设计工程师资源库

您的电源系统没有通过传导EMI测试 — 现在该怎么办？

VITA 62 电源 270V_DC 输入 I²C™通讯

满足航空航天及国防产品的严格 SWaP-C 要求

电源设计的电气安全

为现代铁路应用设计电源系统

适用于电池应用的电源组件

Thermal Simulation for Cooler Power Systems

满足国防应用 DC-DC 电源系统需求

Maximum Load: The Wrong Specification for Pulsed Power

Simple Ideas to Make EMI Issues a Thing of the Past

Boosting performance in 48V power distribution

Enables quick and easy configuration of complete, high efficiency, compact, multi-output power systems. 

VITA 62 3U电源并联运行

SM-ChiP™ 回流焊建议

Recommendations for Maximum Compressive Force of Heat Sinks

Scalable, low weight DC-DC solution supports high capacitive loads in airborne radar

Multiple power supplies paralleled together provided 9kW high-output power

Separating the functions of a traditional DC converter improves the speed and accuracy for 3D printers

Remote radio units better distribute traffic while operating under fault conditions

Optimize battery charging and control motor start-up allows longer time in flight for inspection UAVs

Power sharing among converters simplifies remote upgrading of optical packet transport systems

A fanless power solution gives antenna array fast, reliable data coverage.

AC line input replaces an existing DC solution in an existing PBX system

Image stability for the gimbal system improves vehicle-mounted optical sights

Direct infrared countermeasure's optical circuitry runs cooler while meeting stringent EMI specs

High voltage bus converters significantly reduce installation costs for outdoor stadium lighting

Minimizing the weight, size and transmission losses due to heavy cabling gives tethered UAVs better performance

Bidirectional DC-DC converters conveniently transfer power between the grid and batteries in home energy storage

Automated test equipment’s speed and throughput improves with factorized power architecture

Industrial welding laser speed and accuracy improves using factorized power architecture

Slowed ramp-up process relieves stress of the power supply during startup in vehicle mounted advertising displays

Avionic equipment operates simultaneously from multiple power sources in extreme temps without fans

Handling a variety of user-defined output power requirements for medical carts

Low levels of conducted and radiated EMI enable detection of signals outside the aircraft in airborne electronic countermeasure

MIL-STD power components withstand mechanical stresses caused by vibration and acceleration in helicopter gearboxes

Pulsed energy demands of airborne infrared countermeasures are averaged out to avoid system interference

Power solution operates in extreme temperatures for LEDs to display brighter lights, longer

Powering high-tech 4K cameras overcomes size, weight and EMI requirements

PI358x-00-EVAL1 ZVS 稳压器 30 – 60V_IN ZVS 降压评估板用户指南

在并行DC-DC转换器阵列中减少不需要的输入拍频

ZVS 降压和升降压稳压器, 10 x 10mm和10 x 14mm LGA/BGA组件的装配指南

GQFN SiP 焊接建议

NBM2317 SM-ChiP™(非隔离母线转换器模块) 评估板用户指南

高电源效率通过以太网提供可靠的电源

高电源效率通过以太网提供可靠的电源

工业整流系统的新方案：固定比率母线转换器实现的高密度、高效率模块化架构

VIA™ 和 ChiP™ 模块的热管理

电源的重量减轻、尺寸缩小，可增加系留机器人的有效载荷

Conduction-cooling solution allows for truly portable network test equipment

The rugged environment for Bus Wi-Fi gets an efficient and reliable power

Powering high-tech 4K cameras overcomes size, weight and EMI requirements

Low-profile AC-DC solution allows distributed antenna system to run at high temps without fans

分布式天线系统的重新设计现通过以太网供电

Remote radio units better distribute traffic while operating under fault conditions

A fanless power solution gives antenna array fast, reliable data coverage.

100% reliable backhaul communications uses an array with a footprint of just 52.97 cm²

Explosive-proof camera images in variable lighting conditions become more clear, sharp and accurate with AC-DC solution

4G remote radio unit extends mobile signal coverage in remote areas

Industrial flow meters are more accurate while working over wider flow ranges

VI-200/VI-J00 和Maxi, Mini, Micro转换器的欠压／过压锁定

Lightweight and small-sized power solution for thermal imaging camera supports increasing power and complexity

More power supports more functionality in the same space used across different platforms in sub sonar systems

Dual-sided cooling of power supplies on vertically-mounted racks improves thermal performance for sub-combat control

Enhanced onboard satellite voice and data communications takes advantage of maximized power amplifier efficiency

Flexible power solution with different outputs allows for easily-upgraded flight simulators

Improved efficiency of the power supply allows high temp operation in RF signal intelligence

Maxi, Mini, Micro转换器：PR 引脚

专门为Micro, Mini, Maxi转换器、VI-200、MI-200、VI-J00、MI-J00 转换器系列创建高压输出

VITA 62增加了现有的机载电源所需的功率规格

Minimal distortion and power supply noise helps achieve maximum range in portable ground radar

Different power requirements are handled so that UAVs adapt to different required payloads

Supply voltage for the RF amplifier is well regulated during frequency-hopping, providing secure communication in portable radios

Power supply size reduction allows for additional medical diagnostic equipment functionality within the same footprint

5kW tethered UAVs fly higher and longer using increased voltage on the tether

Speed, precision, resolution and contrast of engraving lasers is improved using wide-input and output-range regulators

Enormous video wall display becomes feasible with a move to component-enabled, higher voltage bus

Powering a smart control upgrade minimizes wasted head in hydraulic pumps

Managing the heat of the power supply makes rail signaling more reliable

Separating the functions of a traditional DC converter improves the speed and accuracy for 3D printers

A third more power in just 20% of the space for vehicle GPS applications

Scalable power solution matches specific power levels for various machines in optical sorting

Different vehicle voltages is accommodated by one solution for digital video recorders

Fire alarm control unit uses DC-DC supply and battery backup while increasing functionality

Scalable power solutions allow marine instrumentation to keep precision while operating in extreme environments

Electronic Specifier: Package Prepares for AI Computing

EDN: Vicor Powers AI and Automotive

ECN: Requirements increase for smaller, high-performance power supplies and modules

A complete N+1 solution maintains uptime for network security AC-DC power supply

Scientific instrumentation gets twice the power without impacting the size of the equipment

Build Small, Lighter Power Systems by Eliminating Bulk Capacitance

用固定比率转换器重新定义功率传输架构

有源滤波器控制电磁干扰，节省PCB空间，增强气流

在噪声敏感、高瞬态应用中，通过实施有源滤波来降低负载电容

PI31xx-xx-EVAL1 ZVS 隔离 DC-DC 转换器评估板

PCB 安装 VIA 焊接指南

宽输入电压范围能够实现对电池的充分利用，从而扩大了无人机的航程

使用 niPOL 配置 Vicor IBC 转换器

使用PRM™设计高功率并行阵列

IBC™ 的筛选注意事项

MIL EMI 和瞬态解决方案

乘客座椅执行器的其它电子产品问题可使用更小、更轻的组件解决

免费网络研讨会: 高性能 PCB 布局和热设计

高性能电源转换研讨会，就在您身边的城市

迎接现代铁路的电源挑战

高性能 ZVS 降压稳压器消除 在宽输入范围负载点应用中 提高功率吞吐量的障碍

使用多个部件构建更智能的超宽 DC-DC 转换器解决方案

分比式电源架构：实现板载电源的高密度和高效率

电源系统设计：加速上市进程

介绍 Vicor 的 HV BCM 母线转换器

电源系统设计：使用 Vicor 电源系统设计工具节省时间

通过48V分布式电源架构解决汽车电气化挑战

Vicor 和 3M 公司演示液浸冷却技术的优势

高功率 LED 设计的挑战

改善DC-DC转换器的输出纹波

DC-DC 选择工具和 IBC 仿真工具

Gyoukou Supercomputer Leveraging 48V Factorized Power

How to Use the 24 V ZVS Buck Evaluation Board

ExaScaler and PEZY Computing unveil the first super computer

为什么电源设计要转为48V?

An Introduction to Vicor's ChiP Technology

Redundancy and Power Bus ORing

Output Voltage Trimming

An introduction to ZVS Buck Regulators

Thermal and mechanical considerations

An Introduction to Vicor's PRM® Modules

Paralleling DC-DC Converters

Power system architectures for higher voltage DC distribution

缺乏设计资源和技术导致难以 成功交付电源系统项目

一种更加简便高效的方法 让您的 LED 运行更加明亮，寿命更持久！

带稳压调节的功率平均设计方法：脉冲负载的理想供电方案

Designing military-grade, rapid-start power applications

设计永不失效的快速启动电源应用

规格的改变是电源设计人员 最大的挑战

如何避免电源系统设计的“隐形成本”

The PI33xx: Zero-Voltage Switching Applied to Buck Regulation

Leveraging Bus Converters in Regulated DC-DC Applications

Adjustable Latching Output Overcurrent Circuit

Constant Current Control for DC-DC Converters

Designing High-Power Arrays Using Maxi, Mini and Micro Family DC-DC Converters

Micro DC-DC Converter Family Isolated Remote Sense

Hot Swap Capability Eliminates Down Time

Achieving High Accuracy Voltage (or Current) Regulation with the DCM™ Up to ±1% Regulation

Creating Higher Voltage Outputs Using Series Connected Sine Amplitude Converters

PI31xx Product Family Reflow Soldering Guidelines

Using BCM^® Bus Converters in High Power Arrays

Using Modular DC-DC Converters to Meet European Standards for Railway Applications

Power Components Simplify 1kW Power Design

Meeting Transient Specifications for Electrical Systems in Military Vehicles

Surviving Load Dumps on Military Vehicles

RoHS-Compliant Through-Hole VI Chip^® Soldering Recommendations

Providing a Constant Current for Powering LEDs using the PRM™and VTM™

PRM™and VTM™Parallel Array Operation

Filter Network Design for VI Chip^® DC-DC Converter Modules

Accurate Point-of-Load Voltage Regulation using Simple Adaptive-Loop Feedback

FPA Printed Circuit Board Layout Guidelines

Current Share Boards

Single DCM™as an Isolated, Regulated DC-DC Converter

Through-Hole ChiP™ Package Soldering Guidelines

Fault-Management Circuit

Improving the Light Load Efficiency of a VI Chip^® Bus Converter Array

Thermal Considerations: Assuring Performance of the Vicor Maxi, Mini, Micro Series High-Density DC-DC Converter Modules

Dual-Stage Feedback Technique for Single-Pole Feedback Compensation

Designing a BCM^® Pre-Charge Circuit

VI Chip^® BCM^® Bus Converter Thermal Management

Wide Range Trimming with Variable Loads

High Efficiency Battery Charger using Power Components

Reverse-Mode Application of Sine Amplitude Converters

Thermal Models of Vicor Power Components

PFC Single Conversion Line Ripple Cancellation Using the Yeaman Topology

How Vicor Power Components Enable Power Averaging

DCM for Tethered UAV Applications

High-voltage DC distribution is key to increased system efficiency and renewable energy opportunities

Power Distribution Network Design for Automated Test Equipment

Distributing power to HEV/EV electrical systems with DCMs™

Why are Power Designs Moving to 48V?

Control of a Discontinuous-Conduction-Mode ZVS Buck-Boost Topology for Microprocessor Core Power

The Power Dilemma for the Next Generation of Automobiles

PI33xx-xx-EVAL1 & PI34xx-xx-EVAL1 ZVS Buck Regulator Evaluation Board

PI33xx‑2x‑EVAL1 ZVS Switching Regulators I²C™ Digital Interface

PI33xx-xx-EVAL1 ZVS Switching Regulators Multi-Phase

Constant-Current (CC) Evaluation Board

VI Chip^® VTM™ Evaluation Board

VI Chip^® BCM^® Evaluation Board

PRM-AL Customer Evaluation Boards

VI Chip^® Remote-Sense PRM™ Evaluation Board (For use with PCB part numbers 39537 and 38693)

Power System Designer User Guide

PMBus^® Interface and Accessories User Guide (For use with adapter part number I²C-ADAPTER-A02)

PI352x-0x-EVAL1 ZVS Switching Regulators 60V_IN Buck Customer Eval Board

PI3740-00-EVAL1, -EVAL2 ZVS Switching Regulators Buck-Boost Evaluation Board

VI Chip^® High-Voltage BCM^® Customer Evaluation Board

VI Chip^® PRM™ Evaluation Board

Full-chip PRM™-RS Customer Board

Half-Chip PRM-RS Customer Evaluation Board (For use with PCB part number 35307)

Analog Control 3623 and 4623 ChiP DCMs™Evaluation Board

PMBus^® 2361 and 6123 ChiP™ BCM^® Bus Converter Evaluation Board

Analog HV and LV 6123 ChiP™ BCM^® Bus Converter Evaluation Board

PI3749-x0-EVAL1 ZVS Switching Regulators Buck-Boost Evaluation Board

PI354X-00 Evaluation Board 36V to 60V_IN, 2.5, 3.3, 5.0 and 12V_OUT Buck Regulator & LED Driver

PI3741-0x-EVAL1 ZVS Switching Regulators Buck-Boost Evaluation Board

NBM6123 ChiP™Analog Low-Voltage Non-Isolated Bus Converter Module Evaluation Board

Development Kit User Guide

100% reliable backhaul communications uses an array with a footprint of just 52.97 cm²

HV ChiP BCM^® Reverse Start Up Circuit

Use of Circuit Models in Thermal Calculations

Soldering Methods and Procedures for Vicor Power Modules

Parallel DCMs™

SMT J-Lead VI Chip^® Soldering Recommendations

PI3325-00-EVAL1 ZVS Switching Regulators 60V_IN Buck Customer Eval Board User Guide

Offline Power Supply using the FARM AC Front-End Module