4. (10 Points) Draw the output waveform for the following 4-input multiplexer with given input waveforms....
digital logic design
4. (10 Points) Draw the output waveform for the following 4-input multiplexer with given input waveforms. S1 SO Y 0 0 IO MUN 0 1 11 SI SO 1 0 12 1 1 Si So 13 G Search or tune TIRI
QUESTION 1. (15 points) GIVEN THE INPUT WAVEFORMS, ASSUMING VOLTAGE VOur IDEAL OP AMP. DRAN THE OUTPUT IVEN THE INPUT WAVE A. DRAW THE OUTPUT VOLTAGE Voor ON TOP OF INPUT SIGNAL V +V B. DRAW THE OUTPUT VOLTAGE Vour ON TOP OF INPUT SIGNAL V +V +V Vi. C. HOW MUCH VOLTAGE WOULD HAVE TO BE AT THE POTENTIOMETER IN ORDER TO STABILIZE THE OUTPUT AT EXACTLY 0 VOLTS? +12 V +12 V V) Voltmeter 12 V 5V -12V...
Given the following Karnaugh map AB CD 00 01 11 10 01 011 Draw a circuit that realizes the function above using one 8-to-1 multiplexer and any number of NAND gates. Observe that A, B and C are connected to the select inputs, SO, S1, and S2. 4-to-1 MUX -10 12 13 14 15 16 17 So Si S2 ABC
A multiplexer (MUX) is a logic function that combines several inputs and a control input, the output of which is one of the inputs selected by the control input. A2-1 MUX is shown below: Where X and Y are inputs and S is the control input. The Truth Table of the 2-1 MUX is given by: Show that the 2-1 MUX forms a complete set of logic functions by realizing a NOR gate using only 2-1 MUXes.
If the input voltage V2 = 100m Sin (12566t)and V1 = OmV. Draw the output waveforms obtained from V01 and V02 by showing clearly the amplitude and phase, corresponding to the input waveform . the gain= 60.97 for calculations. Assume that the common mode gain is zero.
or the following circuit, sketch the output voltage, given an input voltage waveform as shown on the axes below. Assume a constant voltage drop diode model with Vo- 0.7. +15.0V 4 1mA OVout 3009 3 Vo -4 0 0.2 0.4 0.6 0.8 in
or the following circuit, sketch the output voltage, given an input voltage waveform as shown on the axes below. Assume a constant voltage drop diode model with Vo- 0.7. +15.0V 4 1mA OVout 3009 3 Vo -4...
3. a. b. Apply the input waveforms (A,B,&C) of the following figure to a NOR gate, & draw the output waveform. Repeat with C held permanently LOW. Repeat with C held HIGH. 10
1. If the waveforms in Figure 7-72 are applied to an active-LOW input S-R latch, draw the re sulting Q output waveform in relation to the inputs. Assume that Q starts LOW
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circuits
(Find the output voltage of a given circuit and also draw the waveforms. θέα = 1 sin(1000)V, take V*= 15V and Va-15V (20 points+10 Bonus) 1ΟΜΩ 100kΩ 0.01μ F
2. Draw the output voltage waveform (mark axes with numerical values) of the following three- phase full-wave diode rectifier supplied from a balanced Y-connected ac source as shown in Fig. 1. The three input phase voltages are given in Fig. 2. Also calculate the de value of the output current if the load resistance is 5 2. Draw the line b current ib wave form. Secondary Fig. 1. Three-phase diode rectifier for problem 2 160 55.5 V an Vba 120...