LT3980IDE#PBF (Linear) PDF资料下载 Datasheet(10/24 页)

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参数资料

型号：	LT3980IDE#PBF
厂商：	Linear Technology
文件页数：	10/24页
文件大小：	0K
描述：	IC REG BUCK ADJ 2A 14DFN
标准包装：	91
类型：	降压（降压）
输出类型：	可调式
输出数：	1
输出电压：	0.79 V ~ 52.2 V
输入电压：	3.6 V ~ 58 V
PWM 型：	电流模式，Burst Mode?
频率 - 开关：	225kHz ~ 2.25MHz
电流 - 输出：	2A
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：	14-WFDFN 裸露焊盘
包装：	管件
供应商设备封装：	14-DFN-EP（4x3）

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LT3980

APPLICATIONS INFORMATION

V IN ( ) =

V OUT + V D

1– f SW t OFF ( MIN )

? V + V D ? ? V + V D ?

? ?? 1– OUT

V IN ( MAX ) ? ?

drop (~0.5V), V SW is the internal switch drop (~0.5V at

max load), f SW is the switching frequency (set by R T ),

and t ON(MIN) is the minimum switch on time (~200ns).

Note that a higher switching frequency will depress the

maximum operating input voltage. Conversely, a lower

switching frequency will be necessary to achieve safe

operation at high input voltages.

Input voltages up to 58V are acceptable regardless of the

switching frequency. In this mode, the LT3980 may enter

pulse-skipping operation where some switching pulses

are skipped to maintain safe inductor current.

The minimum input voltage is determined by either the

LT3980’s minimum operating voltage of ~3.6V or by its

maximum duty cycle (see equation in previous section).

The minimum input voltage due to duty cycle is:

MIN – V D + V SW

where V IN(MIN) is the minimum input voltage, and t OFF(MIN)

is the minimum switch off time (200ns). Note that higher

switching frequency will increase the minimum input

voltage. If a lower dropout voltage is desired, a lower

switching frequency should be used.

Inductor Selection

For a given input and output voltage, the inductor value

and switching frequency will determine the ripple current.

The ripple current ΔI L increases with higher V IN or V OUT

and decreases with higher inductance and faster switching

frequency. A reasonable starting point for selecting the

ripple current is:

where I L(PEAK) is the peak inductor current, I OUT(MAX) is

the maximum output load current, and Δ I L is the inductor

ripple current. The LT3980’s switch current limit (I LIM ) is

4A at low duty cycles and decreases linearly to 3A at DC

= 0.8. The maximum output current is a function of the

inductor ripple current:

I OUT(MAX) = I LIM – Δ I L /2

Be sure to pick an inductor ripple current that provides

sufficient maximum output current (I OUT(MAX) ).

The largest inductor ripple current occurs at the highest

V IN . To guarantee that the ripple current stays below the

specified maximum, the inductor value should be chosen

according to the following equation:

L = ? OUT ?

? f SW ? I L ? ?

where V D is the voltage drop of the catch diode (~0.4V),

V IN(MAX) is the maximum input voltage, V OUT is the output

voltage, f SW is the switching frequency (set by RT), and

L is in the inductor value.

The inductor’s RMS and saturation current rating must

be greater than the maximum load current. For robust

operation in fault conditions (start-up or short circuit) and

high input voltage (>40V), the saturation current should

be above 3.5A. To keep the efficiency high, the series

resistance (DCR) should be less than 0.1Ω, and the core

material should be intended for high frequency applications.

Table 1 lists several vendors and suitable types.

Table 1. Inductor Vendors

VENDOR URL PART SERIES TYPE

Δ I L = 0.4(I OUT(MAX) )

where I OUT(MAX) is the maximum output load current. To

guarantee sufficient output current, peak inductor current

must be lower than the LT3980’s switch current limit (I LIM ).

The peak inductor current is:

I L(PEAK) = I OUT(MAX) + Δ I L /2

Murata

TDK

Toko

Sumida

NEC

Vishay

www.murata.com

www.component.tdk.com

www.toko.com

www.sumida.com

www.nec-tokin.com

www.vishay.com

LQH55D

SLF10145

D75C

D75F

CDRH74

CR75

CDRH8D43

MPLC073

MPBI0755

IHLP2525CE01

Open

Shielded

Shielded

Open

Shielded

Open

Shielded

Shielded

Shielded

Shielded

3980fa

10

For more information www.linear.com/LT3980

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