|
Features:
Integrated
data logging capability
The
DL-4plus features a built-in memory card for data storage. Designed
for easy access, the memory card can quickly be exchanged for
extended data collection sessions. The receiver’s LCD interface
and keypad eliminate the need for a separate handheld controller and
allow for fast configuration.
Rugged
and flexible
The
DL-4plus enclosure is designed to withstand the elements, while its
standard DB-9 connectors ensure quick installation. For high-speed
communication, the DL-4plus features three serial ports at speeds up
to 230,400 bits per second and USB support. The receiver also
includes an external oscillator input and power output to supply
peripheral devices.
Advanced
positioning performance
With
NovAtel’s patented Pulse Aperture Correlator™ (PAC)
technology to virtually eliminate the effects of multipath, the
DL4plus offers superior positioning accuracy. Available in multiple
models, including L1 and L1/L2, the receiver features optional
support for SBAS corrections provided by systems such as WAAS, MSAS,
and EGNOS. RT-2® mode provides centimeter-level accuracy for
real-time kinematic (RTK) applications.
Support
for inertial technologies
The
DL-4plus also provides support for an external inertial measurement
unit (IMU). With NovAtel’s SPAN™ Technology, the addition
of inertial capabilities results in continuous positioning even
during short outages or reduced satellite coverage. The system is
also ideal for high-dynamic applications, providing highly accurate
position and attitude measurements at 100 Hertz rates.
|
Built-in memory card and integrated LCD and keypad |
Eliminate the need for a separate handheld controller and data collector |
|
RT-2® and Pulse Aperture Correlator™ (PAC) technologies |
Ensure reliable, centimeter-level positioning in the most
demanding applications, including high multipath environments |
|
Power and communication support for an inertial measurement unit (IMU) |
Offers easy integration of inertial technologies for more robust
performance and precise position and attitude data |
|
Click
on image to enlarge
