oil bath NovaBath YWT-12A
Features
- All-stainless steel construction ensures durable,
corrosion-resistant chamber and lid.
- Engineered with a high-performance CPU for rapid, intelligent
temperature control.
- High-accuracy Pt resistance sensor guarantees laboratory-grade
temperature measurement.
- Versatile programmable timer enables complex, unattended 99-hour
operational cycles.
- Comprehensive multi-stage alarm system actively safeguards against
critical failures.
- Integrated parameter memory allows instant recall of frequently
used settings.
- System features calibration capability to ensure display accuracy
and traceability.
- Dynamic self-diagnostic technology continuously monitors hardware
for reliability.
- Ideal for applications requiring precise and repeatable thermal
conditions.
- Designed for minimal downtime with proactive fault detection and
alerts.
Specifications
| Model |
| NovaBath YWT-12A |
| Chamber Volume(L) | 12.5 |
| Temp. Control Range | 50℃~200℃ |
| Temperature | Resolution | 0.1℃(≤100℃);1℃(>100℃) |
| Fluctuation | ±1℃ |
| Uniformity | ±2℃ at 100℃ |
| Controller | PID microprocessor control, soft touch, LED display |
| Sensor | PT100 |
| Timer | Power-on, power off and working. Timing range: 1min-99hr |
| Material | Internal | 304 stainless steel |
| External | 08F |
| Dimensions (WxDxH,mm) | Internal | 250*250*200 |
| External | 350*350*380 |
| Net weight(Kg) | 14 |
| Consumption Power (W) | 600 |
| Power | 220V/50Hz (Optional: 220V/60Hz, 110V/60Hz) |
Introduction about water bath
Functioning as a controlled thermal chamber, a laboratory water
bath utilizes heated water to incubate samples for extended
periods. Its primary advantage lies in delivering heat more gently
and uniformly than air-based systems. The operational principle
involves an electric heater warming the water bath, with heat
distribution managed through convection or mechanical circulation.
This creates a stable, predictable environment crucial for
scientific work. Essential for reproducible results, these devices
prevent damage to delicate materials such as proteins. They are
foundational for tasks requiring consistent temperatures, including
reagent warming, culturing, and substrate melting, making them a
cornerstone in research and diagnostic laboratories.
