LTC3878
Operation
LTC1778 Compatibility
The LTC3878 is compatible with the LTC1778 in applica-
tions which do not use the EXTVCC function. The LTC3878
offers improved gate drive and reduced dead time, which
allows higher efficiency than the LTC1778. On the LTC1778
Pin 9 is EXTVCC, but on the LTC3878 it is a no connect.
The other notable difference is that the shutdown latch-
off timer is removed. The LTC3878 should be a drop in,
pin-for-pin replacement in most applications that do not
use EXTVCC. The LTC3878 should be tested and verified
in each application without assuming compatibility. Con-
tact a Linear applications expert to answer any questions
regarding LTC3878/LTC1778 compatibility.
Main Control Loop
The LTC3878 is a valley current mode controller IC for
use in DC/DC step-down converters. In normal continu-
ous operation, the top MOSFET is turned on for a fixed
interval determined by a one-shot timer, OST. When the
top MOSFET is turned off, the bottom MOSFET is turned
on until the current comparator, ICMPâ, trips, restarting
the one-shot timer and initiating the next cycle. Inductor
valley current is measured by sensing the voltage between
the PGND and SW pins using the bottom MOSFET on-
resistance. The voltage on the ITH pin sets the compara-
tor threshold corresponding to inductor valley current.
The error amplifier EA adjusts this voltage by comparing
the feedback signal VFB from the output voltage to the
feedback reference voltage VFBREFâ. Increasing the load
current causes a drop in the feedback voltage relative
to the reference. The EA senses the feedback voltage
drop and adjusts the ITH voltage higher until the average
inductor current matches the load current.
With DC current loads less than 1/2 of the peak-to-peak
ripple the inductor current can drop to zero or become
negative. In discontinuous operation, negative inductor
current is detected and prevented by the current reversal
comparator IREVâ, which shuts off MB. Both switches
remain off with the output capacitor supplying the load
current until the EA moves the ITH voltage above the zero
current level (0.8V) to initiate another switching cycle.
When the FCB (forced continuous bar) pin is below the
internal FCB threshold reference, VFCB, the regulator is
forced to operate in continuous mode by disabling reversal
comparator, IREVâ, thereby allowing the inductor current to
become negative.
The continuous mode operating frequency can be deter-
mined by dividing the calculated duty cycle, VOUT/VIN,
by the fixed on-time. The OST generates an on-time
proportional to the ideal duty cycle, thus holding the
frequency approximately constant with changes in VIN.
The nominal frequency can be adjusted with an external
resistor, RON.
Foldback current limiting is provided to protect against
low impedance shorts. If the controller is in current limit
and VOUT drops to less 50% of regulation, the current limit
set-point âfolds backâ to progressively lower values. To
recover from foldback current limit, the excessive load or
low impedance short needs to be removed.
Pulling the RUN/SS pin low forces the controller into its
shutdown state, turning off both MT and MB. Releasing
the pin allows an internal 1.2µA current source to charge
up an external soft-start capacitor, CSS. When the RUN/
SS pin is less than 0.7V, the device is in the low power
shutdown condition with a nominal bias current of 18µA.
When RUN/SS is greater than 0.7V and less than 1.5V,
INTVCC and all internal circuitry are enabled while MT and
MB are forced off. Current-limited soft-start begins when
RUN/SS exceeds 1.5V. Normal operation at full current
limit is achieved at approximately 3V on RUN/SS. Foldback
current limit is defeated during soft-start.
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