THERMAL VIEW 640N Compact
Infrared camera for measurements of high temperatures at 0.8 µm to 1.1 µm Features
THERMAL VIEW 640N compact cameras provide non-contact measurement of 2D temperature distributions with high dynamic and high spatial resolution. The camera is specially designed for long-term use in harsh industrial environments. Typical applications for the camera THERMAL VIEW 640N compact include measurement of high temperatures for process control, process monitoring and quality control.
Features
- Large continuous temperature measurement range 600 °C to 1500 °C, optional 2500 °C
- Measurement frequency 25 frames per second
- High dynamic 2D Si CMOS array with 640 °— 480 pixels
- Robust stainless steel housing
- Optional with furnace probe lens and cooling jacket
- Interchangeable lenses with different fields of view
- Real-time data acquisition via Fast Ethernet
- Triggered measurements
- Alarm and threshold monitoring
- 2 years warranty
- Customised system solutions with modified hardware and software
THERMAL VIEW 640N -F
Infrared camera for measurements of high temperatures at 0.8 µm to 1.1 µmFeatures
THERMAL VIEW 640N compact cameras provide non-contact measurement of 2D temperature distributions with high dynamic and high spatial resolution. The camera is specially designed for long-term use in harsh industrial environments. Typical applications for the camera THERMAL VIEW 640N compact include measurement of high temperatures for process control, process monitoring and quality control.
Features
- Large continuous temperature measurement range 600 °C to 1500 °C, optional 2500 °C
- Measurement frequency 25 frames per second
- High dynamic 2D Si CMOS array with 640 °- 480 pixels
- Robust stainless steel housing
- Optional with furnace probe lens and cooling jacket
- Interchangeable lenses with different fields of view
- Real-time data acquisition via Fast Ethernet
- Triggered measurements
- Alarm and threshold monitoring
- 2 years warranty
- Customised system solutions with modified hardware and software