LTC3569EFE#TRPBF (Linear) PDF资料下载 Datasheet(16/26 页)

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型号：	LTC3569EFE#TRPBF
厂商：	Linear Technology
文件页数：	16/26页
文件大小：	0K
描述：	IC REG BUCK SYNC ADJ 16TSSOP
标准包装：	2,500
类型：	降压（降压）
输出类型：	可调式
输出数：	3
输出电压：	0.43 V ~ 5.5 V
输入电压：	2.5 V ~ 5.5 V
PWM 型：	电流模式，混合
频率 - 开关：	2.25MHz，1MHz ~ 3MHz
电流 - 输出：	600mA，1.2A
同步整流器：	是
工作温度：	-40°C ~ 125°C
安装类型：	表面贴装
封装/外壳：	16-TSSOP（0.173"，4.40mm）裸露焊盘
包装：	带卷 (TR)
供应商设备封装：	16-TSSOP-EP

LTC3569

APPLICATIONS INFORMATION

Input/Output Capacitor Selection

Use low equivalent series resistance (ESR) ceramic

capacitors at the switching regulator outputs as well as

at the input supply pins. It is recommended to use only

X5R or X7R ceramic capacitors because they retain their

capacitance over wider voltage and temperature ranges

than other ceramic types.

For good transient response and stability the input and

output capacitors should retain at least 50% of rated ca-

pacitance value over temperature and bias voltage. Check

with capacitor data sheets to ensure that bias voltage and

temperature derating is taken into account when selecting

capacitors.

In continuous mode, the input supply current is a square

wave of duty cycle V OUT /V IN . The maximum input capacitor

ripple current is approximated by:

C IN required I RMS ≈ I OUT(MAX) (V OUT (V IN –V OUT )) 1/2 /V IN

This formula ’s maximum is approximately I RMS =

I OUT(MAX) /2.

In an output short-circuit situation, the input capacitor

ripple current is approximately:

C IN required I RMS ≈ I PK /√ 3

Thus, the ripple current in an output short-circuit is about

2.5 times larger than for nominal operation. Take care

in selecting the input capacitor so as not to exceed the

capacitor manufacturer’s specification for self heating due

to the ripple current.

Two factors influence the selection of the output capacitor.

The first is load voltage droop, V DROOP , the second is the

output capacitor ESR effect on ripple voltage.

Load voltage droops on a load current step, ? I OUT , where

the output capacitor supports the output voltage for typi-

cally 2 to 3 clock cycles until the inductor current charges

up to the load step current level. A good estimate of output

capacitor value required to maintain a droop of less than

V DROOP is given by:

The second factor that influences the selection of the output

capacitor is the effect of output capacitor ESR on the output

voltage ripple as a result of the inductor ripple current.

The amplitude of voltage ripple, ? V OUT , is determined by:

? V OUT ≈ ? I L (ESR + 1/(8 ?f CLK ?C OUT ))

Where ? I L is the ripple current in the inductor, and ESR

is the equivalent series resistance of the output capacitor.

Using ceramic capacitors, this voltage ripple is usually

negligible.

Table 2. Capacitors

VENDOR/PART NUMBER VALUE (μF)

Murata: GRM21BR71A106KE51 10

Murata: 06036D475KAT 4.7

TDK: C1608X5R0J106M 10

C1608X7R1C105K 1

Printed Circuit Board Layout Considerations

There are three main considerations to take into account

while designing a PCB layout for the LTC3569. The first

consideration is regarding switching noise coupling onto

the FB pin traces and the R T pin trace, or causing radiated

electromagnetic induction (EMI). The noise is mitigated

by placing the inductors and input decoupling capacitors

as close as possible to the LTC3569. Furthermore, careful

placement of a contiguous ground plane directly under

the high frequency switching node traces of the LTC3569

mitigates EMI; since high frequency eddy currents follow

the ground plane in loops. The larger the area of the cur-

rent return loops the larger EMI that is radiated. Placing

input decoupling capacitors close to the corresponding

PV IN /PGND pins directly reduces the area (and therefore

the inductance) of ground returns. Also, place a group of

vias directly under the grounded backside of the package

leading to an internal ground plane. Place the ground

plane on the second layer of the PCB to minimize parasitic

inductance.

C OUT ≈ 2.5 ? ? I OUT /(f CLK ?V DROOP )

3569fd

16

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