ON Semiconductor NCP5504, NCV5504 Technical data

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NCP5504, NCV5504

250 mA Dual Output Low
Dropout Linear Regulator

The NCP5504/NCV5504 are dual output low dropout linear
regulators with ±2.0% accuracy over the operating temperature range.
They feature a fixed output voltage of 3.3 V (contact factory for other
fixed output voltage options) and an adjustable output that ranges from

1.25 V to 5.0 V. It is available in a 5 pin DPAK Pb−Free package.

The NCP5504/NCV5504 employs an architecture that offers low
noise without a bypass capacitor for the fixed output. This device
along with a ripple rejection of 75 dB and a dropout of 250 mV @
250 mA, suits post−regulation and power sensitive battery−operated
applications.

Features

• One Fixed and One Adjustable Output Pin

• 250 mA Each Output

• Adjustable Output Voltage from 1.25 V to 5.0 V

• Low Dropout Voltage of 250 mV typical at 250 mA

• Low Quiescent Current of 370 mA typical

• Ripple Rejection of 75 dB

• Temperature Range of NCP5504 −25°C to +85°C

Temperature Range of NCV5504 −40°C to +125°C

• Low Noise Without Bypass Capacitor; 90 mVrms

• Line Regulation < 15 mV

• Load Regulation; V

• Accuracy of ±2% Overtemperature Range

• Thermal Protection and Current Limit

• Short Circuit Protection

• NCV Prefix for Automotive and Other Applications Requiring Site

and Control Changes

• These are Pb−Free Devices

< 15 mV, V

out1

< 10 mV

out2

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DPAK−5

DT SUFFIX

CASE 175AA

MARKING DIAGRAM

5504G

ALYWW

G = Pb−Free Package
A = Assembly Location
L = Wafer Lot
Y = Year
WW = Work Week

ORDERING INFORMATION

See detailed ordering and shipping information in the package
dimensions section on page 9 of this data sheet.

Pin 1. Adjust for V

2. V

out2

3. GND

4. V

in

5. V

out1

out

Typical Applications

• Audio Visual Equipment

• Battery Powered Consumer Products

• Instrumentation

• Computing and Networking Applications

• Automotive Electronics

© Semiconductor Components Industries, LLC, 2005

October, 2005 − Rev. 1

1 Publication Order Number:

NCP5504/D

NCP5504, NCV5504

PIN FUNCTION DESCRIPTION

Pin No. Pin Name Description

1 Adjust for V

2 V

out2

out2

3 GND Power Supply Ground
4

5 V

V

out1

in

MAXIMUM RATINGS

Input Voltage V
Operating Input Voltage for Power Considerations V
Output Pin Voltage V
Adjust Pin Voltage V
Maximum Junction Temperature

Operating Ambient Temperature

Package Thermal Resistance

Storage Temperature Range T
Electrostatic Discharge Sensitivity

Latchup Performance (JESD78)

Maximum ratings are those values beyond which device damage can occur. Maximum ratings applied to the device are individual stress limit
values (not normal operating conditions) and are not valid simultaneously. If these limits are exceeded, device functional operation is not implied,
damage may occur and reliability may be affected.

NCP5504
NCV5504

NCP5504
NCV5504

Thermal Resistance, Junction−to−Air
Thermal Resistance, Junction−to−Case

Human Body Model (HBM)
Machine Model (MM)

Positive
Negative

This pin is connected to the resistor divider on the output. For a 1.25 V output, connect directly
to the V

out2

pin.

Adjustable Regulated Output Voltage.

Positive Power Supply Input Voltage.
Fixed Regulated Output Voltage. See selector guide for options.

Rating Symbol Value Unit

in

in
out
adj

T

J

18 V

9.0 V

−0.3 to Vin +0.3 V

−0.3 to Vin +0.3 V
°C

125
150

T

A

−25°C to +85°C

°C

−40°C to +125°C

R

q

R

q

stg

ESD

JA

JC

100

8

°C/W

−55 to +150 °C
V

2000

200

I

Latchup

100

mA

100

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NCP5504, NCV5504

NCP5504 ELECTRICAL CHARACTERISTICS

= V

in

out

+ 1.0 V, where V

is the larger of V

out

out1

or V

(V

Characteristic Symbol Min Typ Max Unit

Output Voltage
NCP5504 (TA = −25°C to 85°C), IO = 250 mA

Adjustable Pin Current I
Line Regulation (V
Load Regulation (1.0 mA < IO< 250 mA) for V

Load Regulation (1.0 mA < I

+ 1.0 V < Vin < 7.0 V), IO = 250 mA Reg

out

< 250 mA) for V

O

out1

out2

Dropout Voltage (IO = 250 mA) V
Ripple Rejection Ratio (IO = 250 mA)

Quiescent Current (IO1, IO2 = 0 mA) I
Fixed Output Noise Voltage (10 Hz − 100 kHz V

IO = 100 mA, CO = 1.0 mF)

= 3.3 V,

out

Ground Current (IO1, IO2 = 250 mA) I
Thermal Shutdown (Guaranteed by design) T
Current Limit on V

out1

and V

out2

, T

= 25°C, unless otherwise noted)

out2

A

V

out1

V

out2

120 Hz

1 kHz

Reg

V

out

adj

DO

RR

V

gnd

Jmax

I

lim

load

q

n

line

−2%

−2%

3.30

1.25

+2%
+2%

− 50 100 nA

− 5 15 mV

− 10
5

15
10

mV
mV

− 250 400 mV

−

−

75
60

−

−

− 370 450

− 90 −

mVrms

− 10 20 mA

150 165 − °C
350 450 − mA

V

dB

mA

NCV5504 ELECTRICAL CHARACTERISTICS

= V

in

out

+ 1.0 V, where V

is the larger of V

out

out1

or V

, −40°C ≤ T

out2

(V

Characteristic Symbol Min Typ Max Unit

Output Voltage
NCV5504, IO = 250 mA

Adjustable Pin Current I
Line Regulation (V
Load Regulation (1.0 mA < IO< 250 mA) for V

Load Regulation (1.0 mA < I

+ 1.0 V < Vin < 7.0 V), IO = 250 mA Reg

out

< 250 mA) for V

O

out1

out2

Dropout Voltage (IO = 250 mA) V
Ripple Rejection Ratio (IO = 250 mA)

Quiescent Current (IO1, IO2 = 0 mA) I
Fixed Output Noise Voltage (10 Hz − 100 kHz V

IO = 100 mA, CO = 1.0 mF)

= 3.3 V,

out

Ground Current (IO1, IO2 = 250 mA) I
Thermal Shutdown (Guaranteed by design) T
Current Limit on V

out1

and V

out2

≤ 150°C, −40°C ≤ T

J

V

out1

V

out2

Reg

120 Hz

1 kHz

V

out

adj

DO

RR

V

gnd

Jmax

I

lim

load

q

n

line

≤ 125°C, unless otherwise noted)

A

−2%

−2%

3.30

1.25

+2%
+2%

− 50 100 nA

− 5 15 mV

− 10
5

15
10

− 250 400 mV

−

−

75
60

−

−

− 370 450

− 90 −

mVrms

− 10 20 mA

150 165 − °C
320 450 − mA

V

mV
mV

dB

mA

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NCP5504, NCV5504

NCP5504/

NCV5504

Adj V

out2

GND

12345

V

in

C

out2

Figure 1. Application Schematic, Fixed Output

Version. V

NOTE: Please note that in order to maintain high accuracy on the adjustable output (V

resistor divider. The recommended capacitor type and values are as follows:

= 3.3 V, V

out1

V

V

out1

in

V

out1

V

out2

C

in

C

out1

V

in

GND

Figure 2. Application Schematic, Adjustable

= 1.25 V

out2

Cin (Tantalum or Aluminum Electrolytic) = 4.7 mF to 100 mF
C

, C

out1

= Low ESR, 1.0 mF to 22 mF

out2

Cn = 200 pF to 1.0 nF.

Version. V

out1

NCP5504/

NCV5504

Adj V

out2

GND

12345

C

n

R2

C

out2

R1

= 3.3 V, V

V

out2

), use R1 values < 30 kW in the

out2

out2

= 1.25 V * (1+R2/R1)

V

V

in

C

GND

= 1.25 V to 5.0 V, Where

out1

in

V

out1

V

out2

C

out1

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NCP5504, NCV5504

TYPICAL CHARACTERISTICS

3.30

3.295

3.29

3.285

3.28

3.275

, OUTPUT VOLTAGE (V)

3.27

out1

V

3.265

3.26
0 50 100 150 200 250

I

, OUTPUT CURRENT (mA)

out

Vin = 4.3 V

Figure 3. Output Voltage vs. Output Load

Current for V

300

IO1 = 250 mA

250

200

out1

1.30
Vin = 4.3 V

1.28

1.26

1.24

, OUTPUT VOLTAGE (V)

1.22

out2

V

1.20

0 50 100 150 200 250

I

, OUTPUT CURRENT (mA)

out

Figure 4. Output Voltage vs. Output Load

16
14
12
10

Current for V

IO1 = IO2 = 250 mA

out2

150

100

, DROPOUT VOLTAGE (mV)

50

DO

V

0

−40 −20 0 20 40 60 80
TJ, JUNCTION TEMPERATURE (°C)

Figure 5. Dropout Voltage vs. Temperature for V

100

120

8
6
4

, GROUND CURRENT (mA)

2

GND

I

0

−40 −20 0 20 40 60 80

out1

Figure 6. Ground Current vs. Temperature

TJ, JUNCTION TEMPERATURE (°C)

100

120

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NCP5504, NCV5504

450

I

, SHORT CIRCUIT LIMIT (A)

500

0

00

out1

out2

TYPICAL CHARACTERISTICS

im

RR, RIPPLE REJECTION (dB)

450
400
350
300
250
200
150
100

50

0

−40 −20 0 20 40 60 80 100 120
TJ, JUNCTION TEMPERATURE (°C)

Figure 7. Short Circuit Current Limit vs.

100

90
80
70
60
50
40
30
20
10

0

0.1

Vin = 5.0 V
V

= 3.3 V

out1

Cin = 0 mF
C

= 4.7 mF

out

TJ = 25°C

Temperature for V

1.0
F, FREQUENCY (kHz)

10 100 1000

out1

IO = 10 mA

IO = 250 mA

Figure 9. Ripple Rejection vs. Frequency for

V

400
350
300
250
200
150
100

, SHORT CIRCUIT LIMIT (mA)

50

lim

I

0

−40 −20 0 20 40 60 80 100 12
TJ, JUNCTION TEMPERATURE (°C)

Figure 8. Short Circuit Current Limit vs.

Temperature for V

100

90
80
70
60
50
40

Vin = 5.0 V
V

= 1.25 V

out1

30

Cin = 4.7 mF

20

C

= 1.0 mF

RR, RIPPLE REJECTION (dB)

out

TJ = 25°C

10

0

0 1.0 10 100 10

IO = 250 mA

F, FREQUENCY (Hz)

out2

IO = 10 mA

Figure 10. Ripple Rejection vs. Frequency for

V

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NCP5504, NCV5504

TYPICAL CHARACTERISTICS

600

Vin = 5.0 V

500

V

out1

IO = 10 mA

400

300

Cin = 4.7 mF
C

out

TA = 25°C

200

100

NOISE DENSITY (nVrms/ǨHz)

0

START: 100 Hz

START: 100 Hz STOP: 100 kHz

Figure 11. Noise Density vs. Frequency Figure 12. Noise Density vs. Frequency

300

250

200

150

100

50

NOISE DENSITY (nVrms/ǨHz)

0

START: 100 HzSTART: 100 Hz STOP: 100 kHz

Vin = 5.0 V
V

out2

IO = 10 mA
Cin = 4.7 mF
C

out

TA = 25°C

= 3.3 V

= 4.7 mF

= 1.25 V

= 4.7 mF

600

Vin = 5.0 V

500

V

out1

IO = 250 mA

400

300

Cin = 4.7 mF
C

out

TA = 25°C

200

100

NOISE DENSITY (nVrms/ǨHz)

0

START: 100 Hz

START: 100 Hz STOP: 100 kHz

250

200

150

Vin = 5.0 V

100

V

= 1.25 V

out2

IO = 250 mA
Cin = 4.7 mF

50

C

= 4.7 mF

NOISE DENSITY (nVrms/ǨHz)

out

TA = 25°C

0

START: 100 HzSTART: 100 Hz STOP: 100 kHz

= 3.3 V

= 4.7 mF

Figure 13. Noise Density vs. Frequency Figure 14. Noise Density vs. Frequency

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NCP5504, NCV5504

TYPICAL CHARACTERISTICS

out

V

100 mV/Div

O

I

100 mA/Div

IO = 10 mA to 250 mA

TIME (100 mS/Div)

Figure 15. Load Transient Response for V

out

V

50 mV/Div

O

I

Vin = 5.0 V
V

= 3.3 V

out1

Cin = 4.7 mF
C

= 4.7 mF

out

TA = 25°C

out1

Vin = 5.0 V
V

= 1.25 V

out2

Cin = 4.7 mF
C

= 4.7 mF

out

TA = 25°C

out

V

100 mV/Div

O

I

100 mA/Div

IO = 1.0 mA to 250 mA

TIME (100 mS/Div)

Figure 16. Load Transient Response for V

out

V

50 mV/Div

O

I

Vin = 5.0 V
V

= 3.3 V

out1

Cin = 4.7 mF
C

= 4.7 mF

out

TA = 25°C

out1

Vin = 5.0 V
V

= 1.25 V

out2

Cin = 4.7 mF
C

= 4.7 mF

out

TA = 25°C

100 mA/Div

in

V

1.0 V/Div

out

V

50 mV/Div

IO = 10 mA to 250 mA

TIME (100 mS/Div)

Figure 17. Load Transient Response for V

DVin = 1.0 V
V

= 3.3 V

out1

IO = 250 mA
Tr = Tf = 1.0 ms
C

= 4.7 mF

out

TA = 25°C

TIME (40 mS/Div)

Figure 19. Line Transient Response for V

out2

out1

100 mA/Div

in

V

1.0 V/Div

out

V

50 mV/Div

IO = 1.0 mA to 250 mA

TIME (100 mS/Div)

Figure 18. Load Transient Response for V

DVin = 1.0 V
V

= 1.25 V

out2

IO = 250 mA
Tr = Tf = 1.0 ms
C

= 4.7 mF

out

TA = 25°C

TIME (40 mS/Div)

Figure 20. Line Transient Response for V

out2

out2

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NCP5504, NCV5504

APPLICATION INFORMATION

Introduction

The NCP5504/NCV5504 are high performance dual
output, 250 mA linear regulators suitable for post regulation
and power sensitive battery−operated applications. They
feature ±2.0% accuracy over the operating temperature
range. With one fixed output voltage at 3.3 V, and one
adjustable output voltage ranging from 1.25 V to 5.0 V, the
dropout voltage is 250 mV typical. Additional features, such
as an architecture that allows for low noise on the fixed
output without a bypass capacitor, provides for an attractive
LDO solution for audio visual equipment, instrumentation,
computing and networking applications, and automotive
electronics. It is thermally robust and is offered in a 5 pin
DPAK Pb−Free package.

Capacitor Selection

The recommended input capacitor types are tantalum and
aluminum electrolytic ranging from 4.7 mF to 100 mF. It is
especially required if the power source is located more than
a few inches from the NCP5504/NCV5504. This capacitor

will reduce device sensitivity and enhance the output
transient response time. The PCB layout is very important
and in order to obtain the optimal solution, the Vin and GND
traces should be sufficiently wide to minimize noise and
unstable operation.

For the adjustable output pin, Cn ranges from 200 pF and

1.0 nF.
The output capacitor range is between 1.0 mF and 22 mF.

For PCB layout considerations, place the capacitor close to
the output pin and keep the leads short.

Adjustable Output Operation

The application circuit for the adjustable output version is

shown in Figure 2. V

is calculated based on the following

out2

equation:

R2

V

+ 1.25 V *ǒ1 )

out2

R1

Ǔ

In order to maintain high accuracy on the adjustable

output, R1 values should be < 30 kW.

ORDERING INFORMATION

Device Package Shipping

NCP5504DTRKG DPAK

(Pb−Free)

NCV5504DTRKG DPAK

(Pb−Free)

†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging

Specifications Brochure, BRD8011/D.

2500 / Tape and Reel

2500 / Tape and Reel

†

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NCP5504, NCV5504

PACKAGE DIMENSIONS

DPAK 5, CENTER LEAD CROP

CASE 175AA−01

ISSUE A

NOTES:

1. DIMENSIONING AND TOLERANCING

SEATING

−T−

PLANE

B

V

S

R

A

12345

K

F

L

D

5 PL

G

0.13 (0.005) T

C

E

R1

Z

U

J

H

M

PER ANSI Y14.5M, 1982.

2. CONTROLLING DIMENSION: INCH.

DIM MIN MAX MIN MAX

A 0.235 0.245 5.97 6.22
B 0.250 0.265 6.35 6.73
C 0.086 0.094 2.19 2.38
D 0.020 0.028 0.51 0.71

E 0.018 0.023 0.46 0.58

F 0.024 0.032 0.61 0.81
G 0.180 BSC 4.56 BSC
H 0.034 0.040 0.87 1.01

J 0.018 0.023 0.46 0.58
K 0.102 0.114 2.60 2.89

L 0.045 BSC 1.14 BSC
R 0.170 0.190 4.32 4.83

R1 0.185 0.210 4.70 5.33

S 0.025 0.040 0.63 1.01
U 0.020 −−− 0.51 −−−

V 0.035 0.050 0.89 1.27

Z 0.155 0.170 3.93 4.32

MILLIMETERSINCHES

SOLDERING FOOTPRINT*

6.4

0.252

5.8

0.228

10.6

0.417

*For additional information on our Pb−Free strategy and soldering

details, please download the ON Semiconductor Soldering and
Mounting Techniques Reference Manual, SOLDERRM/D.

ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice
to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability
arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.
“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All
operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights
nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications
intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should
Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates,
and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death
associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal
Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.

2.2

0.086

0.013

SCALE 4:1

0.34

0.8

0.031

ǒ

inches

5.36

0.217

mm

Ǔ

PUBLICATION ORDERING INFORMATION

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Phone: 480−829−7710 or 800−344−3860 Toll Free USA/Canada
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2−9−1 Kamimeguro, Meguro−ku, Tokyo, Japan 153−0051

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For additional information, please contact your
local Sales Representative.

NCP5504/D