Type 8346-C is a piezoelectric DeltaShear® charge accelerometer. USE SCENARIO Low-level vibration measurement The transducer features a 10-32 UNF output connector on the top, and it can be mounted on the object by means of a 10-32 UNF threaded steel stud. Frequency range: 0.1 – 3000 Hz Temperature: -50 –
Triaxial CCLD Accelerometer Type 8345 is designed to operate in harsh environments. USE SCENARIOS Measurement in harsh environments Triaxial measurements Permanently installed machine condition monitoring Its 4-pin Glenair® 800-series connector is robust for industrial applications. The 3 × M4 holes forming an isosceles triangle on the mounting surface secure the mounting
Type 8344 is a piezoelectric DeltaShear® accelerometer with integral electronics. USE SCENARIOS Low-level measurement Low noise High sensitivity It can be mounted on a test object with a M5 threaded steel stud. The transducer is hermetically sealed, with a Transducer Electronic Data Sheet (TEDS) containing sensor- and application-specific information, including frequency
Type 8341 is a piezoelectric Shear design accelerometer with integral electronics initially developed for in-flight active vibration control on rotor and fixed wing aircraft. USE SCENARIOS In-flight measurements Industrial applications The transducer features case insulation and is hermetically sealed to enclosure protection IP 67. The housing material is stainless steel.
Type 8340 is a piezoelectric annular shear design accelerometer with integral electronics. USE SCENARIO Seismic measurements The transducer features a MIL-C-5015, 2-pin top connector, case isolation and a hermetically sealed stainless steel housing to resist outdoor or humid environments. Type 8340 is mounted by means of a ¼" – 28
Types 8339, 8339-001 and 8339-002 are low impedance piezoelectric compression accelerometers intended for measurement of very high-level, continuous vibration, mechanical shock and pyroshock. USE SCENARIO High level mechanical shock and pyroshock measurements (up to 80,000g) The output and ground signal are isolated from the mounting surface to prevent ground loops.
Types 8339, 8339-001 and 8339-002 are low impedance piezoelectric compression accelerometers intended for measurement of very high-level, continuous vibration, mechanical shock and pyroshock. USE SCENARIO High-level mechanical shock and pyroshock measurements (up to 80,000g) The output and ground signal are isolated from the mounting surface to prevent ground loops.
Types 8324-G and 8324-G-001 industrial accelerometer is intended for measurements in harsh environments. USE SCENARIOS Flight test applications Measurement in high-temperature environments Health usage monitoring systems Gas turbines Frequency range: 1 – 9000 Hz Temperature: -196 – 250 C Weight: 91 gram Sensitivity: 1 mV/ms^-2 Residual Noise Level in Spec
Type 8234-100 is a piezoelectric charge accelerometer based on the shear design principle. The transducer features a ruggedized 2-pin TNC connector (7/16-27 UNS) for the balanced differential output connection. USE SCENARIOS Vibration measurements in harsh industrial environments Aero engines Industrial gas turbines Turbo pumps Nuclear power plants High-temperature (482°C /
Accelerometer Type 8315 is designed for permanent vibration monitoring installations in a wide variety of applications. It is intended as a general purpose monitoring transducer. It may be used in areas where there is radiation. USE SCENARIO General purpose monitoring The accelerometer utilises a "shear" construction that significantly reduces transient temperature
Type 8309 is a simple, robust construction based on a piezoelectric, centre-mounted, compression design. The transducer features M5 mounting stud and integral cable. USE SCENARIOS Shock and vibration measurement and analysis Vibration monitoring Modal and structural analysis Vibration test control Production and quality control Frequency range: 1 – 54000
Type 8305 is a piezoelectric accelerometer with side connector. The transducer features two 10 – 32 UNF receptacles for input/output connection. It can be mounted on the object by means of a 10 – 32 UNF threaded steel stud. USE SCENARIOS Calibration traceable to the National Institute of Standards and
This rugged accelerometer is suitable for most practical vibration measurements in wet or seawater conditions, such as seabed installations, submersible craft, offshore oil installations, sea-going vessels etc. USE SCENARIOS Underwater measurements to 450metres depth Measurement in harsh environments - wet, submerged, or oily environments Also, it is ideal for monitoring machines
The DC Response Accelerometers are designed to measure low-frequency vibration down to DC. The gas- damped sensing element offers a wide dynamic range and very stable frequency response even after subjection to high shock levels. USE SCENARIOS Low-frequency, motion and tilt measurements Flight testing Road load testing Transportation Modal analysis
The DC Response Accelerometers are designed to measure low-frequency vibration down to DC. The gas- damped sensing element offers a wide dynamic range and very stable frequency response even after subjection to high shock levels. Looking to buy Accelerometers? Here is a partial list of scenarios for things you can
The DC Response Accelerometers are designed to measure low-frequency vibration down to DC. The gas- damped sensing element offers a wide dynamic range and very stable frequency response even after subjection to high shock levels. USE SCENARIOS Low-frequency, motion and tilt measurements Flight testing Road load testing Transportation Modal analysis
The DC Response Accelerometers are designed to measure low-frequency vibration down to DC. The gas- damped sensing element offers a wide dynamic range and very stable frequency response even after subjection to high shock levels. USE SCENARIOS Low-frequency, motion and tilt measurements Flight testing Road load testing Transportation Modal analysis
The DC Response Accelerometers are designed to measure low-frequency vibration down to DC. The gas- damped sensing element offers a wide dynamic range and very stable frequency response even after subjection to high shock levels. USE SCENARIOS Low-frequency, motion and tilt measurements Flight testing Road load testing Transportation Modal analysis
The DC Response Accelerometers are designed to measure low-frequency vibration down to DC. The gas- damped sensing element offers a wide dynamic range and very stable frequency response even after subjection to high shock levels. USE SCENARIOS Low-frequency, motion and tilt measurements Flight testing Road load testing Transportation Modal analysis
Triaxial CCLD accelerometer with Transducer Electronic Datasheet (TEDS) Type 4535-B-001 is designed to simplify your testing by covering most of the different needs of a modern test lab with one sensor. USE SCENARIOS General purpose Structural testing Automotive body and power train measurements Acoustic fatigue testing Triaxial measurements in a
Triaxial CCLD Accelerometer with Transducer Electronic Datasheet (TEDS) Type 4535-B is designed to simplify your testing by covering most of the different needs of a modern test lab with one sensor. USE SCENARIOS General purpose Structural testing Automotive body and power train measurements Acoustic fatigue testing Triaxial measurements in a confined