Q: Given gis 3.8 mS, gos = 20 mS, RD =2k2, Rs 1k, RG IMS, IDss= 10mA. Vp-8V, VDD-20V. k = 0.24 * 10-3 A/V2, VGSQ=6.4 V, IDQ=2.75 mA, ID(on) =6 mA, VGS(Th)=3 V and VGS(on) = 8 V. Determine Zi, Zo, Av, phase shift and Vo if Vi = 20 mV 1. Common-gate configuration. 2. Source-follower (common-drain) configuration. 3. E-MOSFET drain-feedback configuration. 4. Cascade configuration 2 fixed-bias configuration.

Q: Given gis 3.8 mS, gos = 20 mS, RD =2k2, Rs 1k, RG IMS, IDss= 10mA. Vp-8V, VDD-20V. k = 0.24 * 10-3 A/V2, VGSQ=6.4 V, IDQ=2.75 mA, ID(on) =6 mA, VGS(Th)=3 V and VGS(on) = 8 V. Determine Zi, Zo, Av, phase shift and Vo if Vi = 20 mV 1. Common-gate configuration. 2. Source-follower (common-drain) configuration. 3. E-MOSFET drain-feedback configuration. 4. Cascade configuration 2 fixed-bias configuration.

Refrigeration and Air Conditioning Technology (MindTap Course List)

8th Edition

ISBN:9781305578296

Author:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson

Publisher:John Tomczyk, Eugene Silberstein, Bill Whitman, Bill Johnson

Chapter42: Heat Gains And Heat Losses In Structures

Section: Chapter Questions

Problem 6RQ: The typical indoor design temperature used for heat gaincalculations is A. 65F. B.70 F. C.75 F. D....

See similar textbooks

Similar questions

= Seq = 106, ACK= Xlost +2 www.data='AV Seq = 100, ACK=106 data=" b Zro 107 Seq., ACK 100 data='AV' Seq = !!!., ACK= data="AV
KxM = Jö + bø - co where Ø denotes the angle of attack (output). M is the correction moment (input), K, is the moment gain, J is the moment of inertia along the rotation axis, b is the coefficient of Viscous friction, C is the coefficient of gravitational loading due to offset. J=7400kgm^2c=4670 Nm/rad, b=3550 Nms/rad, Kx =5000 Initial conditions are zero. Design a LEAD-LAG Controller such that the maximum overshoot is 12% and the settling time is 4 seconds and the steady state error is less than 0.3 when we implement unit step as the input. Clearly explain the necessary steps. Use a MATLAB Script for the controller design. Using MATLAB/Simulink, simulate the controller. Use a 2-input scope to plot the output and the step input. Show the Simulink model and its parameters. Make a sketch of the step input and system response Indicate the steady state error.
A X₁ RA P₁ X₂ P₂ 2 X3 X L 10 C ХА B RB 22 Z P₁ = 30kN; P₂ = 50kN; w= 10kN/m; L = 6m x₁ = 1m; x₂ = 2m; x3 = 3m; x = 5m Find RA and Rg, and draw SFD and BMD
please check my solution thank you
IKT f 327 DXD 187 S 487
Find picture attached
K:42)
estion 1 The step resolution of a stepper motor is set for 1024 steps per revolution, Find the frequency to rotate at 60 rpm. (Give your answer in Hertz, put only numeric value) Question 3 A proportional valve is handled by an PWM signal Question 4 The speed of a stepper motor is controlled by Question 5 The relay is driven by an analog signal Question 6 Determine the output voltage from a PWM pin when the time ON is 25 ms and the frequency is 1kHz and Vcc-SV. (Put only a number in Volt, no need to add the unit word)
D-H Parameters Table for the 3 DOF RPR manipulator is given in the Table (Classical type)' Linki 0 1 2 3 OTH 0₂ joint variable d₁ 0₁ l₁ + l₂ 0 lz + l'₁ ls If 11 12 13 = 2, 15 = 1 and the hand frame relative to the base coordinate frame TH is given by: || ONTGAITAS + 1 + 1w 1 2 a₁ a 0 90 0 0 0 0 √3 2 0 0 4 9√3 4 4 1 What are the joint variables? 01, 14 and 0 3 ?
Where would wB/C, wC/N, wB/N and theta be in the shown figure?
Show the circuit diagram
Q.11 - Consider the positions servomechanism is shown in figure below. Assume the following numerical values for the system constant are. Kp = gain of potentiometer detector = 7.64 v/ rad, Kb= back e. m. f. constant =5.5*10-2 V/rad/sec K; = motor torque constant = 6*10–5 Nm/A C = 4*10-2 Nm/ (rad /sec). Determine the natural frequency and damping ratio of the system. Ra = armature winding resistant =2 2, Ka=Gain of amplifier = 10 Jm = 1*10-5 Kg.m2. J =4.4*103 Kg.m2 n = gear ratio=1/10, Neglect Cm and la Amp. %₂ ဦးအောင်မျိုာနစ် နှစ် DH 0050 constant N₁