Slow Vibration Switch SW18030P

A “Slow Vibration Switch” is a type of vibration sensor that is designed to respond to slow or gradual vibrations or movements. These switches are used to detect motion or vibrations within a certain range, and they trigger a response or action when these vibrations reach a specific threshold. These switches are valuable in applications where it’s important to detect slow and subtle movements or vibrations. Their specific design and threshold settings are tailored to the nature of the vibrations they are meant to respond to. When using a slow vibration switch, it’s important to consult the datasheet or product documentation for detailed specifications and guidelines on integration and usage.

Here are some general characteristics and specifications for a slow vibration switch:

Characteristics:

• Vibration Sensitivity: Slow vibration switches are typically calibrated to respond to low-frequency vibrations or gradual movement.
• Threshold: These switches have a preset threshold level, and they activate when the vibration or movement exceeds this threshold.
• Use Case: Slow vibration switches are often used in applications where monitoring and responding to slow or gradual movements is critical, such as in structural health monitoring, tilt sensors, or slow speed machinery.
• Response Time: The response time of the switch is designed to accommodate the slower vibrations it is intended to detect.

Specifications:

• Operating Principle: They can be based on various principles, including mechanical, piezoelectric, or capacitive sensing.
• Voltage Rating: Typically compatible with a range of voltage levels, depending on the specific model.
• Output Type: Depending on the design, it may have normally open (NO) or normally closed (NC) contacts.
• Mounting: They can come in various form factors and mounting options for easy integration into different systems.
• Application: Used in applications like structural health monitoring, tilt and inclination sensing, slow-speed machinery monitoring, and more.