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1. Connect the circuit illustrated in Figure.
2. Calculate the lomat acceptable propagation frequency for a C.Band waveguide. Note your results in the Data section of this experiment Select the frequency of the AC source = 4.9 Gliz.
3. Double-click the sample waveguide. Choose EDIT MODEL. Change the SPICE parameters so that LEN = 4.039 e-002.
4. Double-click the Oscilloscope to view its display. Set timebase to 0.2 its/Div and Channel A = I V/Div. Run the simulation and observe the output waveform. Measure the frequency to verify that the expected signal was propagated by the simulated wavcguide. Note your results.
5. Select a frequency of 7.05 Gliz for the AC voltage source. Run the simulation again and note your results. Verify that the expected signal NNW propagated by the simulated uaveguide. Run the simulation again and note your results.
6. Calculate the characteristic impedance for the C Band uaveguide.
For the purposes of this experiment, we will assume this anti-alias filtering is to be done using a recursive low pass filter derived from the Butterworth analogue prototype (using the bilinear transformation).
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Utilizing the BJT high-frequency, hybrid-π model with rx = 0 and ro =∞, derive an expression for Zi(s) as a function of re and Cπ . Find the frequency at which the impedance has a phase angle of 45° for the case in which the BJT has fT= 400 MHz an..
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Calculate the present equivalent value of the machine and the contribution to the cost of processing the material, per kg, resulting from the capital cost of the machine.
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A particular transistor having a thermal resistance Θja = 2.5°C/W is operating at an ambient temperature of 30°C with a collector-emitter voltage of 20 V. If long life requires a maximum junction temperature of 130°C, what is the corresponding dev..
Write a report on environmental companies
Pile Foundations Part two of the project requires the students to prepare a comparative study of the use of replacement pile foundations versus displacement techniques.
Water discharges at a rate of 5L/s through a nozzle. The jet, 25 mm in diameter, strikes a flat plate held perpendicular to its line of flow. Determine the magnitude of the force on the plate
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