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1. Find the Vin-Vout transfer characteristic for this circuit over the range of -10V <Vin< 10V...
Sketch Vout at DC as a function of input voltage at DC for-5 V < Vin < 5V. Assume an ideal silicon diode. R1 10k R2 D1 10k
.65 Consider the circuit of Fig. P3.21 with a zener diode connected in place of the pn junction diode. If VzK = 5 V, plot the voltage uz versus the voltage VB over the range-12V < VO < 12V.
Sketch Vout at DC as a function of input voltage at DC for-5 V < Vin < 5V. Assume an ideal silicon diode. R1 10k R2 D1 10k
1. For the npn transistor shown in Fig. 1, assue a 98/99, V)0.7V and VCE(sal) 0.2V. Plot Voul, lc, IE ald Ic/IB as a function of IB for 0 < 1B < 150??. 10V 1k Figure 1
4. (20 points) Sketch and clearly label the transfer characteristic of the circuit for -25 V SVI S +25 V. Assume that the diodes can be represented by a piecewise-linear model with VDo 0.65V and n) 20 Ω. Assuming the specified Zenervo tage o V is measured at a currenL of 10 mA and that 20 Ω, represent the Zener by a piecewise-linear model. Find the following: a. Vu (when Vi =-6 V) is: b. Vo (when Vi 20 V)...
Choose what range of voltages at Vin will turn ON the LED. 12V 1k Vin * 5V LM339 Select one: a. Vin > -5.0V b. Vin < +5.0V O c. Vin > +5.0V d. Vin <-5.0V By analysing the following circuit from a logic (and electrical) perspective, determine which logic gate function is performed. 5V I 1k Art BRE 3k3 10k Select one: O a. OR gate O b. AND gate O C.XNOR gate o d. NAND gate e. NOT...
5. (8 points) Assume Vin = 5 sinut (for 0 <<<), ideal diode model and zero initial condition across G. Now, plot the input and output as a function of time on the same plot for each circuit shown below (show every feature and value clearly) Vino th o Vout b) Vin Vout TU c) Vin Ae U i F d) o Var Vina K D BIP are
R1 R2 502 10V 10012 8V - 40V R3 <2000 Find the total current going over each resistor. Make sure to indicate which direction the currents are traveling in by drawing a good picture.
use thevenins theorem 5.62 In the network in Fig. P5.62, find V, using Thévenin's theorem. 12 V 1ke w to 5v.<$ 250 kn oi of Figure P5.62
1. Find v(t) fort> 0 in the circuit in below: t=0 222 w 622 w + 10V 2 F +1 50 V Assume the switch has been open for a long time and is closed at t=0.