P and S series products have integrated design for the heating plate, and the overall performance and inter-hole uniformity of the heating plate have been greatly improved. Product component of these two series products have strong commonality, therefore is easy to replace and maintain.
The heating block has two materials – graphite P and aluminum alloy S – for users to choose.
The furnace shell adopts front and rear isolation design, and its strong ventilation and cooling ensures the long-term and stable operation of the equipment.
The shell surface is equipped with over-temperature protection sensor, when the temperature of the surface is too high, it will alarm and stop to prevent accidents.
The table top is made of 304 brushed stainless steel, which has certain corrosion resistance and beautiful appearance.
The equipped digestive tube is made of 2mm high quality borosilicate glass with high transparency and durability.
The digestive tube holder is made of 304 stainless steel material, which is corrosion resistant and practical.
The intelligent temperature control system adopts 5-inch color touch screen, and the information displayed is detailed, and easy to understand and operate.
The input method of recipe program is tabular fast input method with clear logic, fast speed and not easy to go wrong.
0-40 sections of program can be arbitrarily selected and set.
Dual-mode of single point heating and curve heating that can be arbitrarily selected. Intelligent P, I, D self-adjustment with high precision, reliability and stability.
The electrical control system uses solid state relay (regulating module) for mute and strong anti-interference capability.
Segmented power supply and restart function to avoid power failure preventing potential risks.
Features of P series products
High-density graphite heating module is a product designed and created for samples that is difficult to digest. Its high temperature (the designed temperature may reach 550℃), good uniformity and small temperature buffer make it an ideal heating material.