{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853545","patent":{"patent_number":"US-9853545","title":"Power regulator having current and voltage modes","assignee":null,"inventors":[],"filing_date":"2015-06-30T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H02M","H02M"],"num_claims":20,"abstract":"A power supply is configured to automatically and rapidly switch from a voltage maintaining mode to a current limiting mode (at times that are unpredictable from a point of view of the power supply) when supplying replenishing current to a combination of a power insulated gate switching device and power capacitor that drive relatively large surges of pulsed power through a load such as a laser emitter of a Time of Flight (TOF) determining system. The current limiting mode is automatically activated by the start of each train of large surges of pulsed power and it replenishes charge to the power capacitor on a time averaged basis such that the capacitor develops a temperature appropriate voltage for providing the time averaged current to the power insulated gate switching device and its load and causing the load (e.g., laser) to output a desired amount of output power. The current limiting mode automatically stops when the time averaged current is detected to drop below a threshold and then the voltage maintaining mode automatically begins. The voltage maintaining mode maintains a stored voltage across the capacitor slightly greater than a maximum voltage needed to drive the load (e.g., laser emitter) to the desired magnitude of output power (e.g., output luminance)."},"analysis":{"summary":"The Power Regulator Having Current and Voltage Modes patent describes a power supply system designed to automatically and rapidly switch between voltage maintaining and current limiting modes, particularly for applications involving pulsed power loads such as laser emitters in Time of Flight (TOF) systems. The problem being solved is the inefficiency and instability of traditional power supplies when dealing with devices that require rapid switching between these modes. The technology employs a power capacitor and a power insulated gate switching device to manage power surges. The current limiting mode replenishes charge to the power capacitor on a time-averaged basis, ensuring the capacitor maintains the appropriate voltage. When the time-averaged current drops below a threshold, the system switches to voltage maintaining mode, keeping the capacitor voltage slightly above the maximum needed for the load. This innovation enhances the performance and longevity of devices reliant on pulsed power, offering a more efficient, reliable, and adaptable power management solution. The market opportunity lies in industries such as laser technology, medical devices, and advanced sensing systems, where precise and dynamic power management is critical.","layman_explanation":"The Power Regulator Having Current and Voltage Modes addresses the challenge of providing stable and efficient power to devices that require rapid changes in power demand, such as lasers used in Time of Flight (TOF) systems. Existing power supplies often struggle to adapt to these dynamic demands, leading to inefficiencies and potential damage to sensitive components. This patent offers a solution by implementing a system that can intelligently switch between voltage maintenance and current limiting modes.\n\nImagine a car that needs a burst of speed to climb a hill and then needs to maintain a steady speed on a flat road. Traditional power supplies are like cars with only one gear – they can either provide a lot of power or a little, but not both efficiently. This invention is like a car with automatic transmission – it can seamlessly switch between high and low gears to provide the right amount of power at all times.\n\nThe system works by using a power capacitor to store energy and a power insulated gate switching device to regulate the flow of power. When the device needs a burst of power, the system switches to current limiting mode, which replenishes the charge to the power capacitor. When the device needs to maintain a steady power level, the system switches to voltage maintaining mode. This ensures that the device always receives the optimal amount of power, regardless of its current demand.\n\nThis matters because it can improve the performance and longevity of devices that rely on pulsed power, such as lasers and medical equipment. It can also reduce energy consumption and lower operating costs. The market impact is potentially significant, as it can enable new applications and improve the efficiency of existing ones. This technology could be adopted by manufacturers of power supplies, laser systems, medical devices, and other equipment that require dynamic power management.\n\nFuture applications could include advanced sensing systems, industrial automation, and electric vehicles. The market adoption timeline will depend on factors such as regulatory approvals, technology development, and market demand. Investment implications are positive, as this technology offers a clear competitive advantage and the potential for significant ROI.","technical_analysis":"The Power Regulator Having Current and Voltage Modes patent introduces a sophisticated power supply architecture designed for pulsed power applications. The system's core innovation lies in its ability to automatically and rapidly switch between voltage maintaining and current limiting modes. Technically, this is achieved through a combination of hardware components and control algorithms. The system incorporates a power capacitor to store energy and a power insulated gate switching device to regulate power flow. The switching mechanism is controlled by a feedback loop that monitors the time-averaged current and voltage levels. When the system detects the start of a train of large surges, it activates the current limiting mode, which replenishes charge to the power capacitor on a time-averaged basis. This ensures that the capacitor maintains the appropriate voltage for driving the load. The control algorithm monitors the time-averaged current and switches to voltage maintaining mode when the current drops below a predefined threshold. In this mode, the system maintains a stored voltage across the capacitor slightly greater than the maximum voltage needed to drive the load. This approach provides several technical advantages, including improved power efficiency, reduced power instability, and enhanced system reliability. The system's architecture allows for precise control of power delivery, ensuring that the load receives the optimal amount of power at all times. The automatic switching mechanism eliminates the need for manual adjustments, simplifying system operation and reducing the risk of human error. From a code-level perspective, the control algorithms would likely be implemented using embedded software running on a microcontroller. The software would need to be carefully optimized to ensure rapid response times and accurate control of the switching mechanism. The implementation would also need to consider factors such as thermal management and component selection to ensure long-term reliability.","business_analysis":"The Power Regulator Having Current and Voltage Modes patent presents a significant business opportunity in the market for power supply solutions, particularly for applications involving pulsed power loads. The market for these applications, including laser technology, medical devices, and advanced sensing systems, is substantial and growing. The competitive advantage of this innovation lies in its ability to automatically and rapidly switch between voltage maintaining and current limiting modes, providing improved power efficiency, reduced power instability, and enhanced system reliability. The revenue potential for this technology is significant. The device described in the patent filing can be licensed to manufacturers of power supplies and incorporated into their products. Alternatively, the technology can be used to develop new power supply products that are specifically designed for pulsed power applications. The business model could involve a combination of licensing fees and product sales. The strategic positioning of this technology is strong. It addresses a key need in the market for power supply solutions and offers a clear competitive advantage over existing solutions. The technology is also protected by a patent, which provides a legal barrier to entry for competitors. ROI projections for this technology are favorable. The development costs are relatively low, and the market potential is high. The technology can be commercialized quickly and generate significant revenue within a few years. The Power Regulator Having Current and Voltage Modes can enable new business models by providing more reliable power to devices. This could enable new applications and services that were previously impossible.","faqs":null,"topics":["power regulator","current limiting","voltage maintaining","pulsed power","laser emitter","technical","power","regulator"],"tech_cluster":null},"seo":{"title":"Power Regulator Having Current and Voltage Modes - Patent US-9853545","description":"Discover the Power Regulator Having Current and Voltage Modes patent, revolutionizing power management with automatic voltage/current mode switching. Full analysis & claims.","keywords":["power regulator","current limiting","voltage maintaining","pulsed power","laser emitter","patent","patent US-9853545","TOF system","power management","automatic switching"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853545","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-9853545","citation_suggestion":"Patentable. \"Power regulator having current and voltage modes\" (US-9853545). https://patentable.app/patents/US-9853545","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853545","json":"https://patentable.app/api/llm-context/US-9853545","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T11:09:13.712Z"}