Exp2 - Exp#2 Standalone And Computer-Based Instruments 1 Introduction The output of most transducers is an electrical signal Transmitting modulated

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Exp#2: Standalone And Computer-Based Instruments 1. Introduction The output of most transducers is an electrical signal. Transmitting modulated electrical voltages down conducting wires is a robust and inexpensive way to communicate sensor information, and it is often simple to construct secondary electrical circuits, if necessary, that process the information, making it directly observable, or recordable by the experimenter. 20 years ago, the array of recording devices included ingenious mechanical-electrical devices such as chart recorders and gauges. Today, almost all signals are eventually processed by computer, which has now become the host for instrument simulations , where the traditional role of the transducer/recorder is combined and moved inside the control box. Indeed, 10 years ago it looked as though all special-purpose equipment (and their manufacturers) would be replaced by this digital revolution. Instead, something interesting happened. Realizing the engineering and economic advantages of having a digital platform, the manufacturers of instruments such as oscilloscopes and function generators redesigned their entire product line so that they were also digital based, but with such speed and resolution as to make them act like their analog predecessors, only faster, better and cheaper. In the 341 lab, we have introduced a full range of state-of-the-art computer-based instrumentation and state-of-the-art standalone devices. In Fall02 this lab was named “Analog and digital instrumentation”. Now there is no such thing (almost) as analog instrumentation, and we compare instead two different design philosophies of digital instrumentation. Since the devices you will learn to use this afternoon are genuinely serious-caliber instruments, we can conclude with a realistic exercise that could be used directly in your future engineering career. The homework will be to conduct and report an evaluation of the comparative performance and economic advantages of the two different types of hardware (computer based, and standalone), using data from the lab and data dragged out from the internet soup. 2. The lab in general The lab itself is one of learning by doing. Superficially, the controls are rather easy to learn and since a combination of instruments is available, the effect of pushing one button can be verified quite easily by its effect on the other boxes. As we progress into the lab, we will discover that sometimes there are hidden subtleties and traps that must be detected, and we will understand that the correct use of these instruments cannot be done without care and attention. Still, the basic buttons are fast and easy. As a guide to the perplexed, here is a list of buttons and controls whose position and function needs to be learned for each instrument. Digital Oscilloscope
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This note was uploaded on 07/20/2009 for the course AME 341AL taught by Professor Pottebaum during the Fall '07 term at USC.

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Exp2 - Exp#2 Standalone And Computer-Based Instruments 1 Introduction The output of most transducers is an electrical signal Transmitting modulated

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