Plasma Systems
Plasma systems refer to technologies and setups that involve the use of plasma, which is a state of matter characterized by ionized gas containing free electrons and ions. In the context of physics and engineering, systems encompass a broad range of applications. Plasma, often called the fourth state of matter, is created by energizing a gas to the point where electrons are no longer bound to their atoms, resulting in a mixture of charged particles.
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Plasma systems are extensively used in fields such as plasma physics, materials processing, and advanced technologies. Plasma cutting and plasma arc welding are common applications in manufacturing, utilizing the high temperatures and kinetic energy of ionized gas for precise cutting or welding of materials. Plasma systems also find applications in space propulsion, where ion thrusters leverage the electrical conductivity of plasma to generate thrust efficiently. Moreover, systems play a vital role in various emerging technologies, including plasma TVs and medical devices, showcasing the versatility and importance of plasma in scientific and industrial advancements.
WORKING PRINCIPLE OF PLASMA SYSTEMS
The working principle of plasma systems revolves around the utilization of plasma, which is an ionized state of matter characterized by the presence of free electrons and ions. Plasma is generated by applying energy to a gas, causing its atoms to lose electrons and form a mixture of charged particles. In plasma systems, this ionized gas is harnessed for a variety of applications. In manufacturing, plasma cutting and welding systems leverage the intense heat and kinetic energy of plasma to precisely cut or join materials. Systems are also integral to space propulsion, where ion thrusters utilize the conductivity of plasma to generate efficient thrust. The working principle involves creating and controlling the conditions that induce and maintain plasma, allowing for the harnessing of its unique properties in diverse fields. From industrial applications to emerging technologies like plasma TVs, the working principle of systems underscores the versatility and significance of this state of matter in advancing scientific and technological frontiers.
What are the usage areas of plasma systems?
Systems find widespread applications across various industries, showcasing their versatility and utility in diverse fields. In manufacturing, plasma cutting and welding systems are extensively used for precise and efficient material processing. The high temperatures and kinetic energy of ionized gas in plasma enable the cutting of metals and alloys with exceptional accuracy, making these systems vital in industries ranging from automotive to construction. Additionally, systems play a crucial role in the field of space propulsion, where ion thrusters utilize plasma to generate thrust with remarkable efficiency in the vacuum of space. Plasma technology is also employed in the development of advanced materials, such as surface coatings and nanomaterial synthesis, benefiting industries focused on material science and engineering. In the realm of emerging technologies, plasma systems contribute to the creation of high-definition displays like plasma TVs. Moreover, plasma-based medical technologies, such as sterilization and tissue treatment, highlight the broad spectrum of applications, illustrating how plasma systems continue to impact and advance numerous scientific and industrial domains.
| Model | OPT-PC-2C |
| Power Supply | AC 220V 50Hz Single Phase |
| RF Power | Max. 1000W Normal working range is 0-150w adjustable |
| RF Frequency | 100 kHz |
| Float flow meter | 2 Channel |
| Vacuum Level | 0.3 mbar-1.0mbar |
| Dimensions | 450x400x350mm |
| Weight | 15kg |
| Chamber Size | Φ100 × 270mm |
| Chamber Material | 304 stainless steel |
| Vacuum pump | Rotary Vane Vacuum Pump |
Systems (plasma cleaning, plasma etching) systems are frequently used in fields such as MEMS, semiconductor, textile, plastic and ceramic technologies in order to remove, corrode or activate the surface of the organic substances on the surface of the object with the gas molecules taken into the chamber. The plasma cleaning method offers an environmentally friendly and low-cost solution for removing organic compounds from the surface by eliminating the need to clean the surface with chemicals. In the field of systems, our company offers Diener GmbH and Optosense brand plasma systems to users. Plasma systems are divided into two main groups, having RF or DC plasma generators. Diener Plasma systems can be preferred as either low pressure or atmospheric plasma.