ADXL700WBRWZ-RL Overview
The ADXL700WBRWZ-RL is a high-performance, wide bandwidth, low noise MEMS accelerometer designed for precision vibration and shock measurements. Offering a broad frequency response up to 22 kHz and a low noise density, this device excels in capturing high-fidelity acceleration signals in industrial and instrumentation environments. Its integrated analog output and stable bias performance ensure reliable data acquisition for demanding applications. Compact and robust, the ADXL700WBRWZ-RL provides engineers and sourcing specialists with a dependable solution for advanced motion sensing.الشركة المصنعة للدوائر المتكاملة
ADXL700WBRWZ-RL Technical Specifications
| المعلمة | المواصفات |
|---|---|
| نطاق القياس | ??70 g |
| عرض النطاق الترددي | 22 kHz (?3 dB) |
| كثافة الضوضاء | 25 ??g/??Hz |
| الحساسية | 15 mV/g |
| جهد الإمداد | 3.0 V to 3.6 V |
| نوع الإخراج | Analog voltage output |
| Bias Stability | ??3 mg |
| نطاق درجة حرارة التشغيل | ?40??C to +85??C |
| نوع الحزمة | Surface-mount LFCSP, 4 mm ?? 4 mm ?? 1.45 mm |
ADXL700WBRWZ-RL Key Features
- Wide Bandwidth up to 22 kHz: Enables accurate detection of high-frequency vibration signals critical for industrial condition monitoring and diagnostics.
- Low Noise Density (25 ??g/??Hz): Provides high sensitivity and resolution, improving measurement precision in low amplitude vibration environments.
- High Shock Range (??70 g): Supports robust operation in harsh environments with strong transient events without damage or data loss.
- Stable Analog Output: Facilitates straightforward integration with analog front-end systems, simplifying signal processing and reducing system complexity.
- نطاق درجة حرارة تشغيل واسع: Ensures reliable performance in industrial and automotive applications exposed to extreme thermal conditions.
- Compact LFCSP Package: Allows space-efficient PCB design, suitable for embedded systems requiring high-density layouts.
- تشغيل منخفض الطاقة: Optimizes energy consumption, beneficial for battery-powered or energy-sensitive systems.
ADXL700WBRWZ-RL Advantages vs Typical Alternatives
This accelerometer offers superior high-frequency response and lower noise density compared to many competing devices, resulting in enhanced sensitivity and measurement accuracy. Its wide ??70 g measurement range and robust bias stability provide reliable operation in demanding industrial settings. The analog output and compact package enable easy integration and space savings, making it a preferred choice for precision vibration sensing over typical MEMS accelerometers.
🔥 المنتجات الأكثر مبيعًا
التطبيقات النموذجية
- Industrial vibration monitoring and machinery health diagnostics, where precise, high-frequency acceleration measurement is essential to detect equipment faults early and reduce downtime.
- Condition monitoring in automotive systems requiring durable and accurate accelerometers for shock and vibration sensing.
- Structural health monitoring in civil engineering, leveraging its wide bandwidth and stability to capture transient vibration events.
- Instrumentation and test equipment that demand high-resolution analog acceleration signals for performance validation and research.
ADXL700WBRWZ-RL Brand Info
Manufactured by Analog Devices, the ADXL700WBRWZ-RL represents the company??s commitment to delivering precision MEMS inertial sensors tailored for industrial and instrumentation applications. Known for innovation and quality, Analog Devices specializes in high-performance analog, mixed-signal, and digital signal processing integrated circuits. This accelerometer exemplifies their expertise in providing vibration sensing solutions that combine accuracy, robustness, and ease of integration for critical measurement tasks.
الأسئلة الشائعة
What is the measurement range of this accelerometer?
The device supports a measurement range of ??70 g, allowing it to accurately capture both moderate and high acceleration events typically found in industrial vibration and shock monitoring applications.
🌟 المنتجات المميزة
How does the noise density affect measurement precision?
A low noise density of 25 ??g/??Hz enables the accelerometer to detect very small acceleration changes, improving signal clarity and enabling precise measurements in low-amplitude
