Digital Hotplate NDH-300 provides a temperature range from RT to 300°C with an accuracy between ±1 and 2°C. It is built with a high-quality stainless steel panel for enhanced durability. This unit includes an integrated control knob for precise temperature adjustment. It comes with a lightweight design for easy handling and portability. Our digital hotplate includes a precisely molded heater to ensure uniform heating performance.
$2,000.00
Specifications
| Temperature Range | RT to 300°C |
| Temperature Accuracy | ±1 to 2°C |
| Power Consumption | 2800 W |
| Power Supply | 220V, 50Hz |
| Heating Surface Size | 600 × 400 mm |
| Dimensions | 600 × 400 × 220 mm |
| Packing Dimensions | 700 × 500 × 300 mm |
| Net Weight | 28 kg |
| Gross Weight | 40 kg |
Features
Applications
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FAQ for Digital Hotplate NDH-300
1: How does the Digital Hotplate NDH-300 ensure even temperature distribution?
The Digital Hotplate NDH-300 uses a specially molded heating element beneath a flat stainless steel panel, which ensures quick and uniform heat transfer across the working surface.
2: Can I use the Digital Hotplate NDH-300 with liquid-based experiments?
Yes, the Digital Hotplate NDH-300 can be used with liquid samples, but it's essential to avoid spillage into the internal cabinet to prevent damage to electrical components.
3: What installation precautions should I take with the Digital Hotplate NDH-300?
When installing the Digital Hotplate NDH-300, ensure a smooth and level surface for the heater, match the input voltage, and tightly secure all bolts and terminal connections to avoid issues from heat expansion.
4: What should I do if the Digital Hotplate NDH-300 stops functioning during use?
Immediately disconnect the Digital Hotplate NDH-300 from the power source and inspect for faults. Only resume use after the issue has been safely resolved by qualified personnel.
5: Can I operate the Digital Hotplate NDH-300 without placing any container or load on it?
The Digital Hotplate NDH-300 must not be operated empty or under dry conditions. Always ensure proper thermal contact with a suitable vessel to prevent overheating and potential damage to the equipment.
