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The 1G Managed Ethernet Switch by SoC-e is designed for environments that require greater control and management over network traffic. Equipped with management capabilities, this switch can navigate complex network setups with ease, offering support for RMII, MII, GMII, RGMII, and high speeds of up to 1G. The managing capabilities enable administrators to optimize network performance, ensuring efficiency and reducing downtimes. With features like QoS, VLAN support, and spanning tree protocols, this managed switch is adept at handling various network layers, providing a structured yet flexible networking environment. Intended for enterprise-level applications, this managed switch is a fit for medium to large networks where maintaining network integrity is critical. Its compatibility with industry standards ensures it integrates smoothly with different systems and network devices, enhancing the overall operational landscape through comprehensive management control.
The 10G TSN Ethernet Switch by SoC-e offers top-tier performance and reliability, making it an essential component for high-speed networking solutions. This switch supports a wide range of communication interfaces, including RMII, MII, GMII, RGMII, and serialized options such as SGMII and QSGMII, offering versatile connectivity ranging from 10M to 10G speeds. Designed to excel in Time-Sensitive Networking environments, the switch is compliant with IEEE standards such as 802.1Qav, 802.1Qbv, 802.1Qci, and more, which are critical in enhancing network performance by ensuring low-latency and predictable data transmission. The advanced synchronization capabilities via IEEE 802.1AS and IEEE1588 (PTPv2) further underscore its applicability in environments requiring precise time synchronization. On the operational level, the 10G TSN Ethernet Switch supports various features like QoS management, VLAN configuration, and spanning tree protocols, catering to dynamic network configurations. Its integration into networks that require high data rates and minimal delays is seamless, making it an optimal choice for sectors where network performance can significantly impact operational effectiveness.
The 1G Managed Redundant Switch from SoC-e is crafted for environments that demand both reliability and advanced management in networking. This switch supports redundancy features through protocols like HSR, PRP, DLR, and MRP, ensuring continuous data flow even in the event of network issues. Capable of high-speed data transmission at up to 1G, this switch incorporates robust management features that include QoS, VLAN setup, and spanning tree protocol compliance. These management capabilities provide precise control over network performance and aid in optimizing data flow and minimizing latency. The 1G Managed Redundant Switch is suitable for industrial networks and utility applications where maintaining connectivity is critical. It blends the need for redundancy with the capability to manage data traffic effectively, ensuring network stability and reliability under various conditions.
IRIGtimeS: IRIG-B Slave is crafted to act as a follower in synchronization networks adhering to the IRIG-B standards. This product provides precise timing functions crucial for systems that depend on accurate time distribution, such as in power and communication infrastructures. Its DCLS modulation capabilities ensure that time is efficiently received and processed, maintaining sub-microsecond accuracy. With support for IEEE 1344 extensions, this slave clock can adapt to various operational standards, ensuring a versatile role in complex system architectures. IRIGtimeS integrates seamlessly into existing setups, offering reliability and operational consistency across architectures craving precise timing. Designed for high-accuracy synchronization applications, it allows systems to efficiently utilize time, optimizing overall system operations in demanding environments.
The SMVsubscriber: IEC 61850 SMV Frame Processing module is engineered to facilitate the processing of Sampled Measured Values (SMVs) within IEC 61850 compliant networks. Critical in substation automation environments, this module ensures real-time data handling and processing for precise monitoring and control. Adhering to the IEC 61850 standards, the SMVsubscriber efficiently manages electricity distribution data, which is vital to maintaining grid stability and performance. It offers real-time frame processing capabilities, ensuring robust and accurate data handling within automated systems. The integration of the SMVsubscriber into power networks ensures improved response times and reliability, which are essential for maintaining continuous operation and efficient power management. By implementing this solution, network operators can ensure that all components of the grid are correctly synchronized and monitored in real time.
The DHSR, or Deterministic HSR Switch, serves as a cornerstone in SoC-e's switches designed for environments requiring high reliability and redundancy. This switch is adept at managing data transmission with precision and dependability through the High-availability Seamless Redundancy (HSR) protocol. Supporting a variety of communication interfaces, the DHSR switch is adaptable to various network configurations, offering redundancy and failover protection that ensures continuous data flow even under network faults. Its compliance with the HSR protocol enables uninterrupted communication across interconnected nodes, critical for systems where downtime is not an option. With built-in features that support multi-protocol configurations, the DHSR switch not only strengthens network reliability but also optimizes performance through streamlined data handling. Its design is geared towards applications in industrial environments, where consistent and reliable communication is paramount.
The AVB/Automotive Ethernet Switch by SoC-e is engineered to provide efficient networking solutions tailored for the automotive industry and similar use cases with stringent data transmission requirements. This switch plays a pivotal role in facilitating Audio Video Bridging (AVB) across automotive networks, ensuring seamless data flow with precise timing. Supporting a variety of interface standards and communication speeds, the AVB switch seamlessly integrates with modern automotive communication networks. Its compliance with industry standards ensures consistent quality of service (QoS), enhancing the reliability of data streams across connected systems. This accuracy is essential in applications where timely data delivery is crucial for system performance and safety. Beyond its primary role in AVB, the switch's design reflects flexibility and robustness, allowing for adaptation to other critical network infrastructures. Whether used in vehicles or other environments demanding high-performance networking, this AVB switch promises durability, ease of integration, and robust data management across complex systems.
The HSR-PRP Switch by SoC-e is an advanced networking device designed to provide seamless redundancy and increased reliability in critical network environments. This switch utilizes both High-availability Seamless Redundancy (HSR) and Parallel Redundancy Protocol (PRP) to ensure that data communications remain uninterrupted in case of network failures. HSR and PRP are key protocols that allow for zero-delay recovery from network faults, making this switch ideal for use in industrial and utility networks where operational continuity is vital. By combining these protocols, the switch supports flexible network topologies, enhancing reliability across the system. Designed with compliance to multiple industrial standards, the HSR-PRP Switch guarantees robust performance and optimization for critical applications. Its deployment ensures continuous data flow, which is essential for maintaining system effectiveness and reliability, even during unexpected network interruptions.
SASCrypt: Cryptographic for Substation Automation Systems provides advanced security solutions tailored for the critical infrastructure of substation automation. This product ensures that data integrity, confidentiality, and authenticity are maintained across vital communications within power systems. Utilizing robust cryptographic techniques, SASCrypt protects against unauthorized data access and tampering, vital in substation environments where security breaches can lead to significant operational disruptions. It integrates seamlessly with existing systems, ensuring a streamlined enhancement to security protocols without necessitating major infrastructural overhauls. This cryptographic solution is a critical component in maintaining the secure operation of automated substations, providing peace of mind with its rigorous adherence to security standards. Its deployment ensures that sensitive data transmitted across networks remains uncompromised, safeguarding power transmission and distribution operations.
The 1G MTSN, or Multiport TSN Switch, stands as a robust solution within SoC-e's portfolio aimed at enhancing network reliability and efficiency. This switch provides seamless integration into Time-Sensitive Networking (TSN) environments, supporting a variety of communication interfaces, including RMII, MII, GMII, and RGMII. Its design allows for connectivity at speeds ranging from 10M to 1G, complying with critical standards like IEEE 802.1Qav, IEEE 802.1Qbv, IEEE 802.1Qci, and several others. In the realm of synchronization, the MTSN switch facilitates IEEE 802.1AS and IEEE1588 (PTPv2), ensuring precise time coordination across networked devices. This accuracy in time-sensitive applications is critical for maintaining networked systems' reliability and effectiveness. Additionally, the switch offers advanced features such as QoS, IEEE 802.1Q tag-based, and port-based VLANs, integrating seamlessly with existing network protocols. Suited for a myriad of applications, the 1G MTSN provides not only high performance but also flexibility in integration, which is critical for industries reliant on robust and scalable networking solutions. Its alignment with open standards ensures interoperability with products from other vendors, further enhancing its appeal in diverse settings. The design's attention to detail makes the MTSN switch a valuable asset for enterprises aiming to optimize their network infrastructure.
IRIGtimeM: IRIG-B Master is a synchronization tool that serves as the master clock in networks requiring synchronized operations based on the IRIG-B standard. This product is essential in applications where coordinated timekeeping is critical, such as in power grid management systems and broadcast stations. Operating with DCLS modulation, the IRIGtimeM allows for consistent and precise time distribution. It supports features like IEEE 1344 extensions and offers configurable IRIG-B time codes, allowing adaptability to specific network requirements. This ensures optimal network performance by providing a reliable time reference across all connected devices. Designed to integrate smoothly into existing infrastructure, the IRIGtimeM serves as a cornerstone for networked systems requiring consistent timing. Its robust design offers a durable solution for maintaining synchronization standards vital to the uninterrupted operations of various sectors.
MultiSync: PTP and IRIG-B Time Synchronization is an advanced synchronization solution designed to ensure precision timing across networks utilizing both PTP and IRIG-B standards. This dual capability allows for redundant and highly reliable time synchronization, crucial in sectors where precise timekeeping is mandatory. The MultiSync system bridges PTP and IRIG-B protocols seamlessly, providing versatility in synchronization applications. With multi-PTP profile capabilities, it supports Layer-2 and Layer-3 configurations, ensuring compatibility with a wide range of network architectures and facilitating efficient time distribution. This product is designed for applications where time precision directly impacts operational performance, such as telecommunications, broadcasting, and power distribution networks. The incorporation of event timestamping and alarm detection features enhances its functionality, making it a valuable asset for comprehensive time management in complex systems.
PreciseTimeBasic: IEEE 1588-2008 Clock Synchronization is a highly accurate clock synchronization system that adheres to the IEEE 1588-2008 standard, also known as Precision Time Protocol (PTP). This technology is essential for applications where precise timing is critical, such as financial transactions, telecommunication networks, and industrial automation. The solution delivers precise clock synchronization with minimal time deviation, promoting consistency in systems where timing accuracy is imperative. It is capable of operating with a variety of network configurations, supporting multiple PTP profiles, which enhances its applicability across different industries. This synchronization system is engineered to ensure that all networked devices operate in unison, thus optimizing efficiencies and maintaining data integrity. Its ability to seamlessly integrate into existing networks underscores its utility as a key component in modern synchronized operations.
The SpaceWire Node by SoC-e provides a reliable platform for high-speed data transfer across space and satellite networks. This node is fully compliant with the ECSS-E-ST-50-12C space standard, ensuring it meets rigorous industry requirements for space communications. SpaceWire Nodes are integral to satellite systems, facilitating real-time communication between different modules within spacecraft. By providing communication speeds up to 200 Mbps, these nodes enhance data throughput without compromising on reliability or data integrity. With built-in AXI4-Lite management interfaces and statistic registers, the SpaceWire Node supports efficient data handling and monitoring, making it a critical component for robust aerospace networking solutions. It offers seamless interoperability with existing space communication protocols and systems, facilitating expansive networks of connected satellite nodes.
The 10G Unmanaged Switch from SoC-e is engineered for high-speed networking needs in environments where simplicity and reliability take precedence over configuration capabilities. This switch supports interfaces like RMII, MII, GMII, and RGMII, enabling seamless connections at speeds reaching up to 10G, which is ideal for straightforward network architectures. Its unmanaged nature translates to ease of use, as it requires no complex setup or administrative oversight, making it perfect for quick deployments. Despite lacking management features, the switch ensures swift data transmission, embodying a balance between performance and simplicity. This switch is most suitable for use in environments where automatic and continuous connectivity is needed without the complexity of network management. The robustness of this switch makes it an asset in settings like small businesses or remote office installations, where fast and reliable network connections are essential without the need for extensive configuration.
The 1588 Tiny: CPU-less IEEE 1588v2 Slave Clock is a specialized synchronization module designed for precise timing in network environments. This minimalistic, hardware-only solution focuses on achieving accurate time synchronization without requiring CPU intervention, thus reducing overhead on system resources. Employing the IEEE 1588v2 standard, commonly known as Precision Time Protocol (PTPv2), this slave clock is capable of maintaining sub-microsecond time accuracy across networked systems. Its design optimizes resource usage, ensuring reliable operations even in constrained environments where hardware resources are limited. This compact timing module finds its niche in applications where simplicity and precision are crucial, such as industrial networks and telecommunications, enabling efficient synchronization with minimal footprint. It's an excellent choice for enhancing timing accuracy while preserving system resources, maintaining operational efficacy with ease.
The 1G Unmanaged Ethernet Switch from SoC-e offers a straightforward yet reliable solution for network connectivity, ideal for scenarios where a basic and robust Ethernet network is required. With support for interfaces such as RMII, MII, GMII, and RGMII, this switch offers standard Ethernet connectivity at speeds up to 1G. Despite its unmanaged nature, the switch ensures high performance and network stability, perfectly suited for deployments in less complex network environments where ease of setup and minimal maintenance are advantageous. Its design caters to plug-and-play functionality, allowing swift deployment without the need for detailed configuration. The switch is built upon standardized protocols to ensure compatibility across various devices and vendors, providing a high level of interoperability and flexibility. This characteristics make it suitable for installations where simplicity and cost-effectiveness are prioritized without compromising on performance and reliability.
SoC-e's 10G Managed Ethernet Switch offers advanced networking solutions tailored for environments where comprehensive control over data traffic is essential. This switch supports communication speeds of up to 10G over a variety of interfaces, including RMII, MII, GMII, and RGMII, making it suitable for intensive data environments. Equipped with management features, this switch allows for precise control over network resources with capabilities such as QoS management, VLAN configuration, and the use of spanning tree protocols, ensuring optimal network performance. Its robust design ensures high availability, making it ideal for enterprise settings that demand reliable and scalable networking infrastructure. This switch's compatibility with industry standards ensures seamless interoperability with other network devices and platforms. It is tailored for organizations that seek to maintain high-performance networks with minimal downtime, while also enabling adapted management strategies to meet dynamic business needs.
The SMVSubscriberBoard is crafted to perform precise and efficient management of Sampled Measured Values (SMVs) in power networks adhering to the IEC 61850 standard. This board is integral to substation automation, ensuring that critical power system data is monitored and processed accurately. Designed to facilitate seamless data interaction across complex power networks, the SMVSubscriberBoard enhances real-time data processing capabilities, enabling smoother transmission of information. Its compliance with IEC 61850 ensures interoperability across various system components, making it a vital component in modern substation implementations. Through its robust design, the SMVSubscriberBoard supports improved data integrity and response time, crucial for sustaining power grid operations' reliability and efficiency. Its integration into power systems represents a step towards optimizing grid management and ensuring consistent and reliable energy distribution.
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