MAX15041ETE+T (Maxim) PDF资料下载 Datasheet(11/18 页)

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参数资料

型号：	MAX15041ETE+T
厂商：	Maxim Integrated Products
文件页数：	11/18页
文件大小：	0K
描述：	IC REG BUCK SYNC ADJ 3A 16TQFN
产品培训模块：	Lead (SnPb) Finish for COTS Obsolescence Mitigation Program
标准包装：	2,500
类型：	降压（降压）
输出类型：	可调式
输出数：	1
输出电压：	0.6 V ~ 25.2 V
输入电压：	4.5 V ~ 28 V
PWM 型：	电流模式
频率 - 开关：	350kHz
电流 - 输出：	3A
同步整流器：	是
工作温度：	-40°C ~ 85°C
安装类型：	表面贴装
封装/外壳：	16-WFQFN 裸露焊盘
包装：	带卷 (TR)
供应商设备封装：	16-TQFN-EP（3x3）

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Low-Cost, 3A, 4.5V to 28V Input, 350kHz, PWM

Step-Down DC-DC Regulator with Internal Switches

R 1 = R 2 × ? OUT ? 1 ?

Programmable Soft-Start (SS)

The MAX15041 utilizes a soft-start feature to slowly ramp

up the regulated output voltage to reduce input inrush

current during startup. Connect a capacitor from SS to

SGND to set the startup time (see the Setting the Soft-

Start Time section for capacitor selection details).

Internal LDO (V DD )

The MAX15041 has an internal 5.1V (typ) LDO. V DD is

externally compensated with a minimum 1μF, low-ESR

ceramic capacitor. The V DD voltage is used to supply

the low-side MOSFET driver, and to supply the internal

control logic. When the input supply (IN) is below 4.5V,

V DD is 50mV (typ) lower than IN. The V DD output cur-

rent limit is 80mA (typ) and an UVLO circuit inhibits

switching when V DD falls below 3.85V (typ).

Error Amplifier

A high-gain error amplifier provides accuracy for the volt-

age feedback loop regulation. Connect the necessary

compensation network between COMP and SGND (see

the Compensation Design Guidelines section). The error-

amplifier transconductance is 1.6mS (typ). COMP clamp

low is set to 0.68V (typ), just below the PWM ramp com-

pensation valley, helping COMP to rapidly return to cor-

rect set point during load and line transients.

PWM Comparator

The PWM comparator compares COMP voltage to the

current-derived ramp waveform (LX current to COMP volt-

age transconductance value is 9A/V, typ.). To avoid insta-

bility due to subharmonic oscillations when the duty cycle

is around 50% or higher, a compensation ramp is added

to the current-derived ramp waveform. The compensation

ramp slope (0.45V x 350kHz) is equivalent to half of the

inductor current down slope in the worst case (load 3A,

current ripple 30% and maximum duty cycle operation of

90%). Compensation ramp valley is set at 0.83V (typ).

Overcurrent Protection

and Hiccup Mode

When the converter output is shorted or the device is

overloaded, the high-side MOSFET current-limit event

(6A, typ) turns off the high-side MOSFET and turns on

the low-side MOSFET. In addition, it discharges the SS

capacitor, C SS for a fixed period of time ( ? T 0 = 70ns,

typ). If the overcurrent condition persists, SS is pulled

below 0.606V and a hiccup event is triggered.

During a hiccup event, high-side and low-side

MOSFETs are kept off, and COMP is pulled low for a

period equal to 16 times the nominal soft-start time

(blanking time). This is obtained by charging SS from 0

to 0.606V with a 5μA (typ) current, and then slowly dis-

charging it back to 0V with a 333nA (typ) current. After

the blanking time has elapsed, the device attempts to

restart. If the overcurrent fault has cleared, the device

resumes normal operation, otherwise a new hiccup

event is triggered (see the Output Short-Circuit

Waveforms in the Typical Operating Characteristics).

Thermal-Shutdown Protection

The MAX15041 contains an internal thermal sensor that

limits the total power dissipation in the device and pro-

tects it in the event of an extended thermal fault condi-

tion. When the die temperature exceeds +155°C (typ),

the thermal sensor shuts down the device, turning off

the DC-DC converter and the LDO regulator to allow

the die to cool. After the die temperature falls by 20°C

(typ), the device restarts, using the soft-start sequence.

Applications Information

Setting the Output Voltage

Connect a resistive divider (R 1 and R 2 , see Figures 1

and 3) from OUT to FB to SGND to set the DC-DC con-

verter output voltage. Choose R 1 and R 2 so that the DC

errors due to the FB input bias current do not affect the

output-voltage precision. With lower value resistors, the

DC error is reduced, but the amount of power consumed

in the resistive divider increases. A typical tradeoff value

for R 2 is 10k ? , but values between 5k ? and 50k ? are

acceptable. Once R 2 is chosen, calculate R 1 using:

? V ?

? V FB ?

where the feedback threshold voltage V FB = 0.606V

(typ).

______________________________________________________________________________________

11

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