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TN-MSP350S-RTP
TN
Introducing our state-of-the-art Short Distance Evaporation Coating Furnace, the ultimate tool for in-depth research and analysis of the new generation of thin films for solar cells. Designed with utmost precision and cutting-edge technology, this furnace is specifically tailored to meet the demands of studying CdTe, sulfide, and perovskite solar cells.
Our Short Distance Evaporation Coating Furnace is meticulously crafted to provide researchers and scientists with a professional-grade solution for their thin film studies. With its advanced capabilities, this furnace offers unparalleled accuracy and efficiency, ensuring reliable and reproducible results.
Featuring a robust construction, this furnace guarantees exceptional durability and longevity, allowing for prolonged usage without compromising performance. Its user-friendly interface and intuitive controls make it effortless to operate, enabling researchers to focus on their experiments rather than grappling with complex machinery.
Equipped with the latest evaporation coating technology, our furnace ensures precise deposition of thin films, enabling comprehensive analysis of solar cell materials. This cutting-edge feature empowers researchers to explore the potential of CdTe, sulfide, and perovskite solar cells, paving the way for groundbreaking advancements in renewable energy.
Furthermore, our Short Distance Evaporation Coating Furnace is designed to optimize energy efficiency, minimizing wastage and reducing environmental impact. This commitment to sustainability aligns with our dedication to creating innovative solutions that contribute to a greener future.
In conclusion, our Short Distance Evaporation Coating Furnace is the ultimate choice for professionals seeking to delve into the realm of new generation thin films for solar cells. With its exceptional features, unrivaled precision, and user-friendly interface, this furnace is the perfect companion for groundbreaking research in the field of solar energy. Invest in our furnace today and unlock the potential of CdTe, sulfide, and perovskite solar cells like never before.
5 inch short distance evaporation coating furnace Technical parameters:
Product name | 5 inch short distance evaporation coating furnace |
Product model | TN-MSP350S-RTP |
Structure | 1. Two temperature controllers are used to control the top and bottom heating elements respectively. A float flowmeter is installed to allow gas to flow into the vacuum chamber 2. Vacuum chamber: 350 mm Dia x 300 mm h, made of stainless steel Observation window: 100 mm diameter Opening mode: front door type 3. Vacuum flange is made of 316 stainless steel, electric lifting 4. Two 5"x5" IR heating plates with adjustable spacing. 5. The top sample holder can be rotated at a speed of 0-7 RPM |
Heating element and sample board | The heating element consists of 20 infrared lamps, which are located at the top and bottom The distance between the two heating tables can be adjusted by a DC motor In order to reduce heat radiation and achieve a faster cooling rate, the heating element is installed in a stainless steel housing with a water-cooled sandwich (stainless steel housing is made of 316 stainless steel). Aluminum nitride ceramic sheet (5"×5"×0.5mm thickness) with high thermal conductivity is used as the loading platform to achieve better heating uniformity A 5"×5" graphite crucible can be placed on the bottom loading table to hold the evaporated material When using this instrument, it is necessary to use a circulating water cooler (KJ-5300 type, 16L/min). |
Temperature control system | Two sophisticated temperature control systems independently control the upper and lower heating zones, which can be set up to 30 stages of cooling procedures Every temperature control system comes with ultra-mild break protection |
Thermoelectric couple | Two type K thermocouples, mounted on the top and bottom, are in contact with aluminum nitride ceramic sheets |
Operating temperature | Maximum temperature per heater: RT-950℃. Maximum temperature difference between two heaters: < = 300ºC depending on the distance between the two heaters: The maximum distance is 30mm. Temperature difference: 315ºC @ Heat the bottom only Sample speed: 1-20RPM |
Flowmeter | Two way float flowmeter 16 -160 mL/m 500 - 5000 mL/m |
Vacuum pump | Equipped with a molecular pump system, using one-click operation 600L/S, 1x10-5 Torr or more |
Voltage | 208V 60HZ three-phase |
Introducing our state-of-the-art Short Distance Evaporation Coating Furnace, the ultimate tool for in-depth research and analysis of the new generation of thin films for solar cells. Designed with utmost precision and cutting-edge technology, this furnace is specifically tailored to meet the demands of studying CdTe, sulfide, and perovskite solar cells.
Our Short Distance Evaporation Coating Furnace is meticulously crafted to provide researchers and scientists with a professional-grade solution for their thin film studies. With its advanced capabilities, this furnace offers unparalleled accuracy and efficiency, ensuring reliable and reproducible results.
Featuring a robust construction, this furnace guarantees exceptional durability and longevity, allowing for prolonged usage without compromising performance. Its user-friendly interface and intuitive controls make it effortless to operate, enabling researchers to focus on their experiments rather than grappling with complex machinery.
Equipped with the latest evaporation coating technology, our furnace ensures precise deposition of thin films, enabling comprehensive analysis of solar cell materials. This cutting-edge feature empowers researchers to explore the potential of CdTe, sulfide, and perovskite solar cells, paving the way for groundbreaking advancements in renewable energy.
Furthermore, our Short Distance Evaporation Coating Furnace is designed to optimize energy efficiency, minimizing wastage and reducing environmental impact. This commitment to sustainability aligns with our dedication to creating innovative solutions that contribute to a greener future.
In conclusion, our Short Distance Evaporation Coating Furnace is the ultimate choice for professionals seeking to delve into the realm of new generation thin films for solar cells. With its exceptional features, unrivaled precision, and user-friendly interface, this furnace is the perfect companion for groundbreaking research in the field of solar energy. Invest in our furnace today and unlock the potential of CdTe, sulfide, and perovskite solar cells like never before.
5 inch short distance evaporation coating furnace Technical parameters:
Product name | 5 inch short distance evaporation coating furnace |
Product model | TN-MSP350S-RTP |
Structure | 1. Two temperature controllers are used to control the top and bottom heating elements respectively. A float flowmeter is installed to allow gas to flow into the vacuum chamber 2. Vacuum chamber: 350 mm Dia x 300 mm h, made of stainless steel Observation window: 100 mm diameter Opening mode: front door type 3. Vacuum flange is made of 316 stainless steel, electric lifting 4. Two 5"x5" IR heating plates with adjustable spacing. 5. The top sample holder can be rotated at a speed of 0-7 RPM |
Heating element and sample board | The heating element consists of 20 infrared lamps, which are located at the top and bottom The distance between the two heating tables can be adjusted by a DC motor In order to reduce heat radiation and achieve a faster cooling rate, the heating element is installed in a stainless steel housing with a water-cooled sandwich (stainless steel housing is made of 316 stainless steel). Aluminum nitride ceramic sheet (5"×5"×0.5mm thickness) with high thermal conductivity is used as the loading platform to achieve better heating uniformity A 5"×5" graphite crucible can be placed on the bottom loading table to hold the evaporated material When using this instrument, it is necessary to use a circulating water cooler (KJ-5300 type, 16L/min). |
Temperature control system | Two sophisticated temperature control systems independently control the upper and lower heating zones, which can be set up to 30 stages of cooling procedures Every temperature control system comes with ultra-mild break protection |
Thermoelectric couple | Two type K thermocouples, mounted on the top and bottom, are in contact with aluminum nitride ceramic sheets |
Operating temperature | Maximum temperature per heater: RT-950℃. Maximum temperature difference between two heaters: < = 300ºC depending on the distance between the two heaters: The maximum distance is 30mm. Temperature difference: 315ºC @ Heat the bottom only Sample speed: 1-20RPM |
Flowmeter | Two way float flowmeter 16 -160 mL/m 500 - 5000 mL/m |
Vacuum pump | Equipped with a molecular pump system, using one-click operation 600L/S, 1x10-5 Torr or more |
Voltage | 208V 60HZ three-phase |
