LM2735SD3.3EVAL National Semiconductor, LM2735SD3.3EVAL Datasheet

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LM2735SD3.3EVAL

Manufacturer Part Number
LM2735SD3.3EVAL
Description
BOARD EVALUATION FOR LM2735
Manufacturer
National Semiconductor
Datasheets
1.LM2735XMFNOPB.pdf (42 pages)
2.LM2735SD3.3EVAL.pdf (4 pages)

Specifications of LM2735SD3.3EVAL

Main Purpose
DC/DC, Step Up
Outputs And Type
1, Non-Isolated
Voltage - Output
3.3V
Current - Output
500mA
Voltage - Input
3 ~ 5.5V
Regulator Topology
Boost
Frequency - Switching
1.6MHz
Board Type
Fully Populated
Utilized Ic / Part
LM2735
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Power - Output
-
© 2009 National Semiconductor Corporation
LM2735/LM2735Q
520kHz/1.6MHz – Space-Efficient Boost and SEPIC DC-DC
Regulator
General Description
The LM2735 is an easy-to-use, space-efficient 2.1A low-side
switch regulator ideal for Boost and SEPIC DC-DC regulation.
It provides all the active functions to provide local DC/DC
conversion with fast-transient response and accurate regula-
tion in the smallest PCB area. Switching frequency is inter-
nally set to either 520kHz or 1.6MHz, allowing the use of
extremely small surface mount inductor and chip capacitors
while providing efficiencies up to 90%. Current-mode control
and internal compensation provide ease-of-use, minimal
component count, and high-performance regulation over a
wide range of operating conditions. External shutdown fea-
tures an ultra-low standby current of 80 nA ideal for portable
applications. Tiny SOT23-5, LLP-6, and eMSOP-8 packages
provide space-savings. Additional features include internal
soft-start, circuitry to reduce inrush current, pulse-by-pulse
current limit, and thermal shutdown.
Typical Boost Application Circuit
202158
20215801
Features
Applications
Input voltage range 2.7V to 5.5V
Output voltage range 3V to 24V
2.1A switch current over full temperature range
Current-Mode control
Logic high enable pin
Ultra low standby current of 80 nA in shutdown
170 mΩ NMOS switch
±2% feedback voltage accuracy
Ease-of-use, small total solution size
LM2735Q is AEC-Q100 Grade 1 qualified and is
manufactured on an Automotive Grade Flow
LCD Display Backlighting For Portable Applications
OLED Panel Power Supply
USB Powered Devices
Digital Still and Video Cameras
White LED Current Source
Automotive
Internal soft-start
Internal compensation
Two switching frequencies
520 kHz (LM2735-Y)
Uses small surface mount inductors and chip capacitors
Tiny SOT23-5, LLP-6, and eMSOP-8 packages
1.6 MHz (LM2735-X)
Efficiency vs Load Current V
O
= 12V
February 3, 2009
20215815
www.national.com

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LM2735SD3.3EVAL Summary of contents

Page 1

... Tiny SOT23-5, LLP-6, and eMSOP-8 packages provide space-savings. Additional features include internal soft-start, circuitry to reduce inrush current, pulse-by-pulse current limit, and thermal shutdown. Typical Boost Application Circuit © 2009 National Semiconductor Corporation Features ■ Input voltage range 2.7V to 5.5V ■ ...

Page 2

Connection Diagrams Top View 20215803 5-Pin SOT23 Ordering Information Order Number Description LM2735YMF LM2735YMFX LM2735YQMF LM2735YQMFX 520kHz LM2735YSD LM2735YSDX LM2735YMY LM2735YMYX LM2735XMF LM2735XMFX LM2735XQMF LM2735XQMFX 1.6MHz LM2735XSD LM2735XSDX LM2735XMY LM2735XMYX *Automotive Grade (Q) product incorporates enhanced manufacturing and support processes ...

Page 3

Pin Descriptions - 5-Pin SOT23 Pin Name Function 1 SW Output switch. Connect to the inductor, output diode. Signal and power ground pin. Place the bottom resistor of the feedback network as close as possible to this 2 GND pin. ...

Page 4

... Absolute Maximum Ratings If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications Voltage FB Voltage EN Voltage ESD Susceptibility (Note 4) Junction Temperature (Note 2) Storage Temp. Range Electrical Characteristics junction temperature range -40°C to 125°C). Minimum and Maximum limits are guaranteed through test, design, or statistical J correlation ...

Page 5

Symbol Parameter Junction to Ambient θ LFPM Air Flow (Note 3) θ Junction to Case (Note Thermal Shutdown Temperature (Note 2) SD Thermal Shutdown Hysteresis Note 1: Absolute Maximum Ratings indicate limits beyond which damage ...

Page 6

Typical Performance Characteristics Current Limit vs Temperature Oscillator Frequency vs Temperature - "X" Typical Maximum Output Current vs V www.national.com FB Pin Voltage vs Temperature 20215806 Oscillator Frequency vs Temperature - "Y" 20215808 R IN DSON 20215810 6 20215807 20215809 ...

Page 7

LM2735X Efficiency vs Load Current 20V LM2735X Efficiency vs Load Current 12V Output Voltage Load Regulation LM2735Y Efficiency vs Load Current 20V 20215812 LM2735Y Efficiency vs Load Current 12V 20215814 Output Voltage ...

Page 8

Simplified Internal Block Diagram Application Information THEORY OF OPERATION The LM2735 is a constant frequency PWM boost regulator IC that delivers a minimum of 2.1A peak switch current. The reg- ulator has a preset switching frequency of either 520 kHz ...

Page 9

FIGURE 2. Simplified Schematic FIGURE 3. Typical Waveforms 9 20215819 20215820 www.national.com ...

Page 10

CURRENT LIMIT The LM2735 uses cycle-by-cycle current limiting to protect the internal NMOS switch important to note that this cur- rent limit will not protect the output from excessive current during an output short circuit. The input supply ...

Page 11

The ESL of an input capacitor is usually determined by the effective cross sec- tional area of the current path. At the operating frequencies of the ...

Page 12

FIGURE 7. LM2735 With External Compensation The simplest method to determine the compensation compo- nent value is as follows. Set the output voltage with the following equation. Where R1 is the bottom resistor and R2 is the resistor tied to ...

Page 13

... Below is an example of a good thermal & electrical PCB de- sign. This is very similar to our LM2735 demonstration boards that are obtainable via the National Semiconductor website. The demonstration board consists of a two layer PCB with a common input and output voltage application. Most of the routing is on the top layer, with the bottom layer consisting of a large ground plane ...

Page 14

Example of Proper PCB Layout FIGURE 9. Boost PCB Layout Guidelines Thermal Design When designing for thermal performance, one must consider many variables: Ambient Temperature: The surrounding maximum air tem- perature is fairly explanatory. As the temperature increases, the junction ...

Page 15

The datasheet values for these symbols are given so that one might compare the thermal performance of one package against another. In order to achieve a comparison between packages, all other variables must be held constant in the comparison (PCB ...

Page 16

LM2735 Thermal Models Heat is dissipated from the LM2735 and other devices. The external loss elements include the Schottky diode, inductor, www.national.com and loads. All loss elements will mutually increase the heat on the PCB, and therefore increase each other’s ...

Page 17

Calculating Efficiency, and Junction Temperature The complete LM2735 DC/DC converter efficiency (η) can be calculated in the following manner. Power loss ( the sum of two types of losses in the LOSS converter, switching and conduction. Conduction losses ...

Page 18

The value for should be equal to the resistance at the junction temperature you wish to analyze example, at 125°C = 250 mΩ (See typical graphs for value). and DSON Switching losses are ...

Page 19

Procedure: Place your application into a thermal chamber. You will need to dissipate enough power in the device so you can obtain a good thermal impedance value. Raise the ...

Page 20

Substituting I into The average inductor current the average output load. FIGURE 15. Inductor Volt-Sec Balance Waveform www.national.com Applying Charge balance on C1: Since there are no DC voltages across either inductor, and capacitor ...

Page 21

Steady State Analysis with Loss Elements Using inductor volt-second balance & capacitor charge bal- ance, the following equations are derived: Therefore: One can see that all variables are known except for the duty cycle (D). A quadratic equation is needed ...

Page 22

LLP Package The LM2735 packaged in the 6–pin LLP: For certain high power applications, the PCB land may be modified to a "dog bone" shape (see Figure 19). Increasing www.national.com FIGURE 18. Internal LLP Connection the size of ground plane, ...

Page 23

LM2735X SOT23-5 Design Example 1 LM2735X (1.6MHz): Vin = 5V, Vout = 12V @ 350mA Part ID U1 2.1A Boost Regulator C1, Input Cap C2 Output Cap C3 Comp Cap D1, Catch Diode 0. Part Value ...

Page 24

LM2735Y SOT23-5 Design Example 2 Part ID U1 C1, Input Cap C2 Output Cap C3 Comp Cap D1, Catch Diode www.national.com LM2735Y (520kHz): Vin = 5V, Vout = 12V @ 350mA Part Value Manufacturer 2.1A Boost ...

Page 25

LM2735X LLP-6 Design Example 3 LM2735X (1.6MHz): Vin = 3.3V, Vout = 12V @ 350mA Part ID U1 2.1A Boost Regulator C1 Input Cap C2 Input Cap C3 Output Cap C4 Output Cap C5 Comp Cap D1, Catch Diode 0.4V ...

Page 26

LM2735Y LLP-6 Design Example 4 Part Input Cap C2 Input Cap C3 Output Cap C4 Output Cap C5 Comp Cap D1, Catch Diode www.national.com LM2735Y (520kHz): Vin = 3.3V, Vout = 12V @ ...

Page 27

LM2735Y eMSOP-8 Design Example 5 LM2735Y (520kHz): Vin = 3.3V, Vout = 12V @ 350mA Part ID U1 2.1A Boost Regulator C1 Input Cap C2 Input Cap C3 Output Cap C4 Output Cap C5 Comp Cap D1, Catch Diode 0.4V ...

Page 28

LM2735X SOT23-5 Design Example 6 Part ID U1 C1, Input Cap C2, Output Cap C3 Comp Cap D1, Catch Diode www.national.com LM2735X (1.6MHz): Vin = 3V, Vout = 5V @ 500mA Part Value Manufacturer 2.1A Boost ...

Page 29

LM2735Y SOT23-5 Design Example 7 LM2735Y (520kHz): Vin = 3V, Vout = 5V @ 750mA Part ID U1 2.1A Boost Regulator C1 Input Cap C2 Output Cap C3 Comp Cap D1, Catch Diode 0. Part Value ...

Page 30

LM2735X SOT23-5 Design Example 8 Part ID U1 C1, Input Cap C2, Output Cap C3 Comp Cap D1, Catch Diode 0. www.national.com LM2735X (1.6MHz): Vin = 3.3V, Vout = 20V @ 100mA Part Value Manufacturer 2.1A ...

Page 31

LM2735Y SOT23-5 Design Example 9 LM2735Y (520kHz): Vin = 3.3V, Vout = 20V @ 100mA Part ID U1 2.1A Boost Regulator C1 Input Cap C2 Output Cap C3 Comp Cap D1, Catch Diode 0. Part ...

Page 32

LM2735X LLP-6 Design Example 10 Part Input Cap C2 Input Cap C3 Output Cap C4 Output Cap C5 Comp Cap D1, Catch Diode 0. www.national.com LM2735X (1.6MHz): Vin = 3.3V, Vout = 20V ...

Page 33

LM2735Y LLP-6 Design Example 11 LM2735Y (520kHz): Vin = 3.3V, Vout = 20V @ 150mA Part ID U1 2.1A Boost Regulator C1 Input Cap C2 Input Cap C3 Output Cap C4 Output Cap C5 Comp Cap D1, Catch Diode 0.4V ...

Page 34

LM2735X LLP-6 SEPIC Design Example 12 LM2735X (1.6MHz): Vin = 2.7V - 5V, Vout = 3.3V @ 500mA Part Input Cap C2 Input Cap C3 Output Cap C4 Output Cap C5 Comp Cap C6 D1, Catch Diode ...

Page 35

LM2735Y eMSOP-8 SEPIC Design Example 13 LM2735Y (520kHz): Vin = 2.7V - 5V, Vout = 3.3V @ 500mA Part ID U1 2.1A Boost Regulator C1 Input Cap C2 Input Cap C3 Output Cap C4 Output Cap C5 Comp Cap C6 ...

Page 36

LM2735X SOT23-5 LED Design Example 14 LM2735X (1.6MHz): Vin = 2.7V - 5V, Vout = 20V @ 50mA Part Input Cap C2 Output Cap D1, Catch Diode 0. www.national.com Part Value Manufacturer 2.1A ...

Page 37

LM2735Y LLP-6 FlyBack Design Example 15 LM2735Y (520kHz): Vin = 5V, Vout = ±12V 150mA Part ID U1 2.1A Boost Regulator C1 Input Cap C2 Output Cap C3 Output Cap Cf Comp Cap D1, D2 Catch Diode 0. ...

Page 38

LM2735X SOT23-5 LED Design Example 16 V > 5.5V Application RAIL Part ID U1 C1, Input Cap C2, Output Cap C3 V Cap IN C4 Comp Cap D1, Catch Diode www.national.com LM2735X (1.6MHz): V ...

Page 39

LM2735X SOT23-5 LED Design Example 17 Two Input Voltage Rail Application LM2735X (1.6MHz): V Part ID U1 2.1A Boost Regulator C1, Input Cap C2, Output Cap C3 V Cap IN C4 Comp Cap D1, Catch Diode 0. ...

Page 40

Physical Dimensions www.national.com inches (millimeters) unless otherwise noted 6-Lead LLP Package NS Package Number SDE06A 5-Lead SOT23-5 Package NS Package Number MF05A 40 ...

Page 41

Package NS Package Number MUY08A 41 www.national.com ...

Page 42

... For more National Semiconductor product information and proven design tools, visit the following Web sites at: Products Amplifiers www.national.com/amplifiers Audio www.national.com/audio Clock and Timing www.national.com/timing Data Converters www.national.com/adc Interface www.national.com/interface LVDS www.national.com/lvds Power Management www.national.com/power Switching Regulators www.national.com/switchers LDOs www.national.com/ldo LED Lighting www ...

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