SeaBat T20-R Multibeam Echosounder
High Resolution Multibeam Echosounder
The SeaBat T20-R is a high resolution multibeam echosounder with fully integrated Inertial Navigation System. It offers superior acoustic quality, engineered for the demanding marine environment.
The SeaBat T20-R was the first system to be introduced to Teledyne RESON’s leading SeaBat T-Series product range engineered from the ground up to evolve with your business. Combined with a Rack-mounted Sonar Processor (RSP), SeaBat T20-R provides uncompromised survey data in a highly compact package designed for small vessel use.
The solution includes a range of powerful software features at an attractive price, with the option for future feature expansions to grow with your needs.
The Rack-mounted Sonar Processor comes with an optional industry-leading fully integrated Inertial Navigation System for accurate sensor time tagging and motion stabilization.
The SeaBat T20-R is designed for very fast mobilization on any type of survey vessels, securing minimal interfacing and low space requirements.
Integrated Inertial Navigation System
- The solution includes a range of powerful software features at an attractive price, with the option for future feature expansions to grow with your needs.
- The Rack-mounted Sonar Processor comes with an optional industry leading fully integrated Inertial Navigation System for accurate sensor time tagging and motion stabilization.
- The SeaBat T20-R is designed for very fast mobilization on any type of survey vessels, securing minimal interfacing and low space requirements.
Benefits
- All-in-one, fully flexible and fully integrated survey system
- The compact system allows for fast mobilization, minimal interfacing and extremely low space requirements
- Impressively clean and high data quality for faster operational surveys and reduced processing time
- Fully frequency agile from 190 to 420 kHz, allowing for improved swath performance and reduced survey time under challenging conditions
- The new compressed water column data significantly reduces data volume while maintaining the required information