If the two ports presented in the figure have the values of the parameters y11 = 10, y21 = 50 and y22 = 20, all in mS, determinat V1 and V2 when VS = 100V, Rs = 25Ω, and RL = 100Ω


If the two ports presented in the figure have the values of the parameters y11 =...
The z and y parameters for the resistive two-ports in the figure are given by 35 221- 222-J y21 1012 Q Tap image to zoom Part A Calculate vo if vg 36 mV dc Express your answer with the appropriate units. Vo= 1 Value Units Submit Request Answer
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Voc Rb Rs C1 VS Re =ce SRL VO Figure 1 For the circuit of Figure 1 the following parameters are given with Vcc = 20 volts DC: Rs = 0 ohm C1 = 10 microfarads Ce = 0.1 microfarads rn = 1000 ohm gm = 30ms Re = 145 ohms Rb = 1750 ohms RL = 50 ohms C2 may be considered very large vs is a sinusoidal voltage source of...
Nodal Analysis
Please Help!! I cant get the correct answer. I cant figure out
what I'm doing wrong
ξ2 κα Οεον 5 k2 100V Given: The circuit shown above. Required: Calculate the node voltages, V, and V2. Solution: Vi= v V2- v Submit these values If you are not ready to submit the answers now, you can print this work it off-line, then log in again to submit the answers. As long as you log in under the same user...
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Question 20 2 pts In the Figure below, V1 = 14 V, V2 = 8 V, V3 = 10 V, R1 = 2.00, R2 = 4.0, and R3 = 2.00 Find the electric currents is, iz, and is. (Hint: use the junction a and the two loops). RI R 14 M4 Equations: Kirchoff's Junction (node) rule: 11 = 12 + iz Kirchoff's Loop rule (left loop): V1 - iRi - iz R2 + V2 = 0 Kirchoffs...
Q3: The transistors in figure below have the following parameter values [ Q1: re = 12 ohm, beta = 200, ro = 2 Mohm] and [Q1: re = 10 ohm, beta = 100, ro = infinite] .. Draw the complete ac equivalent model of the amplifier then calculate Avnl, Avi, Avs, *.and Ai +30 V O 33 k3 10 ka 4.7 kn 0.3 AF 2 F 가 0 400 16 0.15 F 10 kn 10 ko 3.3 kn 3 10...
1. Connect the circuit shown in Figure 23. The values of the resistors are given below in Table and the source voltage (vs) is 20 V. Ri R4 R5 Figure 23 - General Resistive Circuit R 4.7 ko Rz 15 k22 | Rz 10 k R4 22 ke | Rs 6.8 ko Table 6 - Values of Resistors 2. Calculate all the component currents (i, through is), all the component voltages (Vị through vs) using circuit theories you have learned...
I have a CS amplifier and I have to find the upper 3dB frequency
using the method of open-circuit constants with given values.
VDD VDD 10V R3 12k R1 >600k 1uF 2N7000* 1uF SRL 10k + Vs ( 0.1 Vpk 1kHz R2 > 450k R4 50 03 10uF Fig. 1. CS Amplifier: schematic For the circuit of the figure, determine the upper 3dB frequency fu analytically using the method of open-circuit constants (e.g., text-book, pp. 733-736, Sec. 9.4.3-4.). Use the...
need help on some review of a RLC circuit.
better?
thats the part i need help on
fig. a lice c Vekt) A vet) R=4002 =1,274 c=1.25 uf lert fig. b A sea venting switching 2nd order ckt can be modled when the gate function Shown in fy b is applied to the parallel LLC ckt shown in Fig a Veo)=5v & i (o)=0A a.) find b.) find ilt) & vlts for oftasoms ilsoms), visoms), & dils & dicsoms) c.)...
Problem 3: Design Problem On Figure P3a, you have a Common Source (CS) n-channel MOSFET amplifier. Notice the absence of a source resistor Rsig and load resistor R. If we know how the present amplifier (the one on Figure P3a) behaves without Rsig and RL, we can infer its behaviors if Rsig and R were to be added. design the amplifier circuit on Figure P3a, i.e., you have to find appropriate values for RGj You are to RG,, RD, and...
100 1.5 0.27 5. 6 Pl. Consider the CB amplifier of Figure 1, for which Vcc-15 V, Rs-50 Ω, and RL-10 kQ. For the BJT, assume that B150, VBE.on0.7 V, and VcE,sat 0.3 V, and ignore the Early effect. For the other resistances, however, assume the same values as those you used for the Common-Emitter (CE) amplifier lab (disregard the value for RE2, as the resistor does not exist in the CB amplifier of Figure 1). Therefore, copy the same...