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ME375 Dynamic System Modeling and Control PowerPoint PPT Presentation

ME375 Dynamic System Modeling and Control - Title: ME375 Dynamic System Modeling and Control Author: Bin Yao Last modified by: User Created Date: 6/17/1995 11:31:02 PM Document presentation format

Title: ME375 Dynamic System Modeling and Control Author: Bin Yao Last modified by: User Created Date: 6/17/1995 11:31:02 PM Document presentation format

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ME375 Dynamic System Modeling and Control - CHAPTER 6 MESB 374 System Modeling and Analysis Hydraulic (Fluid) Systems Hydraulic (Fluid) Systems Basic Modeling Elements Resistance Capacitance Inertance Pressure ...

CHAPTER 6 MESB 374 System Modeling and Analysis Hydraulic (Fluid) Systems Hydraulic (Fluid) Systems Basic Modeling Elements Resistance Capacitance Inertance Pressure ...

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ME375 Dynamic System Modeling and Control - Ex: Let's find the forced response of a stable first order system: to a sinusoidal input: ... Forced Response to Sinusoidal Inputs. Frequency Response ...

Ex: Let's find the forced response of a stable first order system: to a sinusoidal input: ... Forced Response to Sinusoidal Inputs. Frequency Response ...

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ME375 Dynamic System Modeling and Control - MESB 374. System Modeling and Analysis. Inverse Laplace Transform and I/O Model ... To eliminate one intermediate variable, solve for the variable from one of the ...

MESB 374. System Modeling and Analysis. Inverse Laplace Transform and I/O Model ... To eliminate one intermediate variable, solve for the variable from one of the ...

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ME375 Dynamic System Modeling and Control - Find the free and forced responses of the car suspension system without tire model: ... Example Car Suspension System. Step 2: Solve for output using ...

Find the free and forced responses of the car suspension system without tire model: ... Example Car Suspension System. Step 2: Solve for output using ...

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ME375 Dynamic System Modeling and Control - Plant Equation (Transfer function model that we all know how to obtain ? ... position is sensed by a rotational potentiometer with a static sensitivity of KS ...

Plant Equation (Transfer function model that we all know how to obtain ? ... position is sensed by a rotational potentiometer with a static sensitivity of KS ...

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ME375 Dynamic System Modeling and Control - Orifices, valves, nozzles and friction in pipes can be modeled as fluid resistors. ... Ex: The flow that goes through an orifice or a valve and the turbulent flow that ...

Orifices, valves, nozzles and friction in pipes can be modeled as fluid resistors. ... Ex: The flow that goes through an orifice or a valve and the turbulent flow that ...

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ME375 Dynamic System Modeling and Control - Understand System Function, Define Problem, and ... Suspension System ... Suspension System. MDOF Suspension. Simplified Schematic (with tire model) Assume ref. ...

Understand System Function, Define Problem, and ... Suspension System ... Suspension System. MDOF Suspension. Simplified Schematic (with tire model) Assume ref. ...

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ME375 Dynamic System Modeling and Control - Inverted Pendulum (1) Derive a mathematical model for a pendulum. ... Example (Simple Pendulum) EOM: is very small. Equilibrium position: Assumption: Linearized EOM: ...

Inverted Pendulum (1) Derive a mathematical model for a pendulum. ... Example (Simple Pendulum) EOM: is very small. Equilibrium position: Assumption: Linearized EOM: ...

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ME375 Dynamic System Modeling and Control - Energy supplied is stored in its electric field and can affect future circuit response. ... Draw Simplified Schematics Using Basic Elements. Develop Mathematical Model ...

Energy supplied is stored in its electric field and can affect future circuit response. ... Draw Simplified Schematics Using Basic Elements. Develop Mathematical Model ...

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ME375 Dynamic System Modeling and Control - Open-Loop (Feedforward) vs Closed-Loop (Feedback) Control ... inputs to the system (e.g., the gas pedal position) so that the output of the ...

Open-Loop (Feedforward) vs Closed-Loop (Feedback) Control ... inputs to the system (e.g., the gas pedal position) so that the output of the ...

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ME375 Dynamic System Modeling and Control - System Modeling and Analysis. Model Reduction (Electro-mechanical Systems) How do we determine two systems are identical? ... One Example. Unit-Step Response of ...

System Modeling and Analysis. Model Reduction (Electro-mechanical Systems) How do we determine two systems are identical? ... One Example. Unit-Step Response of ...

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ME375 Dynamic System Modeling and Control - System Modeling and Analysis. Forced Response. Forced Responses of LTI Systems ... Forced response to sinusoidal inputs at different input frequencies ...

System Modeling and Analysis. Forced Response. Forced Responses of LTI Systems ... Forced response to sinusoidal inputs at different input frequencies ...

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