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OVERVIEW
DOWNLOADS
Part No: Model 9155D
Availability: TBA

The Accelerometer Calibration Workstation Model 9155D offers accurate back-to-back comparison calibrations of ICP® (IEPE) and charge mode piezoelectric accelerometers in accordance with ISO 16063-21. The 9155 system also calibrates piezoresistive (MEMS), capacitive, and velocity sensors via available options. Benefits of the Model 9155 form in two areas: conformance to existing standards and automation of the calibration task.
 

  • Proven - Global recognition as market leader
  • Accurate - Ensures traceable calibrations to NIST and PTB
  • Simple - Turnkey system includes all necessary components
  • Fast - Calibration typically performed in under a minute per axis
  • Familiar - Windows PC supplies intuitive user interface
  • Versatile - Define multiple pass/fail criteria for each test and automatically recall them from the internal database
  • Customised - Prints customizable ISO 17025 compliant certificates
  • Automatic - Set-up tests, acquire data, save results and print reports with ease, precision and automation

 


Basic 9155 System Specifications
 

Frequency Range 5 Hz - 15 kHz with 9155D-830 Air-Bearing Shaker Option
  5 Hz - 20 kHz with 9155D-831 Air-Bearing Shaker Option
  0.5 Hz - 500 Hz with 9155D-771 Low Frequency, Long Stroke Shaker Option
  0.1 Hz - 500 Hz with 9155D-779 Extended Low Frequency Shaker Option
Typical Measurement Uncertainty1, 2 2.0% (5-10 Hz)
  1.2% (10-100 Hz)
  0.8% (100 Hz)
  1.0% (100 - 1,000 Hz)
  1.4% (1,000 - 5,000 Hz)
  1.9% (5,000 - 10,000 Hz)
  2.2% (10,000-15,000 Hz)
  2.8% (15,000-20,000 Hz)
Calibration Method Back-to-back comparison per ISO 16063-21
Measurements Sensitivity, Amplitude, Phase, Bias, Resonance5, Linearity5, Shock5, Shunt5, DC Offset, Bridge Resistance, DC Sensitivity
Accelerometers Supported ICP®, Charge, Voltage, Capacitive3, Piezoresistive4, CVLD
Sensors Supported Acceleration, Velocity5
TEDS Sensor Support IEEE 1451.45, IEEE P1451.45
Excitation Type Stepped Sine, Multi-sine
Acceleration Levels6 0.1 to 10 gpk
Calibration Data Management Yes
Automatic pass/fail Classification Yes
Measurement Units English, Metric
Input Power Supply 100-200V or 220-240V at 48-62 Hz
Calibration Run Time <90 seconds7

 

1 Random component estimates significantly affected by shaker selection and environmental conditions

2 Best measurement uncertainty available with option 9155D-C83XP

3 Capacitive sensors supported in base s/w - Capacitive sensor signal conditioning available as 9155D-445 option

4 Piezoresistive sensors supported in base s/w - Signal Conditioning available as 9155D-478 option

5 Optional features

6 Shaker dependent, limited by stroke and load capacity - 9155D-501 option supports to 40 gpksinusoid

7 10 Hz to 20 kHz at 1/3 octaves


 



Accessories Included:

  • PC with Printer
  • 9155 Calibration Software 
  • Data Acquisition Hardware
  • Database Software
  • System Verification Sensor
  • Various Mounting Adaptors and Cables
  • Uncertainty Budget Procedures
  • On-Site Installation and Training
OVERVIEW
DOWNLOADS
Part No: Model 9155D
Availability: TBA

The Accelerometer Calibration Workstation Model 9155D offers accurate back-to-back comparison calibrations of ICP® (IEPE) and charge mode piezoelectric accelerometers in accordance with ISO 16063-21. The 9155 system also calibrates piezoresistive (MEMS), capacitive, and velocity sensors via available options. Benefits of the Model 9155 form in two areas: conformance to existing standards and automation of the calibration task.
 

  • Proven - Global recognition as market leader
  • Accurate - Ensures traceable calibrations to NIST and PTB
  • Simple - Turnkey system includes all necessary components
  • Fast - Calibration typically performed in under a minute per axis
  • Familiar - Windows PC supplies intuitive user interface
  • Versatile - Define multiple pass/fail criteria for each test and automatically recall them from the internal database
  • Customised - Prints customizable ISO 17025 compliant certificates
  • Automatic - Set-up tests, acquire data, save results and print reports with ease, precision and automation

 


Basic 9155 System Specifications
 

Frequency Range 5 Hz - 15 kHz with 9155D-830 Air-Bearing Shaker Option
  5 Hz - 20 kHz with 9155D-831 Air-Bearing Shaker Option
  0.5 Hz - 500 Hz with 9155D-771 Low Frequency, Long Stroke Shaker Option
  0.1 Hz - 500 Hz with 9155D-779 Extended Low Frequency Shaker Option
Typical Measurement Uncertainty1, 2 2.0% (5-10 Hz)
  1.2% (10-100 Hz)
  0.8% (100 Hz)
  1.0% (100 - 1,000 Hz)
  1.4% (1,000 - 5,000 Hz)
  1.9% (5,000 - 10,000 Hz)
  2.2% (10,000-15,000 Hz)
  2.8% (15,000-20,000 Hz)
Calibration Method Back-to-back comparison per ISO 16063-21
Measurements Sensitivity, Amplitude, Phase, Bias, Resonance5, Linearity5, Shock5, Shunt5, DC Offset, Bridge Resistance, DC Sensitivity
Accelerometers Supported ICP®, Charge, Voltage, Capacitive3, Piezoresistive4, CVLD
Sensors Supported Acceleration, Velocity5
TEDS Sensor Support IEEE 1451.45, IEEE P1451.45
Excitation Type Stepped Sine, Multi-sine
Acceleration Levels6 0.1 to 10 gpk
Calibration Data Management Yes
Automatic pass/fail Classification Yes
Measurement Units English, Metric
Input Power Supply 100-200V or 220-240V at 48-62 Hz
Calibration Run Time <90 seconds7

 

1 Random component estimates significantly affected by shaker selection and environmental conditions

2 Best measurement uncertainty available with option 9155D-C83XP

3 Capacitive sensors supported in base s/w - Capacitive sensor signal conditioning available as 9155D-445 option

4 Piezoresistive sensors supported in base s/w - Signal Conditioning available as 9155D-478 option

5 Optional features

6 Shaker dependent, limited by stroke and load capacity - 9155D-501 option supports to 40 gpksinusoid

7 10 Hz to 20 kHz at 1/3 octaves


 



Accessories Included:

  • PC with Printer
  • 9155 Calibration Software 
  • Data Acquisition Hardware
  • Database Software
  • System Verification Sensor
  • Various Mounting Adaptors and Cables
  • Uncertainty Budget Procedures
  • On-Site Installation and Training

Accelerometer Calibration Workstation

OVERVIEW
DOWNLOADS
Part No: Model 9155D
Availability: TBA

The Accelerometer Calibration Workstation Model 9155D offers accurate back-to-back comparison calibrations of ICP® (IEPE) and charge mode piezoelectric accelerometers in accordance with ISO 16063-21. The 9155 system also calibrates piezoresistive (MEMS), capacitive, and velocity sensors via available options. Benefits of the Model 9155 form in two areas: conformance to existing standards and automation of the calibration task.
 

  • Proven - Global recognition as market leader
  • Accurate - Ensures traceable calibrations to NIST and PTB
  • Simple - Turnkey system includes all necessary components
  • Fast - Calibration typically performed in under a minute per axis
  • Familiar - Windows PC supplies intuitive user interface
  • Versatile - Define multiple pass/fail criteria for each test and automatically recall them from the internal database
  • Customised - Prints customizable ISO 17025 compliant certificates
  • Automatic - Set-up tests, acquire data, save results and print reports with ease, precision and automation

 


Basic 9155 System Specifications
 

Frequency Range 5 Hz - 15 kHz with 9155D-830 Air-Bearing Shaker Option
  5 Hz - 20 kHz with 9155D-831 Air-Bearing Shaker Option
  0.5 Hz - 500 Hz with 9155D-771 Low Frequency, Long Stroke Shaker Option
  0.1 Hz - 500 Hz with 9155D-779 Extended Low Frequency Shaker Option
Typical Measurement Uncertainty1, 2 2.0% (5-10 Hz)
  1.2% (10-100 Hz)
  0.8% (100 Hz)
  1.0% (100 - 1,000 Hz)
  1.4% (1,000 - 5,000 Hz)
  1.9% (5,000 - 10,000 Hz)
  2.2% (10,000-15,000 Hz)
  2.8% (15,000-20,000 Hz)
Calibration Method Back-to-back comparison per ISO 16063-21
Measurements Sensitivity, Amplitude, Phase, Bias, Resonance5, Linearity5, Shock5, Shunt5, DC Offset, Bridge Resistance, DC Sensitivity
Accelerometers Supported ICP®, Charge, Voltage, Capacitive3, Piezoresistive4, CVLD
Sensors Supported Acceleration, Velocity5
TEDS Sensor Support IEEE 1451.45, IEEE P1451.45
Excitation Type Stepped Sine, Multi-sine
Acceleration Levels6 0.1 to 10 gpk
Calibration Data Management Yes
Automatic pass/fail Classification Yes
Measurement Units English, Metric
Input Power Supply 100-200V or 220-240V at 48-62 Hz
Calibration Run Time <90 seconds7

 

1 Random component estimates significantly affected by shaker selection and environmental conditions

2 Best measurement uncertainty available with option 9155D-C83XP

3 Capacitive sensors supported in base s/w - Capacitive sensor signal conditioning available as 9155D-445 option

4 Piezoresistive sensors supported in base s/w - Signal Conditioning available as 9155D-478 option

5 Optional features

6 Shaker dependent, limited by stroke and load capacity - 9155D-501 option supports to 40 gpksinusoid

7 10 Hz to 20 kHz at 1/3 octaves


 



Accessories Included:

  • PC with Printer
  • 9155 Calibration Software 
  • Data Acquisition Hardware
  • Database Software
  • System Verification Sensor
  • Various Mounting Adaptors and Cables
  • Uncertainty Budget Procedures
  • On-Site Installation and Training
OVERVIEW
DOWNLOADS
Part No: Model 9155D
Availability: TBA

The Accelerometer Calibration Workstation Model 9155D offers accurate back-to-back comparison calibrations of ICP® (IEPE) and charge mode piezoelectric accelerometers in accordance with ISO 16063-21. The 9155 system also calibrates piezoresistive (MEMS), capacitive, and velocity sensors via available options. Benefits of the Model 9155 form in two areas: conformance to existing standards and automation of the calibration task.
 

  • Proven - Global recognition as market leader
  • Accurate - Ensures traceable calibrations to NIST and PTB
  • Simple - Turnkey system includes all necessary components
  • Fast - Calibration typically performed in under a minute per axis
  • Familiar - Windows PC supplies intuitive user interface
  • Versatile - Define multiple pass/fail criteria for each test and automatically recall them from the internal database
  • Customised - Prints customizable ISO 17025 compliant certificates
  • Automatic - Set-up tests, acquire data, save results and print reports with ease, precision and automation

 


Basic 9155 System Specifications
 

Frequency Range 5 Hz - 15 kHz with 9155D-830 Air-Bearing Shaker Option
  5 Hz - 20 kHz with 9155D-831 Air-Bearing Shaker Option
  0.5 Hz - 500 Hz with 9155D-771 Low Frequency, Long Stroke Shaker Option
  0.1 Hz - 500 Hz with 9155D-779 Extended Low Frequency Shaker Option
Typical Measurement Uncertainty1, 2 2.0% (5-10 Hz)
  1.2% (10-100 Hz)
  0.8% (100 Hz)
  1.0% (100 - 1,000 Hz)
  1.4% (1,000 - 5,000 Hz)
  1.9% (5,000 - 10,000 Hz)
  2.2% (10,000-15,000 Hz)
  2.8% (15,000-20,000 Hz)
Calibration Method Back-to-back comparison per ISO 16063-21
Measurements Sensitivity, Amplitude, Phase, Bias, Resonance5, Linearity5, Shock5, Shunt5, DC Offset, Bridge Resistance, DC Sensitivity
Accelerometers Supported ICP®, Charge, Voltage, Capacitive3, Piezoresistive4, CVLD
Sensors Supported Acceleration, Velocity5
TEDS Sensor Support IEEE 1451.45, IEEE P1451.45
Excitation Type Stepped Sine, Multi-sine
Acceleration Levels6 0.1 to 10 gpk
Calibration Data Management Yes
Automatic pass/fail Classification Yes
Measurement Units English, Metric
Input Power Supply 100-200V or 220-240V at 48-62 Hz
Calibration Run Time <90 seconds7

 

1 Random component estimates significantly affected by shaker selection and environmental conditions

2 Best measurement uncertainty available with option 9155D-C83XP

3 Capacitive sensors supported in base s/w - Capacitive sensor signal conditioning available as 9155D-445 option

4 Piezoresistive sensors supported in base s/w - Signal Conditioning available as 9155D-478 option

5 Optional features

6 Shaker dependent, limited by stroke and load capacity - 9155D-501 option supports to 40 gpksinusoid

7 10 Hz to 20 kHz at 1/3 octaves


 



Accessories Included:

  • PC with Printer
  • 9155 Calibration Software 
  • Data Acquisition Hardware
  • Database Software
  • System Verification Sensor
  • Various Mounting Adaptors and Cables
  • Uncertainty Budget Procedures
  • On-Site Installation and Training
Enquiry sent successfully
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