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.
The DB9000AXI Display Controller by Digital Blocks is a highly versatile IP core designed to interact seamlessly with frame buffer memory via an AMBA AXI protocol, interfacing directly with various display panels. It supports a broad range of display resolutions, from simple QVGA to advanced 4K and 8K displays, making it an excellent choice for high resolution display systems. It offers distinct features such as overlay windows, color space conversion, and supports advanced graphics like hardware cursors and high dynamic range (HDR) functionalities. This makes it well-suited for applications in consumer electronics, industrial displays, and more.
The SL-400X Mobile TV Integrated Receiver from Saankhya Labs represents a leap in mobile digital television technology. It merges the benefits of compactness with a complete array of features needed for mobile DTV reception. Utilizing advanced software-defined radio technology, the SL-400X ensures seamless reception of digital TV signals across different standards, making it perfect for mobile applications in a rapidly changing broadcasting landscape. Crafted to meet the demands of portable digital TV devices, the SL-400X is designed to provide high-quality reception in diverse geographic locations, whether urban or remote. Its high performance and adaptability ensure that users receive the best possible signal quality in every scenario, a crucial requirement for mobile multimedia consumers. The versatile architecture of the SL-400X allows for easy updates and adaptation to future technologies, safeguarding investments as broadcast standards evolve. Its efficient power consumption, combined with robust processing capabilities, guarantees consistent performance while conserving energy, a vital consideration for mobile and battery-operated devices.
SystemBIST is a revolutionary product within Intellitech’s IP portfolio, providing unparalleled capabilities for FPGA configuration and JTAG-based embedded testing. As a flexible plug-and-play device, SystemBIST allows the configuration of a wide range of IEEE 1532 or IEEE 1149.1 compliant FPGAs and CPLDs. This makes it highly versatile for design engineers looking to develop high-quality, self-testable products that can be reconfigured in the field, extending product life and adaptability. Built on patented architectures, SystemBIST simplifies typical configuration challenges by embedding built-in self-test (BIST) capabilities, thereby eliminating the need for complex software-driven BIT solutions. This device effectively compresses and stores test patterns and scripts within FLASH memory, allowing for comprehensive PCB testing wherever power is available. SystemBIST caters to a broad spectrum of applications, from normal operation reconfigurations to safe field updates, ensuring that the underlying firmware remains secure against potential threats like trojan bitstreams. Its user-friendly development tools facilitate rapid deployment and debugging, offering developers an efficient means of maintaining system integrity and performance over time.
This capacitive proximity switch by Microdul is crafted to provide exceptional energy efficiency, which is paramount for battery-powered applications. It's designed to identify touch, enabling various configurations such as individual buttons, keypads, and sliders. The device is perfect for making electronic interfaces responsive while conserving energy. This sensor is ideal for applications that require dynamic touch detection to enable or disable features or functions. The capacitive technology used in this switch is highly sensitive and reliable, recognizing a user's presence quickly and accurately. Its low power consumption allows it to operate for extended periods without demanding frequent battery replacements or recharge, making it a favored choice for portable and remote devices. Microdul's design allows the switch to be integrated into a wide range of products, including consumer electronics and industrial tools. This versatility, combined with its efficiency, makes it indispensable for developers focused on creating user-friendly products that demand minimal energy use.
The AIoT Platform engineered by SEMIFIVE is meticulously crafted to cater to the burgeoning demands of AI-powered IoT applications. It is built on the efficient and versatile SiFive dual-core U54 RISC-V architecture, paired with the LPDDR4x memory interface to ensure robust data handling and processing. Complemented by a comprehensive range of connectivity options, including USB3.0 and MIPI CSI, this platform is primed for edge compute applications. Specifically designed for smart home, robotics, and other AIoT applications, the platform aims to fuse intelligence with connectivity. It empowers developers by offering ready-to-use components that speed up development cycles, thereby facilitating quicker market entry strategies. These features are combined with an ideal balance of power consumption and performance to accommodate the typical requirements of IoT devices. The platform's flexibility in integrating various sensors and peripherals, alongside its strong processing capabilities, positions it perfectly for tasks that require real-time processing and responsiveness, working seamlessly in networked environments to provide intelligent, connected experiences.
ISELED is a breakthrough technology redefining automotive interior and ambient lighting by integrating a smart RGB LED driver within the LED package. This technology enables precise color calibration from the point of manufacture, as well as internal temperature compensation, thereby reducing the dependency on external control systems. The ISELED network is robust to environmental variations and compact enough to fit seamlessly within existing automotive designs. Furthermore, the protocol's enhancement includes a wide address range for individual LED control and advanced communication capabilities, making this system ideal for creating consistent and vibrant interior lighting experiences seamlessly.
Korusys' Video Wall Display Management System is engineered to process and display video content across an array of monitors with high precision and flexibility. Utilizing both Display Port and HDMI inputs, the system allows the presentation of video on multiple screens, supporting configurations up to 4 outputs. This capability is particularly beneficial for digital signage and large-scale public displays. The solution offers several configuration options, including cloning, stretching and bezel compensation, to tailor the video output according to specific display arrangements. It supports high resolutions up to 3840x2400p60, ensuring sharp and clear visual presentations. Ease of use is further enhanced through a user interface that facilitates easy control and configuration. By leveraging FPGA technology, the Video Wall Display Management System exhibits low latency and reliable performance crucial for real-time display applications. Whether in commercial or public settings, such as conferences or exhibitions, this system ensures seamless synchronization across multiple screens, improving the visual experience significantly.
In production since 2017 with top-tier manufacturers, Uniquify’s Video Display Technology is engineered for 4K and 8K UHD TV applications, harnessing an array of advanced hardware-assisted image enhancement algorithms. Implementations include AI-enabled super-resolution, high dynamic range imaging, and color compensation techniques that significantly elevate image quality while maintaining cost efficiency. The technology incorporates Adaptive Color Compensation (ACC) and Dynamic Capacitance Compensation (DCC) to provide consistency in luminance response and minimize motion blur—critical attributes for modern display systems. These features ensure superior picture quality by maintaining consistent gamma curves for primary colors and eliminating common visual artifacts in fast-moving scenes. Equipped with Uniquify's proprietary algorithms, such as those for DeMura and Dither processing, the technology offers high flexibility in enhancing color quality and contrast. This suite of image processing capabilities ensures that the Video Display Technology remains at the forefront of innovation for high-definition consumer electronics, making it ideal for partnerships with leading display manufacturers.
Dyumnin Semiconductors' RISCV SoC is a powerful, 64-bit quad-core server-class processor tailored for demanding applications, integrating a multifaceted array of subsystems. Key features include an AI/ML subsystem equipped with a tensor flow unit for optimized AI operations, and a robust automotive subsystem supporting CAN, CAN-FD, and SafeSPI interfaces.\n\nAdditionally, it includes a multimedia subsystem comprising HDMI, Display Port, MIPI, camera subsystems, Gfx accelerators, and digital audio, offering comprehensive multimedia processing capabilities. The memory subsystem connects to various prevalent memory protocols like DDR, MMC, ONFI, NorFlash, and SD/SDIO, ensuring vast compatibility.\n\nThe RISCV SoC's design is modular, allowing for customization to meet specific end-user applications, offering a flexible platform for creating SoC solutions with bespoke peripherals. It also doubles as a test chip available as an FPGA for evaluative purposes, making it ideal for efficient prototyping and development workflows.
The SFA 100 is designed for handling data processing tasks at the edge of IoT networks. This component is built to efficiently process data streams, making it ideal for edge computing environments where low latency and high throughput are crucial. It plays a vital role in enhancing the performance and efficiency of IoT networks by managing data processing directly at the source, thus reducing the need for data transmission back to central servers.
The iCan Touch 6.5" Control Display is an advanced touchscreen interface designed for centralized control of in-flight entertainment (IFE) and cabin management systems (CMS). This 6.5-inch display combines robustness with intuitive touch capabilities, ideal for use in both cockpit and passenger compartments. Meeting the rigorous standards of DO-254 and DO-178C certifications, this display ensures precise control and reliability, critical for the seamless operation of integrated aircraft systems. The touch interface is designed to be highly responsive and user-friendly, catering to diverse operational needs within the aircraft. Providing a customizable platform, the iCan Touch 6.5" can be tailored to meet specific airline requirements, offering flexibility in system integration and operation. Its durable construction and advanced technology make it a key asset in enhancing aircraft system efficiency and passenger interaction, setting a new standard for touchscreen displays in aviation.
The SFA 200 is engineered for single-channel video and data processing, making it an excellent solution for applications that require robust media handling capabilities. It provides high-performance video processing, ensuring smooth data flow and quality output. This product is crucial for devices that demand reliable video and data processing, such as cameras and streaming devices, where maintaining video integrity and data consistency is paramount.
Himax offers an extensive range of display drivers specially designed for large-sized panels, catering to a diverse set of applications from monitors to large-screen TVs. Their products facilitate exceptional control over screen elements, enhancing picture quality and viewer experience. The drivers integrate various functionalities like timing control and signal processing, ensuring seamless synchronization of screen refresh rates and vivid color rendering. By offering a consolidated solution with features like source drivers, gate drivers, and operational amplifiers, Himax's display drivers support both analog and digital displays. These features are crucial for achieving high-resolution output that modern consumers expect. The drivers are highly integrated to enable efficient power management and cost-effective manufacturing. The large-scale application of these drivers in consumer electronics and automotive displays showcases their versatility and adaptability. Himax continues to innovate to meet modern display demands, emphasizing energy efficiency and superior graphical performance.
The mobile handset display drivers by Himax are engineered to bring top-tier performance to small and medium displays found in smartphones and portable devices. These drivers are crucial in providing vivid color reproduction and high refresh rates, ensuring an optimal user experience for mobile applications. They combine multiple functions like source driving, gate control, and timing management into a compact design, tailored for mobile handsets. Built with integration in mind, these display drivers incorporate essential circuitry such as frame buffers and DC-DC converters to help manage power efficiently while maintaining clarity and continuity in display outputs. The compact integration supports the current demands for thinner, more energy-efficient mobile devices that still deliver superior screen performance. Additionally, their adaptable design allows manufacturers to easily incorporate the drivers into various handset models, supporting a wide range of operating conditions and ensuring compatibility with different display technologies. This adaptability signifies Himax's commitment to staying at the cutting edge of mobile technology and enhancing user interface solutions.
The UG5000W is an all-in-one spray gun cleaner designed to streamline the cleaning process in painting operations. Essential for both primers and clear coats, it utilizes a sophisticated setup with a 4” diaphragm pump for automatic cycle cleaning, while manual cleaning is reserved for waterborne base coats. Its innovative design reduces the footprint and operational costs while enhancing shop productivity. Constructed to handle two spray guns and two pots simultaneously, the UG5000W contributes significantly to the efficient organization and workflow in professional painting environments. By integrating robust construction with user-friendly features, it provides consistent and reliable cleaning performance that boosts overall shop productivity. The UG5000W enhances environmental sustainability by reducing solvent consumption and waste, making it an invaluable asset for any forward-thinking painting business looking to improve efficiencies while reducing environmental impact. Its versatile and efficient design, paired with superior customer satisfaction, underscores its value in modern painting operations.
The ant200 Vector Graphics Processor from Digital Media Professionals specializes in providing efficient vector graphics solutions tailored for compact and energy-constrained devices. It utilizes DMP's advanced graphics processing techniques to furnish high-quality vector rendering that is both rapid and efficient. This processor supports a wide range of vector tasks, optimizing performance while minimizing power consumption, a perfect fit for mobile and embedded systems striving for enhanced graphical representation. With a focus on scalability, it caters to diverse use cases from digital signage to wearable devices. DMP has embedded significant flexibility into the ant200, which supports current vector graphics standards, thereby enabling smooth integration into existing graphical ecosystems while paving the path for future technological developments.
DMP's ant100 Mobile GPU is engineered for lightweight devices requiring efficient, high-performance graphics processing. Designed to operate under tight power constraints, it facilitates comprehensive graphics capabilities without excessive energy consumption, ideal for mobile gadgets and portable electronics. This GPU boasts support for a wide array of graphics standards, ensuring compatibility with modern mobile applications requiring augmented reality or gaming graphics. Its architecture strikes a perfect balance between power consumption and graphic output quality, vital for sustaining prolonged device use without frequent charging. The ant100 stands as a crucial component in fostering rich visual experiences on mobile platforms, maintaining performance levels necessary for immersive application interfaces while operating within limited power budgets.
The ANX2403 is an advanced low-power embedded DisplayPort (eDP) timing controller (TCON) that is compliant with eDP 1.4 specifications, supporting the efficient management of high-resolution display panels. It incorporates Panel Self Refresh (PSR) and Selective Update PSR (PSR2) functionalities, which are essential in reducing power consumption without compromising visual performance in various device applications like thin displays for tablets and laptops. This controller is specifically tailored to manage two-lane panel designs, ensuring the seamless operation of high-definition displays with minimal power usage. The ANX2403 allows device manufacturers to create slimmer, smarter, and battery-efficient displays, critical for modern portable devices where energy efficiency and display quality are paramount. The integration of technologies such as rapid and quiet link features allows for swift communication between components, providing quick refresh rates and ensuring visual data integrity is maintained. Its optimized architecture supports configurations in high-end devices requiring consistent, reliable display output, positioning it as a vital component in the development of next-generation display technologies.
Digital Media Professionals' K3000 Vector Graphics Processor is designed to deliver robust vector graphics computation to a multitude of devices. This processor integrates seamlessly into existing platforms, providing enhanced graphics capabilities suitable for both consumer electronics and industrial applications. Built to harness DMP's extensive experience in graphic technologies, the K3000 offers exceptional rendering performance by optimizing processing throughput for vector graphics. Its compatibility with leading graphics standards ensures that it supports contemporary creative and enterprise applications effectively. This vector GPU amalgamates high-speed processing with energy-efficient operations, allowing it to function as the backbone for advanced visual displays across diverse technological ecosystems. The K3000 stands as a testament to DMP's innovative approach to maximizing vector graphics potential in next-generation devices.
The Display Controller Family from TES Electronic Solutions encompasses a range of IP cores designed to facilitate advanced display management and control within semiconductor systems. These IP cores are optimized for high performance, supporting up to high-definition resolutions and offering a myriad of features such as pixel-level manipulation, scaling, and rotation, suitable for a broad array of applications, including consumer electronics, automotive displays, and industrial monitors. TES's display controllers provide efficient handling of video inputs and outputs, ensuring seamless integration of graphical content from various sources. These controllers are designed with flexibility in mind, allowing for easy adaptation to different display types and configurations, thus meeting the specific needs of diverse industries. Engineered for reliability and precision, the TES Display Controller IPs are built to support demanding environments where clear and accurate visual output is critical. With comprehensive integration support and customization options, TES display controllers ensure that products can deliver the best visual experience possible whenever high-quality graphics are required.
The Warping Engine IP core by TES Electronic Solutions is designed to enhance image processing capabilities, providing dynamic image transformation features that can adapt to various distortion correction requirements. This IP is pivotal in applications where precision image alignment, dewarping, and transformation are needed. Engineered to deliver real-time processing, the Warping Engine excels in environments where consistent image quality and speed are paramount, such as virtual reality systems, high-end photography, and advanced graphics applications. The core’s ability to process complex algorithms efficiently enables seamless integration into devices that require high-fidelity image corrections. This versatile IP core not only supports a wide range of image transformation techniques but also offers customization to align precisely with the specific needs of the user’s application. Whether applied in automotive display systems or sophisticated video editing tools, TES’s Warping Engine provides a robust solution for managing image artifacts and enhancing visual output across multiple use cases.