The Leybold Power Supply TURBO.CONTROL 300 is a reliable power source designed specifically for frequency converters used in TURBOVAC turbomolecular vacuum pumps. This power supply ensures stable and efficient operation, supporting a wide range of high and ultra-high vacuum applications.
Product Features
- Leybold offers a broad range of high and ultra-high vacuum pumps, varying in principle of operation and application field
- Includes turbomolecular vacuum pumps from TURBOVAC and MAG series, diffusion vacuum pumps DIP, and cryo vacuum pumps COOLVAC series
- Key selection criteria: attainable ultimate pressure, required pumping speed, gas throughput, and compression
- TURBOVAC product lines differ by rotor suspension: mechanical (TURBOVAC), magnetic (TURBOVAC MAG), and hybrid (TURBOVAC i Series)
- Each line includes classic turbomolecular pumps and compound stage pumps allowing use of smaller backing pumps
- Electronic frequency converters essential for operating and controlling TURBOVAC turbomolecular pumps
- Frequency converters must match vacuum pump type; available as bench top, rack-mounted, or integrated units
- Multiple communication interfaces provided for system integration
- Power supply TURBO.CONTROL 300 designed to support these frequency converters
Note: Power Supply Units for Frequency Converters
Benefits
- Reliable power delivery ensures optimal performance of frequency converters and vacuum pumps
- Supports smooth and precise speed control for turbomolecular pumps
- Improves overall vacuum system stability and efficiency
- Reduces downtime and maintenance by providing consistent power
- Compatible with a wide range of pump models and system configurations
Why Choose Leybold Power Supply TURBO.CONTROL 300?
The TURBO.CONTROL 300 power supply is engineered for reliable, tailored power delivery to frequency converters in TURBOVAC vacuum pumps. Its robust design and compatibility ensure stable vacuum system operation in both research and industrial settings, making it an essential component for maintaining high and ultra-high vacuum environments.
