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ADS设计低噪声放大器
- 微波毫米波系统的设计,晶体管选用的是ne3210s01。 设计指标: 1.中心频率7.78G,通带120MHz 2.通带内增益达到16.2dB,波纹小于0.5dB 3.通带内的噪声系数小于0.5 4.通带内输入驻波比小于1.5,输出驻波比小于2 5.系统特性阻抗50Ω 6.微带线基板厚度0.508mm,相对介电常数3.66(The design of microwave and millimeter wave syst
MATLAB公式程序
- 应用于矩形微带天线尺寸长和宽的计算程序(Size of rectangular microstrip antenna)
Chebyshevcal
- 可以計算出帶通才比雪夫綠波所需的奇偶g值,通過計算軟體可以換算為所需微帶線寬度(G values can be calculated parity with generalist Chebyshev Green Wave desired by calculating the software can be converted to the desired width of the microstrip line)
HFSS 微带天线的设计与仿真实例模型
- 微带天线仿真模型,仿真了微带天线的HFSS模型。(Microstrip antenna simulation model)
HFSS中文教程-非常详细(pdf)1
- 压缩包包含十几个文件,包括介绍用户界面,创建参数模型,边界条件,激励,求解设置,数据处理,求解循环,网格,超高频探针天线,园波天线,同轴探针微带贴片天线等(The compression package contains more than a dozen files, including user interface, parameter model creation, boundary conditions, excitation,
阻抗控制計算-----Polar si9000
- 基于si9000的阻抗控制计算资料,各种类型的微带线阻抗控制计算工具和使用详解(Based on si9000 impedance control calculation data, various types of microstrip line impedance control calculation tools and detailed use)
泰勒线阵综合
- 串馈天线阵副瓣抑制20dB,泰勒加权函数,主要用于天线阵列优化。(Designing of Low-Side Lobe Series Fed Microstrip Arrays)
粒子群算法综合线阵低副瓣方向图
- 利用粒子群算法综合微带天线阵列方向图,可以自适应调节副瓣电平和波瓣宽度。(By using particle swarm optimization (PSO) to synthesize the pattern of microstrip antenna array, the sidelobe level and lobe width can be adjusted adaptively.)
天线
- # 矩形微带天线的仿真设计 ## 1 基础原理 ### 微带天线 微带天线(micro strip antenna)在一个薄介质基片上,一面附上金属薄层作为接地板,另一面用光刻腐蚀方法制成一定形状的金属贴片,利用微带线或同轴探针对贴片馈电构成的天线。(Simulation design of rectangular microstrip antenna ## 1 rationale Microstrip antenna On a
Patch
- 侧馈矩形微带天线仿真,工作频率是2.45GHz(Simulation of a side fed rectangular microstrip antenna with a working frequency of 2.45GHz)
HFSS 仿真2.4G微带天线阵列模型
- 矩形微带贴片天线,HFSS具体模型,2.4GHz处,有一个比较好的结果(The rectangular microstrip patch antenna, HFSS specific model, 2.4GHz, has a good result)