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PCB’s  High  Sensitivity  DC  accelerometers  are  designed 
utilizing  a  MEMS 

(Micro-Electro-Mechanical  Systems)

 

silicon  sensor  approach.  The  micro  machining  design 
process  provides  sensor  design  flexibility,  reliability  & 
stability  over  time.  Compared  to  standard  strain  gages, 
silicon  sensor  accelerometers  have  a  much  higher  gage 
factor.  The  sensor  element  of  the  3741  series  features  a 
proof mass, ringframe, and an attachment system between 
the two. These features are micromachined from the same 
single-crystal  silicon  wafer.  The  sensor  is  connected  as  a 
bridge element in the circuit. The electrical characteristics 
of  one  portion  of  the  bridge  increases  while  the  other 
decreases,  when  exposed  to  acceleration.  The  sensor 
element itself is kept small through the use of cutting edge 
processes  such  as  DRIE  (Deep  Reactive  Ion  Etching). 
Ruggedness  is  enhanced  through  the  use  of  mechanical 
stops  on  the  two  outer  wafers  to  restrict  the  travel  of  the 
proofmass.    Gas  damping  is  used  to  mitigate  high 
frequency  inputs. 

An  on board voltage regulator allows a 

wide  range  in  excitation  voltage  with  low  current  draw.

 

The positive output signal line increases with acceleration 
while  the  negative  line  decreases  proportionally.  The 
output  lines  have  a  common  mode  voltage  above  circuit 
ground. 
 
 
Consult the individual accelerometer data sheet on how to 
order  the  particular  model  most  appropriate  for  your 
application.  Adhesive  mounting  plates  and  triaxial 
mounting  blocks  are  available.  If  you  have any questions 
or concerns regarding optional configurations, consult the 
Vibration  Division’s  product  catalog  or  contact  a  PCB 
factory representative. 
 

 
4.0 INSTALLATION OVERVIEW 

 
PCB’s  high  sensitivity  DC  accelerometers  are  supplied 
with  a  silicone  jacketed,  shielded,  multi-conductor, 
integral  cable  assembly.  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  ordering.  When  applications  involve  very  long 
cable  runs,  the  user  is  advised  to  take  into  consideration 
the  added  resistance  of  the  cable  wires  and  additional 
capacitance values, as this may affect the voltage available 
at  the  accelerometers  input  voltage  regulator.  Ensure  the 
recommended  torque  is  used  for  the  supplied  4-40 
mounting cap screws. 
 

 

The  high  sensitivity  DC  accelerometer  output  signal  is 
considered a differential signal which should be routed to 
a differential amplifier or bridge conditioner (see Fig. 6).  
 
The  bridge  conditioner  should  supply  a  regulated  dc 
supply and have proper amplification features. Although a 
simple  unregulated  DC  voltage  supply  is  an  acceptable 

condition  for  operation,  bridge  conditioning  equipment 
typically  has  ZMO  adjustment  capability  and  standard 
connector  accessories  included  which  provide  a  “plug  & 
play” environment. 
 
Excitation input and Voltage output wiring conform to the 
following color coding practice. 
 
+   Excitation input (red)   
–  excitation input (black), 
+   signal output (yellow)  
–   signal output (white). 
 
 

Multi-pin  connectors: 

For  accelerometer  versions  with 

detachable  cabling,  make  connection  by  inserting  the 
sensor’s  mating  pins  onto  the  cable  connector’s  mating 
sockets.  Then thread the connector into place by turning 
the cable connector’s outer shell onto the accelerometer’s 
electrical connector. 

 
4.1 SCREW MOUNT 

This mounting technique requires smooth, flat contact  
surfaces  for  proper  operation  and  is  recommended  for 
permanent  and/or  secure  installations.  Screw  mounting  is 
recommended when testing at high frequencies.  
 
 

STEP  1:   

First,  prepare  a  smooth,  flat  mounting  surface, 

then  drill  and  tap  mounting  holes  for  mounting  as  shown 
in  Figure  3  and  in  accordance  with  the  enclosed 

Installation Drawing

 
 
 
 
 
 

Figure 3.

 Mounting Surface Preparation 

 
 
 
 
 
 

Содержание 3741E12200G

Страница 1: ...lerometer 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 0001 Fax 716 684 0987 E...

Страница 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...

Страница 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...

Страница 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...

Страница 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...

Страница 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...

Страница 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...

Страница 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...

Страница 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...

Страница 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...

Страница 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...

Страница 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...

Страница 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...

Страница 14: ...r Integral 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 Mountin...

Страница 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...

Страница 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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