https://www.youtube.com/watch?v=lYFSID1ZxBI
This video employs a BFP405 transistor model which was readily available in AWR v11. If you can't find this model in newer versions, please download this sim

https://www.youtube.com/watch?v=RSOii43aKvs
Impedance matching. Impedance Smith Chart. Resistance and reactance. Series capacitors and series inductors.You may download the "Conquer Radio Frequency" e

https://www.youtube.com/watch?v=cWo3Cd5KbUE
Content:Operating Gain Circles Part 1.Writing 2-port S-parameter files (.s2p) and using them for amplifier design. Amplifier design for a specific gain with

https://resources.system-analysis.cadence.com/i/1326562-conquer-radio-frequency/221
CHAPTER 5 - Amplifier Design 216 5.3.3.2 Simultaneous Conjugate Match Our unilateral matching video tutorial (video 5.5), shows the limitations of the unilateral matching technique and highlights the fact that, due to the inaccuracies introduced by an S12 parameter which is not negligible, we may end up having to go through several iterations before we can achieve the desired specifications.

https://resources.system-analysis.cadence.com/i/1326562-conquer-radio-frequency/226
5.5 Video Tutorials 221 5.5 Unilateral Match. Improving gain through independent matching of transistor's input and output. Design of distributed matching networks for amplifiers. Constant VSWR and circles in MWO. Limitations of unilateral approach when S 12 is not negligible and effects on input and output reflection coefficients.

https://resources.system-analysis.cadence.com/i/1326562-conquer-radio-frequency/167
CHAPTER 4 - Impedance Matching 162 Figure 4.2-17 Measuring power transfer when L-C resonator is present between source and load Figure 4.2-18 Frequency response of L-C series resonator circuit As is to be expected, maximum power transfer between source and load is achieved at the resonant frequency (Figure 4.2-18). Video 4.1 illustrates the

https://www.youtube.com/watch?v=hk8ZvQV9IB8
The video tutorial uses MWO to show the effect that the various parameters of a microstrip transmission line have on its characteristic impedance.You may do

https://electronics.howstuffworks.com/radio-spectrum1.htm
Radio Frequency List. Common radio frequency bands include the following: AM radio: 535 kilohertz to 1.7 megahertz. Shortwave radio: bands from 5.95 megahertz to 26.10 megahertz. Citizens band (CB) radio: 26.965 megahertz to 27.405 megahertz. Television stations: 54 to 88 megahertz for channels 2 through 6. FM radio: 88 megahertz to 108 megahertz.

https://resources.system-analysis.cadence.com/i/1326562-conquer-radio-frequency/166
This is true only at the one frequency that we are operating at (1000 MHz). As shown in Figure 4.2-16, current and voltage are in phase, as they would be if no reactive elements were present. Figure 4.2-16 R-L-C at resonance, | | | | This is a very useful property of R-L-C circuits which is called resonance.

https://en.wikipedia.org/wiki/List_of_channel_numbers_assigned_to_FM_frequencies_in_North_America
In the Americas (defined as International Telecommunication Union (ITU) region 2), the FM broadcast band consists of 101 channels, each 200 kHz wide, in the frequency range from 87.8 to 108.0 MHz, with "center frequencies" running from 87.9 MHz to 107.9 MHz. For most purposes an FM station is associated with its center frequency. However, each FM frequency has also been assigned a channel

https://vdocuments.mx/conquer-radio-frequency-conquer-radio-frequency-by-dr-francesco-fornetti-what.html
Conquer Radio Frequency By Dr Francesco Fornetti What the material covers This material, which includes a full-colour textbook and over 12 hours of video tutorials, provides a comprehensive guide for the RF and Microwave engineering student or junior professional. It allows the reader to achieve a good understanding of the foundation theory and concepts behind high frequency circuits as well

https://wiki.batc.org.uk/5.6_GHz
5.6 GHz. It is very easy (and low cost) to get on the air on 5.6GHz (the 6 cm amateur band), using the cheap modules intended to transmit "First Person Video" (FPV) back from drones to their operators. These units can be used without any modifications to get on air, and with simple WiFi plate or dish antennas (and a clear line of sight path

https://www.youtube.com/watch?v=n7ElVvKHehc
Note: In newer versions of AWR, the BFP640 Model may be found under "Infineon" - "Data" - "RF Bipolar Transistors" - "Ultra Low Noise SiGe:C BJT up to 12 GHz

https://resources.system-analysis.cadence.com/i/1326562-conquer-radio-frequency/178
Although in both of these cases we have two reactive elements, their reactance or susceptance will be the same at the resonant frequency! For the series resonant circuit shown in Figure 4.2-37 Figure 4.2-37 Series RLC resonator We may therefore write Where is the series resistance, is the reactance of the series inductor and is the reactance of

https://en.wikipedia.org/wiki/5-centimeter_band
The 5-centimeter or 5 GHz band is a portion of the SHF radio spectrum internationally allocated to amateur radio and amateur satellite use on a secondary basis. In ITU regions 1 and 3, the amateur radio band is between 5,650 MHz and 5,850 MHz. In ITU region 2, the amateur radio band is between 5,650 MHz and 5,925 MHz. The amateur satellite service is allocated 5,830 to 5,850 MHz, for down

https://www.youtube.com/watch?v=wb_zGILety8
-Two-port networks. -Comparison of different topologies of matching networks including return loss (S11) vs frequency and insertion loss (S21) vs frequency.

https://resources.system-analysis.cadence.com/i/1326562-conquer-radio-frequency/161
CHAPTER 4 - Impedance Matching 156 4.2.2 Impedance & Series Elements As explained in section 1.5.5, complex numbers, which are used to represent the impedance of an electrical network, give us two main bits of information: - the ratio of the amplitude of the voltage across the impedance and the amplitude of the current through it - the difference between the phase of the voltage waveform and

https://www.data-alliance.net/antennas-5ghz/
The 5GHz frequency band is an unlicensed ISM spectrum commonly used as an alternative to the higher frequency 2.4GHz frequency. This band comprises of 4 RF bands; 5.1, 5.3, 5.4 and 5.8GHz, resulting in 24 non-overlapping channels separated by 20MHz. The channels can potentially be used on a single wireless system without the risk of interference.

https://www.youtube.com/watch?v=yxumxQ_2blY
This video employs a BFP405 transistor model which was readily available in AWR v11. If you can't find this model in newer versions, please download this sim

https://www.youtube.com/watch?v=j-M3_XrYMlM
-Relationship between admittance and reflection coefficient.-Normalising conductance Yo and its relationship to measurement ports.-Admittance Smith chart.-Co

https://resources.system-analysis.cadence.com/i/1326562-conquer-radio-frequency/173
CHAPTER 4 - Impedance Matching 168 Figure 4.2-26 Parallel L-C resonator between source and load impedances Figure 4.2-27 Frequency response of parallel L-C resonator

https://www.youtube.com/watch?v=DOSOL-reP0g
This video demonstrates how to set up simulations to measure and display the reflection coefficient for a simple circuit of the type shown in the video thumb

https://www.youtube.com/watch?v=HWwQebEO5gY
This animation shows Euler's formula for sine, eq.(1.5-11)(b), from a graphical view point. It shows how two vectors rotating around in the complex plane may