-4 VE 50 ΚΩ W www 30 ΚΩ 8V W Determine Vo 20 ΚΩ + 100 kn WW 20 ΚΩ for the circuit shown Vo
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- Inductive Circuits Fill in all the missing values. Refer to the following formulas: XL=2fLL=XL2ff=XL2L Inductance (H) Frequency (Hz) Inductive Reactance ( ) 1.2 60 0.085 213.628 1000 4712.389 0.65 600 3.6 678.584 25 411.459 0.5 60 0.85 6408.849 20 201.062 0.45 400 4.8 2412.743 1000 40.841CBASFEED BUCK 300L 20 桃 1: 200 € 200From the given figure determine the following a) If Rx= 80kΩ what is the value of Vout? b) How large can Rx be to avoid saturation?
- Determine the characteristics of the circuit below. Show your work! Parameter Value IB Ic IE VB V VE VCE ẞ= 150 Rb AST 330 ΚΩ Rc 1ΚΩ Q1 2N3904 Re 5100Determine the fime rece soary for the incducfor current to decay to are -fourth of its value at t=0. 24 V (* Uce tha oditor to formatWhat is the total equivalent (total) inductance Lr of this circuit? 000 30mH L2 R 000 60mH 1 kQ 10 V L3 100mH 000 500mH 43 mH 720 mH O 173 mH o 日 点四RUA 36% DE 40°F PriSc Impr. Écr. F12 F10 F11 F7 F8 F9 F4 F5 F6 * & 3 0 1/4 1/2 4. 5 6. 7 8 2 R Y K L
- The immobile ions found in the Depletion region on the N side are +ve ions. Select one: O True O FalseFor the circuit shown, fill in the ff. table with its appropriate values. Show complete solution. C2 4uF ci ZuF C4 10uF C3 6uF 600 v CAPACITANCE VOLTAGE CHARGE ENERGY C1 = 2 uF C2 = 4 uF C3 = 6 uF C4 = 10 uF CT = VT = 600 V Qt = ET =What is the overall capacitance between point A and B? A O B 1F O2F 3F 4F C1 2 F C2 1 F K O C3 1 F
- The discharging time constant for the circuit below is _nanoseconds. 5 V MPU 2 kQ RESET 100 kQ 1 pF SW 1(a) The emitter-stabilized bias circuit has the output characteristics as shown in Figure Q2(a). The circuit is biased at Ico= 6 mA and VCEQ = 10 V. (i) From the graph, determine IBQ, IEQ, Ic(sat), VCE(cutoff), Vcc and beta (B). (ii) Hence, use the values in part Q2(a)(i) to calculate VE, RB, and Rc. Assume VBE 0.7 V. =A circuit consists of a battery with an EMF of 2.5 V and three capacitors in parallel, where C₁ = 2.0 μF, C₂ =4.0 μF, and C3 = 6.0 μF. What charge is stored in the capacitors? Ο 2.7 μ C Ο 10 μ C Ο 15 μC Ο 30μ C Ο 5.0 μ C Parallel Connection Q2 Q3 + C₁ C₂ C3 HH V