{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853480","patent":{"patent_number":"US-9853480","title":"Apparatus, systems and methods for wireless charging for PC platforms and peripherals","assignee":null,"inventors":[],"filing_date":"2011-12-08T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["G06F","H02J","H02J","H02J"],"num_claims":19,"abstract":"Disclosed is a wireless charging device for charging electronic devices placed within proximity of the transmitter of the wireless charging device. The wireless charging device includes an inductive coupler, a reflected power detector, a power source and a power control system. The inductive coupler is configured to charge at least one electronic device present in the charging area. The inductive coupler takes power form the power source. The inductive coupler is also capable of communicating with electronic devices being charged to exchange a set of information. In addition to notebook PCs, this solution can be extended to desktop and tablet PCs, slates and office furniture as pervasive means of wireless charging multiple devices."},"analysis":{"summary":"The patent titled \"Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals\" introduces a sophisticated and pervasive wireless charging solution for electronic devices. At its core, the innovation provides a wireless charging device featuring an inductive coupler, a reflected power detector, a power source, and a power control system. This system is designed to efficiently charge multiple electronic devices, such as laptops, tablets, and peripherals, simply by their proximity to the transmitter.\n\nThe primary problem this patent addresses is the ubiquitous cable clutter and the inconvenience associated with individually charging numerous electronic devices in a modern workspace. Existing solutions often require precise placement or are limited to single devices, failing to offer a comprehensive, integrated power delivery experience for an entire ecosystem of PC platforms and peripherals.\n\nThe key technical approach involves an intelligent inductive coupler that not only transfers power but also establishes two-way communication with the devices being charged. This communication allows for the exchange of vital information, such as battery status and power requirements, enabling the power control system to dynamically optimize charging. The reflected power detector further enhances efficiency and safety by monitoring power absorption and adjusting output accordingly. This intelligent feedback loop ensures devices are charged efficiently and safely, preventing overcharging and energy waste.\n\nFrom a business perspective, this technology offers significant value and broad applications. It enables the creation of truly cord-free workspaces, improving aesthetics, ergonomics, and flexibility in office environments. Its extensibility to desktop and tablet PCs, slates, and even integration into office furniture positions it as a foundational technology for smart offices and homes. The market opportunity is substantial, encompassing enterprise solutions, consumer electronics, and furniture manufacturing, all seeking to capitalize on the demand for seamless, integrated power delivery. This innovation promises to drive new product categories and enhance existing ones by offering a superior user experience and reducing operational complexities associated with traditional wired charging.","layman_explanation":"### What Problem Does This Solve?\nThink about your typical desk or office space. It's probably a jungle of wires: power cords for your laptop, charging cables for your phone and tablet, perhaps a separate one for your wireless mouse or keyboard. This isn't just an aesthetic problem; it's a practical one. Cables create clutter, limit how you can arrange your workspace, make it harder to clean, and can even be a tripping hazard. Existing wireless charging solutions often fall short because they're designed for single devices or require very precise placement on a small pad, which doesn't solve the problem for an entire ecosystem of devices like a laptop, tablet, and multiple peripherals.\n\n### How Does It Work?\nThe patent for **Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals** introduces a smarter, more integrated approach. Imagine your desk, or even parts of your office furniture, having a hidden 'power field' embedded within it. When you place your electronic devices – like your laptop, tablet, or even a wireless mouse – anywhere within this 'power field's' reach, they automatically start charging. This isn't magic; it uses a technology called 'inductive coupling,' which is similar to how some electric toothbrushes charge, but on a larger, more intelligent scale.\n\nThe key is that the charging system isn't just blindly sending out power. It has an 'inductive coupler' that sends the power, but it also has a 'reflected power detector' and a 'power control system.' Think of it like a smart energy manager. This manager can 'talk' to your devices, asking them, 'How much battery do you have?' or 'How much power do you need right now?' Based on those answers, and by seeing how much power is being effectively used versus 'reflected' back, the system intelligently adjusts how much power it sends out. This ensures your devices charge efficiently, without wasting energy or overcharging.\n\n### Why Does This Matter?\nThis innovation matters because it fundamentally changes our relationship with power and our devices. For businesses, it means:\n*   **Cleaner, More Flexible Workspaces:** No more cable management nightmares. Desks are tidy, promoting better focus and allowing for easy reconfiguration or hot-desking.\n*   **Increased Productivity:** Employees aren't searching for chargers or dealing with dead batteries, leading to fewer interruptions.\n*   **Enhanced Aesthetics:** A modern, sleek office environment that impresses clients and improves employee morale.\n*   **Future-Proofing:** The ability to seamlessly integrate charging into furniture means offices can be designed with power as an invisible, ubiquitous utility, much like Wi-Fi.\n\nFor consumers, it offers unparalleled convenience and a clutter-free home office. The market opportunity is vast, from direct sales of charging surfaces to licensing the technology to major PC manufacturers, furniture companies, and even smart home developers. This isn't just an incremental improvement; it's a strategic move towards a truly untethered digital ecosystem, promising significant ROI through improved efficiency, design, and user satisfaction.\n\n### What's Next?\nThis patent paves the way for a future where wireless power is as common and expected as wireless internet. We can anticipate seeing this technology integrated into new office furniture lines, public charging stations, and even residential homes. As the technology matures, we might see longer charging ranges and even more sophisticated power management, potentially leading to a world where our devices are simply always charged, without us ever having to think about it. It represents a significant investment opportunity for companies looking to lead the charge (pun intended!) in the next wave of technological convenience.","technical_analysis":"The patent \"Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals\" details a comprehensive system designed to enable pervasive wireless power delivery to electronic devices. This technical analysis will dissect its core architecture, implementation considerations, and the implications of its design choices for future wireless power solutions.\n\n**Technical Architecture Overview:**\nAt the heart of this invention is a wireless charging device composed of four primary functional blocks: a power source, an inductive coupler, a reflected power detector, and a power control system. The power source (e.g., mains electricity via an AC-DC converter) provides the initial electrical energy. This energy is then fed into the power control system, which regulates and conditions the power before it reaches the inductive coupler. The inductive coupler, typically a resonant coil or array of coils, is responsible for generating the electromagnetic field that transfers energy wirelessly to receiving coils within electronic devices placed in its proximity. Crucially, the reflected power detector continuously monitors the power reflected back from the inductive coupler, providing real-time feedback to the power control system. This feedback loop is essential for optimizing power transfer efficiency and adapting to varying loads.\n\n**Implementation Details & Algorithm Specifics:**\n1.  **Inductive Coupler Design:** The inductive coupler would likely employ a resonant inductive coupling mechanism to maximize efficiency over a small to medium range (e.g., a few centimeters to tens of centimeters). The design would involve optimizing coil geometry, number of turns, and resonant frequency. For charging an 'area' rather than a single point, an array of overlapping coils or a larger, distributed coil structure might be employed, potentially with beamforming capabilities to direct power to detected devices. The abstract mentions communication capability; this implies that the inductive coupler might also be used for data transfer (e.g., using frequency modulation or load modulation) or it could integrate a separate, co-located low-power communication module (e.g., Bluetooth Low Energy, NFC) to exchange information with devices.\n\n2.  **Reflected Power Detector:** This component is critical for closed-loop control. It measures the mismatch between the impedance of the transmitting coil and the combined impedance of the receiving devices. High reflected power indicates poor coupling or an absence of a load. The detector typically uses a directional coupler or a bridge circuit to separate forward and reflected waves. The output of this detector (e.g., a voltage proportional to reflected power) is fed to the power control system.\n\n3.  **Power Control System:** This is the intelligent core. It processes the reflected power data and information received from charged devices (via the inductive coupler's communication channel) to dynamically adjust the power delivered to the inductive coupler. Algorithms within this system would likely include:\n    *   **Load Detection and Identification:** Detecting the presence of a device and potentially identifying its type (e.g., laptop, tablet, phone) through the communication channel.\n    *   **Impedance Matching Algorithms:** Adjusting the operating frequency, duty cycle, or driving voltage/current of the inductive coupler to minimize reflected power and maximize efficiency for the detected load(s).\n    *   **Multi-Device Power Allocation:** For multiple devices, the system would need sophisticated algorithms to allocate power based on individual device requirements, battery charge levels, and user-defined priorities. This could involve time-division multiplexing or spatial power distribution.\n    *   **Foreign Object Detection (FOD):** Monitoring for metallic objects that could absorb energy and overheat, by detecting changes in reflected power or resonant frequency.\n    *   **Overcharge/Overheat Protection:** Ceasing power delivery when a device is fully charged or if it detects excessive heat through communication feedback.\n\n**Integration Patterns & Performance Characteristics:**\nThe patent's vision of extending this solution to office furniture implies embedding the entire wireless charging device within surfaces. This requires careful consideration of shielding to prevent electromagnetic interference (EMI) with other electronics and to ensure human safety (SAR limits). The inductive coupler's communication capability enables a robust integration pattern where devices can 'handshake' with the charger, providing their power profiles and receiving charging instructions. This allows for a more secure and efficient charging ecosystem compared to passive power delivery.\n\nPerformance characteristics would focus on charging efficiency (power delivered to device vs. power drawn from source), charging speed, spatial freedom (how far off-center a device can be placed), and the number of devices that can be simultaneously charged. The intelligent control system is key to maintaining high efficiency across varying loads and device positions. The system's ability to communicate with devices also allows for a more adaptive power profile, potentially leading to faster charging times for devices that can communicate their optimal charging parameters.\n\n**Code-Level Implications:**\nImplementing the power control system would involve embedded software running on a microcontroller or DSP. Key software modules would include:\n*   **RF/Power Management Module:** Interfacing with the inductive coupler's driver circuitry, controlling frequency, amplitude, and phase.\n*   **Communication Protocol Stack:** Implementing the physical and data link layers for communication with client devices.\n*   **Feedback Control Loop:** Processing reflected power data and device information to execute PID or more advanced adaptive control algorithms.\n*   **Safety and Fault Detection Logic:** Implementing FOD, over-current, over-voltage, and over-temperature protections.\n*   **User Interface/API:** For configuration, diagnostics, and potentially integration with smart building management systems.\n\nThis patent outlines a robust framework for intelligent, pervasive wireless power. Its emphasis on a feedback loop via reflected power detection and bidirectional communication with devices signifies a move beyond basic inductive charging towards a truly smart energy management system for our increasingly untethered computing environments.","business_analysis":"The patent for \"Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals\" presents a substantial business opportunity by addressing a pervasive pain point: the management and clutter of power cables for electronic devices. This innovation is poised to disrupt multiple industries and create new market segments.\n\n**Market Opportunity Size:**\nThe global market for wireless charging is projected to grow significantly, driven by increasing adoption in consumer electronics, automotive, and industrial sectors. This patent specifically targets PC platforms (laptops, desktops, tablets) and peripherals, a market segment that alone represents hundreds of millions of devices sold annually. Extending the solution to 'office furniture' broadens the market to commercial real estate, smart offices, and home furnishing industries. The total addressable market (TAM) for pervasive wireless power in these sectors could easily reach into the tens of billions of dollars annually, encompassing hardware sales, licensing fees, and potentially subscription services for managed power environments.\n\n**Competitive Advantages:**\n1.  **Pervasive, Multi-Device Charging:** Unlike many existing wireless charging solutions that are limited to single devices or small, dedicated pads, this technology offers a broader charging area and the capability to charge multiple devices simultaneously. This 'set-it-and-forget-it' convenience is a significant differentiator.\n2.  **Intelligent Power Management:** The inclusion of a reflected power detector and a power control system, coupled with bidirectional communication with devices, enables highly efficient and optimized power delivery. This intelligence can prevent overcharging, reduce energy waste, and prioritize charging, offering a superior user experience and potentially longer device battery life compared to less sophisticated systems.\n3.  **Integration Potential:** The explicit mention of integration into office furniture opens up entirely new product categories and partnerships for furniture manufacturers, interior designers, and smart building technology providers. This allows for seamless, aesthetic integration that current stand-alone solutions cannot match.\n4.  **Reduced Clutter and Enhanced Aesthetics:** For both consumers and businesses, the elimination of power cables translates into cleaner, more flexible, and aesthetically pleasing environments, which is a strong selling point in modern design-conscious markets.\n\n**Revenue Potential & Business Models:**\nSeveral business models could emerge:\n*   **Direct Hardware Sales:** Manufacturing and selling wireless charging pads, embedded modules for PCs, or integrated furniture.\n*   **Licensing:** Licensing the patented technology to existing PC manufacturers, peripheral makers, and furniture companies. This could generate significant recurring revenue without direct manufacturing overhead.\n*   **B2B Solutions:** Offering comprehensive wireless charging infrastructure solutions for corporate offices, co-working spaces, hotels, and educational institutions.\n*   **Value-Added Services:** Potentially offering software platforms for power management, energy consumption monitoring, or device tracking within a wirelessly charged environment.\n\n**Strategic Positioning:**\nThis patent positions its owner as a leader in the next generation of wireless power technology. By focusing on PC platforms and pervasive integration, it moves beyond the smartphone-centric wireless charging market. Strategic partnerships with major PC OEMs (e.g., Dell, HP, Lenovo), furniture manufacturers (e.g., Steelcase, Herman Miller), and smart building integrators will be crucial for rapid market penetration. The technology could also be a key enabler for the 'Internet of Things' (IoT) by simplifying power for a vast array of connected devices in smart environments.\n\n**ROI Projections:**\nEarly adoption in enterprise settings, driven by productivity gains and aesthetic improvements, could yield substantial ROI. For manufacturers licensing the technology, it offers a competitive edge and the ability to command premium pricing for 'wireless-ready' products. The long-term ROI is tied to market penetration and the establishment of this technology as a de facto standard for power delivery in certain environments, leading to sustained revenue streams from licensing and integrated product sales. The reduction in cable-related support issues and increased workspace flexibility also contribute to indirect ROI for businesses adopting the solution.","faqs":[{"answer":"Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals is a patented invention that describes a comprehensive wireless charging device designed to power electronic devices placed within its proximity. Unlike conventional single-spot wireless chargers, this system is engineered to provide pervasive wireless power across a designated charging area, such as a desk surface or integrated into furniture.\n\nThe core of this innovation lies in its intelligent design, which includes an inductive coupler for power transfer, a reflected power detector for efficiency monitoring, a power source, and a sophisticated power control system. This combination allows for dynamic power management and ensures that multiple devices can be charged simultaneously and optimally.\n\nEssentially, this patent outlines a solution to create truly cord-free computing environments, extending wireless power capabilities beyond just small mobile devices to higher-power PC platforms and their peripherals. It represents a significant step towards seamless and integrated power delivery in modern workspaces and homes.","question":"What is Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals?"},{"answer":"The Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals operates on principles of intelligent inductive power transfer. At its heart is an inductive coupler, which draws power from a source and generates an electromagnetic field within a defined charging area. When compatible electronic devices (equipped with receiver coils) are placed within this field, they absorb energy, converting it into electricity to charge their batteries.\n\nWhat makes this system unique is its sophisticated control mechanism. It includes a reflected power detector that continuously monitors the efficiency of power transfer, feeding this data back to a power control system. This allows the system to dynamically adjust its output for optimal performance and safety. Furthermore, the inductive coupler is capable of bidirectional communication with the devices being charged. This means devices can transmit information like battery levels or power requirements, enabling the system to intelligently allocate power, prioritize charging, and prevent overcharging or overheating.\n\nThis intelligent feedback loop and communication capability differentiate this patent from simpler wireless charging methods, allowing for efficient, safe, and multi-device charging across a broader area.","question":"How does Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals work?"},{"answer":"The Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals patent primarily solves the pervasive problem of cable clutter and the associated inconvenience of managing numerous power cords for electronic devices in modern computing environments. In today's digital world, users often contend with a tangled mess of cables for laptops, tablets, smartphones, and various peripherals, leading to cluttered workspaces, limited flexibility, and constant frustration.\n\nExisting wireless charging solutions often fall short by requiring precise placement, supporting only single devices, or lacking the power capacity for larger electronics like laptops. This invention addresses these limitations by providing a comprehensive system for pervasive, intelligent, and multi-device wireless power delivery across a broader charging area.\n\nBy eliminating the need for individual power adapters and cables, this technology enhances workspace aesthetics, improves ergonomics, and increases user convenience. It aims to create truly untethered environments where devices are effortlessly powered, fostering greater productivity and a more seamless interaction with technology.","question":"What problem does Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals solve?"},{"answer":"The patent data provided does not specify the names of the individual inventors for Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals. However, patents are typically filed by individuals or assigned to a company or organization that funded the research and development. In many cases, the assignee (the entity to whom the patent rights are transferred) is the primary beneficiary of the invention.\n\nWhile the inventors' names are not provided in this specific abstract, the innovation itself reflects significant expertise in electrical engineering, power electronics, and wireless communication technologies. The development of such a sophisticated system requires a deep understanding of inductive coupling, power control systems, and communication protocols for efficient and safe energy transfer.\n\nFurther details regarding the inventors would typically be found in the full patent document, which provides a complete record of the invention, its claims, and the individuals or entities involved in its creation and ownership.","question":"Who invented Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals?"},{"answer":"The Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals offers a multitude of key benefits that significantly enhance the user experience and operational efficiency in modern computing environments.\n\nFirstly, it delivers **unparalleled convenience** by enabling pervasive, cord-free charging. Users can simply place their laptops, tablets, or peripherals within a designated area, such as a desk, and they will charge automatically without the need for tangled cables or individual power bricks. This eliminates the constant search for chargers and the hassle of plugging and unplugging devices.\n\nSecondly, the system provides **intelligent power management**. Through a reflected power detector and bidirectional communication with devices, it can optimize power delivery, prevent overcharging, and ensure efficient energy use. This not only prolongs battery life but also enhances safety by detecting foreign objects and thermal conditions.\n\nThirdly, it promotes **cleaner and more flexible workspaces**. The elimination of cable clutter drastically improves aesthetics and allows for greater freedom in arranging and reconfiguring desks and office layouts. This is a significant advantage for both individual users and businesses looking to create modern, efficient, and visually appealing environments.\n\nFinally, the patent's extensibility to desktop PCs, slates, and office furniture ensures its **broad applicability and scalability**, positioning it as a foundational technology for truly smart and untethered computing ecosystems.","question":"What are the key benefits of Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals?"},{"answer":"The Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals distinguishes itself from prior art in several critical ways, particularly in its intelligence, pervasiveness, and multi-device capability.\n\nMost prior art wireless charging solutions, such as those based on the Qi standard, typically require precise alignment of a single device on a dedicated charging pad. They often lack sophisticated power management beyond basic load detection and do not offer bidirectional communication with the devices being charged. This limits their efficiency, flexibility, and applicability to higher-power devices like laptops or multiple peripherals simultaneously.\n\nThis patent, however, introduces a system with a broader 'charging area' rather than a single spot, allowing for greater spatial freedom. Its key differentiators include an intelligent power control system that leverages a reflected power detector for dynamic impedance matching and efficiency optimization. Crucially, the inductive coupler can communicate with devices to exchange information like battery status and power requirements, enabling adaptive and prioritized charging for multiple devices. Furthermore, the explicit mention of integration into office furniture signifies a shift from standalone accessories to embedded infrastructure, a concept largely absent in prior art. These combined innovations make Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals a significantly more advanced and comprehensive solution for untethered computing.","question":"How is Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals different from prior art?"},{"answer":"The Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals patent is poised to significantly impact multiple industries, driving innovation and creating new market opportunities across various sectors.\n\n**Consumer Electronics:** PC manufacturers (laptops, desktops, tablets) and peripheral makers (wireless keyboards, mice, monitors) will be able to design sleeker, more durable, and truly port-less devices, enhancing user experience and opening new design possibilities. This will create a demand for wireless-ready components and accessories.\n\n**Office Furniture and Commercial Real Estate:** The explicit mention of integrating this technology into office furniture is a game-changer. Furniture manufacturers can develop 'smart desks' and conference tables that inherently provide power, transforming office layouts and making workspaces more flexible and aesthetically pleasing. Commercial real estate developers can offer advanced, technology-integrated office spaces as a premium feature.\n\n**Smart Home Technology:** As the concept of pervasive wireless power extends, it will seamlessly integrate into smart home ecosystems, powering a wide array of devices from kitchen appliances to home office setups, reducing clutter and enhancing convenience.\n\n**Hospitality and Education:** Hotels, cafes, airports, and educational institutions can implement this technology in public spaces, offering convenient, embedded charging solutions for their patrons and students. This patent lays the foundation for a broad shift towards ubiquitous, intelligent power delivery across diverse environments.","question":"What industries will Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals impact?"},{"answer":"The patent for Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals (US-9853480) was filed on **December 8, 2011**. This date marks the official submission of the invention's details to the patent office, initiating the examination process.\n\nThe patent was subsequently published, indicating that the detailed information about the invention became publicly accessible, on **December 26, 2017**. This publication date signifies when the patent was officially granted and its full specifications, claims, and drawings were made available to the public. The period between filing and publication typically involves examination by patent examiners, potential revisions, and responses to office actions.\n\nThese dates are crucial for understanding the intellectual property landscape, as they define the patent's priority date and the beginning of its enforceable term. The technology described in Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals has therefore been a protected innovation since its grant in late 2017.","question":"When was Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals filed/granted?"},{"answer":"The commercial applications of Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals are extensive and span across multiple sectors, driven by the strong market demand for convenience, aesthetics, and efficiency.\n\n**Smart Office Solutions:** This is a primary application. Companies can integrate the wireless charging technology directly into office desks, conference tables, and common area furniture. This creates truly cord-free workstations, enhancing productivity, facilitating hot-desking, and improving the overall professional appearance of the office. It reduces IT overhead for cable management and power adapter procurement.\n\n**Consumer Home Offices:** For individual consumers, the technology can be embedded into home office furniture or sold as standalone charging mats, allowing laptops, tablets, and peripherals to charge seamlessly, eliminating home office clutter and enhancing personal productivity.\n\n**Public Spaces:** Cafes, airports, libraries, and co-working spaces can offer embedded wireless charging in their tables and counters, providing a valuable service to customers and attracting more visitors seeking convenient power access.\n\n**PC and Peripheral Manufacturing:** Manufacturers of laptops, desktop PCs, tablets, and wireless peripherals can license this technology to integrate compatible receivers directly into their products, offering a premium 'wireless-ready' feature that differentiates them in the market. This could lead to new product designs that are sleeker and more robust without the need for physical charging ports.\n\n**Hospitality Industry:** Hotels can incorporate this technology into guest rooms and lobby areas, providing a modern amenity that enhances the guest experience. The versatility and intelligence of Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals make it a compelling commercial solution across various high-growth markets.","question":"What are the commercial applications of Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals?"},{"answer":"Looking ahead, several future developments are expected for the technology outlined in Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals, building upon its foundational innovations.\n\nOne significant area of development will be **extended charging range and efficiency**. While the patent specifies 'proximity,' future iterations will likely aim to increase the effective charging distance and efficiency for higher-power devices, potentially moving towards more ambient power delivery across larger areas without significant energy loss. This could involve advancements in resonant inductive coupling and field shaping techniques.\n\nAnother key development will be **enhanced multi-device intelligence and power allocation**. As more devices become wireless-charging enabled, the system will need even more sophisticated algorithms to manage power distribution for a diverse array of devices with varying power demands, battery chemistries, and charging priorities. This might include AI-driven power management that learns user habits or dynamically adapts to energy grid conditions.\n\n**Standardization and interoperability** will also be crucial. For widespread adoption, industry-wide standards for the communication protocols and power transfer specifications between the charging system and devices will likely emerge, ensuring seamless compatibility across different brands and product types. This will accelerate market penetration and reduce fragmentation.\n\nFinally, the **integration into new form factors and materials** will continue. Beyond office furniture, we could see this technology embedded into vehicle interiors, smart home appliances, and even architectural elements, making power truly ubiquitous and invisible in our daily lives. These advancements will solidify Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals as a cornerstone of the untethered digital future.","question":"What are the future developments expected for Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals?"}],"topics":["wireless charging","PC platforms","peripherals","inductive charging","cord-free computing","persistent","demand","untethered"],"tech_cluster":null},"seo":{"title":"Wireless Charging for PCs & Peripherals - Patent US-9853480","description":"Discover Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals, an intelligent system for cord-free power. Multi-device charging, smart control & office integration.","keywords":["wireless charging","PC platforms","peripherals","inductive charging","cord-free computing","wireless power delivery","smart office","tech innovation","US-9853480","patent","Apparatus, Systems and Methods for Wireless Charging for Pc Platforms and Peripherals","multi-device charging","power control system","office furniture integration"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853480","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-9853480","citation_suggestion":"Patentable. \"Apparatus, systems and methods for wireless charging for PC platforms and peripherals\" (US-9853480). https://patentable.app/patents/US-9853480","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853480","json":"https://patentable.app/api/llm-context/US-9853480","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T15:31:43.092Z"}