NAVIGATOR / TWISTORR TURBOMOLECULAR PUMP
Agilent developed two innovative molecular drag stages technological platforms: TwisTorr and MacroTorr. Turbomolecular pumps are widely used in High Energy Physics, Fusion Technology and general UHV research. Synchrotron light Sources, Particle Accelerator Rings, UHV laboratory research, and Fusion reactors need extremely clean, reliable and cost effective HV and UHV.F Maintenance-free pumps are specifically required, because most pumps are not easily accessible.
FEATURES AND BENEFITS
- Agilent turbomolecular pumps are designed to offer unmatched reliability, performance and cleanliness for these applications. Ceramic bearing pumps, thanks to their reduced rolling friction, low stress and high thermal stability compared to conventional bearings, deliver longer operating life. Ultra low vapor pressure solid lubricant eliminates the need for maintenance and assures clean operation under any operating conditions.
- Furthermore, in contrast to most of the other pumps, all Agilent turbopumps have both the upper and the lower bearing in the rough vacuum side and not exposed to UHV, further reducing the possibility of contamination – even in case of misuse.
- The patented TwisTorr stages provide the highest speed and compression ratio in the smallest footprint; furthermore all Agilent turbopumps can truly be mounted in any orientation, from vertical to horizontal to upside down, aiding system design in the most stringent space requirements.
- Agilent turbopumps can operate at higher foreline pressures, allowing the use of dry roughing pumps, thus providing a completely clean, oil-free compact and cost effective pumping package.
- Whenever a large amount of gas has to be pumped and higher throughput is needed, the combination of TwisTorr pumps and TriScroll dry pumps is the state-of-the-art solution.
All Agilent turbopumps have integrated or on board controller versions allowing easy plug and pump operation, or a rack-mounted controller for applications where the electronics need to be remotely placed (i.e. radioactive environments).
PERFORMANCE:
| Turbo-V81T | Turbo-V81M | TwisTorr-84FS | TwisTorr-304FS | Turbo-V551 Navigator | Turbo-V701 Navigator | Turbo-V750 TwisTorr | Turbo-V850 TwisTorr |
Turbo-V1001 Navigator | Turbo-V2300 TwisTorr | Turbo-V1K-G | Turbo-V2K-G System | Turbo-V3K-G System | |||||||||||
| DN40 | DN63 | DN40 | DN63 | DN40 | DN63 | DN100 | DN160 | DN100 | DN160 | DN200 | DN100 | DN160 | DN200 | DN160 | DN200 | DN250 | DN250 | DN160 | DN200 | DN250 | DN250 | ||
| Pumping speed, l/s | Nitrogen | 50 | 77 | 50 | 77 | 56 | 67 | 250 | 250 | 350 | 550 | 690 | 370 | 700 | 750 | 790 | 950 | 1050 | 2050 | 810 | 1080 | 1600 | 2200 |
| Helium | 56 | 65 | 56 | 65 | 46 | 63 | 255 | 255 | 450 | 600 | 620 | 500 | 680 | 690 | 820 | 870 | 900 | 1800 | 950 | 1150 | |||
| Hydrogen | 46 | 50 | 46 | 50 | 40 | 53 | 220 | 220 | 450 | 510 | 510 | 470 | 580 | 590 | 860 | 900 | 920 | 1500 | 680 | 730 | |||
| Argon | 57 | 66 | 250 | 250 | 340 | 680 | 700 | 750 | 1040 | ||||||||||||||
| Compression ratio | Nitrogen | 7×108 | 3×108 | >1×1011 | >1×1011 | >1×109 | 1×109 | 1×1011 | 1×1011 | 1×109 | >8×108 | >5×107 | 3×105 | >1×107 | |||||||||
| Helium | 3×103 | 8×104 | 2.0×106 | >1×108 | 1×107 | 1×107 | 2×108 | 2×108 | 1×107 | 8×105 | >4×104 | ||||||||||||
| Hydrogen | 3×102 | 7×103 | 5.0×104 | 1.5×106 | 1×106 | 1×106 | 2.5×106 | 2.5×106 | 1×106 | 4×104 | 1.5×104 | ||||||||||||
| Argon | >1×1011 | >1×1011 | 1×1011 | 1×1011 | 5×108 | ||||||||||||||||||
| Base pressure, mbar | 5×10-9 | 5×10-10 | <8×10-10 | <1×10-10 | <1×10-10 | <1×10-10 | <1×10-10 | <1×10-10 | <1×10-10 | <1×10-10 | <1×10-10 | <1×10–8 | <1×10–9 | ||||||||||
| Startup time, min | < 1 | < 1 | <2 | < 3 | <5 | <5 | <6 | <3 | <4 | <6 | <5 | <7 | <6 | ||||||||||
| Rotational speed, rpm | 80,000 | 80,000 | 81,000 | 60,000 | 42,000 | 42,000 | 50,000 | 50,000 | 38,000 | 33,300 | 45,660 | 33,000 | 31,800 | ||||||||||
| Inlet flange, nominal diameter | KF, mm | 40 | 40 | 40 | |||||||||||||||||||
| CF, mm | 35 | 63 | 35 | 63 | 35 | 63 | 100 | 160 | 100 | 160 | 200 | 100 | 160 | 200 | 200 | 250 | |||||||
| ISO, mm | 63 | 63 | 63 | 100 | 160 | 160 | 200 | 160 | 200 | 160 | 200 | 250 | |||||||||||
| ISO-F, mm | 160-F | 200-F | 160 | 200 | 200-F | 250-F | 250-F | 160-F | 200-F | 250-F | 250-F | ||||||||||||
| Foreline flange, nominal diameter | KF | NW16 | NW16 | NW16 | NW16 (NW25 optional) | NW25 | NW25 | NW25 | NW25 NW40 |
NW40 | NW40 | NW25 | NW40 | NW40 | NW40 | ||||||||
| SEM version | V | V | V | V | |||||||||||||||||||
| Controllers | Rack | V | V | V | V | V | V | V | V | V | V | V | |||||||||||
| on board | V | V | V | V | V | V | V | V | |||||||||||||||
| Integrated electronics | V | V | V | V | |||||||||||||||||||
| PCB | V | V | V | ||||||||||||||||||||
Turbo-V 2K-G Turbomolecular Pump
The Turbo-V 2K.G is more than a pump – it is a dedicated pumping system, designed for the Plasma process industry. In fact, Its pumping stages and entire pump structure are optimized to work with very high Ar gas flows and temperatures. The additional features of on board electronics, integrated vent and purge valve and maintenance free bearings set make the Turbo-V 2K-G the optimum solution for the coating industry
FEATURES AND BENEFITS
- The first application-specific pumping solution designed for thin film deposition equipment
- The highest performing, most compact unit available
- The first fully integrated approach for maximum system productivity and uptime
- Integrated package includes Turbo Molecular Pump, Drive Electronics, Power Supply, Monitor, Purge Gas and Communication
- Versatile electronics interface with easy to use control Software
- Analog I/O signals and RS232 / RS485 interface as standard
- Varian Profibus® interface as option
Navigator Turbomolecular Pump
TwisTorr Turbomolecular Pump
