All IPs > Wireless Communication > Other
The 'Wireless Communication > Other' category within our Silicon Hub encompasses a wide range of semiconductor IP solutions designed to facilitate advanced wireless communication technologies. This category serves as a repository for versatile semiconductor IPs that don't necessarily fall into mainstream or specific wireless protocols but are crucial for emerging and specialized communication applications. These IPs are essential for developing innovative wireless solutions, supporting a vast array of use cases from industrial IoT to cutting-edge consumer electronics.
In today's interconnected world, the demand for rapid, reliable, and energy-efficient wireless communication is ever-increasing. This category features semiconductor IPs that cater to niche markets and emerging technologies where traditional IP categories may not provide the necessary functionality. This can include support for proprietary radio systems, enhancements for existing standards, or novel ways to interconnect devices. By utilizing these semiconductor IPs, developers can design systems that push the boundaries of wireless communication, offering superior performance or compatibility for specific applications.
These semiconductor IPs enable the integration of specialty wireless features into complex systems, furnishing a variety of industries with tailored solutions that improve operational efficiency and product innovation. Industries such as healthcare, automotive, and smart cities can leverage these IP blocks to implement specialized communication capabilities that are not only effective but also cost-efficient for a given application scenario. Additionally, by exploring the elements within this category, companies can access untapped opportunities to differentiate their products through unique wireless functionalities.
What you'll find in the 'Wireless Communication > Other' category are comprehensive IP offerings that address specific market needs, from enhancing signal reliability to reducing power consumption in wireless systems. These robust IP cores often include proprietary algorithms, flexible configurations, and robust testing capabilities to ensure ready integration into diverse applications. As the technology landscape shifts towards greater wireless connectivity, the distinct IPs in this category provide the agility and adaptability required to remain competitive and innovative in a rapidly evolving tech world.
**Ceva-Waves Dragonfly platform** is a turnkey platform with optimized, low-power hardware IP and protocol software for implementing narrow-band IoT (NB-IoT) cellular modem SoCs. Extensions provide support for GNSS such as GPS and BeiDou and for sensor-fusion applications. The Ceva-Waves Dragonfly platform comprises hardware IP with an enhanced Ceva-BX1 processor, specific hardware accelerators, and SoC infrastructure IP. Software includes NB-IoT protocol stack for L1 through L3 functions including encryption and software PHY, a task-optimized RTOS, and optional GNSS receiver and control software, all executing on the Ceva-BX1. Pre-certified for 3GPP Release 15 CAT NB2, the solution is tuned for small footprint and extremely low power, yet has headroom for additional software-defined functions, such as sensor fusion. [**Learn more about Ceva-Waves Dragonfly>**](https://www.ceva-ip.com/product/ceva-waves-dragonfly/?utm_source=silicon_hub&utm_medium=ip_listing&utm_campaign=ceva_waves_dragonfly_page)
The L5-Direct GNSS Receiver by oneNav is a revolutionary solution built to leverage the advanced capabilities of L5-band satellite signals. Distinguishing itself by operating solely on the L5 frequency, this product delivers exceptional positioning accuracy and resilience, free from the interference commonly associated with legacy L1 signals. This advanced GNSS receiver is engineered to cater to a variety of professional applications that demand robust performance under challenging conditions, such as dense urban areas.\n\nLeveraging oneNav's proprietary Application Specific Array Processor (ASAP), the system provides best-in-class GPS signal acquisition and processing without compromising sensitivity or fix time. The use of an innovative single RF chain allows for optimal antenna placement, reducing the overall form factor and enabling integration into devices that require stringent size and cost constraints. This makes it an ideal choice for wearable and IoT device applications where space and energy consumptions are pivotal considerations.\n\nAdditionally, the L5-Direct GNSS Receiver incorporates machine learning algorithms to effectively mitigate multipath errors, offering unrivaled accuracy by distinguishing direct from reflected signals. The system is specifically designed to be energy efficient, offering extended operational life critical for applications such as smart wearables and asset tracking devices. Its resilience against GPS jamming and interference ensures it remains a reliable choice for mission-critical operations.
AES, or Advanced Encryption Standard, is a cryptographic algorithm that stands as a cornerstone in secure data encryption. Helion's AES standard modes provide a range of configurations tailored to ensure data integrity and confidentiality across various applications. These modes are optimally designed for ASICs and FPGAs, promising high performance with low power consumption. The implementation of AES by Helion is distinguished by its flexibility and security, catering to industries that require stringent data protection. The IP core supports multiple AES modes, including ECB, CBC, CFB, OFB, and CTR, each with specific operational characteristics that address different security needs. The efficient design ensures reduced resource usage, which is particularly beneficial for cost-sensitive and resource-constrained environments. Helion's AES cores are compatible with global encryption standards and can be integrated seamlessly into existing frameworks. This adaptability makes them an ideal choice for applications such as secure communications, data storage encryption, and internet security protocols.
The Wireless Baseband IP from Low Power Futures is a sophisticated solution designed for small, ultra-low-power devices in IoT applications. It comprises a baseband processor hardware IP, the link layer or medium access control layer firmware, and integrated security features. This product is specifically optimized to ensure a minimal code size, while providing power and area efficiency. The Wireless Baseband IP supports standard compliance and can be easily integrated into systems on chips (SoCs). It is validated on FPGA platforms, making it a robust solution for developers aiming to leverage low-power IoT networks. This IP is versatile, finding applications in smart homes, smart city infrastructures, and connected audio systems. Its customizable nature allows for easy adaptation to various embedded processors, enabling seamless integration in different environments. The IP's design emphasizes efficient resource use, crucial for IoT devices that demand long battery life and low operational cost.
Unmanaged Ethernet Switch IP cores are a family of Ethernet switching IPs from Comcores that provide a variety of configurations, including 1G, 1G/ 10G, 10G, and 10G/25G options. The unmanaged Ethernet switch IP cores family is a size-optimized implementation of non-blocking crossbar switches designed to support wire-speed packet processing and forwarding. The unmanaged Ethernet switch IP cores family features FCS validation/recalculation, MAC learning/forwarding/ageing and VLAN tagging including implementing a store-and-forward switching architecture. The number of ports is configurable at compile time, making the unmanaged Ethernet switch IP cores solution highly flexible and the solutions from Comcores are silicon-agnostic, making them suitable for implementation in any ASIC, FPGA, or ASSP technology.
The SiFive Automotive portfolio is dedicated to delivering robust and high-performing solutions tailored specifically for the automotive industry. With features designed for the evolving needs of modern vehicles, these processors combine high efficiency with safety and security standards, including ISO 26262 and ISO/SAE 21434 compliance. This suite includes a variety of processors catering to automotive applications such as Advanced Driver Assistance Systems (ADAS), in-vehicle infotainment, powertrain, and central computing. Each processor is designed to provide exceptional performance in real-time environments with low power and minimal area requirements, supporting automakers in achieving optimal functionality while adhering to stringent safety standards. Moreover, SiFive Automotive solutions emphasize functional safety with ASIL A-D standards and split-lock certification, ensuring reliability in mission-critical automotive environments. By focusing on safety and performance, SiFive Automotive offers a comprehensive suite of solutions poised to support the next generation of automotive technology.
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