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4. (10 points) consider the system of 4 independent components with block diagram below (a) Give...
5. A system consisting of n components is said to be a k-out-of-n system (ksn) if...
5. A system consisting of n components is said to be a k-out-of-n system (ksn) if the system functions during a given mission time if and only if at least k of the n components function. Suppose that all components function independently of each other. a) If the ith component functions with probability P, i-1,2,3 derive the formula for the probability that a 2-out-of-3 system functions. b) Repeat part a) for a 3-out-of-4 system. c) Calculate the probability that the...
Consider a system consisting of three components as pictured. The system will continue to function as...
Consider a system consisting of three components as pictured. The system will continue to function as long as the first component functions and either component 2 or component 3 functions. Let X1, X2, and X3 denote the lifetimes of components 1, 2, and 3, respectively. Suppose the Xi's are independent of one another and each X, has an exponential distribution with parameter λ. (a) Let Y denote the system lifetime. Obtain the cumulative distribution function of Y and differentiate to...
Draw a block diagram/schematic of the entire accumulator- based processor system with the clock d...
Draw a block diagram/schematic of the entire accumulator- based processor system with the clock divider showing the connections between all four components (the 4-bit register, the 4-bit ALU, the seven-segment display, and the clock divider). You will implement this entire system on the FPGA board in lab task 5. Make this block diagram/ schematic large enough to add these additional details: i. Give each component a unique and meaningful name . İİ.Label each component's input/output ports with the appropriate names...
Problem 4 Consider the system of components connected as depicted below. The system can be thought...
Problem 4 Consider the system of components connected as depicted below. The system can be thought of as being comprised of two subsystems: one with components A and B, and the other with components C and D. Components A and B are connected in parallel, therefore that subsystem works iff either A or B works. Since C and D are connected in series, that subsystem works iff both C and D work. Components work independent of each other (that is,...
8 (10 polints) A ystem conslists of 4 components ln a eries, so the system works properly if all of the for 1- 1,2,3,4 components are functional. In other words, the system fails if and only I...
8 (10 polints) A ystem conslists of 4 components ln a eries, so the system works properly if all of the for 1- 1,2,3,4 components are functional. In other words, the system fails if and only If at least one of its components als Suppose the probability that the component falils is less than or equal to p Flad n pper bound on the probability that the syetem fails 6. (10 points) A system consists of 4 components in a...
(1) What components should be included in a block diagram for a process control system? (2)...
(1) What components should be included in a block diagram for a process control system? (2) What are the two common analog signal transmission standards? (3) What does the transfer function of a system tell us? (4) What are the common performance metrics used to evaluate a system? (5) What is the difference between the response of a first-order system and a second-order system to a unit step change input? (6) How to visually evaluate the quality of a transient...
Q-2 Suppose a system, as shown in the block diagram of a unity feedback loop, below,...
Q-2 Suppose a system, as shown in the block diagram of a unity feedback loop, below, has a transfer function, P(S) = . We want to stabilize this system with a proportional integral (PI) controller, such that the poles of the characteristic equation are to be: s, = s2 = S3 = -1. If we let the controller, C(s) = , determine all parameters (a, a, b , K, and K) in the following transfer function in order to satisfy...
5. A 10 kg block sits on a 20º incline. (4 pts.) Draw a free-body diagram...
5. A 10 kg block sits on a 20º incline. (4 pts.) Draw a free-body diagram that labels all of the forces on the block. (4 pts.) Choose a coordinate system and write out the X and Y components of each force vector.
4. Block Diagrams (a) Consider a causal LTI system with transfer function Show the direct-form block diagram of Hi(s) b) Consider a causal LTI system with transfer function H282+4s -6 H (s) = 2 Show...
4. Block Diagrams (a) Consider a causal LTI system with transfer function Show the direct-form block diagram of Hi(s) b) Consider a causal LTI system with transfer function H282+4s -6 H (s) = 2 Show the direct-form block diagram of Hi(s) (c) Now observe that to draw a block diagram as a cascaded combination of two 1st order subsystems. (d) Finally, use partial fraction expansion to express this system as a sum of individual poles and observe that you can...
4) for the system given block diagram below; a) find the transfer function of the control...
4) for the system given block diagram below; a) find the transfer function of the control system. B) calculate and & values and explain what kind of dynamic behavior the system exhibits. c) if the unit digit effect is made in R (s ), infer the response equality of the system. 0.025 5 0.2.8+1 0.5-5+1 C($)
5. A system consisting of n components is said to be a k-out-of-n system (ksn) if the system functions during a given mission time if and only if at least k of the n components function. Suppose that all components function independently of each other. a) If the ith component functions with probability P, i-1,2,3 derive the formula for the probability that a 2-out-of-3 system functions. b) Repeat part a) for a 3-out-of-4 system. c) Calculate the probability that the...
Consider a system consisting of three components as pictured. The system will continue to function as long as the first component functions and either component 2 or component 3 functions. Let X1, X2, and X3 denote the lifetimes of components 1, 2, and 3, respectively. Suppose the Xi's are independent of one another and each X, has an exponential distribution with parameter λ. (a) Let Y denote the system lifetime. Obtain the cumulative distribution function of Y and differentiate to...
Draw a block diagram/schematic of the entire accumulator- based processor system with the clock divider showing the connections between all four components (the 4-bit register, the 4-bit ALU, the seven-segment display, and the clock divider). You will implement this entire system on the FPGA board in lab task 5. Make this block diagram/ schematic large enough to add these additional details: i. Give each component a unique and meaningful name . İİ.Label each component's input/output ports with the appropriate names...
Problem 4 Consider the system of components connected as depicted below. The system can be thought of as being comprised of two subsystems: one with components A and B, and the other with components C and D. Components A and B are connected in parallel, therefore that subsystem works iff either A or B works. Since C and D are connected in series, that subsystem works iff both C and D work. Components work independent of each other (that is,...
8 (10 polints) A ystem conslists of 4 components ln a eries, so the system works properly if all of the for 1- 1,2,3,4 components are functional. In other words, the system fails if and only If at least one of its components als Suppose the probability that the component falils is less than or equal to p Flad n pper bound on the probability that the syetem fails 6. (10 points) A system consists of 4 components in a...
Q-2 Suppose a system, as shown in the block diagram of a unity feedback loop, below, has a transfer function, P(S) = . We want to stabilize this system with a proportional integral (PI) controller, such that the poles of the characteristic equation are to be: s, = s2 = S3 = -1. If we let the controller, C(s) = , determine all parameters (a, a, b , K, and K) in the following transfer function in order to satisfy...
5. A 10 kg block sits on a 20º incline. (4 pts.) Draw a free-body diagram that labels all of the forces on the block. (4 pts.) Choose a coordinate system and write out the X and Y components of each force vector.
4. Block Diagrams (a) Consider a causal LTI system with transfer function Show the direct-form block diagram of Hi(s) b) Consider a causal LTI system with transfer function H282+4s -6 H (s) = 2 Show the direct-form block diagram of Hi(s) (c) Now observe that to draw a block diagram as a cascaded combination of two 1st order subsystems. (d) Finally, use partial fraction expansion to express this system as a sum of individual poles and observe that you can...
4) for the system given block diagram below; a) find the transfer function of the control system. B) calculate and & values and explain what kind of dynamic behavior the system exhibits. c) if the unit digit effect is made in R (s ), infer the response equality of the system. 0.025 5 0.2.8+1 0.5-5+1 C($)
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