Overview
DIANYANG CA-30 Research Thermal Analyzer uses infrared thermal imagery to display surface temperature changes of objects and supports unlimited data storage and Reliability analysis. The instrument integrates imagery, temperature measurement, analysis, data collection and other functions to provide effective test data for education, scientific research and factory inspection.
Features
1. Using high quality thermal imagery detector, wide temperature measurement range: -20 ℃~ 550 ℃
2. Multi-angle adjustment rack, design adjustment method according to the experimenter's habits
3. Large-angle, wide-angle and macro dual-lens design that can be quickly replaced
4. Considering different sizes of test targets, the baseplate can be disassembled and spliced
5. USB direct connection, no delay in image transmission, simple and easy to use connection
6. Power analyzer and temperature sensor can be connected to analyze Ambient Temperature, Voltage, Current Temperature Data in one Dimension
7. High resolution images, unique DDE enhancement algorithm, can observe very small objects
8. Professional analysis software that can observe, record, and detect smaller details and richer content
9. Software automatic upgrade function, you can receive new versions of software at any time
10. The video of the full radiation stream can be observed in real time, and the video of the full radiation stream can also be recorded for various analysis offline
11. Macro lens, capable of observing temperature changes in tiny objects with φ = 25um
Principle
Based on the principle of infrared thermal imagery, the Thermal Analyzer captures infrared radiation from the surface of an object through a detector, converts it into temperature data and displays temperature changes. It can perform unlimited data storage and Reliability analysis of measurement results.
Applications
Education, scientific research, factory testing
Steps
1. Connect device: Connect Thermal Analyzer directly via USB
2. Adjust the rack: adjust the rack from multiple angles according to experimental habits
3. Select the lens: quickly change the wide-angle or macro lens as needed
4. Set the baseplate: disassemble or splice the baseplate according to the size of the test target
5. Perform measurement: Start temperature measurement after manual focus
6. Data analysis: use professional software to observe, record and detect details
7. Video recording: Real-time observation or recording of full radiation stream video for offline analysis
Notice
• Operating temperature range is -10 ℃~ + 55 ℃, exceeding may affect performance
• Temperature measurement accuracy is +/- 2 or +/- 2% at -20 ° C to 120 ° C and +/- 3% at 120 ° C to 550 ° C
• The best distance for measurement is 4cm to 200cm
• When using a macro lens, a tiny object temperature change of φ = 25um can be observed
• Image files support full temperature JPG thermal images, and video files are in MP4 format
• The full radiation stream file is in dyv format and needs to be opened with CA Thermal Analyzer software
