LM3661TL-1.25 NSC [National Semiconductor], LM3661TL-1.25 Datasheet

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LM3661TL-1.25

Manufacturer Part Number
LM3661TL-1.25
Description
450mA Subminiature, Micropower Step-Down DC-DC Converter for Ultra Low-Voltage Circuits
Manufacturer
NSC [National Semiconductor]
Datasheet
1.LM3661TL-1.25.pdf (17 pages)
© 2005 National Semiconductor Corporation
LM3661
450mA Subminiature, Micropower Step-Down DC-DC
Converter for Ultra Low-Voltage Circuits
General Description
The LM3661 step-down DC-DC converter is optimized for
powering ultra-low voltage circuits from a single Lithium-Ion
cell. The device provides two pin-selectable output voltages.
See ordering information for a list of voltage options avail-
able . This allows adjustment for DSP or CPU voltage op-
tions, as well as dynamic output voltage switching for re-
duced
rectification provides high efficiency (92% typ. at 1.35V
The LM3661 offers superior features and performance for
mobile phones and similar portable applications. Pin-
selectable PWM and Linear modes provide improved system
control for maximizing battery life. During full-load, fixed
frequency PWM operation reduces interference in RF and
data acquisition applications by minimizing noise harmonics
at sensitive IF and sampling frequencies. The SYNC/MODE
input allows synchronization of the switching frequency in a
range of below 500 kHz to 750 kHz to prevent noise from
intermodulation with system frequencies. Linear operation
reduces quiescent current to 29 µA (typ.) during system
standby for extended battery life, while supplying up to
15 mA. Shutdown turns the device off and reduces battery
consumption to 0.5 µA (typ.). This device offers a selectable
over Current Limit to protect a variety of inductors.
The LM3661 is available in a 10 pin micro SMD package.
This packaging uses National’s chip-scale micro SMD tech-
nology and offers the smallest possible size. A high (600
kHz) switching frequency allows use of tiny surface-mount
components; only three are required — an inductor and two
ceramic capacitors.
Features
n Operates from a single Li-ION cell
n Pin selectable output voltages
n Pin selectable Inductor Current Limit
Typical Application Circuit
power
consumption.
Internal
DS200988
synchronous
OUT
).
n
n Miniature 10-pin micro SMD package
n Only three tiny surface-mount external components
n Uses small ceramic capacitors
n 8 mV typ. PWM output voltage ripple
n Internal synchronous rectification for high efficiency
n 29 µA typ. quiescent current (Linear mode)
n 0.5 µA typ. shutdown current
n SYNC/MODE input for frequency synchronization from
n Current and Thermal overload protection
n High gain control loop with internal compensation
n Up to 450mA I
n Up to TBDmA I
Applications
n Mobile phones
n Hand-Held radios
n Personal Digital Assistants
n Palm-top PC’s and Pocket PC’s
n Portable Instruments
n Battery Powered Device
required
(92% at 2.7 V
500 kHz to 750 kHz
±
3% output voltage precision in PWM mode
IN
OUT
OUT
, 1.35 V
capability for LM3661-1.35/1.4
capability for LM3661-1.25
OUT
)
20098802
www.national.com
May 2005

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LM3661TL-1.25 Summary of contents

Page 1

LM3661 450mA Subminiature, Micropower Step-Down DC-DC Converter for Ultra Low-Voltage Circuits General Description The LM3661 step-down DC-DC converter is optimized for powering ultra-low voltage circuits from a single Lithium-Ion cell. The device provides two pin-selectable output voltages. See ordering information ...

Page 2

Block Diagram www.national.com FIGURE 1. Simplified Functional Diagram 2 20098801 ...

Page 3

... Connection Diagrams 10-Bump micro SMD Package Top View Ordering Information Order Number Output Voltage LM3661TLX - 1.25 1.05V/1.25V LM3661TL - 1.25 LM3661TLX - 1.35 1.05V/1.35V LM3661TL - 1.35 LM3661TLX - 1.40 1.05V/1.40V LM3661TL - 1.40 Pin Description Pin Number Name SEL C1 I SEL D1 SYNC/MODE PGND ...

Page 4

Pin Description (Continued) Pin Number Name SGND www.national.com Function Analog Supply Input. Analog and Control Ground. 4 ...

Page 5

... SEL LM3661TL-1.25 SEL IN LM3661TL-1.35 SEL LM3661TL-1.35 SEL IN LM3661TL-1.40 SEL LM3661TL-1.40 SEL IN LM3661TL-1.25 SEL = 1mA LM3661TL-1.25 SEL IN LM3661TL-1.35 SEL LM3661TL-1.35 SEL IN LM3661TL-1. SEL LM3661TL-1. SEL IN SYNC/MODE = 2.7V to 5.5V IN SYNC/MODE = ...

Page 6

Electrical Characteristics Specifications with standard typeface are for T Range ( −30˚C to +85˚C). Unless otherwise specified µF. OUT Symbol Parameter V EN Logic High Input (Note 4) EN ...

Page 7

Typical Performance Characteristics otherwise noted) Quiescent Supply Current vs. Supply Voltage (PWM MODE) Output Voltage vs. Output Current (PWM MODE, I =L, V SEL OUT Output Voltage vs. Output Current (LDO MODE, V =1.05V) OUT (Circuit in Fig.2, PV Quiescent ...

Page 8

Typical Performance Characteristics otherwise noted) (Continued) Output Voltage vs. Supply Voltage (PWM MODE SEL Output Voltage vs. Supply Voltage (LDO MODE, V OUT Switching Frequency vs. Temperature (PWM MODE, SYNC/MODE = V www.national.com (Circuit in Fig.2, ...

Page 9

Typical Performance Characteristics otherwise noted) (Continued) Efficiency vs. Output Current (PWM MODE SEL OUT LDO Load Transient Response (V = 3.6V & 1.35V) IN OUT PWM Start-up Respsonse (V = 3.6V & ...

Page 10

Typical Performance Characteristics otherwise noted) (Continued) LDO Start-up Respsonse (V = 3.6V & OUT V Transition in PWM Mode SEL (LM3661-1.35) V & SYNC/MODE Transition in PWM Mode SEL www.national.com (Circuit in Fig. 1.05V) 20098842 20098847 ...

Page 11

Typical Performance Characteristics otherwise noted) (Continued) TYP Waveform (PWM Mode 450mA) OUT External SYNC/MODE at 600kHz ( I = 450mA ) OUT (Circuit in Fig. EN=3.6V External SYNC/MODE at 600kHz ( ...

Page 12

Circuit Operation The LM3661 operates as follows: During the first part of each switching cycle, the control block in the LM3661 turns on the internal PFET switch. This allows current to flow from the input through the inductor to the ...

Page 13

Frequency Synchronization (Continued) over/undershoot. Note that sharp edged signals from a pulse or function generator can develop under/overshoot as high as 10V at the end of an improperly terminated cable. Over-voltage Protection The LM3661 has an over-voltage comparator that prevents ...

Page 14

Application Information INDUCTOR SELECTION There are a few things that one must consider when select- ing an inductor for an application. They are the inductor DC current rating, inductor ripple current, DC-resistance of the inductor and value of the inductor. ...

Page 15

Application Information to perform these functions. The ESR, or equivalent series resistance, of the filter capacitors is a major factor in voltage ripple. Table 3 lists suggested capacitors suppliers. Table 3. Suggested capacitors and Suppliers Model Size (EIA) Input Filter ...

Page 16

Physical Dimensions NOTES: UNLESS OTHERWISE SPECIFIED 1. EPOXY COATING 2. 63Sn/37Pb EUTECTIC BUMP 3. RECOMMEND NON-SOLDER MASK DEFINED LANDING PAD. 4. PIN A1 IS ESTABLISHED BY LOWER LEFT CORNER WITH RESPECT TO TEXT ORIENTATION. REMAINING PINS ARE NUMBERED COUNTER CLOCKWISE. ...

Page 17

National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications. For the most current product information ...

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