National Instruments Order Analysis Toolset - page 48

Chapter 5 Calculating Rotational Speed

LabVIEW Order Analysis Toolset User Manual 5-2 ni.com

Figure 5-1. Tachometer Signal and Rotation Angle

The arrival time tk of the pulses P(k) in the tachometer signal correspond to

the cumulative rotation angle θ(tk). The cumulative rotation angle function

θ(t) increases by a fixed angle θ in the time interval between times tk and

tk+1. As shown in the following equation, you can present rotational speed

as the first derivative of θ(k).

While the time interval between pulses varies with the rotational speed,

the cumulative angle increment remains constant. Calculating the first

derivative of θ(t) usually involves step-by-step polynomial curve fitting,

which requires multiple computations in each iteration. Instead of

observing θ(t) directly, the LabVIEW Order Analysis Toolset observes t(θ),

which is the inverse function of θ(t), because calculating the first derivative

t1 t2 t3 t4

(a) Tachometer Pulse

θ4

θ3

θ2

θ1

∆θ

∆θ

∆θ

ϖ3

t

t

t1 t2 t3 t4

(b) Rotation Angle vs. Time

ωt() dθ

dt

------=

Contents

Main Page Important Information Warranty Copyright Trademarks Patents Contents About This Manual Chapter 1 Introduction to the LabVIEW Order Analysis Toolset Chapter 2 Order Analysis Page About This Manual How to Use This Manual Conventions Related Documentation Introduction to the LabVIEW Order Analysis Toolset Overview of the LabVIEW Order Analysis Toolset Overview of the LabVIEW Order Analysis Start-Up Kit Important Considerations for the Analysis of Rotating Machinery System Requirements Installation Example VIs Acquiring Data for Example VIs Configuring DAQ Hardware Used with Examples Acquire Data (Analog Tach) VI Acquire Data with PXI 4472 and TIO VI Page Page Order Analysis Order Analysis Definition and Application Order Analysis Basics Page Page Effect of Rotational Speed on Order Identification Constant Rotational Speed Page Variable Rotational Speed Page Page Harmonic Analysis Order Analysis Order Analysis Methods Gabor Transform Page Page Resampling Page Adaptive Filter Gabor Transform-Based Order Tracking Overview of Gabor Order Analysis Page Extracting the Order Components Page Masking Extracting Orders Reconstructing the Signal Displaying Spectral Maps Page Calculating Waveform Magnitude Resampling-Based Order Analysis LabVIEW Order Analysis Toolset Resampling Method Determining the Time Instance for Resampling Page Resampling Vibration Data Slow Roll Compensation Page Calculating Rotational Speed Digital Differentiator Method Page Averaging Pulses Page A Gabor Expansion and Gabor Transform Gabor Expansion and Gabor Transform Basics Page Page Discrete Gabor-Expansion-Based Time-Varying Filter Page Page B References C Technical Support and Professional Services Glossary Numbers/Symbols A C D Page R S W Index A C D E K M N O P