Fluke Ti10 9Hz Thermal Imaging Camera

Published on Aug. 2, 2023, 7:28 p.m.

Thermal imaging technology is an advanced non-contact measurement method that generates images by capturing the infrared radiation of different objects. This technology has a wide range of applications in industries, medicine, construction, and other fields because it helps us discover hidden issues and perform precise temperature measurements. As a core tool of thermal imaging technology, thermal imaging cameras play a vital role in converting infrared radiation into visible images, enabling engineers, technicians, and maintenance personnel to quickly and accurately identify problems and take appropriate actions.

The Fluke Ti10 9Hz thermal imaging camera is a high-performance infrared camera designed for troubleshooting electrical and mechanical issues. With excellent thermal sensitivity and innovative IR fusion technology, the Ti10 delivers crisp, detailed thermal images to detect even small temperature differences.

 Fluke Ti10 9Hz Thermal Imaging Camera


The Fluke Ti10 9Hz thermal imaging camera uses a 160x120 pixel uncooled microbolometer detector to capture thermal images. It has a thermal sensitivity of <100 mK and a wide temperature measurement range from -10°C to +350°C. The 3.5 inch LCD displays crisp images and an intuitive interface makes operation straightforward.

Key Features

  • IR fusion technology overlays infrared images onto visible light images for easier identification of issues
  • Thermal sensitivity under 100 mK detects tiny temperature differences
  • Large 3.5 inch LCD with 640x480 pixel display
  • Rugged and durable construction withstands 6.5 foot drops
  • SmartView analysis software included for reporting

Technical Background

Thermal imaging cameras utilize microbolometer detectors to measure the infrared radiation emitted by objects and then convert this radiation information into visible images. Their operation is based on the relationship between the surface temperature of an object and the infrared radiation it emits. Thermal imaging cameras have various technical specifications, including resolution, sensitivity, and temperature measurement range. Resolution determines the clarity of the images, sensitivity affects the camera’s ability to detect temperature changes, and the temperature measurement range determines the camera’s suitability for different applications.

Design and Build Quality

The Fluke Ti10 9Hz thermal imaging camera features a durable plastic body with rubber molding to absorb shock. It is built to withstand a 6.5 foot drop. The pistol-grip design provides a secure, ergonomic hold. Large buttons can be operated while wearing gloves.

Image Quality and Software

With a thermal sensitivity of <100 mK, the Fluke Ti10 9Hz thermal imaging camera can detect minute temperature variances. IR Fusion technology overlays detailed thermal images onto visible light images for accurate inspection. The 3.5 inch LCD provides a clear view.

SmartView software is included for analyzing images, creating professional reports, and managing data. No licensing fees or upgrades needed.
 Fluke Ti10 9Hz Thermal Imaging Camera

Ease of Use

Despite its advanced capabilities, the Fluke Ti10 9Hz thermal imaging camera is designed to be simple to operate. The intuitive 3-button menu and toggles make navigating seamless. Presets, focus, and other controls are easily accessible. The large display and ergonomic grip allow comfortable, accurate inspections.

Applications and Use Cases

The Fluke Ti10 9Hz thermal imaging camera is ideal for electrical inspection, HVAC/R, building diagnostics, and industrial maintenance. Common applications include:

  • Locating insulation deficiencies and air leaks
  • Inspecting electrical wiring, fuses, and connections
  • Checking heat exchangers, pipes, and ductwork
  • Diagnosing HVAC/R and mechanical issues
  • Monitoring process equipment in manufacturing

Pros and Cons

- Superb thermal sensitivity <100 mK
- IR Fusion technology for accurate imaging
- Rugged and durable construction
- Intuitive, ergonomic design
- SmartView software included

- High price tag - $6498 MSRP
- Short battery life per charge
- No onboard visual light camera


With an MSRP of $6498, the Fluke Ti10 9Hz thermal imaging camera is a premium thermal imaging camera designed for professionals. While expensive, it provides excellent value given its exceptional image quality, intuitive interface, ruggedness and specially analysis software. The included accessories also add value.


With excellent thermal imaging, an intuitive interface, and durable construction, the Fluke Ti10 9Hz thermal imaging camera is a top-tier infrared camera designed for electrical, HVAC/R and industrial troubleshooting. While expensive, it provides high performance and capabilities to justify the price for professionals. The included analysis software adds value for creating reports. For those needing the best image quality and analysis tools, the Fluke Ti10 9Hz thermal imaging camera is a smart investment.

Future Prospects

With the continuous advancement of science and technology, thermal imaging technology will continue to progress. In the future, we can foresee that thermal imaging cameras will be applied in more fields, such as medical diagnosis, security surveillance, and intelligent transportation. Meanwhile, with ongoing technological innovations, the performance of thermal imaging cameras will continue to improve, and their costs will gradually decrease, making them more widely accessible and usable.

What’s Included

  • Fluke Ti10 thermal imaging camera
  • AC power adapter/battery charger
  • 2GB SD memory card
  • USB multi-function card reader
  • SmartView software
  • Rugged hard carrying case
  • Portable soft carrying case
  • Wrist strap

How to Use

  • Charge battery fully before first use
  • Insert SD card into slot on side
  • Turn on - press and hold power button
  • Select temperature scale (°F or °C)
  • Point at target and adjust focus ring
  • Press Scan/Save button to freeze image and save photos
  • Connect to computer via USB to download images
  • Transfer photos to SmartView software for analysis