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 core by Parretto offers a comprehensive solution for implementing DisplayPort functionalities in electronic designs. This IP supports both source (DPTX) and sink (DPRX) configurations, making it a versatile choice for any DisplayPort application. It operates at link rates of 1.62, 2.7, 5.4, and 8.1 Gbps, including embedded DisplayPort rates, and supports 1, 2, and 4 DP lanes. The IP core is built with adaptability in mind, featuring native video and AXI stream video interfaces. It supports both Single Stream Transport (SST) and Multi Stream Transport (MST) modes, accommodating diverse video streaming needs. With dual and quad pixels per clock transmission, it can deliver up to 10-bit video in various colorspaces such as RGB, YCbCr 4:4:4, YCbCr 4:2:2, and YCbCr 4:2:0. Additionally, the DisplayPort 1.4 IP core includes a secondary data packet interface for audio and metadata transport, enhancing multimedia performance. It comes with an accessible Video Toolbox that includes a timing generator, test pattern generator, and video clock recovery feature. Parretto provides full source code access, ensuring customizable integration and increased product reliability.
The DisplayPort/eDP by Silicon Library is designed to provide high-performance interfaces capable of delivering exceptional video clarity and fidelity. Supporting DisplayPort 1.4 standards, this module is ideal for high-resolution displays, ensuring sharp and fluid visual output. This IP ensures seamless data transfer for video signals with high bandwidth efficiency, making it extremely suitable for advanced multimedia applications. It supports a range of resolutions, including Ultra HD, and facilitates excellent color depth and dynamic range in visual displays. Silicon Library's DisplayPort/eDP module offers exceptional flexibility in integration across a plethora of consumer electronic devices, enhancing their visual performance. With features optimized for energy efficiency and reduced latency, this product is perfect for modern applications that demand the pinnacle of video output technology.
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.
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.
The iCan PicoPop® is a miniaturized system on module (SOM) based on the Xilinx Zynq UltraScale+ Multi-Processor System-on-Chip (MPSoC). This advanced module is designed to handle sophisticated signal processing tasks, making it particularly suited for aeronautic embedded systems that require high-performance video processing capabilities. The module leverages the powerful architecture of the Zynq MPSoC, providing a robust platform for developing cutting-edge avionics and defense solutions. With its compact form factor, the iCan PicoPop® SOM offers unparalleled flexibility and performance, allowing it to seamlessly integrate into various system architectures. The high level of integration offered by the Zynq UltraScale+ MPSoC aids in simplifying the design process while reducing system latency and power consumption, providing a highly efficient solution for demanding applications. Additionally, the iCan PicoPop® supports advanced functionalities through its integration of programmable logic, multi-core processing, and high-speed connectivity options, making it ideal for developing next-generation applications in video processing and other complex avionics functions. Its modular design also allows for easy customization, enabling developers to tailor the system to meet specific performance and functionality needs, ensuring optimal adaptability for intricate aerospace environments. Overall, the iCan PicoPop® demonstrates a remarkable blend of high-performance computing capabilities and adaptable configurations, making it a valuable asset in the development of high-tech avionics solutions designed to withstand rigorous operational demands in aviation and defense.
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.
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.
Designed for seamless integration of the V-by-One HS interface with FPGA development platforms, the Alcora V-by-One HS Daughter Card supports high-speed video data transmission. This card can interface with FPGA boards using 8 RX and 8 TX lanes, allowing for extensive bandwidth utilization. The Alcora card is distinguished by its two available versions, differing by their header pin count: 51-pin and 41-pin. Optimized for high-definition video transmission, it supports resolutions of 4K at 120Hz or 8K at 30Hz by combining two daughter cards for enhanced lane capacity. To maintain signal integrity, Alcora incorporates two clock generators to manage transceiver reference clock synthesis and reduce recovered RX clock jitter. As a high-speed digital video interface solution, it is tailored particularly for display applications that demand rigorous performance and reliability standards.
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.
SEMIFIVE's AIoT Platform is engineered to drive the convergence of AI and the Internet of Things (IoT), facilitating smart, interconnected devices across various sectors. This platform is tailored for designing systems that require seamless integration of AI capabilities into IoT frameworks, offering a unique combination of flexibility and capability. Emphasizing energy efficiency and adaptability, the platform supports the development of edge-computing devices, smart home applications, robotics, and voice processing technologies. Featuring high-efficiency processors, it is designed to handle diverse data streams and perform real-time processing while maintaining low power consumption. Through its pre-integrated and verified components, the AIoT Platform simplifies the design process, allowing for rapid prototyping and deployment. SEMIFIVE empowers developers to create innovative solutions swiftly, adapting to the unique demands of IoT ecosystems and providing a robust foundation for future smart technologies.
Himax provides a comprehensive portfolio of display drivers designed for large-sized panels. These ICs are essential in applications such as LCD TVs, monitors, and notebooks, where they serve functions like timing control, source driving, and programming gamma/Vcom. Himax's display drivers are engineered to deliver excellent image quality, reliability, and compatibility with major panel makers situated in Korea, Taiwan, China, and Japan. By incorporating advanced technologies, these drivers support various resolution standards while maintaining efficient power consumption, which is crucial for large display panels. As a market leader, Himax continues to innovate in handling large formats, ensuring optimal performance and seamless integration in consumer electronics products. These drivers are tailored to deliver strong visual performance across a wealth of devices. Whether for automotive, consumer electronics, or TVs, Himax ensures that each display driver withstands the rigorous demands of high-definition content delivery. Their dedication to providing robust solutions is evidenced by their collaborations with leading display manufacturers globally, ensuring their products align with the evolving needs of end-users in different markets. Through a meticulous focus on innovation and quality control, Himax’s display drivers cater to critical industry standards while fostering outstanding performance enhancements. Their strategic approach ensures they remain at the forefront of the display technology domain, offering pioneering solutions that align with modern viewing preferences.
Korusys's Video Wall System transforms conventional display management with versatile video processing capabilities for large format displays. Featuring support for HDMI and DisplayPort inputs, it allows videos to be displayed across multiple monitors, achieving stunning visual configurations. With the ability to clone, stretch, or independently configure outputs, it is highly adaptable for digital signage and public displays. The Video Wall System integrates EDID parsing for seamless resolution management and includes a comprehensive software API paired with a GUI for effortless system control. Its modular design ensures flexibility, allowing integration into existing AV infrastructures or scalable deployment for larger screens through linking multiple FPGAs.
The Capacitive Proximity Switch from Microdul is an energy-efficient solution for detecting touch and proximity in electronic devices. This switch is characterized by its low power requirements, aiding in the extension of battery life for handheld and portable gadgets. Its adaptability allows it to be used for single keys, keypads, sliders, or proximity switches. The device can efficiently distinguish between different types of touch events, helping select features or wake up devices without unnecessary energy consumption.
The Guiliani GUI Framework is a comprehensive solution for developing sophisticated graphical user interfaces tailored for embedded systems. Featuring an intuitive design environment, it allows for the creation of innovative and responsive GUIs across various hardware platforms. The framework supports a wide range of widgets and controls, offering developers the flexibility to craft tailored user interfaces that enhance the user experience. The Guiliani software is engineered to optimize performance while maintaining low-resource utilization, ensuring smooth and efficient operation on devices with constrained computing power. With its wide compatibility and extensive functionality, the framework is perfect for industrial, consumer, and automotive applications where an engaging and functional user interface is essential.
Specializing in components for mobile handset displays, Himax offers integrated display driver solutions that encompass programming, voltage control, and driving for various components within a single chip. These chips integrate source and gate drivers, timing controllers, frame buffers, and DC circuits, optimizing them for smartphones and tablets. The intricacy of these drivers allows for highly efficient power management and superb image clarity, maximizing battery life while ensuring dynamic performance for today's high-resolution mobile displays. Himax's mobile handset display drivers are engineered to meet the demands of mobile manufacturers by delivering cutting-edge features and performance optimizations. By consolidating key display functions into a compact solution, their drivers enhance the efficiency of handset displays without sacrificing image quality. This makes them crucial for makers seeking to improve energy efficiency and image rendering fidelity in mobile devices. In a market where consumer expectations are continually heightened with every new device release, Himax's mobile display drivers provide a competitive edge by boosting display technology capabilities. They align with industry protocols and ensure devices can deliver vibrant, precise visuals even in variable environmental conditions, thus reaffirming their position as a leader in the mobile handset segment.
Designed for the evolving needs of modern flat panel displays, this interface IP ensures seamless integration into advanced processes, aiding the development of next-generation visual display technology. It is engineered to enhance data transmission speeds, maintain power efficiency, and support various display types, including LCD and OLED technologies. This IP supports a multitude of interface standards such as LVDS, mini-LVDS, and MIPI D-PHY, allowing for versatile application across various display architectures. Ensuring high-speed and high-reliability data transfers, the interface is pivotal for applications demanding superior display resolutions and refresh rates, such as in consumer electronics and digital signage. By optimizing data and signal handling, the interface contributes to reducing noise, improving signal integrity, and maintaining color accuracy. Its compatibility with high-performance display drivers makes it highly effective in high-definition multimedia solutions, ultimately enhancing the user’s visual experience. Emphasizing eco-friendly operation and minimal latency, this interface is critical for future-ready display technologies.
Since 2017, Uniquify's Video Display Technology has been a cornerstone for Tier-1 manufacturers of 4K and 8K UHD televisions. This technology is equipped to deliver superior image quality through a range of innovative techniques such as AI-enabled super-resolution and dynamic color adjustments. By employing state-of-the-art algorithms, Uniquify enables upscaling of video content in a cost-effective manner without compromising on quality. The super-resolution algorithms developed by Uniquify can scale images remarkably, turning Full HD signals into Ultra HD formats and beyond. Additionally, by utilizing adaptive color compensation (ACC), the display technology offers precise color calibration and luminance control, ensuring vibrant and consistent imagery. The implementation of dynamic capacitance compensation (DCC) further refines image quality by mitigating motion blur, especially useful for fast-moving sequences prevalent in modern digital playback. This robust set of features makes the Video Display Technology ideal for televisions, monitors, and digital signage, guaranteeing a high-grade viewing experience across multiple devices. By consistently delivering superior display quality and product adaptability, Uniquify’s solution enhances both the consumer experience and manufacturability for its industry partners.
Polybus Systems offers a suite of customizable FPGA test patterns for Xilinx devices, consisting of over 400 patterns intended to scrutinize the internal workings and interconnection paths of FPGAs. This suite is essential for detecting handling-induced failures and enhancing future upgradeability of FPGA-based systems. Conducting in-system tests, these patterns significantly heighten the reliability of the components, offering comprehensive coverage beyond standard manufacturer screenings.
The 12G-SDI Playback and Capture solution by Korusys offers high-definition video handling capabilities through versatile FPGA images. Designed for seamless integration with PCIe interfaces and companion Linux-based software, it facilitates video capture and playback via Quad 3G-SDI. This system can generate test patterns and engage in user-friendly data transfer, optimized for extensive video processing needs. The solution is engineered to support high throughput and low latency requirements, making it suitable for demanding video applications that require efficient signal transmission and handling. Its flexible framework supports user-defined configurations, allowing it to be tailored for specific project requirements.
The ant200 Vector Graphics Processor stands out for its optimization in size and cost-effectiveness while delivering robust 2D graphics performance. It is more compact than its predecessors by stripping away unnecessary technical features, making it ideal for embedded systems with constrained resources. Its design supports a wide range of display resolutions, providing flexibility for device integration without compromising on graphics quality.
The Display Interface product offerings are engineered to address modern display connectivity requirements, providing robust PHYs for DP, eDP, HDMI, LVDS, and MIPI protocols. These interfaces are critical for high-resolution video display and interaction, offering support for various digital video formats. With a focus on reducing electromagnetic interference and power consumption, the Display Interface solutions maintain superior video quality across different devices. The flexibility to switch between different display protocols makes this suite essential for consumer electronics, industrial applications, and automotive displays. Its adaptability ensures it meets rigorous standards for performance and reliability in fast-evolving digital display environments.
The Display Controller CDC is a highly versatile controller designed to handle a multitude of display interfaces. It is adept at supporting various display types, providing critical functionalities such as image scaling, color correction, and panel driving. This controller is specifically engineered to accommodate high-resolution displays, making it ideal for devices ranging from smartphones to complex industrial equipment that necessitate precise image rendering. Built for seamless integration, the CDC controller supports multiple standard and proprietary interfaces, enabling it to connect effortlessly with different display technologies and processors. Its robust feature set and compatibility make it an indispensable component for ensuring quality display management in advanced electronic systems.
The Warping Engine from TES is engineered to provide flexible image transformation capabilities across various electronic devices. It focuses on advanced geometric corrections, including rotation, scaling, and perspective adjustments, allowing for precise alignment and representation of visual data. This engine is particularly useful in display systems where image distortions must be corrected for clarity and accuracy, such as in projectors and camera systems. Optimized for efficiency, the Warping Engine ensures minimal resource consumption while maintaining high-quality output. Its integration into devices where visual integrity is critical greatly enhances system functionality and user satisfaction. By offering detailed control over image presentation, the Warping Engine supports innovative applications that demand exceptional visual standards.
Mobile Industry Processor Interface (MIPI) technologies are crucial for the seamless connection of processors to peripheral devices in mobile and other portable applications. The MIPI suite includes D-PHY and Combo PHY options, offering TX & RX capabilities along with DSI and CSI controllers. This allows for high-speed data transfer with minimal power usage, meeting the demands of modern mobile devices. Designed for flexibility, MIPI solutions support a wide range of applications in multimedia and visual systems, improving signal integrity and reducing interference. The sophisticated design is integral for developing new mobile technologies and maintaining high standards in device interoperability and performance.
The ant100 Mobile GPU is designed for portable and mobile devices, optimizing performance for 3D graphic rendering. This GPU combines power efficiency with high graphical throughput, addressing the needs of gaming and multimedia applications on mobile platforms. Its architecture is crafted to manage resource constraints efficiently while delivering a premium graphical experience, making it perfect for smartphones and other handheld devices.
The K3000 Vector Graphics Processor is tailored for high-performance and low-power 2D vector graphics processing. Emphasizing industry-leading Power/Performance/Area (PPA) metrics, it is based on OpenVG 1.1 standards, offering seamless integration with UI applications in cameras and printers. The processor supports a wide array of applications in digital cameras, media devices, and automotive instruments, delivering smooth 2D rendering to enhance user experience.
The LittleBee family of FPGAs is known for its flash-based non-volatile design, offering low power consumption and minimal package sizes, as small as 2.4x2.3mm. These FPGAs are particularly suited for I/O intensive applications, providing solutions for source synchronous interfacing and bridging in systems using protocols such as MIPI CSI-2, MIPI DSI, USB 2.0, Ethernet, and HDMI. These devices are tailored for hardware management applications due to their instant-on capability and built-in security functions. LittleBee FPGAs are further enhanced by features such as extended memory, hardened ARM Cortex-M processor cores, and Bluetooth Low Energy (LE), enriching their functionality and broadening their application scope compared to traditional FPGA offerings. Notably, the LittleBee series enhances its capabilities with an emphasis on quick boot sequences and robust security, making it suitable for applications spanning from consumer electronics to industrial applications requiring compact and efficient FPGA solutions.
The GPU Overlay Module accommodates the overlay of anti-aliased 2D graphics and text on 30-bit RGB video streams. This IP core extends the functionality of the Text Overlay Module by adding advanced graphics features, making it suitable for on-screen display applications where professional-grade aesthetics are required. It integrates seamlessly with user graphics systems, enabling vibrant, interactive graphical interfaces.
Zipcores' Text Overlay Module enables the insertion of text onto 24-bit RGB video streams. Users can define text characteristics such as font size, transparency, animation, and highlighting. The module supports various interfacing options, including I2C, SPI, or UART, facilitating easy integration with existing systems. It is ideal for broadcast environments where customizable and dynamic text insertion is essential.
The Display Controller Family from TES includes a range of versatile display controllers tailored to manage diverse display technologies. These controllers are engineered to handle different panel types and resolutions with capabilities such as color management, image processing, and interface adaptation. Designed for seamless integration, they support multiple digital and analog signal formats, making them compatible with a variety of display requirements. The family aims to deliver clarity and precision in image rendering, suitable for products ranging from mobile devices to large-scale industrial applications. With high efficiency and performance, these controllers ensure reliable and consistent display outputs across different operating conditions.
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