XCL206B333-EVB Torex Semiconductor Ltd, XCL206B333-EVB Datasheet

Page 1

XCL206 Evaluation Board ‘micro-DC/DC’ Step-down DC/DC Converter with Integrated USER MANUAL: XCL206B123-EVB XCL206B153-EVB XCL206B183-EVB XCL206B283-EVB XCL206B303-EVB Multilayer Inductor ETR3101-D01a (V = 1.2V) OUT (V = 1.5V) OUT (V = 1.8V) OUT (V = 2.8V) OUT (V = 3.0V) OUT ...

Page 2

WARNING Torex Semiconductor does not guarantee that all samples will perform in exactly the same way and we recommend that you always consult our product data sheets for the minimum and maximum specifications also important that you evaluate ...

Page 3

CONTENTS 1. INTRODUCTION …..………………………………………………………………...…………….4 2. QUICK START GUIDE…..………………………………………………………………………….5 2.1. CE pin (XCL206series).………….………………………….…………………………………5 3. SCHEMATIC, BOM AND PCB LAYOUT………………………………………………………….5 3.1. Schematic……...…………………………………………………………………………….....5 3.2. Bill of Materials...………………………...………………………………………………….....6 3.3. PCB layout ...…...…………………………………………………………………….……......7 4. TYPICAL CHARACTERISTICS…………………………………………………………….……8 4.1. XCL206B123-EVB...…………….…………………………………………………...………..8 4.2. XCL206B153-EVB……………….…………………………………...……….........…………9 4.3. XCL206B183-EVB...…………….…………………………………………………...………10 4.4. XCL206B283-EVB...…………….…………………………………………………...………11 4.5. ...

Page 4

Chapter 1: INTRODUCTION The XCL206 series is a synchronous step-down DC/DC converter which integrates an inductor and a control IC in one tiny package (2.5mm×2.0mm, H=1.0mm). A stable power supply with an output current of 600mA is configured using only ...

Page 5

Chapter 2: QUICK START GUIDE 2.1. CE pin (XCL206 series) To enable the IC, connect the Chip Enable (CE) pin to VIN or to any other source voltage between 0.65V and 6V. To disable the IC, connect the CE pin ...

Page 6

Inductor Built-in Step-Down DC/DC Converters 3.2. Bill of Materials As you will notice on your evaluation board, the XCL circuit only requires two small (EIA size 0603) ceramic capacitors hardly takes more space than a standard LDO voltage ...

Page 7

PCB layout The below pictures are showing the top (left) and bottom (right) views of the PCB. The following picture is showing a fully populated XCL evaluation board. XCL206 Evaluation Board Inductor Built-in Step-Down DC/DC Converters 7 ...

Page 8

Chapter 4: TYPICAL CHARACTERISTICS Below are the typical performances that you should observe when using your XCL evaluation board. IC VIN VIN VOUT CIN CE/M ODE CE CE VSS GND (2)Efficiency vs. Output Current Ta=25℃ 100 VIN=3.3V ...

Page 9

Chapter 4: TYPICAL CHARACTERISTICS Below are the typical performances that you should observe when using your XCL evaluation board. IC VIN VIN VOUT CIN CE/M ODE CE CE VSS GND (2)Efficiency vs. Output Current Ta=25℃ 100 VIN=3.3V ...

Page 10

Chapter 4: TYPICAL CHARACTERISTICS Below are the typical performances that you should observe when using your XCL evaluation board. IC VIN VIN VOUT CIN CE/M ODE CE CE VSS GND (2)Efficiency vs. Output Current Ta=25℃ 100 VIN=3.3V ...

Page 11

Chapter 4: TYPICAL CHARACTERISTICS Below are the typical performances that you should observe when using your XCL evaluation board. IC VIN VIN VOUT CIN CE/M ODE CE CE VSS GND (2)Efficiency vs. Output Current Ta=25℃ 100 80 ...

Page 12

Chapter 4: TYPICAL CHARACTERISTICS Below are the typical performances that you should observe when using your XCL evaluation board. IC VIN VIN VOUT CIN CE/M ODE CE CE VSS GND (2)Efficiency vs. Output Current Ta=25℃ 100 VIN=5.0V ...