{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853458","patent":{"patent_number":"US-9853458","title":"Systems and methods for device and power receiver pairing","assignee":null,"inventors":[],"filing_date":"2014-12-29T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H02J","H02J","H02J","H02J","H02J","H04B","H02J","H04B","H04B"],"num_claims":18,"abstract":"The embodiments described herein include a transmitter that transmits a power transmission signal (e.g., radio frequency (RF) signal waves) to create a three-dimensional pocket of energy. At least one receiver can be connected to or integrated into electronic devices and receive power from the pocket of energy. The transmitter can locate the at least one receiver in a three-dimensional space using a communication medium (e.g., Bluetooth technology). The transmitter generates a waveform to create a pocket of energy around each of the at least one receiver. The transmitter uses an algorithm to direct, focus, and control the waveform in three dimensions. The receiver can convert the transmission signals (e.g., RF signals) into electricity for powering an electronic device. Accordingly, the embodiments for wireless power transmission can allow powering and charging a plurality of electrical devices without wires."},"analysis":{"summary":"The **Systems and Methods for Device and Power Receiver Pairing** patent, US-9853458, introduces a groundbreaking approach to true wireless power transmission, enabling electronic devices to charge in three-dimensional space without physical connections. At its core, this innovation utilizes a sophisticated transmitter that emits radio frequency (RF) signal waves to create dynamic, localized 'pockets of energy'.\n\nThe fundamental problem this patent solves is the pervasive inconvenience and inefficiency of traditional wired and contact-based wireless charging. Current solutions are limited by physical tethering, specific placement requirements, and often clutter. This invention liberates devices from these constraints, offering a seamless and ambient power delivery experience.\n\nKey to its technical approach, the transmitter first precisely locates power receivers (integrated into or connected to electronic devices) within a 3D environment, often employing communication mediums like Bluetooth technology. Once a receiver's position is determined, an advanced algorithm directs, focuses, and controls the RF waveform to form an energy pocket specifically around that device. The receiver then converts these RF signals into electricity, powering or charging the electronic device.\n\nFrom a business value perspective, this technology unlocks unprecedented convenience for consumers, streamlining device usage and eliminating cable clutter. For manufacturers, it enables innovative product designs, free from the constraints of charging ports. The market opportunity is vast, spanning consumer electronics, smart home devices, Internet of Things (IoT) sensors, and even industrial applications where maintaining continuous power for numerous devices without extensive wiring is critical. This patent positions its underlying technology as a foundational element for the next generation of truly wire-free ecosystems, promising significant ROI through widespread adoption and licensing across various industries.","layman_explanation":"Imagine a world where your phone, smartwatch, and even smart home gadgets never run out of battery, without ever needing to be plugged in or placed on a charging pad. This isn't science fiction; it's the promise of the **Systems and Methods for Device and Power Receiver Pairing** patent.\n\n**1. What Problem Does This Solve?**\n\nFor years, we've been tethered by cables. Every new device seems to come with its own charger, leading to cluttered desks, tangled wires, and the constant frustration of searching for an available outlet. Even early 'wireless' charging solutions, like inductive pads, only offered a partial fix; you still had to place your device precisely on a specific spot, limiting its use during charging. The core problem this patent addresses is the fundamental lack of true spatial freedom and seamless power delivery for our electronic devices. It aims to eliminate the friction associated with keeping our gadgets powered, transforming a chore into an invisible, ambient service.\n\n**2. How Does It Work?**\n\nThink of this innovation as a smart, invisible power broadcast system. At its heart is a central transmitter, much like a Wi-Fi router, but instead of sending internet signals, it sends power signals using radio waves. Here's the clever part:\n\n*   **It Finds Your Devices:** The transmitter doesn't just blast power everywhere. It's smart. It uses a familiar communication method, like Bluetooth, to 'talk' to your devices and figure out exactly where they are in the room – in three dimensions! So, if your phone is on the couch and your smartwatch is on your wrist, it knows.\n*   **It Creates 'Power Bubbles':** Once it knows where your devices are, the transmitter uses a special algorithm (a set of smart instructions) to focus and direct the radio waves. It creates a tiny, concentrated 'power bubble' or 'pocket of energy' specifically around each device. It's like having a personalized, invisible charging zone that follows your device around.\n*   **Your Devices Drink the Power:** Each of your devices has a tiny receiver built-in (or attached) that's designed to catch these power bubbles. It then converts the radio waves into usable electricity, silently topping up its battery. It's all happening in the background, without you having to do anything.\n\nSo, instead of a wire, you have an invisible, intelligent link delivering power precisely where it's needed, adapting as you move.\n\n**3. Why Does This Matter?**\n\nThe impact of this technology is profound, offering significant business value and market opportunities:\n\n*   **Unprecedented Convenience:** For consumers, it means true freedom. No more searching for chargers, no more dead batteries, and a completely clutter-free environment. This significantly enhances user experience and device satisfaction.\n*   **Design Freedom for Products:** Manufacturers can design sleeker, more durable, and potentially waterproof devices without the need for charging ports. This opens up new possibilities for product innovation and aesthetics.\n*   **Boost for IoT and Smart Homes:** Imagine smart sensors that never need battery changes, smart speakers that are always powered, or digital displays that can be placed anywhere without worrying about power outlets. This technology is a game-changer for the Internet of Things, enabling truly autonomous devices.\n*   **Competitive Edge:** Companies that adopt or license this technology will gain a significant competitive advantage, offering a superior charging experience that differentiates their products in a crowded market.\n*   **New Revenue Streams:** Opportunities for licensing the technology, developing compatible hardware, or even offering 'power-as-a-service' in commercial spaces are immense.\n\n**4. What's Next?**\n\nThe **Systems and Methods for Device and Power Receiver Pairing** patent lays the groundwork for pervasive, ambient power. We can expect to see this technology integrated into new generations of consumer electronics, smart home ecosystems, and even public infrastructure. As the technology matures, we could see wider ranges, higher power delivery, and even more sophisticated device management. The long-term investment implications are substantial, as this innovation is set to become a foundational utility, much like Wi-Fi, transforming our digital interactions and enabling truly seamless technological environments.","technical_analysis":"The **Systems and Methods for Device and Power Receiver Pairing** patent (US-9853458) outlines a sophisticated architecture for spatial wireless power transfer, moving beyond the limitations of inductive coupling to achieve true over-the-air charging. This technical deep dive explores the core components, algorithmic specifics, and implications for system design.\n\n**1. System Architecture Overview:**\nAt a high level, the system comprises a central transmitter unit and one or more power receiver modules. The transmitter is responsible for energy generation, device localization, and directed power transmission. The receiver, typically integrated into an electronic device, is tasked with energy capture and conversion. The interaction between these two elements is dynamic and continuous, ensuring power delivery adapts to device movement and environmental changes.\n\n**2. RF Signal Generation and 3D Energy Pockets:**\nThe foundation of this invention is the use of radio frequency (RF) signal waves as the power transmission medium. The transmitter is equipped with an array of antennas, enabling it to generate and manipulate these waves. The critical innovation lies in creating 'three-dimensional pockets of energy' rather than broad, unfocused broadcasts. This is achieved through advanced beamforming techniques, where the phase and amplitude of signals emitted by individual antenna elements are precisely controlled. By orchestrating constructive interference at the target receiver's location and destructive interference elsewhere, the system can concentrate energy, maximizing power density at the receiver while minimizing ambient RF exposure.\n\n**3. Device Localization and Communication Medium:**\nAccurate, real-time localization of power receivers is paramount. The patent specifies the use of a 'communication medium' such as Bluetooth technology. This implies a two-way communication channel where receivers periodically transmit their unique identifiers and possibly coarse location data. The transmitter then uses this information, potentially in conjunction with its own antenna array's signal reception capabilities (e.g., Angle of Arrival - AoA, or Time Difference of Arrival - TDoA), to triangulate or otherwise determine the precise 3D coordinates of each receiver. The choice of Bluetooth suggests a focus on low-power, relatively short-range applications, but the underlying principle could extend to UWB (Ultra-Wideband) or Wi-Fi for broader coverage and higher precision.\n\n**4. Algorithmic Waveform Control:**\nThe abstract explicitly mentions an 'algorithm to direct, focus, and control the waveform in three dimensions.' This algorithm is the 'brain' of the system. It processes the real-time location data of each receiver and dynamically calculates the optimal phase and amplitude adjustments for each transmitter antenna element. This ensures that the energy pocket remains centered on the moving receiver, adapting to changes in its position. The algorithm would likely employ predictive models to anticipate movement, optimizing beam steering for continuous power delivery. Considerations for this algorithm include:\n*   **Multi-target Optimization:** Efficiently managing power delivery to multiple devices simultaneously, potentially prioritizing certain devices based on battery level or user settings.\n*   **Environmental Adaptation:** Compensating for signal reflections, absorption, and interference from obstacles in the environment.\n*   **Safety Protocols:** Ensuring power levels remain within safe limits for human exposure.\n\n**5. Receiver Design and Power Conversion:**\nThe power receiver is a critical component, responsible for efficiently capturing the focused RF energy and converting it into usable DC electricity. This typically involves a rectenna (rectifying antenna) circuit, comprising an antenna tuned to the operating RF frequency and a rectifier circuit (e.g., a Schottky diode bridge) to convert the AC RF signal into DC. The efficiency of this rectenna is a major determinant of overall system performance. Integration of these receivers into various electronic devices requires miniaturization, low power consumption for standby, and effective thermal management.\n\n**6. Integration Patterns and Performance Characteristics:**\nThis system allows for flexible integration, from embedded modules in new devices to external attachments for existing ones. Performance characteristics would be measured by:\n*   **Power Output (W):** The amount of power delivered to the device.\n*   **Charging Efficiency (%):** The ratio of DC power at the receiver to RF power transmitted.\n*   **Range (m):** The maximum distance over which effective charging can occur.\n*   **Latency (ms):** The time taken for the system to detect a device and initiate charging, or to adjust to movement.\n*   **Simultaneous Device Support:** The number of devices that can be charged concurrently.\n\nIn conclusion, the **Systems and Methods for Device and Power Receiver Pairing** patent lays a robust technical foundation for a new generation of wireless power solutions. Its emphasis on intelligent localization and dynamic, directed RF energy transfer addresses key limitations of prior art, promising a future where ambient power is a ubiquitous reality for electronic devices. Further development will focus on optimizing the algorithmic control, enhancing rectenna efficiency, and ensuring safety and regulatory compliance.","business_analysis":"The **Systems and Methods for Device and Power Receiver Pairing** patent represents a significant leap forward in wireless power technology, poised to unlock substantial market opportunities and redefine competitive landscapes across multiple industries. This innovation, which enables truly spatial and intelligent power delivery, moves beyond incremental improvements to offer a transformative solution.\n\n**Market Opportunity Size:**\nThe market for wireless charging is already substantial and growing, driven by the proliferation of portable electronics, IoT devices, and smart home ecosystems. However, existing solutions (primarily inductive pads) address only a fraction of the potential. This patent's ability to deliver power over distance and to multiple devices simultaneously opens up the 'true wireless' segment, a market estimated to be worth tens of billions of dollars annually. Key growth drivers include:\n*   **Consumer Electronics:** Smartphones, wearables, laptops, and accessories will benefit from unparalleled convenience.\n*   **Smart Home & Office:** Sensors, smart speakers, lighting, and displays can be powered invisibly.\n*   **Internet of Things (IoT):** Billions of connected devices, often deployed in hard-to-reach locations, require continuous, low-maintenance power. This technology is ideal for powering such devices without battery replacements or wiring.\n*   **Automotive & Industrial:** In-cabin charging, powered dashboards, and industrial sensors can leverage this technology for enhanced functionality and reduced infrastructure.\n\n**Competitive Advantages:**\nThis patent offers several distinct competitive advantages over existing and emerging wireless power solutions:\n*   **Spatial Freedom:** Unlike inductive pads, this system does not require physical contact or precise alignment, offering true 'charge-anywhere' capability.\n*   **Multi-Device Capability:** A single transmitter can intelligently power multiple devices concurrently, a significant improvement over one-to-one or limited multi-device pads.\n*   **Dynamic Power Delivery:** The ability to locate devices in 3D space and dynamically focus energy pockets ensures optimal efficiency and adaptability to moving targets, a feature largely absent in prior art.\n*   **Reduced Clutter:** Eliminates the need for numerous cables and charging bricks, enhancing aesthetics and user experience.\n\n**Revenue Potential and Business Models:**\nRevenue generation could come from multiple streams:\n*   **Licensing:** The core technology could be licensed to major consumer electronics manufacturers, automotive companies, and IoT solution providers.\n*   **Direct Product Sales:** Development and sale of proprietary transmitters and integrated receiver modules.\n*   **Infrastructure Deployment:** Offering solutions for smart buildings, public spaces, and enterprise environments.\n*   **Subscription Services:** Potentially, 'power-as-a-service' models in commercial or public settings.\n\n**Strategic Positioning:**\nCompanies leveraging this patent can strategically position themselves as leaders in ambient computing and ubiquitous power. This innovation allows for:\n*   **Ecosystem Lock-in:** Creating a compelling ecosystem of compatible devices and infrastructure.\n*   **Product Differentiation:** Offering a unique selling proposition that competitors cannot easily replicate with existing technologies.\n*   **New Market Creation:** Enabling entirely new categories of devices and services that were previously constrained by power requirements.\n\n**ROI Projections:**\nEarly adopters and licensees could see significant ROI through:\n*   **Increased Customer Satisfaction:** Leading to higher brand loyalty and repeat purchases.\n*   **Reduced Costs:** For businesses, lower installation and maintenance costs for IoT and smart infrastructure.\n*   **Accelerated Market Penetration:** Rapid adoption due to superior user experience.\n*   **First-Mover Advantage:** Establishing a dominant position in the nascent market for true spatial wireless power.\n\nIn essence, the **Systems and Methods for Device and Power Receiver Pairing** patent is not just about charging; it's about fundamentally reshaping how electronic devices are powered, paving the way for a more integrated, convenient, and efficient technological future.","faqs":[{"answer":"Systems and Methods for Device and Power Receiver Pairing (US-9853458) is a groundbreaking patent that describes an innovative method for wirelessly transmitting power to electronic devices over a distance. Unlike traditional wireless charging pads that require physical contact or very close proximity, this invention enables true spatial charging.\n\nThe core of this technology involves a sophisticated transmitter that emits radio frequency (RF) signal waves. These waves are not broadcast indiscriminately; instead, the system intelligently creates focused, three-dimensional 'pockets of energy' around specific devices that need power.\n\nThis patent aims to liberate electronic devices from the constraints of physical cables and static charging surfaces, ushering in an era where power delivery is ambient, seamless, and integrated into our environments. It represents a significant leap forward in the quest for a truly wire-free technological ecosystem. Keywords: wireless power patent, RF charging, 3D energy pockets, spatial power, device pairing.","question":"What is Systems and Methods for Device and Power Receiver Pairing?"},{"answer":"The Systems and Methods for Device and Power Receiver Pairing patent outlines a multi-step, intelligent process for wireless power transmission. First, a central transmitter unit actively locates power receivers, which are small modules integrated into or connected to electronic devices. This localization is achieved using a communication medium, such as Bluetooth technology, allowing the transmitter to precisely determine the 3D position of each device requiring power.\n\nOnce a device's location is known, an advanced algorithm within the transmitter comes into play. This algorithm directs, focuses, and controls the emitted RF signal waves. The goal is to create a concentrated 'pocket of energy' that precisely envelops the identified receiver, maximizing power delivery efficiency while minimizing energy loss elsewhere.\n\nFinally, the power receiver within the electronic device captures these focused RF signals and converts them into usable electricity. This electricity then powers the device or recharges its internal battery, all without any physical contact or cables. The entire process is dynamic, meaning the system can adapt to moving devices and environmental changes to maintain continuous power delivery. Keywords: how wireless power works, RF signal transmission, Bluetooth localization, beamforming, energy conversion, dynamic charging.","question":"How does Systems and Methods for Device and Power Receiver Pairing work?"},{"answer":"The Systems and Methods for Device and Power Receiver Pairing patent primarily solves the pervasive problem of inconvenient and inefficient device charging that plagues modern life. Current charging solutions, whether wired or contact-based wireless pads, present several limitations:\n\nFirstly, **cable clutter and limited mobility**: Users are constantly grappling with tangled cables, searching for available outlets, and being tethered to a power source during charging. This restricts the usability of devices and creates messy environments.\n\nSecondly, **inefficiency of existing wireless options**: While inductive charging pads offer some relief from cables, they still demand precise device placement and close proximity, failing to provide true spatial freedom. If a device is misaligned, charging can be slow or fail entirely. This invention addresses these core frustrations by enabling devices to charge anywhere within a designated space, without physical contact, specific orientation, or being confined to a pad. It transforms power delivery into an ambient, seamless, and truly wire-free experience. Keywords: cable clutter, charging inefficiency, wireless power problems, spatial freedom, battery anxiety, device convenience.","question":"What problem does Systems and Methods for Device and Power Receiver Pairing solve?"},{"answer":"The patent filing for Systems and Methods for Device and Power Receiver Pairing (US-9853458) does not list specific inventors or an assignee in the provided data. Typically, patent applications list the individual inventors who contributed to the conception of the invention and the entity (company or organization) to which the patent rights are assigned. Without this specific information, it is not possible to identify the inventors or the assignee from the given abstract.\n\nHowever, the existence of this patent signifies a collaborative effort in research and development, likely involving a team of engineers and scientists specializing in radio frequency (RF) technology, power electronics, and wireless communication. Such innovations often emerge from dedicated R&D departments within technology companies or specialized research institutions focused on next-generation power solutions. The absence of specific inventor names in the provided abstract does not diminish the significance of the technological breakthrough described in this patent. Keywords: patent inventors, assignee, wireless power research, RF technology developers, innovation team.","question":"Who invented Systems and Methods for Device and Power Receiver Pairing?"},{"answer":"The Systems and Methods for Device and Power Receiver Pairing patent offers several transformative benefits that redefine the user experience and unlock new possibilities for electronic devices:\n\n**True Spatial Freedom:** Devices no longer need to be tethered by wires or placed precisely on a charging pad. They can charge while in use, in a bag, or simply anywhere within the transmitter's range, providing unprecedented convenience and mobility.\n\n**Multi-Device Charging:** A single transmitter can intelligently locate and power multiple electronic devices simultaneously. This eliminates the need for numerous individual chargers and reduces cable clutter, creating a cleaner and more organized environment.\n\n**Enhanced Efficiency and Intelligence:** By precisely locating devices and directing focused 'pockets of energy,' the system ensures optimal power transfer, minimizing energy waste compared to broad, unfocused power broadcasts. The dynamic algorithmic control allows for continuous adaptation to device movement and environmental changes, ensuring consistent and reliable power delivery. Keywords: wireless charging benefits, device mobility, multi-device charging, energy efficiency, smart power delivery, clutter-free environment.","question":"What are the key benefits of Systems and Methods for Device and Power Receiver Pairing?"},{"answer":"The Systems and Methods for Device and Power Receiver Pairing patent distinguishes itself significantly from prior art in wireless power transmission, primarily by moving beyond the limitations of inductive charging and unfocused RF energy harvesting.\n\n**Unlike Inductive Charging (e.g., Qi pads):** Prior art inductive systems require very close proximity and precise alignment between a device and a charging pad. This patent offers true spatial freedom, allowing devices to charge over a distance and without specific placement. It's an 'over-the-air' solution, not a 'contact-based' one.\n\n**Unlike Unfocused RF Energy Harvesting:** While some systems harvest ambient RF energy, they typically provide very low power due to the diffuse nature of the signals. This invention, conversely, uses intelligent beamforming to create concentrated, high-energy 'pockets' specifically around devices, ensuring efficient and sufficient power delivery for active charging, not just trickle charging. The key difference lies in its ability to actively locate devices in 3D space and dynamically direct focused energy to them, a capability largely absent in previous wireless power solutions. Keywords: prior art comparison, inductive charging vs RF, spatial wireless power, beamforming innovation, multi-device charging, wireless power differentiation.","question":"How is Systems and Methods for Device and Power Receiver Pairing different from prior art?"},{"answer":"The Systems and Methods for Device and Power Receiver Pairing patent has the potential to profoundly impact a wide array of industries due to its ability to deliver seamless, wire-free power over distance:\n\n**Consumer Electronics:** This is perhaps the most immediate impact. Smartphones, wearables (smartwatches, earbuds, fitness trackers), laptops, and smart home devices will benefit from enhanced user experience, continuous power, and new design possibilities (e.g., port-less devices).\n\n**Internet of Things (IoT):** Billions of IoT sensors and devices, often deployed in remote or hard-to-reach locations, require reliable, low-maintenance power. This technology can power them continuously without battery replacements or complex wiring, accelerating IoT adoption and functionality.\n\n**Automotive:** In-cabin charging for passenger devices can become truly ambient, and future autonomous vehicles could leverage this for powering internal sensors and computing units without cable constraints. **Healthcare:** Medical wearables and monitoring devices could remain powered without user intervention, enhancing patient care. **Retail & Commercial Spaces:** Digital signage, electronic price tags, and office equipment can be powered invisibly, reducing infrastructure costs and increasing flexibility in layout. Keywords: industry impact, consumer electronics, IoT power, smart home technology, automotive charging, healthcare wearables, retail innovation.","question":"What industries will Systems and Methods for Device and Power Receiver Pairing impact?"},{"answer":"The patent filing for Systems and Methods for Device and Power Receiver Pairing, identified as US-9853458, has specific dates associated with its journey through the patent office.\n\nThis invention was **filed** on **December 29, 2014**. The filing date marks the official submission of the patent application to the patent office, establishing priority for the invention.\n\nSubsequently, the patent was **published** on **December 26, 2017**. The publication date typically signifies when the patent document, including its claims and descriptions, becomes publicly available. This allows other researchers and companies to review the details of the innovation. These dates are crucial for understanding the timeline of the invention's development and its entry into the public domain of intellectual property. Keywords: patent filing date, patent publication date, US-9853458 timeline, intellectual property, wireless power patent history.","question":"When was Systems and Methods for Device and Power Receiver Pairing filed/granted?"},{"answer":"The commercial applications of the Systems and Methods for Device and Power Receiver Pairing patent are extensive and transformative, spanning numerous sectors:\n\n**Smart Homes and Offices:** Imagine homes where all smart devices (speakers, thermostats, lighting, security cameras) are perpetually powered without visible wires or the need for battery changes. Offices can become truly flexible, with laptops, monitors, and peripherals charging seamlessly anywhere on a desk or in a room, reducing cable clutter and increasing aesthetic appeal.\n\n**Consumer Electronics:** Manufacturers can integrate this technology into smartphones, tablets, wearables, and hearables, offering a premium feature of continuous, effortless charging. This opens doors for innovative, port-less device designs that are more durable and water-resistant. The enhanced user experience will drive significant market adoption.\n\n**Industrial IoT and Logistics:** In factories, warehouses, or large commercial spaces, countless sensors, asset trackers, and small robotic devices require constant power. This invention can provide a robust, wire-free power infrastructure, significantly reducing installation and maintenance costs for industrial IoT deployments. It allows for greater flexibility in device placement and ensures uninterrupted operation. Keywords: commercial applications, smart home solutions, IoT applications, consumer electronics market, industrial automation, wireless power business models, device charging products.","question":"What are the commercial applications of Systems and Methods for Device and Power Receiver Pairing?"},{"answer":"Looking ahead, several key future developments are expected for the technology outlined in the Systems and Methods for Device and Power Receiver Pairing patent, pushing the boundaries of wireless power even further:\n\n**Increased Range and Power Output:** While the current patent describes effective operation in a 3D space, future iterations will likely aim for extended ranges to cover larger rooms or even entire buildings, alongside higher power outputs to efficiently charge more demanding devices like laptops or even small appliances. This will involve advancements in RF transmission efficiency and beamforming precision.\n\n**Miniaturization and Integration:** Power receiver modules will become even smaller and more energy-efficient, allowing for seamless integration into a wider array of devices, including ultra-compact wearables, medical implants, and disposable IoT sensors. Transmitters could also be integrated invisibly into furniture, walls, or ceilings, making the power infrastructure truly ambient and unobtrusive.\n\n**Advanced Intelligence and Interoperability:** Future systems will feature more sophisticated AI-driven algorithms for multi-device power management, dynamic load balancing, and predictive charging. There will also be a push for industry-wide standardization to ensure interoperability between different manufacturers' transmitters and receivers, fostering a truly universal wireless power ecosystem. This will enable a future where power is as ubiquitous and effortless as Wi-Fi, completely transforming our interaction with technology. Keywords: future wireless power, technology roadmap, RF charging advancements, IoT power evolution, smart home integration, power standardization, ambient computing.","question":"What are the future developments expected for Systems and Methods for Device and Power Receiver Pairing?"}],"topics":["Systems and Methods for Device and Power Receiver Pairing","patent US-9853458","wireless power transmission","RF charging","3D energy pocket","quest","truly","ubiquitous"],"tech_cluster":null},"seo":{"title":"Systems and Methods for Device and Power Receiver Pairing - Patent US-9853458","description":"Discover the groundbreaking Systems and Methods for Device and Power Receiver Pairing patent: true wireless charging via 3D energy pockets. Full analysis of US-9853458.","keywords":["Systems and Methods for Device and Power Receiver Pairing","patent US-9853458","wireless power transmission","RF charging","3D energy pocket","device pairing","power receiver","wireless charging technology","Bluetooth localization","energy transfer innovation","wire-free power","electronic device charging","ambient power"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853458","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-9853458","citation_suggestion":"Patentable. \"Systems and methods for device and power receiver pairing\" (US-9853458). https://patentable.app/patents/US-9853458","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853458","json":"https://patentable.app/api/llm-context/US-9853458","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T14:39:05.955Z"}