All IPs > Graphic & Peripheral > LCD Controller
LCD controller semiconductor IPs play a pivotal role in the development and functionality of modern display technologies. These intellectual properties offer essential support for efficient and high-performance management of liquid crystal displays in a variety of electronic devices. LCD controllers are responsible for converting input data from other system components into signals that can be interpreted by the LCD, ensuring that clear and vibrant images are displayed consistently.
In the realm of consumer electronics, LCD controller semiconductor IPs are integral to the production of high-resolution screens in smartphones, tablets, laptops, and televisions. They facilitate rich multimedia experiences by managing the color depth, refresh rates, and video timing associated with LCD panels. Moreover, they often come equipped with features that reduce power consumption, enhance image quality, and support diverse display resolutions, catering to a wide array of product specifications and innovations.
Beyond consumer gadgets, LCD controller semiconductor IPs are also crucial in the automotive and industrial sectors. In automotive applications, these controllers are used in dashboards and entertainment systems, requiring both robustness and reliability under varied environmental conditions. In industrial settings, LCD controllers manage displays for equipment interfaces, control panels, and kiosks where durability and precision are pivotal.
Overall, the LCD controller segment of semiconductor IPs provides the technological backbone necessary for delivering dynamic and responsive visual displays. Designers and manufacturers leverage these IPs to enhance user experiences by offering advanced display features across multiple platforms and environments, ensuring cutting-edge performance and efficiency in all applications.
eSi-Connect offers an extensive suite of AMBA-compliant peripheral IPs designed to streamline SoC integration. This suite encompasses versatile memory controllers, standard off-chip interface support, and essential control functions. Its configurability and compatibility with low-level software drivers make it suitable for real-time deployment in complex system architectures, promoting reliable connectivity across various applications.
KPIT's digital connected solutions revolutionize the automotive cockpit and in-cabin experience, enhancing personalization, productivity, and safety for drivers. These solutions are driven by technologies such as high-resolution displays, augmented reality head-up displays, and AI-powered virtual assistants, all integrated to create a seamless and dynamic digital environment within the vehicle. The cloud and over-the-air (OTA) updates further enrich the consumer experience by providing regular enhancements and new features. The innovative market leadership KPIT demonstrates is evident in their rapid development and integration capabilities, which meet the growing demands of OEMs for swift market entry. KPIT addresses critical challenges in cost constraints and system integration, ensuring that advanced features coexist with the necessary affordability and cohesion between hardware and software components. Through these digital solutions, KPIT stands as a preferred partner for automakers pursuing cutting-edge cockpit and connectivity advancements. By continuously innovating and expanding their offering, KPIT enhances the value proposition of modern vehicles, ensuring that automakers remain competitive in the fast-evolving automotive landscape.
Silicon Library Inc.'s DisplayPort/eDP is an advanced interface IP crafted for delivering high-definition audio-visual data. It conforms to the specifications of DP/eDP 1.4, positioning it as a critical component for devices like laptops, monitors, and digital signage, where seamless and high-quality display output is required. This product supports high-resolution displays with considerable bandwidth, enabling the transmission of ultra-high-definition content efficiently and effectively. Its design takes into account the need for reduced power consumption, aligning with the trend towards more energy-efficient electronics without compromising on performance. The DisplayPort/eDP IP ensures excellent signal transmission quality, meeting the stringent demands of modern digital displays. It also features compatibility with various control protocols, providing flexibility in integration across different devices. As multimedia consumption continues to rise, this IP offers a strategic advantage in developing cutting-edge display solutions.
The DisplayPort 1.4 IP core by Parretto is designed for efficient video signal transmission, providing comprehensive solutions for both source (DPTX) and sink (DPRX) configurations. Supporting link rates from 1.62 to 8.1 Gbps, this core offers flexibility for different applications, including embedded DisplayPort (eDP) rates. It can handle 1, 2, and 4 DP lanes, and supports diverse video interfaces such as native video and AXI stream. This IP core accommodates Single Stream Transport (SST) and Multi Stream Transport (MST) modes, adapting to different output requirements. Its dual and quad pixels per clock with rich color managing capabilities—including RGB and various YCbCr formats—enable it to meet high-quality video standards. A secondary data packet interface allows for straightforward audio and metadata transport. Equipped with a Video Toolbox (VTB), it simplifies video processing tasks, including clock recovery and pattern generation. The core is compatible with several FPGA devices like AMD's UltraScale+ and Artix-7, as well as Intel's Cyclone 10 GX and Arria 10 GX.
The DB9000AXI Display Controller by Digital Blocks is engineered to meet the needs of systems using TFT LCD and OLED display panels, providing dynamic resolution support from 320x240 to 1920x1080 at Full HD. It integrates seamlessly into systems with AMBA AXI4 interfacing, providing reliable connectivity between frame buffer memory and the display. This controller is versatile, supporting resolutions for advanced displays including 4K and 8K, making it suitable for a myriad of demanding visual applications. Its architecture provides a 32/64/128/256/512-bit AXI4 interface to the memory controller and can drive 1/2/4/8 port display panel interfaces, accommodating diverse system layouts. Optional features include LVDS link layer interfaces and connections to MIPI DSI/DisplayPort/DVI/HDMI, enhancing its capability to support complex video requirements in high-resolution displays. For system developers, the DB9000AXI is accompanied by a comprehensive toolkit including a simulation test suite, Linux drivers, and Syntheses Design Constraints, ensuring that it fits into varied development environments efficiently. It is an optimal choice for high-performance processors such as ARM and is compatible with RISC-V or MIPS frameworks, boasting quality of service, superior burst length capability, and an extensive user manual to facilitate integration and development processes.
Dyumnin's RISCV SoC is a versatile platform centered around a 64-bit quad-core server-class RISCV CPU, offering extensive subsystems, including AI/ML, automotive, multimedia, memory, cryptographic, and communication systems. This test chip can be reviewed in an FPGA format, ensuring adaptability and extensive testing possibilities. The AI/ML subsystem is particularly noteworthy due to its custom CPU configuration paired with a tensor flow unit, accelerating AI operations significantly. This adaptability lends itself to innovations in artificial intelligence, setting it apart in the competitive landscape of processors. Additionally, the automotive subsystem caters robustly to the needs of the automotive sector with CAN, CAN-FD, and SafeSPI IPs, all designed to enhance systems connectivity within vehicles. Moreover, the multimedia subsystem boasts a complete range of IPs to support HDMI, Display Port, MIPI, and more, facilitating rich audio and visual experiences across devices.
Oxytronic’s iCan Screen 9" Multimedia Display is crafted for diverse applications, primarily focusing on enhancing the multimedia experience within aircraft cabins. With a 9-inch form factor, this mid-sized display offers a balance of portability and viewing comfort, making it a perfect choice for seat-back integration. This multimedia display supports multiple high-definition content formats, providing passengers with a premium viewing experience. Whether accessing movies, games, or real-time flight information, its vibrant and dynamic display quality ensures engagement and satisfaction. The iCan Screen 9" boasts versatile installation options, fitting seamlessly into various aircraft seating configurations. Its robust design upholds performance under the operational pressures of constant use in a busy cabin environment. Advanced networking capabilities also allow this display to integrate smoothly with existing IFE systems, ensuring continuous and reliable service.
The iCan PicoPop® System on Module offers a compact solution for high-performance computing in constrained environments, particularly in the realm of aerospace technology. This system on module is designed to deliver robust computing power while maintaining minimal space usage, offering an excellent ratio of performance to size. The PicoPop® excels in integrating a variety of functions onto a single module, including processing, memory, and interface capabilities, which collectively handle the demanding requirements of aerospace applications. Its efficient power consumption and powerful processing capability make it ideally suited to a range of in-flight applications and systems. This solution is tailored to support the development of sophisticated aviation systems, ensuring scalability and flexibility in deployment. With its advanced features and compact form, the iCan PicoPop® System on Module stands out as a potent component for modern aerospace challenges.
ISPido on VIP Board is a customized runtime solution tailored for Lattice Semiconductors’ Video Interface Platform (VIP) board. This setup enables real-time image processing and provides flexibility for both automated configuration and manual control through a menu interface. Users can adjust settings via histogram readings, select gamma tables, and apply convolutional filters to achieve optimal image quality. Equipped with key components like the CrossLink VIP input bridge board and ECP5 VIP Processor with ECP5-85 FPGA, this solution supports dual image sensors to produce a 1920x1080p HDMI output. The platform enables dynamic runtime calibration, providing users with interface options for active parameter adjustments, ensuring that image settings are fine-tuned for various applications. This system is particularly advantageous for developers and engineers looking to integrate sophisticated image processing capabilities into their devices. Its runtime flexibility and comprehensive set of features make it a valuable tool for prototyping and deploying scalable imaging solutions.
The Alcora V-by-One HS FMC daughter card by Parretto is a high-speed interface solution aimed at enhancing the connectivity of FPGA development boards with high-speed transceivers. By offering 8 RX and 8 TX lanes, the card facilitates high-throughput data transmission, supporting video resolutions such as 4K at 120Hz and 8K at 30Hz. Its dual-variant design, ranging from 41 to 51-pin headers, renders the card adaptable to diverse hardware setups, further broadening its compatibility. Additionally, two clock generators integrated within the card ensure precise synchronization by generating the necessary transceiver reference clocks and reducing jitter. This technology, developed by THine Electronics, finds its primary application in high-resolution video transmission within the flat panel display sector. The card's rich feature set and robust performance make it an ideal choice for industries demanding high-quality video output and seamless integration with existing FCA platforms.
ELFIS2 is a cutting-edge sensor designed to meet the evolving requirements of space and scientific imaging applications. With its state-of-the-art architecture, the sensor is optimized for capturing high-resolution images in environments where precision and clarity are of utmost importance. It offers remarkable performance in capturing intricate details necessary for scientific exploration and research. This sensor is engineered with advanced features, including a high dynamic range and exceptional noise reduction capabilities, ensuring clarity and accuracy in every image captured. Such traits make it suitable for use in both terrestrial and extraterrestrial scientific endeavors, supporting studies that require detailed image analysis. ELFIS2 is perfectly suited for integration into scientific instruments, offering a robust solution that withstands the harsh conditions often encountered in space missions. Its adaptability and reliable performance make it an essential component for projects aiming to unlock new insights in scientific imaging, supporting endeavors from basic research to complex exploratory initiatives.
SEMIFIVE's AIoT Platform is crafted to meet the evolving needs of the AI and IoT convergence. Aimed at enabling edge computing and connecting smart devices, this platform seamlessly integrates AI processing with IoT capabilities. It is ideal for developing efficient and responsive IoT solutions that require sophisticated AI integration. By utilizing advanced process nodes, the platform ensures that the solutions are not only powerful but also energy-efficient, supporting innovations in smart home technology, connected vehicles, and industrial IoT applications.
Oxytronic's iCan System is a modular solution designed for In-Flight Entertainment and Cabin Management Systems in the aviation sector. This comprehensive system integrates various modules for a customized entertainment and control experience for passengers and crew. With its modular design, the iCan System is highly adaptable, allowing airlines to tailor the integration of video, audio, and cabin control functionalities according to specific needs. This flexibility ensures that the system can meet the diverse demands of modern aviation, providing passengers with rich entertainment options while enabling efficient cabin management. The iCan System's robust architecture supports seamless and reliable operation, even under the demanding conditions of commercial flight. Its versatility and high performance make it a standout choice for airlines looking to enhance the passenger experience while maintaining efficient cabin control.
The Video Wall system offers robust support for HDMI and DisplayPort inputs and outputs, catering to up to four separate displays. Capable of handling input resolutions as high as 3840x2400 and output resolutions of 1920x1200 at 60Hz, it provides features like bezel compensation and various image processing operations. The system's clone and stretch operation modes allow users to configure multi-monitor setups with ease, backed by an API for configuration and control.
Himax technologies provides advanced display drivers specifically designed for large-sized panels. These drivers are integral in modulating the control voltages required for each pixel of the display, optimizing color quality, brightness, and energy efficiency. Through sophisticated techniques, they manage the interface between the display and the external system, supporting high-resolution imagery and enhancing visual experiences for end-users. Himax's display drivers are employed in various consumer electronics such as large screen TVs, desktop monitors, and interactive displays. By ensuring precise control over each pixel, these drivers help in delivering exceptional image clarity and vibrancy. The drivers' architecture supports a multitude of panel types, including those using different technologies like LCD and OLED. This adaptability ensures that manufacturers can rely on Himax solutions regardless of their specific display technology needs. The drivers are optimized for efficiency, ensuring that the high-quality display does not come at the expense of excessive power consumption. Beyond power and image quality efficiencies, Himax's display drivers emphasize ease of integration, allowing manufacturers to incorporate these into their products seamlessly. Its flexibility and robust performance capabilities make it a preferred choice in the competitive display electronics market. By supporting a wide range of refresh rates and resolutions, these drivers cater to high-definition requirements, thus serving top-market devices.
The Capacitive Proximity Switch is engineered to achieve exceptional energy efficiency through its innovative design, allowing for precise touch and proximity detection with minimal power consumption. Its sharp sensitivity and low-power requisites make it a strong candidate for integration into energy-conscious devices that require efficient user interface solutions. With capabilities covering single keys, multi-keyboards, sliders, and proximity checks, this switch is diverse in its usability and applicability. It is particularly advantageous in scenarios requiring rapid response times for wake-up or functional shifts, ensuring seamless user experiences in daily electronic applications. This switch serves a vast array of industries, particularly enhancing products where low operational power is a critical feature. As technology trends move towards streamlined, battery-optimized gadgetry, the Capacitive Proximity Switch stands out as an essential component for future-forward electronic designs.
The iCan Touch 6.5" Control Display by Oxytronic is expertly engineered to serve as a reliable interface in aviation control applications. This display combines touch functionality with robustness, enabling it to withstand the exigent demands of modern cockpit environments. Designed to integrate smoothly into cockpit configurations, the iCan Touch 6.5" provides pilots with intuitive control interfaces, thereby enhancing operational efficiency and flight safety. Its touch-responsive screen offers precise input capabilities, crucial for optimal interaction with avionics systems. The display's high reliability is matched by its energy-efficient performance, ensuring it remains operational without excessive power consumption. Built to align with aviation standards, the iCan Touch 6.5" stands as a dependable component, facilitating advanced control functions in aviation technology.
The iCan Screen 7" Retractable Display by Oxytronic is engineered for optimal flexibility and functionality within aviation applications. Its retractable design makes it particularly suitable for environments where space optimization is crucial but should not compromise on display performance. This innovative screen offers excellent visibility and clarity, supporting high-resolution content ideal for passenger entertainment and information systems. Its compact and versatile framework allows it to be neatly stored away when not in use, significantly enhancing cabin aesthetics and spatial efficiency. Incorporating advanced display technology, the iCan Screen 7" meets varying aviation needs with its reliable performance and adaptability. As expectations for passenger experience rise, this retractable display provides an ideal solution through its balance of space economy and viewing pleasure.
The Flat Panel Display Interface is crucial for modern display technologies, bringing scalability and enhanced performance through advanced LVDS and mini-LVDS compatibility. This IP is designed to manage both the high-speed transmission requirements and the power efficiency necessary in contemporary LED and OLED displays, covering resolutions from basic to ultra-high definition. It seamlessly integrates with other display technologies via MIPI D-PHY and RSDS, ensuring versatile connectivity across varied electronic display projects.
The iCan Screen 13.3" Cabin Display created by Oxytronic is tailored for aircraft cabin environments where passenger engagement and in-flight entertainment are paramount. Its expansive 13.3-inch display provides passengers with crisp visuals for an enhanced viewing experience. Designed with the passenger in mind, this cabin display can handle high-resolution content seamlessly, whether used for entertainment, advertising, or informational purposes. Its lightweight build and sleek design contribute to a modern aircraft cabin aesthetic, complementing the overall passenger experience. In addition to its stunning display capabilities, the iCan Screen 13.3" ensures easy integration into airplane systems, compatible with a variety of seat configurations. This flexibility is backed by advanced connectivity features that enable it to be part of comprehensive IFE (In-Flight Entertainment) systems, enhancing passenger satisfaction and engagement.
The iCan Screen 6.5" Avionics Display by Oxytronic stands out with its ruggedized design, specifically optimized for demanding cockpit environments. This display is engineered to deliver sharp, clear visuals, facilitating critical flight operations and enhancing pilot situational awareness. The display's customizability allows it to seamlessly integrate into various cockpit configurations, ensuring compatibility and reliability. Built to withstand the rigorous conditions of avionics applications, this 6.5-inch screen incorporates advanced optics and high brightness settings suitable for all lighting conditions, from direct sunlight to dim nighttime environments. Its robust construction meets stringent aviation standards, confirming its durability and performance in critical flight scenarios. The iCan Screen 6.5" is also engineered for minimal power consumption, maintaining efficient operation without compromising output. With these features, Oxytronic positions the screen as an ideal choice for modern cockpits requiring reliable and efficient display technology.
Himax offers a suite of mobile handset display drivers, expertly designed to address the unique requirements of smaller, portable screens. These drivers play a crucial role in managing the power and data signals that control individual pixels on screens in mobile devices. They ensure that displays are not only vivid but also that power consumption is kept to a minimum, which is vital for extending battery life in mobile environments. Himax's drivers power displays across a variety of mobile devices, including smartphones, tablets, and wearables, ensuring consistent performance across different applications. Utilizing cutting-edge technology, these display drivers are compatible with the latest screen types, including AMOLED and high-refresh-rate LCDs. The drivers facilitate rapid refresh and response times essential for delivering smooth motion in videos and gaming applications. Additionally, their design ensures that screens retain exceptional brightness and color contrast ratios in various lighting conditions, an important feature for outdoor visibility. Focused on modularity, Himax's drivers are customizable to meet the diverse needs of mobile device manufacturers. Their scalable design structure allows quick adaptation to different screen resolutions and sizes, making them a versatile choice for new and emerging mobile technologies. This versatility, combined with energy efficiency and robust performance, positions Himax as a leader in the field of mobile display technology.
The Guiliani GUI Framework provides a comprehensive solution for developing intuitive graphical user interfaces in embedded systems. It includes tools and libraries for creating dynamic and effective GUIs that enhance user interaction and experience. The framework supports diverse display resolutions and configurations, ensuring flexibility and adaptability across various device types.
The logiCVC-ML is an advanced display controller that supports resolutions up to 2048x2048, tailored for TFT LCD displays. Optimized for AMD's Zynq 7000 AP SoC and FPGAs, this IP core is equipped with software drivers compatible with Linux, Android, and Windows Embedded Compact 7. This versatility ensures the logiCVC-ML can be implemented across a wide array of applications demanding high-resolution display capabilities. With a strong focus on integrating with existing systems, the logiCVC-ML offers multilayer video capabilities, making it ideal for complex display needs in various industries. Its support extends beyond simple display output, accommodating sophisticated graphics operations that enhance user experiences across diverse platforms. The IP core's efficient use of resources ensures minimal impact on overall system performance, allowing developers to allocate resources to other critical functions. The logiCVC-ML thus represents a blend of high performance and resource efficiency, making it a valuable component in any high-resolution display application.
The Display Controller CDC is crafted to manage and handle complex display functions in embedded systems efficiently. It features intuitive control mechanisms supporting various display formats and resolutions, delivering high-quality visual experiences. The controller is designed to optimize power consumption while maintaining robust performance, making it ideal for battery-operated devices and automotive applications.
Ant200 is a graphics processor engineered specifically for efficient vector graphics processing. Ideal for use in compact systems, it processes vector graphics commands with high precision and speed. This unit is geared towards designers needing elegant and powerful processing without the energy cost of larger units. The processor is built to handle complex calculations seamlessly, employing cutting-edge algorithms that enhance vector graphic processing capabilities, crucial for rendering precise and sharp images required in graphic design applications. Versatile and powerful, the ant200’s deployment in compact systems makes it a reliable choice for applications demanding high-quality graphic outputs. The architecture of ant200 allows it to maintain the balance between performance and energy consumption, ensuring extended use in portable devices and embedded systems.
Ant100 Mobile GPU is a compact yet powerful graphics unit optimized for mobile devices needing high-performance graphics. Adapted for energy efficiency, it delivers robust graphical processing power while preserving battery life. Laden with features supporting graphic rendering and computational tasks, the Ant100 offers seamless graphics management in mobile environments, supporting the latest graphic standards and technologies for superior image clarity. Compact and efficient, Ant100 is a strategic fit for portable devices, balancing graphical potency with power conservation, providing an unmatched experience in mobile graphic capabilities.
InPsytech's Display Interface portfolio includes a variety of PHYs tailored for digital display technologies. The DP 1.4 Transmitter PHY, eDP 1.3 Transmitter PHY, HDMI 1.4/2.0 Transmitter PHY, and LVDS and OpenLDI PHY offer comprehensive solutions for different display standards, facilitating seamless integration into advanced display systems. These interfaces ensure high-quality video transmission with low latency and high bandwidth capabilities, making them perfect for applications that require flawless video streaming and display clarity. The combination of these PHYs ensures broad compatibility across various display technologies, enhancing user experience across numerous devices. InPsytech's focus on display interfaces supports manufacturers in delivering superior visual quality, thereby enhancing the visual appeal of consumer electronics and professional display solutions. The efficient use of power and ability to support high-resolution video highlight their utility in cutting-edge display technologies.
The Warping Engine is a specialized video processing core designed to enable complex video transformations. It allows for real-time adjustments and alignment, ensuring high-quality video outputs suited for advanced display applications. Its capabilities are especially beneficial for sectors requiring precise visual rendering and video data manipulation.
The K3000 vector graphics processor, designed for high-performance vector graphics rendering, supports a range of applications from gaming to complex scientific visualization. Its architecture is tailored for the efficient processing of vector and geometric data, delivering high-speed rendering without sacrificing image quality. This processor employs advanced processing techniques to manage vector calculations and graphical transformations required in rendering high-detail, sharp images. With its focus on vector graphics, the K3000 ensures fast and efficient graphical workloads, adept for workflows involving extensive modeling and design applications. The processor’s adeptness at handling complex graphical requirements makes it a key player in industries where precision and speed are paramount, providing capabilities that extend to both gaming and professional graphic design settings.
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