FOTRIC 326 vs FLUKE TiS50 Handheld Thermal Imaging Camera Comparison
What's the difference between the FOTRIC 326 and FLUKE TiS50 handheld infrared thermal cameras?
|FOTRIC 326 Thermal Camera||FLUKE TiS50 Thermal Camera|
Key Feature Differences
The top (1st) key difference between these two thermal cameras is the infrared detector resolution - Fotric 326 has 384x288 resolution compared to 220x165 resolution on the Fluke TiS50 (204% more pixels on Fotric 326, or 74,292 more pixels). It means the Fotric 326 will provide higher quality and larger radiometric images, and can reveal more details.
The second (2nd) key difference between Fotric 326 and Fluke TiS50 thermal camera is sensitivity (NETD). Fotric 326 has better thermal sensitivity and can detect a smaller temperature difference.
The third (3rd) key difference between Fotric 326 and Fluke TiS50 thermal camera is the support of the smartphone. Fotric 326 thermal camera supports smartphone as the operational screen display and data processing with a smartphone APP, Fotric LinkIR. While Fluke TiS50 supports connection with a smartphone via WiFi to stream the image. You can always upgrade the smartphone to upgrade the overall Fotric 326 thermal camera performance while nothing you can do to the Fluke TiS50 thermal camera.
The fourth (4th) key difference between Fotric 326 and Fluke TiS50 thermal camera is temperature measurement range. Fotric 326 thermal camera can measure up to 1,202F while Fluke TiS50 can only measure up to 842F. With a wider temperature range, Fotric 326 can be used for more applications.
The fifth (5th) key difference between Fotric 326 and Fluke TiS50 thermal camera is the frame. Fotric 326 thermal camera has a 30Hz frame rate while Fluke TiS50 has a 9Hz frame rate. Fotric 326 thermal camera has a much faster response when you turn the camera around to check different objects.
|Fotric 326||Fluke TiS50|
|IR Detector Size||384 x 288 Pixels||220 x 165 Pixels|
|Thermal Sensitivity||<0.06°C (60mK) NETD||<0.08°C (80mK) NETD|
|Temperature Range||-4°F to 1,202°F||-4°F to 842°F|
|Frame Rate||30 Hz||9 Hz|
|Field of View||28x21 Degrees||35.7x26.8 Degrees|
|Spatial Resolution (IFOV)||1.27 mrad||2.8 mrad|
|Screen Size||3.5 Inch / 5.5 Inch||3.5 Inch|
|IR/Overlay Fusion Image||Yes||Yes|
|Video Output||Yes. PAL/NTSC composite||Yes|
|Radiometric Video Recording||Yes on Smartphone||No|
|Moveable Spots||5 spots||2 spots|
|Moveable Boxes||5 boxes||1 box|
|Moveable Lines||1 line||No|
|Touch Screen Display||Yes, on Smartphone||No|
|Minimum Focus Distance||0.5 Ft (0.15m)||0.5 Ft (0.15m)|
|Accuracy||±2% or 2°C||±2% or 2°C|
|Battery Use Time||2.5 hours||4 hours|
|Battery Type||Standard Li-ion||Fluke's Li-ion|
|IR Digital Zoom||Yes, on Smartphone||No|
|Voice Annotation||Yes, 60 seconds||Yes|
|Calibration Included||Factory Calibration||Factory Calibration|
|Power Supply Voltage||120V/220V Universal||120V/220V Universal|
|Interfaces I/O||Micro USB||Wifi, USB|
|Storage||SD card 16GB, upgradable||Internal Memory 4GB|
|Product Weight||1.006 kg (2.2 lbs)||0.726 kg (1.6 lbs)|
Level and Span
* Fully-radiometric short thermal video stream refers that each frame of the video stream preserves the original temperature of each pixel.
Note: Information is collected from the internet and for reference only.