Novatel SMART ANTENNA user manual Navigation Mode

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Operation

Chapter 3

 

 

 

from the satellite down-link message. After sufficient satellites have been acquired, the receiver enters Navigation mode. In "Search the Sky", the TTFF is typically less than 3 minutes.

4.Navigation Mode

The receiver is in Navigation mode whenever sufficient satellite information and measurement data is available to produce a GPS fix. Navigation mode is entered from Acquisition or Dead- Reckoning mode and exits to Dead-Reckoning or Fault mode.

In Navigation mode, a receiver configured as a roving unit operates in 2 sub-modes: Differential and Stand-Alone Nav. Sub-mode transition occurs automatically depending on satellite data availability. A receiver which is configured as a base station unit operates in Base Station Nav mode only. The receiver reports its current navigation sub-mode on its host port.

a.Differential (Roving Unit Only)

The receiver operates in Differential mode when data from at least 4 satellites with adequate geometry and differential corrections and/or measurements exist to compute position, velocity and time outputs. This is the preferred navigation mode. Differential data is supplied to the receiver through the differential input port. Differential data can be received only on the COM2 (DGPS IN) serial data port.

b. Stand-Alone Nav (Roving Unit Only)

The receiver operates in Stand-Alone Nav mode when it has data from at least 4 satellites with adequate geometry, but no differential corrections or measurements exist to compute position, velocity and time outputs. This is the preferred navigation mode when insufficient differential data is available to generate a differential GPS fix.

c. Base Station Nav (Base Station Unit Only)

The receiver operates in Base Station Nav mode once the time has been initialized and at least 4 satellites with adequate geometry can be used for navigation purposes. Once in this mode, only a change of configuration (rover mode requested) or a reset will cause the unit to leave this navigation mode. In this mode, the unit will have the ability to transmit the DGPS messages which are requested and allowed once its position is initialized. See also Section 3.5, Configurable Parameters starting on Page 23 for position initialization details.

Your receiver must be a BASE model to act as a base station. A list of models may be found in Appendix A of the SUPERSTAR II Firmware Reference Manual, see Reference [6] on Page 12.

5.Dead-Reckoning Mode

The receiver enters Dead-Reckoning mode when it cannot remain in Navigation mode. The speed and direction is assumed to be constant to allow the receiver to provide an estimated position.

6.Fault Mode

The receiver enters Fault mode during the period of time in which the receiver outputs are affected by one or more critical system faults. This mode supersedes all others and remains active until the next power-down/power-up cycle. Fault mode is entered from any mode except Initialization.

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Contents Smart Antenna Proprietary Notice Proprietary NoticeTable of Contents Appendices Technical Specifications Smart Antenna Development KitFigures Tables Software License Software License WarrantyWarranty Policy Firmware Updates Customer ServiceContact Information FCC Notice EMC Common Regulatory TestingCE Notice Congratulations ForewordScope Related PublicationsIntroduction ChapterInterconnections InstallationSystem Components Central Cable Mount Installation ChapterOpen-Ended Smart Antenna Cable Chapter InstallationMulti-Connector Smart Antenna Cable Cable Variations Smart Antenna Location Power/Communication PortBasic Setup Installation OverviewOperation Typical Operational Configuration Reference DescriptionCommunications with the Receiver Serial Port Default SettingsGetting Started Operation ChapterChapter Operation Non Volatile MemoryConfigurable Parameters Default ConfigurationReceiver States Operational States Self-Test ModeNavigation Mode Datum Support Built-In Status TestsPositioning Modes of Operation GPS System ErrorsSingle-Point or Autonomous Chapter Positioning Modes of Operation Satellite-Based Augmentation System SbasSbas Messages Sbas ReceiverPositioning Modes of Operation Chapter Troubleshooting Troubleshooting Chapter Updating Receiver Firmware Utility InstallationSystem Requirements Registration KeyRegistration Key Accepted Starting Software and Options UpdateUpdating Receiver Firmware Chapter Chapter Updating Receiver Firmware Programming SuccessSmart Antenna Specifications Smart Antenna DimensionsPerformance a Appendix a Technical SpecificationsPhysical and Environmental Technical Specifications Appendix a1 RS-232 Connector Pin AssignmentsSmart Antenna RS-232 6-Pin Connector Pinouts 1PPS+ 2 RS-422Connections Smart Antenna RS-422 ConfigurationsRS-232 6-Pin Open-Ended Smart Antenna Cable Open-Ended Smart Antenna CableMulti-Connector Smart Antenna Cable Development Kit Setup and OperationSmart Antenna Development Kit Appendix B StarView Software InstallationAppendix B Smart Antenna Development Kit Cables IndexIndex OM-20000078 Rev 2005/06/09

SMART ANTENNA specifications

The Novatel SMART ANTENNA represents a significant advancement in positioning technology, designed to meet the growing demands of various applications, including surveying, agriculture, and autonomous vehicles. Its compact, all-in-one design integrates GNSS (Global Navigation Satellite System) antennas, a GNSS receiver, and advanced signal processing capabilities into a single unit, thereby streamlining deployment and operation.

One of the standout features of the Novatel SMART ANTENNA is its multi-frequency capability, which allows it to utilize signals from various GNSS constellations, including GPS, GLONASS, Galileo, and BeiDou. This multi-constellation approach enhances reliability and accuracy, even in challenging environments where signal obstructions may occur. The ability to process signals across multiple frequencies significantly reduces the impact of multipath interference and improves positional precision.

The SMART ANTENNA employs sophisticated technologies, such as Real-Time Kinematic (RTK) positioning, which provides centimeter-level accuracy. This makes it ideal for applications that require high precision, such as land surveying or precision agriculture, where slight positional errors can lead to significant discrepancies in output.

Another important characteristic of the Novatel SMART ANTENNA is its rugged, weather-resistant design, making it suitable for a variety of outdoor environments. It has been engineered to withstand harsh weather conditions, ensuring operational reliability and longevity. This durability is crucial for industries that rely on continuous and accurate positioning data.

Moreover, the device features an easy-to-use interface, simplifying setup and operation for users of all experience levels. Its robust connectivity options, including Bluetooth and serial communications, enable seamless integration with various devices and systems, allowing for versatile usage across multiple platforms.

The Novatel SMART ANTENNA is also equipped with built-in monitoring and diagnostic tools, providing users with real-time feedback on performance metrics. This empowers users to maintain optimal operation and troubleshoot issues as they arise.

In summary, the Novatel SMART ANTENNA is a cutting-edge solution that combines advanced GNSS technology, accurate RTK positioning, and a rugged design. It is an unparalleled choice for industries that demand reliable and precise positioning data, driving efficiency and enhancing workflow across various applications.
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