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Measurement Hardware Sensor: Transducer: Signal Conditioner:

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Presentation on theme: "Measurement Hardware Sensor: Transducer: Signal Conditioner:"— Presentation transcript:

1 Measurement Hardware Sensor: Transducer: Signal Conditioner:
Signal Processor:

2 Sensors and Transducers

3 A Simple Measurement System
liquid stem bulb scale Sensor: Transducer: Signal Conditioner: Signal Processor:

4 Some Sensors hot-film probe (or RTD) R=Ro[1+a(T-To)] thermistor
R=Roexp[h(1/T-1/To)] strain gage (R=rL/A)

5 LEX-2 Pressure Transducers

6 LEX-2 Pressure Transducers

7 Amplifiers amplifiers

8 Amplifiers An amplifier is an electronic component that scales
the magnitude of a signal from its input value, Ei, to its output value, Eo. Functionally, this can be expressed as Eo = f[Ei], where f is some amplification operator. For a linear amplifier, Eo = , where G is the gain. For a logarithmic amplifier, Eo =

9 Figure 6.4: The LM124 Series Op Amp
Operational Amplifiers Figure 6.4: The LM124 Series Op Amp

10 Operational Amplifiers
The complex circuit of the op amp can be modeled as a ‘black box’ having two voltage inputs and one voltage output. Figure 6.5 It major attributes are: [1] [2] [3]

11 Figure 6.7

12 Differential Op Amp Equation
Kirchoff’s First Law can be applied to determine the amplification factor for this configuration. B at node B, at node A, A Now EA = EB because the voltage difference between the inputs is zero (a consequence of the op amp’s high internal open-loop gain). Equating the two expressions yields the desired factor.

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