SWCU185G January 2018 – June 2024 CC1312PSIP , CC1312R , CC1352P , CC1352R , CC2642R , CC2642R-Q1 , CC2652P , CC2652PSIP , CC2652R , CC2652RB , CC2652RSIP , CC2662R-Q1
An interrupt request, TRNG_IRQ, is generated when data is ready for transmission (or an alarm was triggered). Table 19-1 lists the event flags, and their masks, that can cause module interrupts.
Event Flag | Event Mask | Description |
---|---|---|
TRNG:IRQSTAT.STAT | TRNG:IRQFLAGMASK.RDY and TRNG:IRQFLAGMASK. SHUTDOWN_OVF | Not used, but can be read for combined status of the two available interrupts |
TRNG:IRQFLAGSTAT.RDY | TRNG:IRQFLAGMASK.RDY | When 1, data is available in the TRNG:OUT1 and the TRNG:OUT0 registers. Use TRNG:IRQFLAGCLR.RDY to clear it. |
TRNG:IRQFLAGSTAT. SHUTDOWN_OVF | TRNG:IRQFLAGMASK. SHUTDOWN_OFV | When 1, the number of FROs shut down after a second error event (the number of 1 bits in the TRNG:ALARMSTOP register) has exceeded the threshold set by the TRNG:ALARMCNT.SHUTDOWN_THR register. Use the TRNG:IRQFLAGCLR.SHUTDOWN_OVF register to clear it. |
The TRNG:ALARMCNT register, together with the TRNG:ALARMMASK and TRNG:ALARMSTOP registers, can be used by the host to determine if the FRO or sample cycle locking is a problem.
Lock detection in functional mode is performed using the sampled outputs of the individual FROs. A FRO alarm event is declared when a repeating pattern (of up to four samples length) is detected continuously for the number of samples defined by the TRNG:ALARMCNT:ALARM_THR register. The alarm event is logged by setting a bit to pinpoint the FRO in the TRNG:ALARMMASK register. If that bit in the TRNG:ALARMMASK register was already set, the corresponding bit in the TRNG:ALARMSTOP register is set and the FRO is switched off to prevent further alarm events from that FRO. If the TRNG:ALARMMASK register bit was not yet set, the FRO is restarted automatically in an attempt to break the locking. If a FRO is locked again after detune and re-enable, software must leave the FRO deactivated.
The TRNG:ALARMCNT.SHUTDOWN_CNT register bit field keeps track of the number of FROs switched off (actually, is a count of the number of 1 bits in the TRNG:ALARMSTOP register). The TRNG:ALARMCNT.SHUTDOWN_THR register bit field allows a configurable threshold to be set to generate the SHUTDOWN_OVF interrupt. When the TRNG:ALARMCNT.SHUTDOWN_CNT register exceeds the TRNG:ALARMCNT.SHUTDOWN_THR register, the TRNG:IRQFLAGSTAT.SHUTDOWN_OVF register bit is set to 1, which can be used to generate an interrupt.