background image

2

upon the coupling type or time constant of the external
charge amplifying device. This characteristic may be
fixed or adjustable, depending on the charge amplifier.
Please refer to the appropriate charge amplifier
specification sheet for information on low-frequency
characteristics.

Figure 1.

Assorted Mounting Configurations and Their

Effects on High Frequency

4.1 STUD MOUNT

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

Note:

Do NOT attempt mounting on curved, rough, or

uneven surfaces, as the potential for misalignment and
limited contact surface may significantly reduce the
sensor’s upper operating frequency range.

Figure 2.

Mounting Surface Preparation

STEP 1:

First, prepare a smooth, flat mounting surface,

then drill and tap a mounting hole in the center of this
area as shown in Figure 2 and in accordance with the

Installation Drawing

for the specific sensor that is

being mounted

.

A

precision-machined

mounting

surface

with

a

minimum

finish

of

63

µ

in

(0.00016

mm)

is

recommended. (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 3.

Mounting Surface Lubrication

Adding

a

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:

Screw the mounting stud into the base of the

accelerometer

and

hand-tighten.

Then,

screw the

sensor/stud assembly into the prepared tapped hole and
tighten to the recommended mounting torque as
indicated on the

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 stud
failure.

4.2 ADHESIVE MOUNT

Adhesive mounting is often used for temporary
installation or when the test object surface cannot be
adequately prepared for stud mounting. Adhesives like
hot glue and wax work well for temporary mounts; two-
part epoxies and quick-bonding gels provide a more
permanent mount.

Note:

Adhesively mounted sensors often exhibit a

reduction in high-frequency range.

Generally, smooth

surfaces and stiff adhesives provide the best frequency
response.

Summary of Contents for 357C10/NC

Page 1: ...g 500 g to 10 kHz 0 45 gm 3 56 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...

Page 2: ...id the factory warranty Calibration Routine calibration of sensors and associated instrumentation is recommended as this helps build confidence in measurement accuracy and acquired data Equipment cali...

Page 3: ...warranty against defective material and workmanship for a period of one year from date of original purchase Contact PCB for a complete statement of our warranty Expendable items such as batteries and...

Page 4: ...for most models These accelerometers are ideal for structural testing machine monitoring and vehicular shock and vibration measurement tasks where high temperatures preclude the use of accelerometers...

Page 5: ...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 6: ...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 7: ...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 8: ...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 9: ...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 10: ...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...

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