D7S 진동, 지진 감지 센서 -I2C
(Grove - D7S Vibration Sensor
- real-time earthquake detect, I2C)
개요
- 본 제품은 D7S 진동, 지진 감지 센서 -I2C 입니다.
- Omron사의 D7S 센서를 기반한 진동 감지센서로 I2C 인터페이스를 가지고 있습니다.
- 지진을 포함하여 다양한 형태의 진동을 검출할 수 있습니다.
특징
- Real-Time Earthquake Detection: The Grove - D7S Vibration Sensor uses advanced algorithms to detect and classify seismic events in real time. It can differentiate between different magnitudes of earthquakes and provide corresponding alert signals.
- Simple Connection and Operation: Uses the standard Grove connector (HY2.0 - 4Pin) for easy integration with other Grove modules. No complex wiring or soldering is required, making it accessible to users of all skill levels.
- Low Power Consumption: The sensor is designed to operate with low power consumption, making it suitable for long-term monitoring applications without draining the power source quickly.
- Compact and Robust Design: The Grove - D7S Vibration Sensor has a compact form factor, making it suitable for various applications where space is limited. Its robust construction ensures durability and reliable performance, even in harsh environments.
-
Feature
Specification
Chip
D7S
Measurement Range
±6g
Communication interface
I2C
Grove Connector
4-pin HY2.0
Operating Voltage
3.3/5V
-
The Grove - D7S Vibration Sensor is a powerful earthquake detection module that provides real-time monitoring of seismic activities. It is based on the advanced D7S module developed by Omron Corporation, a leading manufacturer of sensing technology.
Designed with simplicity and versatility in mind, the Grove - D7S Vibration Sensor integrates seamlessly with Grove system, a modular prototyping platform. Its standardized interface allows for easy connection to Arduino boards and other compatible development platforms.
Featuring a high-precision accelerometer and sophisticated earthquake algorithms, the Grove - D7S Vibration Sensor offers accurate and reliable detection of seismic events. It can detect various types of vibrations and classify them based on their severity, providing valuable information for earthquake monitoring and safety applications.