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This Integer-N PLL-based HF Frequency Synthesizer and Clock Generator presents a robust solution for high-frequency signal generation. Its capacity to synthesize frequencies within the high-frequency range, specifically from 2.424 MHz to 9.697 MHz, by precise increments, ensures finely tuned output signals. This synthesizer supports flexible phase options, offering outputs in quadrature or non-shifted modes, which minimizes signal distortion and maximizes coherence. Silicon-proven within XFAB's XT018 technology, it can be adapted to other technological platforms as needed. This generator is ideal for applications demanding precise frequency control and stability, such as communications equipment and complex digital systems.
The Linear Temperature Sensor from TES is designed to generate a voltage signal that changes linearly with temperature, providing real-time monitoring capabilities vital for various applications. It delivers an output voltage that scales linearly with the junction temperature and is customizable to deliver 2V output at 60°C. This sensor is optimized for integration into electronic systems, ensuring precise environmental control within devices. It operates with a single 4V supply voltage and is fully silicon-proven within XFAB's XT018 technology but can be transferred to other platforms upon request. This makes it an invaluable addition to temperature-sensitive applications within industrial, automotive, and electronic devices, where accurate thermal monitoring is paramount.
The Octuple 20μA Bias Current Source provides a precision-driven solution for generating consistent current outputs across multiple channels. Designed to produce eight distinct current sources with 20μA each, this current generator ensures stable performance. It incorporates a precision reference voltage of 2.5V and a 5-bit trimming capability for fine-tuning current accuracy. Proven in XFAB's XT018 silicon, this source can be customized for integration with different technology platforms. Its adaptability makes it ideally suited for applications requiring precise current management, such as semiconductor testing and electronic calibration systems.
Ultra-Wideband (UWB) technology from TES Electronic Solutions encompasses high-performance IP cores that are crafted for use in various wireless communication applications. This technology provides substantial advantages, including high data rate transmission capabilities alongside low power consumption, making it a suitable choice for consumer electronics and industrial applications. TES has developed these cores with a strong focus on achieving efficient communication over short ranges, leveraging UWB's ability to penetrate walls and enable precise location tracking. UWB technology is particularly valuable in applications requiring precision and reliability, such as indoor positioning systems. The IP cores support a range of embedded systems, from portable devices to more complex industrial setups.
The D/AVE 2D graphics rendering engine is designed to handle powerful image processing needs. It is exceptionally proficient in executing BLIT functions alongside vector graphics capabilities, enabling it to deliver superior performance in visual computing. This engine is optimized for ultra-low power devices, making it an ideal choice for consumer applications that require effective performance while conserving energy. Its compact architecture allows it to function within minimal resource environments, such as cost-sensitive market segments. Highly adaptable, it supports a broad spectrum of applications ranging from simple user interfaces to more complex graphical requirements on various embedded systems.
The 16mA 4V Voltage Regulator is engineered to deliver stable voltage regulation up to 16mA, ensuring efficient power management in electronic circuits. This regulator operates with a singular supply voltage of 5V alongside a precision reference voltage, tailored to accommodate various applications requiring stable power delivery. It is silicon-proven within XFAB's XT018 technology, though it can be transferred to other technology platforms on demand. The device is particularly well-suited for applications needing reliable voltage regulation under varying operational conditions, enhancing circuit performance and longevity.
The Guiliani GUI Framework is a dynamic software platform for crafting intuitive and attractive Graphical User Interfaces (GUIs). It is crafted with a modern, object-oriented approach that encapsulates a wide range of graphic assets including widgets, skins, fonts, and more. The framework supports a highly dynamic runtime engine concept, enabling rapid time-to-market while maintaining an intuitive workflow. Guiliani's innovation extends to an easy WYSIWYG (What You See Is What You Get) PC Streaming Editor, facilitating seamless GUI design and integration with TES's graphics accelerators. This framework is particularly optimized for resource-limited embedded devices but is robust enough to be used across automotive, consumer electronics, and industrial applications, demonstrating exceptional usability and appeal.
The D/AVE 3D rendering engine brings immersive graphics capabilities to the forefront, offering full support for OpenGL ES 1.1 and OpenVG 1.01 API. This engine is developed to meet high performance demands, achieving an impressive 8 million triangles per second. Its robust architecture includes edge-based anti-aliasing, enhancing the smoothness and clarity of generated graphics. D/AVE 3D is fine-tuned for high-end graphics implementations across various industries, ensuring that even the most demanding visual applications can be rendered with superior quality and efficiency. This rendering engine is particularly optimal for automotive and consumer electronics markets that demand advanced graphical displays.
The Display Controller Family from TES represents a suite of versatile and high-performance controller cores developed to manage complex video output functions. These controllers provide support for a variety of input and output standards, ensuring robust compatibility and integration capabilities across a wide range of electronic products. Each controller in the family is designed to deliver precise control over video formats, enhancing output quality while optimizing performance. Offering flexibility in deployment, these controllers can be customized to fit specific application needs, from consumer electronics to automotive display solutions.
The Quadruple Capacitor Switch is a key component ideal for environments where resonator or transducer trimming is required. It includes four integrated capacitors which can be switched to fine-tune the frequency responses in complex electronic systems. This device offers a reliable mechanism for frequency calibration, which is imperative in tuning circuits and ensuring optimal performance. It has been rigorously tested and proven in XFAB’s XT018 technology, with the ability to be adapted for use in various other technologies based on customer needs. Its flexibility and precision make it suitable for a wide range of industrial and commercial applications, where accurate and stable frequency modulation is critical.
TES's Very-low-Noise and Programmable very-high-Gain DC-Voltage Amplifier offers remarkable amplification versatility, capable of operating with low noise output and programmable gain settings. This amplifier supports a range of gains up to 400V/V, making it highly adaptable for precise amplification needs across multiple applications. Furthermore, its companion trimming function enhances accuracy by offsetting any potential gain discrepancies through an 8-bit dual DAC. Silicon-verified within XFAB's technology, it can be transferred for integration with other manufacturing processes, lending itself effectively to high-precision electronic applications, where signal integrity and accuracy are paramount for optimal performance.
TES's Video Input Controller is engineered to handle a variety of input video sources, providing seamless integration into broader electronic systems. Its primary function is to convert incoming video signals into formats suitable for further processing, ensuring minimal latency and maintaining high integrity of video data. The controller's architecture allows extensive compatibility with different video standards, enabling its deployment in diverse applications where video input management is critical. It is ideal for use in industries ranging from consumer entertainment to professional video broadcasting, where reliable and high-quality video input handling is essential.
The D/AVE NX graphics processing unit caters to the highest echelons of graphical rendering, fully compliant with OpenGL ES 2.0 standards and ready for expansion to OpenGL ES 3.x. This GPU is engineered to deliver superior graphics on displays as large as 4k x 4k, making it a prime candidate for advanced visual applications. Its scalability is one of its core strengths, enabling the configuration of shader units and arithmetic logic units (ALUs) per shader unit, finely balancing performance and footprint. This engine is also primed for safety-critical deployments, supporting OpenGL SC 2.0, ensuring reliability in mission-critical applications. Its adaptable nature makes it particularly well-suited for FPGAs and compact microprocessor units, providing customization abilities to meet unique client specifications.
The Display Controller CDC is a versatile core designed to meet the varying needs of electronic display solutions. This controller core manages display interfaces, seamlessly transmitting video content from a source to a display. It supports multiple video input and output formats, ensuring broad compatibility across devices and technologies. Along with its robust configuration abilities, the CDC is designed to optimize video output while minimizing resource consumption. This makes the CDC a prime choice for developers seeking to integrate comprehensive display functionalities into their products, with an emphasis on both flexibility and performance. Its sophisticated architecture ensures that complex display operations are handled efficiently, serving applications including consumer electronics, automotive systems, and medical display technologies.
The Warping Engine by TES is designed for applications requiring advanced image processing capabilities, particularly in graphics and video adjustment. This engine efficiently manipulates input visual data, transforming it to accommodate different display requirements and solve unique presentation challenges. Its powerful processing capabilities maintain high-quality visual output, essential for sophisticated video editing and presentation tasks. The engine is highly suitable for use in the automotive industry, consumer electronics, and other sectors where high-precision image tailoring and manipulation are necessary for optimal end-user experiences.
Virtual Display Validation IP provides a robust framework for automated testing of display controllers' output. It intercepts DPI-2 output interfaces and records this data into system memory for further evaluation, thereby facilitating non-intrusive validation processes critical during large-scale product testing. This IP ensures that companies can transition from development to automation without sacrificing rigor in testing protocols. Designed to simplify the validation within automated environments, this IP supports streamlined quality assurance processes, optimizing the testing lifecycle of sophisticated display interface solutions.
The eGML, or embedded Graphics Multiplatform Library, is a versatile C++ graphics software core designed for delivering high-quality real-time 2D/3D graphics on embedded devices using single-core processors. This library is painstakingly optimized to perform under constrained resource environments, facilitating powerful graphics output on devices with processors like ARM, MIPS, x86, PowerPC, and others. The eGML is particularly valuable in applications such as consumer electronics, industrial control systems, and any scenario requiring efficient graphical representations on minimal hardware footprints.
The embedded Vector Rendering Unit (eVRU) from TES delivers comprehensive 2D/3D graphics capabilities to resource-limited embedded systems. This graphics engine works seamlessly on platforms with restricted computing power, providing enhanced graphics performance with minimal resource consumption. It employs a highly adaptable ANSI-C API and is equipped with OpenGL ES 1.1 subset capabilities, making it a versatile solution for a range of microcontroller and CPU-based applications. eVRU is ideal for sectors such as automotive and consumer electronics, where efficient, high-quality graphics rendering is essential for improved user experience.
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