Endevco accelerometers are chosen for the combination of high resolution, broad frequency response, protection from the environment, and high stability to contribute to superb systems designs.
|TYPICAL APPLICATIONS||REPRESENTATIVE MODELS|
|Seismic measurements||86, 87|
|Scale model modal testing||F3/Z602WA, F10/Z820WA, 41A, 42A|
|Structural monitoring||7703A, 41A, 42A, 43A, 45A, 46A|
|Material studies||F4/Z820WA, F5B/Z11|
As naturally-occurring or induced seismic applications are typically characterized as motion or low frequency vibration, they usually require a specialized low noise, high resolution accelerometer.
When selecting which accelerometer best meets your needs, it is a good idea to keep in mind that the largest g level recorded by an earthquake was 3 g’s in the south island of New Zealand. Consequently, if you are unsure as to what you expect to record, it might be prudent to choose a ±5 g accelerometer like the Model 87-1.
Alternatively, if you are monitoring an area where very low g levels of activity have occurred, you may want to use the Model 86 with a range of ±0.5 g’s.
Modal testing is performed upon scale models in order to understand their vibration characteristics. To do this, a shaker excites the structure with a known frequency and amplitude while accelerometers mounted at various places on the structure collect data.
The stud mounted F3/Z602WA and F10/Z820WA shakers each have a frequency range of 5 to 2000 HZ but their underlying technologies differ. The former is an electromagnetic device and the latter a reaction type.
Structural Health Monitoring (SHM) seeks to avoid high cost of repairs and injuries to humans and other animals by identifying and monitoring damaging events as they occur. Depending on the structure, this may require special accelerometers.
For those more general applications, the 43A is a good choice as its unique cube shape allows the sensor to be mounted in two different orientations.