KITPF3000FRDMPGM: PF3000 programming board

The KITPF3000FRDMPGM Programming Board is an easy-to-use circuit board that allows the user to program the PF3000 power management IC. This programming board integrates the popular KL25Z Freedom circuit board. The Freedom circuit board serves as the interface between the GUI and the PF3000. The analog-to-digital converter (ADC) in the KL25Z Freedom board monitors the regulator's voltage via the GUI.

MAXREFDES1106: 92% efficient, small-footprint, 12V/1A, synchronous, optocouplerless flyback DC-DC converter using the MAX17690 and MAX17606

Due to its simplicity and low cost, the flyback converter is the preferred choice for low-to-medium isolated DC-DC power-conversion applications. However, the use of an optocoupler or an auxiliary winding on the flyback transformer for voltage feedback across the isolation barrier increases the number of components and design complexity. The MAX17690 eliminates the need for an optocoupler or auxiliary transformer winding and achieves ±5% output voltage regulation over line, load, and temperature variations.

MAXREFDES1050: -15V/1.5A buck-boost DC-DC converter using buck controller MAX17504

The MAXREFDES1050 is a positive input, negative output power supply that delivers up to 1.5A at -15V from a 18V to 30V supply voltage. It is designed for industrial control equipment that uses analog components like amplifiers and multiplexers that operate on negative supply voltage.

MAXREFDES1019: Multi-Output DC-DC Converter Using Buck Regulator

This document describes a circuit that uses three MAX17541G buck converters and one MAX17504 step-down DC-DC converter. The circuit is arranged so that each buck converter uses the same input with four separate outputs. Each output has a different power specification. The MAX17541G regulator and features are given first, followed by the MAX17504 features.

KITPPFGMEVME: PF series programmer

NXPThe PF Series Programmer is a development tool designed to allow users to easily configure PF Series devices.

KIT33814AEEVBE: Evaluation Kit - 33814, Twin Cylinder Small Engine Control

The KIT33814AEEVBE is an easy-to-use circuit board that allows you to exercise functions of the NXP MC33814 two cylinder small engine control IC.

Schematic PCB

Long string LED boost driver (using aluminum electrolytic capacitors)

The long strings of LEDs commonly found in TV and display backlighting, street lights, and parking garage lights require a current driver capable of producing high voltages. This reference design provides such a driver using the MAX16834, and demonstrates how very-high dimming ratios can be obtained.

Use DS3882 CCFL controller to drive the common circuit of two lights

This application note describes a backlight LCD application in which two adjacent CCFL lamps share a common, low-voltage side lamp connection. This design is found in automotive, industrial, and avionic applications. The article describes how a DS3882 CCFL controller can be used to drive the two CCFL lamps that share a common return.

Designing a non-isolated flyback LED driver

MAX5073 Dual Buck Converter Reference Design Operating at 2MHz Switching Frequency

The MAX5073 is a dual converter capable of operating as a buck or boost converter. As a dual buck converter, this device can deliver up to 2A and 1A of output current. The reference design focuses on the MAX5073 operating as a buck converter with a switching frequency of 2MHz, which allows the use of smaller passive components and keeps it out of the AM band for automotive applications.

KIT33816FRDMEVM: Evaluation Kit - 33816, Freedom Board KL25Z, Injector

MAXREFDES1210: 96W, 12V two-phase SEPIC using MAX16990

The MAX16990 is a high-performance, current-mode, pulse-width mode (PWM) controller with 4μA (typ) shutdown current for wide input-voltage range boost converters/single-ended primary-inductor converters (SEPIC)

Schematic PCB

FRDM-17531EP-EVB: Freedom expansion board - MPC17531A, dual H-bridge, stepper motor driver, 2.0V-8.6V, 0.7A

KITFS85FRDMEVM: FS84/FS85 12V Automotive Safety SBC Evaluation Board

KITFS85FRDMEVM is a development board for the 12V automotive market. It is designed to provide the best performance and reference layout.

Schematic PCB

TPD7106F Single Output High Side N-Channel Power MOSFET Gate Driver IC Applications and Circuits

This reference design provides application circuit and simulation examples of the TPD7106F, whose features include power supply reverse connection, charge pump circuit, etc.

Schematic PCB

MAXREFDES1181: -5V/150mA, negative output power supply using MAX17501

The MAXREFDES1181 is centered around the MAX17501 ultra small, high-efficiency, high-voltage, synchronous stepdown DC-DC converter with integrated MOSFETs.

TEA1721ADB1061: TEA1721 Isolated Universal Mains Flyback Converter Demo Board

Smart Damper Control Reference Design with Pressure, Humidity and Temperature Sensing

This reference design is built to enable multiple room comfort control in connected HVAC systems. Sensing temperature, humidity, and pressure allows independent monitoring and air-flow adjustment in each zone. This TI Design converts a constant air volume (CAV) into a variable air volume (VAV) system. Collected data can be transmitted wirelessly to the smart thermostat or gateway. Onboard sensors can be employed to allow predictive maintenance, shorten technical troubleshooting time, and reduce overall energy consumption. Long battery life allows the smart damper to run for many years without the need to spend time and money on battery replacement.

Schematic PCB

MAXREFDES1179: PoE-powered device and 24V/300mA optocouplerless flyback DC-DC converter using the MAX17690 and MAX5969B

Power over Ethernet (PoE) is a technology that allows network cables to deliver power to a powered device (PD) through power-sourcing equipment (PSE) or midspan, and has many advantages over traditional methods of delivering power.

Fixed Frequency Single Coil Transmitter Reference Design

The 15-watt single-coil fixed-frequency wireless charging transmitter reference design features the WCT10xx transmit controller IC and integrates all the features required for a Wireless Power Consortium (WPC) Qi-compliant wireless power transmitter design.