This document describes:

This application report is intended for developers who wish to either extend the functionalities of the existing applic

This manual describes how to use the Renesas Flexible Software Package (FSP) for writing applications for the RZ/T2, RZ/N2 microprocessor series.

This document describes the contents of the Example Project Bundle for the EK-RA6E2 kit. The Example Projects contained within the bundle show how to write code for the various Renesas Flexible Software Package (FSP) modules supported by the EK-RA6E2 kit.

The CoreEDAC IP generates Error Detection And Correction (EDAC) circuitry for both internal (on-chip) and external RAM blocks. The user data is fed to the EDAC encoder, which calculates the parity bits and appends these to the user data, forming a codeword. The codeword is stored into the RAM. During user read, the read codeword is decoded first, which detects and corrects errors (if any), discards parity bits, and outputs the corrected user data word. Scrubbing periodically checks every memory location using the ECC decoder. If a location contains a corrupted word, the decoder detects and corrects the word. The scrubbing circuitry then writes the corrected word back to the same location. To provide normal access to the RAM and prevent decreasing performance, scrubbing is only done during idle periods. The scrubbing circuitry sets a proper write address and write enable signals, writing the corrected codeword back to the RAM. Writeback occurs only upon detecting an error.

This document is intended to guide MPLAB Harmony v2 users on how to develop applications using MPLAB Harmony V3.

This application note walks through the basics of the MAX66250 NFC/RFID device in terms of its use with the associated desktop application. The functionality of the IC is exercised using the development mode of the software, which allows for the configuration of programs to enable the communication, memory, and protection features of the device. Furthermore, the results of these programs can be logged and interpreted in the operator mode of the software.

This application note describes how external compensation works and provides a method to implement it with above-mentioned devices. Through external compensation, the frequency response of buck switching regulators is adjusted to increase or decrease the bandwidth of the system by addition of a simple RC network with a feedback circuit.

When evaluating an amplifier’s performance for a low noise application, both internal and external noise sources must be considered. This application note briefly discusses the fundamentals of both internal and external noise and identifies the tradeoffs associated in selecting the optimal amplifier for low noise design.