Q-CPX System is a new Cardiopulmonary Exercise Testing System, complete with the CPX Metabolic analyzer including heart rate monitor pneumotach spirometer.
Designed for measurements of rapid changes in O2 and CO2 such as from breath by breath measurements of human respiration
Used to perform a variety of tests related to air flow and lung volume
A single channel non-dispersive infrared CO2 analyzer that measures CO2 in 0 to 10% range with 0.01% or better accuracy. Packaged in a weather resistant case for lab and field use.
Q-S153 CO2 Analyzer is a single channel non-dispersive infrared CO2 analyzer which measures CO2 in 0 to 5% an 0 to 10% range with 0.01% resolution. Q-S153 replaces our S153 CO2 Analyzer. The same dependable technology has been improved, made more rugged and modular for easy fit in our NEW Q-Box Packages. Q-S153 CO2 analyzer is ideal [...]
S108 Absolute O2 Analyzer is the most flexible, accurate and affordable oxygen analyzer on the market. It uses a fuel cell sensor that operates at ambient temperature unlike power hungry zirconium sensors that require an on-board furnace. The sensor incorporates acid electrolyte and teflon diffusion membrane. Measurements of pO2 are precise across the entire range from 0% [...]
Qubit Systems’ Q-S102 O2 Analyzer is configured for measuring oxygen concentration in a flow through gas exchange systems in 0-25% or 0-100% range with 0.21% accuracy. The Q-S102 O2 Analyzer is ideal for determining O2 uptake in organisms with high metabolic rates in an open flow system configuration. For organisms with low metabolic rate it can be used in a closed flow system where the rate of O2 uptake can be calculated from the slope of O2 decline in the system.
The Q-Box HR1LP Human Respirometry Package is ideal for use in undergraduate laboratory courses, yet the package’s Infrared CO2 Analyzer, Oxygen Sensor, Pneumotach Spirometer and Wireless Exercise Heart-Rate Monitor have the accuracy and resolution required for research.
Designed to measure both steady-state and dynamic changes in human metabolic rate under a variety of test conditions on a breath by breath basis.