Publish Time: 2024-07-26 Origin: Site
Piezoelectric Vibration Acceleration Temperature Composite Sensor AT214D100
Product Overview
This series of acceleration sensors for vibration and temperature dual output composite sensors, stainless steel shell, laser welding sealing, high reliability, double-layer screen anti-interference ability, suitable for a variety of harsh environments for long-term reliable work. Applied to industrial rotating machinery, rail transportation, intelligent ships and other transmission systems, gears, bearings, drive shaft vibration temperature dual-parameter monitoring.
Product Technical Indicators
| Measuring range (peak) | g | ±50 |
| Sensitivity (20土5℃) | mV/g | 100 |
| Amplitude non-linearity | % | ±1 |
| Frequency response (1dB) | Hz | 1~9,000 |
| Frequency response (3dB) | Hz | 0.5~15,000 |
| Maximum transverse sensitivity | % | ≤5 |
| Mounting resonance frequency | Hz | ≥25,000 |
| Supply voltage | VDC(Constant current source) | 18-28 |
| Constant current source excitation | mA | 2-10 |
| Output impedance | Ω | <100 |
| Dynamic range | V(peak) | ±5 |
| Signal pair shielding | Ω | ≥108 |
| Noise (rms) | μV | <50 |
| Operating temperature | ℃ | -40~+120 |
| Shock limit (peak) | g | ±2000 |
| TEMPERATURE | ||
| Temperature output | Pt100A | |
| Temperature sensitivity | A level(±0.15%) | |
| Temperature measurement range | ℃ | -50~+300 |
| common part | ||
| Housing material | 304 stainless steel(selectable) | |
| Output method | MIL-C-5015 4-Pin or 5-pin socket integral cord optional | |
| White: Acceleration signal output | ||
| Yellow: Temperature signal + | ||
| Black: Acceleration signal ground | ||
| Blue: Temperature signal ~ | ||
| Mounting bolts | 1/4-28 to M6 | |
| Protection class | IP65(selectable) | |
Size Chart
Electrical Connection Diagram
Temperature Characteristics | Typical frequency response diagram (based on 100mV/g) |
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Installation Notes
1. Mounting method
When choosing the installation of the sensor should carefully consider the different mounting methods may have an impact on the amplitude and frequency of the sensor. Sensors can be mounted in a variety of ways: hand-held probe, adhesive, magnetic mounting, threaded mounting and so on. Different mounting methods produce different mounting stiffness, resulting in changes in the sensor's measurement frequency, the higher the stiffness, the wider the measurement frequency. Therefore, when installing the sensor, it is best to bolt the sensor directly to the object to be measured.
2. Mounting surface
Sensor bottom surface finish to <10μm, but also hope that the user of the object to be measured on the surface grinding, improve the finish and smoothness, so that the object to be measured to install the surface roughness of less than 10μm. Clean the bottom surface of the sensor and the mounting surface to ensure that the surface is free of foreign matter.
3. Bolt connection method
Bolt connection is the most reliable installation method, first of all, in the clean and flat mounting surface drilling a mounting threaded holes (hole depth should be longer than the bolt). Secondly, in order to ensure effective contact between the upper and lower end surfaces, it is best to apply a layer of grease on the bonding surface to increase the contact stiffness, which ensures that the entire bottom surface of the sensor can be very good rigid contact with the measured object. Finally, use a torque wrench to install the sensor on the mounting surface, the mounting screw holes must be perpendicular to the surface, and the mounting torque is 2.5 to 5NM.
Scope of use
Yangzhou Xiyuan Electronic Technology Co.,Ltd.
Building 2,217 kaifa west road,high-tech development zone, yangzhou, jiangsu,China 225128
Mobie Phone: +86 180-5105-8377
Tel: +86 514-82885589
Whatsapp:+86 182-6066-6867
Email: sale1@yzxyt.com
Fax: +86 514-82885089