Question 9 Consider the device D shown in Problem 0.7 a) write an expression for the...
Question 8 the first picture has device D that is used in question 8 a) In the diagram to the left, the current io- 250[mA], and the voltage vo =-25 [V]. How much charge passes through D in 3.6 [sl? electrons going? b) For the current and voltage specified in part a), how much energy D If the current is being carried by electrons, which way are the is delivered to D in 3.6 [s]? Consider the device D shown...
Problem 3 The periodic voltage source in the circuit shown in Figure P3 (a) has the waveform shown in Figure P3 (b). a) Derive the expression for Cn b) Find the values of the complex coefficients Co, C1, C1, C 2, C2, C3, C3, C4, and C4 for the input voltage vg, if V,-54 V and T-10π us c) Repeat b) for Vo. d) Use the complex coefficients found in c) to estimate the average power delivered to the 250...
Vgs for part b, not Vds 7. Consider an ideal n-channel silicon MOSFET with the following device parameters: VT --0.8 V, μ,-425 cm2V-1 s-1, tox-11 nm, w: 20 μm' and L-1.2 μm at T-300 K. nm, W- 20 a) Plot the drain current ID [mA] versus drain-source voltage Vos over the range 0 < VD 3V with VGS--0.8 V, VGs 0 V and Vas +0.8 V b) Plot root saturation current ID12(sat) [mA12] versus gate-source voltage V6s over the range...
Given the voltage, v(t), across and the current, i(t), through a device, determine the energy, W, delivered to the device between 1 and 3 msec. N(, v. 11. Act), mA. time, a. 5 m). b.1 m). c. - 1 ml d. 4). e.- 4 u.
1.15 The current entering the positive terminal of a device is i(t-6e-21 mA and the voltage across the device is v() 10di/dt V. (a) Find the charge delivered to the device between t0 and t 2s (b) Calculate the power absorbed (c) Determine the energy absorbed in 3 s.
Problem 2) The transistor shown in figure below has a threshold voltage of 1.5 volts and K 0.4 mA/V2. Assuming vo is a pulse signal with a minimum of O V to a maximum of 5 V, find the voltage levels of the obtained pulse signal at the drain output vp. ΙΚΩξ D VD VoD-5V 0 S
Problem 2: For the circuit shown below, find the following: The expression of i(t) fort > 0. The voltage vc (t) fort > 0 Calculate the peak energy stored in the capacitor Calculate the real power dissipated in the load formed by R and C. b) d) 40 UF + 0 -V-24 Ve0 400 Hz
120 Problem 1, Use the node-voltage method to find the steady state expression for v () in the circuit shown. The sinusoidal sources are v,-35cos 50 t V'and i 20 sin 50 1 A 20 Ω 0 Problem 2 120) Use the mesh-current method to find the steady state expression for velt) in the circuit shown. Answer must be in time domain. Below excitation voltage v is given in time domain v(t) 0.75 V,<t 2 Ω ) 5osin(40140°) Problem 3...
I need all the answers please. Thanks If a 15-V battery delivers 72.000 J in 6 s, find (a) the amount of charge delivered and (b) the current produced. (a)TT4.8 (b)To.8 ori We were unable to transcribe this imageChapter 1, Problem 1.11 The charge entering the positive terminal of an element is given by the expression qt)20e5.00t mC. The power delivered to the element is p(t)-9.2e8t w. Compute the current in the element as a function of time, the voltage...
Problem 4. A 10 mH inductor has a sudden current change from 200 mA to 100 mA in 1 ms. Find the induced voltage. Problem 5. A induced voltage across a 10 mH inductor is v(t) 120 cos (377t) V. Find (a) the expression for the inductor current and (b) the expression for the power. The current in a 25 mH inductor is given by the expressions: i(t) 0 i(t) 10 (1-e) mA Find the voltage across the inductor and...