GPS-4000S Global Positioning System Sensor
A global positioning system (GPS) uses satellite navigation to determine the geolocation of an aircraft. The Collins Aerospace GPS-4000S provides GPS-based navigation and enables GPS-based approaches for aircraft equipped with flight management systems. The sensor’s Satellite-based Augmentation System (SBAS) capabilities enable use of GPS for primary means navigation in areas of SBAS coverage. This includes the United States' Wide Area Augmentation System as well as planned MTSAT SBAS in the European Geostationary Navigation Overlay System for Japan and Europe.
The GPS-4000S uses up to 10 GPS satellites and two geo-stationary SBAS satellites. However, you can calculate navigation with a minimum of four GPS satellites with acceptable geometry or three satellites plus calibrated barometric altitude. With additional satellites, the system's receiver autonomous integrity monitoring (RAIM) detects and isolates defective satellites while improving navigation accuracy. Predictive RAIM capability determines if the future satellite geometry at the destination airport will support planned arrival procedures.
Features & benefits
- Fully integrated with the Collins Aerospace Pro Line 4™ and Pro Line 21™ systems
- Yields terminal and en route navigation solutions
- Supports GPS-based vertical path approach capability (e.g., LPV), available with future FMS upgrade
- Provides non-precision approach navigation
- Backs up primary means GPS navigation in SBAS coverage and oceanic/remote areas
- Enables RAIM, Predictive RAIM and fault detection and exclusion (FDE)
- Permits on-board loading of application software
- 12-channel, TSO C145A compliant SBAS-enabled GPS receiver
- 2 MCU, ARINC 743A compliant
- DO-160D qualified