Is this your business? Claim it to manage your IP and profile
The 10/100/1000 Ethernet MAC Controller from SafeCore Devices provides seamless Ethernet connectivity as per the IEEE 802.3-2008 specification, supporting data rates of 10 Mbps, 100 Mbps, and 1 Gbps. Developed for high reliability and efficient network communications, this MAC controller facilitates network data transfer with configurable interfaces, including MII, RMII, GMII, and SGMII. It is designed to cater to the growing needs for flexible networking solutions in data-intensive applications, offering compatibility with various Physical Layer (PHY) devices. Its comprehensive features and robust performance make it suitable for enterprise and industrial applications that demand stable network operations. In line with SafeCore’s commitment to quality, the controller also includes tools for performance monitoring and diagnostics, maximizing data transmission efficiency. Its ease of integration into existing ASIC and FPGA systems ensures minimal disruption, simplifying upgrades and new implementations.
SafeCore Devices provides the ARINC 429 Receiver core, which adheres to the ARINC Specification 429 Part 1-17, a primary protocol in aviation for communications between different aircraft systems. This high-reliability receiver core facilitates data rates defined by the ARINC 429 standard, ensuring seamless data transfer between avionics systems. The receiver core is engineered to meet rigorous aviation standards, delivering error-free data communication critical to aircraft operation. It features advanced bit error detection and handling mechanisms, maintaining system integrity against potential data transmission issues in avionics. Designed with flexibility in mind, the ARINC 429 Receiver integrates smoothly into a variety of FPGA and ASIC platforms, contributing to the adaptability and necessity of SafeCore’s offerings in safety-critical aviation environments. A comprehensive suite of customization options allows clients to align the receiver's functionality with specific application requirements.
The CAN FD Controller is designed to support the next-generation Controller Area Network protocols, as defined in ISO 11898:2015, and is capable of handling both Classical CAN and Flexible Data Rate (FD) formats. This controller allows for bit rates reaching up to 1 Mbit/s with Classical CAN and up to 10 Mbit/s with the Flexible Data Rate, making it suitable for automotive and industrial applications requiring robust, high-speed communication. Developed in compliance with the DO-254 DAL A standards, this controller ensures high reliability and safety-critical functionality, especially for avionics and aerospace applications. With advanced features and capabilities, the controller implements error detection and retransmission mechanisms, essential for maintaining data integrity and system resilience in complex environments. Additionally, its flexible architecture provides system designers with options to easily integrate and configure the controller across various hardware platforms, ensuring interoperability and adaptability. To assist in the certification process, SafeCore offers a DO-254 Certification Kit to accompany the product purchase, simplifying compliance with aviation and safety regulations.
The CAN Controller provided by SafeCore Devices fulfills the essential needs for Controller Area Network implementations adhering to ISO 11898 and CAN Specification Version 2.0. This widely used communication protocol underpin several industries, ensuring reliable real-time data exchange in networking systems. Its robust design supports standard and extended CAN frame formats with data rates meeting automotive and industrial requirements. Designed with safety and performance at its core, SafeCore's CAN Controller incorporates error detection features ensuring seamless operation in noise-prone environments. Moreover, the IP core's scalable framework allows easy adaptability to various application-specific demands, offering developers the flexibility to configure it based on unique project requirements. This adaptability makes it a valuable asset across diverse applications, from vehicular networks to large-scale industrial automation systems.
The SDRAM Controller from SafeCore Devices implements control for Single Data Rate Syncrhonous Dynamic Random Access Memory, following the guidelines of the JEDEC Standard No. 21-C Release 12. This controller simplifies memory management tasks in various computing environments, ensuring efficient data handling and transfer. Designed for high performance, the controller optimizes memory access operations, which is crucial for applications requiring reliable and quick responses. Its sophisticated management features enable greater system throughput and minimize latency, important for today's demanding processing environments. Incorporating advanced error correction methods, the SDRAM Controller provides stability in dynamic computing systems, further enhancing memory reliability. Its adaptability across different platforms makes it suitable for a range of applications from consumer electronics to enterprise solutions.
The SPI Slave core by SafeCore Devices implements the SPI standard exactly as described in the Motorola M68H11 reference manual. Designed for seamless integration as a slave device, it supports serial communication vital to embedded systems and electronic devices. This core ensures robust data communication and reliable interfacing with master devices, enhancing onboard connectivity crucial for device intercommunication in complex setups. With capabilities tailored to various communication demands, it provides lower latency and higher data throughput. Designed for flexibility, the SPI Slave supports numerous configuration options, seamlessly integrating with different content protocols and systems. With these capabilities, it stands as a robust choice for developers seeking reliable SPI slave implementations in advanced electronic systems.
The I2C Master from SafeCore Devices implements a full-featured master node compliant with the industry-standard I2C-bus specification and user manual Rev. 5, dated 9 October 2012. Supporting Standard-mode, Fast-mode, and Fast-mode Plus (Fm+), this IP core is adaptable to a wide range of data communication tasks. Engineered to meet advanced design cycles, the I2C Master provides consistent and reliable data transactions, making it highly suitable for embedded system applications where smooth connectivity is crucial. It supports multi-master and multi-slave mode, enhancing its interoperability among various connected devices. Its comprehensive configuration options and compliance with rigorous standards give developers the versatility needed to seamlessly integrate the solution across various hardware platforms. This adaptability makes it applicable for consumer electronics, automotive controls, and industrial applications needing highly reliable I2C communications.
The ARINC 429 Transmitter by SafeCore Devices is a state-of-the-art IP core implementing the ARINC Specification 429 Part 1-17 communication protocols widely used across modern avionics. The transmitter facilitates robust data transmission across avionics subsystems, exemplifying high reliability and adherence to industry standards. This transmitter core supports standard ARINC 429 transmission rates, making it a cornerstone for platform communication where consistency and data integrity are non-negotiable. Built for compatibility, it integrates efficiently with different hardware setups, ensuring interoperability and maximum performance. Incorporating advanced features for error checking and message validation, the ARINC 429 Transmitter stands out for its commitment to data precision and operational efficiency. These characteristics make it a trusted choice for developers focusing on creating resilient and reliable aircraft systems.
The I2C Slave provided by SafeCore Devices is designed to function as a subordinate device in I2C communications, fully compliant with the I2C-bus specification and user manual Rev. 5, October 2012 for Standard-mode, Fast-mode, and Fast-mode Plus (Fm+). This IP core is integral to robust and efficient data handling in various applications. With its efficient design, the I2C Slave ensures quick and reliable communication between master devices and other peripherals, providing essential support for systems requiring multiple device interactions. Its ability to handle diverse data rates with high reliability makes it applicable across consumer electronics and industrial systems. The robust framework of the I2C Slave promotes seamless integration into advanced system architectures, contributing to higher operational efficiencies. It supports a wide range of communication speeds and interoperability, catering to the needs of complex bus configurations in embedded systems.
SafeCore Devices' UART Controller delivers a dependable solution for universal asynchronous receiver/transmitter functions, compatible with communication protocols like TIA RS-232, RS-422, and RS-485. This UART Core is crucial for serial communication setups across various computing systems and devices. Its design highlights versatility and performance, providing smooth data flow management and robust error handling, essential for maintaining data integrity during transmission. These capabilities make it a favorable choice in applications requiring keen real-time performance and reliability. The controller facilitates easy integration into a diverse range of systems, equipped with customizable options to cater to specific client needs. Its comprehensive feature set ensures it serves as a valuable component for developers requiring reliable asynchronous communication in high-stakes applications.
SafeCore Devices' SPI Master core provides a robust and compliant implementation following Motorola's M68H11 reference manual. Suitable for a wide range of applications, it supports serial peripheral interface communications crucial for onboard device connectivity. The master core offers complete protocol handling, ensuring efficient bidirectional data transfer between different devices connected via SPI. Its flexible design supports easy configuration, enabling broad applicability across different hardware setups and industries. With a focus on reliability, the SPI Master core ensures high-speed data transfers and compatibility with other communication protocols, making it ideal for environments demanding robust transmission solutions. Its configurability and performance advantage solidify it as a strategic asset in electronics and embedded systems development.
The MIL-STD-1553B Remote Terminal from SafeCore Devices is a robust communication interface designed as per the MIL-STD-1553B specification, including adherence to Notes 1 through 7. Targeted primarily at the aerospace and defense industries, this core facilitates efficient data exchanges across system buses. Known for its implementation in military and avionics systems, the Remote Terminal supports error correction and redundancy, ensuring reliability and robustness necessary in mission-critical applications. Its design embraces the standard's requirements for robust data transmission protocols, serving as an integral component in complex networks. The Remote Terminal adapts effortlessly to various platform needs, ensuring seamless integration and enabling developers to meet functionality requirements without compromising system reliability. This versatility further ensures that clients can optimize communications within their specialized operating environments.
Join the world's most advanced semiconductor IP marketplace!
It's free, and you'll get all the tools you need to evaluate IP, download trial versions and datasheets, and manage your evaluation workflow!
To evaluate IP you need to be logged into a buyer profile. Select a profile below, or create a new buyer profile for your company.
