Cherry Semiconductor CS5253-1GDPR5, CS5253-1GDP5 Datasheet

Features

Package Options

CS5253-1

3A LDO 5-Pin Adjustable Linear Regulator

CS5253-1

Description

Applications Diagram

1

5 Lead D2PAK

1

1. V

SENSE

2. Adjust

3. V

OUT

4. V

CONTROL

5. V

POWER

Tab = V

OUT

Rev. 5/6/99

Cherry Semiconductor Corporation

2000 South County Trail, East Greenwich, RI 02818

Tel: (401)885-3600 Fax: (401)885-5786

Email: info@cherry-semi.com

Web Site: www.cherry-semi.com

A Company

¨

V

SENSE

V

OUT

V

CONTROL

V

POWER

CS5253-1

2.5V @ 3A

300mF
5V

Load

124
1%

124
1%

0.1mF
5V

100mF
5V

10mF
10V

3.3V

5.0V

Adjust

This new very low dropout regula­tor is designed to power the next
generation of advanced micropro­cessors. To achieve very low
dropout, the internal pass transistor
is powered separately from the con­trol circuitry. Furthermore, with the
control and power inputs tied
together, this device can be used in
single supply configuration and
still offer a better dropout voltage
than conventional PNP-NPN based
LDO regulators. In this mode the
dropout is determined by the mini­mum control voltage.

It is supplied in a five-terminal
D

2

PAK package, which allows for
the implementation of a remote­sense pin permitting very accurate
regulation of output voltage direct­ly at the load, where it counts,
rather than at the regulator. This
remote sensing feature virtually
eliminates output voltage varia­tions due to load changes and resis-

tive voltage drops. Typical load
regulation measured at the sense
pin is less than 1mV for an output
voltage of 2.5V with a load step of
10mA to 3A.

The very fast transient loop
response easily meets the needs of
the latest microprocessors. In addi­tion, a small capacitor on the Adjust
pin will further improve the tran­sient capabilities.

Internal protection circuitry pro­vides for Òbust-proofÓ operation,
similar to three-terminal regulators.
This circuitry, which includes over­current, short circuit, and over-tem­perature protection will self protect
the regulator under all fault condi­tions.

The CS5253-1 is ideal for generating
a secondary 2-2.5V low voltage
supply on a motherboard where
both 5V and 3.3V are already avail­able.

■ 1.25V to 5V V

OUT

at 3A

■ V

POWER

Dropout < 0.40V @ 3A

■ V

CONTROL

Dropout < 1.05V @

3A

■ 1% Trimmed Reference

■ Fast Transient Response

■ Remote Voltage Sensing

■ Thermal Shutdown

■ Current Limit

■ Short Circuit Protection

■ Drop-In Replacement for

Semtech EZ1582

■ Backwards Compatible with

3-pin Regulators

Electrical Characteristics:

0¡C²TA² 70¡C, 0¡C²TJ² 150¡C, V

SENSE

= V

OUT

and V

Adj

=

0V unless otherwise specified.

PARAMETER TEST CONDITIONS MIN TYP MAX UNIT

CS5253-1

2

Absolute Maximum Ratings

V

POWER

Input Voltage.......................................................................................................................................................................6V

V

CONTROL

Input Voltage.................................................................................................................................................................13V

Operating Junction Temperature Range ................................................................................................................0¡C ² T

J

² 150¡C

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

Lead Temperature Soldering

Reflow (SMD styles only) ......................................................................................60 sec. max above 183¡C, 230¡C peak

ESD Damage Threshold............................................................................................................................................................2kV

Reference Voltage V

CONTROL

=2.75V to 12V, 1.237 1.250 1.263 V

V

POWER

=2.05V to 5.5V, I

OUT

= 10mA to 3A (-1%) (+1%)

Line Regulation V

CONTROL

= 2.5V to 12V, .02 .20 %

V

POWER

= 1.75V to 5.5V, I

OUT

= 10mA

Load Regulation V

CONTROL

= 2.75V, .04 .30 %

V

POWER

= 2.05V, I

OUT

= 10mA to 3A,

with remote sense

Minimum Load Current V

CONTROL

= 5V, V

POWER

= 3.3V, 5 10 mA

(Note 1) ÆV

OUT

= +1%

Control Pin Current V

CONTROL

= 2.75V, V

POWER

= 2.05V, I

OUT

= 100mA 6 10 mA

(Note 2) V

CONTROL

= 2.75V, V

POWER

= 2.05V, I

OUT

= 3A 35 120 mA

Adjust Pin Current V

CONTROL

=2.75V, V

POWER

= 2.05V, I

OUT

= 10mA 60 120 µA

Current Limit V

CONTROL

= 2.75V, V

POWER

= 2.05V, 3.1 4.0 A

ÆV

OUT

= -1%

Short Circuit Current V

CONTROL

= 2.75V, V

POWER

= 2.05V, V

OUT

= 0V 2.6 3.5 A

Ripple Rejection V

CONTROL

= V

POWER

= 3.25V, 60 80 dB

(Note 3) V

RIPPLE

= 1V

P-P

@120Hz,

I

OUT

= 4A, C

ADJ

= 0.1µF

Thermal Regulation 30ms Pulse, TA=25¡C 0.002 %/W

V

CONTROL

Dropout Voltage V

POWER

= 2.05V, I

OUT

= 100mA 0.90 1.15 V

(Minimum V

CONTROL-VOUT

)V

POWER

= 2.05V, I

OUT

= 1A 1.00 1.15 V

(Note 4) V

POWER

= 2.05V, I

OUT

= 3A 1.05 1.30 V

V

POWER

Dropout Voltage V

CONTROL

= 2.75V, I

OUT

= 100mA .05 .15 V

(Minimum V

POWER-VOUT

)V

CONTROL

= 2.75V, I

OUT

= 1A .15 .25 V

(Note 4) V

CONTROL

= 2.75V, I

OUT

= 3A .40 .60 V

RMS Output Noise Freq = 10Hz to 10kHz, TA = 25¡C 0.003 %V

OUT

Temperature Stability 0.5 %

Thermal Shutdown (Note 5) 150 180 210 ¡C

Thermal Shutdown Hysteresis 25 ¡C

V

CONTROL

Supply Only V

CONTROL

= 13V, V

POWER

not connected, 50 mA

Output Current V

ADJUST

= V

OUT

= V

SENSE

= 0V

V

POWER

Supply Only V

POWER

= 6V, V

CONTROL

not connected, 0.1 1.0 mA

Output Current V

ADJUST

= V

OUT

= V

SENSE

= 0V

Note 1: The minimum load current is the minimum current required to maintain regulation. Normally the current in the resistor divider used to set

the output voltage is selected to meet the minimum load current requirement.

Note 2: The V

CONTROL

pin current is the drive current required for the output transistor. This current will track output current with roughly a 1:100

ratio. The minimum value is equal to the quiescent current of the device.
Note 3: This parameter is guaranteed by design and is not 100% production tested.
Note 4: Dropout is defined as either the minimum control voltage, (V

CONTROL)

or minimum power voltage (V

POWER

) to output voltage differential

required to maintain 1% regulation at a particular load current.
Note 5: This parameter is guaranteed by design, but not parametrically tested in production. However, a 100% thermal shutdown functional test is

performed on each part.

CS5253-1

Package Pin Description

PACKAGE PIN # PIN SYMBOL FUNCTION

3

Block Diagram

V

CONTROL

BIAS

and

TSD

V

REF

EA

IA

V

OUT

V

SENSE

Adjust

-

+

-

+

V

POWER

5Lead D2PAK

1V

SENSE

This Kelvin sense pin allows for remote sensing of the output
voltage at the load for improved regulation. It is internally
connected to the positive input of the voltage sensing error
amplifier.

2 Adjust This pin is connected to the low side of the internally trimmed

1% bandgap reference voltage and carries a bias current of
about 50µA. A resistor divider from Adj to V

OUT

and from Adj
to ground sets the output voltage. Also, transient response can
be improved by adding a small bypass capacitor from this pin
to ground.

3V

OUT

This pin is connected to the emitter of the power pass transistor
and provides a regulated voltage capable of sourcing 3A of
current.

4V

CONTROL

This is the supply voltage for the regulator control circuitry. For
the device to regulate, this voltage should be between 0.9V and

1.3V (depending on the output current) greater than the
output voltage. The control pin current will be about 1% of the
output current.

5V

POWER

This is the power input voltage. The pin is physically connected
to the collector of the power pass transistor. For the device to
regulate, this voltage should be between 0.1V and 0.6V greater
than the output voltage, depending on output current. The out­put load current of 3A is supplied through this pin.