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 delivers a comprehensive suite of AMBA-compliant peripheral IPs, designed to streamline connectivity in SoC designs. This suite includes a range of interface controllers, memory controllers, and standard I/O components like UART, SPI, I2C, and much more. Designed with integration flexibility in mind, these components utilize the AMBA AXI, AHB, and APB protocols to ensure seamless communication across different modules within a chip. Each peripheral is equipped with low-level software drivers, enhancing their deployment in real-time environments and alleviating integration and development burdens from engineers.
The DB9000AXI Display Controller is designed to handle a vast range of display resolutions for LCD and OLED panels. It supports standard configurations from 320x240 pixels to Full HD at 1920x1080 pixels, with advanced setups accommodating 4K and even 8K resolutions. This flexibility allows it to drive displays via on-chip AMBA interconnects, linking frame buffer memory and processing units. Moreover, it incorporates sophisticated capabilities like overlay windows and hardware cursors, ideal for applications requiring high precision and functionality. Built to align with the AXI protocol, the controller is optimized for performance, ensuring high throughput for demanding graphic operations. Its versatile nature suits it to multiple applications, ranging from consumer electronics to sophisticated medical and industrial monitors. The added advantages of reduced CPU burden and enhanced visual rendering make it a compelling choice for high-end display solutions. Additionally, the DB9000AXI supports optional features tailored to specific requirements, including alpha blending and color space conversion. These advanced functions ensure top-tier visual fidelity and are vital for modern, immersive viewing experiences. Paired with Linux drivers and extensive verification suites, the DB9000AXI is a future-proof solution for robust display management needs.
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.
MIPI DSI-2 Transmitter IP is crafted for high-performance display interfaces, enabling vivid and seamless visuals with efficient power usage. Its compatibility with the MIPI DSI-2 standard offers flexibility for integration with various display technologies and applications. This transmitter supports high-speed data transfer, catering to ultra-high resolution displays and media-rich environments. Designed for compatibility across major manufacturing nodes, it provides developers with a robust and adaptable platform for a broad spectrum of display solutions. The IP's efficient architecture ensures reduced latency and power demands, aligning with market needs for mobile devices and other portable gadgets.
The iCan Screen 9" Multimedia Display is crafted for multimedia applications within aircraft, offering compact size combined with high-definition capabilities. This ruggedized screen is tailored to withstand the demands of aviation environments, ensuring consistent performance and reliability essential for passenger engagement through entertainment systems. As a rackable unit, the iCan Screen 9" supports flexible installation configurations, allowing it to fit seamlessly into various cabin layouts. It provides crisp, clear visuals that enhance the passenger experience by delivering entertainment content in vibrant quality. Whether for seat-back installations or communal areas within the cabin, this display offers versatility in application. Designed in adherence to stringent aerospace standards, this Oxytronic product aligns with the company's ethos of delivering robust and dependable avionics solutions. Its high performance in managing multimedia outputs makes it an integral part of in-flight entertainment infrastructures, contributing significantly to overall passenger satisfaction across flights.
Dyumnin's RISCV SoC is built around a robust 64-bit quad-core server class RISC-V CPU, offering various subsystems that cater to AI/ML, automotive, multimedia, memory, and cryptographic needs. This SoC is notable for its AI accelerator, including a custom CPU and tensor flow unit designed to expedite AI tasks. Furthermore, the communication subsystem supports a wide array of protocols like PCIe, Ethernet, and USB, ensuring versatile connectivity. As for the automotive sector, it includes CAN and SafeSPI IPs, reinforcing its utility in diverse applications such as automotive systems.
The iCan PicoPop® System on Module (SOM) by Oxytronic is an ultra-compact computing solution designed for high-performance and space-constrained environments within the aerospace industry. Utilizing the Xilinx Zynq UltraScale+ MPSoC, this module delivers significant processing power ideal for complex signal processing and other demanding tasks. This module's design caters to embedded system applications, offering robust capabilities in avionics where size, weight, and power efficiency are critical considerations. It provides core functionalities that support advanced video processing, making it a pivotal component for those requiring cutting-edge technological support in minimal form factors. Oxytronic ensures that the iCan PicoPop® maintains compatibility with a wide range of peripherals, facilitating easy integration into existing systems. Its architectural innovation signifies Oxytronic's understanding of aviation challenges, providing solutions that are both technically superior and practically beneficial for modern aerospace applications.
The Video Wall Display Management System is a flexible solution using FPGA technology, designed for high-quality image processing and output across multiple displays. It handles input from HDMI or Display Port sources, delivering processed video synchronized on up to four individual screens. This system is ideal for setups requiring intricate video configurations, such as digital signage or multi-display environments. It supports resolutions up to 3840x2400p60 for input and up to 1920x1200p60 for outputs, providing excellent image clarity and synchronization. Its flexibility is enhanced by supported configuration modes including Stretch, Cloned, and Independent outputs, with customizable bezel compensation. A software API facilitates easy configuration and control, ensuring seamless management of video outputs. The Video Wall System is continually being refined, with future developments aiming at greater support for larger display setups through linked FPGA units. This system provides a robust solution for customizable, high-quality video display management, catering to diverse application needs.
The DisplayPort 1.4 provides a comprehensive solution for DisplayPort needs by offering both source (DPTX) and sink (DPRX) configurations. It supports various link rates from 1.62 Gbps to 8.1 Gbps, including embedded DisplayPort (eDP) rates. This versatility makes it ideal for a wide range of applications, including those requiring either Single Stream Transport (SST) or Multi Stream Transport (MST). With support for dual and quad pixels per clock, as well as 8 & 10-bit video in RGB and YUV 4:4:4 color spaces, the DisplayPort 1.4 is well-equipped to handle high-resolution video tasks. The robust features of DisplayPort 1.4 include a Secondary Data Packet Interface designed for audio and metadata transport, ensuring comprehensive support for multimedia applications. Parretto also enhances the IP with a Video Toolbox containing a timing generator, test pattern generator, and video clock recovery functions. These components facilitate seamless integration and operational efficiency within a wide array of systems. This product supports numerous FPGA devices, such as AMD UltraScale+, Intel Cyclone 10 GX, and Lattice CertusPro-NX, giving users flexibility in their choice of hardware. The availability of source code on GitHub allows users to tailor the IP specifically to their design requirements, broadening the scope of customization and ensuring a perfect fit in various applications.
The iCan Touch 6.5" Control Display is engineered for centralized control of in-flight entertainment (IFE) and cabin management systems (CMS), blending touchscreen interactivity with user-friendly interface design. Created by Oxytronic, this touchscreen display is crucial for the efficient management of cabin functions, allowing crew members to access and control various entertainment and service systems easily. This display boasts a compact 6.5" screen that fits efficiently within cockpit and cabin environments. Its intuitive design is focused on enhancing operational efficiency, allowing direct interaction through touch inputs. This capability streamlines processes like content selection and system monitoring, making it a vital tool for managing passenger experiences during flights. Certified to DO-254 and DO-178C standards, the iCan Touch 6.5" Control Display offers high reliability and safety, critical in the aviation industry. Its customizable interface supports integration into diverse cabin systems configurations, ensuring that it adapts to the unique operational requirements of different aircraft models effectively.
Himax offers a series of sophisticated display drivers specifically engineered for large-sized LCD TV panels, monitors, and notebooks. These drivers include a variety of integral components such as timing controllers, source drivers, and gate drivers, providing comprehensive solutions to ensure sharp, vibrant displays. The inclusion of advanced features such as gamma and Vcom operations contributes to exceptional image quality and color accuracy, meeting the high standards expected by end-users today. In addition to enhancing visual appeal, these display drivers are designed to be highly efficient, offering reliable performance with low power consumption. This efficient energy usage is vital for reducing operational costs and supporting long-term sustainability goals across the technology ecosystem. This thoughtful engineering approach ensures that Himax display drivers meet the diverse requirements of different applications while remaining adaptable to future technological advancements. Furthermore, Himax collaborates closely with leading panel manufacturers across the globe, ensuring their solutions are compatible with the latest technologies and market demands. This strategic alignment positions Himax as a leader in the industry, trusted by some of the biggest names in the global tech sector.
The ELFIS2 is a cutting-edge visible light imager, offering advanced performance through its radiation-hard design, making it ideal for harsh environments such as those found in space exploration and high-risk scientific endeavors. The sensor is equipped with features like a True High Dynamic Range (HDR), ensuring excellent color and detail representation across various lighting conditions, as well as Motion Artifact Free (MAF) imaging facilitated by its Global Shutter technology. This sensor adopts a Back-Side-Illumination (BSI) technique, enhancing sensitivity and efficiency by allowing more light to reach the photodiode surfaces, critical for high precision applications. Additionally, its aptness for environments with high radiation exposure due to its Total Ionizing Dose (TID) and SEL/SEU resilience further assures consistent reliability and quality in challenging conditions. ELFIS2's superior design also focuses on minimizing interference and maximizing clarity, making it a robust solution for applications demanding top-tier image quality and operational reliability. Its use in advanced imaging systems underscores Caeleste’s commitment to providing state-of-the-art technology that fulfills demanding requirements, cementing their status as a leader in custom sensor design.
Microdul's Capacitive Proximity Switch is engineered to provide enhanced energy efficiency in electronic designs. This switch leverages capacitive technology to react to proximity, bringing energy-conscious control over device operations. Its primary applications include systems that benefit from touchless interaction, like contactless switches or smart lighting solutions. Built to last, the switch detects user presence or absence effortlessly, decreasing the energy drain on power-sensitive devices. Its adaptability makes it a favorite for manufacturers focusing on extending product lifespan while cutting down unnecessary energy expenditure. The switch's precision allows for its integration in a wide array of electronic environments, ensuring that devices remain active only when in functional use. By incorporating it into electronic products, designers can achieve greater control over power usage, aligning with sustainability goals and enriching user experiences.
The mobile handset display drivers offered by Himax are versatile solutions that tackle the complexities of modern handheld devices. These drivers integrate a combination of source and gate drivers with timing controllers and frame buffers in one chip, enhancing integration and system efficiency. Their technology supports a range of applications, ensuring crisp and clear display performance while maintaining low power consumption—essential for extending battery life in mobile devices. Beyond just integration, Himax's mobile handset drivers focus on delivering superior image quality by employing advanced DC to DC circuits that regulate power effectively across the display. The enhanced capability of these drivers contributes to vivid and dynamic screen visuals that today's consumers expect. With the consumer electronic market's continual push for higher immersion levels and interactivity, these display drivers are developed to robustly handle various applications without compromising on speed or capacity. This commitment to quality and innovation places Himax as a pivotal player in advancing mobile display technologies.
The iCan Screen 13.3" Cabin Display is tailored for use in passenger areas, offering a combination of large screen format and high visibility. This display is certified to meet stringent aerospace standards, including DO-254 and DO-178C, ensuring its reliability and safety in flight operations. Its robust design is intended to withstand the specific challenges posed by prolonged use in commercial aviation environments. Featuring high-definition capabilities, the iCan Screen 13.3" provides passengers with an enhanced viewing experience, crucial for in-flight entertainment systems. It integrates seamlessly into cabin architectures, providing functionality without compromising on passenger comfort or safety. The display's ability to support a variety of multimedia formats ensures that airlines can offer diverse entertainment options to enhance the travel experience. Oxytronic has engineered this display to offer flexibility in installation and maintenance, making it a practical component for airlines seeking efficient cabin management solutions. Its design supports easy integration into existing systems, reducing downtime and ensuring continuity of service across different aircraft models. This focus on adaptability, along with its advanced technical specifications, positions the iCan Screen 13.3" as an essential component for modern airborne entertainment setups.
The iCan Screen 6.5" Avionics Display is a rugged, small-format screen certified for DO-254 and DO-178C standards. Designed for cockpit and cabin applications, this display ensures clarity and durability under varied environmental conditions. Its compact size makes it ideal for integration into spaces with limited room, providing essential visual feedback and information to pilots and crew members. It supports multiple video formats, highlighting its versatility in handling different signal inputs effectively. This avionics display is engineered with an emphasis on reliability, making it suitable for airborne settings where precise and continuous functioning is crucial. The customization of the display's interface allows for adaptation to the unique controls and configurations of different aircraft types. With enhanced brightness and contrast ratios, the iCan Screen 6.5" ensures visibility in various lighting conditions, crucial for safety and operational efficiency in avionics applications. Oxytronic’s design philosophy focuses on merging technological innovation with practical use-case scenarios, ensuring that all features of the iCan Screen 6.5" cater specifically to the rigorous standards of aerospace operations. This dedication to quality and functionality makes it a preferred choice for aircraft manufacturers and system integrators seeking reliable and advanced display technologies.
The iCan Screen 7" Retractable Display offers flexibility and convenience with its compact retractable design, perfectly suited for various aircraft cabin configurations. This unit is characterized by its multi-format video input capability, enhancing its adaptability across different entertainment systems. As a durable, ruggedized display, it is engineered to meet stringent aerospace standards, ensuring consistent performance under fluctuating environmental conditions. The retractability feature particularly benefits cabins where space efficiency and effective use are essential, allowing for more dynamic cabin layouts and increased passenger engagement options. Designed by Oxytronic, this retractable display aligns with their commitment to innovative aviation solutions, providing a high-quality visual experience that enhances passenger satisfaction during flights. Its ability to integrate seamlessly with existing systems underscores its versatility and applicability in modern aerial fleet technologies.
Oxytronic's iCan System® is a modular and proprietary platform designed for in-flight entertainment (IFE) and cabin management systems (CMS). This architecture, compatible with helicopters and other aircraft, integrates a central chassis that houses specialized communication cards, such as SatCom, multimedia management, I/O handling, and Ethernet switching cards. The iCan System® ensures robust connectivity and comprehensive management of cabin functions, interfacing seamlessly with onboard networks and peripherals including screens, headsets, and satellite communication devices. This scalability and flexibility ensure that airlines can tailor their systems to address specific operational needs and passenger service enhancements. Certified for aviation use, Oxytronic's iCan System® is built to withstand the demanding conditions of aircraft operation, offering continual reliability and performance. Its modular nature not only simplifies upgrades and maintenance but also extends the lifespan of cabin management investments, making it a valuable solution in the realm of aerospace technology.
SEMIFIVE's AIoT Platform caters to the integration of artificial intelligence into the Internet of Things (IoT) devices, enabling smart and efficient technology solutions. This platform supports the development of AI-driven IoT applications by providing a robust framework that combines AI compute power with IoT's connectivity and data processing capabilities. The AIoT Platform facilitates the rapid design and deployment of innovative solutions across various sectors such as smart homes, industrial IoT, and more. It optimizes system design through the seamless integration of IoT sensors, processors, and communication protocols, ensuring high performance with minimal power consumption. Backed by silicon-proven IPs, this platform ensures scalability and flexibility, allowing developers to create customized solutions with ease. The AIoT Platform is positioned to support smart technology innovations with its focus on energy efficiency, intelligent data processing, and enhanced connectivity features.
The ant200 Vector Graphics Processor delivers outstanding performance for 2D graphics rendering, making it suitable for low-power applications while ensuring high-quality visual output. This vector processor stands out due to its low energy requirements, embodying efficiency that enhances longevity in mobile and battery-operated devices. The processor is designed to handle diverse graphic outputs, managing complex vector graphics with ease and accuracy. It supports standard graphic APIs, enabling straightforward implementation in various devices and systems. Aimed to serve applications where power efficiency and graphical excellence are indispensable, the ant200 is an ideal choice for devices like smartwatches and portable consoles, delivering an intuitive and responsive user experience. It showcases significant capabilities in optimizing graphic rendering for modern, power-conscious electronic products.
The Flat Panel Display Interface for Advanced Processes is designed to bridge the gap between high-definition displays and their processing units. This interface supports seamless integration of different display technologies, ensuring that visual output remains crisp and clear without latency or data loss. Its ability to support multiple interface standards including LVDS, mini-LVDS, and MIPI D-PHY makes it versatile for a range of applications from televisions to portable digital devices.\n\nBuilt for advanced processes, this interface IP enhances the visual display capabilities by handling high-speed data transmission efficiently. Its design architecture is optimized to reduce power consumption while maintaining a high refresh rate, crucial for modern high-definition displays. This allows users to experience vibrant and responsive screen performance, essential for devices that demand fast graphics rendering and minimal image lag.\n\nThe streamlined configuration of the Flat Panel Display Interface simplifies the integration process for manufacturers, allowing them to quickly adopt and implement new display technologies. As digital screen technology continues to evolve, having a flexible and efficient display interface becomes imperative. This IP thereby provides a competitive advantage in developing next-generation display products that deliver superior visual experiences.
The ant100 Mobile GPU by Digital Media Professionals Inc. stands out for its capability to deliver rich graphics on mobile platforms. It combines high-performance processing with low-power consumption, striking a balance that is crucial for mobile devices. This GPU supports a range of graphics APIs that facilitate rendering high-quality visuals on compact and battery-reliant devices, enhancing the overall mobile experience through smoother graphics and improved interface visuals. The ant100 is optimized for lightweight graphic applications, making it an excellent fit for smartphones and tablets, where efficient power usage significantly impacts battery life. This GPU underscores Digital Media Professionals Inc.'s commitment to innovation in mobile graphics technology, delivering efficient and effective graphical solutions for portable electronics.
The K3000 Vector Graphics Processor by Digital Media Professionals Inc. is engineered to deliver premium performance in embedded devices requiring graphical interfacing. Capable of executing efficient 2D vector graphics rendering, it meets the demands of various user interface applications. This processor excels in tasks where resource efficiency is critical, maintaining low power consumption while delivering smooth graphic transitions and interactions. It adheres to the industry standards for vector graphics, ensuring versatility and compatibility with various UI frameworks and platforms. The K3000 is crucial in developing intuitive and engaging user interfaces, often deployed in consumer electronics, digital signage, and automotive systems where visual clarity and performance are fundamental. It supports extensive graphical protocols that enhance both the functionality and aesthetic of user interfaces, making it a robust choice for integrators seeking superior graphic solutions.
logiCVC-ML is a compact multi-layer video controller optimized for advanced display operations on TFT LCDs with resolutions up to 2048x2048. Designed for AMD Zynq 7000 AP SoCs and FPGA implementations, it provides support for an array of operating systems, including Linux, Android, and Windows Embedded Compact 7. This video controller enhances display capabilities by allowing for the efficient layering of multiple video inputs, crucial for sophisticated graphics in consumer electronics and automotive infotainment systems. Its integration with AMD platforms ensures high compatibility and streamlined performance across various display landscapes. The core is particularly beneficial in applications demanding crisp graphics and smooth video transitions, leveraging AMD's power to deliver high-quality visual outputs.
The Display Controller CDC is a versatile graphics IP core designed to manage visual outputs efficiently in a variety of devices. It is crafted for applications where high reliability and performance are crucial, making it suitable for displays requiring complex control functionalities. The product supports a wide range of screen resolutions and interfaces, offering flexibility and compatibility across diverse systems.
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