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 is an advanced Verilog RTL IP core designed to interface frame buffer memory to various display panels, supporting resolutions from 320x240 to 1920x1080 Full HD, with capabilities expanding into 4K and 8K. It serves ASIC and FPGA design teams, providing a versatile platform for high-resolution display requirements. The controller supports on-chip AMBA interconnects to manage data flow between the processor, display, and frame buffer memory, ensuring optimal performance for graphics-rich applications. Optional features include hardware cursor, overlay windows, high dynamic range (HDR), and alpha blending, making it adaptable for diverse multimedia functionalities.
Korusys's Video Wall IPr efficiently processes input from HDMI or DisplayPort sources and displays it across multiple monitors. Designed for applications like digital signage and public displays, it can handle resolutions up to 3840x2400p60 input and 1920x1200p60 output. The product supports various configurations, including cloning and stretching with bezel compensation, enabling seamless integration into different environments. The package includes a comprehensive API for control and configuration, ensuring adaptability to diverse project requirements.
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.
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.
SFA 100 is an advanced solution optimized for edge IoT data processing. It is designed to handle real-time data inputs efficiently, which is essential in IoT applications where quick response times are crucial. The integration capabilities ensure seamless interconnectivity with existing systems, expanding the scope and functionality of IoT networks. Furthermore, it emphasizes low power consumption and high-performance metrics to enable prolonged operational periods without compromising processing speed. The SFA 100 supports a robust architecture that combines powerful processing with minimal latency. This architecture enables smart data analytics right at the edge, reducing the need to send all data back to centralized servers. As a result, it helps in decreasing bandwidth usage and latency, offering immediate insights and actions, which is particularly beneficial in industrial IoT setups. It also includes advanced security features to safeguard sensitive data from potential breaches, making it ideal for use in environments where data integrity and confidentiality are paramount. These features are complemented by its ability to adapt to varying data loads and processing requirements, making the SFA 100 a versatile choice for different IoT applications.
The SL-400X Mobile TV Integrated Receiver is designed for an era where mobile consumption of media content is predominant. This compact device supports next-generation mobile digital television viewing, providing consumers with flexible access to broadcast TV channels on-the-go. Engineered by Saankhya Labs, the SL-400X integrates seamless signal reception with powerful decoder capabilities to enhance user experiences, even in environments with weaker signal strengths. Its software-defined nature allows for seamless adaptation to various tech upgrades and advancements in broadcasting standards. By adopting a low power, compact design, the SL-400X harmonizes high performance with portability. This makes it a preferred choice for mobile devices while ensuring audiences receive high-quality multimedia content reliably and effectively.
Himax specializes in display drivers that are crucial for large-sized LCDs used in environments ranging from business presentations to consumer electronics. These drivers integrate essential components such as timing controllers and operational buffers, enhancing image clarity and response times across devices like large monitors and high-definition TVs. With a focus on bringing innovation to display technology, Himax continues to deliver tailored solutions that address the intricate needs of modern large-format displays.
ISELED technology revolutionizes automotive lighting by embedding essential functions and controls in a single RGB LED component, thus streamlining system complexity and cost. This smart technology calibrates color and compensates for temperature internally, reducing the need for external calibration efforts. ISELED enables dynamic lighting solutions through a digital component that supports a wide array of automotive RGB or tunable white LED applications. The bidirectional communication protocol simplifies the addressing and control of each LED within a system, using a 24-bit value to manage color uniforms, which does away with traditional PWM control. This makes ISELED a perfect choice for precise lighting systems needed in modern vehicles, offering unprecedented ease of use and installation. With its robust design meeting automotive EMC standards, ISELED supports minimal cable distances via external filtering, combined with efficient power delivery from a single 12V bus system. It is well-suited for ambient and functional lighting, dynamic lighting effects, and even integrates seamlessly with larger light and sensor networks within vehicles.
Himax offers a range of display drivers designed specifically for mobile handsets. These drivers efficiently combine key functionalities like the source driver, gate driver, timing controller, and more into a single chip. This integration simplifies the circuitry needed for compact devices like smartphones and tablets, enabling rich display quality while maintaining low power consumption. By offering these comprehensive chips, Himax significantly enhances the visual and functional capabilities of mobile handsets.
The SFA 200 module is tailored for single-channel video and data processing, integrating sophisticated functionalities that optimize video data handling. It is specially engineered for applications needing precise video capture and streaming efficiency without overwhelming system resources. By leveraging state-of-the-art technology, it processes video data with high accuracy while maintaining outstanding computational speed. This product is adept at managing various video formats and can easily convert between these types, delivering superior compatibility for video processing needs. Additionally, its design is geared towards reducing power consumption, making it favorable for energy-conscious applications in consumer electronics or mobile environments where battery life is a critical factor. To further this efficiency, the SFA 200 includes tools for data compression and decompression, which are invaluable in preserving bandwidth and storage. Security is another highlight, with built-in measures to ensure data integrity during processing and transmission, thus supporting applications with stringent security requirements.
SystemBIST is a sophisticated, vendor-independent plug-and-play IC tailored for the flexible configuration of FPGAs on PCBs. The aim of this solution is to simplify the FPGA configuration and testing processes by eliminating the need for PROMs and complex firmware. SystemBIST utilizes the IEEE 1149.1 and IEEE 1532 standards, ensuring broad applicability across different vendor products while maintaining high quality and configuration flexibility.\n\nThe hallmark of SystemBIST is its ability to execute deterministic Built-In Self Test (BIST) for PCBs and system-level components. This significantly simplifies the testing process as embedded test patterns and scripts can be reused, providing reliable testing scenarios without additional software efforts. SystemBIST’s capabilities extend beyond FPGA programming, enabling re-programming and testing of CPLDs and other components in the field, ensuring products remain adaptable and secure.\n\nWith comprehensive support from Intellitech’s Eclipse Test Development Environment, SystemBIST provides a centralized framework for the generation, validation, and application of test suites, integrating seamlessly with existing system configurations. This capability is complemented by SystemBIST’s robust anti-tamper and counterfeit protection, featuring embedded security measures to safeguard the integrity of designs.
This capacitive proximity switch is an exemplar of low-power engineering, specifically designed to maintain optimal energy efficiency within electronic devices. It's sensitive to the slightest touch, providing interactive responses suitable for creating seamless Touch-Event interfaces, from individual buttons to complex keyboards and sliders. The device focuses on minimizing power drain, which is particularly beneficial for battery-operated systems. Its design enables it to function both as a wake-up trigger or as a tool for feature selection, enhancing user interaction with minimal power consumption. These attributes make it proficient for a variety of applications needing efficient energy usage while maintaining performance.
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.