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Special WMIR Thermography Camera For Flame Temperature | SIMTRUM Photonics Store

Products / Imaging /Infrared Pyrometer/Cameras /Matrix Array Infrared Thermal Imager /MWIR Thermal Imaging Camera For Flame Temperature /
MWIR Thermal Imaging Camera For Flame Temperature
Overview Specifications Related Products Order Now!
SIMTURM'S Special WMIR Thermography Camera For Flame Temperature adopts uncooled infrared thermal radiometers, high-performance infrared lenses and signal processing circuits, and embeds advanced image processing algorithms.
 
It features a compact size, low power consumption, rapid startup, excellent imaging quality and precise temperature measurement. The component selection of this device fully considers the requirements of high and low temperature working performance, ensuring that the entire machine has excellent environmental adaptability. 

 

Features

  • Measurement wavelength is 4.5μm
  • Specifically designed for flame temperature measurement imaging
  • High frame rate design, with a measurement frequency up to 50Hz
  • Maximum temperature measurement range up to 1600℃/2000℃
  • Output full-stream lossless 16-bit temperature data
  • Supports secondary development and system integration 

 

Applications

  • Steel metallurgy
  • Glass manufacturing
  • Combustion research
  • Temperature monitoring at fire scenes
  • Performance evaluation of fire-fighting equipment
 
 

Interface

The camera has three external interfaces, namely, the 2-pin SH interface (RS485), the 2-pin SH interface (power supply), and the RJ45 interface. The interface diagram is shown in the following figure.

  • 2-pin SH connector (power supply) provides DC12V power interface;
  • The 2-pin SH connector (RS485) provides RS485 communication interface;
  • RJ45 connector provides one network digital video output.
 
The RJ45 connector is the standard definition, and the signal definition of the 2PIN SH connector (power supply) is as follows:
Pin Signal Name Function Description
1 DC12V + Power 5V~12V Input
2 DC12V - Power Digital Ground
 
 
The signal definition of the 2-pin SH connector (RS485) is as follows:
Pin Signal Name Function Description
1 D+ Communication RS485 D+
2 D- Communication RS485 D-

General Specifications
Model HJ01 - WMIR - 4.5 HJ01 - WMIR - 3.9
Detector Type Medium - wave uncooled focal plane microbolometer
Pixel Number 640×512
Wavelength Range 4.5μm 3.9μm
Thermal Sensitivity (NETD) ≤1k@600°C
Frame Rate ≤50Hz (configurable)
Image Processing and Display
Color Palettes Multiple color palettes, including white hot, black hot, iron red, rainbow, etc.
Contrast and Brightness Automatic / Manual
Data Format 16 - Bit temperature data (full bitrate)
Temperature Measurement Analysis
Temperature Measurement Accuracy ±2°C or ±2%
Temperature Measurement Range Range 1: 600°C - 1600°C; 600°C - 1600°C
Range 2: 1000°C - 2000°C
Lens
Focal Length Wide - angle, conventional, long - focus multiple lenses available Multiple focal length lenses available
Focusing Method Manual / Motorized
Electrical Characteristics
Data Interface RJ45
Network Standard Gigabit Ethernet
Protocol Support UDP
Input Power Supply Voltage DC12V
Communication Interface UART@RS485

UART@RS485
 (for pan - tilt - zoom and camera control)
Steady - State Power Consumption <4W
Reverse Polarity Protection Yes
Over and under voltage protection Yes
 
Other Specification
Model HJ01-WMIR-4.5 HJ01-WMIR-3.9
Environmental Parameters
Operating Temperature -20°C~60°C
Storage Temperature -40°C~70°C
Temperature Shock Resistance 5°C/min(-40°C~60°C)
Vibration Resistance 4.3g, 2 hours per axis in x, y, z directions
Impact Resistance Acceleration 30g, half - sine wave, pulse width 6ms, mounting position
Humidity ≤95% (non - condensing)
Physical Characteristics
Dimensions 40mm×40mm×65mm (excluding lens)
Weight <100g
Mounting Holes Two M3×4 on each side
Client - side
Real - time Temperature Display Supported
Multiple Temperature Measurement Objects Supported
Alarm Function Supported
Image / Photo / Playback Supported
SDK Development Kit Supported
Operating Environment Support win32, x64, Linux (x86/ARM)
Data Acquisition Obtain 16 - Bit temperature data (full code stream)
through callback function
 

Model Pixels Spectral Range Temperature Range
SWIR Thermal Imaging Camera 384*288/512*384/640*480/768*576/1280*1024 0.8~2μm 600-3000℃
MWIR Thermal Imaging Camera 640*480 3~5μm/4.8~5.2μm 200-700℃
MWIR Thermal Imaging Camera
For Flame Temperature		 640*480/640*512 3.9μm/4.5μm 600-1600℃/1000-2000℃
Cooling MWIR Thermal Imaging Camera 640*512 3.7~4.8μm/1.5~5.2μm -10~1200℃(extended to 2000℃)
LWIR Thermal Imaging Camera 384*288/640*480/640*512 8~14μm -20~650 ℃
High-temperature range:350~1600℃
Cooling LWIR Thermal Imaging Camera 640*512 7.7~9.5μm -10~1200℃(extended to 2000℃)
Macro Infrared Thermal Imaging Camera 384*288/640*512 8~14μm Normal temperature range:-20~200℃
Medium temperature range:150~650℃

 


Sale Guide
If you need our technical team for guidance on product selection or customization,please help to provide below technical information, it helps to speed up the process.
Items Detail Unit Remark
 What is your application scenario?      Power inspection, monitoring the operating status of high-temperature   equipment,  fire early warning, etc
 What is the required spectral response   range?      SW/MW/LWIR
 What is the temperature range you need to  measure?    eg: -20~500℃
 What is the required resolution?      384*288/640*480/640*512/1280*1024, etc. For specific resolutions, please refer   to the detail page
 What is the required thermal sensitivity   (NETD) ?   mK  NETD represents the instrument's ability to detect minute temperature   differences. A NETD<50mK indicates that a temperature difference of 0.05℃ can   be identified, and it is suitable for the detection of precision electronic instruments
 What are the requirements for the focusing   function?      Manual or automatic, manual focusing is suitable for fixed distance measurement   in simple scenes. Autofocus is suitable for rapid scanning in complex scenes
 What is the motion state of the measured  object?      Whether stationary or moving, the moving target requires a high frame rate to   avoid image trailing
 Lens options?      Telephoto, macro and other lenses are available for selection
 Selection suggestions      If high-temperature targets need to be measured or high precision is required, it   is recommended to give priority to shortwave measurement. For medium-   temperature targets or those with anti-interference requirements, medium-wave   should be selected.If it is a normal-temperature target and all-weather detection   is required, long-wave detection should be given priority.
 What's the difference between an infrared   pyrometer and an infrared thermal imager?      Infrared pyrometers can only measure the temperature at a single point. By   detecting the infrared radiation energy at a certain point on the surface of an   object, it is converted into a temperature value through an algorithm, and the   measurement result is directly presented in digital form. 
 Infrared thermal imagers can measure surface temperature and generate a   thermal map of the temperature distribution on the surface of the object being   measured. They scan the infrared radiation energy at each point on the object to     form a two-dimensional thermal image, with each pixel corresponding to a   temperature value. The measurement results are presented.as pseudo-color or   grayscale images and superimposed with temperature data.
 What's the difference between an infrared   thermal imager and an infrared camera?      Infrared thermal imagers receive the infrared radiation emitted by objects through   infrared detectors and generate thermal images of the temperature distribution on   the surface of the reflected objects, which can be displayed intuitively.The   temperature distribution on the surface of an object cannot present the detailed   features of the object; only the thermal profile of the object can be seen.
 Infrared cameras are divided into passive infrared cameras and active infrared   cameras. The images they output are similar to those taken by ordinary cameras.   With the appearance and infrared features of black and white or color images, they   can present the general shape, outline and some detailed information of objects.

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HJ01-WMIR-4.5
Pixel Number:640×512 ,Wavelength Range:4.5μm, Thermal Sensitivity (NETD):≤1k@600°C ,Frame Rate:≤50Hz (configurable) ,Temperature Measurement Accuracy:±2°C or ±2% ,Temperature Measurement Range:Range 1: 600°C - 1600°C; Range 2: 1000°C - 2000°C 		4-6 Weeks Request for quote
HJ01-WMIR-3.9
Pixel Number:640×512 ,Wavelength Range:3.9μm ,Thermal Sensitivity (NETD):≤1k@600°C ,Frame Rate:≤50Hz (configurable), Temperature Measurement Accuracy:±2°C or ±2% ,Temperature Measurement Range:600°C~1600°C 		4-6 Weeks Request for quote

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