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.
The DisplayPort 1.4 IP-core offered by Parretto B.V. is a compact yet potent solution for DisplayPort connectivity needs. Supporting a range of link rates from 1.62 to 8.1 Gbps, this IP-core accommodates varied setups with ease, including embedded DisplayPort (eDP) applications. It provides support for multiple lane configurations and both native video and AXI stream interfaces. The inclusion of Single and Multi Stream transport modes enhances its versatility for different video applications. Tailored for modern FPGA devices, the core supports a comprehensive video format range, including RGB and various YCbCr colorspaces. A standout feature is the secondary data packet interface, enabling audio and metadata transport alongside video signals. This makes it a full-fledged solution for video-centric applications, complemented by a Video Toolbox geared for video processing tasks like timing and test pattern generation. Parretto ensures the IP-core's adaptability by offering it with a thin host driver and API for seamless integration. The core is compatible with an extensive list of FPGA devices, such as AMD UltraScale+ and Intel Arria 10 GX. Customers benefit from the availability of source code via GitHub, promoting easier customization and deep integration into diverse systems. Comprehensive documentation supports the IP-core, ensuring efficient setup and utilization.
The ISPido on VIP Board solution is designed for the Lattice Semiconductor's VIP (Video Interface Platform) board, offering real-time, high-quality image processing. It supports automatic configuration selection at boot, ensuring a balanced output or alternatively, it provides a menu interface for manual adjustments. Key features include input from two Sony IMX 214 sensors and output in HDMI format with 1920 x 1080p resolution using YCrCb 4:2:2 color space. This system supports run-time calibration via a serial port, allowing users to customize gamma tables, convolution filters, and other settings to match specific application needs. The innovative setup facilitates streamlined image processing for efficient deployment across applications requiring high-definition video processing.
The RISCV SoC developed by Dyumnin Semiconductors is engineered with a 64-bit quad-core server-class RISCV CPU, aiming to bridge various application needs with an integrated, holistic system design. Each subsystem of this SoC, from AI/ML capabilities to automotive and multimedia functionalities, is constructed to deliver optimal performance and streamlined operations. Designed as a reference model, this SoC enables quick adaptation and deployment, significantly reducing the time-to-market for clients. The AI Accelerator subsystem enhances AI operations with its collaboration of a custom central processing unit, intertwined with a specialized tensor flow unit. In the multimedia domain, the SoC boasts integration capabilities for HDMI, Display Port, MIPI, and other advanced graphic and audio technologies, ensuring versatile application across various multimedia requirements. Memory handling is another strength of this SoC, with support for protocols ranging from DDR and MMC to more advanced interfaces like ONFI and SD/SDIO, ensuring seamless connectivity with a wide array of memory modules. Moreover, the communication subsystem encompasses a broad spectrum of connectivity protocols, including PCIe, Ethernet, USB, and SPI, crafting an all-rounded solution for modern communication challenges. The automotive subsystem, offering CAN and CAN-FD protocols, further extends its utility into automotive connectivity.
The iCan PicoPop® is a highly compact System on Module (SOM) based on the Zynq UltraScale+ MPSoC from Xilinx, suited for high-performance embedded applications in aerospace. Known for its advanced signal processing capabilities, it is particularly effective in video processing contexts, offering efficient data handling and throughput. Its compact size and performance make it ideal for integration into sophisticated systems where space and performance are critical.
ELFIS2 is a sophisticated visible light imaging ASIC designed to deliver superior performance under the extreme conditions typical in space. Known for its radiation hard design, it withstands both total ionizing dose (TID) and single event effects (SEU/SEL), ensuring dependable operation even when exposed to high radiation levels in outer space. This image sensor features HDR (High Dynamic Range) capabilities, which allow it to capture clear, contrast-rich images in environments with varying light intensities, without motion artifacts thanks to its Motion Artifact Free (MAF) technology. Additionally, its global shutter ensures that every pixel is exposed simultaneously, preventing distortion in high-speed imaging applications. Utilizing back-side illumination (BSI), the ELFIS2 achieves superior sensitivity and quantum efficiency, making it an ideal choice for challenging lighting conditions. This combination of advanced features makes the ELFIS2 particularly well-suited for scientific and space-based imaging applications requiring exacting standards.
Building upon advanced CMOS processes, this image sensor technology is tailored to meet the demands of high-resolution image capture with exceptional clarity and speed. It showcases the integration of sophisticated pixel architectures alongside cutting-edge analog-to-digital conversion techniques. These elements work in tandem to ensure outstanding image quality, making the technology ideal for applications like digital cameras, smartphones, and security cameras. The technology's core strength lies in its ability to deliver high dynamic range and low-light sensitivity, expanding its usability across different lighting conditions. It supports a wide array of pixel sizes and formats, allowing for customization based on specific application needs. Alongside these features, the technology provides efficient noise reduction and energy management, contributing to prolonged battery life and enhanced sensor performance. Moreover, the CMOS Image Sensor Technology benefits from sustained innovation and development, ensuring it remains at the forefront of imaging advancements. It is equipped with various supportive resources such as reference designs and application notes, which help integrate the sensors seamlessly into new products. This positions Tower Semiconductor's technology as a vital enabler for modern imaging devices where precision and detail are critical.
ZIA Image Signal Processing technology provides state-of-the-art solutions for optimizing image quality and enhancing vision-based systems. This technology is integral to applications requiring precise image analysis, such as surveillance cameras and automotive safety systems. It supports various image processing tasks, including de-noising, color correction, and sharpness enhancement, delivering superior visual output even under challenging conditions. ZIA's adaptable architecture supports integration into a range of devices, ensuring broad applicability across multiple sectors.
Silicon Library Inc. offers a high-quality DisplayPort/eDP IP that supports seamless transmission of audio and video data for modern display standards. Engineered for compatibility with DP/eDP 1.4 standards, this IP is geared toward contemporary computing and media devices requiring sharp and clear image displays. The DisplayPort/eDP interface is crucial for devices like monitors, laptops, and all-in-one PCs. It provides a robust link for transmitting high-definition content, capable of managing complex video signals with multiple streams efficiently. The IP is designed to support high-bandwidth communication, enabling it to handle resolutions required for newer display technologies, including 4K and 8K displays. Optimized for power and performance, the DisplayPort/eDP IP integrates features like adaptive sync, dynamic refresh rates, and multi-monitor support. Its low-power footprint and efficiency in managing resources make it suitable for portable and high-performance devices where display quality is paramount.
The MIPI solutions offered are comprehensive design and verification intellectual properties, continually updated to align with the latest specifications while maintaining backward compatibility. They cover an extensive range of standards such as CSI-2, DSI, UNIPRO, I3C, RFFE, Soundwire, BIF, and SPMI. These solutions are critical for high-speed interfaces required in mobile and automotive devices, ensuring robust performance across various applications.\n\nMIPI CSI-2 solutions, for example, support transmitter functionalities for Combo C/DPHY and receiver capabilities, offering complete solutions from version 1.0 through to 3.0. Each specification version builds on the last, ensuring that users can maintain compatibility with older systems while accessing cutting-edge features. DSI and DSI-2 offer similar comprehensive support, providing critical tools for display interfacing.\n\nOn top of this, auxiliary standards like I3C, RFFE, and Soundwire reinforce PRSsemicon's capacity to equip the latest devices with advanced communication capabilities. Their design includes master and slave functionality, ensuring comprehensive inter-device compatibility and communication efficiency. The continuous advancements in these IPs make them integral for any semiconductor-driven market, especially in technologically dynamic fields like automotive and consumer electronics.
The DB9000AXI Display Controller is engineered to interface seamlessly with Frame Buffer Memory via the AMBA AXI protocol, offering support for a wide range of display resolutions from basic QVGA up to advanced 8K panels. Besides baseline display capabilities, advanced versions feature enhanced processing attributes such as multiple overlay windows, hardware cursor functions, and high dynamic range (HDR) imaging. With features like Color Space Conversion and programmable resolution settings, this IP core meets diverse display demands across numerous applications.
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.
Novatek's power management controllers are designed to efficiently regulate the power requirements of digital devices. By optimizing power distribution and consumption, these controllers ensure devices operate with heightened efficiency and performance.\n\nThe robust design of Novatek’s power management controllers emphasizes reliability and longevity, crucial for maintaining device integrity under varied conditions. They are pivotal in balancing energy efficiency with processing demands, allowing digital devices to perform optimally without excessive power loss.\n\nThese controllers are integral components in enhancing the sustainability of electronic devices, resulting in extended battery life and reduced power costs. Novatek's focus on dynamic power solutions reflects their dedication to evolving with technological advancements and environmentally conscious practices.
The Alcora V-by-One HS Daughter Card by Parretto B.V. is designed to facilitate high-speed video data transmission with minimal wire insulation. Featuring V-by-One HS technology, it provides seamless connectivity for large video content transfer over fewer cables, supporting high-definition resolutions efficiently. Alcora's focus on V-by-One HS technology makes it suitable for applications where reduced cable clutter and high data transfer rates are necessary. It becomes an excellent choice for display applications that demand clean setups while transmitting vast amounts of data. By integrating this daughter card, system designers can achieve a streamlined architecture that supports robust video transmission without the associated clutter, keeping systems neat and efficient. Its compatible interface ensures it integrates well with existing video systems, offering scalable and future-proof solutions.
Himax's display drivers are crafted for expansive displays found in televisions, monitors, and other large-sized electronic panels. These drivers are engineered to provide accurate color representation and clarity, optimizing the viewer experience. With their high integration levels, Himax's display drivers are designed to support the latest trends in consumer electronics, ensuring seamless interfaces across various devices. The architecture of these drivers facilitates enhanced performance for high-definition and ultra-high-definition displays. By leveraging advanced algorithms, these components are capable of reducing motion blur and enhancing the overall visual impact. Designed for energy efficiency, they cater to the growing demands of eco-friendly electronic solutions. Adapting to fast-evolving market trends, these drivers address the need for improved refresh rates and resolution. The design focuses on maintaining image integrity while supporting growing data transmission requirements. Himax ensures that these products meet the rigorous standards expected in today’s dynamic technology ecosystem.
SEMIFIVE’s AIoT Platform targets smart environmental ecosystems, offering convergence of AI capabilities with IoT frameworks. This platform enhances connectivity and intelligence in next-generation smart devices and facilities, integrating edge computing and AI capabilities to enable intelligent data processing and real-time action. The AIoT platform is equipped with multi-core processing capabilities, providing energy-efficient solutions suited for edge environments. This facilitates distributed AI computations right where data is generated, significantly improving response times and reducing backhaul costs compared to traditional centralized models. Designed to support a wide range of devices and systems, the platform allows developers to build solutions that are scalable and adaptable to various IoT applications. It provides comprehensive hardware-software co-design solutions, simplifying the development process for applications like smart homes, industrial IoT systems, and intelligent transportation networks.
The MVUM1000 stands out as a compact, advanced linear ultrasound array designed for medical imaging. Featuring 256 elements, it integrates capacitive micromachined ultrasound transducers (CMUT), enhancing both power efficiency and sensitivity. This integration aids in high-quality medical diagnostics and imaging applications.\n\nOffered with a range of adaptive imaging modes, such as Doppler, these arrays facilitate multifaceted ultrasound applications, from portable devices to comprehensive cart-based systems. They provide exceptional lateral and axial imaging capabilities, meeting rigorous clinical needs.\n\nThe sensor array is also characterized by a high degree of integration with electronics, enabling seamless embedding into various platforms. Its flexibility in operation and customizable features allow for expansive usability in point-of-care situations, ensuring healthcare professionals can deliver precise diagnostics efficiently.
Arasan's MIPI DSI-2 Transmitter IP is designed to facilitate high-speed data transmission between video processors and display modules. It is compatible with the MIPI DSI-2 standard, delivering outstanding efficiency in the transfer of high-definition video content. Suited to a variety of display technologies, the IP significantly enhances the picture quality and refresh rate, supporting vivid multimedia experiences in devices such as smartphones, tablets, and in-vehicle infotainment systems. Engineered for seamless integration within existing infrastructures, this IP is ideal for applications where power efficiency is as critical as performance, delivering optimal power consumption, which extends battery life without compromising on quality. Its compliance with the DSI-2 standard allows for easy adaptability in evolving ecosystems, providing the flexibility needed to accommodate future development demands. The DSI-2 Transmitter IP is crafted to meet the stringent requirements of mobile and automotive industries, ensuring robustness and extending the usability of multimedia devices. This capability ensures that it remains a ubiquitous choice for manufacturers who are looking to deliver enhanced user experiences with reliable performance in high-bandwidth display operations.
Korusys' Video Wall Display Management System is a versatile solution designed to enhance visual presentations across multiple monitors. It accommodates input and output through HDMI or DisplayPort, and offers up to four distinct video outputs. With support for resolutions up to 3840x2400 for input and 1920x1200 for output at 60Hz, this system features configurable bezel compensation and advanced image processing capabilities. Users benefit from clone and stretch operational modes, in addition to a comprehensive software API for detailed configuration and control.
Himax specializes in developing display drivers tailored for mobile handsets, including smartphones and tablets. These drivers are finely tuned to ensure superior display quality, adapting to the compact and high-performance requirements of mobile devices. By focusing on high color depth and contrast ratios, these components deliver vibrant images and smooth transitions suitable for on-the-go, detailed screen use. The compact design ensures that these chips fit into the stringent space and power constraints typical of mobile devices. Implementing the latest technologies in display modulation, Himax's solutions enhance the user visual experience by enabling reduced latency and optimized power consumption. These characteristics ensure a better battery life and performance efficiency, which are critical factors for mobile technologies.
The Capacitive Proximity Switch by Microdul provides an advanced solution for energy-efficient touch sensing. Engineered to reduce system power consumption, this switch is adept at recognizing proximity and touch inputs with a high level of accuracy. It is suitable for integration in devices requiring responsive touch capabilities without incurring significant energy costs. Designed for versatility, the switch supports diverse applications ranging from individual keys to entire keypads and sliders. With its low-power design, it serves as a perfect component for electronics that aim to minimize energy consumption without sacrificing responsiveness. These capacitive sensors are particularly beneficial in modern touch interfaces, contributing to prolonged device operation on limited power budgets. This switch not only improves user experience by offering sensitive and reliable touch detection but also plays a critical role in the management of power use in portable and fixed installations. The energy efficiency of the capacitive switch facilitates the development of sustainable electronics, which are increasingly essential in today's environmentally conscious market.
The Flat Panel Display Interface for Advanced Processes is a highly adaptable interface solution tailored for modern display technologies. It supports multiple data protocols, ensuring seamless communication between the main processor and display units. This interface product optimizes data handling capacities, making it ideal for applications requiring high-speed data exchange and complex display management. Designed for advanced processes, this display interface is highly efficient, reducing latency and improving overall performance. It supports various display formats, allowing for the integration of cutting-edge display technologies into high-functioning devices. Its comprehensive design is intended to boost the performance of advanced electronic display systems, making it a vital component in the development of high-resolution display products. The interface's adaptable configuration supports a range of operating environments and applications, facilitating efficient implementation across diverse platforms. Its robust construction ensures a long lifespan, contributing to the development of sustainable and reliable electronic solutions.
Korusys presents the 12G-SDI Playback and Capture System, engineered for high-resolution video operations. It supports 4K UHD playback and capture with its quad bi-directional 3G-SDI capabilities. Featuring test pattern generation for comprehensive system diagnostics, this solution is ideal for professional environments requiring reliable high-definition video processing. Included as part of a package deal with the High Performance FPGA PCIe Accelerator Card, it offers seamless integration into existing infrastructures for enhanced media capabilities.
The iCan System® offers a comprehensive modular solution for In-Flight Entertainment (IFE) and Cabin Management Systems (CMS). Designed to integrate seamlessly with existing aircraft networks, it supports multiple communication needs, enhancing both cabin management and passenger experience. Its modularity allows for flexible configuration, tailoring to specific aircraft requirements.
The Display Interface solutions provided by InPsytech encompass high-performance interface technologies like DP 1.4, eDP 1.3, HDMI 1.4/2.0, and LVDS/OpenLDI PHYs. These interfaces are designed to support high-definition multimedia data exchange, critical for modern display applications. Featuring technologies such as MIPI D-PHY TX PHY and associated DSI controllers, these interfaces offer enhanced data rates and robust signal processing capabilities. The MIPI C/D Combo TX PHY and DSI controller cater to digital display needs, ensuring seamless integration and intuitive user interactions in devices like flat-panel displays and monitors. InPsytech's display solutions emphasize both performance and energy efficiency, making them highly suitable for battery-operated devices requiring prolonged usage times. By focusing on minimal energy usage without sacrificing display quality, these interfaces support the development of innovative and competitive multimedia products in a dynamic market.
The ant200 Vector Graphics Processor excels in 2D graphics rendering by providing high performance in compact devices. It strips down unnecessary functions to optimize for size and cost-efficiency, making it ideal for IoT products and mobile applications. This processor eliminates unnecessary features while upholding essential graphics processing tasks, ensuring that the final product remains both effective and economical. It fits seamlessly into low-power applications, delivering reliable graphics processing in resource-constrained environments.
The MIPI D-PHY Analog Transceiver by Arasan integrates compliance to MIPI D-PHY specifications, providing advanced solutions for interfacing with camera and display modules. Supporting data rates up to 2.5Gbps per lane, this transceiver ensures high-speed data transfer with minimal interference, making it an essential component in high-definition smartphone displays and camera modules. Designed for seamless integration, the D-PHY Analog Transceiver supports both transmission and reception of data, which enables manufacturers to employ the same PHY for different functionalities. This flexibility reduces the need for multiple component types in the system, optimizing the bill of materials and simplifying design complexity. Moreover, the transceiver boasts low power consumption, a critical factor for portable electronics emphasizing battery life without compromising performance. Arasan’s consistent support and upgrade options ensure the D-PHY transceiver remains a versatile and future-ready solution for any high-speed data application in mobile, automotive, and emerging tech sectors.
The iCan Screen 13.3" is a large-format, rugged display designed for cabin use in aerospace environments. It features certification with DO-254 and DO-178 standards, ensuring compliance with necessary safety and functional requirements. Tailorable to specific application needs, the display combines durability with high-definition quality, making it a preferred option for teams implementing advanced cabin management systems.
The iCan Screen 7" Retractable Display is a versatile monitor fitted for multiple video input formats. This retractable design suits complex aerospace systems where space management is crucial, offering streamlined integration into various cabin and cockpit setups. Its compatibility with various video formats adds to its flexibility, providing solutions for the dynamic needs of modern aviation environments.
The iCan Screen 6.5" Avionics Display is a rugged high-definition screen developed for both cockpit and cabin applications. Certified under DO-254 and DO-178, this display offers flexibility with its customizable design, ensuring it meets specific aircraft requirements. Its robust build guarantees reliability even in harsh aeronautical environments. The display's adaptability and certification make it a suitable choice for aerospace developers looking to integrate state-of-the-art visual technology.
The K3000 Vector Graphics Processor is tailored for delivering top-notch 2D graphics performance, particularly focusing on embedded devices. It supports APIs like OpenVG1.1, providing smooth and seamless 2D vector graphics rendering across various platforms. This processor is known for its high power efficiency and reduced footprint, making it suitable for portable devices and embedded systems. With robust compatibility for interfacing with digital displays, the K3000 is an optimal choice for UI-driven applications where power and performance are key.
The ant100 Mobile GPU focuses on providing efficient graphics processing capabilities for mobile devices. This GPU is designed to execute graphic rendering tasks with high efficiency, ensuring smooth performance in portable and energy-sensitive applications. Its architecture supports complex graphical functions while maintaining a low power profile, making it an excellent fit for smartphones, tablets, and other mobile electronics where extended battery life and reduced heat output are critical. With this GPU, users can experience superior graphics without compromising on device portability.
The MIPI (Mobile Industry Processor Interface) solutions from InPsytech, including the MIPI D-PHY TX & RX with DSI & CSI Controllers, are crafted to meet the demands of modern mobile and imaging applications. These interfaces facilitate high-speed data transmission between processors and imaging modules, vital for applications such as smartphones and digital cameras. Alongside the MIPI D-PHY, the MIPI CD PHY Combo TX & RX model extends versatility and performance, merging different MIPI standards into a unified solution. This flexibility enhances device functionality, supporting both transmission (TX) and reception (RX) needs in imaging and display technologies. Key features include low power consumption and high data integrity, enabling high-resolution image capture and display. These characteristics make the MIPI solutions particularly effective in applications where high-speed data transfer and minimal battery drainage are crucial, enhancing both efficiency and user experience.
Join the world's most advanced semiconductor IP marketplace!
It's free, and you'll get all the tools you need to discover IP, meet vendors and manage your IP workflow!
No credit card or payment details required.
Join the world's most advanced AI-powered semiconductor IP marketplace!
It's free, and you'll get all the tools you need to advertise and discover semiconductor IP, keep up-to-date with the latest semiconductor news and more!
Plus we'll send you our free weekly report on the semiconductor industry and the latest IP launches!