MAX1836EUT50#TG16 (Maxim) PDF资料下载 Datasheet(10/15 页)

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参数资料

型号：	MAX1836EUT50#TG16
厂商：	Maxim Integrated Products
文件页数：	10/15页
文件大小：	0K
描述：	IC REG BUCK 5V 125MA SOT23-6
产品培训模块：	Lead (SnPb) Finish for COTS Obsolescence Mitigation Program
标准包装：	1
类型：	降压（降压）
输出类型：	固定
输出数：	1
输出电压：	5V
输入电压：	4.5 V ~ 24 V
电流 - 输出：	125mA
同步整流器：	无
工作温度：	-40°C ~ 85°C
安装类型：	表面贴装
封装/外壳：	SOT-23-6
包装：	标准包装
供应商设备封装：	SOT-6
其它名称：	MAX1836EUT50#TG16DKR

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24V Internal Switch, 100% Duty Cycle,

Step-Down Converters

The inductor’s saturation current rating must be greater

than the peak switching current, which is determined

by the switch current limit plus the overshoot due to the

300ns current-sense comparator propagation delay:

should be set by testing a prototype or evaluation cir-

cuit. As a general rule, a smaller amount of charge

delivered in each pulse results in less output ripple.

Since the amount of charge delivered in each oscillator

pulse is determined by the inductor value and input

I PEAK = I LIM +

(V IN -V OUT ) 300ns

L

voltage, the voltage ripple increases with larger induc-

tance but decreases with lower input voltages.

With low-cost aluminum electrolytic capacitors, the

where the switch current-limit (I LIM ) is typically 312mA

(MAX1836) or 625mA (MAX1837). Saturation occurs

when the inductor’s magnetic flux density reaches the

maximum level the core can support, and the induc-

tance starts to fall.

Inductor series resistance affects both efficiency and

dropout voltage (see the Input-Output Voltage section).

High series resistance limits the maximum current avail-

able at lower input voltages and increases the dropout

voltage. For optimum performance, select an inductor

with the lowest possible DC resistance that fits in the

allotted dimensions. Typically, the inductor’s series resis-

tance should be significantly less than that of the internal

P-channel MOSFET’s on-resistance (1.1 ? typ). Inductors

with a ferrite core, or equivalent, are recommended.

ESR-induced ripple can be larger than that caused by

the current into and out of the capacitor. Consequently,

high-quality low-ESR aluminum-electrolytic, tantalum,

polymer, or ceramic filter capacitors are required to

minimize output ripple. Best results at reasonable cost

are typically achieved with an aluminum-electrolytic

capacitor in the 100μF range, in parallel with a 0.1μF

ceramic capacitor.

Input Capacitor

The input filter capacitor reduces peak currents drawn

from the power source and reduces noise and voltage

ripple on the input caused by the circuit’s switching.

The input capacitor must meet the ripple-current

requirement (I RMS ) imposed by the switching currents

defined by the following equation:

V OUT ( V IN OUT )

The maximum output current of the MAX1836/MAX1837

current-limited converter is limited by the peak inductor

current. For the typical application, the maximum out-

put current is approximately:

I RMS = I LOAD

V IN

-V

I OUT(MAX) =

1

2

I PEAK

For most applications, nontantalum chemistries (ceram-

ic, aluminum, polymer, or OS-CON) are preferred due to

their robustness with high inrush currents typical of sys-

Output Capacitor

Choose the output capacitor to supply the maximum

load current with acceptable voltage ripple. The output

ripple has two components: variations in the charge

stored in the output capacitor with each LX pulse, and

the voltage drop across the capacitor ’s equivalent

series resistance (ESR) caused by the current into and

out of the capacitor:

V RIPPLE ≈ V RIPPLE(ESR) + V RIPPLE(C)

The output voltage ripple as a consequence of the ESR

and output capacitance is:

V RIPPLE(ESR) = I PEAK ESR

tems with low-impedance battery inputs. Alternatively,

two (or more) smaller-value low-ESR capacitors can be

connected in parallel for lower cost. Choose an input

capacitor that exhibits <+10°C temperature rise at the

RMS input current for optimal circuit longevity.

Diode Selection

The current in the external diode (D1) changes abruptly

from zero to its peak value each time the LX switch

turns off. To avoid excessive losses, the diode must

have a fast turn-on time and a low forward voltage. Use

a diode with an RMS current rating of 0.5A or greater,

and with a breakdown voltage >V IN . Schottky diodes

are preferred. For high-temperature applications,

Schottky diodes may be inadequate due to their high

L ( I PEAK OUT ) ?

?

-I

? V -V

? IN OUT ?

?

V RIPPLE(C) =

2C OUT V OUT

2

V IN

leakage currents. In such cases, ultra-high-speed sili-

con rectifiers are recommended, although a Schottky

diode with a higher reverse voltage rating can often

provide acceptable performance.

where I PEAK is the peak inductor current (see the

Inductor Selection section). These equations are suit-

able for initial capacitor selection, but final values

10

______________________________________________________________________________________

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