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- the circuit shown below: NI 250v 100 120V 20Q N4(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. =Calculate the total resistance R5 20Ω R6 R7 200 200 R10 200 R3 R9 200 200 R11 >200 R12 R13 202 200
- The figure below shows a capacitor network. The values of the components are as follows: • C₁ = 3.20 μFarads • C₂ = 4.79 μFarads C3 = 7.22 μFarads • C4 = 9.20 μFarads . V=6.87 Volts 5 5 5 5 5 5 8 Fill in all the values into the table below: Element C (UF) V (V) C3 C₁ CA C₂ CB C₂ C3 Q (μC) U (μ)For the following circuit, Vsrc=1.5 V and Rload%3D225 Q. What is Is? Is +. Vsrc VR Rload 30 mA 9 mA 6.67 mA 40 mVExpress the following in summation notation 50 + 50 +50 + 50 + 50 + 50 k2 + k3 + k5 + k7 + ... + kn
- Deduce the function of the following circuit: 5V Q3 2N6804 -ru A 1kHz 5-V -ru Q2 Q1 2N6659 B 1kHz 5V. Y. 04 2N6804 2N6659 XSC1 {} to (39. Find the total capacitance across A and B. C210 µF C3 10 µF C1 12 µF C5 15 µF C4 15 µF 20 µF C21 C1 10 µF C3 10 uF A- 12 µF 30LF C5 15 pF C4 15 µF B-DC Find Vc VE Vb Ic IE Ib Vbc Vce
- * Q5: For the circuit shown, find R and Vs B C RΩ 2Ω. 3Ω ¥1 A 1 A F Vs A 1Ω D www www www wwwInductive 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 40.841Fill in all the missing values. Refer to the formulas that follow. Resistance Capacitance Time constant Total time 150 k 100 F 350 k 35 s 350 pF 10 s 0.05 F 1.2 M 0.47 F 12F 0.05 s 86 k 1.5 s 120 k 470 pF 250 nF 100 ms 8 F 150 s 100 k 150 ms 33 k 4 F =RCR=CC=R Totaltime=5