background image

 

 

 
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  suggest  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  piezoresistive 
accelerometers.   
 

NOTE:

 

It  is  good  measurement  practice  to  verify  the 

performance  of  each  accelerometer  with  a  calibration 
device before and after each measurement. 

 

 
 
8.1 RECALIBRATION SERVICE 
 

PCB  offers  recalibration  services  for  our  piezoresistive 
accelerometers,  as  well  as  units  produced  by  other 
manufacturers.    Our  internal  metrology  laboratory  is 
certified  to  ISO  9001,  accredited  by  A2LA  to  ANSI/IEC 
17025  and  ANSI/NCSL  Z540-1,  complies  with  ISO 
10012-1  (and  former  MIL-STD-45662A),  and  uses 
equipment directly traceable to NIST.  Our investment in 
equipment,  traceability  and  conformance  to  industry 
standards  ensures  accurate  calibration  against  relevant 
specifications, in a timely fashion. 

 
 
 
8.2 BACK-TO-BACK CALIBRATION THEORY 

 
Many  companies  choose  to  purchase  the  equipment 
necessary to perform the recalibration procedure in house.  
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.   
 
Back-to-Back  Calibration  is  perhaps  the  most  common 
method  for  determining  the  sensitivity  of  piezoresistive 
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

T

/V

R

)  must  also  be  the  ratio  of 

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

R

)  known,  the  exact  sensitivity  of  the  test 

sensor  (S

T

)  is  easily  calculated  by  using  the  following 

equation: 
 

 

S

= S

R

 (V

T

/V

R

 
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. 

 

Figure 11.

 Typical Test Accelerometer Response 

 
8.3 PCB CALIBRATION PROCEDURE 

Numerous precautions are taken at PCB to insure accurate 
and  repeatable  results.    This  section  provides  a  brief 
overview of the primary areas of concern. 

Summary of Contents for 3741E1225G

Page 1: ...elerometer Installation and Operating Manual For assistance with the operation of this product contact PCB Piezotronics Inc Toll free 800 828 8840 24 hour SensorLine 716 684 0001 Fax 716 684 0987 E ma...

Page 2: ...ty regimen When in doubt about a calibration cycle a good rule of thumb is to recalibrate on an annual basis It is also good practice to recalibrate after exposure to any severe temperature extreme sh...

Page 3: ...rchase Order should include authorization to proceed and return at current pricing which can be obtained from a factory customer service representative Contact Information International customers shou...

Page 4: ...isclosure Table Pb Hg Cd Cr VI PBB PBDE O O O O O O PCB X O O O O O O O O O O O X O O O O O O O O O O O O O O O O O O O O O O O O O X O O O O O O O O O X O O O O O O O O O O O X O O O O O X O O O O O...

Page 5: ...e O O X O O O Wires O O O O O O Cables X O O O O O Plastic O O O O O O Solder X O O O O O Copper Alloy Brass X O O O O O This table is prepared in accordance with the provisions of SJ T 11364 O Indica...

Page 6: ...e applied acceleration The sensor element is electrically connected in a Wheatstone bridge circuit The integral amplifier provides a low impedance output to follow on instrumentation These particular...

Page 7: ...ssembly With each conductor being 30 AWG Teflon coated The supplied cable length for a standard DC accelerometer is 10 ft or 120 in 3 m Custom cable length requirements should be specified at time of...

Page 8: ...and stiff adhesives provide the best high frequency response METHOD 1 Adhesive Mounting Base This method involves attaching a base to the test structure then securing the sensor to the base This allow...

Page 9: ...es to reduce the effects of EMI and RFI that is present near electrical motors and machinery Teflon jacketed cabling may be necessary to withstand corrosive environments and higher temperatures Feel f...

Page 10: ...its provide the capability for continuous monitoring Note High sensitivity DC Accelerometers feature on board differential amplification 7 0 OPERATING NOTE Always operate the accelerometer within the...

Page 11: ...s 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 techniq...

Page 12: ...usly calibrated over the frequency and or amplitude range of interest 2 the shaker should be selected to provide minimal transverse lateral motion and minimal distortion and 3 the quality of the meter...

Page 13: ...eturn policies and instructions When unexpected measurement problems arise call our 24 hour SensorLineSM to discuss your immediate dynamic instrumentation needs with a factory representative Dial 716...

Page 14: ...tegral Cable Integral Cable Electrical Connection Position Side Side Cable Termination Pigtail Ends Pigtail Ends Cable Type 010 4 cond Shielded 010 4 cond Shielded Cable Length 10 ft 10 ft Mounting Th...

Page 15: ...MIN POWER RED POWER SIGNAL GROUND BLACK OUTPUT WHITE OUTPUT YELLOW MODEL 081A103 MOUNTING SCREW ASSEMBLY 2 SUPPLIED FOR M OPTION MODEL M081A103 MOUNTING SCREW ASSEMBLY 2 SUPPLIED POWER RED CONNECT TO...

Page 16: ...rmation disclosed hereon Neither it nor any reproduction thereof will be disclosed to others without the written consent of PCB Piezotronics Inc REVISIONS REV DESCRIPTION DIN SEE SHEET 1 FASTEN CABLE...

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