LTC3613IWKH#PBF (Linear) PDF资料下载 Datasheet(27/36 页)

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型号：	LTC3613IWKH#PBF
厂商：	Linear Technology
文件页数：	27/36页
文件大小：	0K
描述：	IC REG BUCK SYNC ADJ 15A 56QFN
标准包装：	40
类型：	降压（降压）
输出类型：	可调式
输出数：	1
输出电压：	0.6 V ~ 5.5 V
输入电压：	4.5 V ~ 24 V
PWM 型：	电流模式
频率 - 开关：	200kHz ~ 1MHz
电流 - 输出：	15A
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：	56-VFQFN 裸露焊盘
包装：	管件
供应商设备封装：	56-QFN 多焊盘（7x9）

LTC3613

APPLICATIONS INFORMATION

The resulting maximum ripple current is:

However, a 0A to 10A load step will cause an output

? ? 1–

? ≈ 5.8A

ΔI L =

1.2V ?

350kHz ? 0.56μH ?

1.2V ?

24V ?

change of up to:

Δ V OUT(STEP) = Δ I LOAD ? ESR = (10A)(4.5mΩ) = 45mV

Often in high power applications, DCR current sensing is

preferred over R SENSE in order to maximize efficiency. In

order to determine the DCR filter values, first the induc-

tor manufacturer has to be chosen. For this design, the

Vishay IHLP-4040DZ-01 model is chosen with a value of

0.56μH and DCR MAX =1.8mΩ. This implies that:

V SENSE(MAX) = DCR MAX at 25°C ? [1 + 0.4% (T L(MAX)

– 25°C)] ? [I OUT(MAX) – Δ I L /2]

= 1.8mΩ ? [1 + 0.4% (100°C – 25°C)] ?

[15A – 5.8A/2]

≈ 28.3mV

The maximum sense voltage is within the range that

LTC3613 can handle without any additional scaling. There-

fore, the DCR filter consists of a simple RC filter across

the inductor. If the C is chosen to be 0.1μF, then the R can

be calculated as:

Optional 100μF ceramic output capacitors are included to

minimize the effect of ESR and ESL in the output ripple

and to improve load step response.

PC Board Layout Checklist

When laying out the printed circuit board, the following

checklist should be used to ensure proper operation of

the LTC3613.

? Multilayer boards with dedicated ground layers are

preferable for reduced noise and for heat sinking pur-

poses. Use wide rails and/or entire planes for V IN , V OUT

and PGND nodes for good filtering and minimal copper

loss. Flood unused areas of all layers with copper for

better heat sinking.

? Keep signal and power grounds separate except at the

point where they are shorted together. Short signal and

power ground together only at a single point with a nar-

R DCR =

L

DCR MAX ? C DCR

=

0.56μH

1.8m Ω ? 0.1μF

≈ 3.11k

row PCB trace (or single via in a multilayer board). All

power train components should be referenced to power

ground and all small-signal components (e.g., C ITH1 ,

The closest standard value is 3.09k.

The resulting value of V RNG with a 50% design margin

factor is:

V RNG = V SENSE(MAX) /0.05 ? MF

= 28.3mV/0.05 ? 1.5 ≈ 850mV

To generate the V RNG voltage, connect a resistive divider

from INTV CC to SGND with R DIV1 = 52.3k and R DIV2 = 10k.

Select C IN to give an RMS current rating greater than 7A

at 75°C. The output capacitor C OUT is chosen for a low

ESR of 4.5mΩ to minimize output voltage changes due to

inductor ripple current and load steps. The output voltage

ripple is given as:

Δ V OUT(RIPPLE) = Δ I L(MAX) ? ESR = (5.8A)(4.5mΩ)

≈ 26mV

R T , C SS etc.) should be referenced to signal ground.

? Place C IN , inductor, sense resistor (if used), and primary

C OUT capacitors close together in one compact area.

The SW node should be compact but be large enough

to handle the inductor currents without large copper

losses. Connect PV IN as close as possible to the (+)

plate of C IN capacitor(s) that provides the bulk of the

AC current (these are normally the ceramic capaci-

tors), and connect PGND as close as possible to the

(–) terminal of the same C IN capacitor(s). The high dI/

dt loop formed by C IN , the top MOSFET, and the bot-

tom MOSFET should have short leads and PCB trace

lengths to minimize high frequency EMI and voltage

stress from inductive ringing. The (–) terminal of the

primary C OUT capacitor(s) which filter the bulk of the

inductor ripple current (these are normally the ceramic

capacitors) should also be connected close to the (–)

terminal of C IN .

3613fa

27

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