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Noise & Distortion in Microwave Systems
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Noise: -> Small Signal
Signal-to-Noise (S/N) Bit Error Rates (BER) Dynamic Range Minimum Detectable Signal Level Distortion:-> Large Signal (Nonlinear Systems) Mixer & Amplifier Thermal(热) Noise by Components & Devices Atmosphere and Interstellar(星际的) Radiation Man-made Interference External Environment Internal Circuit Noise : Random Process!
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实际放大器的动态范围
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1 Thermal Noise Random motion of charge carriers
Passive circuit element contains Loss Atmospheric attenuation & Interstellar Background Radiation Shot(散粒) Noise Random motion of charge carriers in Electron tubes & solid-state devices Flicker (闪烁)Noise(1/f Noise) In Solid-state & Vacuum(真空) tube Quantum(量子) Noise In quantized nature of charge carriers & photons(光子) Plasma(等离子体) Noise In ionized(电离的) gas or sparking electrical contacts(火花放电)
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Noise Voltage and Power of Resistor R
R: Resistor at T: Temperature R Mean Value RMS(均方根) Value Available Noise Power: Maximum Power can be delivered from Noise Source to load Two-side Power Spectral Density of thermal noise -B +B
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白噪声源用一个等效噪声温度来表征,Te表征元件或系统,B是元件或系统的带宽
理想带通滤波器 2 Noise Temperature & Noise Figure Equivalent Noise Temperature: 任意 白噪声源用一个等效噪声温度来表征,Te表征元件或系统,B是元件或系统的带宽
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Noisy Amplifier Noiseless Amplifier
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Direct measurement: difficult to measure small level of noise
Measurement of Te: Direct measurement: difficult to measure small level of noise Y-factor Method: T1 (hot) N1 G,B,T T2 (cold) N2
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例1. X波段放大器有增益20dB和1GHz带宽,其等效噪声温度通过Y因子法测量,得到:对于T1=290K,有N1=-62dBm;对于T2=77K,有N2=-64.7dBm。确定该放大器的等效噪声温度。若该放大器使用等效噪声温度Ts=450K的源,其输出功率为多少dBm?
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Noise Figure G B Te
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Noise Figure of a Lossy Line
:For Thermodynamic Equilibrium (热平衡方程)
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Noise Figure of Cascaded(级联) Components
Te1 G2 F2 Te2 G F Te
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例2.对图示的无线接收机前端,计算其总的噪声系数。假定从馈送天线来的输入噪声功率是Ni=kTAB,其中TA=150K;求输出噪声功率。假定要求接收机输出处的最小信噪比为20dB,问能加到接收机输入处的最小信号电压应为多少?设定系统在温度T0下,其特征阻抗50欧,中频带宽为10MHz。 Ff=1 dB
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3 Noise Figure of Passive Networks
For Thermodynamic Equilibrium
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Application to a Mismatched Lossy Line
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Application to a Wilkinson Power Divider
1. Terminate Port 3 with matched load If at room temperature If lossless & at room temperature
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4 Dynamic Range & Intermodulation Distortion(交调失真)
Nonlinear(引起非线性响应的原因): At very Low Power Level due to Noise Effects. At very High Power Level due to device nonlinearities Nonlinear Device DC output Linear output Squared(平方) output
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Gain Compression(增益压缩)
Nonlinear Device DC output Linear output
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Voltage Gain: 1 dB Compression Point: Pout(dBm) 1dB Output P1dB
Pin(dBm) Pout(dBm) 1 dB Compression Point: 1dB Output P1dB 1dB Compression Point Input P1dB
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Intermodulation Distortion
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IP3: Third-Order Intercept(截断) Point:
Where the first order and third order powers are equal Input IP3 Output IP3
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Dynamic Range Input P1dB Input IP3 Output P1dB Output IP3 Linear Dynamic Range ( DRl ) SFDR: Spurious-free Dynamic Range ( DRf ) 无杂散动态范围(寄生响应最小) Pout(dBm) 1dB DRl DRf Pin(dBm)
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Intercept(截断) Point of Cascaded Components
G1 IP3’ G2 IP3’’
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G1 IP3’ G2 IP3’’
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例3.图示为一低噪声放大器和混频器。放大器有增益20dB和3阶截断点22dBm(以输出作为参考),而混频器有6dB变换损耗和3阶截断点13dBm(以输入作为参考)。求该级联网络的截断点。
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5 Passive Intermodulation(无源交调 PIM)
Generated by passive nonlinear effects in any Metal-to-metal Contact: Cable(电缆), Connectors, Antenna, etc… Caused by Poor mechanical contact Oxidation(氧化) Junctions between Ferrous-based(铁基) metals Contamination(污染) of conducting surface at RF junctions Use of Nonlinear Material, such as Fiber composites(纤维复合物) or Ferromagnetic material(铁氧体材料) PIM only significant(明显) when HIGH Power Cellular Telephone BS Transmitter(蜂窝电话基站发射台) Pout=30-40 dBm , PIM < -125dBm
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