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PVIN

SW

AGND

FB

PGOOD

R

FB1

R

FB2

C

OUT

EN

C

SS

SS/TRK

AVIN

C

F

C

C1

COMP

R

C1

V

IN

LM20133

L

R

F

VCC

C

VCC

V

OUT

PGND

P

GOOD

R

PG

EN

C

C2

SYNC

SYNC

C

IN

C

BYP

User's Guide

SNVA274B – October 2007 – Revised May 2013

AN-1688 LM20133 Evaluation Board

1

Introduction

The LM20133 is a full featured buck switching regulator capable of driving up to 3A of load current. This
device features a clock synchronization input that allows the switching frequency to be synchronized to an
external clock source. The flexibilty to synchronize the switching frequency from 500 kHz to 1.5 MHz
allows the size of the power stage components to be reduced while still allowing for high efficiency. The
LM20133 is capable of converting an input voltage between 2.95 V and 5.5 V down to an output voltage
as low as 0.8 V. Fault protection features include cycle-by-cycle current limit, output power good, and
output over-voltage protection. The dual function soft-start/tracking pin can be used to control the startup
response of the LM20133, and the precision enable pin can be used to easily sequence the LM20133 in
applications with sequencing requirements. The LM20133 is available in a 16-pin HTSSOP package with
an exposed pad for enhanced thermal performance.

The LM20133 evaluation board has been designed to balance overall solution size with the efficiency of
the regulator. The evaluation board measures just under 1.3” x 1.1” on a two layer PCB, with all
components placed on the top layer. The power stage and compensation components of the LM20133
evaluation board have been optimized for an input voltage of 5 V, but for testing purposes, the input can
be varied across the entire operating range. The output voltage of the evaluation board is nominally 1.2 V,
but this voltage can be easily changed by replacing one of the feedback resistors (R

FB1

or R

FB2

). The

control loop compensation of the LM20133 evaluation board has been designed to provide a stable
solution over the entire input and output voltage range with a reasonable transient response. The EN pin
must be above 1.18 V (typ) on the board to initiate switching. If the EN function is not necessary, the EN
pin should be externally tied to V

IN

.

Figure 1. Evaluation Board Schematic

All trademarks are the property of their respective owners.

1

SNVA274B – October 2007 – Revised May 2013

AN-1688 LM20133 Evaluation Board

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Copyright © 2007–2013, Texas Instruments Incorporated

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Summary of Contents for LM20133

Page 1: ...uirements The LM20133 is available in a 16 pin HTSSOP package with an exposed pad for enhanced thermal performance The LM20133 evaluation board has been designed to balance overall solution size with the efficiency of the regulator The evaluation board measures just under 1 3 x 1 1 on a two layer PCB with all components placed on the top layer The power stage and compensation components of the LM2...

Page 2: ...inal connects to the output voltage of the power supply and should be connected to the load EN This terminal connects to the enable pin of the device This terminal should be connected to VIN or driven externally If driven externally a voltage typically greater than 1 18 V will enable the device The operating voltage for this pin should not exceed 5 5 V The absolute maximum voltage rating on this p...

Page 3: ...ncy vs Load Line Regulation ILOAD 3A 0 5A to 3A Load Transient Response Load Regulation VIN 5 V 200 µs DIV Startup Waveform 3 SNVA274B October 2007 Revised May 2013 AN 1688 LM20133 Evaluation Board Submit Documentation Feedback Copyright 2007 2013 Texas Instruments Incorporated ...

Page 4: ...tage drop can trigger the UVLO comparator For the demo board a 1 Ω resistor is used for RF ensuring that UVLO will not be triggered after the part is enabled A recommended 1 µF CF capacitor coupled with the 1 Ω resistor provides roughly 16dB of attenuation at the 1 MHz switching frequency 5 3 Inductor As per the device specific data sheet recommendations the inductor value should initially be chos...

Page 5: ...5 6 CVCC The CVCC capacitor is necessary to bypass an internal 2 7 V subregulator This capacitor should be sized equal to or greater than 1 µF but less than 10 µF A value of 1 µF is sufficient for most applications 5 7 CC1 The capacitor CC1 is used to set the crossover frequency of the LM20133 control loop Since this board was optimized to work well over the full input output voltage and frequency...

Page 6: ...LM20133 evaluation board is set to 1 2 V giving resistor values of RFB1 4 99 kΩ and RFB2 10 kΩ If a different output voltage is required the value of RFB1 can be adjusted according to Equation 9 9 RFB2 does not need to be changed from its value of 10 kΩ 6 PCB Layout Figure 2 Top Layer 6 AN 1688 LM20133 Evaluation Board SNVA274B October 2007 Revised May 2013 Submit Documentation Feedback Copyright ...

Page 7: ...www ti com PCB Layout Figure 3 Bottom Layer 7 SNVA274B October 2007 Revised May 2013 AN 1688 LM20133 Evaluation Board Submit Documentation Feedback Copyright 2007 2013 Texas Instruments Incorporated ...

Page 8: ...esponsible for compliance with all legal regulatory and safety related requirements concerning its products and any use of TI components in its applications notwithstanding any applications related information or support that may be provided by TI Buyer represents and agrees that it has all the necessary expertise to create and implement safeguards which anticipate dangerous consequences of failur...

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