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SPX29300/01/02/03

3A High Current, Low Dropout Voltage Regulator

Adjustable & Fixed Output, Fast Response Time

FEATURES

■

Adjustable Output Down To 1.25V

■

1% Output Accuracy

■

Output Current of 3A

■

Low Dropout Voltage of 450mV @ 3A

■

Extremely Tight Load and Line

Regulation

■

Extremely Fast Transient Response

■

Reverse-Battery Protection

■

Zero Current Shutdown (5 pin version)

■

Error Flag Signal Output for Out of

Regulation State (5 pin version)

■

Standard TO-220 and TO-263

Packages

SPX29300

3 Pin TO-263

GND V

OUT

Now Available in Lead Free Packaging

APPLICATIONS

■

Powering VGA & Sound Card

■

Power PC™ Supplies

■

SMPS Post Regulator

■

High Efficiency “Green” Computer

Systems

■

High Efficiency Linear Power Supplies

■

Constant Current Regulators

■

Adjustable Power Supplies

■

Battery Charger

DESCRIPTION

The SPX29300/01/02/03 are 3A, highly accurate voltage regulators with a low drop out

voltage of 450mV dropout (typical) @ 3A. These regulators are specifically designed for low

voltage applications that require a low dropout voltage and a fast transient response. They

are fully fault protected against over-current, reverse battery, and positive and negative

voltage transients. On-Chip trimming adjusts the reference voltage to 1% initial accuracy.

Other features in the 5 pin versions include Enable, and Error Flag.

The SPX29300/01/02/03 are offered in 3 & 5-pin TO-220 & TO-263 packages. For a 1.5A

version, refer to the SPX29150 data sheet.

TYPICAL APPLICATIONS CIRCUITS

6.8μF

SPX29300

10μF

OUT

6.8μF

SPX29302

GND

OUT

10μF

ADJ

Figure 1. Fixed Output Linear Regulator

Figure 2. Adjustable Output Linear Regulator

Date: 9/5/06 Rev C

SPX29300/01/02/03 3A Low Dropout Voltage Regulator

ABSOLUTE MAXIMUM RATINGS

Lead Temperature (soldering, 5 seconds) ................260°C

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

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

Input Voltage (Note 1) .................................................... 16V

ELECTRICAL CHARACTERISTICS

(Note 1) at V

OUT

+ 1V and I

OUT

= 10mA, C

= 6.8μF, C

OUT

= 10μF, T

= 25°C, unless otherwise specified. The Boldface

applies over the junction temperature range.

SPX29300/01

PARAMETER

Fixed Voltage Options

1.8V Version

Output Voltage

2.5V Version

Output Voltage

3.3V Version

Output Voltage

5.0V Version

Output Voltage

All Voltage Options

Line Regulation

Load Regulation

ΔV/ΔT

Dropout Voltage, except

1.8V, (Note 3)

Ground Current

(Note 5)

Ground Pin Current

at Dropout

Current Limit

Output Noise Voltage

(10Hz to 100kHz)

=100mA

Reference Voltage

Adjust Pin Bias Current

Reference Voltage

Temp. Coeff.

Adjust Pin Bias

Current Temp. Coeff.

Date: 9/5/06 Rev C

CONDITIONS

TYP

MIN

MAX

UNITS

OUT

= 10mA

10mA

≤

OUT

≤

3A, 2.8V

≤

16V

OUT

= 10mA

10mA

≤

OUT

≤

3A, 3.5V

≤

16V

1.800

1.782

1.764

1.818

1.836

2.500

2.475

2.450

2.525

2.550

OUT

= 10mA

10mA

≤

OUT

≤

3A, 4.3V

≤

16V

3.300

3.267

3.234

3.333

3.366

OUT

= 10mA

10mA

≤

OUT

≤

3A, 6.0V

≤

16V

OUT

=10mA,(V

OUT

+1V)

≤

16V

OUT

+1V, 10mA≤ I

OUT

≤

(Note 2)

OUT

Temp Coefficient (Note 6)

OUT

=100mA

OUT

=1.5A

OUT

=3.0A

OUT

=1.5A

OUT

=3.0A

=0.5V less than specified V

OUT,

OUT

=10mA

OUT

=0V (Note 4)

=10μF

=33μF

Adjustable version only

Adjustable version only (Note 8)

5.000

4.950

4.900

5.050

5.100

SPX29300/01/02/03

0.06

0.2

150

450

0.9

4.5

400

260

1.240

1.228

1.215

1.203

(Note 7)

0.1

1.252

1.265

1.277

120

ppm/°C

nA/°C

3.0

0.5

100

175

700

μV

RMS

ppm/°C

SPX29300/01/02/03 3A Low Dropout Voltage Regulator

ELECTRICAL CHARACTERISTICS

at V

OUT

+ 1V and I

OUT

= 10mA, C

= 6.8μF, C

OUT

= 10μF, T

= 25°C, unless otherwise specified. The Boldface applies

over the junction temperature range. Adjustable versions are set to 5.0V.

PARAMETER

Output Leakage

Current

Output Low Voltage

Upper Threshold

Voltage

Lower Threshold

Voltage

Hysteresis

ENABLE Input

Input Logic Voltage

Low (OFF)

High (ON)

ENABLE Input Pin

<10V

2.4

=16V

=0.8V

Regulator Output

Current in Shutdown

Thermal Resistance

(Note 10)

TO-200 Junction to Case, at Tab

TO-220 Junction to Ambient

TO-263 Junction to Case, at Tab

TO-263 Junction to Ambient

100

600

750

500

μA

°C/W

CONDITIONS

=16V

Device set for 5V,V

=4.5V, I

=250μA

Device set for 5V, (Note 9)

TYP

0.01

220

SPX29301/02

0.8

140

MIN

MAX

300

400

UNITS

μA

FLAG OUTPUT (ERROR COMPARATOR)

SPX29301/03

NOTES:

Note 1: Maximum positive supply voltage of 20V must be of limited duration (<100ms) and duty cycle of less than 1%. The maximum continuous supply

voltage is 16V.

Note 2: Full load current (I

) is defined as 3.0A.

Note 3: Dropout voltage is defined as the input to output differential when the output voltage drops to 99% of its nominal value.

Note 4: V

= V

OUT (NOMINAL)

+1V. For example, use V

= 4.3V for a 3.3V regulator. Employ pulse-testing procedures to minimize temperature rise.

Note 5: Ground pin current is the regulator quiescent current. The total current drawn from the source is the sum of the load current to the ground current.

Note 6: Output voltage temperature coefficient is defined as the worst case voltage change divided by the total temperature range

Note 7: Thermal regulation is defined as the change in output voltage at time T after a change in power dissipation is applied, excluding load / line regulation effects.

Specifications for a 200mA load pulse as V

= 20V (a 4W pulse) for t = 10ms.

Note 8: V

REF

≤

OUT

≤

-1), 2.3V≤V

≤

16V, 10mA

≤

, T

< T

jmax

Note 9: Comparator threshold is expressed in terms of a voltage differential at the Adjust terminal below the nominal reference voltage measured 6V input. To

express these thresholds in terms of output voltage change, multiply the error amplifier gain = V

OUT

REF

= (R1 + R2)/R2. For example, at a programmable

output voltage of 5V, the Error output is guaranteed to go low when the output drops by 95mVx 5V/ 1.240V = 38mV. Threshold remain constant as a percent of

OUT

as V

OUT

is varied, with the dropout warning occurring at typically 5% below nominal, 7.7% guaranteed.

Note 10: V

≤

0.8V and V

≤

16V, V

OUT

= 0.

BLOCK DIAGRAM

O.V

LIMIT

FLAG

1.180V

Reference

1.240V

ADJ

Thermal

Shutdown

28V

R1*

OUT

R2*

GND

Date: 9/5/06 Rev C

SPX29300/01/02/03 3A Low Dropout Voltage Regulator

TYPICAL PERFORMANCE CHARACTERISTICS

1200

2.540

1000

Vdropout (mV)

2.530

2.520

Vout (V)

800

600

85°C

400

25°C

200

1.0

IL (A)

2.0

3.0

3.3V Device

CL = 10μF

Vin = 3.2V

2.510

2.500

2.490

2.480

2.470

2.460

Vin (V)

2.5V Device

IL = 10mA

CL = 10μF

Figure 3. Dropout Voltage vs Load Current

80.0

Figure 4. Line Regulation

3.310

70.0

60.0

3.305

85°C

25°C

Ignd (mA)

40.0

30.0

20.0

10.0

0.0

1.0

IL (A)

2.0

3.0

3.3V Device

Vin = 4.3V

CL = 10μF

Vout (V )

50.0

3.300

3.295

3.290

3.285

3.280

1.0

IL (A)

2.0

3.0

3.3V Device

Vin = 4.3V

CL = 10μF

Figure 5. Ground Current vs Load Current

Figure 6. Load Regulation

SPX29300 1.8Vout @1A PSRR

1.9

1.8

1.7

-20

-10

PSRR (db)

Vth (V)

1.6

1.5

1.4

1.3

1.2

-40

3.3V Device

100

-20

Temperature (

100

120

1000

10000

100000

1000000

10000000

Frequency (Hz)

Figure 7. Enable Threshold vs Temperature

Figure 8. Power Supply Rejection Ratio

Date: 9/5/06 Rev C

SPX29300/01/02/03 3A Low Dropout Voltage Regulator

APPLICATION INFORMATION

The SPX29300/01/02/03 incorporates pro-

tection against over-current faults, reversed

load insertion, over temperature operation, and

positive and negative transient voltage.

Thermal Considerations

Although the SPX29300/01/02/03 offers lim-

iting circuitry for overload conditions, it is still

necessary to insure that the maximum junction

temperature is not exceeded in the application.

Heat will flow through the lowest resistance

path, the junction-to-case path. In order to

insure the best thermal flow of the component,

proper mounting is required.

TO-220 Design Example:

Assume that V

= 10V, V

OUT

= 5V, I

OUT

1.5A, T

= 50°C,

= 1°C/W,

= 2°C/W,

and

= 3C°/W, where:

= ambient temperature,

= heatsink to ambient thermal

resistance

= case to heatsink thermal

resistance

= junction to case thermal

resistance

The power calculated under these conditions

is:

= (V

– V

OUT

) * I

OUT

= 7.5W.

And the junction temperature is calculated as

= T

+ P

* (θ

) or

= 50 + 7.5 * (1+2+3) = 95°C

Reliable operation is insured.

Capacitor Requirements

The output capacitor is needed to insure sta-

bility and minimize the output noise. The value

of the capacitor varies with the load. However,

a minimum value of 10μF aluminum capacitor

will guarantee stability over all load conditions.

A tantalum capacitor is recommended if a faster

load transient

response is needed. If the power source has a

high AC impedance, a 0.1μF ceramic capacit-

or between input & ground is recommended.

Minimum Load Current

To ensure a proper behavior of the regulator

under light load, a minimum load of 5mA for

SPX29300/01/02/03 is required.

Adjustable Regulator Design

The SPX29302/03 are adjustable regulators

that can be programmed to any value between

1.25V and 16V using 2 resistors, R1 and R2.

The relationship between the resistors is:

R1 = R2(Vout/1.240-1).

Error Flag

The SPX29301/03 features an error flag that

indicates either an over current or under

voltage condition. The flag output goes low,

sinking 10mA when either condition occurs.

Enable Input

The SPX29301/02 have an Enable function

that switches the regulator on and off. Their

thresholds are TTL compatible. When the

regulator is active, approximately 20 uA flows

through the Enable pin.

Typical Application Circuits

Figure 1 represents at typical fixed output

regulator. Figure 2 represents an adjustable

output regulator. The values of R1 and R2 set

the output voltage value as follows:

OUT

REF

* [1 + (R1/R2)].

A minimum value of 10kohms is recommen-

ded for R2 with a range between 10kohms and

47 kohms.

Date: 9/5/06 Rev C

SPX29300/01/02/03 3A Low Dropout Voltage Regulator