All IPs > Analog & Mixed Signal > Other
The "Other" category under Analog & Mixed Signal at Silicon Hub captures a diverse range of semiconductor IPs that serve specialized roles in electronic systems. These IPs are not classified under the typical subcategories and often address niche requirements or emerging technological trends. The dynamic nature of these designs allows for unique applications in custom circuits aimed at enhancing the performance and capabilities of various electronic devices.
In the world of semiconductor IP, Analog & Mixed Signal designs are critical for bridging the gap between the analog input from the physical world and digital processing. The IPs in the "Other" category can include novel designs for filtering, modulation, data conversion, and more, which are not sufficiently defined by existing labels. These semiconductor IPs provide the flexibility and adaptability needed for innovative applications across multiple domains, from consumer electronics to industrial control systems.
Products found in this category might encompass advanced signal processing blocks, unique noise management techniques, or specialized interfacing IPs that facilitate growth and adaptability in customized electronic solutions. These specialized IPs are invaluable for engineers looking to implement cutting-edge features in their designs or to solve unique challenges that lie beyond the realm of standard IP offerings.
Overall, the "Other" Analog & Mixed Signal category is vital for organizations seeking tailored semiconductor IP solutions that are not bound by conventional constraints. It stands as a testament to the evolving landscape of technology and the continual push for solutions that meet specific customer demands and drive innovation in electronic design.
The Rad-Hard eFPGA is designed to excel in mission-critical scenarios where reliability is non-negotiable. QuickLogic's offering in this space ensures robustness against radiation, making it ideal for aerospace and defense applications. The technology's capability to withstand harsh environments without performance degradation is critical for long-duration or deep-space missions. This eFPGA variant leverages QuickLogic’s longstanding expertise in FPGA design, focusing on delivering devices that align with stringent defense and aerospace requirements. The rad-hard solution is particularly tailored for applications needing both resilience and performance in extreme conditions, effectively addressing the demands of ruggedized environments. By integrating this technology, QuickLogic enhances its portfolio with products that reliably perform under high stress, further solidifying their position as a trusted provider of defense-grade semiconductor solutions. The Rad-Hard eFPGA meets comprehensive specifications for security and durability, thus making it a top choice for demanding engineering challenges.
ReRAM Secure Keys focus on enhancing cryptographic security by leveraging the unique physical unclonable function (PUF) capabilities of CrossBar's ReRAM technology. ReRAM's structured randomness and resistance to invasive attacks offer improved security margins over traditional SRAM-based PUF solutions. CrossBar's PUF keys use ReRAM's inherent characteristics, such as high randomness and low bit error rates, to reach new levels of device security. It offers robust protection against side-channel and tampering attacks while ensuring fast production across varying environmental conditions like temperature or interference. These secure keys are especially beneficial in securing IoT devices, smart electronics, and infrastructure systems, as they deliver a "root of trust" foundation necessary for achieving secure communications. CrossBar's PUF offers an effective alternative for embedded applications where traditional flash isn't viable.
18 GHz SOSA-aligned tuner with 4 Rx and 1 Tx channels on a 3U VPX card.
4 channel, 3U SOSA aligned microwave transceiver covering from 20 MHz to 18 GHz. Industry leading channel density minimizes system level SWaP.
A 4 channel 18 GHz microwave tuner optimal for COMINT, ELINT, and EW applications. Independent, and phase-coherent tuning.
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