Sketch the Bode plot of the following function:
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Introductory Circuit Analysis (13th Edition)
- E2.5 Consider the following neuron. Input General Neuron ΣΠ Sketch the neuron response (plot a versus p for -2arrow_forwardQ1. All transistors shown in Figure 1 are identical. They have the following properties: ẞ = 200, VT = 0.026 V and VBE = 0.7 V. In order to set the bias current of the differential amplifier to I = 1.8 mA (see Figure 1), determine the value of the resistor, R. Determine the DC output voltage at the output terminals V01 and V02. The input signal to the differential amplifier is given as (v1 - Viz) = 12 sin(wt) mV, determine the total output voltage at terminal vo1. Explain how to eliminate the DC voltage at the output terminal, V01. Sketch a circuit diagram that can fulfil this requirement. R +20 V 20 ΚΩ Vil V02 ના 50711 20 ΚΩ I = 1.8 mA Vizarrow_forwarda. An amplifier has a gain of 500. What is the dB gain? b. A three-stage amplifier system has dB gains of 15 dB, 32 dB, and 6 dB. What is the overall gain of the system in dB?arrow_forwardQ1) A 3-phase full converter charges a battery from a three-phase supply of 230 V 50 Hz. The battery amf is 200 V and its internal resistance is 0.552. On account of inductance connected in series with the battery, charging current constant at 20A. (a) Compute the firing angle delay and the supply power factor Also Draw output voltage. (b) In case it is desired that power flows from de source to ac load in part (a), find the firing angle delay for the same current.arrow_forward6:22 PM P Expert Help 4G +40345 73 K/S EaEDnD#9140 17:09 find the fct)= fourier series 0 when -7444D の1 When 04+<752 -1 when 7/22ヒム This was my answer when is solved 2 sin () (1+(-1)-2 003 (5) f(t)=2 cas (nut) + 3=1 Απ mt find the for series (ct)= ro when -arrow_forwardQ4. Determine the Y-parameters at a frequency of 100 MHz for the two-port network shown in figure 4. Present your answer in matrix form. R1 R-10 m са C-20F 11 R2 C1 CF 1-10 H R 12 C4 C-100 OF C-50 F Figure 4arrow_forwardQ3. a) For the circuit shown in figure 3, use nodal analysis to obtain a complete set of circuit equations, presenting your answer in matrix form. Compute the potential across and the current flowing through the ZL element, given: IS = 12sin(wt) A, R1 = 30, R2 = 50, L1 = j4 Q, L2 = j10 Q and ZL = (2+2) b) IS R1 L2 Figure 3 w R2 ZL Using equations and text, define the two-port impedance parameters.arrow_forwardQ3. The circuit to study is shown in figure below, where V1 10040° V, V2=50260° V, and R₁ =3Q, R₂ = 502, R3 = 2, R450, Rs 50, Ls = 12.8 mH. Ls = 6.4 mH,C2 796μF and C3 =796µF . assume f=50Hz V1 R1 R3 03 R2 R4 C2 RE L5 Vx a) Apply the mesh current method to obtain a complete set of circuit equations, presenting your answer in matrix form; b) Compute the potential across and the current flowing through the L6 elements.arrow_forwarda single circuit 50hz transmission line is 362 km long. the load is125mw at 200kv with 100% power factor. 1. evaluate the incident and reflected voltages at the receiving end of the line and at the sending end of the line. 2. determine the line voltage at the sending end from the incident and reflected voltages. 3. computer the wavelength and velocity of propagation. parameters of the line are r = 0.1069 ohms/km. l=1.355mh/km c=8.452nf/km g=0arrow_forwardQ1. Figure 1 shows a differential amplifier. Assume that all transistors are identical. ẞ=180, V = 0.026 Vand V = 0.7V. a) b) Show that the d.c. bias current to the differential pairs is Iccs = 0.6 mA. Calculate the d.c. voltages at the output terminals V。1 and V02- c) Given that the input signals are v₁ = 4 sin(wt) and V₁₂ = 2sin(wt) in mV, find the a.c. voltage between V01 and V02-arrow_forwardQ1. Figure 1 shows a differential amplifier. Assume that all transistors are identical. ẞ=180, V = 0.026 Vand V = 0.7V. a) b) Show that the d.c. bias current to the differential pairs is Iccs = 0.6 mA. Calculate the d.c. voltages at the output terminals V。1 and V02- c) Given that the input signals are v₁ = 4 sin(wt) and V₁₂ = 2sin(wt) in mV, find the a.c. voltage between V01 and V02-arrow_forwardQ4 Determine the Y-parameters at a frequency of 10 kHz for the two-port network shown in figure below. Present your answer in matrix form. R1 R3 C3 R5 L5 •w• 5 Ohm ww 4 Ohm 200 μF 5 Ohm 8.4 mH 1 Ohm R2 C4 796 µF 400 μF C2arrow_forwardarrow_back_iosSEE MORE QUESTIONSarrow_forward_iosRecommended textbooks for you
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