background image

 

 

 

 
STEP  2:

  Stud-mount  the  accelerometer  to  the 

appropriate  magnet  according  to  the  guidelines  set 
forth in 

STEPS 2 

and 

of the Stud Mount Procedure. 

 
STEP  3: 

Prepare  a  smooth,  flat  mounting  surface.  A 

minimum  surface  finish  of  63  µin  (0.0016  mm) 
generally works best. After cleaning the surface and 
checking  for  burrs,  wipe  on  a  light  film  of  silicone 
grease, machine oil, or similar-type coupling fluid. 

 
STEP  4: 

Mount  the  magnet/sensor  assembly  to  the 

prepared test surface by gently “rocking” or “sliding” 

it into place.  See Figure 10. 

 

 
Note: 

Magnetically 

mounting 

accelerometers 

carelessly  has  the  potential  to  generate  very  high 
(and  very  damaging)  g  levels.  To  prevent  damage, 
install the assembly gently. If unsure, please contact 
the factory for assistance. 

 
4.4 HANDHELD OR PROVE TIP MOUNT 

This  method  is  NOT  recommended  for  most 
applications.  It  is  generally  used  where  access  to 
machinery  may  be  a  safety  concern.  Both  the 
accuracy  and  repeatability  at  low  (<5  Hz)  and  high 
frequency (>1 kHz) ranges are questionable. 

 
5.0 CABLING 

The  selection  of  connectors  and  cables  has  a  direct 
impact  on  the  ruggedness  and  reliability  of  the  sensor 
installation. A consideration when dealing with cables is 
the way in which the cable conductors are terminated.  

ICP®  accelerometers  are  internally  amplified,  two-wire 
accelerometers.  Connections  to  the  sensor  require  two 
leads: one for the power and signal, and the other for the 
common and signal return. Often, coaxial cables are used 
since only two conductors are needed. Coaxial cables are 
less  expensive.  With  coaxial  cables,  however,  erroneous 
signals  can  be  introduced  into  sensor  systems  through 
ground  loops,  electromagnetic  interference,  or  radio 
frequency  interference  (EMI  or  RFI).    To  avoid  ground 
loops, there should only be one ground in the system.  
 
It  is  recommended  for  permanent  installations  that  the 
sensor be case-isolated and internally shielded with a dual-
case  design  and  use  a  two-conductor  shielded  cable  to 
insure clean vibration signal transmission. Two-conductor 
shielded  cables  allow  the  signal  and  the  signal  return 
(common)  to  be  fully  shielded  from  the  sensor  to  the 
readout equipment. To insure that ground loop signals are 
not induced, the shield should only be terminated at one 
end.  Typically,  the  shield  of  a  two-conductor  shielded 
cable is left open or not connected at the sensor end and 
is tied to earth ground at the instrumentation end. 
 
Operation  over  long  cables  may  affect  the  frequency 
response  of  ICP®  accelerometers,  and  introduce  low 
frequency  noise  and  high  frequency  distortion  when  an 
insufficient current is available to drive cable capacitance.  
 
Unlike  charge  mode  systems,  where  the  system 
noise  is  a  function  of  cable  length,  ICP®  sensors 
provide  a  high  voltage,  low  impedance  output  well-
suited  for  driving  long  cables  through  harsh 
environments. While there is virtually no increase in 
noise with ICP® sensors, the capacitive loading of the 
longer cable may be distort or filter higher frequency 
signals  depending  on  the  supply  current  and  the 
output impedance of the sensor.  
 
Generally, this signal distortion is not a problem with 
lower  frequency  testing  within  a  range  up  to  1,000 
Hz.  However,  when  monitoring  higher  frequency 
vibrations  traveling  over  cables  longer  than  500ft, 
the possibility of signal distortion exists.  
 
The  maximum  frequency  that  can  be  transmitted 
over  a  given  cable  length  is  a  function  of  both  the 
cable  capacitance  and  the  ratio  of  the  peak  signal 
voltage  to  the  current  available  from  the  signal 
conditioner according to: 

Summary of Contents for IMI Sensors Platinum Swiveler 607A11-0023

Page 1: ...ICP Accelerometer Installation and Operating Manual For assistance with the operation of this product contact PCB Piezotronics Inc Toll free 800 959 4464 24 hour SensorLine 716 684 0001 Fax 716 684 3...

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: ...ON A ECN NUMBER 49766 Operating Guide with Enclosed Warranty Information 3424 Walden Avenue Depew New York 14043 2495 Phone 716 684 0003 Fax 716 684 3823 Toll Free Line 1 800 959 4IMI Piezoelectric IC...

Page 7: ...ply low frequency and high frequency measurements Shear design sensors are preferred because of their inherent insensitivity to adverse environmental influences such as case or base strain and thermal...

Page 8: ...wer gain which is extremely close to unity and independent of input voltage Also the diode can be changed to supply higher currents for driving long cable lengths Constant current diodes as shown in F...

Page 9: ...nics However when operating AC coupled signal conditioners with readout devices having an input impedance of less than one megaohm thelow frequencyrangemaybeaffected 4 1 STANDARD STUD MOUNT This mount...

Page 10: ...derside of the mounting base Firmly press down on the assembly to displace any extra adhesive remaining under the base See Figure7 METHOD 2 Direct Adhesive Mount For restrictions of space or for conve...

Page 11: ...interference or radio frequency interference EMI or RFI To avoid ground loops thereshouldonlybeonegroundin the system It is recommended for permanent installations that the sensor becase isolatedand...

Page 12: ...ate Also any current not used by the cable goes directly to power the internal electronicsandwillcreateheat Thismaycausethesensorto exceed its maximum temperature specification For this reason donotsu...

Page 13: ...er the meter or LED and allow the sensor to power up If a faulty condition is monitored first check all system connections then check the functionality of the cable and signal conditioner If the syste...

Page 14: ...and former MIL STD 45662A and uses equipment directly traceable to NIST This assures an accurate calibration of relevant specifications The following includes a broad overview of the Back to Back Cal...

Page 15: ...A of constant current to extend battery life while continuous monitoring systems offer more current in order to drive longer cables Figure 16 shows a typical system for a sensor with integral electron...

Page 16: ...eive assistance via e mail at imi pcb com or visit our website at www pcb com 11 0 CUSTOMER SERVICE WARRANTY IMI a division of PCB Piezotronics guarantees Total Customer Satisfaction If at any time fo...

Page 17: ......

Page 18: ...ersions have identical specifications and accessories as listed for the standard model except where noted below More than one option may be used EX Hazardous Area Approval contact factory for specific...

Page 19: ...0 8 XX 0 25 BB 5 15 15 ECB 5 15 15 GGS 5 15 15 12441 PCB Piezotronics Inc claims proprietary rights in the information disclosed hereon Neither it nor any reproduction thereof will be disclosed to oth...

Page 20: ...ALL MOUNTING SURFACES SEE ARROWS FIG 1 2 FIG 2 TIGHTEN THE MOUNTING STUD USING THE ALLEN KEY TORQUE THE MOUNTING STUD TO WITHIN 3 TO 4 FT LBS 4 1 TO 5 4 Nm FIG 3 THREAD THE SENSOR S HEX NUT ONTO THE...

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