MCP1825S-3302E/AB (Microchip) PDF资料下载 Datasheet(7/38 页)

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型号：	MCP1825S-3302E/AB
厂商：	Microchip Technology
文件页数：	7/38页
文件大小：	0K
描述：	IC REG LDO 3.3V .5A TO220-3
产品培训模块：	High Current LDOs
标准包装：	50
稳压器拓扑结构：	正，固定式
输出电压：	3.3V
输入电压：	最高 6V
电压 - 压降（标准）：	0.21V @ 500mA
稳压器数量：	1
电流 - 输出：	500mA（最小）
工作温度：	-40°C ~ 125°C
安装类型：	通孔
封装/外壳：	TO-220-3
供应商设备封装：	TO-220-3
包装：	管件
产品目录页面：	666 (CN2011-ZH PDF)

MCP1825/MCP1825S

1.0

ELECTRICAL

CHARACTERISTICS

? Notice: Stresses above those listed under “Maximum Rat-

ings” may cause permanent damage to the device. This is a

stress rating only and functional operation of the device at

those or any other conditions above those indicated in the

Absolute Maximum Ratings ?

V IN ....................................................................................6.5V

operational listings of this specification is not implied. Expo-

sure to maximum rating conditions for extended periods may

affect device reliability.

Maximum Voltage on Any Pin .. (GND – 0.3V) to (V DD + 0.3)V

Maximum Power Dissipation......... Internally-Limited ( Note 6 )

Output Short Circuit Duration ................................ Continuous

Storage temperature .....................................-65°C to +150°C

Maximum Junction Temperature, T J ........................... +150°C

ESD protection on all pins (HBM/MM) ........... ≥ 4 kV; ≥ 300V

AC/DC CHARACTERISTICS

Electrical Specifications: Unless otherwise noted, V IN = V OUT(MAX) + V DROPOUT(MAX) , Note 1 , V R = 1.8V for Adjustable Output,

I OUT = 1 mA, C IN = C OUT = 4.7 μF (X7R Ceramic), T A = +25°C.

Boldface type applies for junction temperatures, T J ( Note 7 ) of -40°C to +125°C

Parameters

Input Operating Voltage

Input Quiescent Current

Sym

V IN

I q

Min

2.1

—

Typ

120

Max

6.0

220

Units

V

μA

Conditions

I L = 0 mA, V OUT = 0.8V to

5.0V

Input Quiescent Current for

I SHDN

—

0.1

3

μA

SHDN = GND

SHDN Mode

Maximum Output Current

Line Regulation

Load Regulation

Output Short Circuit Current

I OUT

Δ V OUT /

(V OUT x Δ V IN )

Δ V OUT /V OUT

I OUT_SC

500

—

-1.0

—

—

±0.05

±0.5

1.2

—

±0. 16

1.0

—

mA

%/V

%

A

V IN = 2.1V to 6.0V

V R = 0.8V to 5.0V, Note 1

(Note 1) ≤ V IN ≤ 6V

I OUT = 1 mA to 500 mA,

R LOAD < 0.1 Ω , Peak Current

Adjust Pin Characteristics (Adjustable Output Only)

Adjust Pin Reference Voltage

V ADJ

0.402

0.410

0.418

V

V IN = 2.1V to V IN = 6.0V,

I OUT = 1 mA

Adjust Pin Leakage Current

Adjust Temperature Coefficient

I ADJ

TCV OUT

-10

—

±0.01

40

+10

—

nA

ppm/°C

V IN = 6.0V, V ADJ = 0V to 6V

Fixed-Output Characteristics (Fixed Output Only)

Voltage Regulation

V OUT

V R - 2.5%

V R ±0.5% V R + 2.5%

V

Note 1:

2:

3:

4:

5:

6:

7:

The minimum V IN must meet two conditions: V IN ≥ 2.1V and V IN ≥ V OUT(MAX) + V DROPOUT(MAX).

V R is the nominal regulator output voltage for the fixed cases. V R = 1.2V, 1.8V, etc. V R is the desired set point output

voltage for the adjustable cases. V R = V ADJ * ((R 1 /R 2 )+1). Figure 4-1 .

TCV OUT = (V OUT-HIGH – V OUT-LOW ) *10 6 / (V R * Δ Temperature). V OUT-HIGH is the highest voltage measured over the

temperature range. V OUT-LOW is the lowest voltage measured over the temperature range.

Load regulation is measured at a constant junction temperature using low duty-cycle pulse testing. Load regulation is

tested over a load range from 1 mA to the maximum specified output current.

Dropout voltage is defined as the input-to-output voltage differential at which the output voltage drops 2% below its

nominal value that was measured with an input voltage of V IN = V OUT(MAX) + V DROPOUT(MAX) .

The maximum allowable power dissipation is a function of ambient temperature, the maximum allowable junction

temperature and the thermal resistance from junction to air. (i.e., T A , T J , θ JA ). Exceeding the maximum allowable power

dissipation will cause the device operating junction temperature to exceed the maximum +150°C rating. Sustained

junction temperatures above 150°C can impact device reliability.

The junction temperature is approximated by soaking the device under test at an ambient temperature equal to the

desired junction temperature. The test time is small enough such that the rise in the junction temperature over the

ambient temperature is not significant.

? 2008 Microchip Technology Inc.

DS22056B-page 7

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