o 20 V 1.1 ka 330 kQ 91 ka B 160 VD Dss = 6 mA Vp = -6 V VG %3D 18 k2 1.2 ka
Q: For the fig below FIND : 5V 1/vb 2/re io= 1mA 3/zi 4/zo a= 0.99 5Av Rs=50 ohm RL= 2k 100k ohm ohm Vs
A:
Q: 3. Find ve, i, and it. 12 V + 1Ω VC www 5Ω 4 Ω 1F m 2ΗΣ
A:
Q: Find the stability of the system below: 110 k2 4µF v;(1) 400 k2 4 µF
A:
Q: Obtain the power at 25 N? 30 2 16 Q 8Ω 6Ω 100 V V 25Ω 3Ω 102 +
A: The given circuit consists of star combination with (8,6,3) ohms resistors. Convert star to delta…
Q: Determine VL, IL, Iz, and Ir if RỊ = 180 N Rs %3D + 220 2 Iz IR Vz = 10 V PZmax = 400 mW 20 V RL VL
A: According to the question we have to find the value of VL , IL, IZ, IR.
Q: 4 Using star-deltal delta-star transformation determine the equivalent resistance of the circuit…
A: 3) The given circuit consists of three 10 ohms resistors in star connection. Convert star to delta…
Q: 20 V Chc = 6 pF Che = 20 pF Ce = 10 pF Cw, = 7 pF Cw,- = 11 pF %3D 3 kn 470 k2 1 µF 0,6 k2 B = 110 1…
A:
Q: (₁ kov Mr 2522 Mur Find the current 42 M 251 Ús 22 чт 22 64 4. 1201
A:
Q: Vcc = 20 V 4.7 kN 220 k2 Vc -o V. Cc VB V, oAH B = 180 Cc 56 k2 2.2 kΩ CE
A: We will find out emitter current for given circuit .
Q: a) Find Reg across the voltage source: 10 Ω 20 Ω 20 2 30 Ω 10 V
A: two resistors R1 and R2 are said to series when current through them is same then equivalent…
Q: Obtain the equivalent resistance Rah a a 12.5 Q 10 Ω 5Ω 120 V C 30 2 15Ω 320 2 O a. 10.632 ohms Ob.…
A: Find the equivalent resistance between a and b ?
Q: 50 N 25 Q ww 20Ω Q-1: Find i and V, in the circuit of Fig (1) ww- 35 2 20 V 50 Ω : 30 2Ž 60 23 20 2…
A: The detailed solution is provided below.
Q: Given the information below, determine: а. В b. Vcc c. Rb d. VCB Vcc RB 2.7ΚΩ IB 20HA VCE = 7.3 V…
A:
Q: Av = -10 re=D3.80 RB,RE =? 20 V 8.2 kQ Rs B=120 7 80 kl)
A:
Q: In the following circuit if R, = 4 0 , find the absorbed power in the dependent source? R, 2Q R 10 Q…
A:
Q: For the figure shown below, calculate: - 1. the voltage gain 2. input impedance 3. output impedance…
A: As per our policy we can provide solution to first three questions only. Given : Let's assume IDSS…
Q: i1. Find VAB for the given circuit below in Figure lc. +20 V • 100 150 20 202 A B Figure lc
A:
Q: 3.44 In the circuit shown in the image below, if V1 = 40 V and R1 = 112 Q, determine current io in…
A: Calculation of current I0 for the given circuit : V1=40 V R1=112 ohm For calculation of I0 we have…
Q: A 3. (1)4 4 A 102 Find: Vab 8KQ Rt 8 A 16 Q = 100V 202 6 A В
A: As per our guidelines, we are supposed to answer only one question. Kindly repost other questions as…
Q: What is the value of Rr? 2.52 20 Ω 15 V 26 2. RT- 3.4 Ω 11.25 Q
A:
Q: (₁ kov Mr 2522 Mur Find the current 42 M 251 ús 22 чт 22 64 4. 1201
A:
Q: Determine current, i(t) in the circuit below, when v, (t) = 50 cos (100t + 25°) V %3D i 15 Ω 2 mF Vs…
A:
Q: Question 4 Calculate the efficiency of a solar module with the given parameters: FF = 59% VOC = 5.5…
A:
Q: 18 V 1.5 kN Dss = 10 mA Vp = -4 V %3D + VGSQ 1 ΜΩ 750 2
A:
Q: C, 0.1uF c, 0.1µF RI 4.7 kf. 6.8 kfl 4.7 kM 6.8 kN 0.1 µF R 1.0 kf 0.1 pF Ry 6.8 k 6.8 kf R 5.6 kn
A: The figure shows two sallen key filters cascaded together or called as fourth order sallen key…
Q: Ra 85 12 200 VDC R1 25 ! R2 50 Rg 779 Rs R 200 2- 100 0 R R Rg 50 ! R7 85 1 63 1
A: The solution is given below
Q: c) Solve for the Equivalent Resistance. 10 Ω 80 Ω 60 Ω 20 Ω 30 2
A: Note :- Both the questions are not interlinked with each other. So as per guidelines we are…
Q: From the circuit below, determine the current Ips flowing through the resistor Rs. Rs= 50 2 Vz = 8.2…
A: In this question, We need to choose the correct options What is current IRS
Q: Given the circuit below, determine: a. Ic b. Voc с. В d. Re Vcc Ic 2.2 kΩ RB VCE = 7.2 V B IB = 20…
A: From the transistor DC analysis
Q: 4. Sketch the output V for the given network below. + 1kQ2 +8 V -8 V 10 + Si 41
A:
Q: Given: Vs, R. R. 50 2 Vs 300 2 100 N Determine vz.
A: We will apply KCL at node to find node voltage (voltage across 300 ohm resistor). According to KCL…
Q: Find the table value of the 20vpp AC voltage shown in fig. 4 90° 18° 270° 360° Fig.4 angle Voltage…
A: We need to find out the voltage at different given angle for given waveform.
Q: Solve for: 1. Current Al: uA 2. Voltage Vout: V 3. Gain =
A:
Q: using thevenin/norton to calculate 1 Isc = 2 Rth = 3 Vth = 4 IrL= 5 PrL=
A:
Q: R1 10kn D1 1N4097 v1 Fig.17
A: Here i have described it.
Q: 4 V 1.8 kn 16 V o w loss=4 mA Y,=-6 V 3.6 kft 1.2kQ a) 3.8V b) 5.8V C) 6.8V d) 4.8V e) ov
A: 1st we will calculate drain current then drain voltage and drain to source voltage
Q: 1. Hand calculate the following quantities. (а) What is V,(w) = 1 +jV in polar form? (b) What is I,…
A:
Q: Discussion For the circuit below complete the table. R 10 V < 0 L3 10 mH 60 Hz R Total 10 + j0 V…
A: Resistance opposes the flow of current. If n number of resistor having resistance…
Q: The result of (3t + 1)8(t – 1)dt is: Select one: O 2 O 48(t – 1) Clear my choice
A:
Q: 3. Let Is= 50A, nd Vx 20 40 302 502 ver
A: We will use source transformation to find known voltage Vx.
Q: A 1 kN Veb = 16 kV 20° V = 16 kV Z-120° Vea = 16kV Z+120° 10Ω 20Ω EAB 0.3 kN 1 kN Igb B %3D b ECA ca…
A: Steps: Phase voltage Vab, Vbc and Vca given Find the phase current first Apply KCL at each Node to…
Q: -22 V 2.2 kn 82 ka Ve B = 220 16 ka 0.75 ka FIG. 4.151 Problem 55.
A:
Q: HW 1.7: Find i(1) and v(t) in the circuits of Figure 1.23 8Ω 42 50 cos 41 V 3 H Fig, 1.23 ell -/2 +1
A: Given circuit, Here,
Q: Determine the value of voltage gain (Av). 0 20 V ► 2.2 kM ' 390 k2 B = 140 1.2 k2 O - 321 O 1.83 O…
A:
Q: QI: Find the voltage va for the circuit of fig.(1). (Using Kirchoff's voltage law) 52 b 32 Vas…
A:
Q: 1ka a 1.5kn 2.2kn 6 V 24700 RL b evenin's equivalent at a and b? Fig (1)
A:
Q: Discussion For the circuit below complete the table. R 5Ω 10 V < 0 L3 10 mH 60 Hz R L Total 10 + j0…
A: Resistance opposes the flow of current. If n number of resistor having resistance…
Q: Based on the following expression 50 13 4x[n]– x[n– 1]–2x[n – 2]→ y[n]-v[n– 1]+-y[n– 2]- y[n – 3] 56…
A: Solution : H(Z) = Y(Z) / X(Z) In the question they have mentioned the difference equation.…
Q: 5. Find Io in the circuit of Fig. 1.33. ww 1, -j22 j6 2 ww 60-30° V 10Ω Fig. 1.33
A: This question belongs to circuit theory . It is based on the concept of calculation of equivalent…
Determine Drain Current (IDQ)
Step by step
Solved in 2 steps
- For the semiconductor diode the "on" state will support a current in the direction of the in the symbol. Your answer The region of uncovered positive and negative ions is called the due to the diminution of free carriers in the region. (Two Words) Your answer What is the net flow of charge in the absence of an applied bias across a semiconductor diode? Your answerConsider a n-type silicon sample. If a power supply is connected between two ends of the silicon sample with 5 volts of voltage, 5 milliampers of current flows through the sample. If Na=3x1014 cm-3, N3=0, Dn=10 cm2/sec, Dp=20 cm2/sec, kt/q=D0.025 volts, obtain mobilkity if the sample area is two times its length in magnitude. (q=1.6x10-19 C, T=300 °K, kT=0.025 Ev, n=1010 cm-3) O a. 0.75 O b. 12.2 O c. 10.42 O d. 0.0675 O e. 20.85 O f. 0.45 O g. 8.5 O h. 885FAIRCHILD 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…
- D1 Vsecondary Vfiltered D2 V1 sine Rload I 120 VAC @ 60 Hz D3 10:1 - D4 Figure 1: Bridge Rectifier Voltage Regulator Circuit The filter capacitor C, is recharged on every half-cycle of V secondary. Given: Rioad = 100 N VDiodes = 0.7 V Vi is given in RMS What is the minimum value of capacitor C, required such that Vrutered does not drop below 8 V?A. Explain the difference between charging current andfaradaic current. B. What is the purpose of waiting 1s after a voltage pulse before measuring current in sampled current voltammetry? C. Why is square wave voltammetry more sensitive than sampled current voltammetry?The characteristic of the UJT exhibits the following values: n = 0.575, RB1 = 10 k-ohms, Vv = 1.3 V, Iv =20mA, Ip=15UA. 125V B2 B, Determine the following: a. Determine the R82 (in kilo-ohms) of the UJT b. Determine the maximum value range of R (in kilo-ohms) that will ensure proper turn-on and turn-off of the UJT c. Determine the minimum value range of R (in kilo-ohms) that will ensure proper turn-on and turn-off of the UJT
- write your solution plsssssIn your own words(not googled) please answer and help me understand the following a. What is a LED? Explain the working of a LED and give at least two applications. b. Why do LEDs need series current-limiting resistors? c. How does LED differ from an ordinary diode? d. What is a photodiode? Explain how it works and give at least two applications. e. What is a/an: i. Tunnel diode ii. Optoisolator iii. Varactor diode iv. Shockley diodeThe datasheet shown below for a group of commercial Zener diodes, according to the datasheet the typical voltage and leakage current of the Zener diode with model number 1N4732A are: * Tolerance- S% FAIRCHILD SEMICONDUCTOR Datasheet 1N4728A - 1N4758A Zener Diodes D0041 Glass case Electrical Characteristics 1,-25°C untess otherwise noted Vz (V) @ Iz (Note 1) Max. Zener Impedance Leakage Current Test Current Device Zz@lz ZzK @ IZK (mA) IR (HA) VR (V) Min. Тур. Мах. Iz (mA) (오) Izk (2) 3.315 3.42 1N4728A 3.3 3.465 76 10 400 1 100 1 1N4729A 3.6 3,78 69 10 400 100 1N4730A 3.705 4.085 3.9 4.095 64 9 400 50 1N4731A 4.3 4.515 58 400 10 1N4732A 4.465 4.7 4.935 53 500 1 10 1 1N4733A 4.845 5.1 5.355 49 550 10 1 1N4734A 5.32 5.6 5.88 45 600 10 1N4735A 5.89 6.2 6.51 41 2 700 1 10 3 1N4736A 6,46 6.8 7.14 37 3.5 700 1 10 1N4737A 7.125 7.5 7.875 34 4 700 0.5 10 b. 1V and 10uA O c. 4.7V and 10uA a. 4.465V and 10UA O d. 4.7V and 53mA
- Please 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.1. SP=F002H; after PUSH BX, what is the value of SP?A piece of silver wire has a resistance of 1 ohm. Determine the resistance of alead wire one-third the length and one-third the diameter if the resistivity of lead wire is 30 times that of silver. NOTE: Please explain where did you get the variables so I can understand them. Thank you