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參數(shù)資料

型號(hào)：	ISL6568CR
廠商：	INTERSIL CORP
元件分類：	穩(wěn)壓器
英文描述：	Two-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, PQCC32
封裝：	5 X 5 MM, PLASTIC, MO-220-VHHD, MLFP, QFN-32
文件頁數(shù)：	19/28頁
文件大?。?/td>	716K
代理商：	ISL6568CR

FN9187.3

July 25, 2005

as shown in Equation 7. A constant 100

A flows through

OCSET

, creating the OCSET voltage. When the droop

voltage exceeds the OCSET voltage, the overcurrent

protection circuitry activates. Since the droop voltage is

proportional to the output current, the overcurrent trip level,

MAX

, can be set by selecting the proper value for R

OCSET

as shown in Equation 14.

Once the output current exceeds the overcurrent trip level,

DROOP

will exceed V

OCSET

, and a comparator will trigger

the converter to begin overcurrent protection procedures. At

the beginning of overcurrent shutdown, the controller turns

off both upper and lower MOSFETs. The system remains in

this state for a period of 4096 switching cycles. If the

controller is still enabled at the end of this wait period, it will

attempt a soft-start (as shown in Figure 14). If the fault

remains, the trip-retry cycles will continue indefinitely until

either the controller is disabled or the fault is cleared. Note

that the energy delivered during trip-retry cycling is much

less than during full-load operation, so there is no thermal

hazard.

General Design Guide

This design guide is intended to provide a high-level

explanation of the steps necessary to create a multi-phase

power converter. It is assumed that the reader is familiar with

many of the basic skills and techniques referenced below. In

addition to this guide, Intersil provides complete reference

designs that include schematics, bills of materials, and example

board layouts for all common microprocessor applications.

Power Stages

The first step in designing a multi-phase converter is to

determine the number of phases. This determination

depends heavily on the cost analysis which in turn depends

on system constraints that differ from one design to the next.

Principally, the designer will be concerned with whether

components can be mounted on both sides of the circuit

board, whether through-hole components are permitted, the

total board space available for power-supply circuitry, and

the maximum amount of load current. Generally speaking,

the most economical solutions are those in which each

phase handles between 25 and 30A. All surface-mount

designs will tend toward the lower end of this current range.

If through-hole MOSFETs and inductors can be used, higher

per-phase currents are possible. In cases where board

space is the limiting constraint, current can be pushed as

high as 40A per phase, but these designs require heat sinks

and forced air to cool the MOSFETs, inductors and heat-

dissipating surfaces.

MOSFETS

The choice of MOSFETs depends on the current each

MOSFET will be required to conduct, the switching frequency,

the capability of the MOSFETs to dissipate heat, and the

availability and nature of heat sinking and air flow.

LOWER MOSFET POWER CALCULATION

The calculation for power loss in the lower MOSFET is

simple, since virtually all of the loss in the lower MOSFET is

due to current conducted through the channel resistance

DS(ON)

). In Equation 15, I

is the maximum continuous

output current, I

is the peak-to-peak inductor current (see

Equation 1), and d is the duty cycle (V

OUT

An additional term can be added to the lower-MOSFET loss

equation to account for additional loss accrued during the

dead time when inductor current is flowing through the

lower-MOSFET body diode. This term is dependent on the

diode forward voltage at I

, V

D(ON)

, the switching

frequency, f

, and the length of dead times, t

and t

, at

the beginning and the end of the lower-MOSFET conduction

interval respectively.

The total maximum power dissipated in each lower MOSFET

is approximated by the summation of P

LOW,1

and P

LOW,2

UPPER MOSFET POWER CALCULATION

In addition to r

DS(ON)

losses, a large portion of the upper-

MOSFET losses are due to currents conducted across the

input voltage (V

) during switching. Since a substantially

higher portion of the upper-MOSFET losses are dependent

on switching frequency, the power calculation is more

complex. Upper MOSFET losses can be divided into

separate components involving the upper-MOSFET

switching times, the lower-MOSFET body-diode reverse-

OCSET

DCR

---------------------------------------------------------

(EQ. 14)

2ms/DIV

OUTPUT CURRENT, 50A/DIV

FIGURE 14. OVERCURRENT BEHAVIOR IN HICCUP MODE

= 500kHz

OUTPUT VOLTAGE,

500mV/DIV

LOW 1

DS ON

)

-----

–

(

)

-------------12

–

(

)

(EQ. 15)

LOW 2

D ON

)

-----

---2

-----

---2

–

(EQ. 16)

ISL6568

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