Monolithic Micropower PFM Step-Up DC-DC Converter Evaluation Board

Overview

The NCP1406 is a monolithic micropower PFM step-up DC-DC converter. This device is designed to boost single lithium or two cells AA/AAA battery voltage up to 25 V (with internal MOSFET) output for handheld applications. Target applications include OLED Power, White LED Drivers, and LCD Bias. In addition to standard boost converter topologies, this device can be configured for voltage-inverting and step-down applications. This device is available in space-saving thin SOT23-5 (TSOP-5) package. With its small footprint, the device is also ideal for generating a boosted voltage from a 3.3 V or 5.0 V power rail.

There are 2 versions of the demo board that have been preconfigured to generate a voltage of 25V or 15V.

  • 85% Efficiency at VOUT = 25 V, IOUT = 25 mA, VIN = 5.0 V
  • Low Operating Current of 15 uA (Not Switching)
  • Low Shutdown Current of 0.3 uA
  • Low Startup Voltage of 1.8 V Typical at 0 mA
  • Output Voltage up to 25 V with Built-in 26 V MOSFET Switch
  • PFM Switching Frequency up to 1.0 MHz
  • Chip Enable
  • Output Voltage Soft-Start
  • Feedback Pin Open/Short Circuit Protection
  • Input Under-voltage Lockout
  • Thermal Shutdown
  • Low Profile and Minimum External Parts

Evaluation/Development Tools

製品

タイプ

Ref. Design

状態

Part Used

アクション

Monolithic Micropower PFM Step-Up DC-DC Converter Evaluation Board

評価ボード

No

Active

$33.3333

More Details

Show More

1-25 of 25

Products per page

Jump to :

技術文書

Name / Description

Document Type

Modified date

NCP1406V15GEVB_GERBER.ZIP

1

Eval Board: Gerber

46.08 KB

EN

Eval Board: Gerber

July 29, 2009

More Details

NCP1406V15GEVB_BOM_ROHS.PDF

2

Eval Board: BOM

194.56 KB

EN

Eval Board: BOM

July 16, 2009

More Details

NCP1406V15GEVB_TEST_PROCEDURE.PDF

1

Eval Board: Test Procedure

43.01 KB

EN

Eval Board: Test Procedure

July 16, 2009

More Details

NCP1406V15GEVB_SCHEMATIC.PDF

1

Eval Board: Schematic

28.67 KB

EN

Eval Board: Schematic

July 16, 2009

More Details

Show More