The HALO20 radar dome by Simrad offers unmatched capability in the close to mid-range area. It uses pulse-compression radar technology, which not only provides a strong blend of short and long-range detection, but also delivers precise target definition with low clutter.
With enhanced situational awareness, the HALO20 radar helps you avoid collisions and stay safe while you're on the water. It has various functions that improve your awareness of the current situation. One of these functions is MARPA target tracking, which allows you to monitor a selection of potential collision hazards. It can track up to ten targets or up to twenty targets in dual range.
The HALO20 radar is instantly ready when you need it. It quickly resumes its active state after entering a power-saving standby mode, ensuring radar coverage at the time and location of your choosing.
The operation of the HALO20 radar is simple and user-friendly. It has harbor, offshore, weather, and custom modes that fine-tune its superior signal processing. This guarantees that targets can be viewed in vivid detail, even in the most challenging environmental situations.
Features:
- 10W Compressed Pulse Waveform
- A range of 24 nm from a 20-inch diameter dome
- Unmatched short-range performance
- Free of harmful radiation
- Simple operation with port, offshore, and weather modes
- MARPA target tracking
- Instant On Power Utilization with less energy consumption
- Guard Zones
Included with the HALO20 radar dome is a 10-meter Ethernet adapter cable. Its model number is 000-14548-001 (000-14552-001).
FAQs
1. How far can the HALO20 radar detect targets?
The HALO20 radar can detect targets up to a range of 24 nm.
2. Does the HALO20 radar emit harmful radiation?
No, the HALO20 radar is free of harmful radiation.
3. How many targets can the MARPA target tracking feature monitor?
The MARPA target tracking feature can monitor up to ten targets or up to twenty targets in dual range.
4. What modes does the HALO20 radar offer?
The HALO20 radar offers harbor, offshore, weather, and custom modes for different signal processing needs.
Zechariah –
Hallie –
Aarron –