{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853554","patent":{"patent_number":"US-9853554","title":"Flyback converter and control circuit with standby mode","assignee":null,"inventors":[],"filing_date":"2016-05-12T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H02M","G06F","G06F","G06F","G06F","H02M","H02M"],"num_claims":15,"abstract":"The present invention provides a power converter, and a control circuit and a standby power saving method thereof. The power converter provides an output voltage from an output terminal through an enable switch circuit to a power receiver. A detection signal shows whether a voltage at a signal transmission pin of the power converter is in a predetermined range, if not, the enable switch circuit is turned OFF. The power converter adjusts a feedback signal according to the detection signal or according to the detection signal and the output voltage, so as to adjust the output voltage to be lower than a normal operation level in a normal operation mode, to save power in a standby mode."},"analysis":{"summary":"The Flyback Converter and Control Circuit with Standby Mode patent introduces a power converter design focused on minimizing standby power consumption. The core innovation lies in a voltage detection mechanism that monitors the voltage at a signal transmission pin. If the voltage falls outside a predetermined range, an enable switch circuit is turned off, cutting off power delivery. The system further adjusts the feedback signal based on the detection signal and/or output voltage, lowering the output voltage below normal operating levels during standby. This approach addresses the significant problem of energy waste from devices in standby mode. The key technical approach involves a combination of voltage detection, feedback adjustment, and enable switch control. This allows for precise management of power delivery, minimizing consumption when the device is not actively in use. The business value lies in reduced energy waste and lower electricity bills for consumers and businesses. This technology has applications in various sectors, including consumer electronics, industrial power supplies, and renewable energy systems. The market opportunity is substantial, driven by increasing demand for energy-efficient devices and growing awareness of the environmental impact of standby power consumption. This technology aligns with global efforts to reduce energy waste and promote sustainable practices, positioning it for significant growth in the coming years.","layman_explanation":"The Flyback Converter and Control Circuit with Standby Mode patent addresses the problem of energy waste in electronic devices when they are in standby mode – that is, when they are not actively being used but are still plugged in and consuming electricity. \n\n**What Problem Does This Solve?**\nMany electronic devices continue to draw power even when they appear to be turned off. This 'standby power' or 'phantom load' contributes significantly to overall energy consumption and, consequently, higher electricity bills. Existing solutions often fail to effectively minimize this standby power without negatively impacting the device's ability to quickly return to full operational mode when needed. The problem is that devices need to be ready to respond instantly when turned on, which requires maintaining some level of power consumption even when idle.\n\n**How Does It Work?**\nThis technology works by intelligently managing the power supply to the device. It's like having a smart valve that restricts the flow of water when it's not needed. The system monitors the voltage at a specific point in the device to determine whether it is in active use or in standby mode. When the device enters standby mode, the system reduces the voltage supplied to it, thereby reducing the amount of power it consumes. Think of it like dimming the lights in a room when no one is there. The key is that this reduction in voltage is done in a way that allows the device to quickly return to full power when it is turned back on. The Flyback Converter part of the name refers to a specific type of power converter circuit that is known for its efficiency and ability to handle a wide range of input voltages. The control circuit is the 'brain' of the system, making the decisions about when and how much to reduce the voltage.\n\n**Why Does This Matter?**\nThis technology has significant market impact and offers substantial opportunities for businesses. By reducing standby power consumption, it can lead to significant cost savings for consumers and businesses alike. This can be a major selling point for electronic devices, as consumers are increasingly concerned about energy efficiency. From a competitive standpoint, companies that incorporate this technology into their products can gain a significant advantage over those that do not. The potential ROI is high, as the cost of implementing this technology is relatively low compared to the savings it can generate over the lifespan of a device. \n\n**What's Next?**\nFuture applications of this technology could include integration into a wider range of electronic devices, as well as the development of even more sophisticated control algorithms to further reduce standby power consumption. The market adoption timeline is likely to be driven by regulatory requirements and consumer demand for energy-efficient products. Investment implications are positive, as companies that develop and commercialize this technology are likely to see strong growth in the coming years.","technical_analysis":"The Flyback Converter and Control Circuit with Standby Mode patent details a sophisticated power conversion system designed for minimal standby power consumption. The technical architecture centers around a flyback converter topology augmented with a voltage detection circuit and a feedback control loop. The voltage detection circuit monitors the voltage at a signal transmission pin. This pin serves as an indicator of the device's operational state (active or standby). If the detected voltage deviates from a predefined range, it signifies a transition to standby mode. Upon detecting standby mode, the enable switch circuit is triggered, effectively disconnecting the power supply from the load. Simultaneously, the feedback control loop adjusts the feedback signal based on the detection signal and/or the output voltage. This adjustment reduces the output voltage to a level lower than that required for normal operation, thereby minimizing power consumption. The implementation involves a combination of analog and digital circuitry. The voltage detection circuit typically employs a comparator or similar component to compare the detected voltage against a reference voltage. The feedback control loop utilizes a PID (proportional-integral-derivative) controller or similar algorithm to regulate the output voltage. The performance characteristics of the system are determined by the design parameters of the voltage detection circuit and the feedback control loop. The accuracy of the voltage detection circuit directly impacts the effectiveness of the standby power reduction. The stability and responsiveness of the feedback control loop influence the system's ability to quickly resume normal operation when needed. Code-level implications primarily involve the firmware or software used to control the digital components of the system, such as the PID controller. Optimization of this code is crucial for achieving optimal performance and minimizing power consumption.","business_analysis":"The Flyback Converter and Control Circuit with Standby Mode patent presents a significant business opportunity in the rapidly growing market for energy-efficient power solutions. The market opportunity size is substantial, driven by increasing demand for electronic devices with lower standby power consumption. This demand is fueled by rising energy costs, stricter regulatory requirements, and growing consumer awareness of environmental issues. The competitive advantages of this technology include its ability to precisely control output voltage and minimize standby power consumption. This translates to lower energy bills for consumers and reduced operating costs for businesses. Furthermore, the technology's scalability and adaptability make it suitable for a wide range of applications, from consumer electronics to industrial power supplies. The revenue potential is significant, with multiple potential business models. These include licensing the technology to manufacturers of electronic devices, developing and selling integrated circuits incorporating the technology, and offering consulting services to help companies implement the technology in their products. The strategic positioning of this technology is strong, aligning with global trends towards energy efficiency and sustainability. This positions the assignee for long-term growth and success. ROI projections are highly favorable, with the potential for significant returns on investment driven by strong market demand and competitive advantages. The ability to reduce standby power consumption translates to tangible cost savings for consumers and businesses, making this technology a compelling value proposition.","faqs":null,"topics":["flyback converter","standby power","energy efficiency","power management","power converter","technical","flyback","converter"],"tech_cluster":null},"seo":{"title":"Flyback Converter and Control Circuit with Standby Mode - Patent US-9853554","description":"Discover how the Flyback Converter and Control Circuit with Standby Mode slashes standby power consumption. Full patent analysis, claims, and technical details.","keywords":["flyback converter","standby power","energy efficiency","power management","power converter","patent","patent US-9853554"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853554","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-9853554","citation_suggestion":"Patentable. \"Flyback converter and control circuit with standby mode\" (US-9853554). https://patentable.app/patents/US-9853554","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853554","json":"https://patentable.app/api/llm-context/US-9853554","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T08:18:48.105Z"}