Kistler
Accelerometers Catalogue
This well documented,
easy to read catalogue provides comprehensive information on all Kistler products for the measurement of acceleration.
Learn why many users are choosing Kistler for their Structural Testing, Automotive/Transportation, Environmental Stress,
Screening, Aerospace and Military applications, Hot or Cold, Static to High Frequency.
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Kistler
Models 8702B & 8704B K-Shear® Accelerometer
Series
The 8702B side connector and 8704B top connector
accelerometer series use a unique shear mode sensing element made of stable quartz crystals. All units are hermetically
sealed and are constructed of titanium. An internal circuit Piezotron® impedance converter provides a low impedance
output. The quartz crystal sensing elements afford excellent long-term stability that ensure repeatable, accurate measurements
for many years.
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Kistler
Models 8702B500 & 8704B500 K-Shear® Accelerometer
Series
The 8702B500 side connector and 8704B500 top connector
accelerometer series use a unique shear mode sensing element made of stable quartz crystals. All units are hermetically
sealed and are constructed of titanium and stainless steel. An internal circuit Piezotron® impedance converter provides
a low impedance output. The quartz crystal sensing elements afford excellent long-term stability that ensure repeatable, accurate
measurements for many years.
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Kistler
Model 8704B5000 K-Shear® Accelerometer
The 8704B5000 accelerometer accurately measures mechanical
shock up to 5,000 g. The unique K-SHEAR sensing system is insensitive to base strain, transverse accelerationand thermal
transients. Quartz sensing crystals ensure the long-term stability not achievable with other sensing materials. The sensor
is constructed in a hermetically sealed, welded, titanium case.
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Kistler
Model 8710A Continuous Dity K-Shear® Accelerometers
The 8710A50 family of low impedance, voltage mode
accelerometers are designed for continuous operation in a wide variation of temperature environments. The standard M1 version
spans an operating temperature range of -54 to 120°C while the M5 high temperature version and the M8 low temperature version
operate over a range of -54 to 165°C and -195 to 120°C respectively.
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Kistler
Model 8712A5M1 K-Shear® High Sensitivity Accelerometer
The 8712A5M1 is an extremely sensitive accelerometer with
1000 mV/g sensitivity. It features a rugged all welded, hermetic construction with an electrical ground isolation. The low
impedance voltage output minimizes noise pick-up and eliminates the need for highly insulated low noise cables. The
electrically isolated base prevents potential ground loop problems.
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Kistler
Model 8720A500 K-Shear® Accelerometer
The light weight, low profile 8720A500 uses the K-shear
quartz sensing element. Operation in the shear mode reduces sensitivity to thermal transients, base strain and transverse
motion. Long-term stability and accuracy is achieved by use of a quartz crystal sensing element. The internal circuit
Piezotron® built-in impedance converter provides a low impedance output which eliminates the need for expensive low noise
cable and chrage amplifier.
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Kistler
Model 8728A Miniature K-Shear® Accelerometer
The 8728A500 is a miniature, lightweight accelerometer
weighing only 1.6 grams. The sensor is constructed in an environmentally sealed, welded, titanium case. A Teflon integral cable is
attached to solder terminals which are potted to permit cable repair. The unit is designed for mounting with an adhesive or
mounting wax. Kistler's K-Shear technology assures insensitivity to base strain, thermal transients and transverse (cross-axis)
acceleration.
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Kistler
Model 8730A Miniature K-Shear® Accelerometers
The 8730A500 Series are miniature, lightweight accelerometers
weighing only 1.9 grams. Only the M1 version, which is slightly larger and "off-ground"; weights 2.5 grams. These sensors
are constructed in a welded, hermetically sealed titanium case. The units are designed with a 10-32 top connector for
convenience and reliability. The basic 8730A500 and its M1 and M8 versions contain integral 5-40 threaded mounting stud. For
low temperature or cryogenic applications down to -320°F (-195°C), the 8730A500M8 and 8730AE500M8 are available.
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Kistler
Models 8732A & 8734A Micro K-Shear® Accelerometers
The 8732A500 and 8734A500 micro K-Shear accelerometers offer
the user a small, lightweight, low profile accelerometer designed for measuring shock and vibration on very small articles. The
rectangular body shape of the 8732A500 allows for easy adhesive mounting on any side particularly in tight locations.
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Kistler
Model 8752A Industrial K-Shear® Accelerometer
The
8752A50 and the 8752A50M5 high temperature 165°C version
and industrial accelerometers that feature reliability
and accuracy characteristics required for use in the most
demanding of machine vibration measurements. With Kistler's
unique K-Shear design, the inaccuracies long associated
with industrial acceleration measurements are eliminated.
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Kistler
Model 8791A250 K-Shear® Miniature Triaxial
Accelerometer
The 8791A250 shear triaxial is a low impedance, voltage
mode accelerometer in a miniature, cube-shaped enclosure and designed for adhesive mounting. The triaxial design permits simultaneous impact and vibration measurements
in three mutually perpendicular axes: X, Y and Z.
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Kistler
Model 8792A K-Shear® Triaxial Accelerometer
The 8792A series of quartz shear triaxial
accelerometers are rugged, low impedance voltage mode sensors. They are available in four ranges from 25g to 500g with
sensitivities from 10mV/g to 200mV/g. This triaxial design allows simultaneous shock and vibration measurements in three
mutually perpendicular axes: X, Y and Z.
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Kistler
Model 8793A Quartz K-Shear® Triaxial Accelerometers
The 8793A500 triaxial accelerometer family of models
measure shock and vibration in three mutually perpendicular axes. They are available in two extended operating temperature
ranges; the 8793A500M5 for high temperature 330°F (high) operation and the 8793A500M8 for low temperature -320°F (low) cryogenic
operation. All types are of stainless steel welded construction, hermetically sealed in a unique flat package design that
will provide many years of reliable operation.
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Kistler
Model 8794A K-Shear® Triaxial Accelerometers
The 8794A500 is a triaxial accelerometer
that measures shock and vibration in three mutually perpendicular axes. It is designed in a unique flat package and built in a
welded, environmentally sealed, stainless steel case, providing years of reliable operation. This sensor is available as a
8794A500M5 version, featuring a higher operating temperature up to 330°F (165°C) and in a 8794A500M3 version with a low end
frequency point of 1Kz.
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Kistler
Model 8795A K-Shear® Triaxial Cube Accelerometers
The 8795A50 is a triaxial family of accelerometers
that measure simultaneously shock and vibration in three orthogonal axis. They are available in two extended operating
temperature ranges; the 8795A50M5 for high temperature 330°F operation and the 8795A50M8 for low temperature -320°F cryogenic
operation. For installation ease, the sensors are housed in a convenient cube shaped package.
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Kistler
Model 8305A K-Beam® Capacitive Accelerometer
Series
The 8305A K-Beam accelerometer series
utilizes a three layer silicon micro-machined variable capacitance sensing element designed for measurements of low level
acceleration in a steady state or low frequency environment. They are fully calibrated sensors with all excitation and signal
conditioning electronics integrated into a single package. K-Beam accelerometers provide a high level output signal with
excellent long-term stability. They are insensitive to thermal transients and transverse acceleration.
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Kistler
Model 8310A K-Beam® Capacitive Accelerometers
The Kistler Type 8310A K-Beam accelerometer series utilizes
a silicon micro-machined variable capacitance sensing element. This high performance, solid state sensor is ideally suited for
applications requiring the measurement of low level acceleration in a steady-state or low frequency environment. In addition to the
acceleration signal, the sensor provides an output signal proportional to temperature for performance compensation. K-Beam
performance is similar to larger servo accelerometers at a substantially lower price.
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Kistler
Model 8312A K-Beam® Capacitive Accelerometers
The Kistler Type 8312A K-Beam accelerometer series utilizes a silicon
micro-machined variable capacitance sensing element. This high performance, solid state sensor is ideally suited for applications
requiring the measurement of low level acceleration in a steady-state or low frequency environment. K-Beam performance is
similar to larger servo accelerometers at a substantially lower price.
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Kistler
Model 8324A K-Beam® Capacitive Accelerometers
The 8324A K-Beam accelerometer utilizes a variable
capacitance sensing element. This high performance accelerometer is ideally suited for applications requiring the measurement of high level
acceleration in adverse environments. The 8324 has excellent frequency response exceeding 700 Hz (-3dB) and can survive shock
exposure over 5,000g peak. Both types are insensitive to thermal transients and transverse acceleration. The sensing element and
conditioning electronics are integrated into a single lightweight, hermetically sealed titanium housing. Ground isolation
is provided by an insulator plate permanently bonded to the housing.
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Kistler
Model 8330A2.5 Servo K-Beam® Accelerometer
The Kistler Type 8330A2.5 Servo K-Beam accelerometer is an
analog force feedback sensor incorporating a silicon micro-machined variable capacitance sensing element that provides
excellent bandwidth, dynamic range, stability and robustness. This high performance, solid state sensor features a 1,500 mV/g
sensitivity and a resolution of 0.8 micro-g @ < 1 Hz. High immunity to thermal transients and transverse acceleration makes
the 8330 accelerometer ideally suited for applications requiring the measurement of low level acceleration in a steady-state
or low frequency environment.
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Kistler
Model 8393A K-Beam® Triaxial Capacitive Accelerometers
Kistler Type 8393A is a precision capacitive silicon
micromachined accelerometer for measuring low level, low frequency (or static) acceleration in three orthogonal axes,
simultaneously. Its highly stable operation makes it possible to measure slow-changing events with a high degree of accuracy
and repeatability. The small package allows for convenient mounting on the test article. The unit is constructed in a rugged,
ground isolated hard anodized aluminum package.
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Kistler
Model 8632C PiezoBEAM® Cube Accelerometers
The 8632C accelerometer is ideally suited
for modal analysis. The convenient cubic configuration provides flexibility for installation. Three surfaces are suited for adhesive
mounting, allowing quick removal. The small, lightweight design reduces mass loading in multichannel applications.
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Kistler
Model 8690C PiezoSMART® Triaxial Accelerometers
The 8690C series of PiezoSMART accelerometers
simultaneously measures vibration in three, mutually perpendicular axes (x, y and z). They feature high sensitivity and can
operate both as a standard low impedance, voltage mode sensor with a conventional analog output signal or in a digital
"PiezoSMART Sensor Mode" capable of providing pertinent information stored with in its memory module. Since the design of the accelerometer
conforms to a universal standard (IEEE P1451.4), any commercially manufactured TEDS Signal Conditioner, along with a host computer,
will address and retrieve the stored information.
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Kistler
Models 8704B...M10 PiezoSMART® Accelerometer
The 8704B...M10 accelerometer can operate both
as a standard low impedance, voltage mode sensor with a conventional analog output signal or in a digital "PiezoSMART Sensor Mode"
capable of providing pertinent information stored with in its memory module. Since the design of the accelerometer confirms
to a universal standard (IEEE 1451.4), any commercially manufactured TEDS Signal Conditioner, along with a host computer, will
address and retrieve the stored information.
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Kistler
Model 8762A...M10 PiezoSMART® Modal Triaxial
Accelerometer
A ceramic shear designed triaxial
accelerometer with TEDS Smart Sensor operating capability simultaneously measures vibration in three, mutually perpendicular
asix (x, y and z). Designed primarly for modal analysis applications, this high sensitivity triaxial accelerometer features
three tapped mounting surfaces that allow each axis to be hard mounted for calibration.
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Kistler
Model 8772A...M10 PiezoSMART® Cube Accelerometers
The 8772A...M10 accelerometer can operate
both as a standard low impedance, voltage mode sensor with a conventional analog output signal or in a digital "PiezoSMART
Sensor Mode" capable of providing pertinent information stored within its memory module. Since the design of the accelerometer
conforms to a universal standard (IEEE 1451.4), any commercially manufactured TEDS Signal Conditioner, along with a host
computer, will address and retrieve the stored information.
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Kistler
Model 8793A500M10 PiezoSMART® Triaxial Accelerometers
The 8793A500M10 PiezoSMART accelerometer simultaneously
measures vibration and shock in three, mutually perpendicular axes (x, y and z). The K-Shear quartz sensing elements contained
within the accelerometer provide long term operational stability, a wide operating frequency range along with extremely low
sensitivity to thermal transients and transverse acceleration. The 8793 can operate both as a standard low impedance, voltage
mode accelerometer with a conventional analog output or in a digital "PiezoSMART Sensor Mode" capable of providing pertinent information
stored within its memory module. Since the design of the accelerometer confirms to a universal standard (IEEE P1451.4), any
commercially manufactured TEDS Signal Conditioner, along with a host computer, will address and retrieve the stored information.
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Kistler
Model 8795A50M10 PiezoSMART® Triaxial Accelerometer
The 8795A50M10 PiezoSMART accelerometer
simultaneously measures shock and vibration in three orthogonal axis. The accelerometer features high sensitivity and can
coperate both as a standard low impedance, voltage mode sensor with a conventional analog output signal or in a digital
"PiezoSMART Sensor Mode" capable of providing pertinent information stored within its memory module. Since the design of the
accelerometer conforms to a universal standard (IEEE P1451.1), any commercially manufactured TEDS Signal Conditioner, along
with a host computer, will address and retrieve the stored information.
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Kistler
Model 8798A...M10 PiezoSMART® Triaxial Accelerometers
The 8798A series of PiezoSMART accelerometers
simultaneously measures vibration in three, mutually perpendicular axes (x, y and z). The unique annular, ceramic shear sensor
design features extremely low thermal transient response, a high immunity to base strain and transverse acceleration. The 8798
can operate both as a standard low impedance, voltage mode accelerometer with a conventional analog output or in a digital
"PiezoSMART Sensor Mode" capable of providing pertinent information stored within its memory module. Since the design of the
accelerometer conforms to a universal standard (IEEE P1451.4), any commercially manufactured TEDS Signal Conditioner, along
with a host computer, will address and retrieve the stored information.
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Kistler
Models 8630C & 8636C PiezoBEAM® Accelerometers
The 8630C accelerometers meet requirements
for modal analysis. The light weight, five gram design reduces mass loading on light structures, especially when multiple
units are used. This sensor feature high sensitivity and high thermal rejection. Type 8630 accelerometers are housed in a
hard anodized, environmentally sealed housing. The finish provides ground isolation as well as environmental protection. Type
8636C is designed for stud mounting. The patented PiezoBEAM design features outstanding phase reponse as well as a wide
frequency range. The sensor is available in three ranges with sensitivities as high as 1000mV/g.
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Kistler
Model 8692C Series, Triaxial PiezoBEAM® Accelerometers
Designed for measuring structural response in modal
applications, the 8692C series of triaxial accelerometers measures vibration in three, mutually perpendicular axes (x, y & z),
simultaneously. The sensors feature high sensitivity and a low impedance voltage output. These lieght weight accelerometers
reduce mass loading on thin-walled structures. This series of accelerometers, each with an integral four-pin connector, are
designed for simplified and versatile installation. The unique, built-in magnet facilitates quick mounting; adhesive may
be used for more permanent installations.
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Kistler
Model 8141A Piezotron® Vibration Sensor
Rugged, hermetically sealed, ground-insulated
acceleration sensor with integral impedance transformer (charge amplifier) and low-impedance voltage output of +/-5V. Its compact
design allows it to be fitted close to the process. The sensor is easily surface mounted with only one M6 or 1/4 inch screw. The
measuring chain is suitable for recording and monitoring vibrations in machine structures, for monitoring and as part of a
machine diagonsis.
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Kistler
Model 8152B Piezotron® Acoustic Emission Sensor
Piezotron® Acoustic Emission Sensor
with built-in impedance converter for measuring acoustic emission (AE) above about 50 kHz in machine structures. With its
small size, it mounts easily near the source of emission and captures the signal optimally. The sensor has a very rugged
housing, welded tight (degree of protection IP65 resp. IP67). The small sensor may easily be mounted nearly everywhere: a
M6-bolt is all that is needed.
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Kistler
Model 8694M1 Piezotron® Miniature Triaxial
Accelerometer
The 8694M1 Piezotron® triaxial
accelerometer essentially consists of three individual sensor elements mounted in an orthogonal configuration with
each containing a quartz-crystal measuring assembly, a seismic mass and an integrated impedance converter. The quartz
assembly located between the sensor body and the seismic mass is preloaded by a flexible member. The electrical charge
yielded by each quartz crystal meauring element is directly proportional to that portion of the acceleration
signal incident on the sensor's mounting surface.
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Kistler
Model 8765A PiezoSTAR® Miniature, Voltage
Model Triaxial Accelerometer
The 8765A250M5 triaxial accelerometer
measures shock and vibration in three orthogonal axis. The 8765A is a miniature 6.4 gram center hole triaxial accelerometerwith a +/-250g measurement range and 20 mV/g sensitvity.
The 8765A is a miniature IEPE triaxial accelerometer designed for high temperature applications. The triaxial design
permits simultaneous shock and vibration measurements in three perpendicular axes: X, Y and Z.
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Kistler
Models 8274A5, 8276A5 & 8276A5M6 Ceramic Shear
Accelerometers
The 8274A5, 8276A5 and 8276A5M6 are high impedance,
charge mode accelerometers designed for vibration measurements in single to multi-channel applications. The unique connector
design is rugged and maintains excellent integrity with repeated connections. The ceramic sensing element components have
been carefully designed to provide the level of performance most often required in general purpose vibration measurements.
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Kistler
Model 8290A25M5 Ceramic Shear High Sensitivity,
Charge Mode, Triaxial Accelerometer
The 8290A25M5 high temperature, triaxial
accelerometer is housed in a cube-shaped package with a notched corner to aid in orientation during installation in blind
areas. Laser-etched markings on all sides clearly identify the three axes. A ceramic shear sensing element produces a
charge output that can be easily converted into a useable analog voltage signal via a charge amplifier.
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Kistler
Model 8764A Ceramic Shear, Miniature, Voltage
Mode, Triaxial Accelerometer
The 8764 triaxial accelerometer measures
shock and vibration in three orthogonal axes. The +/-500g measuring range accelerometer, weighs only 1.3 grams with a
height of 0.2 inches. The accelerometer has a hard anodized aluminum housing offering ground isolation and a durable integral
shielded cable terminated with a 4-pin pos. (male) Microtech compatible connector.
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Kistler
Model 8772A Ceramic Shear, Light Weight, Voltage
Mode, Modal Accelerometer
A unique shear element design coupled with
an advanced hybrid charger amplifier provides outstanding phase response as well as a wide frequency range. The accelerometer
housing is environmentally (epoxy) sealed with a durable, hard anodized finish that electrically isolates the unit from the
test structure. The flat sides of the cube housing allow for dual axis unit arrangements and flexible attachment to the
test structure. The use of several 8474 mounting clips facilitates single unit roving on a test structure.
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Kistler
Models 8774A50, 8776A50 Series Ceramic Shear Accelerometers
The 8774A50 and 8776A50 series are low
impedance, voltage mode accelerometers designed for vibration measurement in single or multi-channel applications. The unique
connector design is rugged and maintains excellent integrity with repeated connections. The ceramic sensing element
components are carefully designed to provide the level of performance most often required in general purpose vibration
measurements.
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Kistler
Model 8778A500 Ceramic Shear Acclerometer
The 8778A500 and the 8778A500M14 are
high frequency, ultra miniature, light weight accelerometers with built-in electronics, providing a low impedance voltage
output. Integrated Electronic PiezoElectric (IEPE) sensor electronics minimize cable noise and eliminates the need for
highly insulated cables. The standard 8778A500 accelerometer includes an integral Teflon jacketed 3 ft. (0.9 m) long
cable terminated with a 10-32 neg. connector while the M14 version features a field replaceable twisted wire pair and
connector.
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Kistler
Models 8784A5 & 8786A5 Ceramic Shear Accelerometers
The 8784A5 (top connector) and 8786A5 (side
connector) are low impedance, voltage mode accelerometers designed for vibration measurements in single multichannel applications.
The unique connector design is rugged and maintains excellent integrity with repeated connections. The ceramic sensing element
components have been carefully designed to pvoide the level of performance most often required in general purpose vibration
measurements.
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Kistler
Model 8798A Ceramic Shear Triaxial Accelerometers
The 8798A triaxial accelerometer series measures
vibration in three mutually perpendicular axis. The unique annular, ceramic shear sensor element features extremely low thermal
transient reponse, a high immunity to base strain and transverse acceleration. An advanced hybrid charge amplifier design
provides outstanding phase response as well as a wide operating frequency range. The light weight aluminum housing is epoxy
sealed and hard anodized coated to provide ground isolation.
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Kistler
Model 8614A Pictron® Miniature Accelerometer
Kistler series 8614A accelerometers are
extremely small and light weight and very high resonant frequencies and built-in low impedance Piezotron circuit electronics.
Piezotron electronics minimize cable noise and eliminate the need for highly insulated cables. The solder pin connectors
enable easy repair of any cables that may become damaged in use.
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Kistler
Model 8044 Impact Quartz Accelerometer
The 8044 accelerometer accurately measures
mechanical shock up to 30,000 g. A stable quartz element allows the unit to undergo high and repeated shock impacts with
virtually no zero shift. This accelerometer is lightweight, miniature in size and has an integral threaded mounting stud.
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Kistler
Models 8838 & 8840 Axial/Lateral Rotational Accelerometers
The 8838 and 8840 are a novel complement
of shear mode sensors that are designed to respond to two distinctly different forms of induced oscillations. The internal
orientation of the quartz elements enables the 8838 accelerometer to respond to oscillations occuring about the unit's mounting
axis when installed in a non-rotating test application. The element structure of the 8840 accelerometer is such that the
unit will accurately measure the acceleration magnitude of oscillations laterally induced to its mounting base.
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Kistler
Model 8770A Impedance Head Acceleration, Force
Sensor
A unique sensing element construction
optimizes the capabilities of this sensor. The result is a device which yields simultaneous dynamic acceleration and force
measurements from exactly the same location on a test structure. Internal crystal isolation and tuned channel phase
matching allows for the acquisition of Driving Point (DP) data with optimal spatial and temporal coincidence.
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Kistler
Models 8742A & 8743A Shock Accelerometers
This unique shock accelerometer series
incorporates a stable quartz, shear design and are tailored to measure high accelerations from pyroshock to impact testing.
The 100 kHz resonance frequency ensures accurate measurement of high speed events, virtually eliminating zero shift and
internal amplifier saturation.
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Kistler
Model 9722A Impulse Force Hammer
The dynamic response of a mechancial
structure while either in a development phase or an actual use environment can readily be determined by impulse force testing.
Using an FFT analyzer, the transfer function of the structure can be determined from a force pulse generated by the impact
of a hammer and the response signal measured with an accelerometer. The inpulse force test method, yields extensive
information about the frequency and attenuation behavior of the system under test.
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Kistler
Model 9724A Impulse Force Hammer
The dynamic response of a mechanical structure
while either in a development phase or an actual use environment can readily be determined by impulse force testing. Using an
FFT analyzer, the transfer function of the structure can be determined from a force pulse generated by the impact of a hammer
and the response signal measured with an accelerometer. The impuse force test method, yields extensive information about the
frequency and attenuation behavior of the system under test.
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Kistler
Model 9726A Impulse Force Hammer
The dynamic response of a mechanical structure
while either in a development phase or an actual use environment can readily be determinedby impulse force testing. Using an FFT
analyzer, the transfer function of the structure can be determined from a force pulse generated by the impact of a hammer and
the response signal measured with an accelerometer. The impulse force test method, yields extensive information about the frequency
and attenuation behavior of the system under test.
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Kistler
Model 9728A Impulse Force Hammer
The dynamic response of a mechanical
structure while either in a development phase or an actual use environment can readily be determined by impulse force testing.
Using an FFT analyzer, the transfer function of the structure can be determined from a force pulse generated by the impact of
a hammer and the response signal measured with an accelerometer. The impulse force test method, yields extensive information
about the frequency and attenuation behavior of the system under test.
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Kistler
Model 5210 K-Beam® Sensor Power Supply
The 5210 Power Supply is the first Kistler
power supply intended for the K-Beam line of capacitive accelerometers. The unit is a low cost and convenient way to power
any single K-Beam accelerometer from a casual check to an in-depth study.
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Kistler
Model 8810 K-Guard® Vibration Switch
The model 8810 K-Guard is a stand-alone electronic
vibration monitoring device that guards machinery against excessive vibration levels caused by imbalance, misalignment,
looseness, worn bearings, etc. When high vibration levels are detected, a relay is activated that can be used for machine
shutdown or to warn the operator of potential danger. Unlike mechanical switches, the 8810 features high accuracy, reliability
and protects against false triggering.
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Kistler
Model 8921 Reference Shaker
The Type 8921 provides an accurate
controlled vibration level to verify the sensitivity of vibration sensors or the complete measuring system. The internal
control and excitation system provides a constant, exact frequency while a closed loop control maintains a constant
amplitude independent of the mass of the test article. Should the test article exceeds the capacity of the shaker, the unit
provides an audible and visual warning to the operator. A self contained, rechargeable battery can power the shaker up to
approximately these hours between recharing.
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