LTC3633EUFD#PBF (Linear) PDF资料下载 Datasheet(12/28 页)

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参数资料

型号：	LTC3633EUFD#PBF
厂商：	Linear Technology
文件页数：	12/28页
文件大小：	0K
描述：	IC REG BUCK ADJ 3A DL 28QFN
标准包装：	73
类型：	降压（降压）
输出类型：	可调式
输出数：	2
输出电压：	0.6 V ~ 14.7 V
输入电压：	3.6 V ~ 15 V
PWM 型：	电流模式，混合
频率 - 开关：	500kHz ~ 4MHz
电流 - 输出：	3A
同步整流器：	无
工作温度：	-40°C ~ 125°C
安装类型：	表面贴装
封装/外壳：	28-WFQFN 裸露焊盘
包装：	管件
供应商设备封装：	28-QFN（4x5）
产品目录页面：	1335 (CN2011-ZH PDF)

LTC3633

APPLICATIONS INFORMATION

3.2E 11

R RT =

Δ I L = ? OUT ? ? 1 – OUT ?

A general LTC3633 application circuit is shown on the

first page of this data sheet. External component selection

is largely driven by the load requirement and switching

frequency. Component selection typically begins with the

selection of the inductor L and resistor R T . Once the inductor

is chosen, the input capacitor, C IN , and the output capaci-

tor, C OUT , can be selected. Next, the feedback resistors

are selected to set the desired output voltage. Finally, the

remaining optional external components can be selected

for functions such as external loop compensation, track/

soft-start, V IN UVLO, and PGOOD.

Programming Switching Frequency

Selection of the switching frequency is a trade-off between

efficiency and component size. High frequency operation

allows the use of smaller inductor and capacitor values.

Operation at lower frequencies improves efficiency by

reducing internal gate charge losses but requires larger

inductance values and/or capacitance to maintain low

output ripple voltage.

Connecting a resistor from the RT pin to SGND programs

the switching frequency (f) between 500kHz and 4MHz

according to the following formula:

f

where R RT is in Ω and f is in Hz.

When RT is tied to INTV CC , the switching frequency will

default to approximately 2MHz, as set by an internal

6000

resistor. This internal resistor is more sensitive to pro-

cess and temperature variations than an external resistor

(see Typical Performance Characteristics) and is best used

for applications where switching frequency accuracy is

not critical.

Inductor Selection

For a given input and output voltage, the inductor value and

operating frequency determine the inductor ripple current.

More specifically, the inductor ripple current decreases

with higher inductor value or higher operating frequency

according to the following equation:

? V ? ? V ?

? f ? L ? ? V IN ?

Where ?I L = inductor ripple current, f = operating frequency

and L = inductor value. A trade-off between component

size, efficiency and operating frequency can be seen from

this equation. Accepting larger values of ?I L allows the

use of lower value inductors but results in greater inductor

core loss, greater ESR loss in the output capacitor, and

larger output voltage ripple. Generally, highest efficiency

operation is obtained at low operating frequency with

small ripple current.

A reasonable starting point is to choose a ripple current

that is about 40% of I OUT(MAX) . Note that the largest

ripple current occurs at the highest V IN . Exceeding 60%

of I OUT(MAX) is not recommended. To guarantee that

ripple current does not exceed a specified maximum, the

inductance should be chosen according to:

V OUT

f ? Δ I L(MAX) ? ? ? ?

5000

4000

?

L = ??

?

? ?

? ? 1 –

?

V OUT ?

V IN(MAX) ? ?

3000

2000

1000

0

0

100

200 300 400 500

R T RESISTOR (k )

600

700

Once the value for L is known, the type of inductor must

be selected. Actual core loss is independent of core size

for a fixed inductor value, but is very dependent on the

inductance selected. As the inductance increases, core

losses decrease. Unfortunately, increased inductance

requires more turns of wire, leading to increased DCR

and copper loss.

3633 F01

Figure 1. Switching Frequency vs R T

3633fc

12

For more information www.linear.com/LTC3633

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