GPS Sensoren / GPS16X-HVS
GPS16X-HVS GPS Empfänger mit integrierter Antenne
Position un Zeit
Präzise Zeitsynchronisation
wetter  wasser  energie  gas flux and turbulence  bauwerke  boden

Überblick

der GPS16X-HVS ist ein GPS (global positioning system)- Empfänger, der präzise Informationen zu Position, Geschwindigkeit und Zeit ermöglicht. Campbell Scientific konfiguriert den GPS16X-HVS und modifiziert das Kabel, so dass er problemlos mit unseren Loggern verbunden werden kann.

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Funktionen und Vorteile

  • Supports real-time WAAS or RTCM corrections for accuracy of 3 to 5 m
  • Kann direkt an einem CR300, CR6, oder CR1000X angeschlossen werden, mit allen Funktionalitäten
  • Kann direkt an einem CR800, CR850, CR1000, oder CR3000 Datenlogger angeschlossen werden wenn PPS Zeitsynchronisation nicht verwendet wird.
  • Verwendet Daten von bis zu 12 Satelliten abhängig davon, welche über dem Horizont sichtbar sind
  • Man kann die Uhr des Loggers an der besonders genauen GPS-Zeit stellen
  • Konfiguriert von Campbell Scientific zur Ausgabe von RMC und GGA Datenstringsmit 38400 bps
  • Extrem genaue Zeitpulse (PPS) können verwendet werden um Zeit zwischen Logger und anderen Instrumenten zu synchronisieren

Bilder

GPS16X-HVS mounted to a pole (items sold separately)

Technische Beschreibung

The GPS16X-HVS, manufactured by Garmin International, consists of a receiver and an integrated antenna. It receives signals from orbiting Global Positioning System (GPS) satellites and then uses the signals to calculate position and velocity. The GPS16X-HVS also provides a highly accurate one-pulse-per-second (PPS) output for precise timing measurements.

Default settings are typically used. The default settings and options are changed using GPS16 software, which is available, at no charge, from the Garmin website (www.garmin.com). Additional hardware is required to connect the GPS16X-HVS to the computer running the GPS16 software (see Ordering Information for more  information).

By default, the instruction expects the GPS unit to be set up at 38400 baud, outputting the GPRMC and GPGGA sentences once per second. The data logger expects the start of the second to coincide with the rising edge of the PPS signal. If there is no PPS signal or if the required sentences come out at less than once per second, the data logger will not update its clock.

GPS units with lower baud rates can be used with the GPS instruction, but the baud rate has to be set for the relevant Com port it is to be connected to either in the data logger settings or by including a SetStatus command after the BeginProg instruction in the program (for example, SetStatus("BaudrateCOM4",19200)). Baud rates below 2400 bps will not work, as the GPS unit will not be able to transmit the two GPS sentences once per second reliably. Similar problems can be encountered even at higher baud rates if too many optional GPS strings are selected to be output.

Spezifikationen

Receiver WAAS enabled. 12 parallel channel GPS receiver continuously tracks and uses up to 12 satellites (up to 11 with PPS active) to compute and update the position.
Update Rate Factory set to 1 s between updates. (Programmable from 1 to 900 s.)
PPS Output 1 Hz pulse; 1 µs accuracy (Width factory set to 100 ms.)
Baud Rate Factory set to 38400 bps.
Operating Temperature Range -30° to +80°C
Storage Temperature Range -40° to +80°C
Operating Voltage Range 8 to 40 Vdc
Current Drain 65 mA active (@ 12 Vdc)
Velocity Accuracy 0.1 knot RMS steady state
Cable Length 4.57 m (15 ft)
Diameter 9.1 cm (3.58 in.)
Height 4.2 cm (1.65 in.)
Weight 332 g (12 oz)

Position Accuracy (95% typical)

GPS Standard Positioning Service (SPS) < 15 m
DGPS (USCG/RTCM) Correction 3 to 5 m
DGPS (WAAS) Correction < 3 m

Acquisition Times

Reacquisition < 2 s
Hot ~1 s (all data known)
Warm ~38 s (initial position, time and almanac known, ephemeris unknown)
Cold ~45 s

Kompatibel mit

Please note: The following shows notable compatibility information. It is not a comprehensive list of all compatible products.

Datenlogger

Product Compatible Note
CR1000 (retired) May require an adapter. If PPS input is required, use the A300 level shifter.
CR1000X
CR300 (retired)
CR3000 May require an adapter. If PPS input is required, use the A300 level shifter.
CR310
CR350
CR6
CR800 (retired) May require an adapter. If PPS input is required, use the A300 level shifter.
CR850 (retired) May require an adapter. If PPS input is required, use the A300 level shifter.

Additional Compatibility Information

Data Logger Considerations

Our CR6, CR800, CR850, CR1000, and CR3000 dataloggers typically use the CRBasic GPS() instruction to read the GPS16X-HVS.

For the GPS() instruction to set the time or use the pulse from the GPS sensor, some data loggers need an updated clock chip. Some data loggers will require an adapter to convert the 3V PPS output of the GPS16X-HVS to a 5 V signal. 

The clock chip is factory replaced, which requires an RMA (Return Material Authorization). Data loggers with the following serial numbers need an updated chip:

Data Logger Serial Number
CR1000M < 20409
CR800, CR850 < 7920
CR3000 < 3168
CR6 Works with all

In August 2014, Garmin changed the GPS16X-HVS PPS output signal from 5 V to 3 V. Units with serial numbers greater than 1A4189318 have a 3 V PPS output signal. When this new design is used with a CR800, CR850, CR1000, or CR3000 datalogger, a 3 V to 5 V voltage shifter is required for use with the PPS signal output. The SW12V or A300 can be used for this purpose. This level shifter is NOT required for the CR6 or CR1000X datalogger.

Mounting

The GPS16X-HVS mounts to a mast or crossarm using the CM235 Magnetic Mounting Stand. Typically, the GPS16X-HVS mounts to the CM235 magnetically with the addition of the 17212 Magnetic Mount. Alternatively, the GPS16X-HVS can be mounted directly to the CM235 using three M4 screws supplied with the 17212 or by the customer.

Dokumente


FAQs für

Number of FAQs related to GPS16X-HVS: 6

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  1. The following are possible causes:

    • The GPS receiver is not producing the correct sentences.
    • The GPS receiver is configured with too low of a baud rate.
    • The GPS receiver is producing too many sentences for a given 1 s period.
    • The GPS receiver does not have a PPS (pulse per second) line correctly connected to the datalogger.
    • The GPS receiver is a unit with a pulse-per-signal that is not 1 Hz.
  2. No. The system needs to be stable before the information output is used to synchronize the clock. When PPS is not being used, clock operation proceeds as normal, such as when a GPS receiver is not connected.

  3. Refer to the CRBasic Editor Help for the GPS() instruction. The system is working correctly. The datalogger clock has been synchronized and is detecting a PPS line low to high transition within a 10 ms window before the start of the second.

  4. This can be done, but only one GPS() instruction can be included in a program because it is not desirable to have multiple inputs competing for clock synchronization. Use the SerialOpen() and SerialInRecord() instructions to pull in the data from the multiple sensors, and use the SplitStr() instruction to parse the data out.

  5. To record the data, do the following:

    1. Pull in one or more NMEA sentences from the receiver.
    2. Pull out longitude and latitude information from the received data.
    3. Store that data in a user-defined data table.

    The easiest method for receiving and parsing out latitude and longitude information is to use the GPS() instruction.

  6. Campbell Scientific offers the GPS16X-HVS for the purpose of synchronizing with GPS time. Other GPS units may be used if they produce GPRMC and GPGGA sentences. Time synchronization accuracy may be improved if the unit has a PPS (pulse per second) output.

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