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We found 23 matches....
Model: 351A15

Model: 351A15

Cryogenic, miniature, quartz shear ICP® accel., 5.5 mV/g, 1.25 to 20 kHz, 10-32 top conn, M5 female thread (-320 to +250F/-196 to +121C)
  • Sensitivity: (±10%) 5.5 mV/g(0.56 mV/(m/s²))
  • Measurement Range: ±1000 g pk(±9810 m/s² pk)
  • Broadband Resolution: (1 to 10000 Hz) .01 g rms(.1 m/s² rms)
  • Frequency Range: (±5%) 1.25 to 6,500 Hz
  • Sensing Element: Quartz
  • Weight: 0.07 oz(2.0 gm)
Product Manual
Model: 351B03

Model: 351B03

Cryogenic, quartz shear ICP® accel., 10 mV/g, 1 to 6k Hz, 10-32 side conn. (-320 to +250F/-196 to +121C)
  • Sensitivity: (±10%) 10 mV/g(1.02 mV/(m/s²))
  • Measurement Range: ±150 g pk(±1472 m/s² pk)
  • Broadband Resolution: 0.01 g rms(0.1 m/s² rms)
  • Frequency Range: (±5%) 1 to 6000 Hz
  • Sensing Element: Quartz
  • Weight: 0.33 oz(9.4 gm)
Product Manual
Model: 351B04

Model: 351B04

Cryogenic, quartz shear ICP® accel., 10 mV/g, 1 to 6k Hz, 10-32 top conn. (-320 to +250 F/-196 to +121 C)
  • Sensitivity: (±10%) 10 mV/g(1.02 mV/(m/s²))
  • Measurement Range: ±150 g pk(±1472 m/s² pk)
  • Broadband Resolution: 0.01 g rms(0.1 m/s² rms)
  • Frequency Range: (±5%) 1 to 6000 Hz
  • Sensing Element: Quartz
  • Weight: 0.33 oz(9.4 gm)
Product Manual
Model: 351B11

Model: 351B11

Cryogenic, miniature quartz shear ICP® accel., 5 mV/g, 1 to 10k Hz, 5-44 side conn. (-320 to +250F/-196 to +121C)
  • Sensitivity: (±10%) 5 mV/g(0.51 mV/(m/s²))
  • Measurement Range: ±300 g pk(±2943 m/s² pk)
  • Broadband Resolution: (1 to 10000 Hz) 0.01 g rms(0.1 m/s² rms)
  • Frequency Range: (±5%) 1 to 10000 Hz
  • Sensing Element: Quartz
  • Weight: 0.07 oz(2.0 gm)
Product Manual
Model: 351B14

Model: 351B14

Cryogenic, miniature, quartz shear ICP® accel., 5 mV/g, 0.3 Hz to 20 kHz, 10-32 top conn. (-320 to +250F/-196 to +121C)
  • Sensitivity: (±10%) 5 mV/g(0.51 mV/(m/s²))
  • Measurement Range: ±300 g pk(±2943 m/s² pk)
  • Broadband Resolution: (1 to 10000 Hz) 0.01 g rms(0.1 m/s² rms)
  • Frequency Range: (±5%) 1 to 8000 Hz
  • Sensing Element: Quartz
  • Weight: 0.06 oz(1.8 gm)
Product Manual
Model: 351B31

Model: 351B31

Cryogenic, quartz shear ICP® accel., 50 mV/g, 1 to 4k Hz, 10-32 side conn. (-320 to +250 F/-196 to +121 C)
  • Sensitivity: (±10%) 50 mV/g(5.10 mV/(m/s²))
  • Measurement Range: ±30 g pk(±294 m/s² pk)
  • Broadband Resolution: 0.002 g rms(0.02 m/s² rms)
  • Frequency Range: (±5%) 1 to 4000 Hz
  • Sensing Element: Quartz
  • Weight: 0.7 oz(20 gm)
Product Manual
Model: 351B41

Model: 351B41

Cryogenic, quartz shear ICP® accel., 100 mV/g, 1 to 2k Hz, 10-32 side conn. (-320 to +250 F/-196 to +121 C)
  • Sensitivity: (±10%) 100 mV/g(10.2 mV/(m/s²))
  • Measurement Range: ±15 g pk(±147 m/s² pk)
  • Broadband Resolution: 0.0005 g rms(0.005 m/s² rms)
  • Frequency Range: (±5%) 1 to 2000 Hz
  • Sensing Element: Quartz
  • Weight: 1.4 oz(40 gm)
Product Manual
Model: J351B03

Model: J351B03

Cryogenic, quartz shear ICP® accel., 10 mV/g, 1 to 5k Hz, 10-32 side conn. (-320 to +250F/-196 to +121C) ground isolated
  • Sensitivity: (±10%) 10 mV/g(1.02 mV/(m/s²))
  • Measurement Range: ±150 g pk(±1472 m/s² pk)
  • Broadband Resolution: 0.01 g rms(0.1 m/s² rms)
  • Frequency Range: (±5%) 1 to 6000 Hz
  • Sensing Element: Quartz
  • Weight: 0.33 oz(9.4 gm)
Product Manual
Model: J351B31

Model: J351B31

Cryogenic, quartz shear ICP® accel., 50 mV/g, 1 to 4k Hz, 10-32 side conn. (-320 to +250F/-196 to +121C) ground isolated
  • Sensitivity: (±10%) 50 mV/g(5.10 mV/(m/s²))
  • Measurement Range: ±30 g pk(±294 m/s² pk)
  • Broadband Resolution: 0.002 g rms(0.02 m/s² rms)
  • Frequency Range: (±5%) 1 to 4000 Hz
  • Sensing Element: Quartz
  • Weight: 0.7 oz(20 gm)
Product Manual
Model: J351B41

Model: J351B41

Cryogenic, quartz shear ICP® accel., 100 mV/g, 1 to 2k Hz, 10-32 side conn. (-320 to +250 F/-196 to +121 C) ground isolated
  • Sensitivity: (±10%) 100 mV/g(10.2 mV/(m/s²))
  • Measurement Range: ±15 g pk(±147 m/s² pk)
  • Broadband Resolution: 0.0005 g rms(0.005 m/s² rms)
  • Frequency Range: (±5%) 1 to 2000 Hz
  • Sensing Element: Quartz
  • Weight: 1.4 oz(40 gm)
Product Manual
Model: M351B11

Model: M351B11

Cryogenic, miniature quartz shear ICP® accel., 5 mV/g, 1 to 10k Hz, 5-44 side conn., M3 mtg stud, operating temp -320 to +250 F (-196 to +121 C)
  • Sensitivity: (±10%) 5 mV/g(0.51 mV/(m/s²))
  • Measurement Range: ±300 g pk(±2943 m/s² pk)
  • Broadband Resolution: (1 to 10000 Hz) 0.01 g rms(0.1 m/s² rms)
  • Frequency Range: (±5%) 1 to 10000 Hz
  • Sensing Element: Quartz
  • Weight: 0.07 oz(2.0 gm)
Product Manual
April 30, 2014, Depew NY – IMI Sensors Receives TR CU Certification for Pressure Sensors, Accelerometers, Vibration Switches, and Charge Amplifier

April 30, 2014, Depew NY – IMI Sensors Receives TR CU Certification for Pressure Sensors, Accelerometers, Vibration Switches, and Charge Amplifier

, and 351 Accelerometers Series 102, 105, 175, and 176 Pressure Sensors Series EX686, 685 Vibration Switches Series EX682 Charge Amplifiers The TR CU Compliance Certificate is issued by an independent accredited body through several laboratory quality tests of IMI’s product. This insti
PCB's Model 351A15 Withstands Temps Down to -420°F | PCB Piezotronics

PCB's Model 351A15 Withstands Temps Down to -420°F | PCB Piezotronics

n the 351 family of cryogenic accelerometers. Model 351A15 features: 3rd party thermal testing to -420°F (-251°C) Wide frequency range from 0.35 Hz to 20,000 Hz High resonant frequency of 40,000 Hz High amplitude range of 1,000 g Small size, 0.77 in x
Press Release: PCB Model 354A14 Case Isolated Cryogenic ICP® Triaxial Accelerometer

Press Release: PCB Model 354A14 Case Isolated Cryogenic ICP® Triaxial Accelerometer

#39;s 351 family of single axis cryogenic accelerometers. Model 354A14 features: Wide frequency range up to 10k Hz at 10% High resonant frequency of ≥ 25 kHz Small size and low mass Hermetically sealed, made from stainless steel  
Cryogenic ICP® Accelerometers | PCB Piezotronics

Cryogenic ICP® Accelerometers | PCB Piezotronics

Cryogenic ICP® accelerometers operate at temperatures below the temperature limit of most voltage mode sensors.
ar-87_accel_shock_sensitivity.pdf

ar-87_accel_shock_sensitivity.pdf

Accelerometer Shock Sensitivity Calibration Using a Pneumatic Exciter Robert D. Sill, PCB
Accelerometer Shock Sensitivity Calibration Using a Pneumatic Exciter

Accelerometer Shock Sensitivity Calibration Using a Pneumatic Exciter

(513) 351 9919 Abstract A system for the measurement of accelerometer shock sensitivity is described, complying with the requirements of comparison calibration per ISO 16063 - 22 “Methods for the calibration of vibration and shock transducers - Part 22: Shock calib ra
ar-86_transverse_sensitivity.pdf

ar-86_transverse_sensitivity.pdf

Accelerometer Transverse Sensitivity Measurement Using Planar Orbital Motion Robert D. Si
wpl_38_accelerometer_shock_sensitivity_calibration.pdf

wpl_38_accelerometer_shock_sensitivity_calibration.pdf

en-US W r i t t en B y en-US en-US R o b e r t D . S i l l , P C B Pi e z
ar-86_transverse_sensitivity.pdf

ar-86_transverse_sensitivity.pdf

Accelerometer Transverse Sensitivity Measurement Using Planar Orbital Motion Robert D. Si
wpl_38_accelerometer_shock_sensitivity_calibration.pdf

wpl_38_accelerometer_shock_sensitivity_calibration.pdf

en-US W r i t t en B y en-US en-US R o b e r t D . S i l l , P C B Pi e z
Accelerometer Transverse Sensitivity Measurement Using Planar Orbital Motion

Accelerometer Transverse Sensitivity Measurement Using Planar Orbital Motion

513) 351 - 9919 Abstract An apparatus for the measurement of accelerometer transverse sensitivity is described in which a plate constrained to planar motion by air bearing pads is driven in a circular orbital motion by two orthogonally placed shakers. The paper discusses si
Accelerometer Shock Sensitivity Calibration Using a Pneumatic Exciter

Accelerometer Shock Sensitivity Calibration Using a Pneumatic Exciter

(513) 351 9919 Abstract A system for the measurement of accelerometer shock sensitivity is described, complying with the requirements of comparison calibration per ISO 16063 - 22 “Methods for the calibration of vibration and shock transducers - Part 22: Shock calib ra