B00Y44
Shock IEPE Accelerometer
Triaxial
Sensitivity: 0.5mV/g
Range: ±10000g
Temp Range: -50~120°C
Connector: 1/4-28 4pin
Mount: Thru-Hole
- Fast Lead Time
LNS B00Y44 Shock IEPE Triaxial Accelerometer
The B00Y44 is a high-impact triaxial IEPE shock accelerometer engineered for extreme event capture in rugged test environments. Designed for aerospace, automotive, electronics, and industrial R&D labs, this sensor delivers rapid-response measurements under severe shock conditions, with full manufacturing control from LNS.
Key Features & Highlights
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Triaxial Measurement — Simultaneously records X, Y, and Z axes to reduce mounting complexity and enable full-axis shock monitoring.
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Extremely High Shock Range — ±10,000 g measurement range, making it suitable for very high-impact events and harsh test protocols.
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Low Sensitivity for High-g Range — ~0.5 mV/g sensitivity to support large amplitude capture without saturation.
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Broad Frequency Response — From ~10 Hz to ~10 kHz, enabling capture of rapid transients as well as shock–vibration coupling.
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Temperature Stability — Operating from –50 °C to +120 °C ensures that the B00Y44 can handle extreme environments without performance degradation.
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Connector & Mounting — Standard ¼-28 four-pin connector plus through-hole mounting ensures compatibility with typical test-fixture setups.
Why Choose the B00Y44?
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Built for extreme events — When your test regime includes very high shock, drop towers, impact sleds or severe crash pulses, this sensor is engineered for the job.
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Vertical integration & quality assurance — As LNS controls the piezo-material fabrication, assembly, calibration, and output verification, you get sensor reproducibility and reliability you can trust.
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Global-ready for Engineers — Made for R&D and test engineers in automotive, aerospace, electronics and industrial sectors, the B00Y44 integrates easily into IEPE-based systems and is designed for global deployment.
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Comprehensive support — Supplied with full calibration certificates, traceability, and compliance information—ideal for qualification standards and specification adherence.
Typical Applications
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High-g impact simulation (crash, drop-tower, sled)
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Aerospace component impact testing (landing gear, jettison, separation events)
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Electronics board drop & shock testing for rugged devices
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Heavy industrial equipment and structural impact monitoring
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Multi-axis shock capturing in test labs where reliability and throughput matter
Datasheet: B00Y44
| Sensitivity (mV/g) | 0.5 |
|---|---|
| Range (g) | 10000 |
| Broadband Resolution (g rms) | 0.02 |
| Linearity | 3% |
| Frequency Range [5%] (Hz) | – |
| Min Frequency [5%] (Hz) | – |
| Frequency Range [10%] (Hz) | 10-10k |
| Resonant Frequency (kHz) | ≥70 |
| Discharge Time Constant (s) | ≤0.5 |
| Transverse Sensitivity | ≤5% |
| Excitation Voltage (Vdc) | 20-30 Vdc |
| Constant Current Excitation (mA) | 2-20 mA |
| Output Impedance (Ω) | ≤100 |
| Output Bias Voltage (V) | 8-12 Vdc |
| Max Acceleration (g) | – |
| Max Shock (g) | 12000 |
| Temperature Range (℃) | -50~120 |
| Min Temperature (℃) | -50 |
| Max Temperature (℃) | 120 |
| Sensitivity Temperature Coefficient (%/℃) | -0.07 |
| Sealing | Laser Welding IP68 |
| Housing Material | Titanium Alloy |
| Output Connector | 1/4-28 4pin |
| Mounting | Thru-Hole |
| Weight (grams) | 7.8 |
| Sensor Type | Shock |
| Output Type | IEPE |
| Axis | Triaxial |
| TEDS Optional | No |
- Datasheet (PDF): B00Y44




