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The 1G MTSN Multiport TSN Switch is engineered for critical environments where time-sensitive networking is paramount. It supports a range of port speeds from 10M to 1G, ensuring flexible deployment across various networking architectures. This switch incorporates IEEE 802.1Qav, IEEE 802.1Qbv, IEEE 802.1Qci, and more, to facilitate precise time-sensitive networking and reliability. This IP core offers renowned QoS features and supports various IEEE standards for VLAN configuration, such as tag-based and port-based VLANs. Its Span-Tree Protocol compatibility further enhances network performance by preventing network loops. Moreover, the switch integrates IEEE 802.1AS and IEEE 1588 (PTPv2) synchronization standards, aligning closely with the needs of mission-critical applications requiring precise timing. Customization options allow for adaptability to different user requirements and platform configurations, driven by its FPGA-based architecture. This ensures the switch remains a versatile choice for various applications demanding high reliability and accuracy in data transmission.
The 10G TSN Ethernet Switch is designed to meet the needs of high-bandwidth applications demanding robust time-sensitive networking capabilities. Supporting port speeds from 10M to 10G, this switch is built to handle demanding data traffic with efficiency and precision. It is equipped with advanced features such as IEEE 802.1Qav and IEEE 802.1Qbv for deterministic data delivery, alongside various VLAN tagging options to enhance network segmentation and security. The switch's use of IEEE 802.1AS and IEEE 1588 for synchronization ensures that all data packets are precisely time-stamped for applications where timing is critical. Additionally, the switch includes mechanisms for redundancy and network reliability, incorporating support for IEEE 802.1CB and IEEE 802.3br standards. The switch's versatility and adherence to open standards make it a flexible solution suitable for a wide array of applications in networking, telecommunications, and data centers.
The AVB/Automotive Ethernet Switch is specialized for automotive and AVB networking solutions requiring precise timing and reliable data transfer. Targeting automotive applications, it fully supports Audio Video Bridging (AVB) standards to provide synchronized media streaming over Ethernet. This switch boasts capabilities like traffic shaping and queue prioritization to ensure consistent data flow, crucial in automotive environments with critical safety requirements. The integration of IEEE 802.1AS and IEEE 1588 standards ensures that synchronization across devices is achieved with sub-microsecond level accuracy. Advanced VLAN support and security protocols further enhance its applicability in networked vehicle systems, ensuring seamless interoperability and high reliability. Customization features enable it to be fine-tuned for specific automotive applications, making it a highly adaptable and future-proof solution for the industry.
System-On-Chip Engineering's HSR-PRP Switch is a semiconductor IP product designed for high reliability and redundancy. It falls into the Interface Controller & PHY category with a focus on IEEE1588 and Wireline Communication via Ethernet.
The 1588 Tiny is a lightweight, CPU-less IEEE 1588v2 PTP slave clock solution, designed for precise time synchronization in networked environments. It supports multiple interface types, including MII, GMII, and RGMII, allowing it to adapt to various architectural configurations. This slave clock is capable of handling high-speed data through its hardware-only design, ensuring a sub-microsecond synchronization with master clocks. The implementation of event timestamping increases the accuracy and resolution of timekeeping, crucial in sectors like finance and telecommunications. Highly efficient and designed for integration, the 1588 Tiny offers a low-footprint, high-accuracy solution. Its capabilities extend into various applications that necessitate precise network synchronization, all without the overhead of a dedicated CPU, making it ideal for decentralized systems.
The SpaceWire Node is engineered for critical communications in space networking environments. Integrating the AXI-Stream and SpaceWire interfaces, it facilitates robust data transfer speeds up to 200Mbps. The interface compliance with ECSS-E-ST-50-12C standards assures reliability and compatibility within the standardized space systems. Equipped with an internal management interface via AXI4-Lite, the SpaceWire Node can be efficiently controlled and monitored. The node's architecture is optimized for secure and efficient routing of space-borne data, aligning with the stringent reliability requirements of the aerospace sector. It comes with extensive features such as statistic registers for monitoring and performance evaluation, ensuring the node's abilities to meet rigorous performance benchmarks. Its design reflects an emphasis on interoperability and future scalability within complex space communications networks.
The DHSR Deterministic HSR Switch is ideal for environments where deterministic and high-availability networking are crucial. Designed to support redundancy protocols such as High-availability Seamless Redundancy (HSR) and Parallel Redundancy Protocol (PRP), this switch ensures no packet loss in industrial and critical applications. Engineered with multiple operation modes for redundancy, it accommodates various networking interfaces including RGMII and GMII, which allow flexible integration in different hardware configurations. The switch's stateless transparent clock synchronization supports accurate and reliable time-stamping of packets, vital in time-sensitive operations. Further equipped with Quality of Service (QoS) features, this switch supports seamless integration with existing network infrastructures, promoting uninterrupted data flow and enhanced network reliability. Capable of adapting to evolving industrial networking needs, the DHSR is a future-ready choice for mission-critical applications.
The 1G Unmanaged Ethernet Switch IP by System-On-Chip Engineering, S.L. is a semiconductor intellectual property product that functions as a 1 Gbps Ethernet switch. It falls under the categories of Interface Controller & PHY with a focus on IEEE1588 and Wireline Communication specifically for Ethernet applications. This IP is designed to aid in providing networking solutions that require fast and reliable Ethernet connectivity without the need for manual configuration.
Visit the IP details and download page for more information on the 1G Managed Redundant Switch IP by System-On-Chip Engineering, S.L.
The 10G Unmanaged Switch by System-On-Chip Engineering, S.L. is a semiconductor IP designed to facilitate high-speed data transmission via Ethernet and supports IEEE 1588 for precise time synchronization in network communications.
1G Managed Ethernet Switch by System-On-Chip Engineering, S.L. is a semiconductor IP designed to facilitate Ethernet communications at gigabit speeds. It is categorized under Interface Controller & PHY with a specific focus on IEEE1588 and Wireline Communication in relation to Ethernet. This IP product enables advanced networking capabilities in a variety of applications where efficient data transfer and management over Ethernet networks is critical. For more detailed specifications and downloading the IP, visit the provided link.
The IRIGtimeS IRIG-B Slave enables devices to synchronize accurately with highly precise master clocks. Designed for operations requiring exact timekeeping, this solution is IRIG 200-04 compliant and employs DLCS modulation for synchronization fidelity. With inputs tailored for PPS and 10 MHz references, the solution ensures that slave devices maintain clock alignment with minimal deviation, supporting sectors where precise timing is crucial. Its IEEE1344 extension ensures enhanced time code configurability during operations. The IRIGtimeS is ideal for integration into systems demanding robust time maintenance, offering dependable synchronization service. Industries such as broadcasting and power grids, where coordinated timing is critical, can greatly benefit from its high precision and configurability.
The 10G Managed Ethernet Switch IP from System-On-Chip Engineering, S.L. is designed for high-performance Ethernet communication. It provides support for the IEEE 1588 protocol as well as robust wireline communication for Ethernet networks.
The MultiSync solution offers versatile time synchronization capabilities by integrating Precision Time Protocol (PTP) and IRIG-B standards. This synchronization solution facilitates simultaneous sync to both PTP and IRIG-B sources, making it a comprehensive time gateway option. Built for redundancy, it enables seamless conversion between PTP and IRIG-B, optimized for applications demanding high precision and reliability in timekeeping. Its sub-microsecond synchronization accuracy suits environments where precise timing is critical, like telecommunications and utilities. Featuring multi-profile PTP capabilities, this solution supports diverse time synchronization profiles, ensuring adaptability to various network requirements. Event timestamping and alarm detection provide robust support for maintaining synchronization integrity across complex systems.
PreciseTimeBasic is engineered for IEEE 1588-2008 clock synchronization, implementing PTP Slave functionality in a hardware-only VHDL solution. It supports connection via MII, GMII, or RGMII, achieving synchronization with a sub-microsecond offset from the master clock. The solution features multi-profile PTP capabilities, ensuring it can accommodate diverse Layer-2 and Layer-3 network configurations. This flexibility makes it suitable for applications with stringent timing requirements, such as financial systems and telecommunications networks. Designed for precision, PreciseTimeBasic incorporates event timestamping and alarm detection, making it a reliable choice for maintaining time integrity. The solution is adaptable to different synchronization infrastructures, ensuring seamless integration into existing network systems.
The IRIGtimeM IRIG-B Master solution is designed to generate highly accurate time signals for synchronizing distributed systems. Compliance with the IRIG 200-04 standard ensures its alignment with established timekeeping protocols, making it ideal for time-critical operations. Offering DCLS modulation compatibility, it uses a PPS and 10 MHz reference to deliver precise timing outputs. IEEE1344 extension support enhances its configurability, allowing on-the-fly adjustments to suit varying operational needs. With robust outputs including multiple time code options, IRIGtimeM can adapt to diverse environments requiring high-precision time dissemination. This flexibility makes it an intelligent choice for sectors like energy distribution and broadcast systems that demand stringent time coordination.
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