MAX1761EEE+ (Maxim) PDF资料下载 Datasheet(15/23 页)

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参数资料

型号：	MAX1761EEE+
厂商：	Maxim Integrated Products
文件页数：	15/23页
文件大小：	0K
描述：	IC REG CTRLR BUCK PWM CM 16-QSOP
产品培训模块：	Lead (SnPb) Finish for COTS Obsolescence Mitigation Program
标准包装：	100
PWM 型：	电流模式
输出数：	2
频率 - 最大：	428kHz
电源电压：	4.5 V ~ 20 V
降压：	是
升压：	无
回扫：	无
反相：	无
倍增器：	无
除法器：	无
Cuk：	无
隔离：	无
工作温度：	-40°C ~ 85°C
封装/外壳：	16-SSOP（0.154"，3.90mm 宽）
包装：	管件

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Small, Dual, High-Efficiency

Buck Controller for Notebooks

Table 4. Operating Mode Control Summary

MODE

Shutdown

ON1 Enabled

Forced PWM

Normal Operation

ON1

ON1 < 0.5V

2.0V < ON1 < V+

2.0V < ON1 < V+

2.0V < ON1 < V+

ON2

X

ON2 < 0.5V

Floating

2.0V < ON2 ≤ VL

DESCRIPTION

Both OUT1 and OUT2 off, VL and REF disabled

OUT1 on in normal mode, OUT2 off

Both OUT1 and OUT2 on in forced PWM mode

Both OUT1 and OUT2 on in normal mode

Thermal Fault Protection

The MAX1761 features a thermal fault protection circuit.

When the temperature rises above +160 ° C, the DL low-

side gate-driver outputs latch high until ON1 is toggled

or V+ is cycled. The fault threshold has 10 ° C of thermal

hysteresis, which prevents the regulator from restarting

until the die cools off.

POR and Soft-Start

Power-on reset (POR) occurs when V+ falls below

approximately 2V, resetting the fault latch and prepar-

ing the PWM for operation once the power is cycled. VL

undervoltage lockout (UVLO) circuitry inhibits switching

and forces the DL gate driver low until VL rises above

4.25V, whereupon an internal digital soft-start timer

begins to ramp up the maximum allowed current limit.

The ramp occurs in five steps: 20%, 40%, 60%, 80%,

and 100%; 100% current is available after 1.7ms.

Design Procedure

Firmly establish the input voltage range and the maxi-

mum load current before choosing the inductor operat-

ing point (ripple current ratio). The following three

factors determine the SMPS design using the

MAX1761:

1) Input Voltage Range. The maximum value

erally exhibit I LOAD = I LOAD(MAX) ? 80%.

3) Inductor Operating Point. This choice provides

trade-offs between size and efficiency. Low induc-

tor values cause large ripple currents, resulting in

the smallest size, but poor efficiency and high out-

put noise. The minimum practical inductor value is

one that causes the circuit to operate at the edge of

critical conduction (where the inductor current just

touches zero with every cycle at maximum load).

Inductor values lower than this grant no further size-

reduction benefit.

The MAX1761 ’ s pulse-skipping algorithm initiates skip

mode at the critical conduction point. So, the inductor

operating point also determines the load-current value

at which PWM/skip mode switchover occurs. The opti-

mum point is usually found between 20% and 50% rip-

ple current.

The inductor ripple current also impacts transient-

response performance, especially at low V IN - V OUT dif-

ferentials. Low inductor values allow the inductor

current to slew faster, replenishing charge removed

from the output filter capacitors by a sudden load step.

The amount of output sag is also a function of the maxi-

mum duty factor, which can be calculated from the on-

time and minimum off-time:

(V+(max)) must accommodate the worst-case high

AC adapter voltage. The minimum value (V+(min))

must account for the lowest battery voltage after

drops due to connectors, fuses, and battery selec-

V SAG =

( ? I LOAD(MAX) ) 2 × L

2C F × DUTY ( V + (MIN) -V OUT )

tor switches. If there is a choice at all, lower input

voltages result in better efficiency.

2) Maximum Load Current. There are two values to

consider, the peak load current (I LOAD(MAX) ) and

the continuous load current (I LOAD ). The peak load

Inductor Selection

The switching frequency (on-time) and operating point

(% ripple or LIR) determine the inductor value as fol-

lows:

current determines the instantaneous component

stresses and filtering requirements and thus drives

output capacitor selection, inductor saturation rat-

L =

V OUT ( V + - V OUT )

V+ × ? × LIR × I LOAD(MAX)

ing, and the design of the current-limit circuit. The

continuous load current determines the thermal

stresses and thus drives the selection of input

capacitors, MOSFETs, and other critical heat-con-

tributing components. Modern notebook CPUs gen-

Example: I LOAD(MAX) = 2.5A, V+(max) = 20V, V OUT1 =

2.5V, f = 350kHz, 35% ripple current or LIR = 0.35:

______________________________________________________________________________________

15

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相关代理商/技术参数	参数描述
MAX1761EEE+	功能描述:DC/DC 开关控制器 Dual Buck Controller RoHS:否制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK
MAX1761EEE+T	功能描述:DC/DC 开关控制器 Dual Buck Controller RoHS:否制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK
MAX1761EEE-T	功能描述:DC/DC 开关控制器 RoHS:否制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK
MAX1761EVKIT	功能描述:DC/DC 开关控制器 Evaluation Kit for the MAX1761 RoHS:否制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK
MAX1762EUB	功能描述:DC/DC 开关控制器 RoHS:否制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK

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