Available InfReC R500 Series Models
Four models available by a temperature measurement range, temperature sensitivity, frame rate and applications.
Frame Rate | Model | Features |
---|---|---|
30Hz | R500 | Facility diagnosis model; Excellent choice for inspection of electrical facilities and remotely located pipes. Measuring Range: -40 to 500°C |
7.5Hz | R500-D | Facility diagnosis model; Excellent choice for inspection of electrical facilities and remotely located pipes. Measuring Range: -40 to 500°C |
1.2 Megapixels Infrared Thermal Imaging Camera
Unrivaled High Resolution Images expand temperature measuring field of non-contact temperature measurement.
- Super Resolution Mode (1280 x 960 pixel) Spatial Resolution: equivalent to 0.58mrad *2
- Standard Mode (640 x 480 pixel) Spatial Resolution: 0.87Â mrad
High Sensitivity, High Quality
Appropriate to Evaluation with accuracy and Non-Destructive Inspection for catching slight difference of temperature.
- Sensitivity (NETD) : 0.03 °C at 30 °C *3
- Temperature accuracy : ±1 °C *4
Shoot Close-up 58um Images with Standard Lens
Very small objects can be measured and recorded with the combination of the R500's 10cm minimum focal distance standard lens and Avio's built-in "Multi-Frame Super Resolution Processing" function without the need of an optional lens.
- Minimum Spatial Resolution : equivalent to 58μm *2 <in Super Resolution(SR) Mode>
A Wide Viewing Angle Lens increases Working Efficiency
The standard wide viewing angle lens captures large area images when working in limited space and improves overall shooting efficiency.Â
- Field of view (F.O.V.) : 32 °(H) x 24 °(V)
Configurations | MCS640/I5 Filter (780 to 1080 nm)
MCS640/I1 Filter (850 nm) MCS640/V Filter (650 nm) MCS640/I4 Filter (750 nm) MCS640/I8 Filter (1080 nm) |
Standard Temp.Ranges | 600 to 1600 °C (MB16) or 800 to 3000 °C (MB30) in up to 4 sub-ranges |
Sub Ranges | MB16: 600 to 850, 700 to 1000, 850 to 1250, 1100 to 1600
MB30: 800 to 1150,1000 to 1500, 1350 to 2050, 1900 to 3000 |
Sensitivity / NETD | 1° at 600 °C |
IR Detector | 640 x 480 pixels; Silicon |
Image Update Rate | 60 Hz (fps; frames per second) |
Emissivity | 10.0 to 100.0% adjustable via interface in steps of 0.1% (for full frame camera picture) |
Transmittance | 10 to 100 % (in application software) |
Uncertainty (Accuracy) | +/- 0.5% of reading in °K |
Repeatability | 0.1% of measured value in °K + 1°K |
Protection Class | IP65 (IEC 60529); NEMA 4 |
Shock Resilience | 30G (IEC60068-2-29/JIS C 0042) |
Vibration Resilience | 3G (IEC60068-2-6/JIS C 0040) |
Power Supply/Consumption | 24V DC, 1A |
Power Consumption | 10W Typical, 13W Max |
Analog Output | None |
Digital Interface | Gigabit Ethernet (1000 MBit/s) |
Connector | 12 pin power connector; RJ45 Ethernet connector |
Isolation | Power supply and digital interface are galvanically isolated from each other |
Typical Weight | 3.0kg (6.6 lbs) (depends on final lens configuration) |
Ambient Temperature | 0 to 50 °C |
Storage Temperature | -40 to 70 °C |
Relative Humidity | Non condensing conditions |
Housing | Aluminum extrusion |
CE-label | According to EU directives about electromagnetic immunity |
LumaSense
LumaSense systems empower our customers to realize immediate, verifiable, and sustainable savings from efficiency gains and waste reduction that go directly to the bottom line. Typical efficiency gains range from a minimum of 1% and up to 4% – even well beyond – opening the door to billions of dollars of savings in readily preventable expenses for our customers in the Global Energy, Industrial Materials, and Advanced Technologies markets. Systems and sensors span thermal imaging, pyrometry, fiberoptic temperature sensors, non-dispersive infrared and photoacoustic spectroscopy, gas-sensing modules, and a range of purpose-built sensors. These are developed, optimized, and tuned for the specific requirements of resource-intensive global industries and all are integrated into a feature-rich and customizable software solution to optimize the insight these sensors can provide and to allow for integration into controls and automation of processes.