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ICP

 FORCE SENSOR OPERATION MANUAL 

 

 7 

traceable reference sensor.  Generally, a preload of 20% (full 
scale  operating  range  of  the  force  ring)  is  applied  before 
recording of measurement data.  Allow the static component of 
the signal to discharge before calibration. 
 
 
3-component force sensors must be preloaded to achieve proper 
operation, particularly for the shear x-, and y-axis. This preload 
provides  the  sensing  crystals  with  the  compressive  loading 
required  to  achieve  an  output  in  response  to  shear  direction 
input forces.  The recommended applied preload  in the z-axis 
for  3-component  force  sensors  is  10  times  the  desired 
measurement range in the x or y-axis.  This higher level z-axis 
preload is required as the resultant output in the x and y axis is 
a result of friction generated on the internal crystals specifically 
cut to provide output in the x or y axis.   
 
  As  an  example,  to  maximize  the  sensors  output  in  all  three 
(3ea)  axis  of  a  1000  lb  (4500  N)  triax  load  cell,  a  preload  of 
5000  lbs  (22K)  should  be  applied,    This  will  enable 
measurements in the x and y axis to be 500 lbs (2225 N).    
 
Please  refer  to  the  specific  model  specifications  for  the 
recommended  preload.  A  preload  chart  in  Figure  14  is  also 
provided for quick reference.   
 
As  with  force  rings,  the  sensitivity  achieved  from  a  3-
component force sensor is dependent upon the applied preload 
and  the  elasticity  characteristics  of  the  mounting  bolt  or  stud 
used.  If the unit is to be installed with a stud or bolt other than 
the supplied elastic, beryllium copper stud, a calibration using 
the actual mounting hardware is recommended to be performed.  
Errors in sensitivity of up to 50% can result by utilizing studs 
or bolts of different materials. 
 
When  installing  ICP

  ring  and  3-component  type  sensors,  a 

PCB  signal  conditioner  with  at  least  one  channel  of  DC 
coupling capability is recommended to properly monitor sensor 
output voltage as it corresponds to the desired preload.  A DC-
coupled  signal  conditioner  will  provide  a  longer  system 
discharge  time  constant,  which  will  result  in  slower  signal 
decay.  When used with a DVM or similar readout device, the 
installer  can  monitor  the  sensor  output  voltage  directly  for 
correct preloading. 
 
 Monitor the output from the Z-axis connector when preloading 
3-component type sensors.  These sensors require a preload in 
the  Z-axis  that  is  10  times  their  shear  range.    Some  models 
require this to be accomplished in steps, not to exceed the usable 
voltage.  To prevent 

clipping

” 

of the signal, increments should 

not exceed 10 VDC. 
  

Force Ring Models 

Pre-Load (lbs) 

201B01 

60 

201B02 

100 

201B03 

200 

201B04 

400 

201B05 

1,000 

202B 

2,000 

203B 

4,000 

204C 

8,000 

205C 

12,000 

206C 

16,000 

207C 

33,750 

3-Component Models 

 

260A01 

5,000 

260A02 

10,000 

260A03 

40,000 

 

Figure 14 - ICP

 Force Sensor Preload Requirements 

 
 

WORKING RANGE, PRELOAD, AND MAXIMUM 
LOAD RELATIONSHIP IN RING STYLE and Triaxial 
FORCE SENSORS 

 

The 

Working Range

 is the ideal dynamic working load that 

may be applied to a sensor during operation.  In most sensors, 
the product of the working range and the sensor sensitivity 
will provide a 5 Volt output, following the equation;   
5Volts = range x sensitivity.   
 
The 

Sensor Preload

 is the load applied to the sensor before 

the sensor is used in an operation.  In ring and triax models, 
preload is essential to match PCB’s calibrated sensitivity as 
well it assure sensor linearity at the lower measurement range. 
 
The 

Maximum Load

 is the dynamic load that may be applied 

before the sensor approaches physical damage.  In some 
sensors this value is a result of a mechanical limitation.  In 
ICP® models this may be an electrical limitation (applying an 
excessive load under sudden dynamic condition outside the 
specified range may damage the internal electronic circuitry). 
 
With most sensors, the specified dynamic working range and 
maximum compression is riding ON TOP OF the applied 
preload.   As an example, triax force sensor Model 260A01 
has a specified preload of 5000 lbs (22kN), a working range of 
1000 lb (4500N), and a maximum compression range of 1320 
lbs (6000 N). To provide the best linear response of the sensor, 
a 5000 lbs (22kN) preload should be loaded on it.  From there 
one may take dynamic measurements through the entire 1000 
lb (4500N) working range of the sensor.   Dynamically one 
should not take measurements above 1320 lbs (6000) as this 
total load value approaches physical damage to  the sensor. 
 
 
 
 

5.0   OPERATION 
 
APPLICATION OF A FORCE

 

Summary of Contents for M260A03

Page 1: ...rce Sensor 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: ...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: ...tallation outline drawing and specification sheet at the back of this manual for details and dimensions of the particular sensor model number s purchased The following pages give a brief description o...

Page 7: ...ring mounting and preload requirements Figure 4 outlines some possible mounting configurations to which the ring series may be installed Figure 4 Series 201 to 207 ICP Ring Force Sensor Possible Inst...

Page 8: ...simultaneously measuring force in three 3 orthogonal directions X Y and Z Internally three sets of quartz crystals are cut oriented and preloaded so the maximum output from the crystal cut for the spe...

Page 9: ...eturning the sensor to PCB for recalibration Figure 8 SERIES 3 COMPONENT TRIAX FORCE SENSORS PENETRATION Penetration style sensors are similar to the axial models but are specifically designed for com...

Page 10: ...t facing or surface grinding Surface flatness should be held to within 0 001 TIR over the entire mating surface When mounting sensors between two plates care should be taken to assure mounting surface...

Page 11: ...he left in Figure 13 part of the force between the two structures is shunted through the mounting stud The amount of force shunted is dependent on the stud material but may be up to 5 of the total for...

Page 12: ...ce the installer can monitor the sensor output voltage directly for correct preloading Monitor the output from the Z axis connector when preloading 3 component type sensors These sensors require a pre...

Page 13: ...eters depending on the frequency of interest It is necessary to supply the sensor with a 2 to 20 mA constant current at 20 to 30 VDC through a current regulating diode or equivalent circuit contained...

Page 14: ...ant in the system For this reason the readout device as well as the signal conditioner must be DC coupled Figure 16 Characteristic Discharge Time Constant Curve The discharge time constant represents...

Page 15: ...urned to the factory for servicing in the event of serious malfunction Observe the following precautions in using the sensor A Do not exceed the maximum load levels for the force sensor see specificat...

Page 16: ...Spectral Noise 100 Hz Z 0 002 lb Hz 0 0089 N Hz Spectral Noise 1 000 Hz Z 0 0005 lb Hz 0 00222 N Hz OutputPolarity Positive Positive Physical Preload 40 000 lb 178 kN 5 Stiffness z axis 38 8 lb in 6...

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