LTC1624CS8#PBF (Linear) PDF资料下载 Datasheet(14/28 页)

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参数资料

型号：	LTC1624CS8#PBF
厂商：	Linear Technology
文件页数：	14/28页
文件大小：	0K
描述：	IC REG CTRLR BST FLYBK INV 8SOIC
标准包装：	100
PWM 型：	电流模式
输出数：	1
频率 - 最大：	225kHz
占空比：	95%
电源电压：	3.5 V ~ 36 V
降压：	是
升压：	是
回扫：	是
反相：	是
倍增器：	无
除法器：	无
Cuk：	无
隔离：	无
工作温度：	0°C ~ 70°C
封装/外壳：	8-SOIC（0.154"，3.90mm 宽）
包装：	管件
产品目录页面：	1333 (CN2011-ZH PDF)

LTC1624

APPLICATIO N S I N FOR M ATIO N

( )

(

)

( )

I L PEAK OUT MAX ?

? +

= I

( )

? V IN MIN ? 2

Boost Converters: Power MOSFET Selection

One external N-channel power MOSFET must be selected

for use with the LTC1624 for the switch. In boost applica-

tions the source of the power MOSFET is grounded along

with the SW pin. The peak-to-peak gate drive levels are set

by the INTV CC voltage. The gate drive voltage is equal to

approximately 5V for V IN > 5.6V and a logic level MOSFET

can be used. At V IN voltages below 5V the gate drive

voltage is equal to V IN – 0.6V and a sublogic level MOSFET

should be used.

Selection criteria for the power MOSFET include the “ON”

resistance R DS(ON) , reverse transfer capacitance C RSS ,

input voltage and maximum output current. When the

LTC1624 is operating in continuous mode the duty cycle

for the MOSFET is given by:

Boost Converter: Inductor Selection

For most applications the inductor will fall in the range of

10 μ H to 100 μ H. Higher values reduce the input ripple

voltage and reduce core loss. Lower inductor values are

chosen to reduce physical size.

The input current of the boost converter is calculated at full

load current. Peak inductor current can be significantly

higher than output current, especially with smaller induc-

tors and lighter loads. The following formula assumes

continuous mode operation and calculates maximum peak

inductor current at minimum V IN :

? ? ? I L MAX

V OUT

? ?

Main Switch Duty Cycle = 1 ?

V IN

V OUT + V D

The ripple current in the inductor ( ? I L ) is typically 20% to

30% of the peak inductor current occuring at V IN(MIN) and

( )

( ) ( )

( )

P MAIN = ? I IN MAX ? ? 1 ? ? 1 + δ R DS ON +

V OUT D ?

+ V

( ) ( ) ( )( )

1 . 85 ? ?

? IN MAX ? RSS

V IN ( OUT + V D ? V IN )

( )

( 200 kHz )( L ) ( V OUT + V D )

+ V

( )

( )

where I IN MAX OUT MAX ?

?

= I

( )

? V IN MIN ?

The MOSFET power dissipation at maximum output cur-

rent is given by:

2 ? V IN MIN ?

? ? ?

? ?

k V OUT I C 200 kHz

? ?

V OUT D

? ?

δ is the temperature dependency of R DS(ON) and k is a

constant inversely related to the gate drive current.

MOSFETs have I 2 R losses, plus the P MAIN equation

includes an additional term for transition losses that are

highest at high output voltages. For V OUT < 20V the high

current efficiency generally improves with larger MOSFETs,

while for V OUT > 20V the transition losses rapidly increase

to the point that the use of a higher R DS(ON) device with

lower C RSS actual provides higher efficiency. For addi-

tional information refer to Step-Down Converter: Power

MOSFET Selection in the Applications Information

section.

14

I OUT(MAX) .

V

? I L P-P =

with ? I L(MAX) = ? I L(P-P) at V IN = V IN(MIN) .

Remember boost converters are not short-circuit pro-

tected, and that under output short conditions, inductor

current is limited only by the available current of the input

supply, I OUT(OVERLOAD) . Specify the maximum inductor

current to safely handle the greater of I L(PEAK) or

I OUT(OVERLOAD) . Make sure the inductor’s saturation cur-

rent rating (current when inductance begins to fall)

exceeds the maximum current rating set by R SENSE .

Boost Converter: R SENSE Selection for Maximum

Output Current

R SENSE is chosen based on the required output current.

Remember the LTC1624 current comparator has a maxi-

mum threshold of 160mV/R SENSE . The current compara-

tor threshold sets the peak of the inductor current, yielding

a maximum average output current I OUT(MAX) equal to

I L(PEAK) less half the peak-to-peak ripple current ( ? I L ),

divided by the output-input voltage ratio (see equation for

I L(PEAK) ) .

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