{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853549","patent":{"patent_number":"US-9853549","title":"Boost-buck converting circuit, power management module and liquid crystal driving device","assignee":null,"inventors":[],"filing_date":"2015-04-21T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H02M","H02M","G09G","G09G","G09G","H02M","H02M"],"num_claims":7,"abstract":"The disclosure is related to a boost-buck converting circuit, a power management module and a liquid crystal driving device. The boost-buck converting circuit comprises a voltage converting module and a switching module. The voltage converting module boosts an input voltage to obtain the analog supply voltage VAA or bucks the input voltage to obtain the digital supply voltage DVDD. The switching module controls the voltage converting module to boost or buck the input voltage. The embodiment of the disclosure shares a circuit set to generate the analog supply voltage VAA and the digital supply voltage DVDD. The structure of the circuit is not complicated and requires fewer components. The embodiment of the disclosure reduces the production costs and saves the area using of the panel."},"analysis":{"summary":"The Boost-buck Converting Circuit, Power Management Module and Liquid Crystal Driving Device patent presents a novel approach to power management in liquid crystal displays (LCDs). The core innovation is a shared circuit architecture that generates both analog (VAA) and digital (DVDD) supply voltages from a single voltage converting module, controlled by a switching module. This eliminates the need for separate boost and buck circuits, reducing component count, production costs, and panel area.\n\nThe problem being solved is the inefficiency and complexity of traditional LCD power management systems, which require separate circuits for boosting and bucking voltages. This leads to increased component count, higher costs, and larger device sizes. The key technical approach involves a voltage converting module capable of both boosting and bucking, controlled by a switching module that dynamically selects the appropriate voltage conversion mode.\n\nThe business value lies in the reduced production costs, smaller device sizes, and improved power efficiency enabled by this technology. This can lead to more competitive LCD products with longer battery life and lower overall costs. The market opportunity is significant, as LCDs are used in a wide range of devices, including smartphones, tablets, laptops, and televisions. By incorporating this technology, manufacturers can gain a competitive advantage and capture a larger share of the market.","layman_explanation":"The Boost-buck Converting Circuit, Power Management Module and Liquid Crystal Driving Device patent addresses the challenge of efficiently powering liquid crystal displays (LCDs). LCDs require two different voltage levels: an analog voltage (VAA) and a digital voltage (DVDD). Traditionally, these voltages are generated using separate circuits, which adds complexity, cost, and size to the overall system.\n\n**1. What Problem Does This Solve?**\nLCDs need two different power levels. Existing solutions use separate circuits for each, leading to more parts, higher costs, and bulkier devices. This patent solves this problem by creating a single circuit that can generate both power levels.\n\n**2. How Does It Work?**\nImagine you have a water pump that can either push water uphill (boosting the pressure) or let water flow downhill (reducing the pressure). This patent is like that pump. It uses a single circuit that can either increase the voltage (boost) or decrease the voltage (buck), depending on what the LCD needs at that moment. This is all controlled by a smart switch that tells the circuit when to boost or buck the voltage. By sharing the same circuit for both tasks, it eliminates the need for duplicate parts and simplifies the design.\n\n**3. Why Does This Matter?**\nThis innovation has several important benefits. First, it reduces the number of components needed, which lowers the cost of manufacturing LCDs. Second, it allows for smaller and more compact devices, as the power supply takes up less space. Third, it can improve the energy efficiency of LCDs, leading to longer battery life for portable devices. This gives companies a competitive edge in the market, leading to greater profitability.\n\n**4. What's Next?**\nThis technology can be further developed and applied to other types of displays, such as OLED and microLED. It can also be integrated into power management chips to create even more efficient and compact power supplies. The widespread adoption of this technology could lead to significant improvements in the performance and cost of electronic devices.","technical_analysis":"The Boost-buck Converting Circuit, Power Management Module and Liquid Crystal Driving Device patent details a system for generating both analog (VAA) and digital (DVDD) supply voltages for liquid crystal displays (LCDs) using a shared circuit architecture. The system comprises a voltage converting module and a switching module. The voltage converting module is designed to either boost the input voltage to obtain VAA or buck the input voltage to obtain DVDD. The switching module controls the voltage converting module to switch between boosting and bucking modes.\n\nThe technical architecture relies on a carefully designed switching module that can rapidly and accurately switch between boosting and bucking modes. This requires precise control algorithms and optimized component selection to minimize switching losses and ensure stable output voltages. The voltage converting module must also be designed to efficiently operate in both boosting and bucking modes, minimizing losses and maximizing efficiency across the entire operating range.\n\nImplementation details involve the selection of appropriate switching frequencies, inductor and capacitor values, and control loop parameters. The switching frequency must be chosen to balance switching losses with ripple voltage requirements. The inductor and capacitor values must be selected to provide stable output voltages and minimize transient response times. The control loop parameters must be tuned to ensure stable operation and prevent oscillations.\n\nIntegration patterns involve incorporating this boost-buck converting circuit into a power management integrated circuit (PMIC). This allows for a highly integrated and efficient power management solution for LCDs. Performance characteristics include high power efficiency, low output ripple, and fast transient response times. Code-level implications involve the development of control algorithms for the switching module and the voltage converting module. These algorithms must be optimized for efficiency, stability, and performance.","business_analysis":"The Boost-buck Converting Circuit, Power Management Module and Liquid Crystal Driving Device patent presents a significant business opportunity in the LCD market. The market for LCDs is large and growing, driven by the increasing demand for smartphones, tablets, laptops, and televisions. The key business advantage of this technology is its ability to reduce production costs, improve power efficiency, and enable smaller device sizes.\n\nThe market opportunity size is substantial, as LCDs are used in a wide range of devices. The competitive advantage lies in the shared circuit architecture, which reduces component count and simplifies the manufacturing process. This translates to lower production costs and a more competitive product. The revenue potential is significant, as manufacturers can sell more LCDs at a lower price point, while still maintaining a healthy profit margin.\n\nBusiness models include licensing the technology to LCD manufacturers or incorporating it into power management integrated circuits (PMICs). Strategic positioning involves targeting the high-volume LCD market, where cost and efficiency are critical factors. ROI projections indicate a high return on investment, as the technology can significantly reduce production costs and improve product performance.","faqs":null,"topics":["boost-buck converter","power management","LCD driving","voltage conversion","power efficiency"],"tech_cluster":null},"seo":{"title":"Boost-buck Converting Circuit, Power Management Module and Liquid Crystal Driving Device - Patent US-9853549","description":"Discover the Boost-buck Converting Circuit, Power Management Module and Liquid Crystal Driving Device, a revolutionary power management solution for LCDs. Explore its efficient voltage conversion and cost-saving benefits.","keywords":["boost-buck converter","power management","LCD driving","voltage conversion","power efficiency"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853549","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-9853549","citation_suggestion":"Patentable. \"Boost-buck converting circuit, power management module and liquid crystal driving device\" (US-9853549). https://patentable.app/patents/US-9853549","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853549","json":"https://patentable.app/api/llm-context/US-9853549","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T05:35:05.321Z"}