{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853459","patent":{"patent_number":"US-9853459","title":"Method and apparatus for controlling wireless power of a receiver in a wireless power transmission/reception system","assignee":null,"inventors":[],"filing_date":"2015-05-05T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H02J","H02J","H02J","H02J","H02J","H04B"],"num_claims":26,"abstract":"A method and apparatus are provided for controlling power in a wireless power transmission/reception system. The method includes receiving power information from a receiver entering a charging area; determining whether power can be supplied to the receiver, based on the power information; and if the power can be supplied to the receiver, transmitting, to the receiver, a response indicating that the power can be supplied to the receiver."},"analysis":{"summary":"The patent titled \"Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System\" (US-9853459) introduces a sophisticated method and apparatus for intelligently managing power delivery in wireless charging environments. At its core, this innovation aims to optimize efficiency, enhance safety, and improve compatibility by establishing a dynamic communication protocol between a wireless power transmitter and a receiver.\n\nThe primary problem this patent solves is the inefficiency and potential risks associated with static or unintelligent wireless power transmission. Prior systems often lacked the ability to dynamically assess a receiver's specific power requirements or the transmitter's capacity, leading to suboptimal charging, energy waste, or even damage.\n\nThe key technical approach involves a three-step process: First, the transmitter receives detailed 'power information' from a receiver as it enters a charging area. This information can include critical data like battery status, maximum power capacity, and charging profile. Second, based on this received information, the transmitter intelligently determines whether power can be supplied optimally and safely. This determination considers various factors such as system load, compatibility, and safety protocols. Third, if the determination is positive, the transmitter transmits a specific response to the receiver, indicating that power can now be supplied, thereby initiating a controlled and efficient power transfer.\n\nThe business value and applications of this technology are substantial. It enables the creation of highly efficient, safe, and versatile wireless charging solutions for consumer electronics, smart homes, automotive industries, and industrial IoT. Companies can leverage this intelligent control to minimize energy consumption, extend device lifespan, and provide a superior user experience. The market opportunity lies in developing adaptive wireless charging infrastructure and devices that can seamlessly integrate into various ecosystems, supporting multiple devices with diverse power needs.\n\nThis innovation represents a significant leap forward in wireless power management, moving beyond basic power detection to intelligent negotiation and adaptive delivery, thereby unlocking new possibilities for a truly untethered and optimized energy future.","layman_explanation":"### What Problem Does This Solve?\n\nImagine you have a communal charging station in your office or home where everyone just drops their devices – phones, smartwatches, tablets. Currently, most wireless chargers operate on a fairly basic principle: if a compatible device is detected, they start pushing power. The problem is, not all devices need the same amount of power, nor do they need it all the time. A nearly full smartwatch might only need a trickle, while a completely drained tablet needs a significant surge. Pushing a high, constant power output to all devices can lead to inefficiency (wasted energy), slower charging for some, or even potential wear and tear on batteries that receive more power than they optimally need. The core issue is a lack of intelligent communication and adaptive power delivery, resulting in a 'dumb' charging experience that doesn't optimize for individual device needs or overall energy efficiency.\n\n### How Does It Work?\n\nThis patent, titled \"Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System,\" introduces a much smarter approach. Think of it like a sophisticated conversation between your device and the charger before any power is exchanged. When your device (the receiver) enters the charging area, it doesn't just silently wait for power. Instead, it actively 'tells' the charging station (the transmitter) about itself. This 'power information' might include its battery level, how much power it can safely handle, and even its current temperature or preferred charging speed. The charging station then takes this information and, like a smart manager, quickly processes it. It considers the device's needs, its own available power, and any other relevant factors (like how many other devices are also requesting power). Only *after* it determines that it can efficiently and safely supply power to *that specific device* does it send a 'go ahead' signal. Once that signal is received, the power transfer begins, precisely tailored to the device's requirements. It's a two-way, intelligent handshake ensuring optimized power delivery.\n\n### Why Does This Matter?\n\nThis innovation matters significantly for several business reasons. Firstly, it drives **efficiency and cost savings**. By precisely allocating power, less energy is wasted, leading to lower electricity bills for users and operators of large charging networks. Secondly, it enhances **device longevity and safety**. Preventing overcharging or supplying incompatible power profiles can extend battery life and reduce the risk of overheating, leading to fewer warranty claims and happier customers. Thirdly, it creates a **superior user experience**. Imagine a public charging station where your phone charges optimally, even if five other devices are also connected. This seamless, intelligent interaction will be a significant differentiator in crowded markets. For companies, this means more robust products, better brand reputation, and the ability to build scalable wireless charging infrastructure for smart homes, offices, and potentially even electric vehicles.\n\n### What's Next?\n\nThe \"Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System\" lays the groundwork for truly adaptive and interconnected energy ecosystems. We can expect to see this technology integrated into next-generation consumer electronics, smart furniture, and even automotive interiors, allowing for truly 'set-it-and-forget-it' charging. As more devices become wireless-power-enabled, this intelligent control will become a standard expectation, pushing market adoption. For investors, this patent points to opportunities in companies developing smart power management systems, advanced charging infrastructure, and devices that prioritize intelligent energy negotiation. It's a stepping stone towards a future where energy isn't just delivered wirelessly, but delivered smartly and sustainably.","technical_analysis":"The patent \"Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System\" (US-9853459) describes a foundational framework for intelligent power control within wireless energy transfer systems. This technical analysis delves into the architectural components, algorithmic flow, and potential implementation details of this significant innovation.\n\n**Technical Architecture Overview**\n\nThe system primarily consists of two interacting entities: a **Wireless Power Transmitter (WPT)** and a **Wireless Power Receiver (WPR)**. The WPT is equipped with a transmission coil, a power control unit, a communication module, and a decision-making logic component. The WPR contains a reception coil, a power management unit, and a corresponding communication module. The core innovation lies in the bidirectional communication and intelligent decision-making process orchestrated by the WPT.\n\n**Implementation Details and Algorithm Specifics**\n\n1.  **Receiver Entry and Information Transmission:**\n    *   When a WPR enters the designated charging area of a WPT, the WPR's communication module is activated. This activation can be triggered by proximity detection (e.g., weak pilot signal from WPT, NFC detection) or by a low-power beacon signal from the WPR itself.\n    *   The WPR then transmits 'power information' to the WPT. This data payload is critical. It typically includes:\n        *   **Device Identifier (DID):** Unique ID for the WPR.\n        *   **Power Requirements:** Max voltage/current, desired power level, current battery percentage, charging state (e.g., fast charge requested, maintenance charge).\n        *   **Device Status:** Battery temperature, overall health, specific charging profile (e.g., Qi, PMA, proprietary).\n        *   **Priority Level:** In multi-device scenarios, an optional field indicating charging priority.\n    *   This information transfer likely occurs over a low-power, out-of-band communication channel, such as Bluetooth Low Energy (BLE), NFC, or a dedicated sub-band RF link, to minimize energy consumption during the negotiation phase.\n\n2.  **Transmitter's Power Supply Determination:**\n    *   Upon receiving the power information, the WPT's decision-making logic (often part of its control unit) processes this data. This step involves a complex algorithm considering multiple parameters:\n        *   **WPT Capacity:** Current available power output, maximum power output, and current load from other connected WPRs.\n        *   **Compatibility Check:** Verifying if the WPR's charging profile matches the WPT's capabilities.\n        *   **Safety Protocols:** Ensuring that the requested power level and device status do not violate thermal limits, overcurrent protection, or electromagnetic field (EMF) exposure guidelines.\n        *   **Resource Allocation Algorithm:** In a multi-receiver environment, the WPT may employ a scheduling or allocation algorithm (e.g., weighted round-robin, priority-based) to determine if and how much power can be supplied to the new WPR while maintaining service to existing ones.\n        *   **Environmental Factors:** Optionally, incorporating data from ambient sensors (e.g., temperature, humidity, presence of foreign metallic objects) to refine the decision.\n    *   The outcome of this determination is a binary 'can supply' or 'cannot supply' decision, possibly with an associated optimal power profile.\n\n3.  **Response Transmission and Power Transfer Initiation:**\n    *   If the determination is 'can supply,' the WPT's communication module transmits a positive response to the WPR. This response could include:\n        *   **Confirmation:** A simple ACK signal.\n        *   **Negotiated Parameters:** The agreed-upon voltage, current, or power level for charging.\n        *   **Start Command:** An explicit instruction to the WPR to prepare for power reception.\n    *   Upon receiving this positive response, the WPR's power management unit prepares its reception coil. Subsequently, the WPT initiates the high-power wireless transmission according to the determined parameters. If the determination is 'cannot supply,' a negative response or no response is sent, preventing inefficient or unsafe power transfer.\n\n**Integration Patterns and Performance Characteristics**\n\nThis system can be integrated into various wireless power standards (e.g., Qi, AirFuel) by augmenting their basic detection and power transfer mechanisms with this intelligent negotiation layer. Performance gains include:\n\n*   **Increased Efficiency:** Reduced power wastage due to mismatch or over-delivery.\n*   **Enhanced Safety:** Proactive prevention of hazardous charging conditions.\n*   **Improved User Experience:** Faster, more reliable charging, especially in multi-device scenarios.\n*   **Scalability:** Better management of multiple, heterogeneous devices on a single WPT.\n\n**Code-Level Implications**\n\nImplementing this patent would involve firmware development for both WPT and WPR communication modules. The WPT's control unit would require robust state machines and decision-making logic, likely involving microcontrollers or embedded processors. Data structures for power information and configuration parameters would need to be standardized. Secure communication protocols (e.g., encryption) for power information exchange would also be critical, especially in public charging environments. The WPR firmware would need to manage its power information transmission and respond to the WPT's directives, adjusting its power management unit accordingly. The core algorithms for 'power supply determination' could range from simple lookup tables to complex machine learning models for predictive power allocation based on historical data and real-time conditions. This technology lays a strong foundation for future advancements in smart grid integration and energy harvesting optimization within wireless power systems.","business_analysis":"The patent \"Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System\" (US-9853459) represents a pivotal advancement in wireless power technology, carrying significant implications for market opportunity, competitive advantage, and revenue potential across multiple industries. This innovation moves wireless charging beyond mere convenience to intelligent, efficient, and adaptive energy management.\n\n**Market Opportunity Size**\n\nThe global wireless charging market is projected to grow substantially, driven by the proliferation of smart devices, IoT, and electric vehicles. This patent directly addresses key pain points in current wireless power systems, such as inefficiency, compatibility issues, and suboptimal power allocation in multi-device environments. By solving these problems, the Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System unlocks larger market segments previously hesitant due to performance limitations. Applications span consumer electronics (smartphones, wearables, laptops), automotive (in-car charging, EV charging infrastructure), industrial IoT (sensors, mobile robots), and smart home/office solutions. The ability to create 'smart charging zones' in public spaces or commercial establishments presents a massive untapped market, where intelligent power negotiation ensures seamless service delivery.\n\n**Competitive Advantages**\n\nCompanies that adopt or license this technology will gain significant competitive advantages:\n\n1.  **Superior User Experience:** Devices charge more efficiently and reliably, reducing user frustration and increasing satisfaction.\n2.  **Enhanced Safety & Longevity:** Intelligent control prevents overcharging or incompatible power delivery, protecting devices and extending battery life.\n3.  **Energy Efficiency:** Reduced power wastage leads to lower operational costs for charging infrastructure providers and a stronger environmental narrative.\n4.  **Multi-Device Scalability:** The system can intelligently manage and prioritize power for multiple diverse devices simultaneously, a key differentiator in crowded tech spaces.\n5.  **Future-Proofing:** This intelligent negotiation protocol provides a robust foundation for integrating future smart grid capabilities and advanced power management features.\n\n**Revenue Potential and Business Models**\n\nThis patent opens several revenue streams:\n\n*   **Licensing:** Technology companies specializing in wireless power solutions can license this patent to integrate intelligent control into their products and platforms.\n*   **Product Differentiation:** Device manufacturers can market their products as 'smart charge enabled,' commanding premium pricing and capturing market share.\n*   **Infrastructure Development:** Companies can build and deploy intelligent wireless charging pads and furniture for commercial, public, and residential sectors, offering value-added services.\n*   **Software & Services:** Development of software platforms to manage and monitor intelligent charging networks, offering analytics and optimization services.\n*   **Automotive Integration:** Partnerships with car manufacturers for advanced in-vehicle wireless charging systems that adapt to passenger devices.\n\n**Strategic Positioning**\n\nImplementing the Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System allows companies to strategically position themselves as leaders in advanced energy management and smart infrastructure. It enables a move from commodity wireless charging hardware to intelligent, value-added solutions. This innovation can redefine industry standards, compelling competitors to adopt similar intelligent control mechanisms or risk falling behind.\n\n**ROI Projections**\n\nInvestment in this technology promises a strong ROI through several avenues: reduced warranty claims due to device damage, lower energy bills for end-users and infrastructure operators, increased customer loyalty due to superior product performance, and the ability to capture new market segments (e.g., smart city applications, advanced robotics charging). The efficiency gains alone, coupled with improved safety, justify significant investment. Furthermore, being an early adopter or licensor of this innovation grants a first-mover advantage in a rapidly expanding and strategically important market, solidifying long-term profitability and market leadership. The Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System is not just a technical improvement; it's a strategic business enabler.","faqs":[{"answer":"The Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System (US-9853459) is a patent that describes an innovative system for intelligently managing wireless power delivery. It outlines a process where a wireless power transmitter (like a charging pad) first receives detailed information from a receiver (like your smartphone) about its power needs and status.\n\nBased on this 'power information,' the transmitter then makes an informed decision about whether it can optimally and safely supply power to that specific device. If the conditions are met, it sends a confirmation back to the receiver, and only then does the precise power transfer begin.\n\nThis intelligent handshake ensures that power is delivered efficiently, safely, and in a manner tailored to the individual device, moving beyond basic 'on/off' wireless charging to a more sophisticated, adaptive system. It's designed to enhance the overall user experience and optimize energy usage in wireless power environments. Keywords: wireless power control, intelligent charging, patent US-9853459, power transmission system.","question":"What is Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System?"},{"answer":"The Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System operates through a three-step intelligent communication protocol.\n\nFirst, when a receiver (e.g., a smartphone or smartwatch) enters the designated charging area, it actively transmits 'power information' to the wireless power transmitter. This information is comprehensive, including details like the receiver's current battery level, maximum power capacity, preferred charging profile, and even its temperature.\n\nSecond, the transmitter's control unit processes this received data. It performs a complex determination to assess if power can be optimally and safely supplied to the receiver. This involves checking the transmitter's available capacity, verifying compatibility with the receiver, and adhering to safety protocols. It also considers other factors like overall system load in multi-device scenarios.\n\nFinally, if the determination is positive (i.e., power can be supplied efficiently and safely), the transmitter sends a response back to the receiver, indicating that power supply is approved. Only after this intelligent negotiation is complete does the actual, controlled wireless power transmission commence. Keywords: wireless power mechanism, intelligent handshake, power information exchange, adaptive charging.","question":"How does Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System work?"},{"answer":"The Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System primarily solves the problem of inefficient, non-adaptive, and potentially unsafe power delivery in conventional wireless charging systems. Prior art often lacked the ability to dynamically understand and respond to a receiver's specific power needs.\n\nThis led to several issues: energy wastage due to over-delivery of power, suboptimal charging speeds for devices with varying requirements, potential risks from supplying incompatible power levels (which could harm batteries or devices), and difficulties in intelligently managing multiple devices on a single charging surface. The 'dumb' nature of earlier systems meant a significant portion of transmitted energy was not effectively utilized.\n\nThis innovation provides a solution by introducing intelligent communication and decision-making, ensuring that power is delivered precisely when and how it's needed, thereby optimizing efficiency, enhancing safety, and improving the overall user experience. Keywords: wireless power problems, charging inefficiency, adaptive power control, wireless safety.","question":"What problem does Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System solve?"},{"answer":"The prompt does not provide specific inventor names or assignee information for the patent US-9853459. Patents are typically filed by individual inventors or, more commonly, assigned to corporations or research institutions that employ the inventors. Without this specific data, a direct answer to 'who invented' is not possible at this time.\n\nHowever, the existence of a patent titled Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System indicates a significant investment in research and development within the wireless power sector. Such innovations usually stem from teams of engineers and scientists working within leading technology companies or specialized R&D firms focused on power electronics and wireless communication.\n\nThe filing date of 2015-05-05 and publication date of 2017-12-26 suggest that the underlying research and development would have occurred in the years leading up to the filing. This timeframe was a period of intense innovation in wireless charging technologies as companies sought to improve existing standards and overcome their limitations. Keywords: patent inventors, wireless power research, technology development, patent assignees.","question":"Who invented Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System?"},{"answer":"The Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System offers several transformative benefits for both users and the wireless power industry.\n\nFirstly, it significantly **enhances efficiency** by ensuring that power is precisely matched to the receiver's needs, minimizing energy waste and reducing charging times. This leads to lower electricity consumption and a more sustainable charging process. Secondly, **safety is dramatically improved** as the intelligent system prevents overcharging or supplying incompatible power levels, thereby protecting devices from potential damage and reducing risks like overheating. Thirdly, it provides **superior multi-device management**, allowing a single charging transmitter to intelligently and fairly allocate power to multiple heterogeneous devices simultaneously, optimizing the experience for all users.\n\nFinally, this patent contributes to **extended device longevity** by ensuring batteries are charged under optimal conditions, reducing wear and tear. It also lays a foundational **framework for future smart energy ecosystems**, enabling more complex and adaptive power management solutions. Keywords: wireless power benefits, charging efficiency, device safety, multi-device charging, battery longevity.","question":"What are the key benefits of Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System?"},{"answer":"The Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System distinguishes itself from prior art by shifting from a reactive, often 'dumb' power delivery model to a proactive, intelligent, and adaptive one. Prior art systems typically involved basic detection of a receiver and then supplied power at a fixed or broadly negotiated level, with limited feedback.\n\nThis innovation's key difference lies in its **preemptive, detailed information exchange**. Instead of just detecting presence, the receiver actively transmits comprehensive 'power information' (e.g., battery status, max power capacity, desired profile) to the transmitter *before* power transfer. This granular data allows for an **intelligent determination** by the transmitter regarding optimal power supply, considering system capacity and safety, which was largely absent in older systems.\n\nFurthermore, the system involves an **explicit authorization handshake**, where the transmitter sends a confirmation response only if power can be supplied optimally. This controlled initiation, coupled with dynamic power allocation, ensures vastly improved efficiency, safety, and multi-device compatibility compared to the less nuanced approaches of earlier wireless charging technologies. Keywords: prior art comparison, wireless power innovation, intelligent control, adaptive power delivery, power negotiation.","question":"How is Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System different from prior art?"},{"answer":"The Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System is poised to impact a wide array of industries, transforming how various devices and systems are powered.\n\nThe **Consumer Electronics** sector will see significant benefits, enabling truly seamless and optimized charging for smartphones, wearables, laptops, and other personal devices in homes and public spaces. The **Automotive Industry** can leverage this for advanced in-car wireless charging systems that adapt to multiple passengers' devices, and potentially for more efficient EV charging infrastructure.\n\n**Smart Home and Office Solutions** will be revolutionized, with intelligent charging pads integrated into furniture, providing adaptive power to an ecosystem of connected devices. The **Industrial IoT and Robotics** sectors will benefit from precise and efficient power delivery to sensors, mobile robots, and autonomous guided vehicles (AGVs), reducing downtime and improving operational efficiency. Beyond these, **Healthcare** could see applications for charging medical devices safely and reliably, and **Retail/Hospitality** can offer superior charging amenities to customers. Keywords: industry impact, wireless power applications, consumer electronics, automotive charging, IoT power, smart home technology.","question":"What industries will Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System impact?"},{"answer":"The patent titled \"Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System\" (US-9853459) was filed on **May 5, 2015**. The filing date marks the official submission of the patent application to the patent office.\n\nSubsequently, after a period of examination, the patent was published and granted on **December 26, 2017**. The publication date indicates when the patent document became publicly available, typically coinciding with its grant. This timeline reflects the rigorous process of patent examination, which involves assessing novelty, non-obviousness, and utility against existing prior art.\n\nThe period between filing and publication allows for thorough review by patent examiners and provides an opportunity for the applicant to refine claims. The granting of this patent in late 2017 signifies its recognition as a distinct and protectable innovation in the field of wireless power control. Keywords: patent filing date, publication date, patent grant, US-9853459 timeline, wireless power patent history.","question":"When was Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System filed/granted?"},{"answer":"The commercial applications of the Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System are extensive and diverse, promising to enhance various product categories and services.\n\nIn **consumer markets**, this technology can be integrated into next-generation smartphones, smartwatches, and other wearables, offering a superior and more efficient charging experience. It enables the development of 'smart charging pads' for multi-device households, and even smart furniture with embedded, adaptive wireless charging capabilities. For **automotive manufacturers**, it allows for advanced in-cabin wireless charging zones that intelligently cater to different devices used by passengers, improving convenience and efficiency.\n\n**Public and commercial spaces** like cafes, airports, libraries, and co-working environments can implement intelligent wireless charging tables or surfaces, providing optimized power to numerous users simultaneously. In **industrial settings**, this patent supports the development of more reliable and efficient charging solutions for mobile robots, automated guided vehicles (AGVs), and various IoT sensors, reducing downtime and operational costs. Overall, any application requiring efficient, safe, and adaptive wireless power delivery stands to benefit significantly from this innovation. Keywords: commercial applications, wireless charging products, smart furniture, automotive tech, industrial robotics, IoT charging.","question":"What are the commercial applications of Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System?"},{"answer":"The Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System lays a robust foundation for numerous future developments in wireless power technology.\n\nOne key area is the **integration with AI and Machine Learning**, allowing charging systems to predict power demand, optimize scheduling in highly dynamic multi-device environments, and even detect potential anomalies or faults proactively. This could lead to predictive maintenance for charging infrastructure. Another development is the potential for **decentralized control**, where multiple receivers could collectively negotiate power with a transmitter, or even with each other in a peer-to-peer fashion, further enhancing system flexibility and scalability.\n\nWe can also anticipate advancements in **energy harvesting integration**, where devices with this intelligent control could seamlessly switch between receiving power and harvesting ambient energy. Furthermore, the principles of intelligent negotiation could extend to **larger-scale applications**, such as charging electric vehicles or drones, enabling more efficient and adaptive power solutions for these growing markets. The ultimate vision is a fully adaptive energy ecosystem where power is not just delivered wirelessly, but managed with unprecedented intelligence and precision. Keywords: future wireless power, AI charging, decentralized power, energy harvesting, EV charging, smart grid integration.","question":"What are the future developments expected for Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System?"}],"topics":["wireless power control","wireless charging system","power transmission apparatus","receiver power management","smart charging technology","incessant","demand","ubiquitous"],"tech_cluster":null},"seo":{"title":"Smart Wireless Power Control - US-9853459 Patent Analysis","description":"Discover the Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System (US-9853459). Intelligent, efficient, and safe wireless charging technology.","keywords":["wireless power control","wireless charging system","power transmission apparatus","receiver power management","smart charging technology","Method and Apparatus for Controlling Wireless Power of a Receiver in a Wireless Power Transmission/reception System","patent US-9853459","wireless power efficiency","adaptive power delivery","wireless charging innovation","H02J patent","wireless communication power","energy management patent"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853459","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-9853459","citation_suggestion":"Patentable. \"Method and apparatus for controlling wireless power of a receiver in a wireless power transmission/reception system\" (US-9853459). https://patentable.app/patents/US-9853459","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853459","json":"https://patentable.app/api/llm-context/US-9853459","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T06:43:11.803Z"}