PCB Piezotronics 357B54 Installation And Operating Manual Download

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For these reasons, it is recommended that a recalibration
cycle  be  established  for  each  accelerometer.    This
schedule  is  unique  and  is  based  on  a  variety  of  factors,
such  as  extent  of  use,  environmental  conditions,
accuracy requirements, trend information obtained from
previous  calibration  records,  contractual  regulations,
frequency of “cross-checking” against other equipment,
manufacturer  recommendation,  and  any  risk  associated
with incorrect readings.  International standards, such as
ISO 10012-1, provide insight and suggested methods for
determining  recalibration  intervals  for  most  measuring
equipment.    With  the  above  information  in  mind  and
under  “normal”  circumstances,  PCB  conservatively
suggests  a 12- to 24-month recalibration cycle for most
piezoelectric accelerometers.

Note:

It is good measurement practice to verify the

performance  of  each  accelerometer  with  a  Handheld
Shaker or other calibration device before and after each
measurement.    The  PCB  Model  394C06  Handheld
Shaker  operates  at  a  fixed  frequency  and  known
amplitude  (1.0  g)  to  provide  a  quick  check  of  sensor
sensitivity.

7.1 SENSOR RECALIBRATION

Accelerometer  recalibration  services  are  typically
performed  by  PCB’s  internal  metrology  laboratory.
(Other  international  and  private  laboratories  are  also
available.)  The PCB laboratory is certified to ISO 9001,
accredited  by  A2LA  to  ISO  17025,  complies  with  ISO
10012-1  (and  former  MIL-STD-45662A),  and  uses
equipment directly traceable to N.I.S.T.  This assures an
accurate calibration of relevant specifications.

In  addition,  many  companies  choose  to  purchase  the
equipment  necessary  to  perform  the  recalibration
procedure  themselves.    While  this  may  result  in  both  a
savings of time and money, it has also been attributed to
incorrect  readings  and  costly  errors.    Therefore,  in  an
effort  to  prevent  the  common  mistakes  associated  with
customer-performed  calibration,  this  document  includes
a  broad  overview  of  the  Back-to-Back  Calibration
technique.    This  technique  provides  a  quick  and  easy
method  for  determining  the  sensitivity  of  a  test
accelerometer over a wide frequency range.

7.2 BACK-TO-BACK CALIBRATION THEORY

Back-to-Back  Calibration  is  perhaps  the  most  common
method  for  determining  the  sensitivity  of  piezoelectric
accelerometers.    This  method  relies  on  a  simple
comparison  to  a  previously  calibrated  accelerometer,
typically referred to as a reference standard.

Figure 9.

Reference Standard Accelerometer

These  high-accuracy  devices,  which  are  directly
traceable  to  a  recognized  standards  laboratory,  are
designed  for  stability,  as  well  as  configured to accept a
test accelerometer.  By mounting a test accelerometer to
the  reference  standard  and  then  connecting  this
combination to a suitable vibration source, it is possible
to  vibrate  both  devices  and  compare  the  data  as  shown
in Figure 10.  (Test set-ups may be automated and vary,
depending  on  the  type  and  number  of  accelerometers
being calibrated.)

Figure 10.

Typical Back-to-Back Calibration System

Because the acceleration is the same on both sensors,
the ratio of their outputs (V

) must also be the ratio

of their sensitivities. With the sensitivity of the
reference standard (S

) known, the exact sensitivity of

the test sensor (S

) is easily calculated by using the

following equation:

= S

)

By  varying  the  frequency  of  the  vibration,  the  sensor
may  be  calibrated  over  its  entire  operating  frequency
range.    The  typical  response  of  an  unfiltered
accelerometer is shown in Figure 11.