Over the past 20 years, we''ve shipped more than 20,000 RF delivery systems with integrated solid-state matching networks built into those systems. These innovations met
The basic solid-state building block for power amplification and generation at RF and microwave frequencies is the RF power transistor. But before we look at details of its operation and use,
Solid-state RF power transistor devices represent the future of RF power generation. The end applications range from cooking to industrial heating, welding, drying and sealing equipment.
Solid-state RF systems have started to replace magnetrons within the following applications: Industrial heating and drying, Chemical processing, Plasma generation, Commercial cooking
Based on 50 V silicon LDMOS, this transistor extends the limits of solid-state RF generation, making the MRF13750H an attractive alternative to vacuum tubes for very high
What is the RF Energy Alliance''s role in advancing solid-state RF energy? The organization strives to monitor relevant existing and emerging markets, educate companies along the value chain and standardize relevant
What is the RF Energy Alliance''s role in advancing solid-state RF energy? The organization strives to monitor relevant existing and emerging markets, educate companies
Solid-state RF power transistor devices represent the future of RF power generation. The end applications range from cooking to industrial heating, welding, drying and
Achieving the same power levels as vacuum tubes requires combining the RF power of many transistors outputs. The RF combination strategy in SSPAs is traditionally
For a wide range of applications spanning from cooking and lighting, to medical and automotive and beyond, parallel advances in solid-state RF energy systems and
For a wide range of applications spanning from cooking and lighting, to medical and automotive and beyond, parallel advances in solid-state RF energy systems and semiconductors are poised...
A consortium that intends to advance today''s power and heating solutions by equipping engineers and designers with a transformative, cost-effective and highly efficient
The ability to generate and amplify RF signals using solid-state semiconductor devices is nothing new – this technology is the cornerstone of modern wireless
Solid-state RF systems have started to replace magnetrons within the following applications: Industrial heating and drying, Chemical processing, Plasma generation, Commercial cooking (restaurants, fast reheat and thawing),
Over the past 20 years, we''ve shipped more than 20,000 RF delivery systems with integrated solid-state matching networks built into those systems. These innovations met the critical industry need for ultra-fast tuning
Can you answer this question? The ability to generate and amplify RF signals using solid-state semiconductor devices is nothing new – this technology is the cornerstone of modern wireless communications. But solid-state RF energy has enormous potential beyond data transmission applications.
The basic solid-state building block for power amplification and generation at RF and microwave frequencies is the RF power transistor. But before we look at details of its operation and use, let us take a high-level look at the potential benefits of solid-state RF generators for ISM applications.
Magnetrons will eventually be replaced by solid-state RF power amplifier modules and controllers within the following applications: industrial heating and drying, plasma generation, chemical processing, commercial cooking (restaurants, fast re-heat and thawing) and, last but not least, consumer microwave ovens. What is Solid-State RF Energy?
Solid state generated RF power on the other hand has much better control, it’s very robust and barely degrades over time and it has become economical to implement. This added controllability is really the core advantage of the new technology.
RF energy denotes a novel energy source making use of high frequency electromagnetic energy to power all kinds of applications in a VERY controlled way. This is in contrast to “ordinary” energy sources like infrared radiation or convection heaters or microwave ovens where the control of energy is LIMITED when compared to a RF Energy source.
Nevertheless, as we shall see, the benefits they have ascribed to solid-state generators are (mostly) valid and can be valuably and immediately applied to a wide range of ISM applications. The basic solid-state building block for power amplification and generation at RF and microwave frequencies is the RF power transistor.
