NSC LM2675M-5.0, LM2675M-12, LM2675N-ADJ, LM2675N-5.0, LM2675N-3.3 Datasheet

LM2675
SIMPLE SWITCHER

®

Power Converter High Efficiency

1A Step-Down Voltage Regulator

General Description

The LM2675 series of regulators are monolithic integrated
circuits built with a LMDMOS process. These regulators pro­vide all the active functions for a step-down (buck) switching
regulator, capable of driving a 1A load current with excellent
line and load regulation. These devices areavailableinfixed
output voltages of 3.3V, 5.0V, 12V, and an adjustable output
version.

Requiring a minimumnumberofexternal components, these
regulators are simple to use and include patented internal
frequency compensation (Patent Nos. 5,382,918 and
5,514,947) and a fixed frequency oscillator.

The LM2675 series operates at a switching frequency of
260 kHz, thus allowing smaller sized filter components than
what would be needed with lower frequency switching regu­lators. Because of its very high efficiency (
per traces on the printed circuit board are the only heat sink­ing needed.

A family of standard inductors for use with the LM2675 are
available from several different manufacturers. This feature
greatly simplifies the design of switch-mode power supplies
using these advanced ICs. Also included in the datasheet
are selector guides for diodes and capacitors designed to
work in switch-mode power supplies.

Other features include a guaranteed
output voltage within specified input voltages and output
load conditions, and
ternal shutdown is included, featuring typically 50 µA
stand-by current. The output switch includes current limiting,
as well as thermal shutdown for full protection under fault
conditions.

±

10%on the oscillator frequency. Ex-

>

90%), the cop-

±

1.5%tolerance on

To simplify the LM2675 buck regulator design procedure,
there exists computer design software,

Simple

Features

n Efficiency up to 96
n Available in SO-8 and 8-pin DIP packages
n Computer Design Software
n Simple and easy to design with
n Requires only 5 external components
n Uses readily available standard inductors
n 3.3V, 5.0V, 12V, and adjustable output versions
n Adjustable version output voltage range: 1.21V to 37V

±

n

1.5%max output voltage tolerance over line and load

conditions

n Guaranteed 1A output load current
n 0.25Ω DMOS Output Switch
n Wide input voltage range: 8V to 40V
n 260 kHz fixed frequency internal oscillator
n TTL shutdown capability, low power standby mode
n Thermal shutdown and current limit protection

Typical Applications

n Simple High Efficiency (>90%) Step-Down (Buck)

Regulator

n Efficient Pre-Regulator for Linear Regulators
n Positive-to-Negative Converter

LM2675 SIMPLE SWITCHER Power Converter High Efficiency 1A Step-Down Voltage Regulator

September 1998

LM267X Made

version 1.0.

%

LM267X Made Simple

Typical Application

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SIMPLE SWITCHER®is a registered trademark of National Semiconductor Corporation.

®

Windows

is a registered trademark of Microsoft Corporation.

© 1998 National Semiconductor Corporation DS012803 www.national.com

Absolute Maximum Ratings (Note 1)

If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.

Supply Voltage 45V
ON/OFF Pin Voltage
Switch Voltage to Ground −1V
Boost Pin Voltage V
Feedback Pin Voltage −0.3V ≤ V
ESD Susceptibility

Human Body Model (Note 2) 2 kV

Power Dissipation Internally Limited

−0.1V ≤ VSH≤ 6V

+8V

SW

≤ 14V

FB

Storage Temperature Range −65˚C to +150˚C
Lead Temperature
M Package

Vapor Phase (60s) +215˚C

Infrared (15s) +220˚C
N Package (Soldering, 10s) +260˚C
Maximum Junction Temperature +150˚C

Operating Ratings

Supply Voltage 6.5V to 40V
Junction Temperature Range −40˚C ≤ T

≤ +125˚C

J

Electrical Characteristics Specifications with standard type face are for T

type face apply over full Operating Temperature Range.

=

25˚C, and those with bold

J

LM2675-3.3

Symbol Parameter Conditions Typical Min Max Units

(Note 4) (Note 5) (Note 5)
SYSTEM PARAMETERS Test Circuit
V
V

Output Voltage V

OUT

Output Voltage V

OUT

η Efficiency V

Figure 2

=

8V to 40V, I

IN

=

6.5V to 40V, I

IN

=

12V, I

IN

(Note 3)

=

20 mA to 1A 3.3 3.251/3.201 3.350/3.399 V

LOAD

=

20 mA to 500 mA 3.3 3.251/3.201 3.350/3.399 V

LOAD

=

1A 86

LOAD

%

LM2675-5.0

Symbol Parameter Conditions Typical Min Max Units

(Note 4) (Note 5) (Note 5)
SYSTEM PARAMETERS Test Circuit
V
V

Output Voltage V

OUT

Output Voltage V

OUT

η Efficiency V

Figure 2

=

8V to 40V, I

IN

=

6.5V to 40V, I

IN

=

12V, I

IN

(Note 3)

=

20 mA to 1A 5.0 4.925/4.850 5.075/5.150 V

LOAD

=

20 mA to 500 mA 5.0 4.925/4.850 5.075/5.150 V

LOAD

=

1A 90

LOAD

%

LM2675-12

Symbol Parameter Conditions Typical Min Max Units

(Note 4) (Note 5) (Note 5)
SYSTEM PARAMETERS Test Circuit
V

Output Voltage V

OUT

η Efficiency V

=

15V to 40V, I

IN

=

24V, I

IN

Figure 2

LOAD

(Note 3)

=

20 mA to 1A 12 11.82/11.64 12.18/12.36 V

LOAD

=

1A 94

%

LM2675-ADJ

Symbol Parameter Conditions Typ Min Max Units

(Note 4) (Note 5) (Note 5)
SYSTEM PARAMETERS Test Circuit
V

V

Feedback

FB

Voltage

Feedback

FB

Voltage

η Efficiency V

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Figure 3

=

V

8V to 40V, I

IN

Programmed for 5V

V

OUT

(see Circuit of

=

V

6.5V to 40V, I

IN

Programmed for 5V

V

OUT

(see Circuit of

=

12V, I

IN

(Note 3)

=

20 mA to 1A

LOAD

Figure 3

)

=

20 mA to 500 mA

LOAD

Figure 3

)

=

1A 90

LOAD

1.210 1.192/1.174 1.228/1.246 V

1.210 1.192/1.174 1.228/1.246 V

%

All Output Voltage Versions
Electrical Characteristics

Specifications with standard type face are for T
ture Range. Unless otherwise specified, V
sion, and I

LOAD

=

100 mA.

Symbol Parameters Conditions Typ Min Max Units
DEVICE PARAMETERS

I

Q

Quiescent Current V

For 3.3V, 5.0V, and ADJ Versions
V
For 12V Versions

I

I
I

STBY

CL
L

Standby Quiescent

ON/OFF Pin=0V

Current
Current Limit 1.55 1.25/1.2 2.1/2.2 A
Output Leakage Current V

V
V

R

DS(ON)

f

O

Switch On-Resistance I
Oscillator Frequency Measured at Switch Pin 260 225 275 kHz

D Maximum Duty Cycle 95

Minimum Duty Cycle 0

I

V

I

θ

BIAS

S/D

S/D

JA

Feedback Bias
Current

V
ADJ Version Only

ON/OFF Pin
Voltage Thesholds

ON/OFF Pin Current ON/OFF Pin=0V 20 737µA
Thermal Resistance N Package, Junction to Ambient (Note 6) 95 ˚C/W

M Package, Junction to Ambient (Note 6) 105

Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is in­tended to be functional, but device parameter specifications may not be guaranteed under these conditions. For guaranteed specifications and test conditions, see
the Electrical Characteristics.

Note 2: The human body model is a 100 pF capacitor discharged through a 1.5 kΩ resistor into each pin.
Note 3: External components such as the catch diode, inductor, input and output capacitors, and voltage programming resistors can affect switching regulator per-

formance. When the LM2675 is used as shown in
Characteristics.

Note 4: Typical numbers are at 25˚C and represent the most likely norm.
Note 5: All limits guaranteed at room temperature (standard type face) and at temperature extremes (bold type face). All room temperature limits are 100%pro-

duction tested. All limits at temperature extremes are guaranteed via correlation using standard Statistical Quality Control (SQC) methods. All limits are used to cal­culate Average Outgoing Quality Level (AOQL).

Note 6: Junction to ambient thermal resistance with approximately 1 square inch of printed circuit board copper surrounding the leads. Additional copper area will
lower thermal resistance further. See Application Information section in the application note accompanying this datasheet and the thermal model in

software.

Simple

Figures 2, 3

=

25˚C, and those with bold type face apply over full Operating Tempera-

J

=

12V for the 3.3V, 5V, and Adjustable versions and V

IN

=

FEEDBACK

FEEDBACK

8V 2.5 3.6 mA

=

15V 2.5 mA

=

24V for the 12V ver-

IN

50 100/150 µA

=

40V, ON/OFF Pin=0V

IN
SWITCH

SWITCH

SWITCH

FEEDBACK

=

0V

=

−1V, ON/OFF Pin=0V

=

1A 0.25 0.30/0.50 Ω

=

1.3V

125µA
615mA

85 nA

1.4 0.8 2.0 V

test circuits, system performance will be as specified by the system parameters section of the Electrical

%
%

LM267X Made

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Connection Diagram and Ordering Information

8-Lead Package

Top View

* No Connections

For Surface Mount Package

Order Number

LM2675M-3.3, LM2675M-5.0,

LM2675M-12 or LM2675M-ADJ

See NSC Package Number M08A

For DIP Package

Order Number

LM2675N-3.3, LM2675N-5.0,

LM2675N-12 or LM2675N-ADJ

See NSC Package Number N08E

Typical Performance Characteristics

Normalized
Output Voltage

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Drain-to-Source
Resistance

Line Regulation

Switch Current Limit

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Efficiency

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Operating
Quiescent Current

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Typical Performance Characteristics (Continued)

Standby
Quiescent Current

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Switching Frequency

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Dropout Voltage—3.3V Option

ON/OFF Threshold
Voltage

Feedback Pin
Bias Current

ON/OFF Pin
Current (Sourcing)

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Peak Switch Current

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Dropout Voltage—5.0V Option

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Block Diagram

* Active Inductor Patent Number 5,514,947

†

Active Capacitor Patent Number 5,382,918

FIGURE 1.

Typical Performance Characteristics

Continuous Mode Switching Waveforms

L=47 µH, C

A: VSWPin Voltage, 10 V/div.
B: Inductor Current, 0.5 A/div
C: Output Ripple Voltage, 20 mV/div AC-Coupled

OUT

=

V

20V, V

IN

Horizontal Time Base: 1 µs/div

OUT

=

68 µF, C

=

5V, I

=

LOAD

ESR=50 mΩ

OUT

1A

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(Circuit of

A: VSWPin Voltage, 10 V/div.
B: Inductor Current, 0.5 A/div
C: Output Ripple Voltage, 20 mV/div AC-Coupled

Figure 2

)

Discontinuous Mode Switching Waveforms

=

V

IN

L=15 µH, C

20V, V

OUT

=

5V, I

OUT

=

68 µF (2x), C

LOAD

Horizontal Time Base: 1 µs/div

=

300 mA

ESR=25 mΩ

OUT

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Typical Performance Characteristics (Circuit of

Figure 2

) (Continued)

Load Transient Response for Continuous Mode

L=47 µH, C

A: Output Voltage, 100 mV/div, AC-Coupled.
B: Load Current: 200 mA to 1A Load Pulse

=

V

20V, V

IN

OUT

OUT

=

68 µF, C

=

5V, I

=

LOAD

ESR=50 mΩ

OUT

1A

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Horizontal Time Base: 50 µs/div

Test Circuit and Layout Guidelines

Load Transient Response for Discontinuous Mode

L=47 µH, C

A: Output Voltage, 100 mV/div, AC-Coupled.
B: Load Current: 100 mA to 400 mA Load Pulse

=

V

20V, V

IN

=

OUT

OUT

68 µF, C

=

5V,

ESR=50 mΩ

OUT

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Horizontal Time Base: 200 µs/div

CIN- 22 µF, 50V Tantalum, Sprague “199D Series”

- 47 µF, 25V Tantalum, Sprague “595D Series”

C

OUT

D1 - 3.3A, 50V Schottky Rectifier, IR 30WQ05F
L1 - 68 µH Sumida

- 0.01 µF, 50V Ceramic

C

B

#

RCR110D-680L

FIGURE 2. Standard Test Circuits and Layout Guides

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Fixed Output Voltage Versions

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