Landers, Robert G. - Department of Mechanical and Aerospace Engineering, University of Missouri-Rolla

• Machining Process Control A machining force process of a turning operation that includes servomechanism dynamics is
• Dr. Robert G. Landers Page 1 ME 584 Computer Control of Manufacturing Systems
• ME/AE/CompE/EE 378 Mechatronics Questions: Actuators
• Freeze Extrusion Fabrication In a freeze extrusion fabrication process a ceramic slurry is extruded through a syringe. A stepper
• Time Response Find the output response, y(t), for the system in Figure 1.1 when ( )
• ME/AE/CompE/EE 378 Mechatronics Questions: Signal Conditioning
• Control Fundamentals A DC motor has the following parameters: Jm = 6103
• ME/AE/CompE/EE 378 Mechatronics Questions: Microprocessors
• Electrical Systems For the circuit in Figure 1.1, complete the following
• Frequency Response For the closedloop system shown in Figure 1.1 with ( )
• Operational Amplifier General Description
• Coordinated Motion Control A manufacturing workstation has two axes. If 3 V is input to the xaxis motor, the linear velocity
• ME/AE/CompE/EE 378 Mechatronics Questions: Performance Specifications
• Dynamic System Performance For the dynamic systems in equations (1)(3), complete the following
• Create the Routh table and determine how many poles of the following closedloop transfer function are in the left splane, in the right splane, and on the imaginary axis
• ME/AE/CompE/EE 378 Mechatronics DIGITAL LOGIC LABORATORY
• Dr. Robert G. Landers Page 1 ME 584 Computer Control of Manufacturing Systems
• Hierarchical Control Consider a lathing operation with the feed linear axis and force process equations given below in
• Interpolation Create a program for linear interpolation of a threeaxis manufacturing machine with a constant
• Modeling Fundamentals For the difference equation in equation (1) complete the following tasks
• ME 455: Modeling and Control of Manufacturing Processes (Fall 2010) Lecture 10:0010:50 MWF (260 Toomey Hall)
• Block Diagrams and Simulation For the systems given in equations (1) and (2), complete the following
• ECL100 Linear Output Eddy Current Driver
• Fluid Systems For the system in Figure 1.1, the pipe is circular and has length L and diameter d. The fluid
• ME/AE/CompE/EE 378 Mechatronics ROTATIONAL ENCODER LABORATORY
• 2003, Kistler Instrumente AG, PO Box, Eulachstr. 22, CH-8408 Winterthur Tel +41 52 224 11 11, Fax 224 14 14, info@kistler.com, www.kistler.com
• Product specification File under Integrated Circuits, IC04
• Observer Design For the massspringdamper system shown in Figure 1, the parameters are m = 1 kg, b = 10
• Dynamic Modeling For the mechanical translational system shown in Figure 1, determine a set of firstorder
• Landers, Ulsoy, and Furness 1 Process Monitoring and Control of Machining Operations
• Compensator Design For the massspringdamper system shown in Figure 1, the parameters are m = 1 kg, b = 10
• Compensators For the closedloop system in Figure 1 with ( ) 1=sGC and ( ) 2
• Block Diagrams For the block diagram shown in Figure 1.1, determine the transfer functions
• ME/AE 381 Mechanical and Aerospace Control Systems MINI CNC LABORATORY
• Manufacturing Equipment Control An electric drive spindle has the following parameters: Jm = 2103
• ME 381: Mechanical and Aerospace Control Systems (Fall 2009) Lecture 9:009:50 MWF (239 EE)
• Current Output and Adjustment The 0-20mA current output is derived from the 0-10V output.
• Propeller Education Kit Labs Fundamentals
• ME/AE/CompE/EE 378 Mechatronics MICROCONTROLLER LABORATORY
• Propeller Manual Version 1.1
• State Variable Formulation A mechanical translational system and four first order linear differential equations describing its
• ElectroMechanical Systems A transducer used to measure translational motion is shown in Figure 1.1. The permanent magnet
• ME/AE/CompE/EE 378 Mechatronics DIGITAL TO ANALOG CONVERTER LABORATORY
• ME 279: Automatic Control of Dynamic Systems (Fall 2010) Lecture Section B: 11:0011:50 MWF (254 Toomey Hall)
• ME 211: Linear Systems (Summer 2009) Lecture 10:0010:50 MWF (Toomey Hall 295)
• Mechanical Translational Systems For the system in Figure 1.1, the springs are at their free lengths when the mass displacements
• Mechanical Rotational Systems For the system in Figure 1.1, the springs are at their free lengths when the inertia angular
• Linearization A system is described by the nonlinear differential equation in equation (1). Complete the
• Transform Analysis Using the definition of the Laplace transform, Laplace transform properties, and the integral
• Series 8000 Available in 3 lengths
• For the system shown in Figure 1 with ( ) , sketch the Root Locus
• ME 279, Section B: End Term Laboratory Control of a Fuel Cell Air Flow Control System
• ME 279, Section B: Laboratory Modeling and Control of a Fuel Cell Air Flow Control System
• Dynamic Analysis The differential equation describing the system in Figure 1 is given in equation (1). Numerically
• ME 378: Mechatronics (Spring 2011) Lecture 10:0010:50 MWF (Toomey 260)
• ME/AE/CompE/EE 378 Mechatronics Questions: Dynamic Modeling
• ME/AE/CompE/EE 378 Mechatronics Questions: Sensors and Transducers
• ME/AE/CompE/EE 378 Mechatronics Questions: Control Systems
• Overview and Applications NI Full-Featured E Series devices are the fastest and the most accurate
• ME/AE/CompE/EE 378 Mechatronics VOLTAGE AMPLIFIER LABORATORY
• Introduction to xPC Target in the Caterpillar Mechatronics Laboratory xPC Target is a powerful and user friendly tool for rapidly implementing real-time control
• ME/AE/CompE/EE 378 Mechatronics ELECTROHYDRAULIC CYLINDER POSITION CONTROL LABORATORY
• State Equation For the massspringdamper system shown in Figure 1, the parameters are m = 1 kg, b = 10
• Optimal Control For the massspringdamper system shown in Figure 1, the parameters are m = 1 kg, b = 10
• ME/AE 381 Mechanical and Aerospace Control Systems TWO FLYWHEEL SYSTEM LABORATORY
• Digital Control A dynamic model of a DC motor is given in equation (1) where m(s) is the DC motor angular
• Machining Process Modeling Questions Simulate the turning operation shown in Figure 1.1. Note Figure 1.1 is not drawn to scale. The
• Machining Chatter Questions A data file data1.dat is posted on the course website. This file contains machining force data (in
• Laser Metal Deposition Questions Given a constant powder flow rate of m and a constant table velocity of v in a laser metal
• Friction Stir Welding Download the files fswss.txt and fswdyn.txt from the course website. These files contain
• ME 584: Computer Control of Manufacturing Systems WINTER 2000
• ME 584 Computer Control of Manufacturing Systems ASSIGNMENT #2
• ME 584 Computer Control of Manufacturing Systems ASSIGNMENT #4
• ME 584 Lab #1 Part Program and Force Model Calibration
• Dr. Robert G. Landers Page 1 ME 584 Computer Control of Manufacturing Systems
• Dr. Robert G. Landers Page 1 ME 584 Computer Control of Manufacturing Systems
• Dr. Robert G. Landers Page 1 ME 584 Computer Control of Manufacturing Systems
• ME 584 Computer Control of Manufacturing Systems LABORATORY #5
• Dr. Robert G. Landers Page 1 ME 584 Computer Control of Manufacturing Systems
• ME 584 Computer Control of Manufacturing Systems LABORATORY #6 PROCESS CONTROL
• ME/AE/CompE/EE 378 Mechatronics Questions: Digital Logic
• Controllability and Observability For the system in equation (1) determine if each mode is controllable, stabilizable, observable,
• Control System Hardware Create a block diagram of a DC motor that includes electrical dynamics, viscous friction, and
• Dr. Robert G. Landers Page 1 ME 584 Computer Control of Manufacturing Systems
• Steady State Error For the system shown in Figure 1 with ( )
• For the system shown in Figure 7, set up the equations in matrix form that would allow you to determine the transfer function
• ME 355: Manufacturing Equipment Automation (Spring 2010) Lecture 9:009:50 MWF (260 Toomey Hall)
• Manufacturing Equipment Modeling For a linear axis actuated by an electric motor complete the following
• 2005 Fairchild Semiconductor Corporation DS005308 www.fairchildsemi.com September 1983
• State Space Representation Determine the statespace representation for the differential equation in equation (1) where y is
• Matrix Algebra Calculate the eigenvalues and righthanded eigenvectors of the matrix in equation (1), verify the
• ME/AE/CompE/EE 378 Mechatronics ACTIVE ANALOG FILTER LABORATORY
• Derive the Laplace transforms for the following time functions: a. f(t) = 1
• Dr. Robert G. Landers Page 1 ME 584 Computer Control of Manufacturing Systems
• ME/AE/CompE/EE 378 Mechatronics ELECTROHYDRAULIC CYLINDER POSITION SENSOR LABORATORY
• Breadboarding guide This guide is intended to provide some general guidance in the use of a solderless
• ME 584 Computer Control of Manufacturing Systems ASSIGNMENT #5
• ME/AE/CompE/EE 378 Mechatronics ELECTROHYDRAULIC CYLINDER MODELING LABORATORY
• ME 279: Automatic Control of Dynamic Systems (Fall 2011) Lecture Section B: 11:0011:50 MWF (254 Toomey Hall)