Skip to main content

This tiny sensor is about to change your phone camera forever

“We believe there’s a real opportunity to develop and use a spectral imager in a smartphone. Despite all the progress which has been made with different cameras and the computing power of a smartphone, none can really identify the true color of a picture.”

This is how Spectricity CEO Vincent Mouret described the company’s mission to Digital Trends in a recent interview, as well as the reason why it’s making a miniaturized spectral image sensor that’s ready for use in a smartphone. But what exactly is a spectral sensor, and how does it work? It turns out, it can do a whole lot more than just capture pretty colors.

Have you ever seen this color?

A headshot showing Spectricity CEO Vincent Mouret and application engineer Michael Jacobs.
Spectricity CEO Vincent Mouret (from left) and application engineer Michael Jacobs Spectricity

Before we get to all that, let’s talk about what Spectricity’s S1 multispectral image sensor does for cameras. Most phone cameras use three-color RGB (red, green, and blue) sensors, but the Spectricity S1 sensor looks further into the visible light and near-infrared range to reproduce more natural, more consistent colors, along with considerably improved white balance.

“A standard camera integrated into a smartphone has an RGB sensor that sees red, green, and blue,” Mouret said. “We add filters to create up to 16 different images with different colors, different wavelengths of light, light coming from different sources, and the reflected light coming from the object of the scene. You can identify many different properties thanks to these different images compared to a standard RGB.”

What this means is that no matter the lighting conditions, the images taken by a phone with the S1 sensor will have more consistent colors throughout, as you can see in the example image below. During our conversation, I saw a live demonstration that replicated the color reproduction and consistency seen in the example, but it’s worth noting the sensor was operated by a PC and not a smartphone.

An example of how the Spectricity S1 sensor differs from smartphone cameras.
A chart showing how the Spectricity S1 sensor differs from smartphone cameras. Spectricity

“You will see with Xiaomi, Samsung, Apple, and Huawei cameras the colors are very different in different lighting conditions. In the same scene taken with our spectral imager, there’s slight differences, but minor ones. The colors out of images are the colors seen by our naked eyes. You can see all the smartphones produce very different colors.”

This color accuracy will also improve the ability of smartphone cameras to better reproduce different skin tones. In another example image, the S1 sensor appeared to show considerable improvements here too.

“You can see the skin tones are totally different depending on the lighting condition,” Mouret pointed out. “The solution is to use a spectral imager to analyze the lighting conditions, to really give the right tone. This is the only way. You can put a lot of AI behind it, but it’s not enough. You need to have some additional hardware.”

Unfortunately, Mouret didn’t have a Google Pixel phone on hand to compare the S1 sensor with Google’s Real Tone computational technology, which promises to do something similar, only by using software enhancements.

Is it a sensor, or a camera?

Spectricity's S1 Spectral Image Sensor.
Spectricity

The benefits of a spectral image sensor like the S1 seem to be clear, and who doesn’t want more effective white balance and natural, consistent colors in their photographs? But the way Mouret described the S1’s ability made it sound more like a camera than a sensor. Which is it? Can it really fit inside a smartphone? If so, what modifications will be needed?

Spectricity application engineer Michael Jacobs, who ran the demo I watched, explained what the S1 actually is.

“It’s really a companion sensor, very similar to a depth sensor or a 3D sensor used with an RGB camera,” he confirmed.

However, it does technically take photos, just not ones you’d want to use individually, as Mouret explained:

“Our image sensor has a VGA resolution, 800 x 600 pixels. You need to combine this smaller spectral image with an RGB image. The module itself is really very small. It has been designed to be integrated in a smartphone. So it’s 5mm by 5mm by 6mm,” Mouret told me, before saying more about how the sensor is built. “It’s not easy, but it’s nothing very sophisticated, I would say,” he explained, saying the module is built using the same methods as regular CMOS sensors. “In terms of overall cost,  the complete module will be the same cost as a high-volume standard camera.”

Example of the differences between an RGB sensor and Spectricity's S1 sensor.
A graphic showing the difference between an RGB sensor and the Spectricity S1 spectral imager. Spectricity

Right now, the sensor will integrate with a standard Image Signal Processor (ISP) used by smartphone processors from Qualcomm and MediaTek, but it will require additional software to operate.

The S1 multispectral image sensor isn’t a one-trick pony, and actually has an intriguing second function, in that it can recognize and analyze skin biomarkers. What this means is it’s able to tell if it’s “seeing” a real person, which could be used for security applications — for example, it knows if someone is wearing a mask to conceal their identity — skin care, and even in health applications when combined with AI and other software. It could also be used to enhance Portrait Mode photos.

When will it be used in a phone?

Oppo Find N2's camera module.
Andy Boxall/Digital Trends

Manufacturers have been working to improve color reproduction on phones for a while, going back to the LG G5 in 2016, which used a dedicated color spectrum sensor alongside its laser autofocus sensor to improve color performance. Huawei took a different approach and abandoned an RGB sensor on the P30 Pro in favor of an RYYB sensor, in its effort to better reproduce colors and improve lowlight performance. Olympus and Imec have also experimented with near-infrared RGB sensors for different applications.

The Spectricity S1 sensor is a world’s first and goes in a different direction agin from these examples. Based on the demo and example images, it’s showing considerable promise — but when should we expect to see it on a phone?

“In the beginning, it will be introduced on high-end phones,” Mouret said. “It will be small volume in 2024, a higher volume in 2025, and then starting in 2026, it will be more widespread.”

The Huawei Mate 50 Pro and Apple iPhone 14 Pro camera modules.
Andy Boxall/Digital Trends

Mouret also expects the first examples to come from Chinese smartphone manufacturers, and not from companies like Samsung and Apple. However, Mouret expects this to change in the future, and in the CES 2023 press release for the S1 sensor, he didn’t hold back on his expectations, saying:

“We expect the first smartphone models with the S1 to be released in 2024, and we expect all smartphones to include our technology within the coming years.”

Yes, all smartphones. It’s a big target, but if the performance we saw in the demo is what we will eventually see from a phone camera with the S1 alongside it, few manufacturers will want to be left behind.

Topics
Andy Boxall
Andy is a Senior Writer at Digital Trends, where he concentrates on mobile technology, a subject he has written about for…
AT&T just made it a lot easier to upgrade your phone
AT&T Storefront with logo.

Do you want to upgrade your phone more than once a year? What about three times a year? Are you on AT&T? If you answered yes to those questions, then AT&T’s new “Next Up Anytime” early upgrade program is made for you. With this add-on, you’ll be able to upgrade your phone three times a year for just $10 extra every month. It will be available starting July 16.

Currently, AT&T has its “Next Up” add-on, which has been available for the past several years. This program costs $6 extra per month and lets you upgrade by trading in your existing phone after at least half of it is paid off. But the new Next Up Anytime option gives you some more flexibility.

Read more
Motorola is selling unlocked smartphones for just $150 today
Someone holding the Moto G Stylus 5G (2024).

Have you been looking for phone deals but don’t want to spend a ton of money on flagship devices from Apple and Samsung? Have you ever considered investing in an unlocked Motorola? For a limited time, the company is offering a $100 markdown on the Motorola Moto G 5G. It can be yours for just $150, and your days and nights of phone-shopping will finally be over!

Why you should buy the Motorola Moto G 5G
Powered by the Snapdragon 480+ 5G CPU and 4GB of RAM, the Moto G delivers exceptional performance across the board. From UI navigation to apps, games, and camera functions, you can expect fast load times, next to no buffering, and smooth animations. You’ll also get up to 128GB of internal storage that you’ll be able to use for photos, videos, music, and any other mobile content you can store locally. 

Read more
The Nokia 3210 is the worst phone I’ve used in 2024
A person holding the Nokia 3210, showing the screen.

Where do I even start with the Nokia 3210? Not the original, which was one of the coolest phones to own back in a time when Star Wars: Episode 1 -- The Phantom Menace wasn’t even a thing, but the latest 2024 reissue that has come along to save us all from digital overload, the horror of social media, and the endless distraction that is the modern smartphone.

Except behind this facade of marketing-friendly do-goodery hides a weapon of torture, a device so foul that I’d rather sit through multiple showings of Jar Jar Binks and the gang hopelessly trying to bring back the magic of A New Hope than use it.
The Nokia 3210 really is that bad

Read more