{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853489","patent":{"patent_number":"US-9853489","title":"Charging station for mobile device with solar panel","assignee":null,"inventors":[],"filing_date":"2016-01-06T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H02J","H02J","H02J","H02J","H02J"],"num_claims":23,"abstract":"A charging device configured to charge a mobile device through the solar cells integrated on the mobile device. The charging device converts wall power to light energy which can be absorbed by the solar cells and then converted to electricity for storage in the rechargeable battery of the mobile device. The charging device includes a light source configured to emit a light beam having a spectrum tuned to the spectral response of the solar cells. The charging device includes a proximity sensor for detecting the presence of a mobile device within the charging device housing and responsively signaling the activation of the light source. The charging device includes logic for wirelessly communicating with the mobile device as well as controlling the charging process in various stages and aspects. The light source may be LEDs that also serve to transmit light communication signals to the mobile device."},"analysis":{"summary":"The **Charging Station for Mobile Device with Solar Panel** patent (US-9853489) introduces a sophisticated device designed to efficiently charge mobile devices equipped with integrated solar cells, specifically in indoor environments. The core innovation addresses the inefficiency of traditional indoor solar charging by converting standard wall power into a precisely tuned light beam.\n\nThe primary problem this invention solves is the spectral mismatch between ambient indoor light and the optimal spectral response of a mobile device's solar cells. This mismatch typically results in very low energy conversion efficiency, rendering integrated solar panels largely ineffective for practical charging indoors. This patent overcomes this by providing a controlled, optimized light source.\n\nThe key technical approach involves a light source, preferably LEDs, configured to emit light with a spectrum specifically matched to the spectral response curve of the mobile device's solar cells. This maximizes photon absorption and subsequent electricity generation. Furthermore, the system incorporates a proximity sensor to detect the presence of a mobile device, activating the light source only when needed for energy efficiency. Intelligent logic enables wireless communication with the mobile device, allowing the charging station to monitor battery status, adjust light intensity, and control the charging process in various stages. The patent also suggests the potential for these LEDs to transmit light communication signals, adding a data transfer capability.\n\nFrom a business perspective, this technology offers significant value. It transforms a currently underutilized feature—integrated solar cells in mobile devices—into a practical and efficient power source. This opens new market opportunities for device manufacturers to promote truly sustainable and convenient charging solutions. Consumers benefit from reduced reliance on cables and wall outlets, alongside potentially faster and more eco-friendly charging. The system's intelligent control also contributes to improved battery longevity.\n\nThe market opportunity lies in creating dedicated charging infrastructure for homes, offices, and public spaces, seamlessly integrating sustainable power into daily life. This innovation could drive adoption of solar-enabled mobile devices by providing a robust and efficient charging ecosystem, positioning it as a key player in the evolution of portable electronics power management.","layman_explanation":"### What Problem Does This Solve?\n\nImagine you have a mobile phone with a tiny solar panel on its back, designed to soak up sunlight and charge your battery. Sounds great for the outdoors, right? But what happens when you're inside, at your office desk, or relaxing at home? The regular indoor lights or even indirect sunlight coming through a window just aren't strong enough, or more importantly, aren't the *right kind* of light, for that little solar panel to work effectively. It's like trying to get a perfect suntan under a fluorescent office light – it just won't happen. This means that the solar feature on your phone, while a nice idea, often becomes practically useless indoors, forcing you back to traditional wall chargers. The core business problem is the missed opportunity for efficient, sustainable, and convenient indoor charging for solar-enabled mobile devices.\n\n### How Does It Work?\n\nThis patent, titled **Charging Station for Mobile Device with Solar Panel**, introduces a clever solution. Think of it as a dedicated 'mini-sun' for your phone, but an incredibly smart one. When you place your solar-enabled mobile device into this charging station, two key things happen. First, a special light source inside the station turns on. This isn't just any light; it's engineered to emit light with a spectrum (think of it as a specific 'color recipe' of light) that is perfectly matched to what your phone's solar panel absorbs most efficiently. This is like giving your solar panel its favorite meal, ensuring it gets the most energy possible. Second, the station is smart. It has sensors to detect your phone's presence, so it only turns on the special light when a device is ready to charge, saving energy. It also wirelessly communicates with your phone, acting like a smart manager. It can ask your phone, \"How much battery do you have?\" and \"Are you charging well?\" Based on this, it adjusts the light's intensity and spectrum to optimize the charging process, much like a smart thermostat adjusts room temperature. The patent even hints that the same lights could potentially send data to your phone, opening doors for even more integrated experiences.\n\n### Why Does This Matter?\n\nThis invention matters because it finally makes integrated solar panels on mobile devices genuinely useful indoors. From a business perspective, it unlocks a new market for premium, eco-friendly charging solutions. Imagine offices offering these stations at every desk, or coffee shops providing them as a value-added service. Device manufacturers can now confidently promote solar integration, knowing there's an efficient charging ecosystem to support it. This leads to increased customer satisfaction, a stronger brand image associated with sustainability, and potentially reduces the demand for traditional power outlets. For consumers, it means less reliance on cables, more freedom, and a greener way to power their devices. The intelligent management also promises better battery health, potentially extending the lifespan of mobile devices. This isn't just about charging; it's about creating a more seamless, sustainable, and intelligent power experience for our portable electronics.\n\n### What's Next?\n\nThe potential for this technology is significant. We could see these charging stations integrated into furniture, public transport, or even smart home systems, creating ubiquitous, discreet charging zones. As more devices adopt solar cells, the demand for such optimized charging infrastructure will grow. This innovation could accelerate the adoption of solar-enabled devices and establish new industry standards for power delivery. For investors, this represents an opportunity to be at the forefront of sustainable tech, capitalizing on a solution that addresses both environmental concerns and consumer convenience, driving market adoption and potentially high returns.","technical_analysis":"The **Charging Station for Mobile Device with Solar Panel** patent (US-9853489) outlines a novel architecture for optimizing the charging of mobile devices equipped with integrated solar cells. This invention directly confronts the limitations of indoor photovoltaic efficiency by introducing a controlled, intelligent light-based power delivery system.\n\n**Technical Architecture:**\nThe core of this invention is a dedicated charging device comprising several key modules:\n1.  **Power Input & Conversion:** The system draws power from a standard wall outlet. This AC power is then converted to DC by an internal power supply unit, which provides regulated voltage and current to the light source and control circuitry.\n2.  **Spectrum-Tunable Light Source:** This is typically implemented using an array of Light Emitting Diodes (LEDs). Unlike broadband light sources, these LEDs are selected and controlled to emit a light beam whose spectral distribution is precisely matched to the peak absorption wavelengths of the mobile device's integrated solar cells. This tuning is critical for maximizing the photoelectric conversion efficiency (PCE). The control logic modulates the current or pulse width to individual LED channels to achieve the desired spectral profile and intensity.\n3.  **Proximity Sensor:** An integrated sensor (e.g., infrared, capacitive, or ultrasonic) detects the physical presence of a mobile device within the charging station's housing. This sensor's output signals the activation or deactivation of the light source, ensuring energy is only consumed when a device is present.\n4.  **Control Logic (Microcontroller/Processor):** This central unit orchestrates the entire charging process. It receives input from the proximity sensor, manages the LED light source's spectrum and intensity, and facilitates wireless communication with the mobile device.\n5.  **Wireless Communication Module:** This module enables bidirectional data exchange between the charging station and the mobile device. This could be achieved via standard protocols (e.g., Bluetooth Low Energy, Wi-Fi) or, as suggested in the patent, through modulated light signals from the LEDs themselves.\n\n**Implementation Details:**\n*   **Spectral Tuning:** The control logic would likely store profiles for various mobile device solar cell types. Upon initial wireless communication, the mobile device could transmit its solar cell's spectral response curve or a device ID that maps to a stored profile in the charging station. The control logic then dynamically adjusts the LED array to emit the optimal spectrum. This might involve a closed-loop system where the mobile device provides feedback on charging current, allowing the station to fine-tune its output.\n*   **Proximity Sensing Integration:** The sensor needs to be robust enough to accurately detect various mobile device form factors while being discreetly integrated into the housing. Its response time should be rapid to ensure immediate charging upon placement.\n*   **Wireless Communication Protocol:** A low-power wireless protocol is ideal for initial device discovery and basic parameter exchange. For advanced data transfer via light, a custom protocol leveraging the high modulation capabilities of LEDs would be required, potentially operating in the visible or near-infrared spectrum.\n\n**Algorithm Specifics:**\n1.  **Device Detection Algorithm:** Simple thresholding on the proximity sensor output.\n2.  **Spectral Matching Algorithm:** Could involve lookup tables of LED intensity settings for specific solar cell types, or a more advanced optimization algorithm that iteratively adjusts LED output based on feedback from the mobile device's reported charging current.\n3.  **Charging Control Algorithm:** This would mimic traditional battery management system logic (e.g., Constant Current, Constant Voltage, Trickle Charge) but applied to the light source's output. The algorithm would manage light intensity to prevent overcharging and optimize battery health based on the mobile device's reported battery state.\n\n**Integration Patterns:**\nThis system is designed for seamless integration into existing environments. The charging station itself would be a standalone unit, requiring only a wall power connection. Its intelligence allows it to adapt to different mobile devices without user intervention beyond placement. The wireless communication ensures compatibility with a broad range of solar-enabled devices, provided they adhere to a defined communication protocol for spectral data and charging feedback.\n\n**Performance Characteristics:**\n*   **Enhanced Photoelectric Conversion:** The primary benefit is a significantly higher conversion efficiency compared to passive indoor solar charging, potentially yielding practical charging speeds.\n*   **Energy Efficiency:** The combination of optimized light emission and proximity-based activation minimizes wasted energy.\n*   **Adaptive Charging:** Intelligent control protects the mobile device's battery and optimizes charging cycles.\n*   **Dual-Functionality:** The potential for LEDs to transmit data opens avenues for secure and localized optical communication, adding a layer of functionality beyond mere power delivery.\n\n**Code-Level Implications:**\nFirmware for the control logic would involve drivers for the LED array, sensor interface code, wireless communication stacks, and a real-time operating system (RTOS) to manage concurrent tasks. Mobile device firmware would need updates to expose solar cell spectral response data and communicate charging feedback to the station. This technical solution marks a significant step towards practical and intelligent indoor solar charging, leveraging precise light control and smart communication for optimal energy transfer.","business_analysis":"The **Charging Station for Mobile Device with Solar Panel** patent (US-9853489) presents a compelling business opportunity by addressing a significant unmet need in the mobile device accessory and sustainable energy markets. This innovation transforms the theoretical potential of integrated mobile solar panels into a practical, efficient reality, unlocking new revenue streams and competitive advantages.\n\n**Market Opportunity Size:**\nThe global market for mobile phone accessories is vast, projected to reach hundreds of billions of dollars by the mid-2020s. Within this, the charging solutions segment is a major contributor. Simultaneously, there's a growing consumer and corporate demand for sustainable and eco-friendly technology. While mobile devices with integrated solar cells exist, their adoption has been limited by inefficient indoor performance. This patent creates an entirely new sub-segment within the charging market: dedicated, optimized indoor solar charging infrastructure. The market for smart home devices, office tech, and public charging solutions also offers substantial avenues for integration and growth.\n\n**Competitive Advantages:**\n1.  **Superior Efficiency:** The core advantage is the precisely tuned light spectrum, which dramatically outperforms ambient light charging. This offers a tangible, measurable benefit over any existing 'passive' solar charging solution.\n2.  **Intelligent Control:** Features like proximity sensing and wireless communication for charge optimization provide a 'smart' charging experience that conventional chargers lack, promoting battery health and user convenience.\n3.  **Sustainability Differentiator:** For environmentally conscious consumers and businesses, this technology offers a genuinely greener charging option, leveraging renewable energy in a practical indoor setting.\n4.  **Cable-Free Convenience:** While not fully wireless power for all devices, it offers a cable-free experience for solar-enabled devices, reducing clutter and enhancing aesthetics.\n5.  **Future-Proofing:** The potential for light-based data communication adds a layer of future utility and differentiation, anticipating convergence of power and data.\n\n**Revenue Potential:**\nRevenue could be generated through multiple channels:\n*   **Direct Sales of Charging Stations:** As a premium accessory for solar-enabled mobile devices.\n*   **Licensing to Device Manufacturers:** Mobile device OEMs could license the technology to bundle their solar-equipped phones with compatible charging stations, or integrate the technology directly into smart furniture or public infrastructure.\n*   **Partnerships with Public Venues:** Deploying charging stations in airports, coffee shops, libraries, and offices as a value-added service.\n*   **Subscription Services:** For advanced features, data analytics, or maintenance of large deployments.\n\n**Business Models:**\n*   **B2C:** Selling directly to consumers as a high-end accessory.\n*   **B2B:** Targeting corporate offices, hospitality industry, educational institutions, and smart city initiatives for large-scale deployments.\n*   **Licensing & OEM:** Partnering with mobile device manufacturers or furniture companies to integrate the technology into their products.\n\n**Strategic Positioning:**\nThis invention positions its adopters as leaders in sustainable mobile technology and intelligent power management. It allows companies to:\n*   **Expand Product Ecosystems:** Create a synergistic ecosystem of solar-enabled devices and their optimized charging solutions.\n*   **Enhance Brand Image:** Align with sustainability trends and cater to eco-conscious demographics.\n*   **Drive Innovation:** Be at the forefront of light-based power delivery and potentially optical communication.\n*   **Capture Niche Markets:** Dominate the segment of efficient indoor solar charging, which is currently underserved.\n\n**ROI Projections:**\nThe ROI for investing in or adopting this patent is potentially high due to the novelty and clear value proposition. Early market entry could secure significant market share. Reduced energy consumption (due to efficiency and proximity sensing) and extended device battery life translate to tangible cost savings and increased customer satisfaction. The ability to integrate into various environments (home, office, public) offers diverse and scalable revenue streams, making it an attractive proposition for investors looking for sustainable and innovative tech ventures. The **Charging Station for Mobile Device with Solar Panel** represents a strategic asset for companies aiming to redefine mobile power solutions.","faqs":[{"answer":"The **Charging Station for Mobile Device with Solar Panel** (US-9853489) is an innovative patent that describes a dedicated device designed to efficiently charge mobile devices equipped with integrated solar cells. Unlike traditional methods that rely on often inefficient ambient indoor light, this invention provides a controlled environment where wall power is converted into a precisely tuned light beam. This light spectrum is specifically optimized to match the spectral response of the mobile device's solar cells, maximizing energy absorption and conversion into electricity for the device's battery.\n\nThis system goes beyond a simple light source by incorporating intelligent features. It includes a proximity sensor that detects when a mobile device is placed within its housing, ensuring the light source is activated only when needed. Furthermore, the charging station communicates wirelessly with the mobile device, allowing for intelligent control over the charging process, monitoring battery status, and optimizing light intensity and duration. This comprehensive approach aims to make indoor solar charging a practical and highly efficient reality for portable electronics.\n\nEssentially, the Charging Station for Mobile Device with Solar Panel acts as a 'smart sun' for your device, providing the exact type of light it needs to charge effectively indoors. This makes the integrated solar panels on mobile devices far more useful than they would be with just passive exposure to typical indoor lighting. It's a significant step towards more sustainable and convenient mobile power solutions.\n\nKeywords: solar charging, mobile device, smart charger, tuned light, energy efficiency, US-9853489, patent explanation","question":"What is Charging Station for Mobile Device with Solar Panel?"},{"answer":"The **Charging Station for Mobile Device with Solar Panel** operates through a synergistic combination of hardware and intelligent control. Firstly, it takes standard wall power and processes it to drive a specialized light source, typically an array of LEDs. The crucial aspect here is that these LEDs are configured to emit a light beam with a spectrum that is precisely 'tuned' or matched to the optimal spectral response of the solar cells integrated into the mobile device.\n\nSecondly, the system employs a proximity sensor. When a mobile device is placed within the charging station's designated housing, this sensor detects its presence. This detection triggers the activation of the tuned light source, ensuring that energy is not wasted by emitting light when no device is available for charging. This 'on-demand' activation significantly contributes to the overall energy efficiency of the system.\n\nThirdly, intelligent logic within the charging station establishes wireless communication with the mobile device. This communication link allows the station to receive information about the mobile device's battery status, its specific solar cell characteristics, and its current charging requirements. Based on this feedback, the charging station can dynamically adjust the intensity and potentially the spectral composition of the emitted light, optimizing the charging process for speed and battery health. The patent also suggests that these LEDs could potentially transmit light communication signals, adding a data transfer capability.\n\nIn essence, the Charging Station for Mobile Device with Solar Panel creates a controlled, optimized light environment for the mobile device's solar panel, actively managing the power transfer to maximize efficiency and protect the device's battery. This makes indoor charging via integrated solar cells far more effective than simply relying on ambient light.\n\nKeywords: how it works, tuned light, proximity sensor, wireless communication, LED charging, spectral response, intelligent control, mobile power","question":"How does Charging Station for Mobile Device with Solar Panel work?"},{"answer":"The **Charging Station for Mobile Device with Solar Panel** patent primarily solves the problem of inefficient and impractical indoor charging for mobile devices equipped with integrated solar cells. While the concept of solar-powered mobile devices is appealing for its sustainability and convenience, their real-world performance indoors has historically been very poor.\n\nThis inefficiency stems from two main issues: first, the spectral mismatch between typical indoor lighting and the optimal absorption spectrum of most solar cells. Solar cells are usually designed for the full spectrum of direct sunlight, not the narrow or altered spectrum of artificial indoor lights. Second, indoor light intensity is significantly lower than direct sunlight. These factors combine to result in extremely low photoelectric conversion efficiency (PCE), meaning the solar cells generate very little usable electricity indoors, rendering them almost useless for practical charging.\n\nBy providing a precisely tuned light source, the Charging Station for Mobile Device with Solar Panel directly addresses the spectral mismatch, dramatically increasing the efficiency of light-to-electricity conversion. The intelligent control and proximity sensing further ensure that this optimized power transfer is energy-efficient and user-friendly. This innovation transforms integrated solar panels from a largely symbolic feature into a practical, reliable, and sustainable power source for everyday indoor use, finally fulfilling the promise of solar-powered mobile devices.\n\nKeywords: problem solved, indoor charging inefficiency, solar cell limitations, spectral mismatch, practical solar power, sustainable mobile charging, battery life","question":"What problem does Charging Station for Mobile Device with Solar Panel solve?"},{"answer":"The patent for **Charging Station for Mobile Device with Solar Panel** (US-9853489) was filed on January 6, 2016, and published on December 26, 2017. The public record for this patent does not explicitly list the inventors or assignee within the provided abstract. This information is typically found in the full patent document, which would detail the individual inventors responsible for the intellectual property and the entity (assignee) to whom the patent rights are assigned, if any.\n\nIn the context of patent filings, it is common for large corporations or research institutions to be the assignee, while the inventors are the engineers, scientists, or researchers who conceived the invention. Without access to the complete patent filing details, the specific individuals or company behind the Charging Station for Mobile Device with Solar Panel cannot be identified from the provided abstract alone.\n\nHowever, the technical sophistication of the invention, involving precise light spectrum tuning, proximity sensing, and wireless communication, suggests a team with expertise in areas such as optoelectronics, power management, embedded systems, and wireless communication protocols. The development of such an integrated system requires interdisciplinary knowledge to bring the concept to fruition. For precise inventor and assignee details, the full patent document (US-9853489) should be consulted through official patent databases.\n\nKeywords: inventors, assignee, patent filing, US-9853489, patent details, intellectual property, invention origin","question":"Who invented Charging Station for Mobile Device with Solar Panel?"},{"answer":"The **Charging Station for Mobile Device with Solar Panel** offers several key benefits that address current limitations in mobile device charging and enhance the user experience:\n\n1.  **Enhanced Charging Efficiency Indoors:** The primary benefit is the dramatic increase in the efficiency of charging solar-enabled mobile devices indoors. By precisely tuning the light spectrum to the device's solar cells, it maximizes energy conversion, making indoor solar charging genuinely practical and effective, unlike passive ambient light charging.\n2.  **Cable-Free Convenience:** For devices with integrated solar panels, this system provides a truly cable-free charging experience. Users simply place their device in the station, eliminating the need to plug in a physical cable, which reduces clutter and simplifies the charging process.\n3.  **Intelligent Power Management:** The wireless communication and control logic allow the charging station to intelligently manage the charging process. This includes monitoring battery status, adjusting light intensity, and optimizing charging stages, which can help prevent overcharging and extend the overall lifespan of the mobile device's battery.\n4.  **Energy Efficiency and Sustainability:** With proximity sensors activating the light source only when a device is present and optimal energy conversion, the system minimizes wasted energy. This promotes a more sustainable approach to powering mobile devices, leveraging renewable energy principles efficiently.\n5.  **Future-Proof Functionality:** The patent's suggestion that the LEDs could also transmit light communication signals opens avenues for advanced features, such as localized data transfer or enhanced device interaction, making the system versatile and adaptable to future technological advancements.\n\nThese benefits collectively position the Charging Station for Mobile Device with Solar Panel as a superior and more sustainable alternative to existing charging solutions, offering both practical utility and environmental advantages.\n\nKeywords: key benefits, charging efficiency, cable-free, intelligent charging, sustainable power, battery health, future technology, US-9853489","question":"What are the key benefits of Charging Station for Mobile Device with Solar Panel?"},{"answer":"The **Charging Station for Mobile Device with Solar Panel** significantly differentiates itself from prior art by offering an active, intelligent, and spectrally optimized approach to indoor solar charging, which is largely absent in existing solutions.\n\n**Traditional Wired/Inductive Charging:** These methods rely on grid power and physical or electromagnetic connections. While effective, they lack any solar energy harvesting component and do not address sustainability or cable-free power from ambient sources. The invention provides an alternative power source that, while still drawing from the grid, uses that energy to activate the device's integrated solar cells in an optimized manner.\n\n**Passive Indoor Solar Charging:** This is the most relevant prior art. Many mobile devices have small integrated solar cells that attempt to charge using ambient room light. However, this method is highly inefficient due to two main reasons: 1) **Spectral Mismatch:** Indoor light's spectrum doesn't match the solar cell's optimal absorption, and 2) **Low Irradiance:** The light intensity is often too low for practical charging. The Charging Station for Mobile Device with Solar Panel directly overcomes these limitations by generating a *precisely tuned* and sufficiently intense light spectrum, actively optimizing the energy transfer.\n\n**Key Differentiators:**\n*   **Active vs. Passive:** Prior art for solar charging indoors is passive, relying on whatever light is available. This invention is active, creating the ideal light environment.\n*   **Spectrum Tuning:** No prior art charging solution for mobile devices offers the ability to precisely tune the light spectrum to match the solar cell's response, a core innovation of this patent.\n*   **Intelligent Control:** Features like proximity sensing (for 'on-demand' operation) and wireless communication (for adaptive charging based on device feedback) provide a level of intelligence and efficiency not found in basic ambient solar charging or even many conventional chargers.\n*   **Dual-Functionality:** The potential for LEDs to transmit data signals alongside power is a novel integration not seen in prior charging technologies.\n\nIn essence, the Charging Station for Mobile Device with Solar Panel transforms the concept of indoor solar charging from an aspirational but inefficient idea into a practical, intelligent, and highly effective solution, setting a new benchmark for mobile power management.\n\nKeywords: prior art, differentiation, spectral tuning, intelligent control, active charging, passive charging, wireless power, US-9853489","question":"How is Charging Station for Mobile Device with Solar Panel different from prior art?"},{"answer":"The **Charging Station for Mobile Device with Solar Panel** patent has the potential to significantly impact several industries, driving innovation and creating new market segments:\n\n1.  **Consumer Electronics:** This is the most direct impact. Mobile device manufacturers can confidently integrate or enhance solar cell capabilities in smartphones, tablets, and wearables, knowing that an efficient indoor charging ecosystem exists. It creates a new category of premium accessories and enhances the value proposition of solar-enabled devices.\n2.  **Smart Home & Office Technology:** The charging station can be seamlessly integrated into smart furniture (desks, nightstands, coffee tables) or dedicated smart charging hubs. This aligns with the growing trend of connected homes and offices, offering discreet, cable-free, and sustainable power solutions within living and working spaces.\n3.  **Hospitality & Retail:** Hotels, cafes, airports, and retail stores can offer these charging stations as a value-added amenity to customers. This enhances customer experience, promotes a modern image, and aligns with sustainability goals, attracting environmentally conscious patrons.\n4.  **Lighting Industry:** Companies in the LED and smart lighting sector could leverage this technology to develop advanced light sources that serve dual purposes: general illumination and optimized device charging, potentially even integrating Li-Fi capabilities.\n5.  **Renewable Energy & Sustainability:** By making indoor solar charging practical, the patent contributes to broader sustainability efforts, reducing reliance on traditional grid power for mobile devices and promoting green technology adoption.\n6.  **Furniture Manufacturing:** Manufacturers of home and office furniture can integrate this technology directly into their designs, creating 'smart furniture' that offers embedded charging capabilities.\n\nOverall, the Charging Station for Mobile Device with Solar Panel is poised to foster innovation across a diverse range of sectors, from personal gadgets to commercial infrastructure, by making efficient and intelligent indoor solar power a tangible reality.\n\nKeywords: industry impact, consumer electronics, smart home, smart office, hospitality, retail, lighting industry, renewable energy, furniture manufacturing, US-9853489","question":"What industries will Charging Station for Mobile Device with Solar Panel impact?"},{"answer":"The patent for **Charging Station for Mobile Device with Solar Panel**, identified as US-9853489, has specific dates associated with its filing and publication.\n\n*   **Filing Date:** The application for this patent was filed on **January 6, 2016**. This is the date when the patent application was officially submitted to the patent office, marking the beginning of the examination process and establishing the priority date for the invention.\n*   **Publication Date:** The patent was subsequently published, meaning the details of the invention were made publicly available, on **December 26, 2017**. This publication date often coincides with the date the patent is granted, or when the application is published after a certain period, regardless of grant status.\n\nFor a U.S. patent like US-9853489, the publication date typically signifies when the patent document became publicly accessible, often after it has been issued or granted. Therefore, December 26, 2017, is the date the invention, as described in the patent, became officially recognized and publicly disclosed. This timeline indicates that the invention was conceived and formally documented in the mid-2010s, reflecting contemporary challenges and advancements in mobile technology and sustainable energy solutions.\n\nKeywords: filing date, publication date, patent timeline, US-9853489, patent status, invention history, patent grant","question":"When was Charging Station for Mobile Device with Solar Panel filed/granted?"},{"answer":"The **Charging Station for Mobile Device with Solar Panel** offers a wide range of commercial applications across various sectors, driven by its unique ability to provide efficient and intelligent indoor solar charging:\n\n1.  **Consumer Market:** As a premium accessory for solar-enabled smartphones, tablets, and wearables. It can be marketed to tech enthusiasts, eco-conscious consumers, and those seeking clutter-free charging solutions at home or in personal offices.\n2.  **Smart Home Integration:** Integration into smart furniture (e.g., desks, nightstands, coffee tables) sold by furniture manufacturers or smart home technology companies. This creates a seamless, embedded charging experience within residential spaces.\n3.  **Commercial & Corporate Offices:** Deployment in corporate offices, co-working spaces, and meeting rooms. Companies can offer these stations as a perk for employees, reducing cable clutter and demonstrating a commitment to sustainability.\n4.  **Hospitality Industry:** Hotels, resorts, and cruise lines can install these stations in guest rooms, lobbies, and common areas as a modern, value-added amenity, enhancing guest satisfaction and promoting an innovative brand image.\n5.  **Retail & Public Venues:** Cafes, restaurants, libraries, airports, train stations, and shopping malls can provide these charging points as a free service to attract customers and improve their experience.\n6.  **Education Sector:** Universities and schools can integrate these into study areas, libraries, and common rooms, promoting sustainable practices among students.\n7.  **Transportation:** Integration into public transport (buses, trains) or ride-sharing vehicles to offer convenient charging for passengers.\n8.  **OEM Licensing:** The technology can be licensed to mobile device manufacturers to bundle with their solar-enabled devices, or to other tech companies looking to integrate the core innovation into their own product lines.\n\nThese applications highlight the versatility and broad market appeal of the Charging Station for Mobile Device with Solar Panel, positioning it as a key enabler for ubiquitous and sustainable mobile power.\n\nKeywords: commercial applications, market opportunities, smart home, corporate solutions, hospitality, retail, OEM licensing, sustainable products, US-9853489","question":"What are the commercial applications of Charging Station for Mobile Device with Solar Panel?"},{"answer":"The **Charging Station for Mobile Device with Solar Panel** patent lays a robust foundation for exciting future developments in mobile power and data communication. Several advancements can be expected:\n\n1.  **Enhanced Spectral Adaptability:** Future versions could feature even more sophisticated spectral tuning algorithms, potentially leveraging AI and machine learning to dynamically adapt the light spectrum in real-time based on continuous feedback from the mobile device's solar cells, optimizing for minute environmental changes or varying battery states. This would lead to even higher conversion efficiencies.\n2.  **Universal Compatibility:** Development of industry standards for communication protocols between charging stations and mobile devices would enable broader compatibility across different brands and solar cell technologies. This could lead to a 'universal' indoor solar charging standard, similar to Qi for inductive charging.\n3.  **Integrated Li-Fi Capabilities:** The patent already hints at using LEDs for both power and light communication signals. Future developments could fully integrate Li-Fi (Light Fidelity) technology, allowing the charging station to provide high-bandwidth, secure data connectivity alongside power delivery. This would create a truly converged power and data ecosystem.\n4.  **Scalability and Ubiquitous Integration:** The technology could be scaled and miniaturized for integration into a wider array of products and environments, beyond dedicated stations. Imagine smart windows that charge devices, or entire room lighting systems that double as intelligent solar chargers. This would create ubiquitous charging zones.\n5.  **Energy Storage Integration:** Future charging stations might include integrated energy storage solutions (e.g., advanced batteries or supercapacitors) to store excess energy from the grid (or other sources) and deliver it more efficiently, or even provide limited off-grid charging capabilities.\n6.  **Personalized Charging Profiles:** Users could define personalized charging preferences (e.g., 'fast charge,' 'battery health optimization,' 'eco-mode') that the intelligent station would execute.\n\nThese anticipated developments underscore the transformative potential of the Charging Station for Mobile Device with Solar Panel, pushing the boundaries of sustainable, intelligent, and integrated mobile power solutions.\n\nKeywords: future developments, Li-Fi, AI charging, universal standard, smart infrastructure, energy storage, personalized charging, mobile power evolution, US-9853489","question":"What are the future developments expected for Charging Station for Mobile Device with Solar Panel?"}],"topics":["charging station for mobile device with solar panel","solar charging","mobile device charging","indoor solar power","tuned light charging","technical","understanding","charging"],"tech_cluster":null},"seo":{"title":"Charging Station for Mobile Device with Solar Panel - Patent US-9853489","description":"Discover the Charging Station for Mobile Device with Solar Panel. This patent enables efficient indoor solar charging with tuned light, proximity sensors, and wireless control.","keywords":["charging station for mobile device with solar panel","solar charging","mobile device charging","indoor solar power","tuned light charging","wireless power transfer","proximity sensor","LED charging","sustainable technology","patent US-9853489","energy harvesting","smart charging"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853489","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-9853489","citation_suggestion":"Patentable. \"Charging station for mobile device with solar panel\" (US-9853489). https://patentable.app/patents/US-9853489","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853489","json":"https://patentable.app/api/llm-context/US-9853489","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T05:35:59.413Z"}