The ADXL1005BCPZ delivers ultralow noise density over an extended frequency range and is optimized for bearing fault detection and diagnostics. The ADXL1005BCPZ has typical noise density of 75 μg/√Hz across the linear frequency range. Microelectronicmechanical systems (MEMS) accelerometers have stable and repeatable sensitivity, and are immune to external shocks up to 10,000 g.
The integrated signal conditioning electronics enable such features as full electrostatic self test (ST) and an overrange (OR) indicator, useful for embedded applications. With low power and single-supply operation of 3.3 V to 5.25 V, the ADXL1005BCPZ also enables wireless sensing product design. The ADXL1005BCPZ is available in a 5 mm × 5 mm × 1.80 mm LFCSP package, and operates over the −40°C to +125°C temperature range.
Feature
- Single, in plane axis accelerometer with analog output
- Full-scale range: ±100 g
- Linear frequency response range: dc to 23 kHz typical (3 dB point)
- Resonant frequency: 42 kHz typical
- Ultralow noise density: 75 μg/√Hz
- Overrange sensing plus dc coupling allows fast recovery time
- Complete electromechanical self test
- Sensitivity performance
- Sensitivity stability over temperature within ±5%
- Linearity to ±0.25% of full-scale range
- Cross axis sensitivity: ±1.5% (Z-axis acceleration effect on x-axis; y-axis acceleration effect on x-axis)
- Single-supply operation
- Output voltage ratiometric to supply
- Low power consumption: 1.0 mA typical
- Power saving standby operation mode with fast recovery
- RoHS compliant
- −40°C to +125°C operating temperature range
- 32-lead, 5 mm × 5 mm × 1.80 mm LFCSP package
Applications
- Condition monitoring
- Predictive maintenance
- Asset health
- Test and measurement
- Health usage monitoring system (HUMSs)
- Acoustic emissions
(Picture: Pinout)
