This solution provides a 65W charger based on GaN device. Thecontroller is based on Champion's Dr. flyback, which integrates ahigh-side mos to achieve ZVS. High switching frequency with GaNdevice to achieve higher power density.
This product is a high performance & low cost bi-directional hybridrelay designed by mixing a high power IGBT and a traditionamechanical relay. The maximum rating is 800V/150 A. Like traditionalmechanical relays, this product supports 2500 Vrms isolation and canbe widely used in electric vehicles, charging piles, energy storage, PVinverter, etc.
The project is a 3.6kW bitcoin miner power supply with input 90-264Vacand output 12V300A. SiC-based totem-pole PFC and interleaved parallelsynchronous rectifier LLC topology were selected for system design. Thetotem pole PFC achieve extremely high efficiency (peak up to 99%) andthe interleaved synchronous LLC reduce output current ripple from 48%to 12% which greatly reducing output capacitor stress.
This reference design provides a low-cost server power solution. Thesystem is designed with PFC and synchronous rectifier LLC topologyusing a single Spintrol ARM4 MCU SPC1168 to control both the PFCand LLC. This solution achieves the requirements of platinumefficiency and standby power consumption standard, meets the iTHDdynamic and current sharing design requirements of full load range.which is a highly completed server power reference solution.
This solution used Wolfspeed's SiC devices to instead of traditionaIGBT module for HVAC systems, which can significantly improve thesystem performance and has more cost effective. The compressorcontrol frequency was set to 16KHz to reduces audible noise.Meanwhile, the system efficiency is much higher compared withtraditional IGBT devices, especially with light load. The standby powerconsumption is lower to meet the standby energy efficiency standard
In this design, input range is 90Vac-264Vac and output is 39-55Vdc/55A. A singleSpintrol ARM4 MCU is used as system controller, Totem-pole PFC and synchronousLLC is designed in the system, to realize bi-directional charge & discharge energyflow.The forward charging uses CC&CV dual control loop and the reverse inverter usesSPWM design. The inverter outputs pure sine wave, and the resistive load outputUTHD is less than 2%; The RC and RL load output UTHD is less than 3%: The RCD loadoutput UTHD is less than 5%.
The reference design is a peak 5KW AC/DC solution for capacitiveload, with input range 90264Vac and output OV-700V/7A.Interleaved parallel PFC and phase-shift full bridge DC/DC weredesigned to adapt to the wide output voltage range of 0-700V. Tomeet the design spec of high capacitive load, the current loop soft-start was optimized and CC & CV dual control loop was designed toensure the system reliability
The project is 3.3kW interleaved PFC, with input 176Vac~264Vac andoutput 400Vdc/8.5A. The 180interleaved operation significantlyreduces high frequency ripple current on the input DC BUS and theoutput capacitor; Switch frequency is set as 65KHz; Peak efficiency iup to 98.4% and PF exceeds 0.99 at full load and full input voltagerange. lt's a excellent DEMO for air conditioning, OBC and AC/DCconverter
This project is 6KW three channels interleaved parallel PFC, withinput range 176Vac~264Vac, rated output 390Vdc/15.4A. The 3channels 120°interleaved operation significantly reduces highfrequency ripple current on the input DC BUS and the outputcapacitor; Switch frequency is set as 60KHz; Peak efficiency is up to97.6%.
This solution is a three phase six switch PFC design, supporting bi-directional energy flow; PIM IGBT module is sellected to get smallervolume and higher power density: TI DSP is designed to accomplish7-segment SVPWM three-phase PFC control, reducing the switchingloss, and the system efficiency is higher than 97%%. The power factorunder the rated load is up to 0.999, and iTHD is smaller than 2%.