Plant Growth Chamber EZL-PG412 is designed with a unique ability to adapt to different research applications, providing an affordable and versatile solution for plant science. This unit is a closed cabinet with three side lights that operates at temperatures ranging from 0° to 60° C and humidity levels ranging from 30% to 98 percent. Controlled by a microprocessor PID controller and uniformity by a PT 100 sensor, it has a capacity of 768 liters and castor wheels for easy mobility. It also has three shelves for storing products while maximizing output and a 5.7-inch TFT color display for the user to easily read parameters.
| Chamber Capacity | 768 L |
|---|---|
| Illumination | Maximum 15,000 Lux |
| Temperature Range | 0°C to 60°C |
| Temperature Controller | Microprocessor PID controller |
| Humidity Range | 30% to 98%RH |
| Accuracy | ±0.5°C |
| Program | 10 step program microprocessor controlled |
| Shelves | 4 EA |
| Cooling Device | Hermetically sealed compressor (1/2 HP) |
| Humidifier | Evaporation by motor with SUS316 pipe heater |
| Humidity Lux Meter | LCD display with flexible cable |
| Humidity Illumination System | 7 step photo period control |
| Humidity Bank | 4 side wall with water proof tube |
| Display | 5.7” TFT-LCD color touch screen |
| Internal Material | 304 grade Stainless steel |
| External Material | Steel plate with GI powder coating |
| Shelves Construction | ABS coating |
| Door | Silicon magnetic safety double door |
| Supply Voltage & Frequency | AC230V, 50/60Hz |
| Internal Dimension (W×D×H) | 800 x 800 x 1,200 mm |
Precise environmental control based on required specifications
5.7” full touch LCD screen
Remote monitoring
Adjustable LED lighting
Real time monitoring of all control processes
Data export and import options
Data protection and security options
304 Stainless steel construction
Fully insulated doors
Temperature sensor and controller
Adjustable lighting options
Microprocessor based PID controller
This device is widely used for in plant biology, soil science and agriculture research and growth of rice and Arabidopsis.
