Section 7. Installation
189
For the example above, the delay is:
Delay in time = (1 ms) • (4
–
1) / 2 = 1.5 ms
Example:
An accelerometer was tested while mounted on a beam. The test had the
following characteristics:
o
Accelerometer resonant frequency ≈ 36 Hz
o
Measurement period = 2 ms
o
Running
average duration = 20 ms (frequency of 50 Hz)
Normalized resonant frequency was calculated as follows:
36 Hz / 50 Hz = 0.72
SIN(0.72π) / (0.72π) = 0.34.
So, the recorded amplitude was about 1/3 of the input-signal amplitude. A
CRBasic program was written with variables
Accel2
and
Accel2RA
. The
raw measurement was stored in
Accel2
.
Accel2RA
held the result of
performing a running average on the
Accel2
. Both values were stored at a
rate of 500 Hz. Figure
Running-Average Signal Attenuation
(p. 190)
shows the
two variables plotted to illustrate the attenuation. The running-average value
has the lower amplitude.
The resultant delay, D
r
, is calculated as follows:
D
r
= (scan rate) • (N–1)/2 = 2 ms (10–1)/2
= 9 ms
D
r
is about 1/3 of the input-signal period.
Summary of Contents for CR800 Series
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Page 446: ...Section 8 Operation 446 8 11 2 Data Display FIGURE 100 CR1000KD Displaying Data ...
Page 448: ...Section 8 Operation 448 FIGURE 102 CR1000KD Real Time Custom ...
Page 449: ...Section 8 Operation 449 8 11 2 3 Final Storage Data FIGURE 103 CR1000KD Final Storage Data ...
Page 450: ...Section 8 Operation 450 8 11 3 Run Stop Program FIGURE 104 CR1000KD Run Stop Program ...
Page 452: ...Section 8 Operation 452 FIGURE 106 CR1000KD File Edit ...
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Page 523: ...Section 11 Glossary 523 FIGURE 116 Relationships of Accuracy Precision and Resolution ...
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