JAJSJA4L June 2011 – February 2021 F28M35E20B , F28M35H22C , F28M35H52C , F28M35H52C-Q1 , F28M35M22C , F28M35M52C
PRODUCTION DATA
The C28x NMI Block generates a C28NMIINT nonmaskable interrupt to the C28x CPU and a C28NMI event to the C28x NMI Watchdog in response to potentially critical conditions existing inside the Concerto MCU. When able to respond to the C28NMIINT interrupt, the C28x CPU may address the NMI condition and disable the C28x NMI Watchdog. Otherwise, the C28x NMI Watchdog counts out and the C28NMIRST reset signal is sent to the Resets block and the Cortex-M3 NMI Block, where the Cortex-M3 NMI Block can generate an NMI to the Cortex-M3 processor.
The inputs to the C28x NMI block include the CLOCKFAIL, ACIBERR, RAMUNCERR, FLASHUNCERR, PIENMIERR, CLBISTERR, and MLBISTERR signals. The CLOCKFAIL input comes from the Clocks Block, announcing a missing clock source to the Main Oscillator. ACIBERR indicates an abnormal condition inside the Analog Common Interface Bus. The RAMUCERR and FLASHUNCERR announce the occurrence of uncorrectable error conditions during access to the Flash or RAM (local or shared). PIENMIERR indicates that an error condition was generated during NMI vector fetch from the C28x PIE block. MLBISTERR is generated by the Cortex-M3 core to signal that a BIST time-out or signature mismatch error has been detected. CLBISTERR is generated by the C28x core to signal that a BIST time-out or signature mismatch error has been detected.
The C28x NMI block can be accessed through the C28x NMI configuration registers—including the CNMIFLG, CNMIFLGCLR, and CNMIFLGFRC registers—to examine flag bits for the NMI sources, clear the flags, and force the flags to active state, respectively.
Figure 8-4 shows the Cortex-M3 NMI and C28x NMI.