Infrared Thermal Imaging Camera | Thermographic Camera
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    Thermal Imaging Cameras

    Thermal imaging cameras are handheld non-contact devices used to capture detailed images in low-light and hard to see environments. They do this by detecting infrared energy (heat) and converting it into an image. Thermal cameras are used for troubleshooting, identifying potential hotspots and ensuring machinery and equipment runs correctly and efficiently.

    RS Singapore offers a range of high-performance, state-of-the-art thermal imaging cameras and measurement equipment from industry-leading brands including FLIR, Fluke, Testo, and of course RS PRO.

    RS also offers a calibration service if required. See more about ourcalibration services.

    How Do Thermal Imaging Cameras Work?

    Thermal imaging cameras are point-and-shoot devices that enable the user to see real-time in an infrared spectrum, interpreting temperature as colour. Warmer areas appear as red and yellow, and cooler areas as purple or blue. Thermal imaging cameras use an external lens to focus infrared energy to an internal thermal sensor. The sensor, along with processing electronics convert the heat and use the captured data to create images. Images can be used for immediate diagnosis or can be stored and processed through dedicated software for further evaluation.

    What Do Thermal Imaging Cameras Detect?

    Any object with a temperature above zero will give off thermal energy. The hotter an object is, the more thermal energy will be emitted. So, essentially thermographic cameras can detect anything that produces a heat signature.

    What Are Thermal Cameras Used For?

    The possibilities are endless! Thermal cameras were originally developed for military and surveillance operations, but now their useful technology enables the cameras to be used in a wide range of other applications. Some of the most common are:

    • Electrical Engineering: Used to identify hotspots in electrical enclosures. Engineers can detect potential equipment failures caused by equipment overheating.
    • Fire Service: Firefighters use thermal imagers to see through smoke and localise fire hotspots.
    • Automotive Industry: Mechanics use thermal imaging cameras for engine diagnostics
    • Medical: Doctors, nurses and vets can use cameras to detect fevers in human’s temperature or temperature differences in animals. This non-invasive method is especially useful for quick and accurate fever screening systems, which were notably used during the SARS outbreak to detect high body temperatures among large groups of people.
    • Construction: Building inspectors use cameras and thermal images for checking insulation and for detecting leaks in heating systems. They are widely used in building surveying to identify structural issues, moisture intrusion, and energy loss.
    • Wildlife Observation: Spot, track, and follow wildlife in their natural habitat regardless of lighting, weather, and outdoor conditions with thermal cameras. This application is invaluable for researchers and conservationists.

    Types of Thermal Cameras

    • Cooled Infrared Cameras: These thermal cameras utilise a cooling mechanism to enhance sensitivity and detect faint infrared signals more effectively. They are suitable for long-range detection, scientific research, and high-end industrial inspections, despite being more complex and expensive. Commonly used in applications requiring high precision, these thermal imaging devices offer superior image quality and are ideal for detailed analysis.
    • Uncooled Infrared Cameras: These thermographic cameras operate without a cooling mechanism, making them more compact and affordable. They are ideal for building inspections, HVAC maintenance, and firefighting operations. Uncooled thermal cameras are widely used for general-purpose applications due to their portability and ease of use.
    • Long-Wave Infrared (LWIR) Cameras: These cameras detect and visualise thermal radiation in the long-wave spectrum, providing valuable temperature data. Perfect for electrical inspections, building diagnostics, and veterinary medicine, LWIR thermal cameras and scanners offer good temperature resolution and are highly effective in various atmospheric conditions.
    • Medium-Wave Infrared (MWIR) Cameras: Operating within the 3-5 µm wavelength range, these thermal imaging cameras offer good temperature and spatial resolution. They are suitable for high-temperature applications and gas leak detection in the oil and gas industry. MWIR thermal cameras are effective in detecting gas leaks and are essential for safety inspections in industrial settings.
    • Short-Wave Infrared (SWIR) Cameras: Utilising shorter wavelengths, these thermal infrared cameras, sensors and scanners provide excellent spatial resolution and can see through certain materials like glass and plastics. Commonly used for solar panel inspections, food quality sorting, and in the semiconductor industry, SWIR thermal cameras offer unique capabilities for specialised applications and are one of the most accurate types of infrared thermal imaging tools in Singapore.

    Buying Thermal Imaging Cameras: Ordering & Delivery

    RS is a trusted supplier and distributor of thermal imaging and heat detector cameras and devices from leading brands. To place an order online, browse our extensive catalogue where you can filter and select your preferred products based on your specifications.

    RS Singapore offers fast delivery of thermal imaging cameras. For more details on delivery services and fees, please refer to our Delivery Page.

    45 Products showing for Thermal Imaging Cameras

    -20 → +400 °C
    160 x 120pixel
    320 x 240pixel
    -
    RS-9875
    80mK
    ±2 °C
    Manual
    -
    9Hz
    0.2m
    3.5in
    -
    0 → +350 °C
    160 x 120pixel
    320 x 240pixel
    -
    RS730
    100mK
    ±2 °C, ±3.6 °F
    Manual
    -
    -
    0.1m
    2.8in
    -
    -4 → +716 °F, +20 → +380 °C
    80 x 80pixel
    320 x 240pixel
    Bluetooth, WiFi
    DT-870
    100mK
    -
    Focus-Free
    -
    -
    0.5m
    2in
    -
    FLIR
    -20 → +650 °C
    320 x 240pixel
    -
    -
    E54 24°
    40mK
    ±2.0 °C
    Manual
    -
    30Hz
    -
    -
    -
    FLIR
    –25 → +300 °C
    80 x 60pixel
    320 x 240pixel
    USB 2.0
    TG165-X
    <70mK
    -
    Fixed
    -
    8.7Hz
    -
    2.4in
    -
    FLIR
    -20 → +400 °C
    160 x 120pixel
    640 x 480pixel
    -
    E5 Pro
    < 70mK
    ± 2 %
    Focus-Free
    -
    -
    360mm
    3.5 inch
    -
    Fluke
    -20 → +400 °C
    120 x 90pixel
    320 x 240pixel
    -
    PTi120
    60mK
    ±2 %
    Fixed
    -
    9Hz
    0.5m
    3.5in
    -
    Fluke
    -20 → +650 °C
    640 x 480pixel
    640 x 480pixel
    USB
    Ti401 Pro 9Hz
    75mK
    ±2 %, ±2 °C
    Automatic
    -
    9Hz
    150mm
    3.5in
    -
    Fluke
    -20 → +500 °C
    384 x 288pixel
    640 x 480pixel
    -
    TiS75+
    40mK
    ±2 °C
    Manual
    -
    9Hz
    150mm
    3.5in
    -
    FLIR
    -20 → +400 °C
    160 x 120pixel
    -
    -
    C5
    <70mK
    ±3 °C
    Focus-Free
    -
    8.7Hz
    100mm
    3.5in
    -
    FLIR
    0 → +400 °C
    160 x 120pixel
    640 x 480pixel
    Bluetooth, WiFi
    ONE EDGE PRO for Smartphones
    70mK
    +120 °C
    Fixed
    -
    8.7Hz
    30cm
    -
    Android, iPhones
    Fluke
    400 °C
    120 x 90pixel
    320 x 240pixel
    -
    -
    -
    -
    -
    -
    -
    -
    -
    -
    FLIR
    -20 → +150 °C
    80 x 60pixel
    640 x 480pixel
    -
    AX8
    100mK
    ±2 %
    Fixed
    -
    -
    -
    -
    -
    FLIR
    -20 → +550 °C
    240 x 180pixel
    640 x 480pixel
    -
    E6 Pro
    -
    -
    -
    -
    -
    -
    -
    -
    FLIR
    -20 → +400 °C
    160 x 120pixel
    1440 x 1080pixel
    iOS
    ONE Pro iOS for Smartphones
    70mK
    ±3 °C
    Automatic, Manual
    -
    8.7Hz
    150mm
    -
    iPhones
    FLIR
    -20 → +300 °C
    128 x 96pixel
    128 x 96pixel
    -
    C3-X
    <70mK
    ±3 °C
    Focus-Free
    -
    -
    100mm
    3.5in
    -
    Fluke
    -20 → +400 °C
    120 x 90pixel
    320 x 240pixel
    -
    TiS20+ MAX 9HZ
    60mK
    ± 2 °C
    Fixed
    -
    9Hz
    0.5m
    3.5in
    -
    FLIR
    -20 → +650 °C
    320 x 240pixel
    -
    -
    E76 24°
    40mK
    ±2.0 °C
    Continuous
    -
    30Hz
    -
    -
    -
    Fluke
    -20 → +1000 °C
    640 x 480pixel
    640 x 480pixel
    -
    Ti480 PRO
    <50mK
    ±2 °C
    Automatic, Manual
    -
    9Hz
    150mm
    3.5in
    -
    Fluke
    -20 → +500 °C
    256 x 192pixel
    640 x 480pixel
    -
    TiS55+
    40mK
    ±2 °C
    Fixed, Manual
    -
    9Hz
    150mm
    3.5in
    -
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