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Q: R4 1.6 R5 82 R2 R3 52 ------- 24V
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Q: Q3) Given Vs lovolt fig 2 and it) as sketsh the power and energy? xift) -2 O 4 hown sec
A: NOTE: p(t)= v(t) i(t)E(t)=∫p(t) dt=∫v(t) i(t) dt
Q: 2 Ω I 5Ω 10 Ω 25 V Ε Σ4Ω 2 Ω I 7 ) 50 v
A: The given problem is from mesh analysis. The detailed solution is given in the next step
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Q: TASK 3-Y-Y Three phase system The circuit in Figure 1 is a balanced three phase system which has the…
A: It is given that: Van=2202∠0° VVbn=2202∠240°=2202∠-120° VVcn=2202∠120° Vf=50 HzR=R1=R2=R3=100…
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A: it is asked to find the state equations for given circuits
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Q: What’s the rule of 10’s and 3’s, with respect to decibels and power gain?
A: We need to explain the rule of 10's and 3's with respect to decibles and power gain.
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- FAIRCHILD Discrete POWER & Signal Technologies SEMICONDUCTOR ru 1N4001 - 1N4007 Features • Low torward voltage drop. 10 a14 * High aurge eurrent cepablity. 0.160 4.06) DO 41 COLOR BAND DGNOTEs CAT-Cos 1.0 Ampere General Purpose Rectifiers Absolute Maximum Ratings T-26*Cuness atnerwioe rated Symbol Parameter Value Units Average Recttied Current 1.0 375" lead length a TA - 75°C Tsargei Peak Forward Surge Current 8.3 ms single halr-sine-wave Superimposed on rated load JEDEC method) 30 A Pa Total Device Dissipetion 2.5 20 Derste above 25°C Ra Tag Thermal Resistence, Junction to Amblent 5D Storage Temperature Range 55 to +175 -55 to +150 Operating Junetion Temperature PC "These rarings are imithg valuee above whien the serviceatity or any semiconductor device may te impaired. Electrical Characteristics T-20'Cunieas ofherwise roted Parameter Device Units 4001 4002 4003 4004 4005 4006 4007 Peak Repetitive Reverse Vellage Maximum RME votage DC Reverse Voltage Maximum Reverse Current @ rated VR…Q4) Attempt to answer ONE branch only: a) Regarding ripple vector parameter, What are the differences between full wave and half wave rectifiers? b) From the circuit shown below which shows combining a positive clipper with a negative dipper Determine and draw the output voltage waveform? Note that Vp = 0.7V 1.h Vout 15 Vek 3 He V13. Graphical Representation of the signal 1) Write the type of the voltage from simulation results: 2) Write the value of the voltage from simulation result: L....... -2 DDU 12ns SónG Trace Color Trace Name X Values CURSOR 1,2 V(R1:1,0) Y1 Y2 Y1 - Y2 5.0373m 0.000 5.0373m 249.983 0.000 249.983 Y1(Cursor1) - Y2(Cursor2) Y1-Y1(Cursor1) Y2 - Y2(Cursor2) Max Y Min Y Avg Y 249.983 0.000 0.000 249.983 0.000 124.991
- Date 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 SignalureSignal and system plz explain every step that how do thisExcept for FinFET and GaaFET discussed in the lecture, there are many new designs of FET. Please do a detailed study on any of them. In less than 200 words, state the advantages of it over the traditional
- G2/.Design Circint as the following peseripton: A- the positive Cycle of the vout signal is 3.2 and Negative cycle is 4-33 (Note: we must used preetical Diodes and vin is lov) 13- the positive cyclep of vout is s.3 ond Negative cycle is (5.4) [Note:consider vin = tovavd we must used Capaetor with praeticul Didde)i just want a paragraph of these sensors and their function and which is best then the other.PZT-5HPZT-5JModif. PZT-5APlease help. You are going to draw arrows that indicates the flow of the given 5 actions (a,b,c,d,e). You can draw arrows for all of them in the picture above, or make separate drawing for each letter. Please help me this is about CARRIER ACTION/FLOW OF CARRIERS in a semiconductor. It is also about Ferni Level.
- 8. Determine the output voltage V, and the Zener diode current Iz for the circuit below. The Zener diode is IN5236B. }} a) E-21 V, R1=1 km2, and R2-2 km2 b) E-21 V, R1-2 k2, and R2-1 k E R₁ www R₂In the circuit shown below. Determine the following a. Vs (at the secondary) b. Vout (across RL) c. Vrip (ripple votage) d. VDC e. PIV (Peak Inverse Voltage) 10:1 Output 115 V mis 60 Hz RL 2.2 k) D, 50μF- All diodes are IN4001. Tund AlMannai EENG261 Page 5/11Repeat example 35 for FWD and firing angle Fa) 60°. 215 l65 D1985 Example 35: A full wave rectifier used 220V, with firing angle 10° ,total resistance load 5 KQ, inductance 2.34 H,and frequency 60HZ, Draw and calculate: (a) VD.c and Ipc (b) VD.C(Max) (c) Vn (d) Vorms-