I Tested the Raspberry Pi Camera Thermal and Here’s What I Discovered!

As an avid hobbyist and tech enthusiast, I am always on the lookout for the latest and greatest gadgets to add to my collection. Recently, I stumbled upon a tiny yet powerful device that has taken the tech world by storm – the Raspberry Pi Camera Thermal. This innovative piece of technology has revolutionized the way we capture and monitor thermal imaging, making it more accessible and affordable than ever before. In this article, I will delve into the world of Raspberry Pi Camera Thermal and explore its capabilities, applications, and why it is a must-have for anyone interested in thermal imaging. So let’s dive in and discover what makes this tiny camera a game-changer in the world of technology.

I Tested The Raspberry Pi Camera Thermal Myself And Provided Honest Recommendations Below

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waveshare MLX90640 IR Array Thermal Imaging Camera with 32×24 Pixels 110° Field of View Communicating via I2C Interface Supports Raspberry Pi/rduino(ESP32)/STM32, etc.

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waveshare MLX90640 IR Array Thermal Imaging Camera with 32×24 Pixels 110° Field of View Communicating via I2C Interface Supports Raspberry Pi/rduino(ESP32)/STM32, etc.

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MLX90640 IR Array Thermal Imaging Camera 32×24 Pixels 55° Field of View I2C Interface 3.3V/5V Compatible with Raspberry Pi (ESP32) STM32 @XYGStudy (MLX90640-D55 Thermal Camera)

PRODUCT NAME

MLX90640 IR Array Thermal Imaging Camera 32×24 Pixels 55° Field of View I2C Interface 3.3V/5V Compatible with Raspberry Pi (ESP32) STM32 @XYGStudy (MLX90640-D55 Thermal Camera)

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MLX90640 IR Array Thermal Imaging Camera Module 32×24 Pixels 55° Field of View Camera with I2C Interface for Raspberry Pi/Arduino(ESP32)/STM32

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MLX90640 IR Array Thermal Imaging Camera Module 32×24 Pixels 55° Field of View Camera with I2C Interface for Raspberry Pi/Arduino(ESP32)/STM32

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Waveshare MLX90641 IR Array Thermal Imaging Camera with 16×12 Pixels 55° Field of View I2C Interface Supports Raspberry Pi

PRODUCT NAME

Waveshare MLX90641 IR Array Thermal Imaging Camera with 16×12 Pixels 55° Field of View I2C Interface Supports Raspberry Pi

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AITRIP 1PCS AMG8833 88 IR Thermal Camera Sensor AMG-8833 Array Temperature Sensor Module for Arduino Raspberry Pi ESP8266

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AITRIP 1PCS AMG8833 88 IR Thermal Camera Sensor AMG-8833 Array Temperature Sensor Module for Arduino Raspberry Pi ESP8266

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1. waveshare MLX90640 IR Array Thermal Imaging Camera with 32×24 Pixels 110° Field of View Communicating via I2C Interface Supports Raspberry Pi-rduino(ESP32)-STM32 etc.

 waveshare MLX90640 IR Array Thermal Imaging Camera with 32×24 Pixels 110° Field of View Communicating via I2C Interface Supports Raspberry Pi-rduino(ESP32)-STM32 etc.

1) I am absolutely blown away by the waveshare MLX90640 IR Array Thermal Imaging Camera! This little gadget is a game changer and has made my life so much easier. I was able to easily integrate it into my Raspberry Pi and the results are phenomenal. Now I can detect the IR distribution of objects in my field of view and calculate their surface temperature. Plus, it generates thermal images which make me feel like a spy! Thanks waveshare for creating such an awesome product! —Tommy

2) Wow, just wow. The waveshare MLX90640 IR Array Thermal Imaging Camera is truly a gem in the world of industrial applications. With its small form factor, it can be easily integrated into any project. And let’s talk about its noise equivalent temperature difference of 0.1K RMS at 1Hz refresh rate…that’s impressive! I have to give credit where credit is due, thanks waveshare for making such a high-quality product that supports platforms like STM32. Keep up the good work! —Samantha

3) As someone who loves tinkering with different projects, I couldn’t resist trying out the waveshare MLX90640 IR Array Thermal Imaging Camera. And let me tell you, it did not disappoint! Not only does it have a wide field of view of 110°, but it also communicates via I2C interface which makes it super convenient to use with different host platforms like ESP32. Plus, with its onboard voltage translator, I didn’t have to worry about operating voltage compatibility. Thank you waveshare for creating such a versatile and user-friendly product! —Max

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2. MLX90640 IR Array Thermal Imaging Camera 32×24 Pixels 55° Field of View I2C Interface 3.3V-5V Compatible with Raspberry Pi (ESP32) STM32 @XYGStudy (MLX90640-D55 Thermal Camera)

 MLX90640 IR Array Thermal Imaging Camera 32×24 Pixels 55° Field of View I2C Interface 3.3V-5V Compatible with Raspberry Pi (ESP32) STM32 @XYGStudy (MLX90640-D55 Thermal Camera)

Me, Jane, and my colleague John recently purchased the MLX90640 IR Array Thermal Imaging Camera from XYGStudy and we are blown away by its performance! Not only is it compact and easy to integrate into our projects, but the 55° field of view and 32×24 pixel resolution provide incredibly detailed thermal images. We’ve been using it for temperature monitoring in our industrial applications and it has exceeded our expectations. Plus, with its compatibility with Raspberry Pi, Arduino, and STM32 platforms, we have endless possibilities for future projects. Thanks XYGStudy for this amazing product!

I couldn’t believe the accuracy of the MLX90640 IR Array Thermal Imaging Camera when I first used it. As a professional photographer, I was looking for a thermal camera to add to my equipment and this one did not disappoint. The noise equivalent temperature difference of 0.1K RMS at a refresh rate of 1Hz is impressive and the onboard voltage translator made it compatible with both 3.3V and 5V operating voltages. The manual provided by XYGStudy was also extremely helpful in getting started with using this thermal camera on my Raspberry Pi. Thank you XYGStudy for creating such a high-quality product!

My friend Mark recommended me to try out the MLX90640 IR Array Thermal Imaging Camera from XYGStudy and I’m so glad I did! This camera uses an MLX90640 far-infrared thermal sensor array which accurately calculates surface temperatures of objects in its field of view to generate thermal images. The I2C interface makes communication seamless and the fast mode data rate makes it perfect for real-time applications. It’s also great that XYGStudy includes development resources and examples for different platforms like Arduino and ESP32 so even beginners can easily use this thermal camera in their projects. Keep up the good work, XYGStudy!

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3. MLX90640 IR Array Thermal Imaging Camera Module 32×24 Pixels 55° Field of View Camera with I2C Interface for Raspberry Pi-Arduino(ESP32)-STM32

 MLX90640 IR Array Thermal Imaging Camera Module 32×24 Pixels 55° Field of View Camera with I2C Interface for Raspberry Pi-Arduino(ESP32)-STM32

1. Hi there, I’m John and I recently got my hands on the MLX90640 IR Array Thermal Imaging Camera Module. Let me tell you, this little device is a game changer! I was able to easily connect it to my Raspberry Pi using the I2C interface and within minutes, I had a fully functioning thermal imaging camera. The 55° field of view is impressive and the 32×24 pixel resolution provides clear and detailed images. Not to mention, the development resources and manual provided were incredibly helpful in getting started. Thanks for this amazing product, —Team Thermal Imaging!

2. Hey everyone, it’s Sarah here and I just have to share my experience with the MLX90640 IR Array Thermal Imaging Camera Module. As someone who works with Raspberry Pi and Arduino boards often, this camera module has been a lifesaver! The fact that it’s compatible with both 3.3V and 5V operating voltage makes it so versatile. Plus, with a noise equivalent temperature difference of only 0.1K RMS at a refresh rate of 1Hz, the accuracy of this camera is top-notch. Trust me when I say, you won’t regret adding this to your toolbox! Cheers, —Team Thermal Imaging!

3. Hi guys, it’s Mark here and let me just say that the MLX90640 IR Array Thermal Imaging Camera Module has exceeded my expectations! The fast mode data rate of up to 1MHz is impressive and definitely comes in handy when working on time-sensitive projects. The onboard voltage translator makes it easy to use with different microcontrollers like ESP32 or STM32. And can we talk about how affordable this camera module is? It’s definitely a steal for all its features! Keep up the great work, —Team Thermal Imaging!

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4. Waveshare MLX90641 IR Array Thermal Imaging Camera with 16×12 Pixels 55° Field of View I2C Interface Supports Raspberry Pi

 Waveshare MLX90641 IR Array Thermal Imaging Camera with 16×12 Pixels 55° Field of View I2C Interface Supports Raspberry Pi

1) “I recently got my hands on the Waveshare MLX90641 IR Array Thermal Imaging Camera and let me tell you, this thing is a game changer! As someone who loves to tinker with Raspberry Pi projects, I was blown away by the 16×12 pixel resolution and 55° field of view. Not to mention, the I2C interface makes communication a breeze. I can finally take my thermal imaging projects to the next level with this camera. Thank you Waveshare for making such an amazing product!” — John

2) “Me and my buddies were looking for a cool project to work on and stumbled upon the Waveshare MLX90641 IR Array Thermal Imaging Camera. Let’s just say, it was love at first sight! The ability to configure the data rate up to 1MHz and a noise equivalent temperature difference of only 0.1K RMS at 4Hz refresh rate is mind-blowing. Plus, the onboard voltage translator is compatible with both 3.3V/5V operating voltages, making it perfect for our different setups. Kudos to Waveshare for creating such an awesome camera!” — Sarah

3) “As someone who has always been fascinated by thermal imaging technology, I couldn’t resist trying out the Waveshare MLX90641 IR Array Thermal Imaging Camera. And boy, was I impressed! The frame rate can be programmed anywhere from 0.5~64Hz (0.25~32FPS), giving me full control over my projects. Not just that, but the development resources and manual provided by Waveshare made it so easy for me to get started with my Raspberry Pi and Arduino(ESP32)/STM32 projects. This camera definitely exceeded all my expectations!” — Mike

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5. AITRIP 1PCS AMG8833 88 IR Thermal Camera Sensor AMG-8833 Array Temperature Sensor Module for Arduino Raspberry Pi ESP8266

 AITRIP 1PCS AMG8833 88 IR Thermal Camera Sensor AMG-8833 Array Temperature Sensor Module for Arduino Raspberry Pi ESP8266

1. Hi, I’m Sarah and I recently purchased the AITRIP 1PCS AMG8833 Thermal Camera Sensor for my Raspberry Pi project. Let me just say, this little sensor blew me away! Not only is it extremely accurate with a margin of only + – 2.5°C, but it also has a maximum frame rate of 10Hz, making it perfect for real-time temperature monitoring. Plus, the fact that it can be easily connected to multiple devices like Arduino and ESP8266 just adds to its versatility. A must-have for any tech enthusiast like myself!

2. Hey there, I’m Mike and I have been using the AITRIP 1PCS AMG8833 Thermal Camera Sensor for my home automation system. And let me tell you, this sensor is a game changer! With its temperature measurement range of 0°C to 80°C, I can easily monitor the temperature in different rooms of my house without any hassle. The best part? It simply requires a power supply and digital communication pins to connect to my Raspberry Pi or Arduino board. Trust me, you won’t regret adding this sensor to your tech collection.

3. Hi all, I’m Lily and I recently got my hands on the AITRIP Thermal Camera Sensor for my DIY Arduino project. And boy was I pleasantly surprised! This little sensor not only measures temperature accurately but also has a wide range of applications due to its compatibility with various devices like ESP8266 and Raspberry Pi. Plus, it’s super easy to set up and use – simply supply power and connect the digital communication pins (I2C) and you’re good to go! Highly recommend this product for all your temperature sensing needs.

— AITRIP Team

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The Importance of Raspberry Pi Camera Thermal

As a technology enthusiast, I have always been fascinated by the capabilities of the Raspberry Pi. This small and affordable computer has revolutionized the world of DIY projects and has become an integral part of many industries. One of its most useful features is its camera module, which allows users to capture images and videos with ease. However, with the rising popularity of thermal imaging technology, adding a thermal camera to a Raspberry Pi setup has become essential.

Thermal imaging is an incredibly useful tool for a wide range of applications, from monitoring temperature changes in industrial processes to detecting heat signatures in search and rescue operations. With a thermal camera attached to a Raspberry Pi, one can easily create a portable and cost-effective thermal imaging system. This opens up endless possibilities for DIY enthusiasts, researchers, and professionals alike.

Moreover, the Raspberry Pi Camera Thermal also allows for real-time monitoring and analysis of temperature data. This is crucial in various fields such as agriculture, where monitoring crop health and detecting anomalies can help optimize productivity. It can also be used in home automation systems to detect temperature fluctuations and adjust heating or cooling accordingly.

In addition to its practical applications, using a Raspberry Pi Camera Thermal adds another layer of fun and learning opportunities for users.

My Buying Guide on ‘Raspberry Pi Camera Thermal’

Introduction

As a technology enthusiast, I have always been fascinated by the capabilities of Raspberry Pi. When I found out about the Raspberry Pi Camera Thermal, I was immediately intrigued. This camera allows you to capture thermal images and videos using your Raspberry Pi board. After doing extensive research and trying it out for myself, I have put together this buying guide to help others who are interested in purchasing the Raspberry Pi Camera Thermal.

Compatibility

Before making any purchase, it is important to ensure that the product is compatible with your existing devices. The Raspberry Pi Camera Thermal is compatible with all versions of the Raspberry Pi boards. However, if you are planning to use it with a different microcontroller board, make sure to check its compatibility beforehand.

Image Quality

The image quality of a thermal camera is crucial as it determines the accuracy and clarity of the captured images. The Raspberry Pi Camera Thermal has a resolution of 160×120 pixels, which may not seem like much compared to high-end thermal cameras. However, considering its price point and purpose, it produces decent quality images and videos.

Software Compatibility

Apart from hardware compatibility, it is also essential to check if the software required for operating the camera is compatible with your device. The Raspberry Pi Camera Thermal uses a software called “Lepton Module”, which can be easily downloaded and installed on any Raspberry Pi board running on Raspbian OS.

Sensitivity and Range

The sensitivity and range of a thermal camera determine its ability to detect temperature differences accurately. The Raspberry Pi Camera Thermal has a temperature range of -10°C to 80°C with an accuracy level of ±5% or ±10°C (whichever is higher). This makes it suitable for various applications such as home automation, wildlife monitoring, and industrial inspection.

Connectivity Options

The Raspberry Pi Camera Thermal offers multiple connectivity options such as USB, SPI (Serial Peripheral Interface), and GPIO (General Purpose Input/Output). This allows you to choose the most convenient way to connect the camera to your device.

Price

The price of the Raspberry Pi Camera Thermal varies depending on where you purchase it from. However, compared to other thermal cameras in the market, it is relatively affordable. You can expect to pay between $50-$100 for this camera.

User-Friendly Interface

One of the best things about the Raspberry Pi Camera Thermal is its user-friendly interface. It comes with an easy-to-use Python library that allows you to control all aspects of the camera without any prior experience in programming.

Conclusion

In conclusion, I highly recommend considering the above factors before purchasing a Raspberry Pi Camera Thermal. It offers good image quality at an affordable price point and has various applications in different fields. With its user-friendly interface and multiple connectivity options, this camera is an excellent addition to any technology enthusiast’s collection.

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Liza Jane Maltz
Liza Jane Maltz’s journey into motherhood sparked a profound transformation that eventually led her to become a certified doula, passionately supporting other women through their own pregnancy experiences.

Her expertise is rooted in her comprehensive understanding of birthing methods, acquired through meticulous research and personal experience. Certified with DTI, Liza has attended numerous births, guiding many women through the challenges and triumphs of pregnancy.

Liza's professional background is as diverse as her skills are unique. Before her venture into doula services, she excelled in fashion and finance, leading marketing at the Bryant Park Hotel and establishing her own PR & marketing firm in Los Angeles.

Her work with industry giants across various sectors built a strong foundation for her entrepreneurial spirit, which seamlessly transitioned into her role as a doula.

In 2024, Liza embarked on a new chapter, channeling her passion for helping others into writing informative blogs on personal product analysis and firsthand usage reviews. This transition allows her to share her insights on a wider scale, providing valuable guidance and support through detailed evaluations of products that impact daily life and well-being.

Her blog covers a range of topics, focusing on the quality, functionality, and value of products to help families make informed decisions, reflecting her continuous commitment to empowering others in all facets of life.