The FOTRIC H6 High-Performance Acoustic Imaging Camera, our latest innovation in industrial inspection. Equipped with up to 162 MEMS digital microphones, the H6 offers unparalleled sensitivity to detect even the faintest acoustic signals. Its Acoustic Focus Mode ensures precise targeting and accurate diagnostics, making it essential for maintaining equipment integrity and preventing costly failures.Â
- High Sensitivity: Equipped with up to 162 MEMS digital microphones for detecting even faint acoustic signals.
- Wide Frequency Range: Typically operates in a frequency range of 2 kHz to 100 kHz, allowing detection of both audible and ultrasonic sounds.
- Real-time Acoustic Visualization: Overlays a visual representation (acoustic heatmap) of sound sources onto a live camera image, making it intuitive to locate leaks and faults.
- Acoustic Focus Mode: Filters out background noise to precisely target the source of the sound.
- Dual-Functionality: Capable of both gas leak evaluation (quantifying leakage and cost) and partial discharge detection (identifying discharge types).
- On-device Analysis: Can directly analyze acoustic images and, in some cases, automatically diagnose discharge types.
- Leak Evaluation: Automatically identifies leak points and estimates the annual energy costs associated with them.
- Partial Discharge Diagnostics: Automatically diagnoses different types of partial discharges like surface, floating, and corona discharges.
- High-Resolution Optical Camera: Features a 13-megapixel industrial-grade digital camera for detailed visual context.
- 5-inch LCD Touchscreen: Offers a user-friendly interface with a high-resolution (1280×720 pixels) display protected by Gorilla Anti-Explosion glass.
| Model | FOTRIC H6 |
|---|---|
| Microphone channels | 162 MEMS digital microphones |
Acoustic Image FOV |  66° × 52° |
Acoustic Sampling Rate | 200kHz |
Acoustic Refresh Rate | 25Hz |
Working Distance |  0.3~200m(1~626ft) |
Frequency Range | Â 2~100kHz |
Frequency Range Selection | Support preset frequency range for different scenarios for later manual adjustment selection; Support for frequency range. |
Detection Mode | Â LQ Mode: Displays the leakage PD level; PD Mode: Displays a PRPD diagram, adapted to different AC Default AC Frequency frequencies (50/60Hz). |
On-device Analysis | The device can directly analyse acoustic images |
Analysis Software | AnalyzIR professional thermal and acoustic image analysis software. |
Leak Evaluation | Automatic identification of leakage points, automatic evaluation of leakage, and annual energy costs. |
| Partial Discharge Diagnostics  | Automatic diagnosis of discharge types such as surface, floating, and Acoustic Imaging Display tip (corona) discharges. |
| Display Screen | 5″, 1280*720 pixels, LCD touchscreen display with Gorilla Anti-Explosion screen. |
LED Flash Lamp | Supports torch illumination and flash light mode |
| Battery Operation Time | 2 batteries, Continuous work ≥ 4h per battery (depends on the environment and workload) |
Enclosure Rating | IP54(IEC 60529) |
| Operating temperature | -4~112 ℉ (-20°C to 44.4°C) |
| Storage temperature | -40~158 ℉ (-40 to 70 ℃) without battery |
| Operating Humidity | <95%RH |
Weight (include battery) | 2.86lb (1.3 kg) |
- Compressed Air Leak Detection: Identifying and quantifying leaks in compressed air systems to reduce energy waste and costs.
- Gas Leak Detection: Locating leaks of various gases (natural gas, industrial gases, etc.) for safety and environmental protection.
- Vacuum Leak Detection: Finding leaks in vacuum systems to maintain efficiency and prevent contamination.
- Partial Discharge Detection: Identifying and analyzing partial discharges (corona, surface discharge, floating discharge) in electrical equipment like transformers, switchgear, and high-voltage lines to prevent failures.
- Mechanical Fault Diagnosis: Detecting abnormal sounds in rotating machinery (pumps, motors, bearings) that could indicate potential failures.
- Automotive Diagnostics: Identifying noise sources in vehicles for troubleshooting and quality control.
- Research and Development: Analyzing sound patterns for various applications.
