606M1 Plug & Play Accelerometer

Brand: American Sensor Technologies Inc

606M1 Plug & Play Accelerometer

Brand: American Sensor Technologies Inc
The Model 606M1 is a MEMS triaxial seat pad accelerometer with both static and dynamic responses designed specially for characterizing whole body vibration in accordance with ISO 2631-1 and ISO 8041.

The DC response of the silicon MEMS sensors is the key to yield accurate velocity and displacement results from the raw acceleration data. The 606M1 incorporates integral temperature compensation that provides a stable output over a wide operating range. The on-board voltage regulation circuit works with power supply from 8 to 32 Vdc.
Features
  • Three Independent Circuits
  • Low Current Consumption
  • Ranges: ±25 g
  • Gas Damped, DC Response
  • High Over-Range Protection
  • Low Transverse Sensitivity

Specifications

Accuracy

  • ± 1 % of Full Scale Output Non-Linearity

Applications

  • Biodynamic Study
  • Heavy Equipment Testing
  • Helicopter Flight Testing
  • Vibration & Shock Monitoring
  • Whole Body Vibration Study

Approvals & Certifications

  • CE
  • RoHS

Cable Material

  • PFA Insulated, Braided Shield, TPE Jacket

Compensated Temperature

  • -20° to 85° C (-4° to 185° F)

Current

  • < 15 mA - Excitation Current

Electrical Connectors

  • 6 x 28 AWG Conductors

Enclosure, Body Material

  • Nitrile Rubber (Seat Pad)

Excitation Voltage

  • 8-36 Vdc

Frequency

  • 0 to 1,000 Hz - Frequency Response
  • 4,000 Hz - Natural Frequency

Insulation Resistance

  • > 100 megaohms at 100 Vdc

NACE & NIST

  • NIST - Traceable Amplitude Calibration

Operating Temperature

  • -20° to 85° C (-4° to 185° F)

Output

  • ± 100 mV - Zero Acceleration

Output Impedence

  • < 100 ohms

Output Noise

  • 800 µV RMS - Residual

Power

  • 2.5 Vdc - Bias Voltage

Sensitivity

  • ± 3.5 % - Thermal Sensitivity Shift
  • 80 mV/g

Shock

  • 5,000 G

Storage Temperature

  • -20° to 85° C (-4° to 185° F)

Thermal Drift

  • Zero Shift: ± 3 % of Full Scale Output

Turn-On Time

  • < 100 milliseconds

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