SNAS859 March 2024 LMK05318B-Q1
PRODUCTION DATA
Refer to the PDF data sheet for device specific package drawings
Any of the two status pins can be configured as a device interrupt output pin. The interrupt logic configuration is set through registers. When the interrupt logic is enabled, the interrupt output can be triggered from any combination of interrupt status indicators, including LOS for the XO, LOR for the selected DPLL input, LOL for each APLL and the DPLL, and holdover and switchover events for the DPLL. When the interrupt polarity is set high, a rising edge on the live status bit asserts the interrupt flag (sticky bit). Otherwise, when the polarity is set low, a falling edge on the live status bit asserts the interrupt flag. Any individual interrupt flag can be masked so the flag does not trigger the interrupt output. The unmasked interrupt flags are combined by the AND/ OR gate to generate the interrupt output, which can be selected on either status pin.
When a system host detects an interrupt from the LMK05318B-Q1, the host can read the interrupt flag or "sticky" registers to identify which bits are asserted to resolve the fault conditions in the system. After the system faults have been resolved, the host can clear the interrupt output by writing zeros to the sticky bits that were asserted.