Whitepapers
TechOnline | Technical Advantages of Nonvolatile F-RAM Memory in System Design
This white paper delves into the technical advantages of designing with this nonvolatile memory technology, specifically how it can reduce system complexity, lower power consumption, and minimize system maintenance to improve countless variety of applications.
TechOnline | FRAM Reaches Highest Capacity to Date
Bridging the gap between the traditional mainstream semiconductor memory technologies of volatile RAM and non-volatile ROM, ferroelectric random access memory (FRAM) is continuing to grow in popularity among design engineers as the nonvolatile memory of choice. This paper explains how FRAM
TechOnline | Designing Drop-in Pseudo-Static Memories
Pseudo-static memories are designed to drop into the socket of a static random access memory (SRAM) even though the internal memory operation is not static. Two commercially available pseudo-static memories are PSRAM (pseudo-static RAM) and FRAM (ferroelectric random access memory). PSRAM targets
TechOnline | Benefits of the DS32X35 Accurate Real-Time Clock with Ferroelectric Random Access
This application note presents an overview of the DS32X35 family of products. These devices provide an accurate Real-Time Clock with Ferroelectric Random Access Memory (RTC + FRAM) that does not require a battery to maintain its contents.
TechOnline | F-RAM vs. BBSRAM: Functional and System Design Comparisons
This white paper addresses the functional and design differences between F-RAM and BBSRAM memories, with the technical advantages of designing with the nonvolatile memory technology.
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