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A  precision-machined  mounting  surface  with  a  minimum 
finish  of  32 

in  (0.0008  mm)  is  recommended.    (If,  and 

only  if,  it  is  not  possible  to  properly  prepare  the  test 
structure mounting surface, 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 mounting surface and spread on 

a light film of grease, oil, or similar coupling fluid prior to 
installation. 
 

 

Figure 4.

 Mounting Surface Lubrication 

 
Adding 

coupling 

fluid 

improves 

vibration 

transmissibility  by  filling  small  voids  in  the  mounting 
surface  and  increasing  the  mounting  stiffness.    For  semi-
permanent  mounting,  substitute  epoxy  or  another  type  of 
adhesive. 
 

STEP 3:

  Attach supplied washers, insert screws through 

hole  in  accelerometer  case,  and  torque  to  specified  value 
per 

Installation Drawing.

  

 

NOTE:

 

It is important to use a torque wrench during this 

step.    Under  torquing  the  sensor  may  not  adequately 
couple  the  device;  over  torquing  may  result  in  screw 
failure. 

 

4.2 ADHESIVE MOUNT 

 
Adhesives  like  hot  glue  and  wax  perform  well  for 
temporary  installations  whereas  two-part  epoxies  and 
quick-bonding  gels  (super  glue)  provide  a  more 
permanent  installation.    PCB  recommends  mounting  DC 
accelerometers  via  an  adhesive  mounting  base.  The  base 
acts  as  a  sacrificial  part  allowing  safe  removal  of 
accelerometer after test is completed. 
 

NOTE:  Adhesively  mounted  sensors  often  exhibit  a 
reduction  in  high-frequency  range.      Generally,  smooth 
surfaces  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 allows for easy 
removal  of  the  accelerometer.  Contact  the  PCB  factory 
representative for optional mounting plate details. 

 

STEP  1: 

Prepare  a  smooth,  flat  mounting  surface.    A 

minimum surface finish of  32 

in (0.0008 mm) generally 

works best. 
 

STEP 2:

 Attach mounting screws of the sensor to the flat 

side of the appropriate adhesive mounting base according 
to the guidelines set forth in 

STEPS 2

 and

 3

 of the Screw 

Mount Procedure presented above.  

 
 
Figure 5.

 Mounting Base: Adhesive Installation 

 
STEP 3: 

Place  a  small  portion  of  adhesive  on  the 

underside of the mounting base/block.  Firmly press down 
on the assembly to displace any extra adhesive remaining 
under the base. 
When  the  accelerometer/base/block  assembly  is  to  be 
removed,  unscrew  the  accelerometer  from  its’  mounting 
base  /  block,  prior  to  removal  of  base/block  from  test 
article. 
 

 
METHOD 2 - Direct Adhesive Mount 
 

Caution:

  It  is  recommended  to  use  a  mounting  base 

with high sensitivity DC accelerometers 

(Method 1), 

if at 

all  possible!  Method  2  should  be  avoided,  as  a  general 
rule,  to  avoid  damage  to  the  accelerometer  during 
removal. 

 
STEP  1:

  Prepare  a  smooth,  flat  mounting  surface.    A 

minimum surface finish of  32 

in (0.0008 mm) generally 

works best. 

STEP  2:

  Place  a  small  portion  of  adhesive  on  the 

underside of the sensor.  Firmly press down on the top of 
the  assembly  to  displace  any  adhesive.    Be  aware  that 
excessive  amounts  of  adhesive  can  make  sensor  removal 
difficult.    Also,  adhesive  that  may  invade  the  mounting 
holes in the sensor will compromise future ability to screw 
mount the unit. 
 

 
 

Summary of Contents for 3741F122G

Page 1: ...mV g 2 g 10 ft integral cable Installation and Operating Manual For assistance with the operation of this product contact the PCB Piezotronics Inc Toll free 716 684 0001 24 hour SensorLine 716 684 00...

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: ...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: ...able 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 3 m Mounting Through Holes 2 Through Hol...

Page 15: ...1 MODEL 081A103 MOUNTING SCREW ASSEMBLY 2 SUPPLIED FOR M OPTION MODEL M081A103 MOUNTING SCREW ASSEMBLY 2 SUPPLIED FOR METRIC OPTION MOUNTING HOLE PREPARATION 098 2 45 39 10 0 MIN M3x0 5 6H 18 4 6 MIN...

Page 16: ...ormation 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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