/ACCEL
Block Format Keyword Defines accelerometers using a node and skew system.
Format
| (1) | (2) | (3) | (4) | (5) | (6) | (7) | (8) | (9) | (10) |
|---|---|---|---|---|---|---|---|---|---|
| /ACCEL/accel_ID/unit_ID | |||||||||
| accel_title | |||||||||
| node_ID | Skew_ID | Fcut | |||||||
Definitions
| Field | Contents | SI Unit Example |
|---|---|---|
| accel_ID | Accelerometer
identifier (Integer, maximum 10 digits) |
|
| unit_ID | Unit Identifier (Integer, maximum 10 digits) |
|
| accel_title | Accelerometer
title (Character, maximum 100 characters) |
|
| node_ID | Node
identifier (Integer) |
|
| Skew_ID | Skew
identifier (Integer) |
|
| Fcut | Cutoff
frequency (Real) |
Comments
- The accelerometer option computes a filtered acceleration in a skew system.
- These filtered accelerations provided by an accelerometer are used in either the Sensor option or in post-processing acceleration Time History without aliasing problems.
- A 4-pole Butterworth filter is used.
- The recommended value for Fcut is 1650 Hz (1.65 ms-1) to obtain a class 1000 SAE filtering.
- In addition to these filtered accelerations, the accelerometer also allows output to Time History, the integrals of X, Y and Z raw accelerations projected onto the skew. These quantities are not used by Sensor.
- If the skew is moving, the integrals of X, Y and Z raw accelerations projected onto the skew are not the same as the velocities projected onto the skew, as described in Time Histories. But these integrals in derivating Time History post-processor allows to retrieve the accelerations projected to skew without aliasing problems (Integration / Derivation acting like another filter than the 4-pole Butterworth).