RTAX Datasheet

The RTAX Datasheet is a comprehensive document provided by Microchip (formerly Actel) that details the specifications, characteristics, and functionalities of their RTAX family of radiation-tolerant field-programmable gate arrays (FPGAs). Understanding the RTAX Datasheet is crucial for engineers designing systems that need to operate reliably in harsh environments, such as space or high-altitude applications.

Demystifying the RTAX Datasheet A Comprehensive Guide

The RTAX Datasheet serves as the primary source of information for anyone working with RTAX FPGAs. It’s a highly technical document that outlines everything from the device’s electrical characteristics and timing parameters to its packaging options and radiation performance. The datasheet enables engineers to make informed decisions about device selection, system design, and verification. Accurate interpretation of the RTAX Datasheet is essential for ensuring the reliable and safe operation of systems employing these FPGAs. Some of the key areas covered in a typical RTAX Datasheet include:

• Absolute Maximum Ratings: Defining the limits beyond which the device may be damaged.
• Operating Conditions: Specifying the recommended voltage and temperature ranges for normal operation.
• DC Characteristics: Detailing the device’s current consumption, voltage levels, and input/output characteristics.
• AC Characteristics: Outlining the timing parameters, such as propagation delays and clock frequencies.
• Radiation Performance: Providing data on the device’s resistance to various types of radiation, like total ionizing dose (TID) and single-event effects (SEE).

The RTAX Datasheet plays a critical role in the design and verification process. By carefully examining the datasheet, engineers can determine if the RTAX FPGA meets the specific requirements of their application. For example, if the system requires a particular clock frequency or data rate, the datasheet can be consulted to verify that the device can support it. Similarly, if the system will be exposed to radiation, the datasheet can be used to assess the device’s radiation tolerance and to implement appropriate mitigation techniques. The data available in the datasheet will tell which devices are suitable for different use cases.

1. Selecting the appropriate RTAX FPGA for the application.
2. Designing the power supply and clock distribution networks.
3. Verifying the timing performance of the design.
4. Implementing radiation mitigation techniques.
5. Ensuring the reliability and safety of the system.

Without a deep understanding of the RTAX Datasheet, engineers risk designing systems that are unreliable, unsafe, or simply non-functional. A snippet of what information might be in a datasheet includes this table:

Ready to dive deeper into the world of RTAX FPGAs? Refer directly to the official RTAX Datasheet provided by Microchip for the most accurate and up-to-date information. It is a treasure trove of knowledge waiting to be unlocked!