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參數(shù)資料

型號：	RC5041M
廠商：	Raytheon Company
元件分類：	DC/DC變換器
英文描述：	Programmable DC-DC Converter for Pentium P55C, K6 and 6x86MX (M2) Processors
中文描述：	可編程DC - DC轉(zhuǎn)換為奔騰P55C，K6和6x86MX量（M2）處理器
文件頁數(shù)：	11/16頁
文件大?。?/td>	119K
代理商：	RC5041M

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PRODUCT SPECIFICATION

RC5041

When designing the external current sense circuitry, pay

careful attention to the output limitations during normal

operation and during a fault condition. If the short circuit

protection threshold current is set too low, the DC-DC con-

verter may not be able to continuously deliver the maximum

CPU load current. If the threshold level is too high, the out-

put driver may not be disabled at a safe limit and the result-

ing power dissipation within the MOSFET(s) may rise to

destructive levels.

The design equation used to set the short circuit threshold

limit is as follows:

Where I

and I

min

are peak ripple current

and

load, max

= maximum output load current.

The designer must also take into account the current

–I

min

), or the ripple current flowing through the induc-

tor under normal operation. Figure 8 illustrates the inductor

current waveform for the RC5041 DC-DC converter at maxi-

mum load.

Figure 8. DC-DC Converter Inductor Current Waveform

The calculation of this ripple current is as follows:

where:

= input voltage to Converter

= voltage across Switcher (MOSFET)

= I

LOAD

x R

DS(ON)

= Forward Voltage of the Schottky diode

T = the switching period of the converter = 1/f

where f

= switching frequency.

For an input voltage of 5V, an output voltage of 3.3V, an

inductor value of 1.3

H and a switching frequency of

650KHz (using C

EXT

=39pF), the inductor current can be

calculated as follows:

SENSE

= Output short circuit current

inductor

≥

Load, max

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

–

(

)

T=1/f

OFF

LOAD

(Ipk-imin)/2

Ipk

Imin

65-5041-10

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

–

(

)

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

–

(

)

–

)

-------------------------+

Selecting the Inductor

The inductor is one of the most critical components to be

selected in the DC-DC converter application.. The critical

parameters are inductance (L), maximum DC current (Io) and

the coil resistance (R1). The inductor core material is a cru-

cial factor in determining the amount of current the inductor

will be able to withstand. As with all engineering designs,

tradeoffs exist between various types of core materials. In

general, Ferrites are popular due to their low cost, low EMI

properties and high frequency (>500KHz) characteristics.

Molypermalloy powder (MPP) materials exhibit good satura-

tion characteristics, low EMI and low hysteresis losses; how-

ever, they tend to be expensive and more effectively utilized

at operating frequencies below 400KHz. Another critical

parameter is the DC winding resistance of the inductor. This

value should typically be reduced as much as possible, as the

power loss in the DC resistance will degrade the efficiency of

the converter by the relationship: P

LOSS

= I

x R1. The

value of the inductor is a function of the oscillator duty cycle

) and the maximum inductor current (I

). I

can be

calculated from the relationship:

Where T

is the maximum duty cycle and V

is the

forward voltage of diode DS1.

Then the inductor value can be calculated using the relation-

ship:

Where V

DSON

x I

) is the drain-to-source voltage of

M1 when it is switched on.

Implementing Short Circuit Protection

Intel currently requires all power supply manufacturers to

provide continuous protection against short circuit conditions

that may damage the CPU. To address this requirement,

Raytheon has implemented a current sense methodology to

disable the output drive signal to the MOSFET(s) when an

over current condition is detected. The voltage drop created

by the output current flowing across a sense resistor is pre-

sented to one terminal of an internal comparator with hysteri-

sis. The other comparator terminal has the threshold voltage,

nominally of 120mV. Table 4 states the limits for the compar-

ator threshold of the Switching Regulator.

Table 4. RC5041 Short Circuit Comparator

Threshold Voltage

Short Circuit Comparator

threshold

(mV)

120

100

140

Typical

Minimum

Maximum

MIN

----------–

–

------I

–

MIN

相關(guān)PDF資料	PDF描述
RC5042	Programmable DC-DC Converter
RC5042M	Programmable DC-DC Converter
RCH-110	Radial Leaded Inductors
RCH-654	Radial Leaded Inductors
RCH-664	Radial Leaded Inductors

相關(guān)代理商/技術(shù)參數(shù)	參數(shù)描述
RC5042	制造商:RAYTHEON 制造商全稱:RAYTHEON 功能描述:Programmable DC-DC Converter
RC5042M	制造商:RAYTHEON 制造商全稱:RAYTHEON 功能描述:Programmable DC-DC Converter
RC5042MT	制造商:RAYTHEON 功能描述:*
RC5043	制造商:未知廠家制造商全稱:未知廠家功能描述:
RC5043M	制造商:未知廠家制造商全稱:未知廠家功能描述:Current-Mode SMPS Controller

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