://patentable.app/api/llm-context/US-9853349","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T11:37:09.151Z"}