AMTAST AMF101 Digital Infrared Thermal Imaging Camera

Published on Aug. 15, 2023, 4:16 p.m.

The AMTAST AMF101 is a handheld digital infrared thermal imaging camera that allows users to detect heat signatures and temperature differences. It utilizes an infrared sensor with 60x60 pixel resolution and a built-in visual camera. This review will examine the key features, image quality, ease of use, durability, and value of the AMTAST AMF101 thermal camera.

Technical Background

Thermal imaging technology is a method of generating images using the infrared radiation emitted by objects. Thermal cameras detect the infrared radiation emitted from the surfaces of objects and convert it into visual images, displaying the temperature distribution of objects. The principle is based on the relationship between the temperature of an object and the intensity of the infrared radiation it emits. This technology finds widespread applications in various fields, including construction, medical, industrial, firefighting, etc. Through thermal imaging technology, temperature anomalies or uneven heat distribution can be quickly and non-invasively detected, thereby improving work efficiency and safety.

 AMTAST AMF101 Digital Infrared Thermal Imager Thermal Imaging Camera

Overview

The AMTAST AMF101 is a lightweight, compact thermal imaging camera. It has a 2.4” color LCD screen and includes a 32GB removable memory card for image storage. The AMF101 measures temperatures from -20°C to 300°C with an accuracy of ±2°C. It has an adjustable emissivity setting and allows users to choose different color palettes.

Key Features

  • 60x60 IR resolution
  • Built-in 0.3MP visual camera
  • Temperature range of -20°C to 300°C
  • 2.4” color LCD display
  • 32GB removable SD card
  • Emissivity adjustment from 0.1 to 1.0
  • Choice of color palettes

Image Quality

For its price point, the AMF101 produces decent quality thermal images. The 60x60 resolution provides adequate detail to pinpoint temperature differences and hotspots. The visual camera overlay allows for easy identification of objects. The color palettes also help highlight temperature variances. However, image quality is not as sharp compared to higher-end models.

Technical Parameter Analysis

  • Sensitivity: The sensitivity of a thermal imaging camera refers to its ability to detect temperature differences. Usually expressed in degrees Celsius, lower sensitivity means the camera can detect smaller temperature changes. Therefore, high sensitivity is crucial for precise measurements under lower temperature differentials.
  • Temperature Range: Different thermal imaging cameras have different temperature ranges, typically ranging from negative temperatures to several hundred degrees Celsius. The temperature range determines the applications suitable for the thermal imaging camera. For example, in high-temperature industrial environments, a thermal imaging camera with a wider temperature range is required.

Functional Features

  • Image Enhancement Technology: Thermal imaging cameras are typically equipped with image enhancement technology to improve image quality and clarity. These technologies may include digital filtering, automatic focusing, and overlay of thermal images, aiding users in more accurate analysis of thermal images.
  • Connectivity and Compatibility: Modern thermal imaging cameras often feature various connectivity options such as Wi-Fi, Bluetooth, and USB interfaces. These features enable the thermal imaging camera to exchange and share data with other devices or systems, enhancing its flexibility and usability.

 AMTAST AMF101 Digital Infrared Thermal Imager Thermal Imaging Camera

Ease of Use

The AMF101 is designed to be user-friendly for beginners. The menu system is straightforward with various presets and modes. Buttons are clearly labeled. Aiming the camera is easy with the integrated pistol grip handle. Images can be quickly reviewed or transferred via the SD card. The only minor downside is the battery life of 2-3 hours.

Durability

This thermal camera has a durable polycarbonate body that is shock and splash resistant. The lenses are protected by a hard cover when not in use. Battery life could be improved, but the camera can withstand typical field use. For the price, the construction quality is decent.

 AMTAST AMF101 Digital Infrared Thermal Imager Thermal Imaging Camera

Suitable Applications

  • Building inspections
  • HVAC maintenance
  • Electrical inspections
  • Automotive diagnostics
  • Pest detection
  • Water damage surveys

Pros

  • Affordable price
  • Lightweight and portable
  • Intuitive controls and interface
  • Versatile for various applications

Cons

  • Image quality not as sharp as high-end models
  • Short 2-3 hour battery life
  • No wireless connectivity

Value

At around $200, the AMTAST AMF101 provides great value for a starter thermal imaging camera. It’s an affordable option compared to professional-grade cameras costing thousands. The AMF101 is versatile for home DIY use, building inspection, automotive diagnosis, and hobbyists. It’s a budget-friendly thermal camera with good functionality.

Conclusion

For DIYers and professionals on a budget, the AMTAST AMF101 is easy to recommend. It produces usable thermal images, has beginner-friendly controls, and provides real value. Just don’t expect top-tier performance like more expensive models. But if you need an entry-level thermal camera, the AMF101 is a solid choice.

Specifications

  • IR resolution: 60 x 60 pixels
  • Thermal sensitivity: 0.15°C
  • Temperature range: -20°C to 300°C
  • Accuracy: ±2°C
  • Frame rate: 6 Hz
  • Field of view: 20° x 20°
  • Emissivity: 0.1 to 1.0
  • Dimensions: 180 x 95 x 62 mm
  • Weight: 245 g

What’s in the Box

The AMF101 package includes:

  • AMTAST AMF101 thermal camera
  • 32GB Micro SD card
  • 4 AA batteries
  • USB cable
  • Carrying case
  • User manual

How to Use

To operate the AMF101:

  1. Insert SD card and batteries
  2. Turn on camera and adjust settings as needed
  3. Point camera at target and view LCD display
  4. Capture images by pressing shutter button
  5. Transfer images to computer via SD card or USB cable
  6. Analyze images using included software