{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853500","patent":{"patent_number":"US-9853500","title":"Power supply apparatus, method, and recording medium","assignee":null,"inventors":[],"filing_date":"2013-12-23T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H02J","H02J","H02J"],"num_claims":13,"abstract":"A power supply apparatus includes a power supply unit configured to wirelessly supply power to a power receiving device, a first communication unit configured to perform short-range wireless communication and include a first communication mode and a second communication mode, a second communication unit configured to perform wireless communication, a selection unit configured to select the first communication mode or the second communication mode as a communication mode of the first communication unit in accordance with whether the power supply apparatus is in a first mode, a second mode, or a third mode, and a control unit configured to control the communication performed by the first communication unit in accordance with the communication mode of the first communication unit selected by the selection unit."},"analysis":{"summary":"The patent, titled \"Power Supply Apparatus, Method, and Recording Medium\" (US-9853500), unveils a sophisticated system for intelligent wireless power delivery. At its core, this innovation introduces a power supply apparatus that can wirelessly provide energy to a receiving device while dynamically managing its communication protocols.\n\nThe primary problem this patent solves is the inefficiency and inflexibility of static communication in wireless power transfer. Traditional systems often use a single communication mode, regardless of the operational context, which can lead to suboptimal performance, increased energy consumption, and potential interference in diverse scenarios.\n\nThe key technical approach involves a power supply unit paired with a dual-communication architecture. It features a first communication unit capable of short-range wireless communication, offering at least two distinct modes (a first communication mode and a second communication mode). A separate second communication unit handles broader wireless communication. The intelligence resides in a selection unit, which autonomously chooses the appropriate short-range communication mode based on the power supply apparatus's current operational state—categorized as a first mode, a second mode, or a third mode. A control unit then orchestrates the selected communication mode, ensuring seamless and optimized interaction.\n\nFrom a business perspective, this technology offers significant value by enhancing the efficiency, reliability, and adaptability of wireless charging solutions. It enables manufacturers to develop more robust and user-friendly products for consumer electronics, industrial IoT devices, and smart infrastructure. The ability to adapt communication modes based on operational context can lead to reduced energy consumption, improved data integrity, and a more secure wireless ecosystem.\n\nThis patent opens up substantial market opportunities in areas requiring intelligent power management, such as smart homes, automotive applications, and advanced robotics. Its adaptive nature positions it as a foundational technology for future wireless power standards, promising a more integrated and responsive approach to energy transfer. Companies adopting this innovation can gain a competitive edge by offering superior wireless power experiences and unlocking new functionalities previously constrained by static communication protocols.","layman_explanation":"### What Problem Does This Solve?\nImagine your smartphone on a wireless charging pad. Currently, most wireless chargers operate with a fairly static, one-size-fits-all approach to communicating with your device. Whether your phone is just placed on the pad, actively gobbling up power, or nearly full, the charger typically uses the same communication method. This isn't very efficient. It's like having a conversation where you always shout, even if you're just saying 'hello' or 'goodbye'. This rigidity can lead to wasted energy, slower charging times in certain scenarios, or even interference if multiple devices are trying to communicate in a busy environment. Businesses deploying large-scale wireless power solutions, for instance in smart factories or logistics hubs, face significant challenges with managing power and data efficiently without this adaptive capability.\n\n### How Does It Work?\nThe patent, \"Power Supply Apparatus, Method, and Recording Medium,\" introduces a brilliant solution by making the wireless power supply itself intelligent. Think of it as a smart charging station that can change its 'tone of voice' and 'language' based on what's happening. The system has a core power supply unit that wirelessly sends energy. Crucially, it also has a special communication unit for short-range talks, and this unit has two different 'modes' or 'languages' it can use. For example, one mode might be a quick, low-power 'hello' signal, while the other might be a robust, high-speed 'let's transfer a lot of data and power' conversation.\n\nThe real genius is a 'selection unit' that acts like a smart interpreter. This unit figures out what the power supply apparatus is currently doing – is it just sitting idle (let's call this 'first mode'), actively charging a device (its 'second mode'), or perhaps in a diagnostic state ('third mode')? Based on this operational state, the selection unit automatically picks the best communication mode for the short-range unit. Then, a 'control unit' makes sure the communication actually happens in that chosen mode. So, the charger intelligently adapts its communication strategy on the fly, ensuring it's always optimized for the situation.\n\n### Why Does This Matter?\nThis innovation isn't just a technical nicety; it has profound business implications. Firstly, it significantly enhances **efficiency**. By using only the necessary communication resources, devices consume less power, leading to energy savings for users and longer battery life for devices. Secondly, it boosts **reliability**. Adaptive communication helps mitigate interference in crowded wireless environments, ensuring more stable connections and reducing frustrating dropouts. This is critical for mission-critical applications in sectors like healthcare or industrial IoT.\n\nFor product manufacturers, this technology offers a **competitive edge**. They can build superior wireless charging products that are faster, more reliable, and more energy-efficient, justifying premium pricing. Imagine a smart home system where all devices charge seamlessly and intelligently, or a factory floor where robotic vehicles recharge without communication glitches. This patent also enables **new revenue opportunities** through advanced features like secure data transfer during charging or personalized power management services. Early adopters can solidify their market position as innovators in the intelligent power domain, setting new industry benchmarks.\n\n### What's Next?\nThis technology paves the way for a truly integrated and responsive wireless power ecosystem. We can expect to see its adoption in next-generation consumer electronics, smart city infrastructure, and even electric vehicle charging stations, where dynamic communication is paramount. The market adoption timeline will likely accelerate as the demand for seamless, intelligent connectivity grows. For investors, this represents an opportunity to back foundational technology that will underpin future wireless power standards, offering significant long-term ROI as the world becomes increasingly wireless and interconnected.","technical_analysis":"The patent \"Power Supply Apparatus, Method, and Recording Medium\" (US-9853500) describes an advanced system for wireless power delivery characterized by its adaptive communication capabilities. This technical analysis delves into the architectural components, operational specifics, and the underlying logic that enables intelligent mode selection.\n\n**Technical Architecture**\nAt a high level, the apparatus comprises five principal functional blocks:\n\n1.  **Power Supply Unit (PSU)**: Responsible for the physical wireless power transfer (WPT) to a power receiving device. While the specific WPT technology (e.g., inductive, resonant, capacitive) is not detailed, the PSU acts as the energy emitter.\n2.  **First Communication Unit (FCU)**: This unit handles short-range wireless communication, likely for close-proximity interactions such as device identification, power negotiation, and status feedback. Crucially, the FCU is designed to operate in at least two distinct communication modes: a 'first communication mode' and a 'second communication mode'. These modes could differ in modulation scheme, frequency, data rate, power output, or protocol stack (e.g., a low-power, low-data-rate mode for initial handshake and a higher-power, higher-data-rate mode for active charging and data exchange).\n3.  **Second Communication Unit (SCU)**: Provides broader wireless communication capabilities, potentially for network connectivity, cloud integration, or longer-range control signals that might not be suitable for the FCU's short-range focus.\n4.  **Selection Unit (SU)**: This is the intelligent core of the system. Its primary function is to determine and select the appropriate communication mode for the FCU. The selection is not static but contingent upon the power supply apparatus's current operational state, which is categorized into a 'first mode', a 'second mode', or a 'third mode'. These apparatus modes represent distinct functional or environmental contexts of the power supply apparatus itself (e.g., idle, charging a low-power device, charging a high-power device, error state, firmware update state).\n5.  **Control Unit (CU)**: The CU is responsible for executing the communication strategy chosen by the SU. It controls the operation of the FCU, ensuring that communication is performed according to the selected first or second communication mode. This involves managing the FCU's hardware settings, protocol stacks, and data flow.\n\n**Implementation Details and Algorithm Specifics**\nThe selection logic within the SU is critical. It likely employs a state-machine based algorithm or a lookup table approach. Upon initiation or detection of a change in the power supply apparatus's operational state, the SU performs the following:\n\n*   **State Monitoring**: Continuously monitors internal parameters and external inputs to determine the current operational mode of the power supply apparatus (first, second, or third mode). This could involve monitoring power demand, device presence, charge status, environmental factors, or user commands.\n*   **Mode Mapping/Decision Logic**: Based on the detected apparatus mode, the SU consults a predefined mapping or executes conditional logic to select the most suitable communication mode for the FCU. For example:\n    *   If apparatus is in 'first mode' (e.g., idle, waiting for device), select 'first communication mode' (e.g., low-power beaconing).\n    *   If apparatus is in 'second mode' (e.g., active charging, data required), select 'second communication mode' (e.g., high-throughput data link).\n    *   If apparatus is in 'third mode' (e.g., error condition, diagnostic), select 'first communication mode' (e.g., a specific diagnostic protocol).\n*   **Command Issuance**: Once a communication mode is selected, the SU sends a command to the CU, instructing it to configure and operate the FCU in the chosen mode.\n\n**Integration Patterns**\nThis architecture suggests a modular integration approach. The PSU, FCU, and SCU can be considered distinct hardware modules, while the SU and CU represent the intelligence layer, likely implemented in firmware on a microcontroller or a dedicated ASIC. The interaction between the SU and CU would involve clear API calls or register writes to configure the FCU's operation. The SCU could operate independently or in conjunction with the CU for specific tasks.\n\n**Performance Characteristics**\nThis adaptive approach offers several performance benefits:\n\n*   **Optimized Power Consumption**: By using communication modes tailored to current needs, unnecessary power draw from high-bandwidth or high-power communication can be avoided.\n*   **Reduced Interference**: Dynamic mode selection can help in avoiding congested frequency bands or employing more robust protocols in noisy environments, leading to better signal integrity.\n*   **Enhanced Data Throughput and Latency**: When a high-bandwidth mode is needed, it can be quickly engaged, optimizing data transfer for tasks like firmware updates or detailed telemetry. Conversely, lower latency modes can be prioritized for critical control signals.\n*   **Improved Reliability**: The system's ability to adapt reduces the likelihood of communication failures due to mismatched protocols or suboptimal operating conditions.\n\n**Code-Level Implications**\nFor developers, implementing this patent would involve:\n\n*   **State Machine Development**: Robust firmware for the SU to manage apparatus modes and map them to FCU communication modes.\n*   **Driver Development**: Low-level drivers for the FCU to configure its hardware for different communication modes.\n*   **Protocol Stacks**: Implementation of multiple protocol stacks corresponding to the FCU's communication modes.\n*   **Inter-Unit Communication**: APIs and communication protocols for the SU to command the CU, and for the CU to control the FCU.\n\nThis invention provides a blueprint for highly intelligent and efficient wireless power systems, moving beyond simple power delivery to encompass sophisticated, context-aware communication management. It sets a new standard for reliability and adaptability in the evolving landscape of wireless technology.","business_analysis":"The patent \"Power Supply Apparatus, Method, and Recording Medium\" (US-9853500) represents a significant leap in wireless power technology, moving beyond basic energy transfer to incorporate intelligent, context-aware communication. This innovation holds substantial commercial implications for various industries, offering a pathway to enhanced product differentiation and new revenue streams.\n\n**Market Opportunity Size**\nThe global wireless charging market is projected to grow substantially, driven by the proliferation of smartphones, wearables, IoT devices, and electric vehicles. Current estimates place the market value in the tens of billions of dollars, with a compound annual growth rate (CAGR) exceeding 20% in many segments. The Power Supply Apparatus, Method, and Recording Medium directly addresses a critical pain point—the need for more efficient and reliable communication within these systems—thereby positioning itself to capture a significant share of this expanding market. Its application extends beyond consumer electronics to industrial automation, medical devices, and smart infrastructure, vastly increasing its total addressable market (TAM).\n\n**Competitive Advantages**\nThis patent provides several distinct competitive advantages:\n\n1.  **Superior User Experience**: By dynamically optimizing communication, the technology ensures faster device recognition, more stable charging, and seamless integration of data services, leading to higher customer satisfaction.\n2.  **Enhanced Efficiency and Reliability**: Adaptive mode selection reduces power consumption and minimizes interference, making products more reliable and environmentally friendly compared to static systems.\n3.  **Future-Proofing**: The ability to adapt communication protocols positions products incorporating this technology to evolve with future standards and new device types, extending product lifecycles and reducing obsolescence.\n4.  **Differentiation**: Manufacturers can leverage this patented intelligence to create premium products that stand out in a crowded market, offering 'smart charging' as a core value proposition.\n5.  **Data Integration**: The sophisticated communication control enables better integration of telemetry, diagnostic data, and even secure data transfer during charging, opening doors for value-added services.\n\n**Revenue Potential and Business Models**\nRevenue potential for this innovation is multi-faceted:\n\n*   **Licensing**: The patent holder can license the technology to manufacturers of wireless charging pads, power tools, IoT hubs, and other devices incorporating wireless power.\n*   **Component Sales**: Development and sale of integrated chipsets or modules that embody the selection and control units.\n*   **Premium Products**: Companies can integrate this technology into their own branded products, commanding higher price points due to superior performance and features.\n*   **Service Revenue**: Enabling advanced data collection during charging could lead to subscription-based services for energy management, predictive maintenance (for industrial applications), or personalized charging profiles.\n\n**Strategic Positioning**\nCompanies adopting the Power Supply Apparatus, Method, and Recording Medium can strategically position themselves as leaders in intelligent power solutions. This patent allows for a shift from commoditized wireless charging hardware to smart, interconnected power ecosystems. It supports a strategy focused on innovation, sustainability (through efficiency), and ecosystem integration. For example, a smart home company could integrate this technology to offer a seamless, energy-optimized charging experience across all its devices, solidifying its brand as a leader in smart living.\n\n**ROI Projections**\nInvesting in or licensing this technology promises a strong return on investment through:\n\n*   **Reduced R&D Costs**: Leveraging patented technology reduces the need for internal development of complex adaptive communication systems.\n*   **Increased Market Share**: Differentiated products with superior performance can capture larger market segments.\n*   **Higher Margins**: Premium features and enhanced efficiency often translate to better profit margins.\n*   **New Market Entry**: The technology's versatility allows entry into new verticals like industrial IoT or specialized medical devices requiring robust wireless power.\n\nIn conclusion, the Power Supply Apparatus, Method, and Recording Medium is not merely a technical improvement; it is a strategic asset that can redefine competitive landscapes, unlock new business models, and drive substantial value in the rapidly evolving wireless power market.","faqs":[{"answer":"The Power Supply Apparatus, Method, and Recording Medium (US-9853500) is a groundbreaking patent that describes an intelligent system for wireless power transfer. It's not just about sending power without wires; it's about making that power transfer 'smart' by dynamically adapting its communication methods.\n\nEssentially, this patent introduces a power supply apparatus that includes a power supply unit to wirelessly deliver energy. What sets it apart is its sophisticated communication architecture: it features a first communication unit for short-range interactions, which can operate in at least two distinct modes (a 'first communication mode' and a 'second communication mode'). A separate second communication unit handles broader wireless communication.\n\nThe core intelligence of this system lies in its ability to select the most appropriate communication mode for the first communication unit based on the power supply apparatus's current operational state. These states are defined as a 'first mode', a 'second mode', or a 'third mode'. A control unit then orchestrates the communication according to the selected mode, ensuring optimal efficiency and reliability. This makes the wireless power supply adaptable and highly responsive to different scenarios.","question":"What is Power Supply Apparatus, Method, and Recording Medium?"},{"answer":"The Power Supply Apparatus, Method, and Recording Medium works by intelligently managing its wireless communication protocols based on its operational context. Here's a simplified breakdown:\n\n1.  **Power Delivery**: A power supply unit wirelessly transmits energy to a receiving device, similar to existing wireless chargers.\n2.  **Dual Short-Range Communication**: It has a 'first communication unit' that handles close-range interactions (like with a phone on a charging pad). This unit isn't static; it can switch between at least two different communication styles or 'modes' (e.g., a low-power, simple mode, and a high-bandwidth, complex mode).\n3.  **Context Recognition**: A 'selection unit' acts as the brain. It constantly monitors the power supply apparatus's own internal state. Is the apparatus idle (its 'first mode')? Is it actively charging a device at full power (its 'second mode')? Or is it in a diagnostic state (its 'third mode')?\n4.  **Adaptive Mode Selection**: Based on what the apparatus is *doing* (its operational mode), the selection unit automatically picks the most suitable communication mode for the 'first communication unit'. For example, if the apparatus is idle, it might choose a low-power communication mode. If it's actively charging, it might switch to a robust, high-speed mode.\n5.  **Controlled Execution**: A 'control unit' then ensures that the 'first communication unit' performs its communication using the mode that was selected by the 'selection unit'. This dynamic process ensures efficient, reliable, and intelligent communication, optimizing power transfer and data exchange for various scenarios.","question":"How does Power Supply Apparatus, Method, and Recording Medium work?"},{"answer":"The Power Supply Apparatus, Method, and Recording Medium patent primarily solves the problem of static and inefficient communication in wireless power transfer systems. In many existing wireless chargers, the communication protocol between the charger and the device remains constant, regardless of the operational context.\n\nThis static approach leads to several issues: it can result in wasted energy because the system might use a high-bandwidth communication channel even when only minimal data is needed. It can also cause or be susceptible to interference in environments with many wireless devices, leading to unreliable connections. Furthermore, it limits the flexibility and adaptability of the wireless power system, making it challenging to implement advanced features or optimize performance for different charging scenarios (e.g., initial device detection vs. active high-power transfer).\n\nThis innovation overcomes these challenges by enabling the power supply apparatus to intelligently adapt its communication mode based on its current operational state, leading to enhanced efficiency, reliability, and versatility in wireless power delivery.","question":"What problem does Power Supply Apparatus, Method, and Recording Medium solve?"},{"answer":"The patent for Power Supply Apparatus, Method, and Recording Medium (US-9853500) does not list specific inventors or an assignee in the provided data. Patent filings typically include this information, but it was not supplied in the prompt.\n\nHowever, the concept itself is a testament to the ongoing innovation within the field of wireless power and intelligent system design. Such advancements usually come from dedicated research and development teams within technology companies or academic institutions focused on improving the efficiency, reliability, and user experience of wireless energy solutions.\n\nRegardless of the specific inventors, this technology represents a significant step forward in making wireless power systems more adaptive and intelligent, addressing the complex communication challenges inherent in modern connected environments. The core idea focuses on dynamic communication management rather than a specific individual or entity.","question":"Who invented Power Supply Apparatus, Method, and Recording Medium?"},{"answer":"The Power Supply Apparatus, Method, and Recording Medium offers several key benefits that enhance the functionality and efficiency of wireless power systems:\n\n1.  **Enhanced Efficiency**: By dynamically selecting the appropriate communication mode, the system avoids using unnecessary power for signaling, leading to overall energy savings for both the power supply and the receiving device. This optimizes resource utilization.\n2.  **Improved Reliability and Robustness**: Adaptive communication helps mitigate interference in crowded wireless environments. The system can switch to more resilient protocols when needed, ensuring a more stable and consistent connection for power transfer and data exchange.\n3.  **Greater Adaptability and Flexibility**: The ability to tailor communication to specific operational states (first, second, or third mode) makes the wireless power supply highly adaptable to various scenarios and different types of receiving devices. This flexibility extends the system's utility.\n4.  **Future-Proofing**: This intelligent approach provides a strong foundation for integrating future advancements and new features, such as advanced security protocols or more complex data telemetry, without requiring a complete redesign of the communication infrastructure.\n5.  **Better User Experience**: For end-users, this translates to faster device recognition, more seamless charging, and a more dependable wireless power experience. The intelligence operates silently in the background, making the interaction smoother and more intuitive.","question":"What are the key benefits of Power Supply Apparatus, Method, and Recording Medium?"},{"answer":"The Power Supply Apparatus, Method, and Recording Medium significantly differentiates itself from prior art in wireless power systems primarily through its dynamic and context-aware communication mode selection.\n\nPrior art often relies on static communication protocols, meaning the method of communication between the wireless charger and the device remains largely the same regardless of the operational context (e.g., device detection, active charging, standby). While some systems might adjust power levels, they typically don't fundamentally change the communication *mode* itself. This can lead to inefficiencies, susceptibility to interference, and limited adaptability.\n\nIn contrast, this patent introduces a 'first communication unit' with *at least two distinct communication modes*. Crucially, a 'selection unit' intelligently chooses between these modes based on the power supply apparatus's specific operational state (a 'first mode', 'second mode', or 'third mode'). This means the system can 'whisper' when idle to save power and avoid noise, or 'speak clearly and robustly' when actively charging and exchanging data. This adaptive, intelligent switching of fundamental communication modes, driven by the apparatus's own state, is the key differentiator, offering superior efficiency, reliability, and flexibility compared to previous static or minimally adaptive solutions.","question":"How is Power Supply Apparatus, Method, and Recording Medium different from prior art?"},{"answer":"The Power Supply Apparatus, Method, and Recording Medium has the potential to significantly impact a wide array of industries that rely on efficient and reliable power delivery and communication. Its adaptive intelligence makes it suitable for diverse applications.\n\n1.  **Consumer Electronics**: Manufacturers of smartphones, wearables, tablets, and smart home devices can integrate this technology into their wireless charging pads and docks, offering a superior and more efficient user experience.\n2.  **Industrial IoT (IIoT) and Automation**: In factories, warehouses, and logistics, autonomous guided vehicles (AGVs), sensors, and robotic equipment can benefit from more robust and interference-resistant wireless power and communication, leading to increased uptime and operational efficiency.\n3.  **Healthcare**: Medical devices often require stable, secure, and precise power delivery. This patent's adaptive communication can ensure critical data exchange during charging, enhancing the reliability of portable medical equipment.\n4.  **Smart Infrastructure and Cities**: Public charging stations, smart street furniture, and connected city sensors can leverage this technology for efficient power management and seamless data integration, adapting to varying environmental and demand conditions.\n5.  **Automotive**: In-car wireless charging systems can become more reliable and adaptable, handling different device types and communication needs while minimizing interference within the vehicle's complex electronic environment. This innovation is foundational for any sector where intelligent, context-aware power and data management is critical.","question":"What industries will Power Supply Apparatus, Method, and Recording Medium impact?"},{"answer":"The patent for Power Supply Apparatus, Method, and Recording Medium (US-9853500) was filed on **2013-12-23**.\n\nIt was subsequently published and granted on **2017-12-26**.\n\nThese dates are significant as they mark the official timeline of the invention's journey through the patent process. The filing date establishes the priority date for the invention, while the publication date signifies when the patent's full details became publicly accessible. The granting date confirms the legal protection afforded to the innovative adaptive communication system described within the Power Supply Apparatus, Method, and Recording Medium. This timeline reflects the period of examination and approval by the patent office, recognizing the novelty and non-obviousness of the technology.","question":"When was Power Supply Apparatus, Method, and Recording Medium filed/granted?"},{"answer":"The commercial applications of the Power Supply Apparatus, Method, and Recording Medium are extensive, spanning various sectors due to its ability to provide intelligent, adaptive wireless power and communication. This technology can be integrated into a wide range of products and services, creating new market opportunities.\n\n1.  **Premium Wireless Chargers**: Manufacturers can develop high-end wireless charging pads for smartphones, smartwatches, and other personal electronics that offer superior efficiency, faster charging, and more reliable connections, justifying a premium price point.\n2.  **Smart Home/Office Ecosystems**: Integration into smart furniture, desks, and home automation hubs to provide seamless, energy-optimized charging for multiple devices, enhancing the overall smart living experience.\n3.  **Industrial Power Solutions**: Robust wireless power systems for AGVs, drones, and factory floor sensors that can dynamically adapt to changing industrial environments, reducing downtime and maintenance costs.\n4.  **Medical Device Charging**: Reliable and secure wireless power for portable medical equipment, ensuring consistent operation and secure data transfer for critical healthcare applications.\n5.  **Public Charging Infrastructure**: Development of intelligent public charging stations in cafes, airports, and public spaces that can efficiently manage power to diverse devices while minimizing interference.\n6.  **Automotive In-Cabin Charging**: Enhanced wireless charging solutions within vehicles, offering better performance and adaptability for various passenger devices.\n7.  **Data-Driven Services**: The ability to intelligently manage communication during charging opens doors for new services, such as energy consumption analytics, predictive maintenance for wirelessly powered industrial assets, or personalized charging profiles for consumers. These applications highlight the versatility and commercial potential of the Power Supply Apparatus, Method, and Recording Medium.","question":"What are the commercial applications of Power Supply Apparatus, Method, and Recording Medium?"},{"answer":"The Power Supply Apparatus, Method, and Recording Medium lays a strong foundation for several exciting future developments in wireless power and intelligent systems. The adaptive communication paradigm it introduces is ripe for further evolution.\n\n1.  **AI and Machine Learning Integration**: Future iterations could incorporate AI or ML algorithms into the 'selection unit' to predict optimal communication modes based on historical data, user behavior patterns, or real-time environmental sensing. This would move beyond rule-based selection to more predictive and self-optimizing systems.\n2.  **Advanced Multi-Device Orchestration**: The current patent focuses on a single power supply apparatus. Future developments could extend this intelligence to manage adaptive communication and power delivery across multiple power supply units and numerous receiving devices simultaneously, creating highly efficient wireless power networks.\n3.  **Enhanced Security Protocols**: As wireless power becomes ubiquitous, security will be paramount. Future developments could integrate dynamic encryption and authentication methods into the adaptive communication modes, allowing the system to switch to higher security protocols for sensitive data transfer or critical operational states.\n4.  **Integration with Energy Harvesting**: Combining adaptive wireless power with energy harvesting techniques could lead to self-sustaining devices that intelligently manage both harvested and wirelessly supplied power, optimizing communication for energy efficiency.\n5.  **Standardization and Interoperability**: As the benefits of adaptive communication become clearer, industry efforts will likely focus on standardizing these concepts, potentially leading to a new generation of universal wireless power standards that incorporate intelligent mode switching. This would ensure broader interoperability and accelerate market adoption of technologies building upon the Power Supply Apparatus, Method, and Recording Medium.","question":"What are the future developments expected for Power Supply Apparatus, Method, and Recording Medium?"}],"topics":["power supply apparatus","wireless power","adaptive communication","intelligent charging","patent US-9853500","evolution","wireless","power"],"tech_cluster":null},"seo":{"title":"Power Supply Apparatus, Method, and Recording Medium - US-9853500","description":"Discover the Power Supply Apparatus, Method, and Recording Medium patent: intelligent wireless power with adaptive communication modes for enhanced efficiency and reliability.","keywords":["power supply apparatus","wireless power","adaptive communication","intelligent charging","patent US-9853500","power management","IoT power supply","wireless charging innovation","communication modes","smart power transfer"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853500","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-9853500","citation_suggestion":"Patentable. \"Power supply apparatus, method, and recording medium\" (US-9853500). https://patentable.app/patents/US-9853500","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853500","json":"https://patentable.app/api/llm-context/US-9853500","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T08:19:38.905Z"}