The nCLD 844 CMhr analyzer is the next generation in high precision nitrogen oxide measurement. Unique in speed and reliability, the nCLD 844 CMhr is modular designed and capable of sequentially measuring NO, NO2, NOX, NH3 and NOX-Amines. The new and intuitive graphical user interface also individually displays and connects to other instruments’ data.
The nCLD 844 CMhr includes everything that is needed for measuring NO, NO2, NOX, NH3 and NOX-Amines. The fully revised detector-block, the enhanced gas flow paths and the improved pressure as well as temperature independence of the nCLD 800 Series instruments allow for even lower detection limits. Overall stability and reliability are lifted to a new level. The optional electro-mechanical bypass system balances out even fastest pressure variations occurring in the sample flow. Furthermore, the analyzer is adaptable to numerous non-standardized applications. The Calibration of the unit runs quickly and automatically with all necessary data available anywhere and at any time.
The new touch sensitive graphical user interface enables the user to individually adjust the instrument operation and data management according to his/ her needs and applications. The bright 7” monitor gives a clear overview and allows numerical and graphical display of values. Multiple digital in- and outputs guarantee a maximal connectivity for your remote operation, control and maintenance of the nCLD 844 CMhr, ensuring unsurpassed precision and reliability.
Compact, Modular and Intelligent!
The nCLD 844 CMhr is manufactured in a new compact and modular layout, in which each essential component of the chemiluminescence analyzer hosts its own CPU and interacts with other CPUs by BUS-communication. This assembly increases accessibility and serviceability by reducing wiring and piping. The measurement principle will conform to the standard method for NOX-detection in stationary source emissions (EN 15267).
dual chamber CLD with cooled PMT for measurement of NO, NO2, NOX, NH3 and NOX-Amines
four freely selectable ranges from 0,5 ppm – 500 ppm
Min. detectable concentration*
Noise at zero point (1σ)*
Rise time (0-90%)
5-95% rel. h (non-condensing, ambient air and sample gas)
Dry air use for O3 generator
internally generated (no external supply gas required)