Vector Compact - N Worlds Smallest GPS Compass, NMEA 2000 CapableThe Vector Compact GPS Compass offers superior navigation including accuratepositioning and heading performance. V104 uses SBAS (WAAS, EGNOS, MSAS,etc.) for differential GPS position allowing Hemisphere GNSS to provide alow cost and highly effective positioning and heading based smart antenna.The rugged and low-profile enclosure combines Hemisphere GNSS' CrescentVector technology and two multi-path resistant antennas for accuracy,portability and simple installation. The smart antenna, measuring in lessthan a half meter in length, mounts easily to a flat surface or pole. Thestability and maintenace-free design of Vector Compact provides traditionalGPS position and heading at a low cost, replacing the combination oflow-accuracy GPS and fluxgate compass.GPS Receiver Specifications:Receiver Type: Vector GPS L1Compass Signals Received: GPSChannels: 24GPS Sensitivity: -142 dBmSBAS Tracking: 2-channel, parallel trackingUpdate Rate: 10Hz standard (position and heading)Rate of Turn: 90x/s maximumCompass Safe Distance: 30 cm (11.8 in)Cold Start: Warm Start: Hot Start: Heading Fix: Maximum Speed: 1,850 kph (999 kts)Maximum Altitude: 18.288 m (60,000 ft)PowerInput Voltage: 8-36 VDC Power Consumption ~2.0 W nom.Current Consumption: 0.16 A @ 12VDCPower Isolation: Isolated to enclosureReverse Polarity Protection: YesMechanicalDimensions Not including mount: 29.9 L x 12.9 W x 4.5 H (cm)10.2 L x 5.1 W x 1.8 H (in)Dimenstions Including mount: 25.9 L x 12.9 W x12.8 (cm)10.2 L x 5.1 W x 5.0 H (in)Provides position,heading,pitch,roll and heaveExcellent in-band and out-of-band interference rejection2° (RMS) heading accuracy in an amazingly small form factorIntegrated gyro and tilt sensors deliver fast star-up times and provideheading updates during temporary loss of GPS and SatellitesDifferential position accuracy of 1m, 95% of the timeAccurate heading for up to 3 minutes during GNSS outagesCOAST technology maintains differentially corrected positioning for 40minutes or more after loss of differential signal