DER-713 - 65W high power density adapter using InnoSwitch3-EP PowiGaN and MinE-CAP

65 W isolated flyback general purpose adapter using MinE-CAP ICs to achieve the highest possible power density and design simplicity

Schematic PCB

SEC-3PH-11-OBC-EVB: Three-Phase On-Board Charger (OBC) PFC-LLC Platform

Schematic PCB

TEA1936xDB1520 - USB PD 27W Mobile Charging

The Multi-Standard 27W Mobile Charger enables the design of power supplies featuring extreme low standby power with the output voltage in full regulation, very high efficiency and high reliability. The NXP chipset used is targeting mobile and notebook power supplies with power requirements up to 100W. Supplies can be designed easily and with a minimum number of external components.

Schematic PCB

TEA1936XDB1463-Multi-standard 45W mobile charging

The Multi Standard 45W Mobile Charger enables the design of power supplies featuring extreme low standby power with the output voltage in full regulation, very high efficiency and high reliability. The NXP chipset used is targeting mobile and notebook power supplies with power requirements up to 100W. Supplies can be designed easily and with a minimum number of external components.

Schematic PCB

OM13541: PCAL6534 Evaluation Board

OM13541UL is designed to evaluate the NXP PCAL6534. The PCAL6534 is a 34-bit general-purpose I/O expander that provides remote I/O expansion for most microcontroller families via the Fast Mode (Fm+) I²C-bus interface. The ultra-low voltage interface allows direct connection to microcontrollers operating with voltages as low as 0.8 V.

RDR-848 - 42W dual-port isolated flyback power supply with 30W USB PD 3.0 and 12W USB-A ports using InnoSwitch3-Pro and PowiGaN technology (INN3379C-H302)

42 W Dual Port Isolated Flyback Power Supply with 30 W USB PD 3.0 and 12 W USB-A Port Using InnoSwitch3-Pro with PowiGaN Technology (INN3379C-H302)

Schematic PCB

Battery-Powered Smart Lock Reference Design with Cloud Connectivity Using SimpleLink™ Wi-Fi® Technology

This reference design shows how to create a battery-powered electronic smart lock using integrated Wi-Fi®. This design shows how the SimpleLink™ Wi-Fi CC3220S wireless MCU (SoC) can be used as the main system controller and network processor to create a highly integrated design. The TIDC-01005 reference design combines the CC3220S and DRV8837 1.8A low voltage brushed DC motor driver to form the core of a Wi-Fi enabled electronic smart lock design. It also uses the SimpleLink low-power Bluetooth® CC2640R2F wireless MCU to demonstrate Wi-Fi configuration over BLE. The design utilizes the LaunchPad™ Development Kit and the DRV8837EVM, making reproduction and evaluation easy. The software used for TIDC-01005 is based on the SimpleLink SDK, enabling maximum portability within the SimpleLink platform.

Schematic PCB

RDR-813 - 27W USB PD 3.0 with 3.3 V-11 V PPS power supply, using InnoSwitch3-Pro and VIA Labs VP302 controller (single board design)

27 W USB PD 3.0 with PPS charger (5 V/3 A; 9 V/3 A; 3.3 V-11 V PPS outputs) using InnoSwitch3-Pro (INN3366C-H301) and VIA Labs VP302 USB PD controller, single-board design

Schematic PCB

RDR-805 - 100 W USB PD 3.0, 3.3 V-21 V PPS power supply based on InnoSwitch3-Pro and VIA Labs VP302 controller

Schematic PCB

MAXREFDES1160: Full-duplex, 500kbps and 2.75kVRMS isolated RS-485 module using the MAX14853

The MAXREFDES1160 is a 5V supplied, 2.75kV_RMS, full-duplex and 500kbps isolated RS-485 module using the MAX14853. This reference design demonstrates how to build an isolated RS-485 module with a low-cost transformer to provide isolated power. A transformer from HanRun, the HR600755, is used in this design. The power supply on the reference design is derived from a single 5V source. Connect the design board to a USB port or connect an external supply from VDDA to GNDA to provide 5V power supply on the logic side (A). The integrated push-pull transformer driver and external transformer (TX1) generate an isolated supply for powering the isolated side (B) of the board.

MAXREFDES174#: IO-Link distance sensor

The MAXREFDES174# is an IO-Link^®-compliant, distance sensor reference design that uses the Maxim MAX22513 IO-Link device transceiver and supports the IQ² Development IO-Link stack.

RDR-747 - 65W power supply based on InnoSwitch3-EP

Schematic PCB

EPR-68 - 6.6W DC-DC Flyback Converter

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TEA1993DB1357: TEA1993TS USB PD flyback synchronous rectification controller

Schematic PCB

OM13488: Universal 8-bit general-purpose IO daughter board for Fm+ development board

Universal 8-bit general-purpose IO daughter board for Fm+ development board

OM13588: USB Type-C Shield expansion board for Kinetis® ^Freedom and LPC boards

The USB Type-C Shield expansion board for Kinetis Power Delivery SDK provides a Type-C connector for any Kinetis development platform.

Schematic PCB

3.3V 1A, low EMI, 92% efficiency DC/DC module reference design in double-layer TO-220 package

TI reference design TIDA-00947 demonstrates a 10.5mmx14.5mm, 92% efficient low electromagnetic interference (EMI) DC/DC module using the TPS54202, replacing low dropout regulators (LDOs) in most appliance applications. High efficiency eliminates the need for a heat sink, resulting in a smaller, lower cost solution. Higher current capacity enables the addition of more functionality (WiFi, sensors, etc.). High efficiency and low current consumption help achieve stringent energy efficiency ratings.

Schematic PCB

RDR-802 - 60W USB PD 3.0 with 3.3 V-21 V PPS power supply based on InnoSwitch3-Pro and Weltrend WT6635P controller

Schematic PCB

USB-C "switch", hardware open source, firmware provided

The basic functions of USB-C are supported, such as high-speed communication and charging functions. Then this design solves the problem of painless switching between one host and multiple devices, or one device and multiple hosts.

Schematic PCB

TEA1721ADB1061: TEA1721 Isolated Universal Mains Flyback Converter Demo Board