參數(shù)資料
型號: NCP5318FTR2G
廠商: ON SEMICONDUCTOR
元件分類: 穩(wěn)壓器
英文描述: Two/Three/Four−Phase Buck CPU Controller
中文描述: SWITCHING CONTROLLER, 1000 kHz SWITCHING FREQ-MAX, PQFP32
封裝: LEAD FREE, LQFP-32
文件頁數(shù): 20/31頁
文件大?。?/td> 384K
代理商: NCP5318FTR2G
NCP5318
http://onsemi.com
20
Adjusting the Number of Phases
The NCP5318 is designed with a selectable
phase
architecture. Designers may choose any number of phases
up to four. The phase delay is automatically adjusted to
match the number of phases that will be used. This feature
allows the designer to select the number of phases required
for a particular application.
Four
phase operation is standard. All phases switch with
a 90 degree delay between pulses. No special connections
are required. Three
phase operation is achieved by
disabling phase 4. Tie together CS4N and CS4P, and then
pull both pins to V
CC
. The remaining phases will continue
to switch, but now there will be a 120 degree delay between
phases. The phase firing order will become 1
2
3.
Two
and single
phase operation may be realized as well.
First, the designer must choose the proper phases. Two phase
operation must use phases 2 and 4 by tying CS1N, CS1P,
CS3N and CS3P to ground. This will then use phases 2 and
4 to control gate drivers. The other gate control outputs may
switch, so leave them unconnected.
Single phase is best accomplished by using only Phase 2
as the switch controller. Connect CS2P and CS2N pins to the
current sense circuit, and gate control output 2 to the gate
driver IC input. Tie all other CSxx pins together and connect
them to ground.
Design Procedure
1. Setting the Switching Frequency
The total resistance from R
OSC
to ground sets the
operating frequency for all phases of the converter. The
frequency can be set for either the three phase or four phase
mode by using Figure 7, “Oscillator Frequency versus Total
R
OSC
Value”. After choosing the desired operating
frequency and the number of phases, use the figure to
determine the necessary resistance. If two phase operation
is desired, use the value given for four phase operation.
The voltage from R
OSC
is closely regulated at 1.0 V. This
voltage can be used as the reference for the overcurrent limit
set point on the I
LIM
pin. Design a voltage divider with the
appropriate division ratio to give the desired I
LIM
voltage
and total resistance to set the operating frequency. Since
loading by the I
LIM
pin is very small, the frequency selection
will not be affected.
2. Output Capacitor Selection
The output capacitors filter the current from the output
inductors and provide a low impedance for transient load
current changes. Typically, microprocessor applications
require both bulk (polymer, aluminum, or tantalum
electrolytic) and low impedance, high frequency (ceramic)
types of capacitors. The bulk capacitors provide “hold up”
during transient loading until phase currents ramp up or
down. The low impedance capacitors reduce steady
state
ripple voltage and bypass the bulk capacitance for fast
output current changes.
The designer must determine the number of bulk
capacitors so as to meet the peak transient requirements. The
formula below can be used to provide a starting point for the
minimum number of bulk capacitors (NB
OUT,MIN
):
NBOUT,MIN
ESR per capacitor
IO,MAX
VO,MAX
(eq. 1)
The ESL of the bulk plus ceramic capacitors also affects
the voltage change during a load transient according to:
IO,MAX
ESR
NBOUT,MIN
(eq. 2)
VO,MAX
(
IO,MAX
t
)
ESL
where ESL is the equivalent ESL of all bulk and ceramic
output capacitors in parallel. Capacitor manufacturers do
not always specify the ESL of their components and it is
affected by the inductance added by the PCB layout.
Therefore, it is necessary to start a design with slightly more
than the minimum number of bulk and ceramic capacitors
and perform transient testing to determine the final number
of bulk capacitors.
Intel processor specifications discuss “DynamicVID”
(DVID), by which the VID codes are stepped up or down to
a new desired output voltage. Timing requirements for when
the output must be in regulation further complicates output
capacitor selection. The ideal output capacitor selection has
low ESR and low capacitance. Too much output capacitance
will make it difficult to meet DVID timing specifications;
too much ESR will complicate the transient solution. The
Sanyo 4SEPC560 and Panasonic EEU
FL provide a good
balance of capacitance vs. ESR.
Microprocessor manufacturers often specify a minimum
number of ceramic capacitors, which may need adjustment
to meet ripple voltage requirements. The output voltage
ripple can be calculated using the output inductor value
derived in the following section (L
O,MIN
) and the number of
bulk output capacitors (NB
OUT,MIN
) determined above:
VOUT,P
[(VIN
VIN
P
(ESRperbulkcap. NBOUT,MIN)
#Phase
VOUT)
ESLperceramiccap. NCOUT,MIN LO,MIN
(eq. 3)
D (LO,MIN
fSW)]
This formula assumes steady
state conditions with no
more than one phase on at any time. The second term in
Equation 3 is the total ripple current seen by the output
capacitors. The total output ripple current is the “time
summation” of the four individual phase currents that are 90
degrees out
of
phase. As the inductor current in one phase
ramps upward, current in the other phases ramp downward
and provides a canceling of currents during part of the
switching cycle. Therefore, the total output ripple current
and voltage are reduced in a multi
phase converter.
相關(guān)PDF資料
PDF描述
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NCP5322ADWG 制造商:ONSEMI 制造商全稱:ON Semiconductor 功能描述:Two−Phase Buck Controller with Integrated Gate Drivers and 5−Bit DAC
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