Night Vision Vs Infrared - Differences Explained In Detail

When it comes to security cameras, and home surveillance in the night, two technologies that often come to mind quickly are night vision and infrared. While they might seem like the same thing, they actually work in different ways and are used for different purposes. So, what sets them apart?

If you’ve been wondering about these differences, this article has answered your question in great detail. Here, we’ve broken down the differences between night vision vs infrared, showing you how each one works, the quality of images they produce, and where they’re typically used. If you're considering which one to use for your home security, keep reading to find out! 

What Is Night Vision?

To put it simply, night vision is a technology that allows us to see in low light or even total darkness by amplifying the available light in the environment like the moon, stars, or even light from sources we can’t see with our naked eyes, like infrared light. The magic happens when night vision devices, such as goggles or cameras, use special sensors to capture the faint light around us, even if it’s barely visible.

When they take in this light—whether from the moon, stars, or nearby infrared sources, they enhance them to create a brighter, clearer image. The result? You can see things in the dark as if it were daylight. That’s exactly what their light amplification technique does. This night vision technology is used in everything from military operations to wildlife observation, making it easier to navigate and observe in dark environments.

What Is Infrared?

Infrared technology in security cameras is like giving your camera a pair of super night vision goggles. It allows your camera to see in the dark, using infrared light, which is a type of light that's invisible to the human eye. Most security cameras with this technology have infrared LEDs around the lens, which light up the camera's field of view without being visible or disturbing to anyone in the area.

So, how does it work? When the natural light dims, these IR LEDs kick in, bathing the area in infrared light. The camera then captures this light and uses it to create a clear, black and white image of what's happening. This lets you keep an eye on things regardless of the time of day or lighting conditions, ensuring nothing goes unnoticed.

What Is Thermal Imaging?

Thermal imaging is essentially an offshoot of infrared technology that allows us to "see" heat. It works by using passive infrared sensors to detect the heat signatures emitted by objects, which are then converted into visual images. The hotter something is, the more infrared radiation it emits, and thermal imaging devices like cameras pick up on these differences to create a clear picture based on temperature variations.

So, to put it more simply, unlike regular cameras, thermal imaging operates in the long-wave infrared spectrum (between 8 to 14 micrometers), meaning it captures heat instead of visible light.

Night Vision vs Thermal vs Infrared: Key Differences

Now that you know the meaning of night vision, thermal, and infrared, it’s important to draw out the differences clearly before selecting a security camera equipped with one of these technologies for your home. In this section, we’ll draw a table highlighting the key difference between infrared vs thermal vs night vision.

Aspect	Night Vision	Infrared	Thermal Imaging
Principle	Amplification of available light (visible + infrared light)	Detection of infrared radiation (heat + reflected IR)	Detection of heat signatures emitted by objects
Source of Image	Ambient light (moonlight, starlight)	Infrared light emitted from infrared LEDs surrounding the camera lens	Heat radiated by objects
Spectrum of Operation	Visible and near-infrared light	Short-wave and long-wave infrared	Long-wave infrared (8-14 μm)
Image Quality	Brighter, natural-looking colors	Grayscale or false color depending on wavelength	Color gradients representing temperature differences
Working Principle	Amplifies available light to enhance visibility	Detects reflected or emitted infrared radiation	Measures and visualizes temperature differences
Applications	Night-time surveillance, military, law enforcement	Night vision, surveillance, automotive, agriculture	Building diagnostics, electrical inspections, firefighting
Types	1st, 2nd, and 3rd generations	Active (uses infrared light) and Passive (detects heat)	Passive (detects heat signatures)
Cost	Generally lower cost	Varies based on complexity and application	Higher cost due to specialized sensors
Limitations	Requires ambient light, limited range	Limited range and detail in complete darkness	Weather conditions can affect performance
Technology Used	Image intensifier tube	Detector array, IR sensors	Microbolometers or thermal sensors

So, in essence, night vision typically works by amplifying the available light, including visible and infrared to create brighter images. It also relies on ambient light from the moon and stars to offer natural-looking images.

Infrared on the other hand detects infrared radiation, which can either be reflected or emitted by objects. It allows visibility in darkness and works in both short- and long-wave infrared spectrums.

Finally, thermal imaging is an aspect of infrared that detects heat (thermal) radiation emitted by objects. t visualizes temperature differences using color gradients and operates in long-wave infrared. Since it operates more independently of light than others, it is more expensive.

How to Choose the Right Technology for Security Cameras

When it comes to selecting the right security camera technology, it's important to consider several key factors that will ensure you get the best fit for your needs.

1. Lighting Conditions

First, think about the lighting in your area. If it’s not so well-lit, an infrared (IR) camera is the best option for you. They excel in complete darkness, as they don't rely on visible light. On the other hand, night vision cameras are ideal for well-lit environments like storefronts or outdoor patios where identifying colors is crucial.

2. Need for Color Detail

Another factor to consider when choosing the right technology for security cameras is the need for color detail in your footage. If identifying people or objects is critical (like for facial recognition), a color night vision camera like eufy SoloCam S340, which features Color Night Vision, is ideal. It gives a more natural image with a 3K resolution which helps with identification. However, in environments where color isn’t as crucial such as monitoring backyards or warehouses, IR cameras can effectively do the job without the extra cost.

3. Sensitivity to Light

Additionally, if you’re living in a residential area or a place where bright lights can be a nuisance, consider using night vision cameras. It minimizes light pollution while still providing necessary details.

4. Image Quality

What kind of image quality are you hoping to get? Keep that in mind when deciding on the right technology for your security camera. Typically, higher-resolution cameras and those with color night vision offer more detailed images. For example, the eufyCam S3 Pro with 4K UHD resolution provides incredibly sharp images, allowing you to capture fine details like faces up to 30 feet away, even in low light. While higher-resolution cameras like this often come at a higher price, the added clarity and reliability, especially with features like color night vision, can be worth the investment for enhanced security.

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5. Field of View

You should also determine how much area you need to cover. Look for cameras with a field of view that suits your specific security needs. The eufy 4G LTE Cam S330 is a good example, which provides an all-round viewing with pan and tilt. It even has an AI tracking that detects and tracks people, and vehicles with an extensive range of motion.

Conclusion

Knowing the difference between night vision vs infrared technology is one step to making the right choice for your security needs. Both are great choices, although they work differently. Night vision helps you see better in low light by amplifying available light, making it perfect for places that are a bit bright, where recognizing colors matters. On the flip side, infrared night vision camera is your go-to for total darkness; it detects heat, which is super useful when you can't see anything at all.

When deciding which one to use, think about what you need: How much light is in the area? Do you need to see colors clearly? What’s your budget? By figuring these things out, you can pick the right camera to keep your home or business safe.

FAQs

Can night vision work in total darkness?

No, night vision cannot work in total darkness. Night vision devices rely on amplifying available light, so if there's no light at all—such as in a completely dark environment—there’s nothing for the device to amplify, which renders it ineffective. In total darkness, infrared or thermal imaging would be a better option.

Is infrared better than night vision for security?

When comparing the security capability between color night vision vs infrared cameras, the answer depends on what you need. Infrared is better for detecting heat signatures, making it highly effective in complete darkness or poor visibility conditions. Color night vision, on the other hand, provides more natural-looking images, making it easier for the human eye to recognize and identify people and objects.

What are the cost differences between infrared vs night vision devices?

Thermal cameras are typically the most expensive due to their specialized sensors and technology. Night vision cameras are less costly but depend on some ambient light. Meanwhile, infrared cameras are more cost-effective but offer lower image resolution.