參數(shù)資料
型號(hào): NCP5331FTR2G
廠商: ON SEMICONDUCTOR
元件分類: 穩(wěn)壓器
英文描述: Two-Phase PWM Controller with Integrated Gate Drivers
中文描述: 1.5 A SWITCHING CONTROLLER, 750 kHz SWITCHING FREQ-MAX, PQFP32
封裝: LEAD FREE, LQFP-32
文件頁(yè)數(shù): 14/36頁(yè)
文件大小: 443K
代理商: NCP5331FTR2G
NCP5331
http://onsemi.com
14
APPLICATIONS INFORMATION
Overview
The NCP5331 dc/dc controller utilizes an Enhanced V
2
topology to meet requirements of low voltage, high current
loads with fast transient requirements. Transient response
has been improved and voltage jitter virtually eliminated by
including an internal PWM ramp, connecting fastfeedback
from V
CORE
directly to the internal PWM comparator, and
precise routing and grounding inside the controller.
Advanced features such as adjustable powergood delay,
programmable overcurrent shutdown time, superior
overvoltage protection (OVP), and differential remote
voltage sensing make it easy to obtain AMD certification.
An innovative overvoltage protection (OVP) scheme
safeguards the CPU during extreme situations including
power up with a shorted upper MOSFET, shorting of an
upper MOSFET during normal operation, and loss of the
voltage feedback signal, COREFB+. The NCP5331
provides a “fully integrated solution” to simplify design,
minimize circuit board area, and reduce overall system cost.
Two advantages of a multiphase converter over a
singlephase converter are current sharing and increased
apparent output frequency. Current sharing allows the
designer to use less inductance in each phase than would be
required in a singlephase converter. The smaller inductor
produces larger ripple currents but the total per phase power
dissipation is reduced because the rms current is lower.
Transient response is improved because the control loop will
measure and adjust the current faster in a smaller output
inductor. Increased apparent output frequency is desirable
because the offtime and the ripple voltage of the twophase
converter will be less than that of a singlephase converter.
Fixed Frequency Multiphase Control
In a multiphase converter, multiple converters are
connected in parallel and are switched on at different times.
This reduces output current from the individual converters
and increases the apparent ripple frequency. Because several
converters are connected in parallel, output current can ramp
up or down faster than a single converter (with the same
value output inductor) and heat is spread among multiple
components.
The NCP5331 controller uses a twophase, fixed
frequency, Enhanced V
2
architecture to measure and control
currents in individual phases. Each phase is delayed 180
°
from the previous phase. Normally, GHx (x = 1 or 2)
transitions to a high voltage at the beginning of each
oscillator cycle. Inductor current ramps up until the
combination of the current sense signal, the internal ramp
and the output voltage ripple trip the PWM comparator and
bring GHx low. Once GHx goes low, it will remain low until
the beginning of the next oscillator cycle. While GHx is
high, the Enhanced V
2
loop will respond to line and load
variations (i.e. the upper gate ontime will be increased or
reduced as required). On the other hand, once GHx is low,
the loop can not respond until the beginning of the next
PWM cycle. Therefore, constant frequency Enhanced V
2
will typically respond to disturbances within the offtime of
the converter.
The Enhanced V
2
architecture measures and adjusts the
output current in each phase. An additional input, CSx (x =
1 or 2), for inductor current information has been added to the
V
2
loop for each phase as shown in Figure 14. The triangular
inductor current is measured differentially across RS,
amplified by CSA and summed with the Channel Startup
Offset, the Internal Ramp, and the Output Voltage at the
noninverting input of the PWM comparator. The purpose of
the Internal Ramp is to compensate for propagation delays in
the NCP5331. This provides greater design flexibility by
allowing smaller external ramps, lower minimum pulse
widths, higher frequency operation, and PWM duty cycles
above 50% without external slope compensation. As the sum
of the inductor current and the internal ramp increase, the
voltage on the positive pin of the PWM comparator rises and
terminates the PWM cycle. If the inductor starts a cycle
Figure 14. Enhanced V
2
Control Employing Resistive Current Sensing and Additional Internal Ramp
+
CSA
SWNODE
Lx
RLx
RSx
CSx
COn
CS
REF
+
V
OUT
(V
CORE
)
“FastFeedback”
Connection
+
PWM
COMP
To F/F
Reset
Channel
StartUp
Offset
+
Error
Amp
DAC
Out
V
FB
COMP
Internal Ramp
x = 1 or 2
+
V
FFB
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