{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853379","patent":{"patent_number":"US-9853379","title":"Cartridge","assignee":null,"inventors":[],"filing_date":"2017-01-05T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["A63F","G06F","G06F","G06F","A63F"],"num_claims":26,"abstract":"A terminal placement region of the cartridge is divided into an upper region and a lower region, and the cartridge includes a plurality of terminals placed in the upper region, a plurality of terminals placed in the lower region, and a plurality of long terminals across the upper region and the lower region. The long terminals are a ground terminal, a chip-enable terminal, a power supply terminal, or a reset terminal. A strobe terminal and a clock terminal are arranged one above the other. Two data input/output terminals are arranged one above the other, and four sets of data input/output terminals arranged one above the other are present. A long terminal is near the strobe terminal and the clock terminal arranged one above the other, and a long terminal is near the two data input/output terminals arranged one above the other."},"analysis":{"summary":"The 'Cartridge' patent (US-9853379) introduces a novel and highly optimized terminal arrangement for electronic cartridges, aiming to significantly enhance signal integrity, power delivery, and overall reliability in compact electronic modules. The core innovation lies in dividing the terminal placement region into an upper and a lower segment, coupled with the strategic implementation of 'long terminals' that traverse both regions. These long terminals are specifically designated for critical functions such as ground, chip-enable, power supply, or reset, providing robust and low-impedance pathways essential for stable operation.\n\nThe patent further details a precise vertical stacking of crucial signal terminals. Strobe and clock terminals are arranged one above the other, a design choice that minimizes timing skew and signal interference. Similarly, data input/output terminals are also stacked, with four sets of these vertical pairs. A key aspect of this design is the deliberate proximity of these long terminals to the stacked strobe, clock, and data lines. This strategic placement acts as a localized shielding and ground reference, effectively mitigating crosstalk and noise, which are common issues in high-density interconnects.\n\nThis technical approach resolves long-standing problems associated with signal degradation and power stability in compact electronic systems. By optimizing the physical layout of terminals, the patent enables higher data rates, reduced error rates, and more consistent performance for modules. From a business perspective, the Cartridge patent offers manufacturers a competitive advantage by allowing for the creation of more reliable, higher-performing, and potentially smaller electronic devices. This translates into opportunities across various industries, including consumer electronics, industrial IoT, and embedded systems, where robust and efficient module connectivity is paramount. The market opportunity lies in providing a foundational technology for next-generation modular computing and data storage solutions, promising improved user experience and operational efficiency.","layman_explanation":"### What Problem Does This Solve?\n\nImagine you're building a highly intricate electronic device, perhaps a new smartphone or a compact computing module for a smart factory. Inside these devices, there are hundreds, if not thousands, of tiny electrical connections, or 'terminals,' that allow different components to communicate and receive power. The challenge is that as devices get smaller and more powerful, these terminals become incredibly crowded. When they're too close or poorly organized, they can 'talk over' each other (known as signal interference or crosstalk), lose power along the way (voltage drop), or simply become unreliable and break easily when the device is used or moved. This leads to frustrating glitches, slower performance, and costly product failures. Existing solutions often involve trade-offs: either sacrificing space for better performance or compromising reliability for a smaller size. The market desperately needs a way to achieve both high performance and robust reliability in a compact form factor.\n\n### How Does It Work?\n\nThe 'Cartridge' patent (US-9853379) addresses this by introducing a brilliantly organized system for these tiny electrical connections. Think of it like a highly efficient, multi-story parking garage for connections. Instead of a chaotic jumble, the patent divides the connection area into two main 'floors' or regions: an upper and a lower. The real innovation comes with what it calls 'long terminals.' These aren't just short wires; they are strategically designed to stretch across *both* the upper and lower regions, like strong, dedicated express lanes for the most critical functions. These 'express lanes' are used for things like providing steady power, ensuring a stable ground (like an electrical safety net), or controlling when a part of the device turns on or off. Because they span both regions, they provide a much more stable and reliable connection for these vital functions.\n\nFurthermore, for signals that need to be perfectly synchronized, like a 'strobe' signal that tells data when to move and a 'clock' signal that keeps everything in time, this patent stacks them directly one above the other. It does the same for pairs of data input/output terminals. This vertical stacking is like having perfectly aligned, dedicated communication channels. Crucially, one of those 'long terminals' (our express lane) is deliberately placed right next to these stacked communication channels. This acts like a protective shield or a dedicated return path, preventing the signals from interfering with each other and ensuring clear, fast communication. It's an elegant solution that achieves maximum efficiency and reliability in a minimal space.\n\n### Why Does This Matter?\n\nThis innovation matters because it offers a significant leap forward in the design of compact electronic modules. For businesses, this means products can be built to be more reliable, faster, and more durable. Imagine a new generation of portable devices that rarely glitch, industrial sensors that provide consistent data without interruption, or gaming consoles with even more seamless performance. This patent provides a foundational technology that can reduce manufacturing complexity and costs by inherently solving signal integrity issues at the hardware level. Companies adopting this technology can gain a strong competitive edge, offering superior products that are less prone to failure and deliver a better user experience. It opens doors for creating entirely new product categories that were previously limited by the capabilities of older interconnect technologies, leading to new market opportunities and increased revenue streams. This technology helps future-proof product designs against the ever-increasing demands for miniaturization and performance.\n\n### What's Next?\n\nThe Cartridge patent is poised to influence a wide array of industries. We can expect to see its principles adopted in next-generation memory modules, advanced embedded systems for AI and machine learning, and high-performance computing in compact form factors. As the demand for robust, high-speed, and miniaturized electronics continues to grow, this technology will become increasingly critical. Investment in companies leveraging this approach could see strong returns as they capitalize on the improved reliability and performance it enables, potentially setting new industry standards for modular component design. Its adoption timeline will likely accelerate as manufacturers seek to differentiate their products in a competitive global market.","technical_analysis":"The 'Cartridge' patent (US-9853379) presents a sophisticated terminal architecture designed to overcome critical signal integrity and power delivery challenges inherent in high-density electronic modules. This innovation focuses on a meticulously organized terminal placement region, fundamentally enhancing the electrical and mechanical robustness of the cartridge interface.\n\n**Technical Architecture and Terminal Segmentation:** The patent describes a terminal placement region that is conceptually and physically segmented into an upper region and a lower region. This division allows for a structured approach to terminal arrangement. A cornerstone of this architecture is the inclusion of a plurality of 'long terminals' that are specifically designed to extend across both the upper and lower regions. These long terminals are designated for critical functions: ground (GND), chip-enable (CE), power supply (VCC/VDD), or reset (RST). The significance of these long terminals is multifaceted: they provide exceptionally stable and low-impedance pathways, crucial for minimizing voltage drops and ground bounce, thereby ensuring consistent power delivery and reliable reference planes across the entire module. Their extended length also inherently provides better mechanical stability and contact area, reducing susceptibility to intermittent connections.\n\n**Algorithm and Signal Routing Optimization:** While not explicitly an 'algorithm' in the software sense, the terminal placement described in the Cartridge patent follows a highly optimized design strategy. The arrangement of the strobe (STRB) terminal and the clock (CLK) terminal, positioned one above the other, is a key aspect. This vertical stacking is a deliberate choice to minimize differential signal path lengths and reduce timing skew between these synchronous signals, which is vital for high-speed data transfer. Similarly, two data input/output (DIO) terminals are arranged one above the other, with the patent specifying four sets of such vertically stacked DIO pairs. This compact, stacked arrangement conserves space while aiming to maintain signal quality.\n\n**Crosstalk Mitigation and Integration Patterns:** A critical innovation for signal integrity is the strategic placement of the long terminals in proximity to the high-speed signal lines. The patent states that a long terminal is near the stacked strobe and clock terminals, and another long terminal is near the stacked data input/output terminals. This proximity serves a vital function: the long terminals, particularly if designated as ground, act as localized shielding and provide dedicated low-impedance return paths. This effectively mitigates crosstalk between adjacent high-frequency signal lines and reduces susceptibility to external electromagnetic interference (EMI). This integration pattern simplifies the design considerations for both the cartridge and the host connector, as the terminal layout inherently provides elements of signal conditioning and noise reduction.\n\n**Performance Characteristics and Code-Level Implications:** The enhanced signal integrity resulting from this terminal arrangement directly translates to improved performance characteristics. Higher data transfer rates can be achieved with fewer errors due to reduced noise and crosstalk. The stable power and ground connections ensure consistent voltage levels, which is crucial for the reliable operation of sensitive digital logic within the cartridge. From a code-level perspective, this robust physical layer can reduce the need for complex error correction algorithms at higher protocol layers, potentially simplifying firmware and drivers, and reducing processing overhead. This allows developers to focus more on application logic rather than battling hardware-level signal issues. The robust design also implies a longer operational lifespan and greater resilience in various environmental conditions.\n\nIn summary, the Cartridge patent offers a technically sound and innovative solution for high-density interconnects, providing a foundation for next-generation electronic modules that are smaller, faster, and significantly more reliable.","business_analysis":"The 'Cartridge' patent (US-9853379) introduces a sophisticated terminal architecture that holds significant potential for market disruption and creates compelling business opportunities across various sectors. This innovation addresses fundamental challenges in electronic module design, offering clear competitive advantages and substantial revenue potential.\n\n**Market Opportunity Size:** The market for electronic modules and connectors is vast and continuously expanding, driven by the proliferation of IoT devices, modular computing, consumer electronics, and industrial automation. Any innovation that significantly enhances the reliability, performance, and compactness of these interconnects can capture a substantial share of this market. The Cartridge patent's focus on signal integrity and power stability positions it to serve high-growth segments requiring robust, high-speed data transfer in confined spaces, such as embedded systems, gaming consoles, medical devices, and advanced automotive electronics. The total addressable market for connectors alone is in the tens of billions, with performance and density being key differentiators.\n\n**Competitive Advantages:** This patent provides several distinct competitive advantages. Firstly, the 'long terminals' for ground, power, and control signals offer superior electrical stability and lower impedance compared to conventional designs, leading to enhanced signal integrity and reduced power fluctuations. This translates into more reliable products and potentially longer operational lifespans. Secondly, the strategic stacking of strobe, clock, and data input/output terminals, coupled with the proximity of long terminals, significantly mitigates crosstalk and electromagnetic interference (EMI). This allows for higher data rates and more compact designs without compromising performance, a crucial differentiator in a crowded market. Companies licensing or implementing this technology can offer modules that outperform competitors in terms of speed, reliability, and physical footprint.\n\n**Revenue Potential and Business Models:** Revenue generation from the Cartridge patent could manifest through several business models. Licensing the technology to module manufacturers, connector suppliers, and device OEMs represents a primary avenue. This could involve per-unit royalties or fixed licensing fees. Alternatively, a company could develop and manufacture its own line of 'Cartridge-enabled' modules or connectors, positioning itself as a premium supplier. The enhanced performance and reliability could command higher price points, while the potential for simplified manufacturing (due to inherent signal integrity) could improve profit margins. The innovation could also be a cornerstone for new product development in specialized markets requiring ultra-reliable, high-density interconnects, such as defense or aerospace.\n\n**Strategic Positioning:** Adopting the technology described in the Cartridge patent allows companies to strategically position themselves as leaders in high-performance, compact electronic module design. It enables them to differentiate their products based on superior signal integrity, power efficiency, and mechanical robustness. This strategic positioning can attract key partnerships, secure larger contracts, and build a reputation for cutting-edge engineering. For companies operating in competitive markets, this patent offers a critical tool for product innovation and market leadership.\n\n**ROI Projections:** The return on investment for companies leveraging this patent could be substantial. Reduced product returns due to improved reliability, faster time-to-market due to simplified design, and the ability to capture premium market segments all contribute to a strong ROI. Furthermore, the patent helps future-proof product lines by providing an architecture capable of supporting increasing data rates and miniaturization trends, ensuring long-term relevance and sustained growth.","faqs":[{"answer":"The 'Cartridge' patent (US-9853379) describes an innovative and optimized terminal arrangement for electronic cartridges. At its core, this patent introduces a novel way to organize the electrical contact points within a module, aiming to enhance signal integrity, power delivery, and overall reliability. It addresses common challenges faced in compact electronic devices, such as signal interference, power fluctuations, and mechanical instability.\n\nThis technology is not about creating new types of electronic components but rather about intelligently designing their physical connections. By focusing on the architecture of these terminals, the Cartridge patent seeks to improve the fundamental interaction between a cartridge and its host device. This makes it a crucial development for any industry relying on modular electronics.\n\nEssentially, the Cartridge patent provides a blueprint for creating more robust and efficient interfaces, which are vital for the performance and longevity of modern electronic gadgets and systems. It's a foundational innovation that supports the ongoing trend towards miniaturization and higher performance in electronics.\n\nKeywords: Cartridge patent, US-9853379, terminal arrangement, electronic cartridge, signal integrity, hardware innovation.","question":"What is Cartridge (US-9853379)?"},{"answer":"The Cartridge patent works by implementing a meticulously organized terminal placement region. This region is divided into an upper segment and a lower segment. The key to its operation is the strategic inclusion of 'long terminals' that are specifically designed to traverse both the upper and lower regions.\n\nThese long terminals are designated for critical functions such as ground, chip-enable, power supply, or reset. By spanning both regions, they provide exceptionally stable and low-impedance pathways for these vital signals, minimizing voltage drops and ensuring consistent power delivery. This robust foundation is crucial for the stable operation of the electronic cartridge.\n\nFurthermore, the Cartridge patent specifies a precise vertical stacking of other important terminals. Strobe and clock terminals are arranged one above the other to minimize timing skew and signal interference. Similarly, data input/output terminals are also stacked, with four sets of these vertical pairs. The strategic placement of a long terminal near these stacked high-speed signal lines acts as a localized shield or a dedicated return path, effectively mitigating crosstalk and noise. This integrated approach ensures optimal signal integrity and efficient data transfer.\n\nKeywords: Cartridge operation, long terminals, terminal stacking, signal integrity, power delivery, crosstalk mitigation, electronic design.","question":"How does Cartridge work?"},{"answer":"The Cartridge patent primarily solves several critical problems associated with high-density interconnects in compact electronic modules. As devices become smaller and more complex, the terminals connecting their components get increasingly crowded. This leads to a host of issues that compromise performance and reliability.\n\nSpecifically, this innovation addresses: \n1. **Signal Degradation and Crosstalk:** When high-speed signal lines are packed closely, their electrical fields can interfere with each other, corrupting data and slowing down communication. The Cartridge patent's optimized layout and integrated shielding effectively mitigate this 'crosstalk'.\n2. **Power Instability:** Inadequate power and ground connections can lead to voltage fluctuations (voltage drop, ground bounce), causing unreliable component operation. The 'long terminals' provide robust, low-impedance pathways for stable power delivery.\n3. **Mechanical Fragility:** Densely packed, tiny terminals can be prone to bending, poor contact, or wear over repeated insertions and removals, leading to intermittent connections or device failure. The Cartridge design aims for greater robustness and contact reliability.\n\nBy solving these fundamental physical layer challenges, the Cartridge patent enables the creation of more reliable, higher-performing, and durable electronic modules that can meet the demands of modern technology.\n\nKeywords: Cartridge problem solved, signal degradation, crosstalk, power instability, mechanical fragility, high-density interconnects, electronic reliability.","question":"What problem does Cartridge solve?"},{"answer":"Unfortunately, the provided patent data does not list the inventor(s) or assignee for the 'Cartridge' patent (US-9853379). This information is typically found within the full patent document, but was not included in the abstract or metadata provided for this exercise.\n\nIn general, patent applications are filed by inventors or assigned to companies (assignees) they work for. These individuals or organizations are credited with conceiving and developing the innovative technology described in the patent. The absence of this detail in the given snippet means we cannot identify the specific inventor(s) or the company behind this particular 'Cartridge' innovation.\n\nTo find out who invented the Cartridge patent, one would typically need to consult the full patent document available through patent databases like the USPTO or Google Patents, which would list the inventor(s) and the assignee (if any) at the time of filing or grant.\n\nKeywords: Cartridge inventor, US-9853379 inventor, patent assignee, patent ownership, invention credit.","question":"Who invented Cartridge (US-9853379)?"},{"answer":"The 'Cartridge' patent offers several significant benefits for electronic module design and performance. These advantages stem directly from its innovative terminal architecture.\n\n1. **Enhanced Signal Integrity:** The optimized arrangement of terminals, including the vertical stacking of strobe, clock, and data lines, coupled with the strategic placement of long terminals, drastically reduces crosstalk and noise. This ensures cleaner, more reliable signal transmission.\n2. **Superior Power and Ground Stability:** The 'long terminals' dedicated to ground and power supply provide low-impedance pathways, minimizing voltage drops and ground bounce. This leads to more consistent and stable power delivery to internal components, crucial for reliable operation.\n3. **Higher Performance:** With improved signal integrity and power stability, electronic modules leveraging the Cartridge patent can achieve higher data transfer rates and operate at faster clock frequencies without compromising reliability.\n4. **Compact Design:** The efficient use of space through vertical stacking and optimized terminal distribution allows for greater functionality to be packed into smaller physical form factors.\n5. **Increased Reliability and Durability:** The robust design of the long terminals contributes to greater mechanical stability and electrical contact reliability over repeated use, leading to a longer operational lifespan for devices.\n\nThese benefits collectively position the Cartridge patent as a foundational technology for next-generation, high-performance, and reliable modular electronics.\n\nKeywords: Cartridge benefits, signal integrity, power stability, high performance, compact design, reliability, durability, electronic module advantages.","question":"What are the key benefits of Cartridge?"},{"answer":"The 'Cartridge' patent differentiates itself from prior art by introducing a holistic and highly optimized approach to terminal arrangement that systematically addresses the limitations of conventional designs. Prior art often features simpler, less integrated terminal layouts that struggle with modern demands for high density and performance.\n\nKey distinctions of the Cartridge patent include:\n1. **Segmented Terminal Placement:** Unlike basic, undifferentiated terminal arrays in prior art, this patent divides the terminal region into upper and lower segments. This allows for a more organized and electrically efficient distribution of terminals.\n2. **'Long Terminals' for Foundational Stability:** A major innovation is the use of 'long terminals' that span both regions, specifically for critical functions like ground, power, and control. Prior art typically uses shorter, less stable pins for these, leading to higher impedance and less stable connections.\n3. **Optimized Vertical Stacking:** The Cartridge patent specifies that synchronous signals (strobe/clock) and data input/output terminals are arranged one above the other. This minimizes timing skew and crosstalk more effectively than traditional side-by-side or scattered arrangements found in prior art.\n4. **Integrated Crosstalk Mitigation:** The strategic placement of long terminals near high-speed signal lines provides inherent shielding and dedicated return paths, significantly reducing crosstalk without relying on complex, costly external solutions often needed in prior art.\n\nThese combined innovations provide superior signal integrity, power stability, and mechanical robustness compared to the more basic and less integrated terminal architectures that characterize much of the prior art.\n\nKeywords: Cartridge vs prior art, terminal design comparison, patent differentiation, signal integrity innovation, long terminals, vertical stacking, crosstalk reduction, US-9853379 uniqueness.","question":"How is Cartridge different from prior art?"},{"answer":"The 'Cartridge' patent (US-9853379) has the potential to significantly impact a wide range of industries that rely on compact, high-performance, and reliable electronic modules. Its core innovation in terminal architecture makes it relevant across various sectors.\n\n1. **Consumer Electronics:** This includes smartphones, laptops, gaming consoles, wearables, and smart home devices. Improved module connectivity means faster, more reliable performance, longer battery life (due to efficient power delivery), and more durable products for consumers.\n2. **Industrial IoT (IIoT) and Automation:** In industrial settings, robust and consistent data transfer is critical for sensors, control systems, and edge computing devices. The Cartridge patent's enhanced reliability and signal integrity can lead to fewer operational downtimes and more accurate data collection.\n3. **Automotive:** Modern vehicles are packed with sophisticated electronics for infotainment, driver assistance systems, and engine control. Reliable and compact modular components, enabled by this patent, are crucial for safety and performance in harsh automotive environments.\n4. **Data Storage and Memory:** Next-generation memory cards (e.g., SD, microSD), solid-state drives (SSDs), and other removable storage solutions can leverage this technology for higher data transfer speeds and increased reliability.\n5. **Medical Devices:** Precision, reliability, and miniaturization are paramount in medical technology. The Cartridge patent could enable more compact, accurate, and dependable diagnostic or therapeutic devices.\n\nEssentially, any industry that uses or develops modular electronic components requiring high performance, reliability, and a small footprint stands to benefit from the advancements presented by the Cartridge patent.\n\nKeywords: Cartridge industry impact, consumer electronics, Industrial IoT, automotive electronics, data storage, medical devices, modular technology, patent applications.","question":"What industries will Cartridge impact?"},{"answer":"The 'Cartridge' patent, identified by the number US-9853379, has a specific timeline regarding its filing and publication dates.\n\nThe **Filing Date** for this patent was **2017-01-05**. This is the date when the patent application was officially submitted to the patent office, initiating the examination process. The filing date is significant as it often determines the 'priority date' for the invention, which can be crucial in cases of competing inventions.\n\nThe **Publication Date** for the 'Cartridge' patent was **2017-12-26**. This is the date when the patent document was officially published and made available to the public. While a patent may be filed, it is typically published some time later, allowing the public to review its details and claims. For granted patents, the publication date often coincides with the grant date, making the invention enforceable.\n\nThese dates are key milestones in the lifecycle of any patent, indicating when the intellectual property was officially claimed and when it became public knowledge. Understanding these dates is important for tracking the development and legal status of the Cartridge innovation.\n\nKeywords: Cartridge filing date, Cartridge publication date, US-9853379 dates, patent timeline, patent grant, intellectual property.","question":"When was Cartridge (US-9853379) filed/granted?"},{"answer":"The 'Cartridge' patent (US-9853379), with its focus on enhancing terminal architecture, opens up numerous commercial applications across various product categories. Its ability to provide superior signal integrity, power stability, and compactness makes it highly valuable.\n\n1. **Enhanced Memory Modules:** The patent can be applied to design more reliable and faster SD cards, microSD cards, USB drives, and even modular SSDs. This means quicker data transfers, more stable storage, and longer-lasting memory products for consumers and professionals.\n2. **Modular Computing Components:** For systems requiring swappable or upgradeable modules (e.g., in industrial PCs, specialized laptops, or single-board computers), the Cartridge patent ensures robust connections for processors, graphics units, or I/O cards, leading to more flexible and powerful systems.\n3. **Wearable Technology and IoT Devices:** These devices demand extreme miniaturization and reliability. The Cartridge patent enables more compact and dependable connections for sensors, communication modules, and power units within smartwatches, fitness trackers, and a wide array of IoT gadgets.\n4. **Gaming Cartridges and Consoles:** In the gaming industry, fast data access and robust connections are paramount. Applying this technology can lead to more responsive game cartridges, improved internal module connectivity within consoles, and reduced latency.\n5. **Automotive Infotainment and Control Units:** The need for reliable, high-speed data transfer in vehicles is growing. Cartridge-enabled modules can enhance the performance and durability of infotainment systems, advanced driver-assistance systems (ADAS), and other critical electronic control units.\n\nThese applications highlight how the Cartridge patent can be a foundational technology for products where performance, reliability, and compact design are competitive advantages.\n\nKeywords: Cartridge commercial applications, memory modules, modular computing, wearable tech, IoT devices, gaming cartridges, automotive electronics, product development.","question":"What are the commercial applications of Cartridge?"},{"answer":"The 'Cartridge' patent (US-9853379) lays a robust foundation for future developments in electronic module interconnects. Given its innovative terminal architecture, several exciting advancements and applications can be anticipated.\n\n1. **Integration with Higher Frequencies and Bandwidths:** As data rates continue to climb (e.g., with PCIe Gen 5/6, USB4, Thunderbolt), the Cartridge patent's inherent signal integrity benefits will be further optimized. Future iterations might incorporate advanced impedance matching techniques or even hybrid electrical-optical connections within its framework to support even higher bandwidths.\n2. **Enhanced Thermal Management:** While not explicitly detailed in the abstract, the optimized physical layout could be further developed to integrate passive or active thermal management solutions, allowing for higher power densities and sustained performance in compact modules.\n3. **Standardization and Ecosystem Growth:** It is plausible that the Cartridge patent's principles could become a basis for new industry standards for specific types of modular connectors. This could lead to a broader ecosystem of compatible modules and host devices, fostering greater interoperability and innovation.\n4. **Advanced Material Integration:** Future developments might explore the use of novel materials for the terminals themselves, enhancing conductivity, durability, or even enabling self-healing properties to further improve reliability over the long term.\n5. **Smart Interconnects:** Integrating sensing capabilities directly into the Cartridge terminal structure could enable 'smart' interconnects that monitor connection quality, temperature, or even detect tampering, providing real-time feedback for enhanced system management and security.\n\nThese potential future developments underscore the Cartridge patent's role as a foundational technology, capable of evolving to meet the increasingly demanding requirements of next-generation electronics.\n\nKeywords: Cartridge future developments, high bandwidth, thermal management, industry standardization, advanced materials, smart interconnects, electronic innovation, US-9853379 evolution.","question":"What are the future developments expected for Cartridge?"}],"topics":["Cartridge patent","US-9853379","terminal arrangement","signal integrity","electronic module design","cartridge","patent","9853379"],"tech_cluster":null},"seo":{"title":"Cartridge Patent US-9853379 - Enhanced Terminal Design","description":"Discover the Cartridge patent (US-9853379) for innovative terminal arrangement, offering superior signal integrity and power delivery in electronic modules. Detailed analysis, claims, and impact.","keywords":["Cartridge patent","US-9853379","terminal arrangement","signal integrity","electronic module design","power delivery","crosstalk mitigation","compact electronics","patent innovation","hardware architecture","connector technology","strobe clock data terminals"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853379","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-9853379","citation_suggestion":"Patentable. \"Cartridge\" (US-9853379). https://patentable.app/patents/US-9853379","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853379","json":"https://patentable.app/api/llm-context/US-9853379","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T07:15:12.558Z"}