EC155
EC155
OrderableConfigurableClosed-Path CO2/H2O Gas Analyzer
Pricing
Configuration
Sign in for option pricing- Gas Analyzer Only No Sonic Case w/Basic Barometer w/EC155 Carrying Case-GH
- CSAT3A & Gas Analyzer w/Sonic Carrying Case w/Basic Barometer w/EC155 Carrying Case-SS
Select a configuration to add to your quote
- Model:
- EC155
- Item Number:
- 45305
- Warranty:
- 3 years or 17,500 hours
- Lead time:
- 14 days
Overview
Campbell Scientific's EC155 closed-path analyzer incorporates vortex technology for reduced maintenance, an absolute pressure sensor in the sample cell for more accurate measurements, and a sample cell with improved corrosion protection. The EC155 can be combined with the CSAT3A sonic anemometer, as shown in the main image. The revised CSAT3A has a more aerodynamic and rigid design.
The EC155 is ordered as part of a CPEC300-series system (CPEC300, CPEC306, or CPEC310), which also includes the sample pump, data logger, optional valve module, and optional scrub module to provide a zero air source. The EC155 with anemometer simultaneously measures absolute carbon dioxide and water vapor mixing ratio, sample cell temperature and pressure, and three-dimensional wind speed and sonic air temperature.
Key Advantages
Use as part of closed-path eddy-covariance system
Technical Description
The EC155 has the following outputs:
- Ux (m/s)*
- Uy (m/s)*
- Uz (m/s)*
- Sonic Temperature (°C)*
- Sonic Diagnostic*
- CO2 Mixing Ratio (µmol/mol)
- H2O Mixing Ratio (mmol/mol)
- Gas Analyzer Diagnostic
- Cell Temperature (°C)
- Cell Pressure (kPa)
- CO2 Signal Strength
- H2O Signal Strength
- Differential Pressure (kPa)
- Source Temperature (°C)
*Requires a CSAT3A Sonic Anemometer Head.
Benefits
- Vortex Intake (U.S. Pat. No. 9,217,692) greatly reduces maintenance frequency compared to traditional in-line filters
- Heated inlet increases protection against condensation
- More accurate pressure measurements with the new sample cell absolute pressure sensor
- Fully integrated, detachable intake
- Improved corrosion protection with stainless-steel sample cell
- Improved sonic temperature from more rigid CSAT3 geometry
- Stream-lined, aerodynamic CSAT3A mounting
- Slim aerodynamic shape with minimal wind distortion
- Analyzer, sample cell, and sonic anemometer measurements have matched bandwidths and are synchronized by a common set of electronics
- Low power consumption; suitable for solar power applications
- Low noise
- Small sample cell for excellent frequency response
- Integrated zero/span connection for simplified field zero/span
- Field rugged
- Field serviceable
- Factory calibrated over wide range of CO<sub>2</sub>, H<sub>2</sub>O, pressure and temperature in all combinations encountered in practice
- Extensive set of diagnostic parameters
- Fully compatible with Campbell Scientific data loggers; field setup, configuration, and field zero and span can be accomplished directly from the data logger
- Rain: innovative signal processing and transducer wicks considerably improve performance of the anemometer during precipitation events
Specifications
- Operating Temperature Range
- -30° to +50°C
- Operating Pressure
- 70 to 106 kPa
- Input Voltage Range
- 10 to 16 Vdc
- Power
- 5 W
(steady state and power up) at 25°C
- Measurement Rate
- 60 Hz
- Output Bandwidth
- 5, 10, 12.5, or 20 Hz
(user-programmable)
- Output Options
- SDM, RS-485, USB, analog
(CO2 and H2O only)
- Auxiliary Inputs
- Air temperature and pressure
- EC100 Barometer Accuracy
- ±1.5 kPa (> 0°C), increasing linearly to ±.3.7 kPa at -30°C
(basic)
- EC100 Barometer Accuracy
- ±0.15 kPa (-30° to +50°C)
(enhanced)
- Sample Intake/Sonic Volume Separation
- 15.6 cm
(6.1 in.)
- Warranty
- 3 years or 17,500 hours of operation
(whichever comes first)
- Cable Length
- 3 m
(10 ft) from EC155/CSAT3A to EC100
- Weight
- 3.9 kg
(8.5 lb) for EC155 head and cables
- Weight
- 1.7 kg
(3.7 lb) for CSAT3A head and cables
- Weight
- 0.4 kg
(0.9 lb) for mounting hardware
- Weight
- 3.2 kg
(7 lb) for EC100 electronics
Gas Analyzer
- Sample Cell Thermistor Accuracy
- ± 0.15°C
(-30° to +50°C)
- Sample Cell Pressure Accuracy
- ± 1.5 kPa (> 0°C ), increasing linearly to ±3.7 kPa at -30°C
Gas Analyzer - CO<sub>2</sub> Performance
- Accuracy
- Assumes the following:
the gas analyzer was properly zero and spanned using the appropriate standards; CO2 span concentration was 400 ppm; H2O span dewpoint was at 12°C (16.7 ppt); zero/span temperature was 25°C; zero/span pressure was 84 kPa; subsequent measurements made at or near the span concentration; temperature is not more than ±6°C from the zero/span temperature; and ambient temperature is within the gas analyzer operating temperature range.
- Accuracy
- 1%
(Standard deviation of calibration residuals.)
- Precision RMS (maximum)
- 0.15 µmol/mol
Nominal conditions for precision verification test: 25°C, 86 kPa, 400 μmol/mol CO2, 12°C dewpoint, and 20 Hz bandwidth. - Calibrated Range
- 0 to 1,000 μmol/mol
(0 to 3,000 µmol/mol available upon request.)
- Zero Drift with Temperature (maximum)
- ±0.3 μmol/mol/°C
- Gain Drift with Temperature (maximum)
- ±0.1% of reading/°C
- Cross Sensitivity (maximum)
- ±1.1 x 10-4 mol CO2 /mol H2O
Gas Analyzer - H<sub>2</sub>O Performance
- Accuracy
- Assumes the following:
the gas analyzer was properly zero and spanned using the appropriate standards; CO2 span concentration was 400 ppm; H2O span dewpoint was at 12°C (16.7 ppt); zero/span temperature was 25°C; zero/span pressure was 84 kPa; subsequent measurements made at or near the span concentration; temperature is not more than ±6°C from the zero/span temperature; and ambient temperature is within the gas analyzer operating temperature range.
- Accuracy
- 2%
(Standard deviation of calibration residuals.)
- Precision RMS (maximum)
- 0.006 mmol/mol
Nominal conditions for precision verification test: 25°C, 86 kPa, 400 μmol/mol CO2, 12°C dewpoint, and 20 Hz bandwidth. - Calibrated Range
- 0 to 72 mmol/mol
(38°C dewpoint)
- Zero Drift with Temperature (maximum)
- ±0.05 mmol/mol/°C
- Gain Drift with Temperature (maximum)
- ±0.3% of reading/°C
- Cross Sensitivity (maximum)
- ±0.1 mol H2O/mol CO2
Sonic Anemometer - Accuracy
- -NOTE-
- The accuracy specification for the sonic anemometer is for wind speeds < 30 m s-1 and wind angles between ±170°.
- Offset Error
- < ±8.0 cm s-1
(for ux, uy)
- Offset Error
- < ±4.0 cm s-1
(for uz)
- Offset Error
- ±0.7° while horizontal wind at 1 m s-1
(for wind direction)
- Gain Error
- < ±2% of reading
(for wind vector within ±5° of horizontal)
- Gain Error
- < ±3% of reading
(for wind vector within ±10° of horizontal)
- Gain Error
- < ±6% of reading
(for wind vector within ±20° of horizontal)
- Measurement Precision RMS
- 1 mm s-1
(for ux, uy)
- Measurement Precision RMS
- 0.5 mm s-1
(for uz)
- Measurement Precision RMS
- 0.025°C
(for sonic temperature)
- Measurement Precision RMS
- 0.6°
(for wind direction)
Accessories
(10)CABLEPCBL
2-Conductor 16 AWG Power Cable
OrderableCABLE4CBL
4-Conductor 22 AWG Cable with Drain
OrderableCABLE2TP
22 AWG, 2-Twisted Pair Cable with Drain
OrderableCABLE3TP
24 AWG, 3-Twisted Pair Cable with Drain
Orderable44299
Replacement Sonic Head for CSAT3A
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Related Resources
Case Studies
Documents
- Technical Paper
Molecular Sieve CO2 and H2O Scrubbing Solution
September 2017
View Document - Technical Paper
An eddy-covariance system with an innovative vortex intake for measuring carbon dioxide and water fluxes of ecosystems
March 2017
View Document - Manual
EC155 CO2 and H2O Closed-Path Gas Analyzer and EC100 Electronics with Optional CSAT3A 3D Sonic Anemometer
September 2021
View Document - Technical Paper
EC150, IRGASON, or EC155: Which CO2 and H2O Eddy-Covariance System Is Best for My Application?
January 2017
View Document - View all documents
