How to Choose the Right Vibration Sensor
How to Choose the Right Vibration Sensor
Blog Article
Hello there. Vibration Sensor Buying Guide — Are you looking for one? Well you’re in luck, KASINTON has got your back. Here we will help you understand which features to look for when you select the best vibration sensor for your needs.
Types of Vibration Sensors
So first here’s a discussion about the primary two categories of vibration sensor you will meet: contact sensor and non contact sensor.
The kind of sensors that you put directly in contact on the surface of the measurement object. These measurements are very direct, indicating that they girdle the object to receive an accurate reading.
In contrast, non-contact sensors can detect vibrations from afar, without physically touching the intended object. In many situations, this can be extremely useful.
Examples of Sensors
Now, let's consider moving examples of these sensors:
Contact sensors include:
Piezo electric sensors: these form electric charges when squeezed or contracted. They are highly sensitive and able to detect minuscule vibrations accurately.
Capacitive sensors: These sensors detect vibrations using the distance between two plates. This lets the sensor determine the rate of vibration based on the distance between types of test measurements.
Non-contact sensors include:
Laser sensors: These sensors work by measuring the distance of the object to the sensor via a laser beam. That lets them detect vibrations without coming in contact with the object at all.
Accelerometers: What they tell you is how quickly an object is getting faster or slower. They are also used for a lot of applications to track movements.
Which Sensor to Choose?
So the real question is, which sensor do I go for? It depends on what, exactly, you’re measuring, and where you’re measuring it. For example:
A non-contact sensor such as a laser sensor would be suitable if vibration needs to be measured on a too small or tight space. That way, you can get your measurements with limited access to a tight space.
On the other hand, if you need to measure vibration on a flat surface (e.g., if you want to measure vibration of a machine or equipment) then a contact sensor like a piezoelectric sensor will work much more effectively.
Guide To Choosing The Right Vibration Sensors
A few key factors to consider when buying for the best vibration sensor:
Frequency response: These let you know what range of vibrations the sensor can detect. It can be essential to validate the sensor can detect the vibrations you are interested in.
Amplitude: How much the object moves during a vibration. Some sensors are better at measuring larger vibrations while others are more suited to the smaller ones.
Temperature range: You should also ensure that the sensor can operate within the temperatures you plan to use it in. If it’s too hot or too cold, the sensor can fail.
Verify the specifications of the sensors
When exploring sensor limiting specs, it is important to know what specs signify. Here are some key specs that most definitely matter to you:
Frequency range: what is the range of vibrations it can pick up?
Grain: Provides the grain size of the sensor. Is it sensitive enough to notice tiny vibrations?
Temperature range: What are the limits of temperatures for the sensor?
Also remember to consider the price. More expensive sensors may come with additional features, but those features might not apply to your requirements.
Work or Research Sensor Choose
If you’re looking for a sensor for work or research, you’ll want to think about a few things.
Was this helpful? Durability: What is the strength of the sensor? Is it rugged where it may take some bumps or knocks?
Accuracy: What degree of accuracy does the sensor need to have for your work? If you consider different applications, you might need different accuracy levels.
4. Compatibility: Is the sensor compatible with the other machines or equipment you are using? It’s critical to ensure that everything can play nicely together.
You should also consider the environment in the workplace. F. E.g. many machines around, could it cause a damage to the sensor?
Conclusion
As the final point, choosing an appropriate vibration sensor involves careful consideration of your requirements and potential operating environment uptime. Please keep in mind, KASINTON has plenty of vibration sensors available to serve diverse demands, so if you have inquiries or need assistance with your options, contact us to receive all the details regarding the best choice for your needs. In order to make it easier for you to find the right sensor for your projects, we want to remind you about some great tutorial resources.