ISL6227CAZ-T Intersil, ISL6227CAZ-T Datasheet - Page 22
ISL6227CAZ-T
Manufacturer Part Number
ISL6227CAZ-T
Description
IC CONTROLLER DDR, DDR2 28QSOP
Manufacturer
Intersil
Specifications of ISL6227CAZ-T
Package / Case
28-QSOP
Mounting Type
Surface Mount
Voltage - Output
0.9 ~ 5.5 V
Voltage - Input
5 ~ 28 V
Operating Temperature
-10°C ~ 100°C
Applications
Controller, DDR, DDR2
Number Of Outputs
2
Peak Reflow Compatible (260 C)
Yes
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
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Based on the above description and functional block
diagram, the OC set resistor can be calculated as:
I
Since inductor peak current changes with input voltage, it is
better to use an oscilloscope when testing the overcurrent
setting point to monitor the inductor current, and to
determine when the OC occurs. To get consistent test results
on different boards, it is best to keep the MOSFET at a fixed
temperature.
The MOSFET will not heat-up when applying a very low
frequency and short load pulses with an electronic load to
the output.
As an example, assume the following:
• The maximum normal operation load current is 1
• The inductor peak current is 1.15-1.3 times higher than
• The r
I
maximum load current to avoid nuisance overcurrent trip.
Selection of the LC Filter
The duty cycle of a buck converter is a function of the input
voltage and output voltage. Once an output voltage is fixed,
it can be written as:
The switching frequency, F
peak-to-peak ripple current going through the inductor can
be written as:
As higher ripple current will result in higher switching loss
and higher output voltage ripple, the peak-to-peak current of
the inductor is generally designed with a 20%-40% peak-to-
peak ripple of the nominal operation current. Based on this
assumption, the inductor value can be selected with the
above equation. In addition to the mechanical dimension, a
shielded ferrite core inductor with a very low DC resistance,
DCR, is preferred for less core loss and copper loss. The DC
copper loss of the inductor can be estimated by:
The inductor copper loss can be significant in the total
system power loss. Attention has to be given to the DCR
R
D V
I
P
OC
OC
pp
copper
set
(
the load current, depending on the inductor value and the
input voltage
IN
=
is the inductor peak current and not the load current.
should set at least 1.8 to 2 times higher than the
=
)
V
---------------------------------------- -
DS(ON)
---------------------------------------------------
I
-------------------------------- -
o
=
OC
R
(
=
1 D V
CS
---------
V
F
V
I
r
–
IN
sw
load
DS ON
o
+
10.3V
L
(
(
140
has a 45% increase at higher temperature
o
2
DCR
IN
)
)
+
)
8μA
sw
22
, of ISL6227 is 300kHz. The
(EQ. 18)
(EQ. 19)
(EQ. 20)
(EQ. 21)
ISL6227
selection. Another factor to consider when choosing the
inductor is its saturation characteristics at elevated
temperature. Saturated inductors could result in nuisance
OC, or OV trip.
Output voltage ripple and the transient voltage deviation are
factors that have to be taken into consideration when
selecting an output capacitor. In addition to high frequency
noise related MOSFET turn-on and turn-off, the output
voltage ripple includes the capacitance voltage drop and
ESR voltage drop caused by the AC peak-to-peak current.
These two voltages can be represented by:
These two components constitute a large portion of the total
output voltage ripple. Several capacitors have to be
paralleled in order to reduce the ESR and the voltage ripple.
If the output of the converter has to support another load
with high pulsating current, more capacitors are needed in
order to reduce the equivalent ESR and suppress the
voltage ripple to a tolerable level.
To support a load transient that is faster than the switching
frequency, more capacitors have to be used to reduce the
voltage excursion during load step change. Another aspect
of the capacitor selection is that the total AC current going
through the capacitors has to be less than the rated RMS
current specified on the capacitors, to prevent the capacitor
from over-heating.
ΔV
ΔV
c
esr
=
=
--------------------- -
8C
I
I
pp
o
pp
F
ESR
sw
December 21, 2006
(EQ. 22)
(EQ. 23)
FN9094.4
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