All IPs > Graphic & Peripheral > Timer/Watchdog
In the realm of semiconductor IP, Timer and Watchdog IPs play a pivotal role in maintaining the synchronization and fault tolerance of a wide range of embedded systems. Timer modules are essential components used to measure elapsed time intervals, generate periodic interrupts, and manage cycle counting processes within digital devices. These IPs are crucial in applications where precise timing and execution are paramount, such as in real-time operating systems, multimedia processing, and communication devices.
On the other hand, the Watchdog IPs serve as a safety mechanism to ensure system reliability by detecting anomalies and preventing system failures. Typically implemented as a timer that resets the system if not periodically restarted, they are especially valuable in environments where critical operations need continuity, such as in automotive, industrial controls, and consumer electronics. By resetting the system or initiating corrective actions, Watchdog IPs help prevent data corruption and minimize downtime.
Together, Timer and Watchdog semiconductor IPs are indispensable in crafting robust embedded solutions that require seamless integration of timing functions and safety features. For developers and system architects, choosing the right IP offering involves considering factors such as power efficiency, precision, and configurability to meet specific application requirements.
In our Silicon Hub catalog, the Timer/Watchdog category encompasses a diverse set of offerings ranging from simple interval timers to complex multiplatform watchdogs and timer modules. Each IP comes equipped with detailed specifications to meet the stringent demands of modern electronics, ensuring reliability, precision, and adaptability across various applications. The IPs in this category are designed to be seamlessly integrated into your projects, enhancing functionality and safety while optimizing performance.
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 AHB-Lite Timer module designed by Roa Logic is compliant with the RISC-V Privileged 1.9.1 specification, offering a versatile timing solution for embedded applications. As an integral peripheral, it provides precise timing functionalities, enabling applications to perform scheduled operations accurately. Its parameterized design allows developers to adjust the timer's features to match the needs of their system effectively. This timer module supports a broad scope of timing tasks, ranging from simple delay setups to complex timing sequences, making it ideal for various embedded system requirements. The flexibility in its design ensures straightforward implementation, reducing complexity and enhancing the overall performance of the target application. With RISC-V compliance at its core, the AHB-Lite Timer ensures synchronization and precision in signal delivery, crucial for systems tasked with critical timing operations. Its adaptable architecture and dependable functionality make it an exemplary choice for projects where timing accuracy is required.
The Chipchain C100 is a pioneering solution in IoT applications, providing a highly integrated single-chip design that focuses on low power consumption without compromising performance. Its design incorporates a powerful 32-bit RISC-V CPU which can reach speeds up to 1.5GHz. This processing power ensures efficient and capable computing for diverse IoT applications. This chip stands out with its comprehensive integrated features including embedded RAM and ROM, making it efficient in both processing and computing tasks. Additionally, the C100 comes with integrated Wi-Fi and multiple interfaces for transmission, broadening its application potential significantly. Other notable features of the C100 include an ADC, LDO, and a temperature sensor, enabling it to handle a wide array of IoT tasks more seamlessly. With considerations for security and stability, the Chipchain C100 facilitates easier and faster development in IoT applications, proving itself as a versatile component in smart devices like security systems, home automation products, and wearable technology.
The THOR platform is a versatile tool for developing application-specific NFC sensor and data logging solutions. It incorporates silicon-proven IP blocks, creating a comprehensive ASIC platform suitable for rigorous monitoring and continuous data logging applications across various industries. THOR is designed for accelerated development timelines, leveraging low power and high-security features. Equipped with multi-protocol NFC capabilities and integrated temperature sensors, the THOR platform supports a wide range of external sensors, enhancing its adaptability to diverse monitoring needs. Its energy-efficient design allows operations via energy harvesting or battery power, ensuring sustainability in its applications. This platform finds particular utility in sectors demanding precise environmental monitoring and data management, such as logistics, pharmaceuticals, and industrial automation. The platform's capacity for AES/DES encrypted data logging ensures secure data handling, making it a reliable choice for sectors with stringent data protection needs.
The Mixed-Signal CODEC offered by Archband Labs integrates advanced analog and digital audio processing to deliver superior sound quality. Designed for a variety of applications such as portable audio devices, automotive systems, and entertainment systems, this CODEC provides efficiency and high performance. With cutting-edge technologies, it handles complex signal conversions with minimal power consumption. This CODEC supports numerous interface standards, making it a versatile component in numerous audio architectures. It's engineered to offer precise sound reproduction and maintains audio fidelity across all use cases. The integrated components within the CODEC streamline design processes and reduce the complexity of audio system implementations. Furthermore, the Mixed-Signal CODEC incorporates features that support high-resolution audio, ensuring compatibility with high-definition sound systems. It's an ideal choice for engineers looking for a reliable and comprehensive audio processing solution.
The Tentiva Video FMC (FPGA Mezzanine Card) by Parretto B.V. is designed to enhance FPGA capability with advanced video functionalities. This module integrates effortlessly into various FPGA platforms, providing users with extended features for video input/output processing. Whether it's for development or field applications, Tentiva promises reliability and superior performance. Functionality-wise, this mezzanine card is adept at handling high-definition video streams, making it ideal for broadcast and media applications. It supports multiple video standards, ensuring that interfacing with different video input/output sources is seamless. The Tentiva Video FMC is thus tailored for developers looking to expand their FPGA's video processing capabilities without compromising on performance metrics. The design of Tentiva Video FMC aligns with industry standards, ensuring that developers leverage a scalable and maintainable platform. By supporting plug-and-play with numerous FPGA development boards, it eliminates the hassle of compatibility issues, providing a straightforward path to enhanced video applications. Available accessories and complementary software further streamlining its integration into existing systems, affording users the flexibility to tailor solutions to specific project requirements.
TimeServo is a sophisticated System Timer IP Core for FPGAs, providing high-resolution timing essential for line-rate independent packet timestamping. Its architecture allows seamless operation without the need for associated host processor interaction, leveraging a flexible PI-DPLL which utilizes an external 1 PPS signal, ensuring time precision and stability across applications. Besides functioning as a standalone timing solution within an FPGA, TimeServo offers multi-output capabilities with up to 32 independent time domains. Each time output can be individually configured, supporting multiple timing formats, including Binary 48.32 and IEEE standards, which offer great flexibility for timing-sensitive applications. TimeServo uniquely combines software control via an AXI interface with an internal, logically-heavy phase accumulator and Digital Phase Locked Loop mechanisms, achieving impressive jitter performance. Consequently, TimeServo serves as an unparalleled solution for network operators and developers requiring precise timing and synchronization in their systems.
Zipcores' 4K Video Scaler is engineered to handle ultra-high-definition video scaling applications, offering seamless conversion of video resolutions. This feature-rich scaler supports a pixel clock rate of up to 600 MHz, enabling high-quality video processing necessary for 4K/UHD content, which is increasingly prevalent across multimedia platforms. Designed to operate efficiently without the need for an external frame buffer, it minimizes latency and hardware requirements, making it ideal for real-time video applications. Its compatibility with mid-range FPGA and SoC devices allows for easy integration into systems, ensuring scalability and adaptability across various hardware environments. This core effectively manages input/output interfaces compatible with AXI4-stream, facilitating smooth interoperability within existing infrastructures. The 4K Video Scaler exemplifies innovation in digital video processing, offering a robust solution for developers demanding both performance and efficiency in professional and consumer-level applications.
This General-purpose Power-on Reset (POR) component is vital in ensuring the orderly initialization of digital circuits upon power-up. Designed to assert reset signals on power-up, it provides critical logic systems with a reliable foundation for operation. Manufactured across Magna's process technology, the POR's silicon-proven design ensures robust behavior in a variety of semiconductor applications. It is integral for protecting circuits by securing known states before operations commence, thus preventing indeterminate states or erratic system behaviors on activation. Ideal for safeguarding contemporary electronic systems, the POR attains consistency in performance, ensuring systems start predictably and operate within expected parameters. This component is indispensable in upholding reliable system behavior across all types of digital circuits and devices.
The 2D Laser Scanners by Riftek Europe are integral for non-contact measurement tasks involving surface profiling and dimension checking. These scanners support both 2D and 3D measurements, making them ideal for applications such as robotic welding automation due to their ability to capture detailed surface data at an impressive rate of up to 16000 profiles per second. The scanners are engineered to deliver linearity of 0.01% of full scale, ensuring consistent measurement accuracy across different materials and contexts. The 2D Laser Scanners employ blue and infrared laser technology, tailored for both small and extensive range measurements ranging from 10 mm to 1010 mm. These devices are crucial in industries where surface dimension accuracy is vital, such as automotive and aerospace, enabling the construction of precise 3D models that support quality assurance processes. Their adaptability and precision make them a preferred choice for companies looking to integrate high-end scanning into their operations.
The TimeServoPTP is an advanced system timer designed for FPGAs that enhances the capabilities laid out by the standard TimeServo, incorporating an IEEE 1588v2 PTP compliant ordinary clock implementation directly into the FPGA hardware. This solution enables both 1-step and 2-step synchronization with external network time masters, facilitating precise timekeeping with minimal drift. This single-component solution operates independently, providing accurate synchronized time across different network applications. It supports a variety of output configurations, adapted for unique user requirements, each capable of outputting a distinct pulse per second at designated times according to user-supplied clocks. Operating with atomic resolution, the TimeServoPTP is equipped with sophisticated logical controls and a Gardner Type-2 Digital Phase Locked Loop, making it ideal for distributed systems where precise timekeeping is essential. Designed with high compatibility, it functions across leading FPGA devices from Intel and Xilinx, ensuring wide feasibile deployment across technological environments.
The Heimdall platform is engineered for applications requiring low-resolution image processing and quick interpretation. It integrates image signal processing capabilities into a compact design, perfect for IoT applications where space and power consumption are constraints. The platform supports various image-related tasks including object detection and movement tracking. With a core image sensor of 64x64 pixels, Heimdall is optimized for environments where minor details are less critical. This makes it ideal for motion sensing, smart lighting, and automation systems where the understanding of space occupancy or movement is essential. The platform's energy-efficient design, capable of integrating energy-harvesting technology, ensures sustainable operation in remote and hard-to-reach locations. By providing rapid image interpretation, Heimdall supports quick decision-making processes crucial for smart infrastructure and security applications.
This offering from Intellitech supports IEEE 1149.1 ICs and JTAG test components, focusing heavily on boundary scan software. It includes the TEST-IP family, designed for 1149.1 test, flash programming, and FPGA configuration, thus lowering system costs. These scan components create high-quality self-testable products that are re-configurable in the field using JTAG techniques. Features include ARM CPU emulation test support and analogue test via GPIB/VISA/PXI instruments, integrated into Intellitech's Eclipse Test Environment, offering comprehensive debugging capabilities.
Riftek Europe’s 2D Optical Micrometers are designed for batch in-line dimensional measurement, offering a sophisticated solution for industries demanding precision in wire and rod measurements. The measurement scope of these micrometers spans from 8x10 mm to 60x80 mm, with outstanding accuracy up to +/-0.5 um, making them suitable for high-precision industries. These micrometers expedite measurement tasks in industrial environments, reducing manual work by automating the dimensional analysis of numerous components rapidly. By employing advanced optoelectronic technology, these devices simplify the acquisition of precise dimensional characteristics across multiple parameters. The real-time data collection capability of these devices supports seamless integration into assembly lines, enabling consistent measurement that reduces defects and assures high manufacturing standards. This contributes significantly to improving efficiency and operational throughput, aligning with the demands of fast-paced production environments.
The Mixed-Signal Front-End designed by Global Unichip Corp. stands at the forefront of processing analog signals into digital forms. It's a crucial element for systems where high precision, low noise, and robust performance are required. The IP is adept at managing various signal inputs and enhancing the overall system performance in diverse applications ranging from consumer electronics to automotive systems. Engineered with cutting-edge technologies, this Mixed-Signal Front-End integrates seamlessly within existing architectures, promoting reduced signal degradation and enhanced fidelity. Its design ensures minimal interference and excellent signal integrity, which are pivotal in high-demand environments where accurate signal processing is critical, like in radar and lidar technologies. Flexibility is another hallmark of this IP, with scalable solutions that can be tailored to meet specific project requirements. Its robust architecture supports extensive interoperability, allowing it to be readily incorporated into broader system designs, facilitating faster development cycles and improved cost efficiencies.
Akeana's Processor System IP offers a comprehensive set of system IP blocks designed to enhance the performance and efficiency of processor systems. This product line includes a variety of sophisticated components such as Compute Coherence Blocks (CCB), coherent and non-coherent interconnect fabrics, and advanced interrupt architectures, essential for building scalable and reliable multi-core systems. Notably, the Compute Coherence Block is pivotal in facilitating coherent clusters of cores through a directory-based protocol, ensuring caches are efficiently shared among processors. This, combined with the company's adherence to AMBA specifications for interconnect fabrics, allows easy integration into existing systems, providing flexible and robust solutions for handling complex data management tasks. The IP supports a wide array of functions including the IOMMU and interrupt controllers, critical for ensuring seamless device communication and control in diversified processing environments. Akeana's in-depth understanding of processing systems enables customers to configure and deploy highly customizable solutions, achieving optimal performance through tailored IP configurations suited to their specific application needs.
IMG DXS GPU is engineered to meet the needs of automotive and industrial applications where functional safety is paramount. Built on efficient PowerVR architecture, it ensures high-performance graphics rendering with a focus on reduced power consumption. The DXS technology supports comprehensive safety suites, catering to ADAS and digital cockpit applications, thereby addressing stringent automotive safety standards.
The Racyics® ABX Platform is a powerful technology cornerstone designed to enhance performance and reliability in integrated circuits operating at ultra-low voltages. Leveraging Adaptive Body Biasing (ABB), this platform supports operation down to 0.4V, ensuring device efficiency even under challenging process, voltage, and temperature variations. Particularly adept for automotive applications, it offers significant improvements such as up to 75% reduction in leakage power and enhancement of performance by up to 9X. This makes it an ideal solution for high-performance needs, providing reliable and predictable operation across diverse conditions.<br><br>Racyics® ABX FBB (Forward Body Biasing) optimizes the operation of devices by substantially improving performance metrics, offering a comprehensive solution for ultra-low voltage applications. Furthermore, its RBB (Reverse Body Biasing) functionality excels in minimizing power consumption, notably providing substantial benefits in automotive environments where power efficiency is paramount.<br><br>The platform is backed by a robust design flow that integrates seamlessly with various advanced technology nodes, supported by an expansive library of ABB-enabled standard cells and SRAM IPs. This ensures easy adoption and adaptability, promoting enhanced timing and power predictability across applications. Its proven silicon track record underscores its capability as a reliable turnkey solution that meets stringent automotive-grade requirements.
The Secured Anti Jamming NTP Server is a state-of-the-art device designed to provide reliable and tamper-resistant network time protocol (NTP) services. This server boasts enhanced security features that keep network operations safe from jamming and spoofing attacks. Designed for critical infrastructure, it ensures precision in time synchronization across all connected devices. With its robust architecture, this server is ideal for environments that demand high levels of data integrity and security, making it indispensable for telecommunications and financial institutions. In addition to its anti-jamming capabilities, the server supports a range of synchronization protocols, offering flexibility in deployment and interoperability with other network devices. Its user-friendly interface and comprehensive documentation simplify configuration and management, allowing network operators to maintain seamless and secure operations without undue complexity. Megacast's dedication to innovation is evident in this server, combining cutting-edge security mechanisms with reliable performance benchmarks to meet the high standards required by today's sophisticated network environments. Backed by rigorous testing and quality assurance, the Secured Anti Jamming NTP Server exemplifies Megacast's commitment to excellence in network time solutions.
The RISC-V Timer IP from IQonIC Works is tailored to provide efficient timing operations in accordance with RISC-V standards for embedded systems. It offers multiple timer configurations to accommodate the precise needs of various applications, ranging from high-frequency, processor clock-based timing to alternatives that utilize low-power, always-on clocks suitable for energy-constrained environments. With options for both AHB and APB interfaces, the Timer IP can be seamlessly integrated into complex bus architectures or simplified systems, respectively. It supports processor clock cycle counting, which makes it ideal for applications demanding high precision and reliability in timing functions. The timer's versatility is further enhanced by variants that support clock-domain crossing, crucial for power-managed systems where efficiency and modularity are paramount. For developers, the RISC-V Timer IP provides essential deliverables including synthesizable RTL and comprehensive test environments. These are designed to expedite development cycles and ensure the integration process is smooth and efficient, aiding developers in achieving precise timing solutions with minimal overhead.
Prime among the offerings from NetTimeLogic, the PPS Products include a variety of pulse per second (PPS) configurations essential for precise time marking in synchronization systems. This suite comprises the PPS Master, PPS Slave, and a PPS Clock to PPS Generator system. Each configuration is engineered meticulously to provide ultra-precise time signals, essential in applications such as GPS-based systems, telecommunications, and time-aware networking devices. The PPS Master system serves as the primary source of time pulses, enabling alignment across networks, while the PPS Slave and Clock configurations ensure these pulses are distributed and converted reliably. The technology underpins numerous timing-sensitive processes, ensuring minimal deviation and maximal accuracy across operations. Leveraging these products ensures continuity of operations that depend on precise event timing, from data transfer to signal modulation tasks.
NetTimeLogic's TOD Products are designed for precise, networked time-of-day synchronization using protocols like NMEA 0183, UBX, TSIP, and ESIP. This product line includes the TOD Master and TOD Slave components, facilitating accurate time of day distribution and synchronization across diverse platforms and devices. Both components work in tandem to ensure that time signals generated by the TOD Master are precisely decoded and synchronized by the TOD Slave, maintaining harmony across various network endpoints. TOD solutions are essential for systems requiring precise timekeeping capabilities, such as broadcasting networks, financial trading systems, and telecommunications. Through reliable operation in both master and slave capacities, the TOD products provide a foundation for maintaining time accuracy across a wide range of digital ecosystems. They ensure that time-critical applications benefit from synchronized time data, thereby enhancing efficiency and coordination.
The DCF Products from NetTimeLogic include both Master and Slave configurations tailored for DCF77 time code applications. The DCF Master generates the DCF signal for precise time synchronization over wired connections, while the DCF Slave is adept at reading these signals to keep systems accurately synced. These components are particularly useful in European regions, where DCF77 is a standard for time signal transmission. They provide the backbone for highly synchronized operations across various industries, ensuring all networked devices follow a central time standard. The deployment of these products is vital for systems requiring unwavering timing precision, such as broadcast timing, railway scheduling, and more. By delivering accurate timing solutions, the DCF Products ensure seamless operation and coordination across time-sensitive environments, aligning closely with Europe's stringent timekeeping standards.
The IRIG Products offered by NetTimeLogic are pivotal for networks needing meticulous time coding capabilities. Including both IRIG Master and IRIG Slave configurations, these products support the IRIG standard for distributing precise time codes over various media. The IRIG Master provides a centralized time source, facilitating synchronized time distribution across devices and systems, whereas the IRIG Slave receives and translates these signals, ensuring internal clocks remain synonymous with the master source. These products are indispensable in environments such as military, aerospace, and other industries where timing accuracy is paramount. By integrating these IRIG solutions, users ensure robust time code generation and dissemination, enabling seamless operation across complex networks. The IRIG suite enhances a network's capability to manage large-scale, time-sensitive operations with confidence.
Clock Products by NetTimeLogic are a suite of solutions focusing on maintaining and generating precise clock signals for various applications. Within this range, there are Adjustable Clocks, Signal Generators, Frequency Generators, and Sine Wave Frequency Generators. Each of these components plays a crucial role in managing frequency and timing within electronic systems. The Adjustable Clock allows for customization of clock frequencies, which is crucial for testing and development phases in tech projects. Moreover, the Signal and Frequency Generators are used for producing stable and reliable signals needed in telecommunications, audio processing, and other digital systems requiring absolute time signal integrity. Meanwhile, the Sine Wave Frequency Generator is specifically designed for systems needing synchronized sine wave signals, like in audiovisual equipment or complex distributed systems. These products ensure that all system components remain accurately timed, facilitating flawless operation and processing within various domains.
RTC Products from NetTimeLogic consist of master components that enable synchronization with an external, battery-backed real-time clock. These products are key in applications where long-term timekeeping accuracy is required, even during power outages or network downtimes. The RTC master allows for time synchronization that can be maintained independent of the network status. This is crucial in systems where continuous operation and accurate timekeeping are mandatory, such as in avionics, telecommunications, and data centers. By utilizing external battery-backed RTC systems, these products ensure that devices retain accurate time data over extended periods. The RTC Products are designed to interface seamlessly with existing network infrastructure, providing a reliable backbone for time-sensitive operations needing constant and persistent time accuracy.
Truechip's USB 3.0 Controller is engineered to boost data transfer rates substantially, catering to the needs of modern electronic devices that demand high-speed connectivity. This controller supports the USB 3.0 specification, providing significant enhancements over previous USB versions. Its architecture allows for increased power efficiency and data throughput, enhancing peripheral device communication. This is achieved through sophisticated data protocols and effective power management features that ensure devices operate optimally. Truechip's USB 3.0 Controller is designed for integration into a wide array of applications, from consumer electronics to industrial systems. Its compatibility with a multitude of USB devices and backward compatibility with earlier USB standards make it a versatile component for future-proof designs.
The Laser Seam Tracking System for Welding Automation by Riftek Europe is engineered to enhance robotic welding precision by automatically controlling the welding torch position during operations. Integrated with seam tracking software, this system is designed for precise weld bead profile inspection, ensuring high-quality welds consistently. This system provides direct connection to robot controllers and supports numerous types of welding joints, presenting a robust solution for automating welding processes. Using 2D and 3D real-time tracking visualization, it processes each captured profile to check against specified tolerances and adjusts robot actions to maintain accuracy. The system is equipped with state-of-the-art interfaces that simplify integrating it into existing setups. Optimized for challenging welding environments, it uses a sophisticated algorithm to govern operations, generating comprehensive reports for quality assurance and process optimization. This contributes to significant reductions in material defects and labor costs in automated welding solutions.
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