Plant Growth Chamber Capabilities
As a crucial piece of laboratory equipment, the PHCbi brand plant growth chamber is designed to ensure highly accurate, reproducible chamber conditions. Our plant growth incubator allows for precise control of temperature, humidity and lighting - making it ideal for drosophila breeding, diurnal growth studies, plant cell culturing and more. Robust cabinet construction with corrosion-resistant stainless-steel surfaces simplify cleaning and eliminate rust due to high humidity. The PHCbi brand plant growth chamber uses SNAP compliant, low flammability HFO refrigerants to assure low environmental impact.
Application Specific Technology
The MLR Series humidified plant growth chamber has a temperature range of 0°C to 50°C, with programmable lighting for diurnal protocols to be used as a plant or insect rearing chamber.
Graphic LCD for Easier Operation
An LCD graphic display can be used to easily set and monitor temperature and humidity within the chamber. All other comprehensive security monitoring and alarm functions are standard.
The temperature and humidity can be calibrated through the control panel. The small and light weight membrane-type humidity sensor allows for high accuracy and reproducibility.
Ergonomic Cabinet Design
The slim profile cabinet offers a sophisticated performance within minimal space.
The MLR Series humidified plant growth chamber is designed to accurately reproduce and control a wide variety of temperatures, humidity and lighting patterns. Nine user programmable steps allow simulation of environmental conditions, while fifteen variable intensity fluorescent lamps create uniform lighting.
The PHCbi MLR Series allows for a more versatile environmental test chamber. It provides greater control over environmental conditions with programmable functions, microprocessor design, data logging capability, intuitive calibration and a humidity sensor. The PHCbi microprocessor PID allows for accurate reproducible and flexible programming of all performance parameters and optimal energy management.