The CRY2620 utilizes state-of-the-art technology with a compact yet powerful 12 cm (4.7 inch), 64-channel microphone array. By analyzing the time delays of sound waves detected by each of the 64 microphones, the system precisely identifies the direction and distance of sound sources. Advanced algorithms then translate this data into a detailed acoustic image, highlighting key areas of interest. The compact size of the array ensures high-resolution imaging while maintaining a portable form factor, making it ideal for a wide range of industrial applications.

The CRY2620 is a top-performing device for gas leak detection, offering precise location identification and comprehensive leak assessment. Leveraging advanced acoustic technology, it detects the ultrasound of escaping gases to pinpoint the exact source of the leak. This precision not only reduces inspection time but also enhances safety by minimizing the need for manual checks. The imager quantifies the leak rate for accurate evaluations of gas loss and calculates the economic impact of the leak, helping businesses assess potential financial losses and prioritize repairs effectively.

The CRY2620 is engineered to detect leaks of any gas type, offering exceptional versatility for a range of industrial applications. Employing advanced acoustic technology, the camera captures ultrasound waves emitted by gas leaks, regardless of the gas composition. This ensures efficient and accurate detection across a broad spectrum of gases, including compressed air, natural gas, hydrogen, oxygen, and more. Its adaptability makes it ideal for various stages of industrial processes, from production and processing to transportation and storage. Whether used for routine maintenance or emergency situations, the real-time visualization feature enables operators to swiftly locate and assess leaks, facilitating prompt corrective actions.

The CRY2620 boasts a "focusing" function that effectively eliminates environmental noise interference through advanced "Beamforming" technology. This acoustic innovation uses a sophisticated microphone array to pinpoint and amplify specific sound sources while reducing background noise. By concentrating on targeted areas of interest, such as machinery or structural components, the imager enhances signal clarity and accuracy in noisy environments. This feature is especially valuable in industrial settings where background noise can obscure critical acoustic signals related to equipment health and performance.

Exceptionally robust and built to endure significant pressure and accidental drops, the CRY2620 is constructed from durable aluminum alloy and engineered for resilience, delivering reliable performance in demanding environments. Its rugged design ensures consistent functionality and accuracy even in harsh conditions where physical impacts may occur. Whether deployed in industrial settings, outdoor environments, or during transportation, the imager's sturdy construction and protective features guard against impacts, ensuring uninterrupted operation. This resilience is vital for long-term reliability and cost-effectiveness in inspection and diagnostic applications, where equipment durability is essential for dependable performance.

The IP54 rating of the CRY2620 indicates its ability to resist dust ingress and withstand water splashes, making it ideal for use in demanding environments. This rating ensures the camera is protected against most solid particles and limited water exposure, enhancing its durability and reliability. Whether used in industrial settings, outdoor conditions, or other challenging applications, the IP54 rating guarantees that the device will maintain optimal performance despite environmental factors.

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