{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9854540","patent":{"patent_number":"US-9854540","title":"Mobile communication device and radiated power adjusting method thereof","assignee":null,"inventors":[],"filing_date":"2013-11-26T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H04W","H04B","H04W"],"num_claims":15,"abstract":"A mobile communication device and a radiated power adjusting method thereof are provided. The mobile communication device includes an antenna, a signal measurement module, a proximity sensing module and a controlling module. The antenna receives a radio-frequency signal, and the signal measurement module is coupled to the antenna and measures a signal parameter of the radio-frequency signal. The proximity sensing module is switched between an activation mode and an original detection mode according to existence of an object, wherein a sensing conductor is configured adjacent to an adjusted antenna. The controlling module is coupled to the signal measurement module and the proximity sensing module, and the controlling module adjusts the radiated power of the adjusted antenna. When the signal parameter decreases more than a threshold value and the proximity sensing module is in the activation mode, the controlling module reduces the radiated power of the adjusted antenna."},"analysis":{"summary":"The Mobile Communication Device and Radiated Power Adjusting Method Thereof patent introduces an innovative solution for managing radiated power in mobile devices. The core innovation lies in its ability to dynamically adjust the radiated power of an antenna based on both signal parameters and proximity sensing. This addresses the problem of potential health risks associated with prolonged exposure to radio-frequency radiation from mobile devices, while also optimizing device performance and battery life.\n\nThe key technical approach involves integrating an antenna, a signal measurement module, a proximity sensing module, and a controlling module. The antenna receives radio-frequency signals, and the signal measurement module analyzes their parameters. The proximity sensing module detects the presence of nearby objects. The controlling module then adjusts the radiated power based on the data from these modules, reducing power when the signal parameter decreases and an object is detected nearby.\n\nThe business value of this technology lies in its potential to improve user safety, enhance device performance, and differentiate mobile devices in a competitive market. By mitigating potential health risks, this innovation can attract health-conscious consumers and enhance brand reputation. The technology also offers a market opportunity for mobile device manufacturers to incorporate advanced radiation management features into their products, creating a competitive advantage. The increased battery life resulting from reduced radiated power further adds to the appeal of devices incorporating this technology.\n\nThe market opportunity for this technology is substantial, given the widespread use of mobile devices and the growing awareness of potential health risks associated with radio-frequency radiation. As consumers become more informed and concerned about their health, the demand for mobile devices with advanced radiation management features is likely to increase. This patent provides a robust and adaptive solution for addressing this demand, positioning it as a valuable asset for mobile device manufacturers and technology companies. The technology also has potential applications in other areas, such as wearable devices and IoT communication modules, expanding its market reach and potential impact.","layman_explanation":"The Mobile Communication Device and Radiated Power Adjusting Method Thereof patent addresses the growing concern about potential health risks associated with radio-frequency radiation emitted by mobile devices. The problem is that mobile phones, while essential for communication, constantly emit radio waves to connect to cellular networks. When these devices are held close to the body for extended periods, there's a concern about the potential long-term effects of this radiation exposure. Existing solutions often involve blanket regulations on maximum radiation output, but these don't account for how the device is being used.\n\nThis technology works by incorporating sensors that detect when the phone is close to the user's body. Think of it like the parking sensors in your car that beep when you're getting too close to an object. When the phone senses it's close to you, it automatically reduces the amount of radio waves it emits. It's like turning down the volume on a radio when you're standing right next to it. This doesn't mean the phone stops working; it simply adjusts the power output to a lower level that's still effective for communication but reduces your exposure.\n\nThis matters because it offers a practical way to mitigate potential health risks without sacrificing the functionality of mobile devices. It gives users peace of mind knowing that their device is proactively managing radiation exposure. From a business perspective, this technology can be a significant differentiator for mobile device manufacturers. It allows them to market their products as safer and more user-friendly, potentially attracting a large segment of health-conscious consumers. The competitive advantages include increased brand loyalty, higher sales, and a positive impact on public perception.\n\nLooking ahead, this technology could be integrated into a wide range of mobile devices, including smartphones, tablets, and wearable devices. As concerns about radiation exposure continue to grow, the adoption of this technology is likely to increase. The market adoption timeline will depend on factors such as regulatory approvals, consumer demand, and the willingness of manufacturers to invest in this technology. For investors, this presents an opportunity to support companies that are leading the way in mobile safety and innovation.","technical_analysis":"The Mobile Communication Device and Radiated Power Adjusting Method Thereof patent presents a technically sophisticated approach to managing radiated power in mobile devices. The system's architecture is designed to dynamically adjust radiated power based on real-time signal parameters and proximity sensing, offering a more adaptive and efficient solution than traditional static power limitations. The core components include an antenna, a signal measurement module, a proximity sensing module, and a controlling module.\n\nThe signal measurement module is crucial for assessing the quality and strength of the radio-frequency signal. This module likely employs techniques such as signal-to-noise ratio (SNR) measurement and bit error rate (BER) analysis to determine the signal's integrity. The proximity sensing module, positioned near the adjusted antenna, uses capacitive or infrared sensors to detect the presence of nearby objects. The sensitivity and accuracy of this module are critical for avoiding false positives and ensuring that power reduction is triggered only when necessary.\n\nThe controlling module is the central processing unit of the system, implementing algorithms to analyze the data from the signal measurement and proximity sensing modules. When the signal parameter decreases below a predefined threshold and an object is detected nearby, the controlling module reduces the radiated power. This reduction is likely achieved through techniques such as power amplifier control or antenna impedance matching. The specific implementation details of these techniques are not explicitly described in the patent but would be crucial for optimizing the system's performance.\n\nIntegration patterns for this technology would involve close collaboration between hardware and software engineers. The hardware components, such as the antenna, sensors, and power amplifier, must be carefully selected and integrated to ensure optimal performance. The software algorithms, implemented in the controlling module, must be finely tuned to balance power reduction with communication quality. Performance characteristics would depend on factors such as the sensitivity of the proximity sensor, the accuracy of the signal measurement module, and the efficiency of the power control algorithms. Code-level implications would involve implementing the control algorithms in a low-power, real-time operating system to minimize the impact on battery life. The patent describes a system where the proximity sensing module is switched between an activation mode and an original detection mode, where a sensing conductor is configured adjacent to the adjusted antenna.","business_analysis":"The Mobile Communication Device and Radiated Power Adjusting Method Thereof patent presents a significant business opportunity within the mobile device and wireless communication industries. The market opportunity size is substantial, driven by increasing consumer awareness of potential health risks associated with mobile phone radiation and the growing demand for safer and more efficient mobile devices. This patent offers a competitive advantage to manufacturers who incorporate this technology into their products. By offering devices with reduced radiation exposure, these manufacturers can differentiate themselves in the market and attract health-conscious consumers.\n\nThe revenue potential for this technology is significant. Mobile device manufacturers can license the patent or integrate the technology directly into their products, generating revenue through increased sales and market share. Additionally, the technology can be offered as a premium feature, commanding a higher price point. Business models can include direct licensing agreements, royalty-based partnerships, or the development of proprietary mobile devices incorporating the technology.\n\nFrom a strategic positioning perspective, this patent allows companies to position themselves as leaders in mobile safety and innovation. By proactively addressing consumer concerns about radiation exposure, companies can build trust and loyalty with their customers. The technology also aligns with the growing trend towards sustainable and energy-efficient mobile devices, further enhancing their market appeal. ROI projections indicate that the investment in this technology can yield significant returns, driven by increased sales, market share gains, and enhanced brand reputation. The competitive advantages offered by this technology make it a valuable asset for companies seeking to capitalize on the growing demand for safer and more efficient mobile communication devices.","faqs":null,"topics":["mobile communication"],"tech_cluster":null},"seo":{"title":"Mobile Communication Device and Radiated Power Adjusting Method Thereof - Patent US-9854540","description":"Discover how this innovative mobile communication device reduces radiation exposure. Full patent analysis, claims, and technical details available.","keywords":["mobile communication"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9854540","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-9854540","citation_suggestion":"Patentable. \"Mobile communication device and radiated power adjusting method thereof\" (US-9854540). https://patentable.app/patents/US-9854540","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9854540","json":"https://patentable.app/api/llm-context/US-9854540","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-05-30T21:20:34.100Z"}