Marine electronics maritime navigation communication JRC JMA-3340-4 /6 X band 10KW open array antenna 72NM 10.4'' nautical radar
Negotiable
Min.Order:1
Ningbo Smart Navigation Marine Technology Co., Ltd.
Please contact me before purchasing for the shipment and product price and detailed configuraiton.
If you want to make bulk purchase or be our agent, please contact with us.
The JMA-3300 series is JRC’s newest radar, featuring a 10.4-inch ultra bright LCD, and incorporates the latest digital signal processing for excellent target identification and detection in a compact design.
The tough glass bonded LCD is backlit by white LED’s giving 1000cd/m² of brightness, making the radar image amazingly sharp. A feature not previously found on this class of radar.
JRC engineers custom designed the System-on-Chip (SoC) inside the new JMA-3300 series to be an extremely powerful tool. With such a small chip, weighing less than a sugar cube, performance remains at our high standards. At the same time, the SoC technology makes the compact radar very power efficient.
The new radar has the ability to display 50 AIS symbols, and 10 MARPA+ tracking targets as standard. The high quality of the display provides outstanding target definition and discrimination. The (second generation) MARPA+ continues JRC's successful MARPA+ technology first found in the previous JMA-2300 radar series. Our engineers continued developing and improving the technology, until now, with MARPA+, manual or automatic target tracking is even more reliable.
Based on JRC's patented technology found in the bigger radars, the new JMA-3300 integrates Semi-Constaview. This allows fast processing of targets, showing true trails in Head-Up mode, without interference of fixed targets, such as land or mass.
With Mount Fuji in the background, JRC engineers successfully tested the new JMA-3300 radar in Suruga Bay. See on the left side actual photos results of our SoC technology. Land echoes are clearly visible and smaller echoes are far more enlarged than bigger echoes, giving a better on-screen separation and identification.