Micrel, Inc.
current during discontinuous mode is only about 400ÈA,
allowing the MIC2101 to achieve high efficiency in light
load applications.
Soft-Start
Soft-start reduces the power supply input surge current
at startup by controlling the output voltage rise time. The
input surge appears while the output capacitor is
charged up. A slower output rise time will draw a lower
input surge current.
The MIC2101/02 implements an internal digital soft-start
by making the 0.8V reference voltage VREF ramp from 0
to 100% in about 6ms with 9.7mV steps. Therefore, the
output voltage is controlled to increase slowly by a stair-
case VFB ramp. Once the soft-start cycle ends, the
related circuitry is disabled to reduce current
consumption. VDD must be powered up at the same time
or after VIN to make the soft-start function correctly.
Current Limit
The MIC2101/02 uses the RDS(ON) and external resistor
connected from ILIM pin to SW node to decides the
current limit.
Figure 4. MIC2101/02 Current Limiting Circuit
In each switching cycle of the MIC2101/02 converter, the
inductor current is sensed by monitoring the low-side
MOSFET in the OFF period. The sensed voltage V(ILIM) is
compared with the power ground (PGND) after a
blanking time of 150nS. In this way the drop voltage over
the resistor RCL (VCL) is compared with the drop over the
bottom FET generating the short current limit.
MIC2101/02
The small capacitor (CCL) connected from ILIM pin to
PGND filters the switching node ringing during the off
time allowing a better short limit measurement. The time
constant created by RCL and CCL should be much less
than the minimum off time.
The VCL drop allows programming of short limit through
the value of the resistor (RCL), If the absolute value of the
voltage drop on the bottom FET is greater than VCLâ in
that case the V(ILIM) is lower than PGND and a short
circuit event is triggered. A hiccup cycle to treat the short
event is generated. The hiccup sequence including the
soft start reduces the stress on the switching FETs and
protects the load and supply for severe short conditions.
The short circuit current limit can be programmed by
using the formula illustrated in Equation 3:
R CL
(ICLIM � ǻPP u 0.5) uRDS(ON) � VCL
ICL
Eq. 3
Where ICLIM = Desired current limit
ǻPP = Inductor current peak-to-peak
RDS (ON) = On-resistance of low-side power MOSFET
VCL = Current-limit threshold, the typical absolute value is
14mV in Electrical Characteristic table
ICL = Current-limit source current, the typical value is
80μA in Electrical Characteristic table.
In case of hard short, the short limit is folded down to
allow an indefinite hard short on the output without any
destructive effect. It is mandatory to make sure that the
inductor current used to charge the output capacitance
during soft start is under the folded short limit, otherwise
the supply will go in hiccup mode and may not be
finishing the soft start successfully.
The MOSFET RDS(ON) varies 30% to 40% with
temperature; therefore, it is recommended to add a 50%
margin to ICL in the above equation to avoid false current
limiting due to increased MOSFET junction temperature
rise. It is also recommended to connect SW pin directly
to the drain of the low-side MOSFET to accurately sense
the MOSFETs RDS(ON).
November 13, 2013
22
Revision 2.0
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