Beskrivelse
Artnr: 24707
Chasing M2 Pro/Pro Max Blueprint Oculus M1200D Sonar leverer multibeam-billeddannelse, der giver klare realtidsbilleder under dårlig sigtbarhed eller på lang afstand. Den kombinerer et kompakt, robust design med enestående billedkvalitet. Systemet fås i enkelt- og dobbeltfrekvenskonfigurationer og er dybdeklassificeret til 500 m.
Denne sonar giver pålidelig billeddannelse, når den optiske sigtbarhed er begrænset, eller når du skal afbilde mål på større afstand. Fordi den leverer realtidsbilleder, kan du træffe øjeblikkelige beslutninger under drift. Desuden gør det kompakte, robuste design det nemt at integrere systemet i forskellige platforme og modstå udfordrende forhold.
| Specification | Details |
|---|---|
| Product | Chasing M2 Pro/Pro Max Blueprint Oculus M1200D Sonar |
| Type | Multibeam imaging sonar |
| Imaging capability | Clear real-time imaging in poor visibility or over long range |
| Frequency options | Single-frequency and dual-frequency systems |
| Form factor | Compact, rugged |
| Depth rating | 500m |
Question: What environments is the Oculus M1200D sonar best suited for?
Answer: The sonar performs well in environments with poor optical visibility and in situations that require long-range imaging. Its real-time imaging capability helps you operate effectively when cameras cannot provide clear views.
Question: Can I choose between frequency options for different tasks?
Answer: Yes. The system is offered in single-frequency and dual-frequency configurations, allowing you to select the option that matches your operational needs.
Question: Is the Oculus M1200D durable enough for field use?
Answer: Yes. The sonar is described as compact and rugged, which supports reliable use in demanding conditions and easier integration into various platforms.
Question: How deep can the M1200D operate?
Answer: The system is depth rated to 500m, enabling deeper underwater operations where required.
Question: What advantage does multibeam imaging provide?
Answer: Multibeam imaging delivers detailed, real-time images over a swath, improving situational awareness in poor visibility or at longer ranges compared to single-beam approaches.