915MHz semiconductor microwave heating experimental device
FDU-301VP-01 915MHz Semiconductor Microwave Heating Experimental Device
Semiconductor microwave heating experimental device, oscillation frequency 915 MHz, ideal for the development and chemical synthesis of various battery materials. Individual control of electric and magnetic fields.
Semiconductor Microwave Heating Experimental Device. This is a semiconductor microwave power supply and heating test device that does not use a magnetron, designed with ease of use in mind, featuring a commercial power supply of AC100V and a desktop size. It is ideal for experiments in the development of various battery materials, chemical synthesis, reactions, low-temperature sintering, drying, and more. Additionally, it allows for testing in separate electric and magnetic fields. Compared to traditional heating methods such as electric furnaces, experiments can be conducted in a shorter time. The oscillation frequency (860 to 960 MHz, continuously variable) can be adjusted like tuning a radio. Options include pulse width modulation, FM modulation, AM modulation, frequency sweeping, PLL frequency generator, pattern operation of output power, linking with a computer, and performing vacuum, gas replacement, etc., using test tubes, quartz tubes, fluorine tubes, and more. Main specifications: Microwave output: 300W, oscillation frequency: 915MHz (860 to 960MHz, continuously variable), microwave output setting: in units of 0.1W, power supply input: single-phase AC100V 1kVA.
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basic information
Semiconductor Microwave Heating Experimental Device. This is a semiconductor microwave power supply and heating testing device that does not use a magnetron, developed with ease of use in mind, featuring a commercial power supply of AC100V and a desktop size. It is ideal for experiments in the development of various battery materials, chemical synthesis, reactions, low-temperature sintering, drying, and more. Additionally, it allows for testing in separate electric and magnetic fields. Compared to traditional heating methods such as electric furnaces, experiments can be conducted in a shorter time. The oscillation frequency (860-960 MHz, continuously variable) can be adjusted like tuning a radio. Optional features include pulse width modulation, FM modulation, AM modulation, frequency sweeping, PLL frequency generator, pattern operation of output power, linking with a computer, and performing vacuum, gas replacement, etc., using test tubes, quartz tubes, fluorine tubes, and more. The main specifications are microwave output: 300W, oscillation frequency: 915MHz (860-960MHz, continuously variable), microwave output setting: 0.1W increments, power supply input: single-phase AC100V 1kVA.
Price information
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Price range
P5
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Applications/Examples of results
Semiconductor Microwave Heating Experimental Device. This is a semiconductor microwave power supply and heating test device that does not use a magnetron, newly developed with ease of use in mind, featuring a commercial power supply of AC100V and a desktop size. It is ideal for experiments in the development, chemical synthesis, reactions, low-temperature sintering, and drying of various battery materials. Additionally, it allows for testing in separate electric and magnetic fields. Experiments can be conducted in a shorter time compared to conventional external heating methods like electric furnaces. The oscillation frequency (860–960 MHz, continuously variable) can be adjusted like tuning a radio. Optional features include pulse width modulation, FM modulation, AM modulation, frequency sweeping, PLL frequency generator, pattern operation of output power, linking with a computer, and the ability to perform vacuum, gas replacement, etc., using test tubes, quartz tubes, fluorine tubes, and more. The main specifications are microwave output: 300W, oscillation frequency: 915MHz (860–960MHz, continuously variable), microwave output setting: in 0.1W increments, power input: single-phase AC100V 1kVA.
Company information
Manufacturer of integrated equipment for high-frequency dielectric heating, microwave heating, and high-frequency induction heating.
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