Consider R= 60 N for the circuit given below. lic t=0 3u(-1) A (1) 2.5 µF = vc R VL. 20 mH Determine ic(0¯). (You must provide an answer before The value of ido) is А. 2. HE
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- 8 UTM Figure B.1 shows a diode circuit and its DC load line analysis. Based on the SUT information obtained UT UT I kQ + VpQ- 3 UTM UTM Vs 3 500 2 UTM & UM TM &UTM UTM UTM &UTM 5 UTM Figure B.1 UTM & U UTM VD (V) 0.72 UTM i UTM UTMDate 03175996 28) A battery of emif 4V and grternal. xesistance 2n s joined to a desistor of 8 2 calculate the terminal potential difference. What additional xesistance in sedies with 8-2 sesistor Would produce a texminal pd of 3.6V? Taacher's SignalureQ.3 The input, Vs and the output, Vo of a diode circuit (assuming ideal diode) are shown 3 SEEU/SKEU 1063 in Figure A.2. Name an application that can produce output as in Figure A.2 (ii) and draw the circuit. S UTM S UTM UTM UTM S UTM S UTM O UTM 8 UTM UTM S UTM S UTM UTM UTM S UTM UTM MB UTM ot UTM UT S UTM B UTM UTM 8UTM (i) aUTM UT 8 UTM UTM UTM M UTM TM S UTM UTM UT MS UTM or (i) UTM Figure A.2 8 UTM UT TM S UTM
- 1. For a 60Hz, 9Vms AC input, with 250 Ohms load, determine VDc across the load, for FWR power supply, (show the required circuit). Draw the waveform on the load. 2. If C=200uf, filter capacitor is applied across the load: Calculate Vpp ripple and VDc, for the load. 3. Determine PIV on the diodes 4. If one of the diodes become open, what would be VDc and V, load. across the load, with & without capacitor. Draw the waveform on the fms,In the circuit shown below. Let Vm=37 V and i,=21 mA and Voa -0.7 V: iD is C0.8 ko 3 ko Vmcos(wt)V For t = Os, the current in the diode equals: Oa. 2 mA Ob. 0 mA Oc. -2 mA Od. 4 mA Ift = T/4, then the current in the diode equals: Оа. 4.24 mA Оb. 3.39 mA Oc. 5.3 mA Od. 2.71 mASilicon BJT (β=120) and Germanium BJT (β=120) VCE in circuitCalculate its value. Comment the circuit
- 6. For a particular dual-slope ADC: Vref = +5.0V and the charge time is 6ms. %3D a) " Draw a time-domain plot for the dual-slope ADC. b) When Vin = -2.5V, what is the total conversion time? c) When Vin increases by 1.0V, what is the total conversion time?Q5) a) Calculate the minimum and the maximum input voltages that can be made by the given diode. The data sheet gives: Izmin = 2mA,Izmax=30mA, and Vz = 5 V. b) In which region of I-V characteristic does the diode operate ? Why? c) What is the main function for the given circuit? V1 =OV R1 10052 2 D1 1N5247BIn the emitter follower, the output (emitter) voltage is 0.7V below the input (base) voltage. One way to remove this offset is to use a diode as shown below left. Suppose our input V=2V. Assume beta = 100, VcE,SAT=0V, VBE,ON=0.7, and diode V;=0.7. +5V +5V 1000 R, 1N4148 500 100 Scattering Limit o Vo 10 V; o- RL=10 R2 T, = 25 °C 0.1 1K 0.4 0.8 1.2 1.6 2.0 V. - Forward Voltage (V) 94 9170 a. Determine VB and V. b. Verify your assumed state of the BJT from (a) c. Verify your assumed state of the diode from (a) d. To provide good matching between the diode V; and VBE,ON, we need to have at least 1mA passing through Ip, as shown in the datasheet figure above right. What is the maximum V; for which Ip is at least 1mA? To increase this limit, should we change R1 or R2 and in what direction (increase or decrease)? , - Forward Current (mA)
- 1.62 a) Find the voltage Ve (Ans:uBy) 60V 2015 120v b) How mucn power does the 36A 1200 Source deli ver to the circuit? (AnS: 374.4 w)Q5/ A/ If a Class B push-pull each Tr. Has V CEQ = 50V Calculate Ic sat. ( rc = 500 0, re = 0) %3D %3D B/ For the Zener diode circuit if Pz max = 27W and Vz = 10V find IZmax. C/ For the C.E voltage divider bias circuit shown below. 1- Draw the AC analysis for the cct. 2- Write the equations for Zi, Zo, Av, Ai |+ VCC R1 RC C2 C1 Ac o/p B Ac i/p Zo R2 RE СЕ Zib) Consider a circuit using Si diodes and 10 k ohms resistors. Design this clipper circuit with output ranges below; i) -0.7 V and above ii) +2.1 V and above iii) ±1.4 V