參數(shù)資料
型號(hào): ISL6566CRZA-T
廠商: INTERSIL CORP
元件分類: 穩(wěn)壓器
英文描述: Three-Phase Buck PWM Controller with Integrated MOSFET Drivers for VRM9, VRM10, and AMD Hammer Applications
中文描述: SWITCHING CONTROLLER, 1500 kHz SWITCHING FREQ-MAX, PQCC40
封裝: 6 X 6 MM, ROHS COMPLIANT, PLASTIC, MO-220-VJJD, MLFP, QFN-40
文件頁數(shù): 24/28頁
文件大小: 799K
代理商: ISL6566CRZA-T
24
FN9178.3
July 25, 2005
Since the capacitors are supplying a decreasing portion of the
load current while the regulator recovers from the transient, the
capacitor voltage becomes slightly depleted. The output
inductors must be capable of assuming the entire load current
before the output voltage decreases more than
V
MAX
. This
places an upper limit on inductance.
Equation 32 gives the upper limit on L for the cases when the
trailing edge of the current transient causes a greater output-
voltage deviation than the leading edge. Equation 33
addresses the leading edge. Normally, the trailing edge dictates
the selection of L because duty cycles are usually less than
50%. Nevertheless, both inequalities should be evaluated, and
L should be selected based on the lower of the two results. In
each equation, L is the per-channel inductance, C is the total
output capacitance, and N is the number of active channels.
Switching Frequency
There are a number of variables to consider when choosing the
switching frequency, as there are considerable effects on the
upper MOSFET loss calculation. These effects are outlined in
MOSFETs
, and they establish the upper limit for the switching
frequency. The lower limit is established by the requirement for
fast transient response and small output-voltage ripple as
outlined in
Output Filter Design
. Choose the lowest switching
frequency that allows the regulator to meet the transient-
response requirements.
Switching frequency is determined by the selection of the
frequency-setting resistor, R
T
. Figure 21 and Equation 34 are
provided to assist in selecting the correct value for R
T
.
Input Capacitor Selection
The input capacitors are responsible for sourcing the ac
component of the input current flowing into the upper
MOSFETs. Their RMS current capacity must be sufficient to
handle the ac component of the current drawn by the upper
MOSFETs which is related to duty cycle and the number of
active phases.
For a three-phase design, use Figure 22 to determine the input-
capacitor RMS current requirement set by the duty cycle,
maximum sustained output current (I
O
), and the ratio of the
peak-to-peak inductor current (I
L,PP
) to I
O
. Select a bulk
capacitor with a ripple current rating which will minimize the
total number of input capacitors required to support the RMS
current calculated. The voltage rating of the capacitors should
also be at least 1.25 times greater than the maximum input
voltage. Figures 23 and 24 provide the same input RMS current
information for two-phase and single-phase designs
respectively. Use the same approach for selecting the bulk
capacitor type and number.
L
2 N C V
O
I
---------------------------------
V
MAX
I ESR
(
)
(EQ. 32)
L
-1.25
V
MAX
(
)
N C
I
)
2
(
I ESR
(
)
V
IN
V
O
(EQ. 33)
R
T
10
10.61
1.035
f
S
(
)
log
[
]
=
(EQ. 34)
10
100
1000
10
100
1000
10000
FIGURE 21. R
T
vs SWITCHING FREQUENCY
SWITCHING FREQUENCY (kHz)
R
T
(
)
FIGURE 22. NORMALIZED INPUT-CAPACITOR RMS
CURRENT FOR 3-PHASE CONVERTER
DUTY CYCLE (V
IN/
V
O
)
0
0.4
1.0
0.2
0.6
0.8
I
R
I
O
)
0.3
0.1
0
0.2
I
L,PP
= 0
I
L,PP
= 0.25 I
O
I
L,PP
= 0.5 I
O
I
L,PP
= 0.75 I
O
FIGURE 23. NORMALIZED INPUT-CAPACITOR RMS
CURRENT FOR 2-PHASE CONVERTER
0.3
0.1
0
0.2
I
R
I
O
)
0
0.4
1.0
0.2
0.6
0.8
DUTY CYCLE (V
IN/
V
O
)
I
L,PP
= 0
I
L,PP
= 0.5 I
O
I
L,PP
= 0.75 I
O
ISL6566
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