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是德科技:2023如何使用信号分析仪测量 D 频段噪声系数白皮书(中译版)(20页).pdf

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1、APPLICATION NOTE How to Make D-band Noise Figure Measurement with Signal Analyzer 2 Table of Contents Introduction.3 Configuring Noise Figure Measurement System.8 Making Noise Figure Measurement.14 Conclusion.19 Related Literature and Additional Resources.20 3 Introduction In the early 6G research,n

2、ew sub-THz frequency bands have been explored especially the D-band(110-170 GHz)for early research prototyping and system performance validation.For those early prototype systems,Noise Figure as one fundamental RF parameter would always be required to measure and characterize the performance of the

3、whole system.Noise Figure is essential to verify new designs and demonstrate the device under test(DUT)meets specifications.A new Noise Figure measurement solution in D-band is introduced consisting of Keysight X-Series Signal Analyzer with N9069EM0E Noise Figure Measurement Application,VDI System D

4、ownconverter and Noise Source,and Keysight Microwave Signal Generator as Local Oscillator(LO).Figure 1.Noise figure measurement solution in D-band In the above D-band Noise Figure Measurement Solution,the DUT works in D-band with a frequency range from 110 GHz to 170 GHz.The Noise Source is used to

5、provide broadband noise into the DUT input with pre-calibrated Excess Noise Ratio(ENR)values.The System Downconverter is used to convert the input D-band frequency from the DUT output to a fixed IF frequency.The Signal Analyzer with N9069EM0E Noise Figure Measurement Application uses the Y-factor me

6、thod to calculate the noise figure of the DUT.The noise figure measurement system shown in Figure 1 can be seen as a two-stage system as illustrated in Figure 2.Stage 1 is DUT,and Stage 2 is Equivalent NF Instrument,that is,the system downconverter plus the signal analyzer shown in Figure 1.Figure 2

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本文主要介绍了如何使用信号分析仪进行D-带噪声系数(Noise Figure)的测量。主要内容包括: 1. 介绍了D-带噪声系数测量的重要性,以及使用的测量系统,包括信号分析仪、噪声源、系统下变频器和微波信号发生器。 2. 详细介绍了如何配置测量系统,包括系统下变频器的设置、外部本振的控制、噪声源的ENR数据加载等。 3. 提供了两个噪声系数测量的实例,分别针对不同频率范围的低噪声放大器(LNA),展示了如何进行校准和测量,并得到了与器件规格相符的测量结果。 4. 结论部分强调了该测量系统的准确性和易用性,能够覆盖D-带全频段,无需额外的滤波器和外部低噪声放大器,即可进行高精度的噪声系数测量。
如何进行D带噪声系数测量? 如何选择合适的IF频率? 如何配置噪声系数测量系统?
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