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Product introduction of R300BP-TF infrared infrared camera
Release time: 2018-08-24
Product Features

◆ Observe clear images of high temperature furnaces of coal and petroleum refineries through flames

R300BP-TF is the most efficient infrared camera for penetrating flame detection and diagnosis of temperature in the furnace. You can clearly understand the deterioration of the inner wall and pipes of the combustion furnace, the working condition of the burner, and the coking condition of the slag.

Made in Japan, non-refrigerated infrared detector, flame 3.8μm band!

The R300BP-TF infrared camera uses an uncooled short-wavelength detector made in Japan. The waveband range is between 3.7 and 3.9 μm. Compared with traditional models, the R300BP-TF has high efficiency and autonomous cooling. No need to consider maintenance!





R300BP-TF Flame-transmitting infrared image principle and characteristics

When a combustible gas (hydrocarbon gas) is burned, infrared energy not only comes from the radiation of the flame, but also includes water and carbon dioxide gas.

In view of the above, the following conditions are required to use infrared cameras to shoot infrared images through flames:
1. Select gases (carbon dioxide and water vapor) with lower absorption wavelengths that are generated by the combustion of combustible gases.
2. Try to choose a wavelength band away from the strong infrared energy radiation of the flame.
3. Use an infrared detector with both of the above conditions.

Therefore, the wavelength suitable for shooting infrared images through a flame is 3.8 μm. Generally speaking, these bands are cooled infrared detectors, but the price of this type of thermal imager is very expensive, and its cooler needs to be constantly maintained for a long time.

Avio has successfully developed a short-wavelength "Made in Japan" uncooled infrared detector. Here, we realized the latest flame-transmitting R300BP-TF thermal imaging camera that reduced operating and maintenance costs.
* Note: There are many types of gas. There are flames that R300BP-TF infrared camera may not eliminate, which will affect the measurement results. Before purchasing, we recommend taking a prototype demo measurement.

☆ This principle generally refers to the case where the gas is completely burned.
In fact, in the case of incomplete combustion or partial combustion, there is no way to completely eliminate the influence of the flame to take a thermal image of the infrared image through the flame. Therefore, we recommend that customers inform the test object and application before purchasing products.

注意:这种现象会出现在每一台透火焰热像仪。 Caution: This phenomenon will appear in every flame-through thermal imager.


Friendly user operation and flexibility, accurate and safe measurement data in harsh environment.

"Fully automatic function" can automatically adjust the temperature range and perform automatic focusing, making shooting easier and faster!


Infrared video can be recorded in the SD card at a maximum speed of 10HZ and analyzed by infrared software. The required data can be recorded in a short time.


Movable LCD monitor and viewfinder to capture infrared images from multiple angles.



Standard configuration includes foldable protective cover

Take images in a dense heat radiation environment to ensure the safety of the operator;


Relay lens supports detection in high temperature furnace (can be formulated according to user needs)

Wide field of view lens (up to 100 °) can be detected through the furnace wall window.



Product parameter table


Features R300BP-TF
Basic parameters detector Uncooled focal plane
wavelength 3.7 to 3.9 μm
Temperature measurement range 400 to 1500 ° C
Temperature resolution (NETD) 4 ° C at 400 ° C (S / N enhanced)
Precision ± 44 ° C * 1
Frame rate 60Hz
Detector pixels 320 (H) × 240 (V) pixels
Image recording pixels Standard mode: 320 (H) × 240 (V)
Super resolution mode (SR): 640 (H) × 480 (V) * 2
Sight 22 ° (H) × 17 ° (V) (standard lens)
Spatial resolution Standard mode: 1.2mrad
Super Resolution Mode (SR): 0.8mrad * 3
focal length 50cm to infinity (standard lens)
Focus automatic / manual
Image display Automatic function Auto scale, auto focus, fully automatic
Color palette 7 color palettes (Iridescent, Bright, White, Black, etc.)
Color scale 256/32/16/8 level
Visible light 3.1 megapixel CMOS camera
Visible / infrared fusion Side by side, fusion, picture in picture, transparent blending
Display function 1-4x continuous zoom (with display positioning scroll), grid, 9 pictures display (during playback)
Picture quality enhancement Averaging: Off / Σ4 / Σ8 / Σ16 (after-image removal function), edge enhancement
Measurement function Spot temperature 10 movable points, temperature search: one for each of the highest and lowest temperature, temperature difference
Section line Horizontal, vertical, horizontal and vertical
Temperature display in specified area Maximum, minimum and average (5 regions)
Alarm function Screen alarm, sound alarm, color alarm (ISO), alarm record, alarm signal output
Temperature correction Emissivity correction, ambient / background temperature correction, non-uniformity correction (NUC)
Emissivity correction Multi-point correction, inverse emissivity calculation
Storage and output storage SD card, SDHC card
data storage Still image: JPEG, infrared image (with temperature data 14bit, recording), visible light image recording at the same time
  Super Resolution Mode SR provide
Fast panoramic scan 70 ° horizontally / 52 ° vertically
External trigger recording provide
Interval shooting 3 seconds-60 minutes selectable while recording visible light images
Video recording Record up to 10HZ into SD card
Sound recording 30 seconds recording, playback / thermal image
Text notes 128 characters / picture, characters are input from SD card
port USB2.0 Large-capacity storage, image transmission (maximum transmission speed: thermal image 60HZ, visible light image 7.5HZ)
Video output NTSC / PAL switchable
Alarm Output Contact closed, no voltage
External trigger input Pulse signal
other Language English, French, Spanish, German, Italian, Portuguese, Russian, Finnish, Danish, Norwegian, Swedish, Dutch, Chinese (Traditional and Simplified), Japanese, Korean.
display 3.5-inch LCD display (rotatable, adjustable brightness); color viewfinder (tilt adjustment)
Auxiliary function Laser pointer (red, level 2, PSC compatible), LED light, remote control
Environmental resistance Operating temperature and humidity 0 ° C to 40 ° C, 90% RH (non-condensing)
Storage temperature and temperature -40 ° C to 70 ° C, 90% RH (non-condensing)
Vibration / shock resistance 29.4m / sec 2 (3G), 294m / sec 2 (30G)
EMC CE Marked (Class A)
Dust / Waterproof Protection class IP54
battery Continuous working for 2 hours, rechargeable lithium battery (optional optional portable battery box TVB-C501, working time 4 hours) * 4
AC power 100V-220V AC, 50 / 60Hz
size 121mm high 105mm wide 195mm long (excluding protective cover)
weight About 1.5kg (including battery, not including protective cover)
Standard software InfReC Analyzer NS9500Pro
The standard configuration Main unit, carrying case, rechargeable battery (1 piece), battery charger, AC power adapter, SD card, USB cable, wired remote control, shoulder strap, hand strap, lens cover, operation manual, NS9500Pro software, free trial software Set, assembly manual, protective window, protective cover.


Performance comparison of similar products

Comparison of R300BP-TF and Flir GF309.

1. No maintenance required!
GF309 uses a refrigerated detector, which requires maintenance after every 1000 hours of operation, and the maintenance cost is quite expensive.
The R300BP-TF uses an uncooled detector and does not require this type of routine maintenance.

2. Compact and lightweight!
Can reduce the workload of the photographer.

3. Quick start!
It takes at least 5 minutes for the GF309 to turn on the cooled detector.
R300BP-TF only takes 1.5 minutes to start the machine.

4. Reasonable price!

5.Parameter comparison:

  R300BP-TF GF309
Infrared Detectors Uncooled focal plane detector 320 × 240 pixels Indium antimonide refrigerated detection 320 × 240 pixels
Detector cooling No need Stirling refrigerator
Start Time 1.5 minutes 5 minutes
Temperature measurement range 400 to 1500 ℃ -40 to 1500 ℃
Band range 3.7 to 3.9μm 3.8 to 4.05μm
Frame rate 60HZ 60HZ
Precision ± 4% (RFS) ± 2% of reading
Sensitivity 4 ℃ @ 400 ℃ 0.025 ℃ @ 30 ℃
Sight 22 ° (H) × 17 ° 7 (V) 24 ° (H) × 18 ° (V)
Spatial resolution 1.2 mrad (normal mode) is equivalent to 0.8 mrad (SR mode) 1.36 mrad
Weight (including battery) 1.5kg (excluding protective cover) 2.48kg (excluding protective cover)


Applicable industries

1. Factories with high-temperature combustion furnaces, such as petrochemical plants, thermal power plants, iron and steel plants, etc.
2. A factory with its own thermal power plant.
3. Look for slag in the coal-fired furnace.
4. Factory maintenance companies, equipment maintenance contractors, etc.
5. Natural gas companies, gas appliance manufacturers, etc.


5. Application in temperature measurement of coking furnace

The coking condition of the furnace tube in the heating furnace and the ethylene cracking furnace cannot be accurately detected, resulting in unplanned maintenance. If the coking condition of the furnace tube in the furnace cannot be monitored in real time, the furnace tube will be replaced every three years, and the cost of each replacement More expensive.

Existing detection methods and difficulties:
1. Real-time monitoring of the thermocouple on the surface of the furnace tube; Difficulties: The surface thermocouple can only detect several points of the installation site, and cannot comprehensively detect the surface temperature of the furnace tube
2. Hand-held high-temperature temperature measuring gun for spot inspection. Difficulties: Manual inspection of high-temperature roasting has certain inspection risks; handheld high-temperature thermometers cannot penetrate the flame to detect the condition of the furnace tube (the temperature of the furnace tube cannot be read). Inspection personnel have no control over the equipment operating conditions and lack effective analysis methods.
R300BP-TF meets the needs:
1. Operating environment temperature: 0 ℃ ~ 40 ℃;
2. Storage environment temperature: -40 ℃ ~ 70 ℃;
3. Temperature measurement range: 400 ℃ ——1500 ℃;
4. On-line imaging can accurately detect the furnace tube through the furnace flame, and accurately monitor the temperature and coking of the furnace tube in the heating furnace and the ethylene cracking furnace in real time;
5. Effective data analysis and early warning platform;
6. The detection range can effectively cover the whole part of the furnace tube.
7. Reducing the risk of manual inspection, improving the quality and efficiency of inspections can achieve state maintenance;
8. Improve the production efficiency of heating furnaces and ethylene cracking furnaces to achieve planned maintenance and decoking, reduce equipment maintenance costs, and extend equipment service life;
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