Example on using table – Rockwell Automation 1440-VAD02-01RA XM-123 Aeroderivative Module User Manual
Page 153
Publication GMSI10-UM003D-EN-P - May 2010
145
Example on Using Table
The following example shows you how to use the Full Scale table to determine
the optimal Full Scale value.
To determine the optimal Full Scale value, follow these steps.
1. Refer to Table D.2 XM-123 Measuring Velocity with Accelerometer
2. Under the Maximum Vibration Level column, select the row that
corresponds to 10 ips.
3. Under the 10 Hz High Pass Filter (HPF) column, find the
recommended Full Scale Setting. The recommended Full Scale Setting
for the 10 Hz High Pass Filter is 0.17.
4. Refer to the value under the Max High Frequency Peak Amplitude
column to verify that there are not any signals present at the sensor that
exceed this value. For the example above, the Max High Frequency Peak
Amplitude value is 12 g’s.
If there are signals in excess of this level then increase the Full Scale
value to the next higher value, 0.5 in this example. If there are no
Table D.5 XM-123 Measuring Displacement with Displacement Sensor (200 mV/mil)
Max Vibration Level
Full Scale Setting
mils pp
micrometers pp
1Hz HPF
5Hz HPF
10Hz HPF
40Hz HPF
1000Hz HPF
5
125
1.5
N/A
50
1250
10
EXAMPLE
Application: XM-123 with 100 mV/g accelerometer
Units used for monitoring: velocity, ips
High Pass Filter: 10 Hz
Maximum vibration level: 5 ips pk (360 mm/s RMS)
TIP
Since the maximum vibration level of 5 ips is greater
than 3 ips, it is necessary to refer to the next higher
level in the table, which in this case is 10 ips.