Mold incubator with temperature & humidity control NovaIncu MD250-I
Mold incubator with temperature & humidity control NovaIncu MD250-I
Features
- Combines a corrosion-resistant stainless steel chamber with a toughened glass observation window.
- Double-door structure enhances insulation, with an inner glass door for clear viewing.
- Reliable refrigeration unit provides consistent cooling with over/under-pressure protection.
- Achieves perfect temperature homogeneity through omnidirectional 3D heating.
- Unified control system manages temperature, humidity, and optional UV sterilization.
- Automated water supply with backup storage ensures uninterrupted humidification.
- Intelligent dynamic technology coordinates temperature and humidity controllers.
- Supports extended, complex testing protocols with 99-hour preset programming.
- Multi-level alarms cover sensor faults, parameter deviations, and water supply issues.
- Optional redundant safety temperature controller acts as a fail-safe.
Specifications
| Model | NovaIncu MD250-I | |
| Chamber volume(L) | 250 | |
| Temperature Control Range | 5℃~50℃ | |
| Temperature | Resolution | 0.1℃ |
| Fluctuation | ±0.5℃ | |
| Uniformity | ±1.5℃ at 37℃ | |
| controller | PID microprocessor control, soft touch, LED display | |
| Sensor | Pt 100 resistor | |
| Timer | Power-on, power off and working. Timing range: 1min-99hr | |
| Humidity range | 50%-90% | |
| Humidity | Accuracy | ±0.1%RH |
| Fluctuation | ±3%RH | |
| controller | PID microprocessor control, soft touch, LED display | |
| Sensor | Capacitor type | |
| Material | Internal | Mirror polished 304 stainless steel |
| External | Steel (powder coating) | |
| Dimensions (WxDxH,cm) | Internal | 55*50*90 |
| External | 70*75*158 | |
| Net Weight(Kg) | 140 | |
| Consumption Power(W) | 1380 | |
| Shelf Size(mm) | 528*480 | |
| Shelf Qty(Standard/Maximum) | 2/13 | |
| Power Supply | 220V/50Hz (Optional: 220V/60Hz, 110V/60Hz) | |
Introduction about incubator
For sensitive experiments, the physical vibrations and acoustic noise generated by an incubator can be non-trivial confounding factors. Vibrations primarily originate from two sources: the compressor in refrigerated/cooled models and the fan/motor in the convection or shaking system. These micro-vibrations can disrupt delicate processes such as the formation of fine protein crystals for X-ray crystallography, the growth of confluent monolayers of certain neuronal cells, or high-magnification time-lapse microscopy performed inside or adjacent to the incubator. Acoustic noise, from fans and compressors, can be a disturbance in quiet lab environments. Manufacturers address this through engineering solutions: using scroll compressors (quieter than piston compressors), isolating compressors from the main chamber with dampeners, designing balanced fan blades, and employing sound-insulating materials in the cabinet.
For vibration-sensitive applications, “quiet" or “low-vibration" models are marketed, often with specially designed drive systems for shakers. When placing an incubator, it should be on a level, stable surface, potentially with anti-vibration pads. For ultra-sensitive work, a dedicated room or bench isolated from other lab vibrations may be necessary. Acknowledging and mitigating these physical emissions is part of holistic experimental design.
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