Design a broadband matching network between a resistive source and inductive load using optimization with direct search methods.
Use the RF Toolbox to determine the input and output matching networks that maximize power delivered to a 50-Ohm load and system. Designing input and output matching networks is an important
Verify the design of input and output matching networks for a Low Noise Amplifier (LNA) by plotting its gain and noise.
Design broadband matching networks for a low noise amplifier (LNA). In an RF receiver front end, the LNA is commonly found immediately after the antenna or after the first bandpass filter
Create and use RF Toolbox™ circuit objects. In this example, you create three circuit (rfckt) objects: two transmission lines and an amplifier. You visualize the amplifier data using RF
Compute the time-domain response of a simple bandpass filter:
Build and simulate an RC tree circuit using the RF Toolbox.
Design a double tuning L-section matching network between a resistive source and capacitive load in the form of a small monopole. The L-section consists of two inductors. The network