SNVSC42A September 2023 – July 2024 LMQ64480-Q1 , LMQ644A0-Q1 , LMQ644A2-Q1
PRODUCTION DATA
Apply a voltage less than 0.25 V to the EN1 pin to put the LMQ644xx into shutdown mode. In shutdown mode, the quiescent current drops to 0.5 µA (typical). Above this voltage but below the lower EN threshold, VCC is active but switching on SW1 and SW2 remains inactive. After EN1 is above VEN, the SW1 becomes active. EN2 controls switching on the second output SW2. In dual output configuration EN2 can be used to independantly turn off the second output voltage, but does not control entering shutdown mode. In single-output multi-phase configuration EN1 on primaries and secondaries must be tied together. In single output configuration EN1 must not be used to disable the secondary devices for phase shedding. EN2 of the primary and secondaries must be tied together and can be used to shutdown the secondary phases. The very high efficiency of the device in PFM operation eliminates the need to phase shed in most designs as phase of the secondaries is controlled even under PFM operation.
The EN terminals cannot be left floating. The simplest way to enable the operation is to connect the EN pins to VIN. This action allows the self-start-up of the device when VIN drives the internal VCC above its UVLO level. However, many applications benefit from employing an enable divider string, which establishes a precision input undervoltage lockout (UVLO). The precision UVLO can be used for the following:
Resistor values can be calculated using the equation below:
where