Industry Pain Points
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In traditional acceleration measurement systems, users often face:
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- Poor long-term stability leading to drift in measurements
- Weak anti-interference capability in complex electromagnetic environments
- Limited performance in low-frequency or static acceleration detection
- Inaccurate readings caused by temperature variations
- Low integration requiring complex external circuit design
- Poor repeatability and inconsistent startup behavior
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These issues reduce measurement accuracy and system reliability in critical applications.
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⚙ Product Advantages
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The MOPKT-JB100 is designed to solve these problems with advanced engineering:
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- ✔ Fully independent and controllable design (domestic innovation capability)
- ✔ Zero-frequency DC response for accurate static measurement
- ✔ Current output design with strong anti-interference performance
- ✔ Excellent long-term stability and high repeatability
- ✔ Fast and reliable startup performance
- ✔ High integration level, reducing system complexity
- ✔ Good temperature characteristics (full temperature compensation capability)
- ✔ Optional temperature output for advanced calibration
- ✔ Strong environmental adaptability for harsh conditions
- ✔ Customization available based on customer requirements
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Product Applications
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The MOPKT-JB100 is widely used in high-precision sensing and industrial systems, including:
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- Inertial navigation systems (INS)
- UAV and aerospace attitude measurement
- Vibration monitoring systems
- Industrial automation and robotics
- Marine and ship navigation systems
- Geological and structural monitoring
- High-end scientific testing equipment
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⭐ Why Choose MOPKT-JB100
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- High-precision quartz flexible sensing technology
- Stable performance in long-term and dynamic environments
- Strong anti-interference and environmental adaptability
- Flexible integration with current-output design
- Suitable for both research and industrial-grade applications
- Custom engineering support for specific system requirements
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The MOPKT-JB100 is designed for users who require stability, precision, and reliability in complex measurement environments.
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❓ Frequently Asked Questions (FAQ)
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Q1: Is the MOPKT-JB100 suitable for both static and dynamic measurements?
Yes, it supports both static and dynamic acceleration measurement.
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Q2: Does it support temperature compensation?
Yes, an optional built-in temperature sensor can be used for compensation of bias and scale factor drift.
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Q3: What type of output does it use?
It uses a current output proportional to acceleration input.
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Q4: Can it be customized?
Yes, customization is available according to customer requirements.
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Q5: Is it resistant to environmental interference?
Yes, it has strong anti-interference capability and good environmental adaptability.
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| No. | Parameter | MOPKT-JB100 |
|---|---|---|
| 1 | Range | ±50 g |
| 2 | Threshold | 10 μg |
| 3 | Bias K0 (@25°C) | ≤ ±5 mg |
| 4 | Scale Factor K1 | 0.8 ~ 1.2 mA/g |
| 5 | Second-order Nonlinearity Coefficient K2 | ≤ ±20 μg/g² |
| 6 | 4-hour Short-term Stability at 0g | ≤ 30 μg |
| 7 | 4-hour Short-term Stability at 1g | ≤ 20 ppm |
| 8 | Bias Composite Repeatability σK0 (1σ, 1 month) | ≤ 30 μg |
| 9 | Scale Factor Composite Repeatability σK1/K1 (1σ, 1 month) | ≤ 30 ppm |
| 10 | Nonlinearity Coefficient Composite Repeatability K2/K1 (1σ, 1 month) | ≤ ±10 μg/g² |
| 11 | Bias Temperature Coefficient | ≤ ±30 μg/°C |
| 12 | Scale Factor Temperature Coefficient | ≤ ±30 ppm/°C |
| 13 | Noise (sampling resistor 840 Ω) | ≤ 8.4 mV |
| 14 | Natural Frequency | 350 ~ 800 Hz |
| 15 | Bandwidth | 800 ~ 2500 Hz |
| 16 | Vibration | 5 g, 20-2000 Hz |
| 17 | Shock | 100 g, 0.5 ms, 1/2 sin |
| 18 | Operating Temperature Range | -55 ~ +85 °C |
| 19 | Storage Temperature Range | -60 ~ +100 °C |
| 20 | Power Supply | ±12 ~ ±18 V |
| 21 | Current Consumption | ±60 mA |
| 22 | Dimensions | Φ30 × 32 mm |
| 23 | Weight | 100 g |
