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ISL6526-A Datasheet, PDF (9/18 Pages) Intersil Corporation – Operates from 3.3V to 5V Input
ISL6526, ISL6526A
reference voltage and feed it back to the inverting input of
the error amplifier; see Figure 2. However, since the value of
R1 affects the values of the rest of the compensation
components, it is advisable to keep its value less than 5k.
R4 can be calculated based Equation 2:
R4 = -V----O-R---U--1--T----1---0-–---.-8-0---V.--8----V--
(EQ. 2)
If the output voltage desired is 0.8V, simply route the output
back to the FB pin through R1, but do not populate R4.
+3.3V
internal soft-start cycle initiates a normal soft-start ramp of the
output, at time t1. The output is brought back into regulation
by time t2, as long as the overcurrent event has cleared.
Had the cause of the overcurrent still been present after the
delay interval, the overcurrent condition would be sensed and
the regulator would be shut down again for another delay
interval of three soft-start cycles. The resulting hiccup mode
style of protection would continue to repeat indefinitely.
VOUT (2.5V)
VCC
ISL6526,
ISL6526A
VIN
CPVOUT
BOOT
UGATE
PHASE
LGATE
D1
C4
Q1
LOUT
Q2
+
COUT
FB
COMP
C1
R1
C3
C2 R2
R4
VOUT
R3
FIGURE 2. OUTPUT VOLTAGE SELECTION
Overcurrent Protection
The overcurrent function protects the converter from a shorted
output by using the upper MOSFET ON-resistance, rDS(ON),
to monitor the current. This method enhances the converter’s
efficiency and reduces cost by eliminating a current sensing
resistor.
The overcurrent function cycles the soft-start function in a
hiccup mode to provide fault protection. A resistor (ROCSET)
programs the overcurrent trip level (see “Typical Application -
3.3V Input” on page 4 and “Typical Application - 5V Input” on
page 4). An internal 20µA (typical) current sink develops a
voltage across ROCSET that is referenced to VIN. When the
voltage across the upper MOSFET (also referenced to VIN)
exceeds the voltage across ROCSET, the overcurrent function
initiates a soft-start sequence.
Figure 3 illustrates the protection feature responding to an
overcurrent event. At time t0, an overcurrent condition is
sensed across the upper MOSFET. As a result, the regulator
is quickly shutdown and the internal soft-start function begins
producing soft-start ramps. The delay interval seen by the
output is equivalent to three soft-start cycles. The fourth
0V
INTERNAL SOFT-START FUNCTION
DELAY INTERVAL
t0
t1
t2
TIME
FIGURE 3. OVERCURRENT PROTECTION RESPONSE
The overcurrent function will trip at a peak inductor current
(IPEAK) determined by Equation 3:
IPEAK = I--O-----C----S----E-r--D-T---S--x----O-R----N-O----C-----S---E----T--
(EQ. 3)
where IOCSET is the internal OCSET current source (20µA
typical). The OC trip point varies mainly due to the MOSFET
rDS(ON) variations. To avoid overcurrent tripping in the
normal operating load range, find the ROCSET resistor from
Equation 3 with:
1. The maximum rDS(ON) at the highest junction
temperature.
2. The minimum IOCSET from the specification table.
3. Determine IPEAK for IPEAK  IOUTMAX + ----2---I--- ,
whereI is the output inductor ripple current.
For the ripple current, see Equation 11 in “Output Inductor
Selection” on page 12.
A small ceramic capacitor should be placed in parallel with
ROCSET to smooth the voltage across ROCSET in the
presence of switching noise on the input voltage.
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9
FN9055.12
September 30, 2015