CPEC310
CPEC310
OrderableConfigurableGSAExpandable Closed-Path Eddy-Covariance System with EC155, Pump Module, and Automatic Zero and Span
Pricing
Configuration
Sign in for option pricing- w/VOLT116 w/Keyboard/Display w/CSAT3A Harsh w/Sonic Carrying Case w/EC155 Carrying Casew/EC155,
- w/VOLT116 No Keyboard/Display w/CSAT3A Harsh w/Sonic Carrying Case w/EC155 Carrying Casew/EC155,
- w/o VOLT116 w/Keyboard/Display w/CSAT3A Harsh w/Sonic Carrying Case w/EC155 Carrying Casew/EC155,
- w/o VOLT116 No Keyboard/Display No Sonic Sensor No Sonic Case w/EC155 Carrying Casew/EC155,
- w/o VOLT116 No Keyboard/Display w/CSAT3A Harsh w/Sonic Carrying Case w/EC155 Carrying Casew/EC155,
Select a configuration to add to your quote
- Model:
- CPEC310
- Item Number:
- 45299
- Warranty:
- 1 year
- Lead time:
- 14 days
Overview
The CPEC310 with EasyFlux™ is a turn-key, closed-path eddy-covariance (EC) flux system for long-term monitoring of atmospheric-biosphere exchanges of carbon dioxide, water vapor, heat, and momentum. A complete system consists of a closed-path gas analyzer (EC155 closed-path gas analyzer), sonic anemometer (CSAT3A sonic anemometer), data logger (CR6 datalogger), sample pump, three-valve module that enables automatic zero and CO2 span measurements (manual H2O span), and accommodations for a Granite™ Volt 116 analog input expansion module allowing for additional sensors.
The gas analyzer’s patented vortex intake design (United States Patent No. 9,217,692) and small sample cell volume (5.9 mL) provide a much lower flow rate than other closed-path systems while maintaining excellent frequency response (4.3 Hz cutoff frequency). Additionally, this design makes the system virtually maintenance free while still maintaining an ideal frequency response compared to traditional inline filters. Lower flow allows the CPEC310 to have one of the lowest total system power requirements (12 W) of any closed-path eddy covariance system. Campbell Scientific manufactures all components of the CPEC310, including the data logger and EasyFlux DL software for computing and correcting fluxes, which gives our system the most reliable functionality.
Key Advantages
Provides additional ports with automatic zero and span
Technical Description
The gas analyzer’s small sample cell volume (5.9 mL) minimizes the sample residence time (50 ms at the system’s nominal flow rate, 7 LPM). This gives excellent frequency response (5.8 Hz half-power bandwidth) with low total system power (12 W).
Eddy-Covariance Measurements
CO2 and H2O are measured with an EC155 Closed-Path Gas Analyzer. Three-dimensional wind speed and sonic air temperature are measured with a CSAT3A sonic anemometer head.
CPEC310 System Enclosure
The CPEC310 has two enclosures: a fiberglass enclosure that houses the CR6 datalogger, pump module, three-valve module, and optional Granite Volt 116 , and the EC100 enclosure for data processing. The CPEC310 can also be equipped with a scrub module for automatic zeroing of the EC155.
CPEC310 Pump Module
The pump module, a standard component of the CPEC310 system, consists of a small dual-head diaphragm pump with a brushless dc motor mounted inside a fiberglass enclosure. An integral cable connects the pump module to the CPEC310 system enclosure, which provides power, temperature measurement and control, pressure measurement, and pumping speed measurement and control.
Benefits
- New conformal coating helps protect sonic transducers in corrosive environments
- Expandable, high-end system with CR6 datalogger processing power and EasyFlux DL software to compute and fully correct up to 20 Hz data
- The three-valve module makes the CPEC310 the only closed-path eddy covariance system on the market with the ability to perform automatic zero and CO<sub>2</sub>/H<sub>2</sub>O span
- Additional port options for energy balance and atmospheric sensors
- Ideal system for short or tall towers
- Simple design provides easy use while maintaining full functionality
Specifications
- Operating Temperature Range
- -30° to +50°C
- Input Voltage Range
- 10.5 to 16.0 Vdc
- Power
- 12 W
(typical)
- Power
- 35 W
(maximum, at cold startup)
System Enclosure
- Dimensions
- 54 x 44.5 x 29.7 cm
(21.3 x 17.5 x 11.7 in.)
- Weight
- 15.36 kg
(33.85 lb)
- Weight
- 16.24 kg
(35.8 lb) with optional Granite Volt 116 module
Pump Module
- Inlet Connection
- 3/8-in. Swagelok
- Pressure Sensor Range
- 15 to 115 kPa
- Pumping Speed
- 3 to 9 LPM
(automatically controlled at the set point, typically 8 LPM)
Three-Valve Module
- Inlets for Module
- Zero, CO2, and H2O span
- Outlets
- Analyzer and H2O bypass
- Connections
- ¼-in. Swagelok
- Dimensions
- 14.0 x 12.7 x 14.0 cm
(5.5 x 5.0 x 5.5 in.)
- Weight
- 1.5 kg
(3.3 lb)
Scrub Module
- Power
- 0 W
(quiescent)
- Power
- 2 W
(with pump running)
- Power
- 8 W
(with heater running)
- Cylinder Volume
- 480 cm3 each
(29.29 in.3 each)
- Molecular Sieve Size
- 1.6 to 2.5 mm beads
(0.063 to 0.098 in. beads)
- Enclosure Dimensions
- 39.4 x 34.3 x 20.3 cm
(15.5 x 13.5 x 8.0 in.)
- Weight
- 9.6 kg
(21.1 lb)
Accessories
(16)CABLEPCBL
2-Conductor 16 AWG Power Cable
OrderableCABLE4CBL
4-Conductor 22 AWG Cable with Drain
Orderable45309
CPEC200/300 Pump Tubing Assembly, 0.375 OD
Orderable21823
Calibration Gas Tubing Assembly
Orderable21823
Calibration Gas Tubing Assembly
OrderableEasyFlux DL
Eddy-Covariance Data Logger Program
OrderableEasyFlux WebH
EasyFlux Web Software, Campbell Scientific-Hosted
Retired44301
Scrub Module for CPEC200/310
Orderable33288
8 GB microSD Flash SLC Memory Card
Retired17752
USB Memory Card Reader/Writer
Orderable27158
2 GB microSD Flash SLC Memory Card
Orderable38476
16 GB microSD Flash aMLC Memory Card
Orderable45308
CPEC200/300 Pump Tubing Assembly, 0.500 OD
OrderableEasyFlux WebS
EasyFlux Web Software, Self-Hosted
RetiredEasyFlux PC
Eddy-Covariance Post-Processing PC Software
OrderableFluoreSens 10
Sun-Induced Chlorophyll Fluorescence (SIF) System
Orderable
Related Resources
Case Studies
Documents
- Technical Paper
Molecular Sieve CO2 and H2O Scrubbing Solution
September 2017
View Document - Document
Application of flux footprint equations from Kljun et al. (2015) to field eddy-covariance systems for footprint characteristics into flux network datasets
View Document - Compliance
CPEC306 and CPEC310 with CR6-WIFI UK Declaration of Conformity
October 2022
View Document - Technical Paper
The CPEC310 Advantage
June 2018
View Document - View all documents
