Datasheet
IL(ripple)/2
Output Current
Internal Clock
PWM, FCCM
PWM, Skip Mode
No Zero-Crossing for two
PWM cycles, and the
device enters CCM
In Skip mode, the PWM sync to
internal clock after entering CCM
UDG-11279
TPS53313
www.ti.com
SLUSAS8 –DECEMBER 2011
LIGHT LOAD OPERATION
In skip mode, when the load current is less than half of inductor ripple current, the inductor current reaches zero
by the end of OFF-Time. The light load control scheme then turns off the low-side MOSFET when inductor
current reaches zero. Since there is no negative inductor current, the energy delivered to the load per switching
cycle is increased compared to the normal PWM mode operation. The controller then reduces the switching
frequency to maintain the output voltage regulation. The switching loss is reduced and thus efficiency is
improved.
In skip mode, when the load current decreases, the switching frequency also decreases continuously in
discontinuous conduction mode (DCM). When the load current is 0 A, the minimum switching frequency is
reached. It is also required that the difference between V
VBST
and V
SW
to be higher than 3.3 V to ensure the
supply for high-side gate driver.
Figure 12. TPS53313 Operation Modes in Light and Heavy Load Conditions
FORCED CONTINUOUS CONDUCTION MODE
When choosing FCCM, the TPS53313 is operating in continuous conduction mode in both light and heavy load
condition. In this mode, the switching frequency remains constant over the entire load range which is suitable for
applications need tight control of switching frequency at a cost of lower efficiency at light load.
SOFT-START OPERATION
The soft-start operation reduces the inrush current during the start-up time. A slow rising reference is generated
by the soft-start circuitry and sent to the input of the error amplifier. When the soft-start ramp voltage is less than
600 mV, the error amplifier uses this ramp voltage as the reference. When the ramp voltage reaches 600 mV, a
fixed 600-mV reference voltage is used for the error amplifier. The soft-start time has selectable values of 1 ms,
3 ms and 6 ms.
POWER GOOD
The TPS53313 monitors the output voltage through the FB pin. If the FB voltage is within 117% and 83% of the
reference voltage, the power good signal remains high. If the FB voltage is outside of this range, the PG pin pin
is pulled low by the internal open drain output.
During start up, the power good signal has a 200-μs delay after the FB voltage falls into the power good range
limit when the soft-start time is set to 1 ms. There is also 10-μs delay during shut down.
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