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LTC4088-1/LTC4088-2
16
40881fc
applicaTions inForMaTion
CLPROG Resistor and Capacitor
As described in the Step-Down Input Regulator section,
the resistor on the CLPROG pin determines the average
input current limit in each of the six current limit modes.
The input current will be comprised of two components,
the current that is used to drive VOUT and the quiescent
current of the switching regulator. To ensure that the USB
specification is strictly met, both components of input cur-
rent should be considered. The Electrical Characteristics
table gives the typical values for quiescent currents in all
settings as well as current limit programming accuracy.
To get as close to the 500mA or 100mA specifications as
possible, a precision resistor should be used.
An averaging capacitor is required in parallel with the
resistor so that the switching regulator can determine
the average input current. This capacitor also provides
the dominant pole for the feedback loop when current
limit is reached. To ensure stability, the capacitor on
CLPROG should be 0.47µF or larger. Alternatively, faster
transient response may be obtained with 0.1µF in series
with 8.2Ω.
Choosing the Inductor
Because the average input current circuit does not measure
reverse current (i.e., current from VOUT to VBUS), cur-
rent reversal in the inductor at light loads will contribute
an error to the VBUS current measurement. The error is
conservative in that if the current reverses, the voltage
at CLPROG will be higher than what would represent the
actual average input current drawn. The current available
for charging and the system load is thus reduced. The
USB specification will not be violated.
This reduction in available VBUS current will happen when
the peak-peak inductor ripple is greater than twice the
average current limit setting. For example, if the average
current limit is set to 100mA, the peak-peak ripple should
not exceed 200mA. If the input current is less than 100mA,
the measurement accuracy may be reduced, but it does
not affect the average current loop since it will not be in
regulation.
The LTC4088-1/LTC4088-2 includes a current-reversal
comparator which monitors inductor current and disables
the synchronous rectifier as current approaches zero.
This comparator will minimize the effect of current
reversal on the average input current measurement.
For some low inductance values, however, the inductor
current may reverse slightly. This value depends on the
speed of the comparator in relation to the slope of the
current waveform, given by VL/L, where VL is the voltage
across the inductor (approximately –VOUT) and L is the
inductance value.
An inductance value of 3.3µH is a good starting value. The
ripple will be small enough for the regulator to remain in
continuous conduction at 100mA average VBUS current. At
lighter loads the current-reversal comparator will disable
the synchronous rectifier at a current slightly above 0mA. As
the inductance is reduced from this value, the part will enter
discontinuous conduction mode at progressively higher
loads. Ripple at VOUT will increase, directly proportionally
to the magnitude of inductor ripple. Transient response,
however, will be improved. The current mode controller
controls inductor current to exactly the amount required
by the load to keep VOUT in regulation. A transient load
step requires the inductor current to change to a new level.
Since inductor current cannot change instantaneously,
the capacitance on VOUT delivers or absorbs the differ-
ence in current until the inductor current can change to
meet the new load demand. A smaller inductor changes
its current more quickly for a given voltage drive than a
larger inductor, resulting in faster transient response. A
larger inductor will reduce output ripple and current ripple,
but at the expense of reduced transient performance (or
more CVOUT required) and a physically larger inductor
package size.
The input regulator has an instantaneous peak current
clamp to prevent the inductor from saturating during tran-
sient load or start-up conditions.
The clamp is designed
so that it does not interfere with normal operation at
high loads with reasonable inductor ripple. It will prevent
inductor current runaway in case of a shorted output.
The DC winding resistance and AC core losses of the
inductor will affect efficiency, and therefore available
output power. These effects are difficult to characterize
and vary by application. Some inductors which may be
suitable for this application are listed in Table 3.