Guide PT870 HD High Performance Thermal Camera
- Detector Type: VOx
- Infrared Resolution: 1280×1024 pixels
- Wavelength Range: 7.5 µm to 14 µm
- Temperature Range: -40°C to 150°C, 0°C to 800°C, Optional 400°C-2500°C (High temperature lens is required)
- Accuracy: ±1°C or ±1%, whichever is greater
- NETD (Noise Equivalent Temperature Difference): ≤ 55 mK
- Field of View (FOV): 25°×19°
- Focus Mode: Manual / Auto / Continuous autofocus / Laser-assisted autofocus / Touch to autofocus
- Digital Zoom: 1.1x to 50x
- Description
- Additional information
- Specifications
Description
The Sensmart Guide PT870 is a high-performance thermal imaging camera designed for professional applications. It boasts exceptional image quality, advanced features, and robust construction, making it a powerful tool for a wide range of industries.
Key Features:
- Unparalleled Image Quality: Features a high-resolution thermal sensor with exceptional sensitivity, delivering incredibly detailed and accurate thermal images.
- Advanced Image Processing: Incorporates sophisticated algorithms for enhanced image clarity, noise reduction, and improved temperature measurement accuracy.
- Robust and Durable Design: Built to withstand demanding environments and rigorous use, ensuring long-term reliability and performance.
- Intuitive User Interface: The user-friendly interface with a large touchscreen enables easy navigation, data analysis, and image review.
- Versatile Connectivity: Offers robust Wi-Fi connectivity for seamless image transfer, sharing, and data management.
- Comprehensive Analysis Tools: Provides advanced analysis tools, including temperature measurement, area analysis, and isotherm creation, for in-depth data interpretation.
Applications:
- Building Inspections:
- Detect heat loss and identify air leaks.
- Assess insulation effectiveness.
- Inspect HVAC systems for performance issues.
- Electrical Maintenance:
- Identify overheating components and electrical faults.
- Diagnose loose connections and potential electrical hazards.
- Mechanical Inspections:
- Diagnose bearing wear, misalignment, and lubrication problems.
- Research and Development:
- Analyze thermal profiles for product development and scientific research.
- Industrial Applications:
- Predictive maintenance, process optimization, and quality control.
Benefits:
- Enhanced Safety: Identify potential hazards like electrical fires or faulty equipment more effectively, improving safety in various applications.
- Increased Efficiency: Streamline inspections and reduce downtime with faster and more accurate data collection.
- Improved Decision-Making: High-quality thermal images provide valuable insights, enabling more informed decisions and more effective problem-solving.
- Cost Savings: Prevent costly repairs and maintenance by identifying and addressing issues early on.
- The Guide Sensmart PT870 represents a cutting-edge solution for professionals seeking the highest level of performance and reliability in thermal imaging technology
Additional information
| Brand | Guide Sensmart |
|---|
| Imaging and optics | |
| Detector type | VOx, 7.5 to 14μm |
| Infrared resolution | 1280×1024@12μm |
| Super resolution | Yes, Upgrade to 2560×2048 |
| NETD | 25mK |
| Frame rate | 30Hz/9Hz |
| Focal length | 35mm |
| Field of view | 25°×19° |
| IFOV | 0.34mrad |
| Min. object distance | 0.3m |
| D:S | 2941:1 |
| Focusing mode | Manual / Automatic / Touch autofocus / Continuous autofocus |
| Digital zoom | 1.1x to 50x |
| Measurement and analysis | |
| Measurement range | Support auto-switching: -40°C to 150°C, 0°C to 800°C, Optional 400°C to 2500°C (High temperature lens is required) |
| Measurement accuracy | ±1°C or ±1%, whichever is greater |
| Analyzed target | 35 in total (Spot/Line/Area) |
| Alarm | Full screen temperature threshold alarm (image, voice and flash) |
| Parameter settings | Emissivity, reflected temperature, target distance, humidity, atmospheric temperature, optical transmittance, dew point |
| Others | Customized physical button, Intelligent diagnosis, NFC connection, OTA update |
