2. Which type of multiplexing can not be used for Analog signalling? a) FDM b) TDM c) WDM d) None
Q: 9) Find the reactance and the impedance of the circuit. Calculate the current and the resonance…
A:
Q: The magnitude of the frequency response of r(t) is shown below, use the Fourier Transform properties…
A: Since you have posted a question with multiple subparts, we will provide the solution to the first…
Q: Assume that at the instant the 2A dc current source is applied to the circuit in Fig. P8.27, the…
A: Given: In this question, the given details are, Assume that at the instant the 2A dc current source…
Q: x=2V sinft-) Consider the above series AC circuit, determine the series current I, in its phasor…
A: Note: Only active power will be available in purely R Load Only Reactive power will be available in…
Q: parall plate capa Tully charged to 2.2 nC. The separation distance between the plates is d1= 6 cm.…
A: Given a Parallel plate capacitor is given Charge stored (Q) = 22 nC Voltage applied across…
Q: 7.5-2 Determine and sketch the inductor current i(t) for t> 0 in the circuit of Fig. P7.5-2. Answer:…
A:
Q: A unity negative feedback system has an open loop transfer function k G₁ == s(s+10) or the system to…
A: In this question We need to determine the value of K for damping ratio = 0.25 We know Characteristic…
Q: Write the UNSIMPLIFIED Boolean equation for output X of the following logic diagram, in terms of…
A: The given problem is from logic circuit. The detailed solution is given in the next step
Q: Find the maximum power that can be delivered to the resistor R in the circuit of the figure. Take Vs…
A: We need to find out the maximum power transfered to given load .
Q: QUESTION 3. In the reverse-bias region the saturation current of a silicon diode is about 0.1 μA (T=…
A: Given, Reverse saturation current (Isat(1)) = 0.1uA at temperature, T1 = 20°C We need to find…
Q: A synchronous sequential circuit is given with a one-bit input m and a three-bit output Y. When m =…
A: The given problem is from sequential circuits. The detailed solution is given in the next step
Q: The unit vectors, a, b and ê are mutually perpendicular and are related by âxô = ĉ. If the…
A: The given problem is from wave propagation. The detailed solution is given in the next step
Q: . Consider a random process x(t) = Acos(wot+0), where A and wo are real constants, and Ⓒ is a random…
A:
Q: - +1 R + R 2 + അ UL - + Vc
A:
Q: Two spherical shells with radii Ra=9.0 [m] and Rb=7.7 [m], are at powers Va=-86 [V] and Vb=-56.5…
A: Radius of shell 1 Ra=9.0 [m] Radius of shell 2 Rb = 7.7 [m] Va=-86 [V] Vb=-56.5 [V] Relative…
Q: In the circuit given below, / = 115 mA and I2 = 50 mA. Write the node-voltage equations by…
A: Kirchoff's Voltage Law The Voltage Law of Gustav Kirchhoff is the second of his fundamental laws…
Q: For the circuit below with R₁ = 10N, R₂ = 12N, X₁ =9, A = 44, B = -16 degrees, calculate the…
A: The phasor problem is solved as shown below.
Q: Alternative terminal conditions do not change the transversality condition of the Maximum Principle.…
A: Given: About transversality condition of maximum principle Find: Is this…
Q: If C 45 µF, determine the equivalent capacitance for the combination shown. a) 17.0 µF, b) 30.0 µF,…
A: Given data, Circuit diagram is given as,
Q: ! Required information Consider the bridge circuit given below, where V = 220 V. V 2 ΚΩ 3 ΚΩ 5kQ2 a…
A:
Q: D I₁ + t=0 VR R - iR + UL elle L Vc + - Tic C
A:
Q: Problem 04.004 - Linearity prinicple in circuits Assume / = 1 A and use linearity to determine / in…
A:
Q: 6- Got out the internal charact. From the external charact. 7- Explain the effect of speed on the…
A: Types of DC Machine Seperetely excited machine Self excited machine Shunt DC Machine Series DC…
Q: QUESTION 3 A voltmeter, having a sensitivity of 1,000 £2/V, reads 100V on its 150V scale when…
A:
Q: The figure shows an instrumentation amplifier driven by a bridge. Obtain the gain vdviof the…
A: Given, Circuit is R = 9 k ohm We need to determine the gain, Vo/Vi
Q: The resistance of a 125 2 strain gauge changes by 1 ohm for 4000 micro strain. The gauge factor is O…
A:
Q: What is the ERP if the output of transmitter is 50 kW, the coax line loss is 300 W, and the antenna…
A: The given problem is from antenna theory. The detailed solution is given in the next step
Q: Given the impulse response of a DT-LTI system h(n) = -3(0.8)"u(n) a.) Find the magnitude and phase…
A:
Q: Statement 1: Shunt resistance of an ammeter is low. Statement 2: The shunt maybe connected in series…
A:
Q: Problem 04.011 - Superposition with dependent sources Use the superposition principle to determine…
A:
Q: A proton is moving at 2.0 x 107 m/s perpendicular a magnetic field of 30 mT. What is the magnetic…
A: Given data, Velocity of proton v=2×107 m/s. Magnetic field B=2 mT=2×10-3 T. Charge on proton…
Q: The static characteristic of a sensor that distinguishes the desired signal from an interference is…
A: Relaibility of the sensor implies it give the same value for given input for all the time .…
Q: Draw schematic diagrams of the three basic configurations of transistor amplifier circuits
A: Types of BJT Configuration in Amplifier circuit Common base amplifier circuit Common emitter…
Q: 3. A constant voltage at a frequency of 1 MHz is applied to an inductor in series with a variable…
A: Solution (3) - Frequency = 1MHz The current is maximum, when capacitor = 500 pF The current is…
Q: Identify the following: 1. This refers to the regions of magnetic alignment. 2. This phenomenon is…
A: it is asked to identify the definitions given
Q: If C 45 µF, determine the equivalent capacitance for the combination shown. a) 17.0 µF, b) 30.0 µF,…
A:
Q: A parallel-plate air capacitor with a capacitance of 257 PF has a charge of magnitude 0.140 μC on…
A: Given data, Capacitance C=257 pF=257×10-12 F. Charge is given Q=0.140 μC=0.140×10-6 C. Plate…
Q: The inductor was initially discharged. The switch is closed for 10 seconds. What is the voltage…
A:
Q: The circuit has an RMS secondary voltage of 22.16 volts. One of the diodes is broken. Considering…
A: Given data Primary voltage, VpRMS=120 V Secondary voltage, VsRMS=22.16 V Supply frequency, f=60 Hz…
Q: 16 -3 Q6: Consider a MOS device with a p-type silicon substrate with N = 2×10¹ cm³. The a -2. oxide…
A: Given: In this question, the given details are, Consider a MOS device with a p-type silicon…
Q: The AS-I bus network, O a. does not support Ob. supports analog data. QUESTION 7 The most powerful…
A: The AS I bus network________analog data. The most powerful hierarchy among industrial applications…
Q: 8. For this circuit, find the current I₁. A) 5.87 + j0.88 A B) 6.35 + j1.41 A C) -48 + j24 A D) 2.27…
A:
Q: Problem 04.012 - Superposition with competing sources Consider the given circuit where V₁ = 10 V and…
A: In this question we need to find a voltage Vo using superposition theorem
Q: In the digital circuit given below, the 'F' is equal to B Do
A: Given Boolean circuit:
Q: Problem 03.035 - Mesh analysis: Independent voltage sources In the circuit given below, R = 5 k.…
A: The given problem is from mesh analysis. The detailed solution is given in the next step
Q: In the op amp circuit, find the value of R so that the power absorbed by the 10-k resistor is 10 mW.…
A:
Q: (15) Name three basic forms for interconnect ng subsystems. For each form, state how the equivalent…
A: 15)Interconnecting subsystem:⇒cascade⇒feedback⇒parallel
Q: Series connection of switches would normally create O NOR logic gate O NAND logic gate O AND LOGIC…
A:
Q: 9. In a circuit with a 12 volt supply and 40 resistance, the power consumed is watts.
A: Given data, Supply voltage V = 12 V. Resistance R=4 Ω.
Q: A d.c. 3-wire system is to be converted into a 3-phase, 4-wire system by adding a fourth wire equal…
A:
Please assist with question 2 with details on how to do it. Thank you
Step by step
Solved in 2 steps with 1 images
- (i) Below (figure 1) is an example of a VHDL code for a multiplexer. --multiplexer.vhd --Common Multiplexer LIBRARY ieee; USE ieee.std_logic_1164.ALL; ENTITY multiplexer IS PORT(el, d3, d2, d1, d0 : IN STD_LOGIC; a,b.c,d,e,f.g.h.ij.k,lm,n:OUT STD LOGIC); END multiplexer; ARCHITECTURE mult OF multiplexer IS SIGNAL input : STD LOGIC_VECTOR (4 downto 0); SIGNAL output : STD LOGIC_VECTOR (13 downto 0); BEGIN input ca el & d3 & d2 & d1 & d0; WITH input SELECT "00000010000001"WHEN "10000",--Input A "00000010000001"WHEN "10001",- "00000010000001"WHEN "10010",- "00000010000001"WHEN "10011",- "00000011001111"WHEN "10100" "00000011001111"WHEN "10101 "00000011001111"WHEN "10110" "00000011001111"WHEN "10111" "10011110000001"WHEN "11000" "10011110000001"WHEN "11001" "10011110000001"WHEN "11010, "10011110000001"WHEN "11011" "10011111001111"WHEN "11100" "100111110011i1"WHEN "11101",- "10011111001111"WHEN "11110",-- "10011111001111"WHEN "11111":-. "00000010000001" -00 --"00000011001111"-01…4. A data signal with bipolar voltage levels is shown below. The decision threshold is 0 volts. The logic levels are +1 volt for logic 1 and -1 volt for logic 0. Noise with the P.D.F. shown corrupts the signal. Find the probability of error at some instant of time on the condition that logic 0 is sent. LOGIC 1 +1 VOLT -2 1/2 دمت ~IN kla THRESHOLD +2 NOISE P.D.F. -I VOLT. LOGIC 0Q6: Sectoring is a way to do what? a. Achieve branch circuits. b. Put each phone call in a different time slot. c. Do SS7 look-ahead call placement. d. Partition Voice mail boxes e. It is an ISDN-PRI way of brining in trunks f. Achieve frequency reuse. g. None of the above
- Given that the base address is FoH. 1. Create a new asm project “Lab2_Q1.asm". Assume that port A of 8255A PPI is connected to 8085. Write assembly code to send the value of FFH to FoH. Enter a delay of 2 ms for each transmission.Exercise (3): A modem transmits using an 4-level signaling technique. If each signaling element has duration of 0.5ms. (a) Show the timing-diagram for a data stream 10111000111100010011 (b) Find the baud Rate and the bit Rate (c) How could you duplicate the transmission speed? Show the timing-diagram for a given data stream in (a). (d) How many bits per level are required if a modem using 7-level signalling mode? Exercise (4): A device is sending out data at the rate of 1000 bps. a. How long does it takes to send out 10 bits? b. How long does it take to sent out a single character (8bits)? c. How long does it take to send a file of 100,000 characters?2. Digital signal is also compatible with multiplexing in what type? A. TDM B. FDM C. WDM D. All of the above
- The following data are transmitted in a serial communication system (P is the parity bit). What parity is being used in each case? a. ABCDEFGHP = 010000101 b. ABCDEFGHP = 011000101 c. ABCDP = 01101 d. ABCDEP = 101011 e. ABCDEP = 111011Question 3. Select the correct statement regarding the modulated FSK waveform.a. The modulated signal does not accurately represent the message because the amplitude of the modulated signal does not change with changes in the logical data.b. The modulated signal indicates changes in frequency, but no changes in amplitude. Therefore, the modulated signal is distorted and does not accurately represent the logical data.c. It can be seen that logical “1s” and “0s” are accurately represented by changes in carrier frequency; therefore, the modulated signal accurately represents the logical data.d. There are no accurate statements above.Implement 8-bit asynchronous ripple counter and showing truth table, timing diagram. Also show how it can be used as frequency divider?
- Answer all questions below: 1. Draw the general block diagram of Frequency Division Multiplexing (FDM) 2. Multiplexing is a technique that allows the (simultaneous) transmission of multiple signals across a single data link. Figure Q2 below shows a multiplexer with four 500 kbps data stream inputs and 1 data stream output where the unit of data is 1 bit. Determine: i. ii. iii. 500 kbps The type of multiplexing technique used. The input bit duration. The output bit rate. 500 kbps 500 kbps. 500 kbps. ... ... ... 1 0 1 0 1 0 1 0 0000 1 1 1 1 0 1 0 0 MUX Figure Q2 Frames 0101 0001 110100010101what is idss value?Q22) This true or false Question from DIGITAL COMMUNICATIONS Course,just write for me the final answer. The bit error probability for orthogonal signaling is greater than the bit error probability for bipolar signaling. a. True b. False