SPX1587AT-L-2.5/TR [EXAR]

Fixed Positive LDO Regulator, 2.5V, 1.2V Dropout, PSSO3, ROHS COMPLIANT, TO-263AA, 3 PIN;


型号：	SPX1587AT-L-2.5/TR
厂家：	EXAR CORPORATION
描述：	Fixed Positive LDO Regulator, 2.5V, 1.2V Dropout, PSSO3, ROHS COMPLIANT, TO-263AA, 3 PIN 输出元件调节器
文件：	总11页 (文件大小：622K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

SPX1587

3A Low Dropout Voltage Regulator

September 2010

Rev. 2.0.0

GENERAL DESCRIPTION

APPLICATIONS

The SPX1587 is a low power positive-voltage

regulator designed to satisfy moderate power

requirements with a cost effective, small

footprint solution.

• Desktop PC's Servers

• Powering VGA and Sound Cards

• Adjustable Power Supplies

• Portable Instrumentation

This device is an excellent choice for use in

battery-powered applications and portable

computers. The SPX1587 features very low

quiescent current and a low dropout voltage of

1.1V at a full load. As output current

decreases, quiescent current flows into the

load, increasing efficiency. SPX1587 is

available in adjustable or fixed 1.5V, 2.5V,

3.3V and 5.0V output voltages.

FEATURES

• Guaranteed 3A Output Current

• Three Terminal Adjustable or Fixed

1.5V, 2.5V, 3.3V and 5.0V

• Low Quiescent Current

The SPX1587 is offered in several 3-pin

surface mount packages: TO-252, TO-220 and

TO-263. An output capacitor of 10μF ceramic

or tantalum provides unconditional stability.

• Low Dropout Voltage: 1.1V at 3A

• Line Regulation: 0.1%

• Load Regulation: 0.1%

• Stable with 10uF Ceramic Capacitor

• Over Current and Thermal Protection

• Similar to Industry Standard

LT1085/LT1585

• RoHS Compliant Lead Free 3-Pin

TO-220, TO-252 and TO-263 Packages

FUNCTIONAL DIAGRAM

Fig. 1: SPX1587 Functional Diagram (Adjustable version)

Exar Corporation

www.exar.com

48720 Kato Road, Fremont CA 94538, USA

Tel. +1 510 668-7000 – Fax. +1 510 668-7001

SPX1587

3A Low Dropout Voltage Regulator

ABSOLUTE MAXIMUM RATINGS

OPERATING RATINGS

These are stress ratings only and functional operation of

the device at these ratings or any other above those

indicated in the operation sections of the specifications

below is not implied. Exposure to absolute maximum

rating conditions for extended periods of time may affect

reliability.

Junction Temperature Range....................-40°C to 125°C

Thermal Resistance

TO-220 θ_JC...................................................... 3°C/W

TO-220 θ_JA................................................. 29.4°C/W

TO-263 θ_JC...................................................... 3°C/W

TO-263 θ_JA................................................. 31.4°C/W

TO-252 θ_JC...................................................... 6°C/W

TO-252 θ_JA.................................................... 50°C/W

Input Supply Voltage V_IN.................................... +10.0V

Input to Output Voltage ....................................... +8.8V

Storage Temperature.............................. -65°C to 150°C

Power Dissipation................................ Internally Limited

Lead Temperature (Soldering, 5 sec) .....................260°C

ESD Rating (HBM - Human Body Model).................... 2kV

ELECTRICAL SPECIFICATIONS

Specifications with standard type are for an Operating Ambient Temperature of T_A= 25°C only; limits applying over the full

Operating Temperature range (-40°C to +85°C) are denoted by a “•”. Minimum and Maximum limits are guaranteed

through test, design, or statistical correlation. Typical values represent the most likely parametric norm at T_A= 25°C, and

are provided for reference purposes only. Unless otherwise indicated, V_IN= V_OUT+ 1.5V, T_A= 25°C, C_IN= C_OUT=10µF,

_OUT=10mA.

Parameter

Min.

Typ.

Max.

Units

Conditions

1.5V Version

1.500

1.515

1.530

_OUT=10mA, V_OUT=3.5V

1.485

1.470

Output Voltage

SPX1587A

•

10mA≤I_OUT≤3A, 3.0V≤V_OUT≤10V

2.5V Version

2.500

2.550

2.575

_OUT=10mA, V_OUT=4.5V

2.450

2.425

Output Voltage

SPX1587

10mA≤I_OUT≤3A, 4.25V≤I_OUT≤10V

3.3V Version

3.300

3.333

3.366

3.399

_OUT=10mA, V_OUT=5V

10mA≤I_OUT≤3A, 4.75V≤V_OUT≤10V

_OUT=10mA, V_OUT=5V

10mA≤I_OUT≤3A, 4.75V≤V_OUT≤10V

3.267

3.234

3.201

Output Voltage

SPX1587A

•

Output Voltage

SPX1587

5.0V Version

5.000

5.050

5.100

_OUT=10mA, V_OUT=7V

4.950

4.900

Output Voltage

SPX1587A

•

10mA≤I_OUT≤3A, 6.50V≤V_OUT≤10V

All Voltage Options

1.250

1.262

1.275

1.287

_OUT=10mA, V_IN-V_OUT=2V

10mA≤I_OUT≤3A, 1.50V≤V_IN-V_OUT≤10V

_OUT=10mA, V_IN-V_OUT=2V

1.238

1.225

1.212

Reference Voltage

SPX1587A

•

Reference Voltage

SPX1587

10mA≤I_OUT≤3A, 1.50V≤V_IN-V_OUT≤10V

Output Voltage Temperature

Stability – SPX1587A

0.3

0.5

Output Voltage Temperature

Stability – SPX1587

3.0V≤V_IN≤10V, V_OUT=1.5V

4.25V≤V_IN≤10V, V_OUT=2.5V

4.75V≤V_IN≤10V, V_OUT=3.3V

6.50V≤V_IN≤10V, V_OUT=5.0V

10mA≤I_OUT≤3A, V_OUT=1.5V

10mA≤I_OUT≤3A, V_OUT=2.5V

10mA≤I_OUT≤3A, V_OUT=3.3V

10mA≤I_OUT≤3A, V_OUT=5.0V

Line Regulation

Load Regulation

0.1

0.2

0.3

2/11

Rev. 2.0.0

SPX1587

3A Low Dropout Voltage Regulator

Parameter

Min.

Typ.

Max.

Units

Conditions

1.00

1.05

1.10

I_OUT=1A

Dropout Voltage (note 2)

I_OUT=2A

I_OUT=3A

1.2

Minimum Load Current

(note 4)

Quiescent Current

µA

Fixed Voltage Versions

Adjust Pin Current

•

120

0.1

Current Limit

V_IN-V_OUT=2V

3.2

Thermal Regulation

Ripple Rejection

Long Term Stability

RMS Output Noise

0.01

%/W

25°C, 30ms pulse

F_RIPPLE=120Hz, V_IN-V_OUT=2V, V_RIPPLE=1V_PP

125°C, 1000 hours

0.03

% of V_OUT, 10Hz ≤ f ≤ 10kHz

Note 1: Output temperature coefficient is defined as the worst case voltage change divided by the total temperature range

Note 2: Dropout voltage is defined as the input to output differential at which the output voltage drops 100mV below its

nominal value measured at 1V differential at very low values of programmed output voltage, the minimum input supply

voltage of 2V (2.3V over temperature) must be taken into account.

Note 3: Thermal regulation is defined as the change in output voltage at a time T after a change in power dissipation is

applied. Excluding load or line regulation effect.

Note 4: Adjustable Version Only.

BLOCK DIAGRAM

Fig. 2: SPX1587 Block Diagram

3/11

Rev. 2.0.0

SPX1587

3A Low Dropout Voltage Regulator

PIN ASSIGNMENT

Fig. 3: SPX1587 Pin Assignment

PIN DESCRIPTION

Name

Pin Number

Description

Adjustable Voltage Pin or Ground signal for fixed voltage versions.

Output Voltage

ADJ/GND

VOUT

VIN

Input Voltage

TAB

Tab is connected to VOUT (pin 2) for all packages

TAB

ORDERING INFORMATION

Junction

Temperature Range

Part Number

Marking

Package

Packing Quantity

Note 1

Sipex

SPX1587T

YYWWLX

Sipex

SPX1587T

15YYWWLX

Sipex

SPX1587T

50YYWWLX

Sipex

SPX1587U

33YYWWLX

Sipex

SPX1587U

50YYWWLX

Sipex

SPX1587AR

YYWWLX

Sipex

SPX1587AT

YYWWLX

Sipex

SPX1587AT

25YYWWLX

Sipex

Bulk

500/Tape & Reel

Bulk

SPX1587T-L

TO263-3

Lead Free

-40°C≤T_J≤+125°C

SPX1587T-L/TR

SPX1587T-L-1-5

SPX1587T-L-1-5/TR

SPX1587T-L-5-0

SPX1587T-L-5-0/TR

TO263-3

TO220-3

TO252-3

TO263-3

TO220-3

Lead Free

500/Tape & Reel

Bulk

500/Tape & Reel

Bulk

SPX1587U-L-3-3

SPX1587U-L-5-0

Bulk

2K/Tape & Reel

Bulk

SPX1587AR-L

SPX1587AR-L/TR

SPX1587AT-L

500/Tape & Reel

Bulk

SPX1587AT-L/TR

SPX1587AT-L-2-5

SPX1587AT-L-2-5/TR

SPX1587AT-L-3-3

SPX1587AT-L-3-3/TR

500/Tape & Reel

Bulk

SPX1587AT

33YYWWLX

Sipex

SPX1587AU

YYWWLX

500/Tape & Reel

Bulk

SPX1587AU-L

“YY” = Year – “WW” = Work Week – “L” = Lead Free Indicator – “X” = Lot Number; when applicable.

4/11

Rev. 2.0.0

SPX1587

3A Low Dropout Voltage Regulator

TYPICAL PERFORMANCE CHARACTERISTICS

All data taken at V_IN= V_OUT+ 1.5V, T_A= 25°C, C_IN= C_OUT=10µF, I_OUT=10mA unless otherwise specified - Schematic and

BOM from Application Information section of this datasheet.

Fig. 4: Line Regulation for SPX1587U-3-3

I_OUT=10mA

Fig. 5: V_OUTversus Temperature

V_IN=2.5V, I_OUT=10mA

Fig. 7: V_OUTversus Temperature

V_IN=5.0V, I_OUT=10mA

Fig. 6: V_OUTversus Temperature

V_IN=4.0V, I_OUT=10mA

OLDERING METHODS

APPLICATION INFORMATION

The SPX1587 die is attached to the heatsink

lead which exits opposite the input, output,

and ground pins.

UTPUT CAPACITOR

To ensure the stability of the SPX1587, an

output capacitor of at least 10μF (ceramic or

tantalum) or 22μF (aluminum) is required. The

value may change based on the application

HERMAL CHARACTERISTICS

The SPX1587 features the internal thermal

limiting to protect the device during overload

conditions. Special care needs to be taken

during continuous load conditions such that

the maximum junction temperature does not

exceed 125°C. Thermal protection is activated

at >179°C and deactivated at <165 °C.

requirements

the

output

load

temperature range. The value of ESR can vary

based on the type of capacitor used in the

applications to guarantee stability. The

recommended value for ESR is 0.5Ω or less. A

larger value of output capacitance (up to

100μF) can improve the load transient

response.

The

thermal

interaction

from

other

components in the application can affect the

5/11 Rev. 2.0.0

SPX1587

3A Low Dropout Voltage Regulator

thermal resistance of the SPX1587. The actual

thermal resistance can be determined with

experimentation.

If an ADJ-bypass capacitor is used, the

amplitude of the output ripple will be

independent of the output voltage. If an ADJ-

bypass capacitor is not used, the output ripple

will be proportional to the ratio of the output

voltage to the reference voltage:

The SPX1587 power dissipation is calculated

as follows:

ꢀ_ꢁꢂ ꢃꢄ_ꢅꢆꢇ ꢄ_ꢈꢉꢊꢋ ꢌ ꢍ_ꢈꢉꢊ

ꢄ_ꢈꢉꢊ

ꢚ ꢂ

ꢄ_ꢗꢛꢜ

Maximum Junction Temperature range:

Where

ꢎ ꢂ ꢎ_{ꢐꢃꢑꢐꢒꢋ}ꢓ ꢀ_ꢁꢌ ꢔ_ꢏꢐ

ꢏ

M = multiplier for the ripple seen when the

ADJ pin is optimally bypassed.

V_REF=1.25V

Where θ_JAis the junction-to-ambient thermal

Ripple rejection for the adjustable version is

showing in Figure 8.

resistance of the package.

Maximum junction temperature must not

exceed 125°C.

UTPUT VOLTAGE

IPPLE

EJECTION

The output of the adjustable regulator can be

set to any voltage between 1.25V and 15V.

The value of V_OUTcan be quickly approximated

using the formula

Ripple rejection can be improved by adding a

capacitor between the ADJ pin and ground as

shown in Figure 11. When ADJ pin bypassing

is used, the value of the output capacitor

required increases to its maximum. If the ADJ

pin is not bypassed, the value of the output

capacitor can be lowered to 22μF for an

electrolytic aluminum capacitor or 10μF for a

solid tantalum capacitor (Fig 10).

ꢘ_ꢙꢓ ꢘ_ꢝ

ꢄ_ꢈꢉꢊꢂ 1.25 ꢌ

ꢘ_ꢙ

Small correction to this formula is required de-

pending on the values of resistors R1 and R2,

since the adjustable pin current (approx 50μA)

flows through R2. When I_ADJis taken into

account, the formula becomes

However the value of the ADJ-bypass

capacitor should be chosen with respect to the

following equation:

ꢘ

ꢄ_ꢈꢉꢊꢂ ꢄ_ꢗꢛꢜꢌ ꢞ1 ꢓ ^ꢝꢟ ꢓ ꢍ_ꢐꢁꢏꢌ ꢘ_ꢝ

ꢘ_ꢙ

ꢕ ꢂ

Where

6.28 ꢌ ꢖ_ꢗꢌ ꢘ_ꢙ

V_REF=1.25V

Where

AYOUT CONSIDERATIONS

C = value of the capacitor in Farads (select an

equal or larger standard value)

Parasitic line resistance can degrade load

regulation. In order to avoid this, connect R1

directly to V_OUTas illustrated in Figure 13. For

the same reason, R2 should be connected to

the negative side of the load.

F_R= ripple frequency in Hz

R₁= value of resistor R1 in Ohms.

6/11

Rev. 2.0.0

SPX1587

3A Low Dropout Voltage Regulator

Fig. 9: Current Source

Fig. 8: Ripple Rejection

V_IN=3.3V, V_OUT=1.8V(adj), I_LOAD=200mA

Fig. 11: Improving Ripple Rejection

Fig. 10: Typical Adjustable Regulator

Fig. 13: Recommended Connections for Best Results

Fig. 12: 5V Regulator With Shutdown

7/11

Rev. 2.0.0

SPX1587

3A Low Dropout Voltage Regulator

PACKAGE SPECIFICATION

3-PIN TO263

8/11

Rev. 2.0.0

SPX1587

3A Low Dropout Voltage Regulator

3-PIN TO220

9/11

Rev. 2.0.0

SPX1587

3A Low Dropout Voltage Regulator

3-PIN TO252

10/11

Rev. 2.0.0

SPX1587

3A Low Dropout Voltage Regulator

REVISION HISTORY

Revision

Date

Description

Reformat of datasheet

Added marking information

2.0.0

FOR FURTHER ASSISTANCE

Email:

customersupport@exar.com

Exar Technical Documentation:

http://www.exar.com/TechDoc/default.aspx?

XAR

CORPORATION

EADQUARTERS AND

SALES OFFICES

48720 Kato Road

Fremont, CA 94538 – USA

Tel.: +1 (510) 668-7000

Fax: +1 (510) 668-7030

www.exar.com

NOTICE

EXAR Corporation reserves the right to make changes to the products contained in this publication in order to improve

design, performance or reliability. EXAR Corporation assumes no responsibility for the use of any circuits described herein,

conveys no license under any patent or other right, and makes no representation that the circuits are free of patent

infringement. Charts and schedules contained here in are only for illustration purposes and may vary depending upon a

user’s specific application. While the information in this publication has been carefully checked; no responsibility, however,

is assumed for inaccuracies.

EXAR Corporation does not recommend the use of any of its products in life support applications where the failure or

malfunction of the product can reasonably be expected to cause failure of the life support system or to significantly affect its

safety or effectiveness. Products are not authorized for use in such applications unless EXAR Corporation receives, in

writing, assurances to its satisfaction that: (a) the risk of injury or damage has been minimized; (b) the user assumes all

such risks; (c) potential liability of EXAR Corporation is adequately protected under the circumstances.

Reproduction, in part or whole, without the prior written consent of EXAR Corporation is prohibited.

11/11

Rev. 2.0.0

SPX1587AT-L-2.5/TR [EXAR]

相关型号：

SPX1587AT-L-3-3

SPX1587AT-L-3-3/TR

SPX1587AT-L-3.3

SPX1587AT-L-3.3/TR

SPX1587AT-L-5-0

SPX1587AT-L-5-0/TR

SPX1587AT-L-5.0/TR

SPX1587AT-L/TR

SPX1587AT/TR

SPX1587AU

SPX1587AU-1-5

SPX1587AU-1-8