{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853676","patent":{"patent_number":"US-9853676","title":"Alternative routing of wireless data onto power supply","assignee":null,"inventors":[],"filing_date":"2015-03-07T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H04B","H04B","H04L"],"num_claims":9,"abstract":"Circuits, methods, and apparatus that may provide a wired communication path that is simple to implement and does not greatly increase costs and complexity. One example may provide an electronic device having wired data path, where the wired data path is implemented using a power connection. Data from a wireless signal path may be routed and combined with a power supply voltage. This combined signal may then be provided to, or received from, a second electronic device over the power connection. The combined signal may be provided at a power connection that may include a power and ground path, paths for multiple power supplies, or paths for multiple power supplies and ground."},"analysis":{"summary":"The patent titled \"Alternative Routing of Wireless Data Onto Power Supply\" (US-9853676) introduces a groundbreaking method for creating highly efficient and cost-effective wired communication paths for electronic devices. The core innovation lies in its ability to leverage existing power connections for data transmission, thereby eliminating the need for separate, dedicated data cables.\n\nThe primary problem this invention solves is the inherent complexity and increased cost associated with traditional device connectivity, which typically requires distinct lines for power and data. This leads to cable clutter, higher material expenses, longer installation times, and more potential points of failure, particularly in environments with numerous interconnected devices like smart homes or industrial Internet of Things (IoT) deployments.\n\nTechnically, this patent describes a system where data originating from a wireless signal path is routed and combined with a power supply voltage. This combined signal—a multiplexed stream of both power and information—is then transmitted to or received from a second electronic device over a single power connection. The flexibility of this approach allows it to function across various power configurations, including a simple power and ground path, multiple power supplies, or combinations thereof.\n\nFrom a business perspective, this technology offers significant value by streamlining product design and manufacturing processes. It reduces bill of materials (BOM) costs, simplifies assembly, and accelerates deployment for a wide range of electronic devices. Applications span consumer electronics, smart infrastructure, automotive systems, and industrial automation, where reducing wiring complexity is a critical concern. The market opportunity is substantial, as it addresses a pervasive need for simpler, more integrated connectivity solutions that can lower operational expenditures and facilitate the widespread adoption of smart technologies. This innovation provides a competitive advantage for manufacturers and system integrators seeking to deliver more efficient and cost-effective products.","layman_explanation":"### What Problem Does This Solve?\n\nImagine you're setting up a new smart office or factory. Every smart light, every sensor, every connected machine needs two things: electricity to turn on, and a way to talk to other devices (like sending data). Traditionally, this means you need two separate cables for each device – one for power and one for data. This quickly leads to a tangled mess of wires, making installation incredibly complex, expensive, and time-consuming. It's also harder to find problems when things go wrong, and it limits how many devices you can easily connect without major infrastructure overhauls. Companies are constantly looking for ways to simplify this, reduce material costs, and make their products easier to install and use.\n\n### How Does It Work?\n\nThe patent **Alternative Routing of Wireless Data Onto Power Supply** (US-9853676) offers a brilliant solution, much like a clever postal service. Instead of having separate roads for electricity trucks and data cars, this invention creates a single superhighway. When a device receives information wirelessly (like from Wi-Fi or Bluetooth), instead of sending that data down a separate data cable, this technology takes that data and 'piggybacks' it onto the electrical power flowing through the power cable. Think of it like a secret message encoded into the electrical current itself. So, the power cable carries both the electricity to power the device and the data message at the same time. The receiving device then knows how to 'read' the secret message from the power line while still drawing power from it. This works for various types of power connections, making it very flexible for different devices.\n\n### Why Does This Matter?\n\nThis innovation matters immensely because it directly impacts the bottom line and operational efficiency for businesses. Firstly, it drastically cuts down on material costs by eliminating the need for redundant data cabling. Secondly, installation becomes significantly simpler and faster, reducing labor costs and deployment times for everything from smart home systems to complex industrial sensor networks. This ease of installation also means that existing buildings and machinery can be 'smart-enabled' more readily and affordably, opening up huge retrofitting opportunities. For manufacturers, it means simpler product designs, fewer components, and faster time-to-market. For consumers and businesses, it translates to cleaner installations, more reliable systems (fewer cables mean fewer things to break), and ultimately, more affordable and accessible smart technology. It's a competitive differentiator that can give companies a significant edge in the rapidly expanding IoT and connected device markets.\n\n### What's Next?\n\nThis technology paves the way for a new generation of electronic devices that are inherently simpler and more integrated. We can expect to see this approach adopted in a wide array of products, from smart lighting and climate control systems that communicate over their power wires, to industrial sensors that provide critical data without needing a separate network cable. The market adoption timeline will depend on the development of standardized components and chipsets that embed this capability. For investors, this represents an opportunity in companies that license or implement this technology, as it addresses a fundamental infrastructure challenge with broad commercial appeal. Ultimately, this patent helps accelerate the vision of a truly seamless and interconnected world, where devices communicate effortlessly and efficiently.","technical_analysis":"The patent **Alternative Routing of Wireless Data Onto Power Supply** (US-9853676) details a novel approach to device interconnection, focusing on integrating data communication directly into existing power supply paths. This technical analysis delves into the proposed architecture, implementation specifics, and the underlying principles that enable this efficient data transfer.\n\n**Technical Architecture Overview:**\nAt its core, the invention describes an electronic device comprising a wireless signal path and a wired data path. The innovation specifically outlines how data from the wireless signal path is routed and combined with a power supply voltage. This combined signal is then transmitted over a power connection to a second electronic device. The power connection itself can be flexible, potentially including a power and ground path, multiple power supply paths, or multiple power supplies with ground. This implies a solution adaptable to various power delivery topologies within and between devices.\n\n**Implementation Details and Algorithm Specifics:**\n1.  **Wireless Data Acquisition:** The first electronic device contains a module (e.g., Wi-Fi, Bluetooth, Zigbee) capable of receiving or generating wireless data. This data is typically in a digital format after demodulation from its wireless carrier.\n2.  **Data-Power Combination Circuitry:** A key component is the 'combiner' circuit. This circuit takes the digital data stream and modulates it onto a high-frequency carrier signal. This modulated carrier is then superimposed onto the DC power supply voltage. The modulation scheme would likely be chosen for robustness against noise and impedance variations inherent in power lines, possibly including Frequency Shift Keying (FSK), Phase Shift Keying (PSK), or spread spectrum techniques to improve spectral efficiency and noise immunity. The carrier frequency must be carefully selected to avoid interfering with the fundamental power delivery and the operation of other sensitive components within the device.\n3.  **Power Connection Transmission:** The combined power and data signal then travels over the physical power connection. This connection serves as the transmission medium. The patent emphasizes that this path is 'simple to implement and does not greatly increase costs and complexity,' suggesting minimal additional cabling or specialized, expensive conductors.\n4.  **Data-Power Separation Circuitry:** At the receiving electronic device, a 'separator' circuit is employed. This circuit must effectively filter out the high-frequency data signal from the DC power supply, ensuring that clean power is delivered to the receiving device's components. Simultaneously, it demodulates the extracted data signal to recover the original digital information. This involves band-pass filters tuned to the carrier frequency, followed by a demodulator (e.g., an FSK demodulator, PLL for PSK, etc.).\n5.  **Signal Integrity and Noise Mitigation:** Power lines are known for being electrically noisy environments. The patent implicitly requires robust signal processing and filtering techniques to maintain data integrity. This could involve error correction codes, retransmission protocols, and advanced filtering (e.g., adaptive filters) to counteract impulse noise and broadband interference. The choice of carrier frequency and modulation scheme also plays a crucial role in mitigating interference and optimizing throughput.\n\n**Integration Patterns:**\nThis technology can be integrated at various levels:\n    *   **Chip-level:** Integrating the combiner/separator circuits directly into power management ICs (PMICs) or communication transceivers.\n    *   **Module-level:** As standalone modules that can be added to existing electronic designs.\n    *   **System-level:** Implementing the solution across a network of devices where a central hub communicates with multiple peripherals over their power lines.\n\n**Performance Characteristics:**\n*   **Bandwidth:** The achievable data rate (bandwidth) would depend on the chosen carrier frequency, modulation scheme, power line characteristics (length, impedance, capacitance), and noise levels. While likely not rivaling dedicated high-speed Ethernet, it could be sufficient for many IoT sensor data, control signals, or low-bandwidth audio/video streams.\n*   **Reliability:** Robustness against power line transients and noise is a key design consideration. Error detection and correction mechanisms would be essential.\n*   **Power Consumption:** The additional circuitry for modulation and demodulation will add to the device's power consumption, which needs to be optimized for battery-powered applications.\n\n**Code-level Implications:**\nFor software developers, the implementation would primarily involve firmware for the data processing aspect—encoding/decoding data, managing communication protocols, and potentially implementing error handling. The low-level signal modulation/demodulation would typically be handled by specialized hardware or embedded DSPs, abstracting much of the physical layer complexity from higher-level software. This allows developers to interact with a seemingly standard data interface, simplifying application development.\n\nIn summary, this patent offers a technically sound and elegant solution to consolidate power and data transmission. Its success hinges on careful engineering of the combination and separation circuits, robust signal processing, and effective interference management, paving the way for simpler, more integrated electronic systems.","business_analysis":"The patent **Alternative Routing of Wireless Data Onto Power Supply** (US-9853676) presents a significant business opportunity by addressing a pervasive pain point in electronics manufacturing and deployment: the complexity and cost of device connectivity. By enabling data transmission over existing power lines, this invention offers a pathway to substantial market disruption and value creation across multiple sectors.\n\n**Market Opportunity Size:**\nThe global market for connected devices, encompassing IoT, smart homes, industrial automation, and automotive electronics, is experiencing exponential growth. Each of these sectors relies heavily on efficient device-to-device communication. The traditional model, requiring separate power and data cabling, adds billions to installation costs, material expenses, and maintenance overhead annually. This patent offers a direct solution to these challenges, tapping into a market that spans from consumer electronics (e.g., smart appliances, lighting) to high-value industrial applications (e.g., sensor networks, machine control). The total addressable market for solutions leveraging this technology could easily be in the hundreds of billions of dollars, considering the potential for cost savings and new product categories.\n\n**Competitive Advantages:**\n1.  **Cost Reduction:** The most immediate advantage is the significant reduction in Bill of Materials (BOM) and installation costs. Eliminating dedicated data cables means fewer components, less copper, and simplified assembly, leading to more competitive product pricing and higher margins.\n2.  **Simplified Design & Integration:** Product designers can create sleeker, more compact devices with fewer external ports and internal wiring. This streamlines the manufacturing process and reduces design complexity, accelerating time-to-market.\n3.  **Ease of Deployment & Retrofitting:** For end-users and integrators, installation becomes dramatically simpler. Devices can be deployed by merely plugging into a power source, making it ideal for retrofitting smart capabilities into existing infrastructure without extensive rewiring, a huge advantage in smart building and industrial upgrade projects.\n4.  **Reduced Points of Failure:** Fewer cables and connections inherently lead to a more robust system with fewer potential points of failure, enhancing reliability and reducing maintenance costs.\n\n**Revenue Potential and Business Models:**\nCompanies can capitalize on this technology through several business models:\n*   **Licensing:** Patent holders can license the technology to electronic device manufacturers, earning royalties per unit sold or through lump-sum agreements.\n*   **Product Differentiation:** Manufacturers can integrate this technology into their products (e.g., smart sensors, IoT gateways, lighting systems) to offer a unique selling proposition (USP) of 'single-cable connectivity,' commanding premium pricing or gaining market share.\n*   **System Integration Services:** Companies specializing in smart infrastructure deployment can leverage this approach to offer faster, cheaper, and less disruptive installation services.\n*   **Component Sales:** Semiconductor companies can develop specialized integrated circuits (ICs) for data-over-power combination and separation, selling them to device manufacturers.\n\n**Strategic Positioning:**\nThis invention positions companies at the forefront of integrated connectivity. It allows them to differentiate their offerings in crowded markets by solving a fundamental, pervasive problem. Strategic partnerships with power supply manufacturers, wireless module providers, and major OEMs could accelerate adoption and establish market dominance. The technology aligns perfectly with trends towards miniaturization, energy efficiency, and seamless user experiences in connected environments.\n\n**ROI Projections:**\nFor a device manufacturer, the ROI on adopting this technology could be seen in:\n    *   **Direct Cost Savings:** (e.g., 20-40% reduction in cabling and installation costs).\n    *   **Market Share Gains:** By offering a superior, simpler product, companies can capture a larger market share.\n    *   **Faster Time-to-Market:** Simplified design and testing cycles can lead to quicker product launches.\n    *   **Reduced Support Costs:** More reliable systems with fewer installation issues translate to lower customer support expenses.\n\nOverall, the Alternative Routing of Wireless Data Onto Power Supply patent is not merely a technical advancement; it is a strategic asset that can unlock significant economic value by simplifying the very foundation of electronic device interaction.","faqs":[{"answer":"The **Alternative Routing of Wireless Data Onto Power Supply** (US-9853676) is a patented invention that describes a novel method for transmitting data between electronic devices. At its core, this technology allows data that originates from a wireless signal path to be combined with a power supply voltage. This combined signal then travels over the existing power connection, effectively using the same wires for both power delivery and data communication.\n\nThis innovation aims to simplify the wired communication paths within and between electronic devices. Instead of requiring separate cables for power and data, this patent enables a single power connection to serve a dual purpose. This reduces complexity, material costs, and installation efforts, which are significant benefits in the design and deployment of modern electronic systems.\n\nThe patent covers circuits, methods, and apparatus to achieve this integration. It's a fundamental shift from traditional approaches, where power and data typically travel through distinct physical conduits. This technology is particularly relevant for applications where minimizing wiring and streamlining connectivity are critical, such as in smart homes, industrial IoT, and various embedded systems.\n\nKeywords: Alternative Routing of Wireless Data Onto Power Supply, US-9853676, power line data, integrated connectivity, wireless data over power.","question":"What is Alternative Routing of Wireless Data Onto Power Supply?"},{"answer":"The fundamental mechanism of **Alternative Routing of Wireless Data Onto Power Supply** involves a sophisticated process of signal multiplexing and demultiplexing. Firstly, an electronic device receives or generates data wirelessly (e.g., via Wi-Fi, Bluetooth, or a proprietary radio frequency link). This wireless data is then converted into a digital signal.\n\nNext, a specialized circuit within the transmitting device takes this digital data and modulates it onto a high-frequency carrier signal. This modulated data signal is then carefully superimposed onto the device's power supply voltage. The resulting combined signal, which now carries both power and data, is then transmitted over the existing power connection to a second electronic device.\n\nAt the receiving device, a complementary circuit separates the combined signal. It filters out the high-frequency data signal from the power supply voltage, ensuring that clean power is still delivered to the device's components. Simultaneously, it demodulates the extracted data signal to recover the original digital information. This process allows two devices to communicate data seamlessly using only their power connection, eliminating the need for separate data cables.\n\nKeywords: how it works, data combination, power supply voltage, signal modulation, data separation, electronic devices, US-9853676.","question":"How does Alternative Routing of Wireless Data Onto Power Supply work?"},{"answer":"The **Alternative Routing of Wireless Data Onto Power Supply** patent primarily solves the significant problem of complexity and cost associated with traditional electronic device connectivity. In most systems, each device requires a dedicated power connection and a separate data connection, leading to a proliferation of cables.\n\nThis 'dual-cable' requirement results in several challenges: increased material costs for cabling and connectors, more complex manufacturing processes, longer installation times, and higher labor expenses. Furthermore, a dense network of cables can lead to physical clutter, increased potential for errors during installation, and more points of failure, making maintenance and troubleshooting difficult.\n\nBy enabling data to be transmitted over existing power lines, this invention drastically simplifies the physical layer of connectivity. It reduces the Bill of Materials (BOM), streamlines product design, and lowers deployment costs, thereby making it easier and more affordable to create and implement interconnected electronic systems, especially in areas like smart homes, industrial IoT, and automotive electronics.\n\nKeywords: problem solved, wiring complexity, cost reduction, installation challenges, cable management, IoT deployment, US-9853676.","question":"What problem does Alternative Routing of Wireless Data Onto Power Supply solve?"},{"answer":"The patent **Alternative Routing of Wireless Data Onto Power Supply** (US-9853676) was filed on March 7, 2015, and published on December 26, 2017. The patent document would list the specific inventors and the assignee (the entity to whom the patent rights are assigned).\n\nWhile the abstract provided does not explicitly name the inventors or assignee, this information is publicly available through patent databases like the USPTO (United States Patent and Trademark Office) by searching for the patent number US-9853676. Typically, such innovations emerge from corporate research and development teams or individual inventors seeking to solve specific industry challenges.\n\nUnderstanding the inventors and assignee provides insight into the origin and strategic intent behind the technology. Often, these patents are developed by companies looking to gain a competitive edge in their respective markets or to license their technology to other players in the industry, driving innovation forward.\n\nKeywords: inventors, assignee, patent filing, publication date, US-9853676, patent ownership, intellectual property.","question":"Who invented Alternative Routing of Wireless Data Onto Power Supply?"},{"answer":"The **Alternative Routing of Wireless Data Onto Power Supply** patent offers a multitude of key benefits that address critical challenges in modern electronic device connectivity.\n\nFirstly, it significantly **reduces wiring complexity and material costs**. By eliminating the need for separate data cables, manufacturers can lower their Bill of Materials (BOM) and simplify internal device wiring, leading to more cost-effective products. Secondly, it enables **simpler and faster installation** for end-users and system integrators. Devices can be deployed by merely connecting them to a power source, which dramatically cuts down on labor costs and deployment times, especially for large-scale projects.\n\nThirdly, this technology allows for **streamlined product design** and more compact devices. With fewer ports and internal wiring, electronic products can be smaller, sleeker, and more aesthetically pleasing. Fourthly, it facilitates **easier retrofitting of smart capabilities** into existing infrastructure, as extensive rewiring for data is no longer necessary. Finally, by reducing the number of physical cables, it potentially leads to **enhanced system reliability** with fewer points of failure, simplifying maintenance and troubleshooting.\n\nKeywords: key benefits, cost savings, simplified wiring, faster installation, product design, retrofitting, system reliability, US-9853676.","question":"What are the key benefits of Alternative Routing of Wireless Data Onto Power Supply?"},{"answer":"The **Alternative Routing of Wireless Data Onto Power Supply** (US-9853676) distinguishes itself from prior art in several crucial ways, particularly from traditional Power Line Communication (PLC) and standard wired/wireless connectivity.\n\nTraditional wired data paths (like Ethernet) require dedicated cables alongside power, creating complexity. Wireless solutions (like Wi-Fi) eliminate cables but introduce range, interference, and power consumption issues. Standard PLC typically modulates data onto AC mains power lines, which can be noisy and limited by electrical phase boundaries. While PLC uses existing power lines, it often needs a dedicated gateway to bridge to wireless networks.\n\nThis patent's key differentiation lies in its explicit focus on routing *wireless data* and combining it with *power supply voltage* (often DC within devices) rather than AC mains. This allows for a more controlled integration within electronic devices, directly leveraging the wireless module's output. It's a hybrid approach that takes the benefits of wireless (flexibility in initial data acquisition) and merges them with the simplicity and reliability of wired power delivery. This specific integration of wireless data onto a device's power supply lines, with versatility across various power configurations, sets it apart as a highly optimized solution for integrated device connectivity.\n\nKeywords: prior art, PLC, Power Line Communication, wireless data, power supply voltage, key differentiation, hybrid connectivity, US-9853676.","question":"How is Alternative Routing of Wireless Data Onto Power Supply different from prior art?"},{"answer":"The **Alternative Routing of Wireless Data Onto Power Supply** patent (US-9853676) has the potential to significantly impact a wide array of industries that rely on interconnected electronic devices.\n\nFirstly, the **Internet of Things (IoT)** sector, including smart homes and smart cities, stands to benefit immensely. Simplified wiring will accelerate the adoption and deployment of smart lighting, thermostats, sensors, and appliances, making smart environments more accessible and affordable. Secondly, **Industrial IoT (IIoT)** and **Industrial Automation** will see major improvements. Factories can deploy more sensors for predictive maintenance, process monitoring, and quality control without the prohibitive costs and downtime associated with running new data cables in complex industrial settings.\n\nThirdly, the **Automotive Industry** can leverage this technology to reduce the complexity and weight of vehicle wiring harnesses, leading to lighter cars, better fuel efficiency, and lower manufacturing costs. Fourthly, **Consumer Electronics** manufacturers can design sleeker, more compact devices with fewer external ports, enhancing user experience and reducing manufacturing complexity. Finally, **Building Automation Systems** will find it easier to install and manage intelligent infrastructure, from HVAC controls to security systems, by utilizing existing electrical conduits for data transmission.\n\nKeywords: industry impact, IoT, Industrial IoT, smart homes, automotive, consumer electronics, building automation, US-9853676.","question":"What industries will Alternative Routing of Wireless Data Onto Power Supply impact?"},{"answer":"The patent titled **Alternative Routing of Wireless Data Onto Power Supply** has the official patent number US-9853676. Its journey through the patent process involved specific key dates.\n\nThe initial **Filing Date** for this patent was **March 7, 2015**. This is the date when the patent application was formally submitted to the United States Patent and Trademark Office (USPTO). The filing date is crucial as it typically establishes the priority date for the invention.\n\nFollowing the examination process, the patent was subsequently **published and granted** on **December 26, 2017**. This publication date signifies when the patent document became publicly available and the rights granted to the assignee officially came into effect. These dates are important for understanding the timeline of the invention's development and its legal standing.\n\nKeywords: filing date, granted date, publication date, patent timeline, US-9853676, patent process, intellectual property.","question":"When was Alternative Routing of Wireless Data Onto Power Supply filed/granted?"},{"answer":"The commercial applications of the **Alternative Routing of Wireless Data Onto Power Supply** patent (US-9853676) are extensive and span across various markets, driven by the core benefit of simplifying connectivity and reducing costs.\n\nIn **Smart Home & Office Automation**, this technology can be used in smart lighting systems, smart thermostats, security cameras, and smart appliances, where devices can communicate over their existing power wiring, making installation plug-and-play. For **Industrial IoT (IIoT) & Manufacturing**, it enables easier deployment of sensors for condition monitoring, predictive maintenance, and process control on factory floors, utilizing the power lines already running to machinery. This reduces the need for expensive and complex new data cabling.\n\nIn the **Automotive Sector**, it can lead to simplified vehicle wiring harnesses, contributing to lighter vehicles and reduced manufacturing costs. For **Retail & Commercial Spaces**, smart shelf systems, digital signage, and environmental sensors can be integrated more seamlessly. Additionally, in **Data Centers**, it could streamline the monitoring and control of Power Distribution Units (PDUs) by integrating data communication into power rails. The ability to retrofit existing infrastructure without extensive rewiring also creates significant commercial opportunities in upgrade projects across these sectors.\n\nKeywords: commercial applications, smart home, industrial IoT, automotive, retail, data centers, retrofit, US-9853676.","question":"What are the commercial applications of Alternative Routing of Wireless Data Onto Power Supply?"},{"answer":"The **Alternative Routing of Wireless Data Onto Power Supply** patent (US-9853676) lays a foundational groundwork for significant future developments in integrated connectivity. We can anticipate several key advancements building upon this core innovation.\n\nFirstly, there will likely be a focus on **higher data rates and improved robustness**. As demand for bandwidth grows, research will aim to develop more sophisticated modulation schemes and signal processing techniques to achieve faster data transfer over power lines, while maintaining signal integrity in noisy environments. Secondly, **miniaturization and integration** into standard chipsets are expected. Embedding the data-power combination and separation circuits directly into power management ICs (PMICs) or wireless communication modules will further reduce cost and footprint, making the technology ubiquitous.\n\nThirdly, **standardization efforts** will become crucial. Industry consortia will likely work to establish common protocols and specifications for 'data-over-power' communication, ensuring interoperability between devices from different manufacturers. Fourthly, **enhanced power efficiency** will be a key development, particularly for battery-powered IoT devices, optimizing the power consumption of the integrated communication circuitry. Finally, we may see the emergence of **smarter power grids and microgrids** that inherently manage both power flow and data traffic, creating truly intelligent and self-optimizing energy infrastructures. These developments will solidify this technology's role in a seamlessly connected future.\n\nKeywords: future developments, higher data rates, miniaturization, standardization, power efficiency, smart grids, US-9853676, integrated connectivity.","question":"What are the future developments expected for Alternative Routing of Wireless Data Onto Power Supply?"}],"topics":["alternative routing wireless data","power supply communication","data over power","wireless data routing patent","US-9853676","technical","unlocking","efficiency"],"tech_cluster":null},"seo":{"title":"Alternative Routing of Wireless Data Onto Power Supply - Patent US-9853676","description":"Discover the groundbreaking patent 'Alternative Routing of Wireless Data Onto Power Supply' (US-9853676). Route wireless data onto power lines, reducing complexity and costs.","keywords":["alternative routing wireless data","power supply communication","data over power","wireless data routing patent","US-9853676","integrated connectivity","IoT wiring simplification","electronic device communication","cost-effective wiring","power line data transfer","patent analysis"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853676","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-9853676","citation_suggestion":"Patentable. \"Alternative routing of wireless data onto power supply\" (US-9853676). https://patentable.app/patents/US-9853676","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853676","json":"https://patentable.app/api/llm-context/US-9853676","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T06:36:02.628Z"}