In the field of electronic engineering, PCB (printed circuit board) planar inductors play a crucial role in the development of high-frequency and high-speed electronic systems. They are widely used for filtering, impedance matching, and signal transmission in various electronic devices. The integration of planar inductors onto PCBs offers significant advantages in terms of space-saving, cost efficiency, and improved electrical performance. These inductors are designed to provide stable and reliable performance in compact electronic assemblies, making them essential components in modern electronics. Utilizing innovative PCB design techniques, planar inductors can be seamlessly integrated into the circuit layout, optimizing the overall performance of the electronic system. With their versatility and effectiveness, PCB planar inductors continue to drive advancements in electronic design and enable the development of cutting-edge technologies.
PCB平面电感,PCB planar inductor
1)PCB planar inductorPCB平面电感
2)PCB planarPCB平面
1.A large part of this paper is an analysis of the using of Method Of Moment in PCB wideband planar loaded antenna on the basis of a wideband antenna inPCB planar structure.基于PCB平面结构宽带天线,通过推导满足天线边界条件的电流积分方程,利用矩量法对PCB宽带加载天线进行了计算分析,在对计算结果分析的基础上,初步制作了单极和双极PCB加载天线。
3)Plane PCB平面PCB
4)planar inductor平面电感
1.Planar magnetic technology, includingplanar inductor, planar transformer and integration of magnetic component and capacitor, is reviewed.本文重点介绍近年来平面磁技术的发展概况 ,包括平面电感、平面变压器、磁元件和电容集成等技
英文短句/例句
1.Research of High Q RF-MEMS Planar Inductor;高Q值RF-MEMS平面电感的研究
2.Near-field eddy currents in small planar inductance coils微小平面电感线圈近场涡流效应模型
3.Mathematic model and experimental test for near-filed eddy current of small planar inductance coil微小平面电感线圈近场涡流效应的计算模型与实验验证
4.Design and Applications of CMOS Spiral Inductors;CMOS平面螺旋电感的设计及其应用
5.Design and Calculation of Electro-magnetic Inductor used on Magnetic Abrasive Machining for Surface Grinding;平面磁力研磨电磁感应器的设计计算
6.Study on property of planar spiral structure microinductor with magnetic core平面磁芯螺旋结构微电感的性能研究
7.Study on Planar Array Pressure Gauge Prepared by Piezoelectric Ceramics基于压电陶瓷的平面阵列式压力传感器研究
8.Numerical solutions of a mathematical model for a single planar capacitance sensor单一平面电容传感器数学模型的数值解法
9.Planar spiral inductor is the most important passive component of CMOS RF integrated circuit design.平面螺旋电感是射频电路设计中最重要的无源元件。
10.Scalable Compact Circuit Model for Differential Spiral Inductors Based on RF CMOS Technology;基于RF CMOS工艺的平面螺旋差分电感的参数化等效电路模型
11.Study on the Electromagnetic Radiation of Planar Spiral Inductors Based on Wavelet-Mom基于小波矩量法的平面螺旋电感的电磁辐射研究
12.plane-parallel magnetron平行平面电极磁控管
13.Research of Low Power Inductively-Coupled Microwave Plasma Source Based on Planar Microstrip;小功率平面微带电感耦合微波等离子体源的研究
14.Research of Planar Microstrip Spiral Inductively-Coupled Low-Power Microwave Plasma Source;小功率平面微带螺旋电感耦合微波等离子体源的研究
15.Study on Low Power Inductively-Coupled Microwave Plasma Source Based on Planar Spiral Microstrip小功率平面螺旋电感耦合微波等离子体源的研究
16.Analysis and Design of Planar Hollow Coil Current Transformer Based on PCB基于PCB的平面型空心线圈电流互感器性能分析及设计
17.test of pavement irregularity sensitivity路面不平敏感性试验
18.flushmounted pressure transducer同平面装配压力传感器
相关短句/例句
PCB planarPCB平面
1.A large part of this paper is an analysis of the using of Method Of Moment in PCB wideband planar loaded antenna on the basis of a wideband antenna inPCB planar structure.基于PCB平面结构宽带天线,通过推导满足天线边界条件的电流积分方程,利用矩量法对PCB宽带加载天线进行了计算分析,在对计算结果分析的基础上,初步制作了单极和双极PCB加载天线。
3)Plane PCB平面PCB
4)planar inductor平面电感
1.Planar magnetic technology, includingplanar inductor, planar transformer and integration of magnetic component and capacitor, is reviewed.本文重点介绍近年来平面磁技术的发展概况 ,包括平面电感、平面变压器、磁元件和电容集成等技
5)coreless printed circuits board inductor无芯PCB电感器
6)PCB current transformerPCB电流互感器
1.The structure principle and characteristics ofPCB current transformer are analyzed.提出了一种以PCB电流互感器为基础的新型微机线路保护装置的设计方案,分析了PCB电流互感器的结构原理及特点,在此基础上设计了数据采集接口,整套系统采用双CPU结构,同时配合CPLD实现接口电路的扩展、时序控制以及地址译码。
延伸阅读
PC 聚碳酸酯(双酚A型)化学名称2,2-双(4-羟基苯基)丙烷聚碳酸酯,是由酯交换法和光气化法制得。平均分子量3.57×104。无定形透明颗粒.无味、天臭、无毒。相对密度1.20-1.43。没有明显熔点,220-230℃呈熔融状态。透光率高,吸水性低,耐冲击,韧性好.蠕变小,制品尺寸稳定。耐热性和耐寒性较好.玻璃化温度149-150℃.热变形温度135℃(1.82MPa)、分解温度>310 ℃,脆性温度-l00 ℃,使用温度-100~120 ℃。耐稀酸、耐油、不耐碱。溶于二氯甲烷、二氯乙烷、氯仿、三氯乙烯、四氯乙烷、四氢呋喃、三甲酚、磷酸三甲酯等。疲劳强度较低,容易产生应力开裂。具有优良的高温电性能,具有耐燃自熄性。拉伸强度 >60MPa, 伸长率>60%,弯曲强度>95MPa。
