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20 Sensors Present In Smartwatch: How They Work, Pros and Cons?

Apart from the basic hardware required to run, a smartwatch packs several important sensors to track your sleep, health and activity, stress, gestures, position, and more. This includes a gyroscope, accelerometer, GPS, heart rate sensor, and whatnot. In this article, we’ll explore 20 such sensors present in a smartwatch and their advantages and disadvantages.

Sensors in Smartwatch

Everything About Sensors Present Inside a Smartwatch

A 34-year-old man from Yamuna Nagar, Haryana, complained about low energy levels and chest pain. In a normal situation, anyone would probably take a rest to feel better – but he had an Apple Watch with him. He immediately used the ECG sensor, which detected irregularities and advised for medical help, and it was later revealed he had 99% blockage in arteries.

This only shows how much wearable tech has evolved. What meets the eye are the fancy aesthetics, but deep down, the sensors are what makes them revolutionary. Here are some of the important sensors you’ll find inside smartwatches in the market and how they work.

Before we start, note that not all sensors are present on all watches. It depends on the watch’s price, target audience, and what the manufacturer intends to do. You can check what sensors a smartwatch has on the manufacturer’s website, product listing page, or user manual.

1. Accelerometer

How Accelerometer Works

Most fitness bands and wearables fundamentally operate on accelerometers. Accelerometers are sensors that track the movements of your body by counting the number of steps you have taken throughout a period.

At the same time, this sensor also tracks your sleep. The sensor tracks your movements during sleep. It then provides information to learn more about your sleeping patterns and effectively improve your sleeping habits.

Accelerometer is a MEMS-based circuit that senses or measures the forces of acceleration caused by gravity of movement or tilting action. It can  measure the speed of acceleration or movement of the device it is attached. It can measure movement across the X, Y, and Z axis.

The only disadvantage is the questionable accuracy unless you use a decent to the good quality wearable device. According to research, sleep trackers to are only found to be accurate 78% of the time. And when it comes to estimating how long it took for people to fall asleep, the accuracy dropped to a mere 38%.

2. Gyroscope

The Gyroscope sensor in a smartwatch measures the angular velocity. This means it goes beyond detecting linear motion and considers all your other movements too. The 3-axis gyroscope and 3-axis accelerometer sensors combine to perform a 6-degree motion tracking system.

Gyroscope Smartwatch

The two sensors track body movements, gravity, and speed to detect motion and gestures. This is used to detect motion and track them accurately. Gyroscopes are quite helpful when it comes to differentiating one activity from another.

For example, most activity detection features on your smartwatch use the gyroscope to detect your activity and then identify whether you are jogging or running. If you’ve ever wondered how your watch does not detect just your hand motion as activity, it is because of the Gyroscope.

3. Magnetometer or Compass

Compass Sensor in Smartwatch

A magnetometer is nothing but another name for a compass. It works with GPS coordinates to determine your exact location and direction in which you’re standing.

How Magnetometer Works

It senses the magnetic fields, both the magnitude (strength) and the direction of the field so that it can detect your exact position in the coordinate space.

4. Barometric Pressure Sensor

Pressure Sensor in Smartwatch

Barometric pressure sensors are mainly used to detect your altitude with the smartwatch. This data is quite helpful during activities like hiking and mountain climbing.

The altitude data is used along with other data measured by the watch to make sense of the conditions and provide you with the necessary information. For example, devices can use this sensor to determine if your SpO2 levels are decreasing as you move to higher altitudes.

5. Body Temperature Sensor

A body temperature sensor on a smartwatch is used to measure your skin temperature. This is used to detect any slight change in your temperature. This can provide information on whether you are on the verge of catching a fever. These sensors can also help detect menstrual cycles as well.

Smartwatches with temperature sensors can only measure the skin’s temperature at the moment. Their ability to determine internal body temperature is still limited. Even with skin temperatures, external factors can affect the readings.

Since this is a recent addition to budget smartwatches, most generic brands and OEMs take advantage of it by including a fake temperature sensor.

6. Heart Rate Monitor

Heart rate monitors are key reasons why smartwatches sell like hot cakes. As the name goes, it helps detect pulse rate. Most smartwatches use photoplethysmography (PGP) sensors for the same. Here’s a simple explanation as to how it works:

Greenlight is strongly absorbed by red – which is the color of our blood. As your pulse causes a rhythmic change in your amount of blood, there is a change in the redness of your skin too. Therefore, the greenlight detects the changes in the blood by measuring the amount of light reflected. This is how your pulse rate is detected.

Heart Rate Sensor in Smartwatch

Of course, the top-of-the-line smartwatches have a great amount of accuracy, but they aren’t as accurate as any chest-worn heart monitors. Devices like Apple Watch detect anything unusual with your heart health by identifying low/high heart rates or irregular heart rhythms. It only provides you with information but does not provide any inferences as it suggests you visit a medical professional.

7. Oximetry Sensor

If there was one medical device found in most households, although deemed essential during very unfortunate times of the pandemic – it is the pulse oximeters. These sensors help you understand the Oxygen concentration in your blood through your smartwatch.

Oxygen Sensor in Smartwatch

Hemoglobin is the protein present in your red blood cells that carries oxygen. We have something called saturated hemoglobin (full of oxygen) and unsaturated hemoglobin (lack of oxygen; not full). Both of them absorb different amounts of red light.

When your watch is tied to your wrist, it puts out visible red light and infrared light through your skin. Now, the ratio of absorption of light from the two ‘types’ of hemoglobin is measured and compared. Thus, this ratio comparison can help identify how much of the hemoglobin in your blood is saturated and how much is not.

Smartwatch Oxygen Sensor Working

But, we highly recommend you keep a medically certified pulse oximeter with you as well and not solely rely on the ones provided by a smartwatch, especially in situations that need medical attention. Here’s how the SpO2 sensors work in a smartwatch.

8. Ambient Light Sensor

Just like your smartphones, smartwatches include ambient light sensors to adjust the display’s brightness automatically. This sensor detects the surrounding light to adjust the brightness of your screen to the right amount.

Moto 360 Ambient Light Sensor

This also helps conserve the battery on your device. But mainly, this sensor prevents your screen from stinging on the light towards your eyes when you are present in darker environments! Moto 360 was the first Wear smartwatch to feature an ambient light sensor.

9. Altimeter Sensor

The altimeter sensor helps you detect any changes in height. This mainly includes the user climbing a flight of stairs or descending a slope. This sensor can also help detect any elevation change while running, as it significantly improves the calorie burn rate.

Sensors like these ensure that just the basic data like distance, speed, and direction are calculated but bring in finer details like the elevation data.

10. Bioimpedance sensor

A bioimpedance sensor measures the resistance being offered by the skin toward all amounts of electricity. The small amounts of current are delivered to the skin by the battery charging electrodes on the bottom face of your watch.

These measurements, driven by these currents, are used to measure sleep, heart rate, and respiration data. If you are notified that you have been inactive or lethargic, blame the bioimpedance sensor. And if the watch also comes with a water reminder feature, it is possible only because of the bioimpedance sensor.

For those unaware, the Samsung Galaxy Watch 4 comes with a BIA sensor which aids measuring blood pressure, irregular heart rhythm (AFib), blood oxygen, and body composition.

11. Proximity Sensor

Proximity sensors let your watch know if you are using the device in the first place or not. They can detect an object or your hand without touching it from a distance.

If you are not using the device, this sensor helps save the battery and puts the watch to sleep. This sensor is also used to turn off or turn on the screen. Some gestures like waving to accept or reject calls, turning off the screen, and similar ones use the proximity sensor on your smartwatch.

12. Orientation Sensor

An orientation sensor mainly detects the orientation of the device. This is quite a basic sensor, as it helps ensure that you wear your smartwatch in the right direction. If not, this sensor helps correct the display contents automatically concerning the orientation.

13. Pedometer

The most basic sensor that’s present on every single wearable device – is this pedometer. The pedometer uses the accelerometer data to count the number of steps walked by the user and thus provides the step count at the end of each day.

A 10,10,000-steps is often considered a healthy practice for any individual, and the pedometer can help ensure you do so!

14. Calorie Counter

A calorie counter is a secondary component on your smartwatch that uses the movements of the body detected by the accelerometer. Calorie data is quite essential to stay aware of how effective your activities are.

This is largely beneficial in weight management or in selecting the most efficient activities for the same. Some of the companion apps for these smartwatches let you set a weight goal and primarily used the calorie data to keep you motivated and stay aligned towards your goal!

15. ECG Sensor

ECG Sensor in Smartwatch

An ECG or electrocardiogram is a simple test that can check your heart’s rhythm and electrical activity. The test results can provide information if there is a possible heart problem. These problems mainly include chest pain, coronary artery disease, or a possible heart attack.

When you place your fingertip on the electrode, it creates a close circuit from the finger to the heart and then the wrist. This closed-circuit allows your watch to record all the electrical impulses that make your heartbeat. The ECG sensor is a key selling point of the Apple watch.

How ECG Works on a Smartwatch

The information from an ECG sensor can be quite important, and a person ideally has to take immediate medical assistance. Therefore, to avoid any false alarms, the ECG sensor on the apple watch checks the irregularity fore times to check for data consistency.

The only disadvantage is that smartwatches with ECG sensors are expensive, and you probably have to shell out more! Popular smartwatches with ECG include Apple Watch Series 7, Samsung Galaxy Watch 4, and Fitbit Charge 5 and Sense.

16. Gesture Sensor

Smartwatches also pack a few nifty features like detecting gestures to control music playback and accept or reject calls. This is possible due to the presence of gesture sensors on your smartwatch. A few smartwatches also provide the option of adding custom gesture controls, which is also possible using the Gesture sensor.

17. UV Sensor

Some smartwatches also help you detect whether the sunlight you are exposed to is harmful or not. These sensors mainly have light-sensitive elements called photodiodes. When light is incident on the sensor, the photodiode excites the electrons causing an electric current. The electric current response is directly proportional to the strength of the light.

18. Electrodermal Activity Sensor (EDA)

An EDA (electrodermal activity) sensor is the most recent addition to Fitbit smartwatches. It helps you measure stress by combining the data from ECG, Skin Temperature, and heart rate sensors. Some smartwatches also factor in the sleep data.

It detects small amounts of electrical changes in the sweat level of your skin and thus helps you be aware of your stress levels. Thus, the electrical current is detected and then transformed into a digital output.

19. Skin Conductance Sensor

The skin conductance sensor helps calculate something called galvanic skin response – which mainly detects development that can be seen in your sweat, therefore helping you stay aware of your emotional stress levels and is also used to count the number of calories burned throughout the day.

These sensors detect the transformation within the sweat glands, as the electrodes in your watch are quite sensitive to these transformations on your skin.

20. GPS Sensor in Smartwatch

How Smartwatch GPS Works

GPS sensors these days are being made available on smartwatches as well. Like on your phones, this helps you provide direction and measure distance in your activities. A smartwatch’s ability to independently provide navigation data is quite a convenience for a lot of people.

If you have a GPS smartwatch, you can track and map your route, distance traveled, and speed while doing any activity such as running, walking, cycling, climbing, and so on. It can also help determine elevation while hiking or trekking.

Some smartwatches use an altimeter to measure pressure changes at various heights to provide real-time elevation changes and accurately track the position. You also have the option of creating a three-dimensional map of your route.

Wrapping Up

These are the twenty most common sensors inside a smartwatch. We hope you found this article to be insightful and interesting. Do visit all of our related and more detailed articles linked above to know more about sensors. Stay tuned to Wearable to Use to never miss an update in the world of wearable tech.


Supreeth Koundinya