Huaxuan Yang Electronics: Optimization and Performance Improvement of Power Devices Applied in PoE Communication Equipment
Optimization and performance improvement of power devices applied in PoE communication devices Over Ethernet (PoE) technology, as an important innovation, provides a convenient and efficient power supply for our devices. This article will focus on the key power devices in PoE communication devices, namely MOS transistors, TVS transistors, and rectifier bridges, and explore how they work together to achieve excellent performance and stable operation.
1. Selection and optimization of MOSFETsIn PoE devices, MOSFETs play an important role in regulating power switches. Reasonable selection and optimization of MOSFET driver circuits are crucial for overall performance. Firstly, we need to consider the conduction resistance, leakage current, and conduction loss of MOSFETs. By using MOSFETs with low resistance and low leakage current, power loss can be reduced and system efficiency can be improved. In addition, optimizing the driving circuit parameters appropriately, such as power supply voltage and pulse width, can also effectively improve the performance of MOSFETs.
2. The protective effect of TVS tubesThe Transient Voltage Suppressor (TVS) tube plays an important role in overvoltage protection in PoE equipment. In actual operation, devices may be affected by voltage surges or sudden noise from the network. By selecting the parameters and configuration of TVS tubes reasonably, the equipment can be protected from the damage of these sudden voltages. This is of great significance for improving the reliability of equipment and extending its service life.
3. Efficiency and stability of rectifier bridgesIn PoE devices, the rectifier bridge is responsible for converting AC power to DC power. To improve overall efficiency, we can optimize the bridge arm material and structure of the rectifier bridge to reduce conduction and switching losses. Meanwhile, designing the transition current and reverse recovery time of the rectifier bridge reasonably can help improve the stability and response speed of the equipment.
In PoE communication devices, the collaborative work between MOS transistors, TVS transistors, and rectifier bridges is crucial. Through reasonable matching and coordination, we can achieve the best power conversion effect, ensuring that the equipment can perform well under various working conditions. Meanwhile, by utilizing advanced manufacturing processes and materials, we can continuously improve the performance of these power devices, providing stronger support for the stability and reliability of the entire PoE system.
- |
- +1 赞 0
- 收藏
- 评论 0
本文由Vicky转载自HUA XUAN YANG ELECTRONIC News,原文标题为:Huaxuan Yang Electronics: Optimization and Performance Improvement of Power Devices Applied in PoE Communication Equipment,本站所有转载文章系出于传递更多信息之目的,且明确注明来源,不希望被转载的媒体或个人可与我们联系,我们将立即进行删除处理。
相关研发服务和供应服务
相关推荐
华轩阳电子(MOSFET在微型光伏逆变器中的应用,能够有效降低光伏逆变器的功率损耗
在小功率应用中,如消费类电子产品、移动充电设备等,光伏逆变器不仅需要高效转换太阳能,还需要保持小巧轻便,以适应多样化的使用场景。在这一背景下,功率半导体分立器件MOSFET的选择变得至关重要。
HXY MOSFET Provides A Power Device Solution for LED Backlit LCD TVs
HXY MOSFET provides a power device solution for LED backlit LCD TVs. This article will delve into how to inject powerful energy into LED backlit LCD TVs through carefully designed power device solutions, opening a new chapter in the visual feast.
华轩阳电子PFC、充电MOSFET等产品用于UPS不间断电源解决方案,满足功率因数校正、整流、辅助供电和升压等多方需求
华轩阳电子是一家专业生产和销售各种功率器件的企业,我们拥有多年的研发经验和先进的生产工艺,我们的产品涵盖了PFC和充电MOSFET、整流用的快恢复二极管、辅助供电的线性稳压IC、以及升压MOSFET等,我们可以为您提供全套的功率器件解决方案,满足您在UPS不间断电源设计和开发中的各种需求。
华轩阳电子MOS选型表
华轩阳电子MOS选型表包括P型场效应晶体管、N型场效应晶体管、P+P型场效应晶体管、N+N型场效应晶体管、N+P型场效应晶体管五种类型,主要有以下选型参数:VDSS耐压(V)18~650V;ID电流(A)0.1A~400A;RDS电阻(mΩ)@4.5V MAX)2.4~14000mΩ;应用等级均为民用级。
产品型号
|
品类
|
类型
|
VDSS耐压(V)
|
ID电流(A)
|
RDS电阻(mΩ)@4.5V MAX)
|
RDON(mR)
|
封装
|
应用等级
|
HXY2301AI
|
P型场效应晶体管
|
P沟道
|
20V
|
3A
|
87mΩ
|
25mR
|
SOT-23
|
民用级
|
选型表 - 华轩阳电子 立即选型
MOSFET and IGBT Working Principle and Structure
If the application is low voltage and high frequency, requiring fast switching and small switching losses, MOSFETs can be chosen. If the application is high voltage and low frequency and requires a smaller conduction resistance and greater resistance to breakdown, IGBT can be chosen.
HXYG120N15P N-SGT增强型MOSFET
描述- 该资料介绍了华轩阳电子有限公司生产的HXYG120N15P N-SGT增强型MOSFET。这款器件采用先进的SGT MOSFET技术,具有低RDS(ON)、低栅极电荷、快速开关和优异的雪崩特性。适用于消费电子产品电源、电机控制、同步整流隔离直流应用等领域。
型号- HXYG120N15P
BSC0702LS N-SGT增强型MOSFET
描述- 该资料介绍了BSC0702LS增强型MOSFET的特性及应用。它采用先进的SGT MOSFET技术,具有低RDS(ON)、低栅极电荷、快速开关和优异的雪崩特性。适用于消费电子电源、电机控制、同步整流等应用。
型号- BSC0702LS
AO4459 P-沟道增强型MOSFET
描述- AO4459是一款采用先进沟槽技术的P-Channel增强型MOSFET,具有低导通电阻、低栅极电荷和低栅极电压(最低可达2.5V)的特点。该器件适用于电池保护和开关应用。
型号- AO4459
HXYG75N10NF N-SGT增强型MOSFET
描述- 该资料介绍了HXYG75N10NF增强型MOSFET的特性、电气参数和应用领域。这款器件采用先进的SGT技术,具有低RDS(ON)、低栅极电荷、快速开关和优异的雪崩特性。适用于消费电子电源、电机控制、同步整流等应用。
型号- HXYG75N10NF
【经验】选择性价比高、寿命长、可靠性强、稳定性高、契合度高的MOSFET时需要考虑的5大参数因素
选择一个性价比高、寿命长、可靠性强、稳定性高、契合度高的MOSFET时,需要考虑以上几个因素和参数,并且需要确保导通电阻RDS(on)符合需求。只有在这些因素和参数都满足的情况下,才能选出最适合电路的MOSFET。为了确保电路的稳定性和可靠性,我们建议在选择MOSFET时,不要妥协任何一个因素或参数,而是要注重整体性能。
HNG7282 N-SGT增强型MOSFET
描述- 该资料介绍了华为阳电子有限公司生产的HNG7282型号N沟道增强型MOSFET。这款器件采用先进的SGT MOSFET技术,具有低RDS(ON)、低栅极电荷、快速开关和优异的雪崩特性。它特别设计以提高鲁棒性,适用于消费电子产品电源、电机控制、同步整流和隔离直流等应用。
型号- HNG7282
【技术】MOSFET和IGBT区别及应用范围介绍
MOSFET和IGBT在不同的应用场合有着各自的优缺点。如果应用场合是低压高频的,需要快速开关和较小的开关损耗,可以选择MOSFET;如果应用场合是高压低频的,需要较小的导通电阻和较大的抗击穿能力,可以选择IGBT。
AO4485 P-沟道增强型MOSFET
描述- AO4485是一款采用先进沟槽技术的P-Channel增强型MOSFET,具有优异的RDS(ON)、低栅极电荷和2.5V的低栅极电压操作能力。该器件适用于电池保护或其他开关应用。
型号- AO4485
HI6301 P-沟道增强型MOSFET
描述- 该资料介绍了华为扬电子有限公司生产的HI6301型P沟道增强型MOSFET。该器件采用先进的槽技术,提供优异的RDS(ON),适用于负载开关或PWM应用。
型号- HI6301
HXY MOSFET为LED背光液晶电视提供功率器件解决方案
本文介绍了华轩阳电子对于LED背光液晶电视产品提供的功率器件解决方案,其中分别介绍了其MOS管,肖特基二极管,整流桥产品以及项目项目应用的型号
电子商城
品牌:硕凯电子
品类:Surface Mount Transient Voltage Suppressors
价格:¥0.1950
现货: 40,650
现货市场
服务
定制液冷板尺寸5mm*5mm~3m*1.8m,厚度2mm-100mm,单相液冷板散热能力最高300W/cm²。
最小起订量: 1片 提交需求>
登录 | 立即注册
提交评论