ISL6520 Intersil Corporation, ISL6520 Datasheet - Page 5
ISL6520
Manufacturer Part Number
ISL6520
Description
Single Synchronous Buck Pulse-Width Modulation (PWM) Controller
Manufacturer
Intersil Corporation
Datasheet
1.ISL6520.pdf
(11 pages)
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Start interval and causes an over-current trip. The converter
dissipates very little power with this method. The measured
input power for the conditions of Figure 1 is only 1.5W.
The over-current function will trip at a peak inductor current
(I
where I
typical). The OC trip point varies mainly due to the
MOSFET’s r
tripping in the normal operating load range, find the R
resistor from the equation above with:
For an equation for the ripple current see the section under
component guidelines titled ‘Output Inductor Selection’.
Soft Start
The POR function initiates the soft start sequence after the
overcurrent set point has been sampled. Soft start clamps the
error amplifier output (COMP pin) and reference input (non-
inverting terminal of the error amp) to the internally generated
Soft Start voltage. Figure 2 shows a typical start up interval
where the COMP/OCSET pin has been released from a
grounded (system shutdown) state. Initially, the COMP/OCSET
is used to sample the oversurrent setpoint by disabling the error
amplifier and drawing 20µA through R
current level has been sampled, the soft start function is
initiated. The clamp on the error amplifier (COMP/OCSET pin)
initially controls the converter’s output voltage during soft start.
The oscillator’s triangular waveform is compared to the ramping
error amplifier voltage. This generates PHASE pulses of
I
PEAK
1. The maximum r
2. The minimum I
3. Determine I
PEAK)
temperature.
where ∆I is the output inductor ripple current.
=
OCSET
determined by:
I
---------------------------------------------------- -
OCSET
FIGURE 1. OVERCURRENT OPERATION
DS(ON)
r
is the internal OCSET current source (20µA
DS ON
PEAK
x R
(
OUTPUT INDUCTOR
OCSET
DS(ON)
variations. To avoid over-current
OCSET
)
for
CURRENT
5A/DIV.
TIME (5ms/DIV.)
from the specification table.
at the highest junction
I
PEAK
5
>
I
OUT MAX
OCSET
(
. Once the over-
)
+
(
--------- -
∆I
2
)
OCSET
,
ISL6520
increasing width that charge the output capacitor(s). When the
internally generated Soft Start voltage exceeds the feedback
(FB pin) voltage, the output voltage is in regulation. This
method provides a rapid and controlled output voltage rise. The
entire startup sequence typically take about 11ms.
Application Guidelines
Layout Considerations
As in any high frequency switching converter, layout is very
important. Switching current from one power device to another
can generate voltage transients across the impedances of the
interconnecting bond wires and circuit traces. These
interconnecting impedances should be minimized by using
wide, short printed circuit traces. The critical components
should be located as close together as possible, using ground
plane construction or single point grounding.
Figure 3 shows the critical power components of the converter.
To minimize the voltage overshoot, the interconnecting wires
indicated by heavy lines should be part of a ground or power
plane in a printed circuit board. The components shown in
Figure 3 should be located as close together as possible.
FIGURE 3. PRINTED CIRCUIT BOARD POWER AND
ISL6520
COMP/OCSET
UGATE
PHASE
LGATE
1V/DIV.
GROUND PLANES OR ISLANDS
FIGURE 2. START UP SEQUENCE
TIME (2ms/DIV.)
Q
V
Q
RETURN
2
IN
1
C
IN
L
500mV/DIV.
O
V
C
OUT
O
V
OUT
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