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Rf Circuits, kindly solve it using RF circuits
techniques.
Question # 2: Design a low-pass, third-order, maximally flat filter using only series stubs. The cutoff frequency is 6 GHz and the impedance is 50. Draw the diagram of the implemented filter
Solve it and show the work for each circuits
11. Determine the total resistance of the circuit illustrated to the right using the reciprocal formula introduced in class R1 2.2k03.3k0 R2 15 V 12. Construct the circuit illustrated to the right and, with the source 13. Use the total resistance to calculate the total circuit current. 14. Connect the source to the circuit and measure the total circuit current. 15. Determine the percent deviation of the resistance and current. 16....
Use the concepts of magnetic circuits to solve the following problem. Some additional details: To find the force, we need the magnetic field in the gap. The magnetic circuit gives you flux, p, and we assume B:φ A. Then F-1/2 AB2/μο where A is the cross sectional area. Question 4: Each segment in the magnetic circuit has a mean length I, a uniform cross-section A, and a relative permeability r. The plunger moves inside a non-magnetic sleeve (H 1) of...
In circuit analysis, the mesh current method is used to solve for currents in planar circuits. To solve for the currents, you might produce a set of linear equations such as: 30i1 – 25 + 5(iz – iz) + 10(ių – iz) – 90 = 0 2i2 – 96 + 5(iz - i1) + 4(iz – iz) +93 = 0 20iz + 4 + 4(iz – iz) + 10(i3 – 11) = 0 Rewrite these equations as a matrix equation...
please solve a and b
2.39 Evaluate Reg for each of the circuits shown in Fig. 2.103. 6 ΚΩ ΑΛΛΑ 2 ΚΩ 4 ΚΩ ΚΩ ΛΑ 12 ΚΩ - Μν O 2 ΚΩΣ <ΙΚΩ 12 ΚΩ ΜΑ
its related to RF Circuits, kindly solve all the parts as it
is a one question.
Question # 3: A cellular telephone receiver front-end circuit is shown below. The operating frequency is 1805-1880 MHz, and the physical temperature of the system is 300 K. A noise source with Ni = -95 dBm is applied to the receiver input. Transmission le Amplifier L=1.5B G= 12 dB T = 150K a) What is the equivalent noise temperature of the source over the...
Please solve it
clearly
2. For each of the following digital circuits, write the logic expression that describes the output in terms of the inputs. There is no need to simplify the logic expressions. (8 points) c D D D A B E Solution A(C+ D) + BE F W X D Solution: Q=(W+X)(Y o Z)
This is a Diode constant voltage model - clipping
circuits
Please explain steps as you solve. Thank you very much for
your help. please ask if there is anything not clear about the
problem
W (a) For the circuit shown below use the constant voltage diode model (Vp=0.7 V), and find the state of diodes D, and D2 (ie. ON or OFF) and determine the voltage and the current for each. 32k2 OV 5 mA 103=_ ; VD3= 104= ;...
Problem #3: a) Formulate node voltage equations for the circuits in figure 3, b) Solve for Ys when R1 = R4-1 kQ. R2 = R3 = 250Ω, Rx = 500Ω, Vs= 15V R2 Figure.3
1. (20 points) For the 2 following circuits solve for the labeled current I and voltage V. Use the constant- voltage-drop diode model (VD-0.7V). +5V +5V 10k2 -5V -5V