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pins.)    In  many  cases,  it  is  also  helpful  to  protect  the 
solder joint with heat-shrink tubing or epoxy. 
 

Note: If you do not have the experience or resources to 
attach  pigtail  leads,  consult  PCB  to  discuss  factory 
attachment.    Damage  caused  by  excessive  heat  is  not 
covered by warranty. 
 
STEP  3: 

Route  the  cable  to  the  signal  conditioner, 

making  certain  to  stress-relieve  the  sensor/cable 
connection and minimize motion by clamping the cable 
at regular intervals. 
 
Certain  precautions  should  be  used  to  avoid  physical 
damage  and  minimize  electrical  noise.    For  instance, 
avoid  routing  cables  near  high-voltage  wires.    Do  not 
route  cables  along  floors  or  walkways  where  they  may 
be stepped on or become contaminated.  Shielded cables 
should have the shield grounded at one end only. 
 

STEP 4: 

Finally, connect the remaining cable end to the 

signal  conditioner.    To  dissipate  charge  that  may  have 
accumulated  in  the  cable,  short  the  signal  lead  to  the 
ground lead prior to attachment. 
 

6.0 POWERING 

A  conventional  method  for  conditioning  the  high-
impedance signal generated by a charge output sensor is 
to  use  a  laboratory-style  charge  amplifier.    The  charge 
amplifier  converts  the  high-impedance  charge  signal 
generated  by  the  sensor  to  a  low-impedance  voltage 
signal  that  can  then  be  transmitted  to  a  readout  or  a 
recording  device  for  analysis.    Before  connecting  the 
low-noise  cable  from  the  accelerometer  to  the  charge 
amplifier,  be  sure  to  ground  both  the  charge  amplifier 
and  the  cable.    This  ensures  that  an  excessive  static 
charge  that  may  have  accumulated  across  the 
accelerometer or cable is harmlessly discharged.  Failure 
to observe this precaution can result in the destruction of 
the input FET of certain amplifiers. 
 

 

 

Once each element is connected, allow a few minutes for 
the  system  to  thermally  stabilize.    Place  the  switch  on 
the  charge  amplifier  in  the  OPERATE  position  and 
proceed with the measurement. 
 
It is often convenient to normalize the accelerometer and 
charge amplifier system  to a precise sensitivity, such as 
10.0  or  100.0  mV/g  for  ease  of  data  analysis.    This  is 
accomplished  with  most  PCB  laboratory  charge 
amplifiers and some miniature in-line units as well. 
 
For  fixed  sensitivity  in-line  charge  converters,  such  as 
the  PCB  Series  422,  the  system  sensitivity  (mV/g)  is 
determined  as  the  product  of  the  charge  amplifier 
sensitivity  (mV/pC)  and  the  charge  sensitivity  of  the 
accelerometer (pC/g). 

 
Note:

   

When using charge-amplified systems, the noise 

floor  of  the  system  is  dependent  on  the  input 
capacitance  to  the  charge  amplifier.    Since  the  cable 
adds  to  the  capacitance  and  to  minimize  the  noise 
threshold,  keep  the  cable  length  between  the 
accelerometer  and  the  charge  amplifier  to  a  minimum.  
Cable  length  does  not  affect  the  system  sensitivity  of 
charge-amplified systems.

 

 
Since  charge  amplifier  operation  varies,  please  contact 
the  respective  signal  conditioner  manufacturer  or check 
the product manual for additional information. 

 
7.0 ACCELEROMETER CALIBRATION 

Accelerometer  calibration  provides,  with  a  definable 
degree  of  accuracy,  the  necessary  link  between  the 
physical  quantity  being  measured  and  the  electrical 
signal generated by the sensor.  In addition, other useful 
information  concerning  operational  limits,  physical 
parameters,  electrical  characteristics,  or  environmental 
influences  may  also  be  determined.    Without  this  link, 
analyzing  data  becomes  a nearly impossible task.  PCB 
provides  a  calibration  record  that  documents  the  exact 
characteristics of each sensor.  (The type and amount of 
data  varies  depending  on  the  sensor  type,  contractual 
regulations, and other special requirements.) 
 
Under  normal  operating  conditions,  piezoelectric 
sensors  are  extremely  stable,  and  their  calibrated 
performance  characteristics  do  not  change  over  time.  
However,  harsh  environments  or  other  unusual 
conditions  that  cause  the  sensor  to  experience  dynamic 
phenomena outside of its specified operating range may 
temporarily  or  permanently  affect  the  sensor.    This 
change manifests itself in a variety of ways, including a 
shift of the sensor resonance due to a cracked crystal, or 
a temporary loss of low-frequency measuring capability 
due to a drop in insulation resistance. 

Summary of Contents for 357C71

Page 1: ...lerometer 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 mai...

Page 2: ...alized tests including sensitivity at elevated or cryogenic temperatures phase response extended high or low frequency response extended range leak testing hydrostatic pressure testing and others For...

Page 3: ...tion on particular operating steps The following symbols may be found on the equipment described in this manual This symbol on the unit indicates that high voltage may be present Use standard safety p...

Page 4: ...China RoHS 2 Disclosure 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...

Page 5: ...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 Indicates that sai...

Page 6: ...F 482 C and extreme application up to 100 F 650 C for UHT 12 These accelerometers are ideal for structural testing machine monitoring and vehicular shock and vibration measurement tasks where high tem...

Page 7: ...urface consider adhesive mounting as a possible alternative Inspect the area checking that there are no burrs or other foreign particles interfering with the contact surface STEP 2 Wipe clean the moun...

Page 8: ...or most applications It is generally used only for machinery monitoring and other portable trending applications Both the accuracy and repeatability at low 5 Hz and high frequency 1 kHz ranges are que...

Page 9: ...o a precise sensitivity such as 10 0 or 100 0 mV g for ease of data analysis This is accomplished with most PCB laboratory charge amplifiers and some miniature in line units as well For fixed sensitiv...

Page 10: ...dure 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 asso...

Page 11: ...Figure 12 Typical Calibration Set Up Adhesively mounted sensors use similar practices However in this case a small portion of quick bonding gel or similar temporary adhesive is used to attach the tes...

Page 12: ...s Incorrect Understand Back to Back Calibration limitations Do not expect the uncertainty of calibration to be any better than 2 In fact the uncertainty may be as high as 3 or 4 for frequencies 10 Hz...

Page 13: ......

Page 14: ...ONS METRIC DIMENSIONS IN BRACKETS 4 RECOMMENDED MOUNTING TORQUE 2 5 FOOT POUNDS 3 7 NEWTON METERS MOUNTING HOLE PREPARATION 218 5 54 X 300 7 62 MIN 1 4 28 UNF 2B X 200 5 08 MIN F M6 X 0 75 M6 X 1 00 M...

Page 15: ...LEROMETER DECIMALS XX 03 XXX 010 DECIMALS X 0 8 XX 0 25 JDM 6 12 15 ECB 6 12 15 PML 6 12 12 jmorawski 16 31 6 12 2015 60700 PCB Piezotronics Inc claims proprietary rights in the information disclosed...

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