Classifying Different IoT Sensors & Their Uses

Classifying Different IoT Sensors

Sensors have become a part of our daily lives, whether we realize it or not. They’ve taken over our homes (hello, Alexa), our cars, our jobs, and cities. They’ve turned our mundane tasks into “smart” living. But what do you really know about sensors and their automation capabilities?

What is a Sensor?

Let’s start out by defining a sensor. Simply stated, a sensor is a device that detects or measures a physical property and records, indicates, or responds to it by transmitting a resulting impulse. It converts a physical specification (such as temperature, speed, or distance) into a signal, which can be electrically recorded.

Sensors have been around for decades, but recent IoT solutions have boosted their popularity and the need for more sophisticated and technologically-loaded sensors. Sensors today must encompass the ability to communicate with other sensors and platforms within an entire ‘sensor ecosystem’. The role of the sensor is extremely important in the overall IoT picture.

The number and variety of sensors that gather information to be measured and analyzed is growing significantly, especially with the rise of automation. For this reason, most types of sensors fall under a sensor classification system.

Classification of Sensors

Sensors can be ranked into various classification systems, but for the sake of simplification, we have divided them into 5 core classifications.

  1. Active and Passive Sensors
    • Active Sensors (also known as parametric sensors) are sensors that require an external power source to operate. Examples of active sensors include GPS sensors and radar sensors.
    • Passive Sensors (also called self-generated sensors) generate their own electric signal and do not require any external power source. Examples of passive sensors include thermal sensors, electric field sensing, and metal detecting.
  2. Contact and Non-Contact Sensors
    • Contact Sensors are those that require physical contact with their stimulus. Familiar examples of contact sensors are temperature and strain gauge sensors.
    • Non-Contact Sensors, on the other hand, require no physical contact. These types of sensors include optical and magnetic sensors, as well as infrared thermometers.
  3. Absolute and Relative Sensors
    • Absolute Sensors mimic its name by providing an absolute reading of its stimulus. For example, a thermistor always measures the exact, or absolute, temperature reading.
    • Relative Sensors provide measurement to a fixed or variable measurement. An example of a relative sensor would be a thermocouple, where the temperature difference is measured, not the actual temperature.
  4. Analog and Digital Sensors
    • Analog Sensors produce continuous analog output signals, proportional to its measurement. A few examples of analog sensors are: accelerometers, pressure sensors, light, and sound sensors.
    • Digital Sensors (also known as electronic or electrochemical sensors) convert the data transmission, digitally. Examples include digital accelerometers, pressure, and temperature sensors.
  5. Miscellaneous Sensors
    • Of course, there are plenty of other types of sensors in the field and they would fall under the ‘other’ or miscellaneous category. These include electric, biological, chemical, radioactive and more.

Sensors, Sensors Everywhere

As you can see, within the five classifications for sensors, there can be thousands of sensors available to choose from, ranging from the more common to the extremely rare.

The most common sensors are typically used for measuring physical properties such as temperature, heat, and conduction. Here are a few examples of these commonly used sensors:

  • Temperature Sensor
  • CO2 Sensor
  • Proximity Sensor
  • Accelerometer
  • IR Sensor (Infrared Sensor)
  • Pressure Sensor
  • Light Sensor
  • Smoke, Gas, and Alcohol Sensor
  • Touch Sensor

IoT Bundles to the Rescue

Examining each type and classification of a sensor can be an overwhelming process, especially when it comes to choosing which sensors your business needs. It can be a hodge-podge of confusion, but IoT bundles take the fear and uncertainty out of the equation.

Axonize’s disruptive architecture was purposely designed to enable deployment of complete and fully customized solutions across all applications and device types in mere days.

Need more information? Let’s talk.

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