CS106 Luftdrucksensor
Großer Druckbereich
Wird im wetterfesten Gehäuse untergebracht
wetter  wasser  energie  gas flux and turbulence  bauwerke  boden

Überblick

Der CS106 bestimmt den barometrischen Luftdruck im Bereich von 500 bis 1100 mbar. Das entspricht einem Bereich von unterhalb des Meeresspiegels, z.B in einer Mine, bis zu 4500 m über dem Meeresspiegel.Der CS106 ist mit allen Campbell-Datenloggern kompatibel.

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Funktionen und Vorteile

  • Optimized to mount in Campbell Scientific enclosures
  • Integral switching circuit limits power consumption to measurement cycle
  • Three-year warranty

Bilder

Technische Beschreibung

The CS106 uses Vaisala’s BAROCAP silicon capacitive sensor to measure barometric pressure. It is encased in a plastic shell (ABS/PC blend) fitted with an intake valve for pressure equilibration.

The CS106 outputs a linear signal of 0 to 2.5 Vdc, which allows the barometer to be directly connected to a Campbell Scientific datalogger. An internal switching circuit allows the datalogger to power the CS106 only during measurement, which reduces power consumption.

Spezifikationen

-NOTE- 1 hPa = 1 mBar
Pressure Range 500 to 1100 hPa
Long-Term Stability ± 0.1 hPa per year
Settling Time 1 s to reach full accuracy after power-up
Response Time 500 ms to reach full accuracy after a pressure step
Output Voltage 0 to 2.5 Vdc
Supply Voltage 10 to 30 Vdc
Elevation ~609.6 m (2,000 ft) below sea level (as in a mine) to 4,572 m (15,000 ft) above sea level
Accuracy
  • Accuracy refers to the root sum squared (RSS) of end point non-linearity, hysteresis, repeatability, and calibration uncertainty.
  • ±0.3 hPa (@ +20°C)
  • ±0.6 hPa (@ 0° to 40°C)
  • ±1.0 hPa (@ -20° to +45°C)
  • ±1.5 hPa (@ -40° to +60°C)
Linearity ±0.25 hPa
Hysteresis ±0.03 hPa
Repeatability ±0.03 hPa
Calibration Uncertainty ±0.15 hPa
Current Consumption
  • < 4 mA (active)
  • < 1 µΑ (quiescent)
Temperature Range -40° to +60°C
Dimensions 6.8 x 9.7 x 2.8 cm (2.7 x 3.8 x 1.1 in.)
Cable Length 76.2 cm (30 in.)
Weight 90 g (3.2 oz)

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)
CR300 (retired)
CR3000
CR310
CR350
CR6
CR800 (retired)
CR850 (retired)

Additional Compatibility Information

Data Logger Considerations

A 2.5-ft cable is supplied with the sensor for connection to the data logger. The cable connects to a control port, single-ended analog input terminal, 12 V power terminal, and ground terminal on the data logger.

Mounting

The CS106 is typically mounted next to the data logger inside an ENC12/14 or larger enclosure. The very small ENC100 is available for housing the CS106 separately, in its own enclosure.

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FAQs für

Number of FAQs related to CS106: 12

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  1. The sensor plug on the CS106 is the same as the one on the CS105. If the cable and connections are still working correctly, it should be possible to power down the station and swap out the sensors without any difficulty.

  2. Yes, but only if certain conditions are met:

    • The sensor resides in a non-condensing environment.
    • The vent tube accessing the high humidity environment is extremely well desiccated to keep any moisture from reaching the sensor’s components. Moisture in the sensor will damage the sensor, often to an un-repairable state.
  3. The CS106 is not a direct replacement. To use a CS106 in a system that previously used a CS105, the multiplier and offset will need to be changed in the program. Because the CS106 has a longer warm-up time, if the sensor is turned on and off, it may be necessary to make some adjustments to the warm-up time.

  4. Noisy measurements may be caused by several factors:

    • The sensor was not allowed to warm up adequately.
    • The sensor is placed in an electrically noisy environment, which makes other analog measurements noisy.
    • The power supply for the sensor or station is dirty. (There is not a clean regulated voltage.)
  5. Either the CS100 or the CS106 can fit inside an ENC100. For more information, refer to the Specifications information on the ENC100 product page. 

  6. In most cases, enclosures and buildings have enough little spaces for the pressure to stay at equilibrium with the outside pressure. Therefore, the sensor does not need to be vented to the outside. It is possible, however, that the rate at which the pressure equalizes is slowed by being in an enclosure, but the rate change usually is not noticeably significant.

    If the sensor resides in an absolutely air-tight environment, and the pressure outside this environment needs to be measured, then the sensor will need to be vented to the outside. However, venting to the outside may change the rating of the enclosure or associated inside environment.

  7. The manufacturer recommends calibration on a yearly basis. However, conformance to published standards or regulations may require this on a more frequent basis.

  8. For a reading in millibars, the multiplier is 0.240, and the offset is 500. To convert the millibar reading to different units, add an equation to the code. 

    To correct the pressure to sea level, see the “Correcting Pressure to Sea Level” section in the CS100 instruction manual or in the CS106 instruction manual. Alternatively, use Short Cut for Windows to generate the program, and, when prompted, enter the appropriate site elevation.

  9. Generally, these sensors are designed to measure the pressure of the environment where they are installed. The CS100 or CS106 can measure the air pressure within a snowpack if the enclosure is adequately sealed away from the snow while allowing the vent to have access to the snow. Note that it may be difficult to accomplish this. 

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