C12Cryopumps, Cryogenics LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 Contents C12.02 General Applications and Accessories Cryopumps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.03 Cold Heads . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.04 General Cryopumps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.05 Multiple-Operation of Refrigerator Cryopumps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.06 Regenerating Cryopumps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.06 Refrigerating Capacity of Cold Heads . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.07 Cold Heads . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.07 Compressor Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.09 Products Cryopumps Standard Cryopumps COOLVAC 800 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.10 Cryopumps with Fully Automatic Control ClassicLine COOLVAC 1.500 CL, 2.000 CL, 3.000 CL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.12 COOLVAC 5.000 CL, 10.000 CL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.18 COOLVAC 18.000 CL, 30.000 CL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.22 SemiLine COOLVAC 1500 SL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.24 System Controller SC / Power Supply PS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.25 Cryogenics Cold Heads Single Stage Cold Head COOLPOWER 120 T . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.28 Dual Stage Cold Heads COOLPOWER 7/25, 5/100 and 5/100 T . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.30 Compressor Units COOLPAK 4000/4200, COOLPAK 6000/6200. . . . . . . . . . . . . . . . . . . . . . C12.32 General Accessories for Compressor Units COOLPAK . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.34 Refrigerator Cryostats Based on RDK 6-320 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.35 Optical, based on RDK 6-320 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.36 Accessories Cryopumps / Cryogenics Controllers and Monitoring Units for Cryopumps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.38 COOLVAC ClassicLine, System Configuration Single Operation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.39 Dual Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.40 Dual and Mutiple Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.41 Modell 9700 Low Temperature Controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.42 MODEL 1901 Low Temperature Measuring Instrument . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.43 Temperature Sensors (Silicon Diode) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.44 Safety Valve. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.45 Precision Manometer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C12.45 Cryopumps, Cryogenics Conversion of Units Celsius, Fahrenheit, Kelvin Kelvin (abbreviated as K) is the unit of temperature. Temperatures on the Kelvin scale are converted into temperatures on the Celsius scale as follows: n °C ; (n + 273.15) K. Since the following equation applies between Celsius scale and Fahrenheit scale n °F ; 5/9 (n ­ 32) °C it follows that n °F ; 5/9 (n + 459.67) K. The inverse equations are as follows: m K ; (m ­ 273.15) °C m °C ; (1.8 m + 32) °F m K ; (1.8 m ­ 459.67) °F. The following applies in particular to absolute Zero: 0 K ; -273.15 °C ; -459.67 °F. 1 bar = 14.5 psi 1 MPa = 10 bar C12 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 Cryopumps, Cryogenics C12.03 Applications and Accessories, Cryopumps and Stirling Cooler UHV systems Beam tubes in particle accelerators Transfer chambers / Loadlock General research Evaporation coating systems Sputtering systems Ion implanters Metallization systems Space simulation chambers Electron beam welding systems x x x x x x x x ( x ) x x x x x x x x x x x x x x x x x x x x x x x x x ( x ) x x x x x x x x x x x x x x x x Accessories Cryo pum ps COOLVAC 5.000CL COOLVAC 10.000CL COOLVAC 18.000CL COOLVAC 30.000CL COOLPAK 4000/4200 compressor unit COOLPAK 6000/6200 compressor unit MODEL 1901 low temperature measuring instrument Temperature sensors (silicon diode) GD 2 gas manifold GD 4 gas manifold ( x ) = Only conditionally suited [ x ] = For dual operation only x x x x x [ x ] x x x x x x x x x x x x x x x x Page C12.32 C12.32 C12.43 C12.44 C12.34 C12.34 COOLVAC 3.000CL COOLVAC 2.000CL COOLVAC800COOLVAC 1.500CL COOLVAC 1.500SL Application LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 Cryopumps, Cryogenics C12.04 Applications and Accessories, Cold Heads Cooling of samples and detectors Cooling of superconductors Cooling of cryopanels Cleaning of gases Calibration of sensors Optical spectroscopy Infrared spectroscopy Matrix spectroscopy Testing of superconductors Cooling of superconducting magnets, coils and components HTC + LTC x x x x x x x x x x x x x x x x x x x x x x x x x x x Accessories Cold Heads COOLPOW ER 7/25 COOLPAK 4000/4200 compressor unit COOLPAK 6000/6200 compressor unit Modell 9700 low temperature controller MODEL 1901 low temperature measuring instrument Temperature sensors (silicon diode) x x x x x x x x x x x x x x x Page C12.32 C12.32 C12.42 C12.43 C12.44 COOLPOW ER 5/100 COOLPOW ER 120T COOLPOW ER 5/100T Application Cryopumps, Cryogenics C12.05 General LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Cryopumps The second stage of the cold head (7) is used to cool the cryopanels (8). Depending on the operating conditions, operating temperatures of 10 to 20 K are attained. Here the process of cryocondensation of N2, O2 and argon will take place. The active pumping surfaces are made of copper of high thermal conductivity and they are tightly linked thermally to the second stage of the cold head. H2, Ne and He are also adsorbed on to these surfaces which are partly covered with activated charcoal. All cryopumps from the COOLVAC range are equipped with a safety valve which is set in the factory so that it will open at an overpressure of 150 mbar (113 Torr). In order to be able to safely remove any gases which may present a health hazard when the safety valve responds, the valve is equipped with an additional DN 40 KF flange where an exhaust line is connected. The pump's body, all flanges and the safety valve are made of high-quality stainless steel. Upon request we will be pleased to mail you our special publication SO 182.04.02 "Benefits of modern refrigerator cryopumps in industrial processes and research". Cryopumps are gas entrapment vacuum pumps for the pressure range from 10-3 to < 10-11 mbar (0.75 x 10-3 to 0.75 x 10-11 Torr). The principle of operation is that gaseous substances are bound to the cold surfaces within the pump by means of cryocondensation, cryosorption or cryotrapping. In order to be able to produce a high or ultra high vacuum the cold surfaces (cryopanels) must be cooled to a sufficiently low temperature. Depending on the type of cooling system used a difference is made between refrigerator cryopumps, bath cryopumps and evaporator cryopumps. LEYBOLD manufactures only cryopumps which are cooled by means of a refrigerator. Advantages to the User Advantages offered by the Pumping Principle o High effective pumping speed for all gases o Extremely high pumping speed for water vapor For a given diameter of the high vacuum flange, the cryopump offers the highest pumping speed of all high vacuum pumps. Advantages offered by Design In contrast to gas transfer high vacuum pumps (mechanically suspended turbomolecular pumps, for example), cryopumps do not have any mechanically moving, oil, or grease lubricated parts on the vacuum side. The following advantages are a direct result of this design characteristic: o Hydrocarbon-free vacuum in the pressure range from 10-3 to < 10-11 mbar (0.75 x 10-3 to 0.75 x 10-11 Torr). o Insensitivity to mechanical disturbances from particles coming from the process or external vibrations. Further Advantages o Much more compact than comparable pump systems offering a pumping speed of over 1500 l x s-1 o Backing pump is only required during start-up and during regeneration o Easy process control and pump control via computer o Favorable price-to-performance ratio and low running costs especially at higher pumping speeds The cryopumps are cooled by the well-proven two-stage cold heads from LEYBOLĎs COOLPOWER line (Gifford/McMahon principle). The design of a refrigerator cryopump from the COOLVAC range is shown schematically in the figure below. The first stage of the cold head (9) cools the thermal radiation shield (5) and the baffle (6) of the pump. Depending on the type of pump and the operating conditions operating temperatures of 45 to 80 K are attained. Correspondingly water vapor condenses at this temperature. The thermal shield and baffle are made of copper which conducts heat very well so as to optimally utilize the refrigerating capacity which is availa- ble. Moreover, the thermal shield is metallized so that reflective losses will be minimal. 6 7 5 4 8 9 1 2 3 10 11 COOLVAC refrigerator cryopump 1 High vacuum flange 2 Pump body 3 Foreline flange 4 Safety valve with flange connection for connection of an exhaust line 5 Thermal radiation shield 6 Baffle 7 Second stage of the cold head 8 Cryopanels 9 First stage of the cold head 10 Helium gas connections 11 Cold head motor with housing and electrical connections GeneralCryopumps, Cryogenics C12.06 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 Regenerating Cryopumps An important aspect in the operation of cryopumps is that of regeneration. Since a cryopump is a gas entrapment pump, the gasses which have accumulated in the pump during the "pumping" mode must from time to time be removed from the pump. This is done by switching the compressor unit off and by warming up the cryopanels to room temperature or sightly higher so that the released substances can be pumped out by a forevacuum pump. Cryopumps without Electric Regeneration System The cryopump is warmed up to room temperature by purging the inside of the pump with a dry, pre-warmed inert gas (such as nitrogen). In this case it is not possible to set up defined and controlled temperatures within the cryopump. Thus the simultaneous presence of gases such as hydrogen and oxygen in the pump can not be entirely excluded. The formation of ignitable gas mixtures is only prevented by the diluting effect of the dry inert gas. Cryopumps with Fully Automatic Electric Regeneration System from LEYBOLD The cryopump is warmed up to room temperature by heating the 1st and 2nd stages of the cold head with electric heaters. In this case, a defined and controlled temperature distribution within the cryopump can be set up. This controlled warming process ensures that the pumped gases are removed sequentially, i.e. the pumped gases are released one after the other in the following sequence: o Gases adsorbed at the cryopanels (e.g. hydrogen, helium, neon), o Gases condensed at the cryopanels (e.g. nitrogen, oxygen, argon), o Gases and vapors which have condensed on to the baffle and thermal radiation shield (e.g. water vapor). The electric method of regeneration from LEYBOLD prevents gases such as hydrogen and oxygen from being present in the pump at the same time. This excludes the formation of ignitable gas mixtures right from the start. Multiple Operation of Refrigerator Cryopumps The powerful LEYBOLD compressor units COOLPAK 4000 D and 6000 D open up the possibility of operating two cold heads or refrigerator cryopumps simultaneously. Multiple operation means operation of several cryopumps with one compressor unit. Advantages to the User o Significantly reduced investment and operating costs o Small footprint The warming up process is fully automatic. Pressure and temperature distribution within the pump are set up and controlled by the control system at all times. The sequential regeneration of pumped gases prevents the formation of ignitable gases right from the start. This ensures the utmost safety during the regeneration of cryopumps from LEYBOLD. In the case of cryogenic pumps with fully automatic control there exist two cryo pump lines. 1. The COOLVAC ClassicLine (COOLVAC CL) offering the following pumping speed classes for nitrogen in l/s: 1500, 2000, 3000, 5000, 10.000, 18.0000 and 30.000; COOLVAC 1500 CL, for example. 2. The COOLVAC SemiLine (COOLVAC SL) offering a pumping speed for nitrogen of 1500 l/s: COOLVAC 1500 SL. The pumps of the ClassicLine offer total regeneration as standard and the COOLVAC 1500 SL offers in addition the possibility of fast regenera- tion. In the price list the designators "V" and "H" appear in connection with the pump designations. "H": The high-vacuum flange is located at the side and the cold head below, as is the case for the COOLVAC 1500 SL-H, DN 200 CF. "V": The high-vacuum flange is located at the top and the cold head below, as is the case for the COOLVAC 1500 CL-V, DN 200 CF. Installation orientations for the COOLVAC COOLVAC V High-vacuum flange at the top, cold head at the bottom COOLVAC H High-vacuum flange at the side, cold head at the bottom Cryopumps, Cryogenics C12.07 General LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Refrigerating Capacity of Cryogenic Cold Heads 2ndStageTemperature 0 5 10 15 20 25 30 35 0 20 40 60 80 100 120 140 K K 1st Stage Temperature 0W 1W 2W 3W 4W 8W 9W 10W 25W 35W 5W 6W 7W 10W 1st Stage Refrigeration Capacity 2nd Stage Refrigeration Capacity 0 10020 40 60 80 0 5 10 15 20 25 30 K K 120 140 0W 20W 40W 80W 120W 140W2W 4W 6W 8W 0W 2nd Stage Refrige- ration Capacity 1st Stage Refrigeration Capacity 60W 100W 10W 1st Stage Temperature 2ndStageTemperature 0 10020 40 60 80 0 5 10 15 20 35 40 K K 120 140 25 30 40W0W 2W 4W 6W 8W 10W 12W 80W 100W 120W 140W 2nd Stage Refriga- ration Capacity 1st Stage Refrigaration Capacity 1st Stage Temperature 2ndStageTemperature 0 10010 20 30 40 50 60 70 80 90 0 25 50 75 100 125 150 110 Temperature K W CoolingCapacity Typical refrigerating capacity of the cold head COOLPOWER 120 T Typical refrigerating capacity of the cold head COOLPOWER 7/25 Typical refrigerating capacity of the cold head COOLPOWER 5/100 Typical refrigerating capacity of the cold head COOLPOWER 5/100 T The refrigerating capacities stated apply to vertical operation with the cold end at the bottom. Cold Heads A refrigerator (cold head) is a gas cooling machine which operates on the basis of a thermodynamic cycle to produce cryogenic temperatures (T < 120 K). Refrigerators operating according to the Gifford/ McMahon principle have succeeded over other methods of cooling cryopumps and cryostats. It is thus employed exclusively by LEYBOLD. In order to account for individual requirements from customers, LEYBOLD offers customized cryostats as well. Gifford/McMahon- Refrigerators Advantages to the User o Low temperatures on a single key press o No liquid helium and no liquid nitrogen are required o Very simple to operate o High refrigerating capacity from a small volume o Easy process control and temperature control via a computer Advantages by Design o No space problems since cold head and compressor unit can be installed and operated apart o Installation of the cold head basically in any orientation o High reliability o Long periods of operation without maintenance GeneralCryopumps, Cryogenics C12.08 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 Typical Applications o Cooling of cryopanels in cryopumps thereby producing high or ultra high vacuum o Cooling of superconducting magnets; in magnetic resonance tomographs, for example o Cooling of samples and detectors; especially for cooling of ­ samples for spectroscopic analysis in the areas of solid state and surface physics ­ high temperature superconductors ­ superconductors and semiconductors ­ infrared and gamma detectors o Calibration of sensors Cold Heads from the COOLPOWER Range The standard range of single-stage and two-stage cold heads matches a wide range of applications. LEYBOLD is offering refrigerators with usable refrigerating powers of 120 W at 80 K (COOLPOWER 120, single-stage) and down to 3.5 W at 10 K (COOLPOWER 5/100 T; dual- stage). The cold heads basically consist of three subas- semblies: o Drive and control unit for the displacer o Displacer o First stage of the cold head (and second stage in the case of two-stage cold heads). Pneumatically driven Cold Heads Advantages o Simple Design The pneumatic drive system for the displacer of these cold heads from LEYBOLD consists of only two mechanically moving components: the rotating control valve and the synchronous motor driving the control valve. o Easy and quick maintenance All LEYBOLD cryopumps from the COOLVAC range are equipped with pneumatically driven LEYBOLD cold heads. Owing to the simple design of the built-in cold heads, maintenance is easy. Maintenance can be performed in place without detaching the cryopump from the vacuum chamber. Advantages Through High Reliability As to reliability, LEYBOLD cold heads are top per- formers. Especially high reliability is required for medical instrumentation, specifically in connection with nuclear spin tomographs. In this application cold heads are used to cool superconducting magnets and they are thus exposed to strong magnetic fields. The leading manufacturers of nuclear spin tomographs have therefore decided to use LEYBOLD cold heads to cool the superconducting magnets. 200 150 100 50 0 Q1 W T1 0 50 100 150 200 250 300 K 7/25 5/100 Refrigerating capacity as a function of temperature; operation in connection with the recommended compressor unit at 50 Hz; measured under standard acceptance conditions: Refrigerating capacity Q . 1 of the first stage as a function of temperature T1 of the first stage (2nd stage: Q . 2 = 0) 5/100 0 Q2 T2 0 50 100 150 200 250 300 K W 5 10 15 20 25 30 7/25 Refrigerating capacity Q . 2 of the second stage as a function of temperature T2, of the second stage (1st stage: T1 = 80 K = constant) Standard acceptance conditions: Cold head in a vacuum, 2nd cold stage thermally shielded by a radiation shield (high-gloss nickel-plated) attached to the 1st stage, thermal loading Q . simulated by electrical heating. . . 13 12 11 10 9 8 7 6 5 4 3 2 1 14 15 16 17 18 19 Dual-stage Gifford/McMahon cold head (schematic diagram) 1 Electrical connection and current lead-through for cold head motor 2 Helium high pressure connection 3 Helium low pressure connection 4 Cylinder, 1st stage 5 Displacement piston, 1st stage 6 Regenerator, 1st stage 7 Expansion volume, 1st stage 8 1st (refrigerator) stage (copper flange) 9 Cylinder, 2nd stage 10 Displacement piston, 2nd stage 11 Refrigerator, 2nd stage 12 Expansion volume, 2nd stage 13 2nd (refrigerator) stage (copper flange) 14 Vapor pressure measurement chamber 15 Control piston 16 Control volume 17 Control disc 18 Control valve 19 Cold head motor Cryopumps, Cryogenics C12.09 General LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 COOLPAK 4000 to 6000 compressors are available for single operation of the remaining cold heads from the COOLPOWER line as well as for multiple operation of cryopumps and cryostats. The period during which no maintenance will be required on the LEYBOLD compressor units depends on the service life of the adsorber. If the For the operation of Compressor unit Cold heads Cryopumps COOLPAK 4000 D 2 x COOLPOWER 7/25 2 x COOLVAC 800/1500/2000 COOLPAK 4000/4200 ­ 2 x COOLVAC 1500/2000 COOLPAK 6000 D 2 x COOLPOWER 7/25 2 x COOLVAC 1500/2000 up to 2 x COOLPOWER 5/100 1) 2 x COOLVAC 3000 COOLPAK 6000/6200 ­ up to 3 x COOLVAC 1500/2000 ­ 2 x COOLVAC 3000 1) at reduced power The possibilities for multiple operation of refrigerator cryo pumps are given in the following table: values for the ambient temperature and the cooling water entry temperature remain within the specified range, LEYBOLD guarantees a service life for the adsorber ­ and thus a period during which no maintenance will be required ­ of 18000 operating hours. o Measurement of electric and thermal transport quantities, as a function of the temperature, such as ­ electric and thermal conductance ­ electromotive force Especially in connection with: o Spectroscopic investigations in the infrared, visible and ultraviolet spectral ranges o Matrix spectroscopy o Moessbauer spectroscopy o Magneto-optic experiments Refrigerator Cryostats (Basic Units) Advantages to the User o Can be installed basically in any orientation thereby offering a high degree of flexibility in experimental arrangements o Can be set to any temperature within 10 and 320 K o High refrigerating capacity, constant tempera- tures o No liquid refrigerants are required o Very simple to operate o Temperature control without problems through standardized control- and connecting components o Possible high throughput of samples due to short cooldown and warming-up periods Typical Applications o Cooling of ­ high temperature superconductors ­ superconductors and semiconductors ­ infrared and gamma detectors UL Approval The LEYBOLD refrigerators in this catalog (consisting of compressor unit COOLPAK (4000/4200, 6000/6200, flex lines FL and the cold head COOLPOWER 2) meet ­ as complete systems the requirements of the Underwriter Laboratories (UL) as Recognised Components (Urus) as well as the approval cUR performed through the Underwriter Laboratories for the Canadian Standards Association. LEYBOLD refrigerators are listed under the UL/cUL reference number SA 8676. The marks as shown on the right for the entire system can only be found on the name plate of the compressor unit. C US 2) resp. formerly RGD Compressor Units CE Approval The LEYBOLD compressor units RW and COOLPAK meet the basic requirements regarding safety and health of the relevant EC directives. They carry on the name plates of the compressor units the following mark. Standard CryopumpsCryopumps C12.10 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 COOLVAC 800 COOLVAC 800 (160 ISO-K) COOLVAC 800 (160 CF) Advantages to the User o Hydrocarbon-free high vacuum o High capacity for argon and hydrogen o High pumping speed for water vapor, argon and hydrogen o Fast, safe and efficient regeneration with an electric regeneration system Typical Applications o Lamps and tubes manufacture o Transfer chambers / Loadlock o General research Advantages to the User o Hydrocarbon-free ultrahigh vacuum o High pumping speed for water vapor, nitrogen and hydrogen Typical Applications o Beam tubes in particle accelerators o UHV systems 130 59 DN 152 533 211 78 540 130 DN 158 222 Dimensional drawing for the COOLVAC 800 (160 ISO-K) Dimensional for the COOLVAC 800 (160 CF) Cryopumps C12.11 Standard Cryopumps LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Ordering Information COOLVAC 800 (ISO-K) COOLVAC 800 (CF) COOLVAC 800 Accessories compressor unit COOLPAK 4000 COOLPAK 4200 Power supply cable Connecting cable Compressor ­ cold head, 4,5 m Flexlines FL 4.5 (1/2", 1/2") or FL 9.0 (1/2", 1/2") and EL 4.5 (electric extension cable) MODEL 1901 low temperature measuring instrument Cable for the silicon diode, 10 m long Part No. 844160V1006 Part No. 844160V1002 Part No. 892 31 Part No. 892 31 Part No. 892 33 Part No. 892 33 see Ordering Information for the Compressor Units COOLPAK Part No. 400 000 323 Part No. 400 000 323 Part No. 892 87 Part No. 892 87 Part No. 892 88 Part No. 892 88 Part No. 893 74 Part No. 893 74 Part No. 136 45 Part No. 136 45 Part No. 500 085 Part No. 500 201 Technical Data COOLVAC 800 (ISO-K) COOLVAC 800 (CF) High vacuum flange DN Fore vacuum flange DN Flange for other purposes DN Safety valve with DN 40 FK flange connection for gas exhaust line Pumping speed H2O l x s-1 Ar/N2 l x s-1 H2/He l x s-1 Capacity Ar/N2 bar x l (Torr x l) H2 at 10-6 mbar bar x l (Torr x l) He bar x l (Torr x l) Built-in cold head COOLPOWER Max. throughput Ar/N2 mbar x l x s-1 (Torr x l x s-1) H2 mbar x l x s-1 (Torr x l x s-1) Crossover value mbar x l (Torr x l) Cool down time to 20 K min Overall height mm Weight kg (lbs) Silicon diode for temperature measurements at second stage of the cold head 160 ISO-K 160 CF 40 KF 40 CF 16 KF (1x), 25 KF (1x), 40 KF (1x) 40 CF (2x) burst disk welded-in mounted on DN 16 CF 2600 640/800 1000/300 270 (270 000) 4.3 (3225) 0.5 (375) 7/25 4 (3) 2 (1.5) 60 (45) 70 503 508 12 (26.5) 14 (30.9) built-in to a DN 25 KF with two-way built-in to a DN 16 CF with HV current feedthrough UHV feedthrough Cryopumps with Fully Automatic Control ClassicLineCryopumps C12.12 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 COOLVAC 1.500 CL COOLVAC 2.000 CL COOLVAC 3.000 CL COOLVAC 1.500 CL Advantages to the User o Hydrocarbon-free high vacuum o High capacity for argon and hydrogen o High crossover value o Simple operation o Trouble-free integration into complex systems o Fully automatic regeneration through Cryo Compact Control o Easy servicing Typical Applications o Evaporators o Sputtering systems o Ion implanters o Optical coating systems o Metallization systems 549 143 240 320 304 300 559 Dimensional drawing for the COOLVAC 1.500 CL (DN 200 ISO-K) Dimensional drawing for the COOLVAC 2.000 CL (DN 250 CF) Advantages to the User o Hydrocarbon-free high vacuum o High capacity for argon and hydrogen o High crossover value o Simple operation o Trouble-free integration into complex systems o Fully automatic regeneration through Cryo Compact Control o Easy servicing Typical Applications o Evaporators o Sputtering systems o Ion implanters o Optical coating systems o Metallization systems 345 370 604 Dimensional drawing for the COOLVAC 3.000 CL (DN 320 ISO-K) Advantages to the User o Hydrocarbon-free high vacuum o High capacity for argon and hydrogen o High crossover value o Simple operation o Trouble-free integration into complex systems o Fully automatic regeneration through Cryo Compact Control o Easy servicing Typical Applications o Evaporators o Sputtering systems o Ion implanters o Optical coating systems o Metallization systems COOLVAC 2.000 CL similar COOLVAC 3.000 CL similar Cryopumps C12.13 Cryopumps with Fully Automatic Control ClassicLine LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Technical Data COOLVAC 1.500 CL COOLVAC 2.000 CL COOLVAC 3.000 CL High vacuum (HV) flange DN Fore vacuum flange DN Flange for connection a gauge head DN Flange for the electrical connection DN Safety valve with flange connection for gas exhaust line DN 4-way current feedthrough for Si diode on a flange DN Heaters 1st stage W V AC 2nd stage W V AC Temperature sensor 1st stage 2nd stage Built-in cold head COOLPOWER Weight kg (lbs) Cooldown time to T2 = 20 K min Crossover value mbar x l (Torr x l) Pumping speed H2O l x s-1 Ar / N2 l x s-1 H2 l x s-1 Capacity Ar/N2 bar x l H2 at 10-6 mbar bar x l H2O bar x l Max. throughput Ar/N2 mbar x l x s-1 (Torr x l x s-1) H2O mbar x l x s-1 (Torr x l x s-1) Helium connections DN (Self-sealing couplings: outside thread, type 5400-S2-8) 200 ISO-K / 200 CF / 6" ANSI 250 ISO-K / 250 CF / 8" ANSI 320 ISO-K / 10" ANSI 25 KF 16 KF 40 KF 40 KF 16 KF 160 160 160 35 35 35 90 90 90 35 35 35 Pt 100 Si diode 7/25 25 (55.2) 25 (55.2) 35 (77.3) 90 60 80 180 (135) 250 (187) 250 (187) 4600 7000 10500 1000 / 1300 1600 / 2100 2400 / 2800 2300 3200 4500 1600 1400 2500 12 12 12 not applicable 190 460 14 (10.5) 12 (9) 15 (11.2) 8 (6) 6.5 (4.8) 10 (7.5) 1/2" 1/2" 1/2" Cryopumps with Fully Automatic Control ClassicLineCryopumps C12.14 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 Ordering Information COOLVAC 1.500 CL Single Operation Dual Operation Multiple Operation Europe USA/Japan Europe Europe USA/Japan Europe USA/Japan COOLVAC 1.500 CL DN 200 CF DN 6" ANSI DN 200 ISO-K Electronics and cables System Controller SC Power Supply PS 230 V, 1 ph. 200 V, 3 ph. Network communication cable ­ System Controller to the pump(s) 10 m 20 m Network PM cable for the link between the pumps 03 m 10 m Power supply cable from power supply to pump 10 m 20 m Remote control cable CP, 1 m Cable compressor ­ Power Supply 10 m 20 m Cable System Controller ­ Power Supply, 1 m Cable pump module PM ­ Power Supply 10 m 20 m Connecting cable compressor ­ pump, 4.5 m Compressors and flexlines Compressor CP 4000 D CP 4000 CP 4200 CP 6000 CP 6200 Accessories Water cooling discharge throttle Power supply cable for compressor Set of flexlines FL 4.5 (1/2", 1/2") or FL 9.0 (1/2", 1/2") and EL 4.5 (electric extension cable) Gas manifold GD 2 GD 4 The arrangement of the components is shown in the section "Accessories" under the heading "COOLVAC ClassicLine, System Components" Part No. Part No. Part No. 844200V0002 844200V0002 (2x) 844200V0002 (3x) 844200V0004 844200V0004 (2x) 844200V0004 (3x) 844200V0006 844200V0006 (2x) 844200V0006 (3x) 844 230 844 230 844 230 844 135 844 135 ­ ­ ­ ­ 844 235 844 235 844 235 844 261 844 261 844 261 844 262 844 262 844 262 ­ 844 256 844 256 (2x) ­ 844 258 844 258 (2x) ­ ­ 844 251 (2x) 844 251 (2x) 844 251 (3x) ­ ­ 844 252 (2x) 844 252 (2x) 844 252 (3x) ­ ­ 844 265 844 265 844 265 844 129 844 129 ­ ­ ­ 844 139 844 139 ­ ­ ­ 844 141 844 141 ­ ­ ­ 844 128 844 128 (2x) ­ ­ ­ 844 138 844 138 (2x) ­ ­ ­ 400 000 323 400 000 323 (2x) ­ ­ ­ 892 3000 ­ ­ ­ 892 31 ­ ­ 892 31 ­ ­ 892 33 ­ ­ 892 33 ­ ­ 892 36 ­ ­ ­ 892 37 840 000 133 840 000 133 840 000 133 see Ordering Information for the Compressor Units COOLPAK 892 87 892 87 (2x) 892 87 (2x) 892 87 (2x) 892 87 (3x) 892 88 892 88 (2x) 892 88 (2x) 892 88 (2x) 892 88 (3x) 893 74 893 74 (2x) ­ ­ ­ 891 02 891 02 891 02 ­ ­ ­ ­ 891 03 Cryopumps C12.15 Cryopumps with Fully Automatic Control ClassicLine LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Ordering Information COOLVAC 2000 CL Single Operation Dual Operation Multiple Operation Europe USA/Japan Europe Europe USA/Japan Europe USA/Japan COOLVAC 2000 CL DN 250 CF DN 8" ANSI DN 250 ISO-K Electronics and cables System Controller SC Power Supply PS 230 V, 1 ph. 200 V, 3 ph. Network communication cable ­ System Controller to the pump(s) 10 m 20 m Network PM cable for the link between the pumps 03 m 10 m Power supply cable from power supply to pump 10 m 20 m Remote control cable CP, 1 m Cable compressor ­ Power Supply 10 m 20 m Cable System Controller ­ Power Supply, 1 m Cable pump module PM ­ Power Supply 10 m 20 m Connecting cable compressor ­ pump, 4.5 m Compressors and flexlines Compressor CP 4000 D CP 4000 CP 4200 CP 6000 CP 6200 Accessories Water cooling discharge throttle Power supply cable for compressor Set of flexlines FL 4.5 (1/2", 1/2") or FL 9.0 (1/2", 1/2") and EL 4.5 (electric extension cable) Gas manifold GD 2 GD 4 The arrangement of the components is shown in the section "Accessories" under the heading "COOLVAC ClassicLine, System Components" Part No. Part No. Part No. 844250V0002 844250V0002 (2x) 844250V0002 (3x) 844250V0004 844250V0004 (2x) 844250V0004 (3x) 844250V0006 844250V0006 (2x) 844250V0006 (3x) 844 230 844 230 844 230 844 135 844 135 ­ ­ ­ ­ 844 235 844 235 844 235 844 261 844 261 844 261 844 262 844 262 844 262 ­ 844 256 844 256 (2x) ­ 844 258 844 258 (2x) ­ ­ 844 251 (2x) 844 251 (2x) 844 251 (3x) ­ ­ 844 252 (2x) 844 252 (2x) 844 252 (3x) ­ ­ 844 265 844 265 844 265 844 129 844 129 ­ ­ ­ 844 139 844 139 ­ ­ ­ 844 141 844 141 ­ ­ ­ 844 128 844 128 (2x) ­ ­ ­ 844 138 844 138 (2x) ­ ­ ­ 400 000 323 400 000 323 (2x) ­ ­ ­ 892 3000 ­ ­ ­ 892 31 ­ ­ 892 31 ­ ­ 892 33 ­ ­ 892 33 ­ ­ 892 36 ­ ­ ­ 892 37 840 000 133 840 000 133 840 000 133 see Ordering Information for the Compressor Units COOLPAK 892 87 892 87 (2x) 892 87 (2x) 892 87 (2x) 892 87 (3x) 892 88 892 88 (2x) 892 88 (2x) 892 88 (2x) 892 88 (3x) 893 74 893 74 (2x) ­ ­ ­ 891 02 891 02 891 02 ­ ­ ­ ­ 891 03 Cryopumps with Fully Automatic Control ClassicLineCryopumps C12.16 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 Ordering Information COOLVAC 3000 CL Single Operation Dual Operation Europe USA/Japan Europe Europe USA/Japan COOLVAC 3000 CL DN 10" ANSI DN 320 ISO-K Electronics and cables System Controller SC Power Supply PS 230 V, 1 ph. 200 V, 3 ph. Network communication cable ­ System Controller to the pump(s) 10 m 20 m Network PM cable for the link between the pumps 03 m 10 m Power supply cable from power supply to pump 10 m 20 m Remote control cable CP, 1 m Cable compressor ­ Power Supply 10 m 20 m Cable System Controller ­ Power Supply, 1 m Cable pump module PM ­ Power Supply 10 m 20 m Connecting cable compressor ­ pump, 4.5 m Compressors and flexlines Compressor CP 4000 CP 4200 CP 6000 D CP 6000 CP 6200 Accessories Water cooling discharge throttle Power supply cable for compressor Set of flexlines FL 4.5 (1/2", 1/2") or FL 9.0 (1/2", 1/2") and EL 4.5 (electric extension cable) Gas manifold GD 2 The arrangement of the components is shown in the section "Accessories" under the heading "COOLVAC ClassicLine, System Components" Part No. Part No. 844320V0004 844320V0004 (2x) 844320V0006 844320V0006 (2x) 844 230 844 230 844 135 844 135 ­ ­ ­ 844 235 844 235 844 261 844 261 844 262 844 262 ­ 844 256 ­ 844 258 ­ ­ 844 251 (2x) 844 251 (2x) ­ ­ 844 252 (2x) 844 252 (2x) ­ ­ 844 265 844 265 844 129 844 129 ­ ­ 844 139 844 139 ­ ­ 844 141 844 141 ­ ­ 844 128 844 128 (2x) ­ ­ 844 138 844 138 (2x) ­ ­ 400 000 323 400 000 323 (2x) ­ ­ 892 31 ­ ­ ­ ­ 892 33 ­ ­ ­ 892 46 ­ ­ ­ 892 36 ­ ­ ­ 892 37 840 000 133 840 000 133 see Ordering Information for the Compressor Units COOLPAK 892 87 892 87 (2x) 892 87 (2x) 892 87 (2x) 892 88 892 88 (2x) 892 88 (2x) 892 88 (2x) 893 74 893 74 (2x) ­ ­ 891 02 891 02 891 02 Cryopumps C12.17 Cryopumps with Fully Automatic Control ClassicLine LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Notes Cryopumps with Fully Automatic Control ClassicLineCryopumps C12.18 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 COOLVAC 5.000 CL COOLVAC 10.000 CL Advantages to the User o Hydrocarbon-free high vacuum o High capacity for argon and hydrogen o High crossover value o Simple operation o Trouble-free integration into complex systems o Fully automatic regeneration through Cryo Compact Control o Easy servicing Typical Applications o Evaporators o Ion implanters o Electron beam welding systems o Optical coating systems o Metallization systems COOLVAC 5.000 105 DN 400 ISO-K 450 640 COOLVAC 10.000 DN 500 ISO-K 550 105 704 Dimensional drawing for the COOLVAC 5.000 CL Dimensional drawing for the COOLVAC 10.000 CL Advantages to the User o Hydrocarbon-free high vacuum o High capacity for argon and hydrogen o High crossover value o Simple operation o Trouble-free integration into complex systems o Fully automatic regeneration through Cryo Compact Control o Easy servicing Typical Applications o Evaporators o Space simulation chambers o Electron beam welding systems o Optical coating systems o Metallization systems COOLVAC 5.000 CL COOLVAC 10.000 CL Cryopumps C12.19 Cryopumps with Fully Automatic Control ClassicLine LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Technical Data COOLVAC 5.000 CL COOLVAC 10.000 CL High vacuum (HV) flange DN Fore vacuum flange DN Flange for connection of a gauge head DN Flange for the electrical connection DN Safety valve with flange connection for gas exhaust line DN 4-way current feedthrough for Si diode on a flange DN Heaters 1st stage W V AC 2nd stage W V AC Temperature sensor 1st stage 2nd stage Built-in cold head COOLPOWER Weight kg (lbs) Cooldown time to T2 = 20 K min Crossover value mbar x l (Torr x l) Pumping speed H2O l x s-1 Ar / N2 l x s-1 H2 l x s-1 Capacity Ar/N2 bar x l H2 at 10-6 mbar bar x l H2O bar x l Max. throughput Ar/N2 mbar x l x s-1 (Torr x l x s-1) H2 mbar x l x s-1 (Torr x l x s-1) 400 ISO-K 500 ISO-K 40 KF 16 KF 40 KF 40 KF 16 KF 160 35 90 35 Pt 100 Si diode 5/100 42 (92.7) 50 (110.4) 120 160 700 (525) 800 (600) 18 000 30 000 3 700 / 5 000 8 400 / 10 000 5 200 12 000 3 000 5 000 32 40 790 not applicable 10 (7.5) 7 (5.3) Cryopumps with Fully Automatic Control ClassicLineCryopumps C12.20 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 Ordering Information COOLVAC 5.000 CL COOLVAC 10.000 CL Europe USA/Japan Europe USA/Japan COOLVAC 05.000 CL, DN 400 ISO-K 10.000 CL, DN 500 ISO-K Electronics and cables System Controller SC Power Supply PS 230 V, 1 ph. Network communication cable ­ System Controller to the pump(s) 10 m 20 m Cable compressor ­ Power Supply PS 10 m 20 m Cable System Controller ­ Power Supply, 1 m Cable pump module PM ­ Power Supply 10 m 20 m Compressors and flexlines Compressor CP 6000 CP 6200 Accessories Water cooling discharge throttle Power supply cable for compressor Set of flexlines FL 4.5 (1/2", 1/2") or FL 9.0 (1/2", 1/2") and EL 4.5 (electric extension cable) The arrangement of the components is shown in the section "Accessories" under the heading "COOLVAC ClassicLine, System Components" Part No. 844 410 ­ Part No. 844 610 Part No. 844 230 Part No. 844 230 Part No. 844 135 Part No. 844 135 Part No. 844 261 Part No. 844 261 Part No. 844 262 Part No. 844 262 Part No. 844 129 Part No. 844 129 Part No. 844 139 Part No. 844 139 Part No. 844 141 Part No. 844 141 Part No. 844 128 Part No. 844 128 Part No. 844 138 Part No. 844 138 Part No. 892 36 ­ Part No. 892 36 ­ Part No. 892 37 ­ Part No. 892 37 Part No. 840 000 133 Part No. 840 000 133 see Ordering Information for the Compressor Units COOLPAK Part No. 892 87 Part No. 892 87 Part No. 892 88 Part No. 892 88 Part No. 893 74 Part No. 893 74 Cryopumps C12.21 Cryopumps with Fully Automatic Control ClassicLine LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Notes Cryopumps with Fully Automatic Control ClassicLineCryopumps C12.22 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 COOLVAC 30.000 CL COOLVAC 30.000 CL Advantages to the User o Hydrocarbon-free high vacuum o High pumping speed for water vapor and nitrogen o Fast, safe and efficient regeneration with the electric regeneration system o Simple operation Typical Applications o Space simulation chambers o Evaporators o General research o Optical coating systems DN 658 608 30° 130 Dimensional drawing for the COOLVAC 30.000 CL COOLVAC 18.000 CL COOLVAC 18.000 CL with special flanges Advantages to the User o Hydrocarbon-free high vacuum o High pumping speed for water vapor and nitrogen o Fast, safe and efficient regeneration with the electric regeneration system o Simple operation Typical Applications o Space simulation chambers o Evaporators o Electron beam welding systems o Optical coating systems o Metallization systems DN 658 608 30° 130 Dimensional drawing for the COOLVAC 18.000 CL Cryopumps C12.23 Cryopumps with Fully Automatic Control ClassicLine LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Technical Data COOLVAC 18.000 CL COOLVAC 30.000 CL High vacuum flange DN Fore vacuum flange DN Flange with current feedthrough *) for silicon diode DN Flange for other purposes DN Safety valve with DN 40 KF flange connection for gas exhaust line Pumping speed H2O l x s-1 Ar/N2 l x s-1 H2/He l x s-1 Capacity Ar/N2 bar x l H2 at 10-6 mbar bar x l H2O bar x l Built-in cold head COOLPOWER Max. throughput Ar/N2 mbar x l x s-1 (Torr x l x s-1) H2 mbar x l x s-1 (Torr x l x s-1) Crossover value mbar x l (Torr x l) Cool down time to 20 K min Overall height min Weight kg (lbs) Silicon diode for temperature measurements at the second stage of the cold head Regeneration heaters at the first and second stage of the cold head 630 ISO-F 35" ANSI (892 mm) 63 ISO-K 63 ISO-K 25 KF (2x) 25 KF (2x), *) 2 way 40 KF 40 KF welded-in welded-in (2x) 46 000 93 000 13 500/18 000 25 000/30 000 14 000/4 000 30 000/7 000 5 000 6 500 65 120 945 ­ 5/100 (2x) 5/100 (2x) + 120 14 (10.5) 14 (10.5) 7 (5.25) 7 (5.25) 850 (638) 1200 (900) 180 260 606 711 65 (143) 245 (540) built-in (2x) built-in (2x) built-in (2x) built-in (2x) Ordering Information COOLVAC 18.000 CL COOLVAC 30.000 CL Cryopump COOLVAC 18.000 CL, 630 ISO-F COOLVAC 30.000 CL, 35" ANSI Accessories Compressor unit COOLPAK 6000 COOLPAK 6200 Power supply cable Set of flexlines FL 4.5 (1/2", 1/2") or FL 9.0 (1/2", 1/2") and EL 4.5 (electric extension cable) Compact Controller and cable kit upon request ­ upon request upon request (2x) upon request (3x) upon request (2x) upon request (3x) see Ordering Information for the Compressor Units COOLPAK Part No. 892 87 (2x) Part No. 892 87 (3x) Part No. 892 88 (2x) Part No. 893 74 (3x) Part No. 893 74 (2x) Part No. 893 74 (3x) upon request Cryopumps with Fully Automatic Control SemiLineCryopumps C12.24 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 COOLVAC 1500 SemiLine COOLVAC 1500 SL LEYBOLD, world-wide leader in vacuum and cryo technology has added a new cryopump system to meet the needs for current and future demands in state-of-the-art cryopump applications: COOLVAC 1500 SemiLine. This system is the unique cryopump technology that cuts "cold to cold" regeneration from several hours to 45 minutes or less. This significant reduction of regeneration time has been achieved by combining the COOLVAC 1500 SL cryopumps with a compact and intelligent control system that allows control and monitoring of up to 30 cryopumps by only a single control unit. COOLVAC 1500 SemiLine system is designed for a high level of tool integration. The cryopumps can easily be adapted to the process chambers because of their proven drop-in compatibility. For remote control the cryopump system can be fully integrated to the equipmenťs host computer via the standard RS 232 C interface of the System Controller SC. Existing tools can be upgraded fast and without any modifications because the system has proven their "plug and play" compatibility to other cryopump systems. COOLVAC 1500 SemiLine system is uniquely designed for a simple and fast entire service and maintenance procedure direct on the process chamber. A complete displacer change is done within 20 minutes without breaking the vacuum connection. After cryopump maintenance no leak check and no vacuum or process requalification is required. Advantages to the User o Qualified at all major OEM's o Drop-in compatible to all major equipments o Higher flexibility and availability of the process system o Increased productivity and improved yield o No extra tool downtime caused by regeneration o Lowest Cost of Ownership Typical Applications COOLVAC 1500 SemiLine system should be used wherever production time, optimized quality, higher tool availability and improved CoO are important issues. In particular, the overall equipment performances of o Sputtering (PVD) Systems o Ion Implanters o Vacuum Coating Systems o Transfer Chambers o Load Lock Chambers can be increased significantly. Design Features o "Fast Regeneration" capability from "cold to cold" in 45 minutes or less. During the fast regeneration of the COOLVAC 1500 SL only the second stage of the pump is regenerated. Consequently, "Fast Regeneration" is synonymous with the regeneration of all gases pumped by the cryo's second stage, e.g. H2, Ar, N2, O2. o "Total Regeneration" capability from "cold to cold" in about 2.5 hours. During the total regeneration of the COOLVAC 1500 SL the second stage as well as the first stage of the pump are regenerated and all gases are released, e.g. H2, Ar, N2, O2 as well as H2O and other easily condensable gases. o The fast as well as the total regeneration cycle is optimized with respect to - time - safety - cleanness of the pump. Only with clean pumping surfaces can a low base pressure, maximum pumping speeds and capacities be attained. o Easy to operate - only one compact control unit for up to 30 pumps - simple push button operation - fully automatic regeneration - complete monitoring of pump operation 470 597 220 149 294 Dimensional drawing for the COOLVAC 1500 SL 149 294 470 597 220 Cryopumps C12.25 Cryopumps with Fully Automatic Control SemiLine LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 o Easy to integrate - compatible pump sizes and connectors to replace other cryopumps - drop-in tool compatibility at all major equipments - designed to be fully integrated to the equipmenťs host computer via the standard RS 232 C interface - optional network and 24 V DC interface capabilities o Electrical heaters for regeneration only - no expensive and complex purge gas system - sequential regeneration of all pumped gases - better control of the regeneration cycles - highest safety standards during regeneration o Suitable for multiple operation - up to 30 COOLVAC 1500 SL cryopumps can be operated by one compact System Controller SC. - up to 3 COOLVAC 1500 SL cryopumps can be supported by one multiple Power Supply PS. - up to 3 COOLVAC 1500 SL cryopumps can be supported by one Compressor Unit CP. o Easy to service - displacer exchange is possible without removing the COOLVAC from the production system. - back-up pool needs just displacer rather than expensive pumps - Extended service and maintenance intervals - data collection for service and trend analysis o All known features of cryopumps are maintained: - high pumping speeds and capacity for H2O, H2, Ar, N2 - high crossover values - hydrocarbon-free vacuum System Controller SC Power Supply PS System Controller SC for COOLVAC 1500 SL Power Supply PS for COOLVAC 1500 SL Design Features o 1/4 19" rack module o 3 height units o Dimensions (W x H x W) 106 x 129 x 178 mm Design Features o 19" rack module o 4 height units o Dimensions (W x H x W) 435 x 190 x 440 mm The intelligent COOLVAC System Controller SC automatically controls and monitors up to 30 COOLVAC pumps. Online monitoring, help functions and a service interface for easy diagnostic are just a few user friendly features. It can be installed as a "stand alone system" or remote controlled via an interface. The COOLVAC Power Supply PS provides the power for the cold head motor, the electrical heaters and the supplies voltage to the electronics for up to 3 COOLVAC pumps. Controlled via the System Controller SC the PS turns the compressor unit on and off if required by the connected pumps. Cryopumps with Fully Automatic Control SemiLineCryopumps C12.26 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 Technical Data COOLVAC 1500 SL High vacuum (HV) flange DN Fore vacuum flange Regeneration valve Pumping speed H2O / Ar / H2 l x s-1 O2 l x s-1 Ultimate pressure mbar Capacity for Ar bar x l H2 at 10-6 mbar bar x l H2O bar x l Max. pumping speed for Ar / N2 mbar x l x s-1 (sccm) H2 mbar x l x s-1 (sccm) Crossover value mbar x l (Torr x ) Recovery time from 10 mTorr to 5 x 10-7 Torr s Regeneration times Fast regeneration (cold to cold, 2nd stage at 20 K) min Total regeneration (cold to cold, 2nd stage at 20 K) min Warm-up from operating temperature to 300 K min Cool-down from 300 K up to operating temperature min Fast regeneration cycles between total regeneration Noise, measured at 1 m (3 ft.) radius from the pump dB(A) Heaters 1. stage W V AC 2. stage W V AC Temperature measurement 1. stage 2. stage Built-in coldhead COOLPOWER Weight kg (lbs) DN 200 CF DN 25 KF DN 40 KF 4600 / 1300 / 2500 1600 5 x 10-10 1800 16 190 14 (840) 6 (360) 210 (160) < 4 < 50 < 170 < 30 < 80 > 50 < 70 160 35 90 35 Pt 100 Si diode 7/25 25 (55.2) Cryopumps C12.27 Cryopumps with Fully Automatic Control SemiLine LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Ordering Information COOLVAC 1.500 SL Single Operation Dual Operation Multiple Operation Europe USA/Japan Europe Europe USA/Japan Europe USA/Japan COOLVAC 1.500 SL DN 200 CF other flanges Solenoid fore-vacuum valve, DN 25 KF with electric valve position indicator and for 24 V DC supplies Electronics and cables System Controller SC Power Supply PS 230 V, 1 ph. 200 V, 3 ph. Network communication cable ­ System Controller to the pump(s) 10 m 20 m Network-PM cable between the pumps 03 m 10 m Power supply cable for the pump 10 m 20 m Remote control cable CP, 1 m Cable compressor ­ Power Supply 10 m 20 m Cable System Controller ­ Power Supply, 1 m Cable pump module PM ­ Power Supply 10 m 20 m Connecting cable compressor ­ pump, 4.5 m Compressors and flexlines Compressor CP 4000 D CP 4000 CP 4200 CP 6000 CP 6200 Accessories Water cooling discharge throttle Power supply cable for compressor Set of flexlines FL 4.5 (1/2", 1/2") or FL 9.0 (1/2", 1/2") and EL 4.5 (electric extension cable) Gas manifold GD 2 GD 4 The arrangement of the components is shown in the section "Accessories" under the heading "COOLVAC ClassicLine, System Components" Part No. Part No. Part No. 844 212 844 212 (2x) 844 212 (3x) upon request upon request (2x) upon request (3x) 287 46 287 46 (2x) 287 46 (3x) 844 230 844 230 844 230 844 135 844 135 ­ ­ ­ ­ 844 235 844 235 844 235 844 261 844 261 844 261 844 262 844 262 844 262 ­ 844 256 844 256 (2x) ­ 844 258 844 258 (2x) ­ ­ 844 251 (2x) 844 251 (2x) 844 251 (3x) ­ ­ 844 252 (2x) 844 252 (2x) 844 252 (3x) ­ ­ 844 265 844 265 844 265 844 129 844 129 ­ ­ ­ 844 139 844 139 ­ ­ ­ 844 141 844 141 ­ ­ ­ 844 128 844 128 (2x) ­ ­ ­ 844 138 844 138 (2x) ­ ­ ­ 400 000 323 400 000 323 (2x) ­ ­ ­ 892 3000 ­ ­ ­ 892 31 ­ ­ 892 31 ­ ­ 892 33 ­ ­ 892 33 ­ ­ 892 36 ­ ­ ­ 892 37 840 000 133 840 000 133 840 000 133 see Ordering Information for the Compressor Units COOLPAK 892 87 892 87 (2x) 892 87 (2x) 892 87 (2x) 892 87 (3x) 892 88 892 88 (2x) 892 88 (2x) 892 88 (2x) 892 88 (3x) 893 74 893 74 (2x) ­ ­ ­ 891 02 891 02 891 02 ­ ­ ­ ­ 891 03 Cold HeadsCryogenics C12.28 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 COOLPOWER 120 T Single Stage Cold Heads COOLPOWER 120 T single stage cold head 105 105 M4 165 178 12 01 M 071 CP120T 250 12,7 129 6,2 115 Advantages to the User o For installation mostly in any orientation o High refrigerating capacity o No liquid refrigerants are required o Very simple to operate o Short cooldown time Typical Applications o Cooling of cryopanels in cryopumps and thus generation of high vacuum and ultra high vacuum pressures o Cooling of samples and detectors; especially for cooling of - samples for spectroscopic investigations in solid state and surface physics - high temperature superconductor and semiconductor conditions - infrared and gamma detectors o Calibration of sensors Dimensional drawing for the COOLPOWER 120 T Cryogenics C12.29 Cold Heads LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Technical Data COOLPOWER 120 T Refrigeration capacity at 50/60 Hz 1) 1st stage at 80 K, approx. W 2st stage at 20 K, approx. W Lowest attainable temperature 1) K Cooldown time down to 20 K min Permissible ambient temperature °C He filling pressure at room temperature bar He connections Self-sealing screwed connections High pressure connection Low pressure connection Weight kg (lbs) Length of the electrical connection line to the compressor unit m 120 25 15 55 10 to 40 16 1/2" (#8 2)) 1/2" (#8) 13 (29) 15 Ordering Information COOLPOWER 120 T Cold head COOLPOWER 120 T Accessories Compressor unit (for operation of one cold head) COOLPAK 6000, 400 V/50 Hz; 470 V/60 Hz COOLPAK 6200, 200 V/50 Hz; 200 V, 230 V/60 Hz Power supply cable Set of flexlines FL 4.5 (1/2", 1/2") or FL 9.0 (1/2", 1/2") Options Temperature measurement Silicon diode MODEL 1901 low temperature measuring instrument Measuring cable 1) The refrigerating capacities and temperatures stated apply to vertical operation with the cold end at the bottom 2) Series 8 from Aeroquip Part No. 103 59 Part No. 892 36 Part No. 892 37 see Ordering Information for the Compressor Units COOLPAK Part No. 892 87 Part No. 892 88 Part No. 890 89 Part No. 136 45 see Ordering Information for the MODEL 1901 low temperature measuring instrument Cold HeadsCryogenics C12.30 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 COOLPOWER 7/25, 5/100 and 5/100 T Dual Stage Cold Heads COOLPOWER 7/25 dual stage cold head A B Ansicht A Ansicht B 30° 6x60° 45° 8 x 45° 47,5 125,5 69 87 innen 75,5 490 M4 40 60 M4 x 7 82,1 3 ca. 120 ca. 120 6 135 18 Dimensional drawing for the COOLPOWER 7/24 Advantages to the User o For installation in any orientation o High refrigerating capacity o No liquid refrigerants are required o Very simple to operate o Short cooldown time Typical Applications o Cooling of cryopanels in cryopumps and thus generation of high vacuum and ultra high vacuum pressures o Cooling of samples and detectors; especially for cooling of - samples for spectroscopic investigations in solid state and surface physics - high temperature superconductors - superconductors and semiconductors - infrared and gamma detectors 135 108,5 80 110 19 47,5 6 27 92,2 115 6 32,2 129 474,5 149 117,5 105 40 60 105 M4 13,5° 13,5° 128,7 127 47,5 130 129 Dimensional drawing for the COOLPOWER 5/100 and COOLPOWER 5/100 T o Calibration of sensors o Cooling of accelerator components in the area of high energy physics o Cooling of superconducting magnets; in nuclear magnetic resonance tomographs, for example (only COOLPOWER 5/100 and 5/100 T) COOLPOWER 5/100 dual stage cold head, COOLPOWER 5/100 T similar View A View B ID 75.5 ca. = approx. Cryogenics C12.31 Cold Heads LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Technical Data COOLPOWER 7/25 5/100 5/100 T Refrigeration capacity at 50/60 Hz 1) 1st stage at 80 K, approx. W 2st stage at 20 K, approx. W 1st stage at 10 K, approx. W 2st stage at 40 K, approx. W Lowest attainable temperature 1) 1st stage, approx. K 2nd stage, approx. K Cooldown time of the 2nd stage to 20 K, approx. min 1st stage to 80 K, approx. min 2nd stage to 10 K,, approx. min 1st stage to 40 K, approx. min 2nd stage to 6 K,, approx. min 1st stage to 30 K,, approx. min Permissible ambient temperature °C He filling pressure at room temperature bar He connections Self-sealing screwed connections High pressure connection Low pressure connection Weight kg (lbs) Length of the electrical connection line to the compressor unit (included with cold head) m 25 100 100 7 5 7.5 ­ ­ 3.5 ­ ­ 35 35 35 28 10 10 6 20 20 20 20 20 20 ­ ­ 35 ­ ­ 30 ­ ­ 45 ­ ­ 40 5 to 40 16 1/2" (#8 2)) 1/2" (#8) 11 (24.3) 4.5 Ordering Information COOLPOWER 7/25 5/100 5/100 T Cold head COOLPOWER 7/25 COOLPOWER 5/100 COOLPOWER 5/100 T Accessories Connecting cable Compressor ­ cold head, 4.5 m Compressor unit (for operation of one cold head) COOLPAK 4000 COOLPAK 4200 COOLPAK 6000 COOLPAK 6200 Power supply cable Set of flexlines FL 4.5 (1/2", 1/2") or FL 9.0 (1/2", 1/2") and EL 4.5 (electric extension cable) Options Temperature measurement / control Silicon diode MODEL 1901 low temperature measuring instrument Measuring cable Electrical heaters Modell 9700 low temperature controller Measuring cable, 3 m long 1) The refrigerating capacities and temperatures stated apply to vertical operation with the cold end at the bottom 2) Series 8 from Aeroquip Part No. 842 040 ­ ­ Part No. 893 05 ­ ­ Part No. 129 78 Part No. 400 000 323 included with the cold head included with the cold head Part No. 892 31 ­ Part No. 892 33 ­ ­ Part No. 892 36 Part No. 892 36 ­ Part No. 892 37 Part No. 892 37 see Ordering Information for the Compressor Units COOLPAK Part No. 892 87 Part No. 892 88 Part No. 893 74 Part No. 890 89 Part No. 136 45 see Ordering Information for the MODEL 1901 low temperature measuring instrument upon request Part No. 842 400 Part No. 842 401 Compressor UnitsCryogenics C12.32 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 COOLPAK 4000/4200, COOLPAK 6000/6200 61 36 448 511 70 146 199 407 440 152 51 230 528 Dimensional drawing for the COOLPAK 4000/4200 and COOLPAK 6000/6200 Advantages to the User o Highly effective and even more powerful when connected with LEYBOLD cryopumps and refrigerators o Excellent long-term reliability owing to the modular design and the longlife components o Silent and low vibration operation through scroll compressors o Easy to install and operate o Global power supply compatibility o Easy integration in complex systems due to 24 V DC or RS 232 C interfaces o Almost maintenance-free o Small footprint o Low cost of ownership Compressor units COOLPAK 4000/4200/(COOLPAK 6000/6200, COOLPAK 6000 MD/6200 MD similar) Cryogenics C12.33 Compressor Units LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Technical Data COOLPAK 4000 COOLPAK 4200 COOLPAK 6000 COOLPAK 6200 50 Hz 60 Hz 50 Hz 60 Hz 50 Hz 60 Hz 50 Hz 60 Hz Number of electrical connections for cold heads Helium system filling pressure at room temperature bar Ambient temperature °C Cooling-water consumption 1) l/min Cooling-water entry temperature °C Main voltage (3 phase) upon delivery V alternative setting V Operating currents with the cold head cool A with the cold head warm A Electrical power consumption with the cold head cool kW with the cold head warm kW Remote control via interface Helium connections Self-sealing couplings High pressure side Low pressure side Water connections Sound level (at 1 m distance) dB(A) Dimensions (W x H x D) mm Weight kg (lbs) 1 1 1 1 14 13 14 13 15 14 14 13 5 to 40 5 to 40 5 to 40 5 to 40 3.5 3.5 5.0 5.0 5 to 25 5 to 25 5 to 25 5 to 25 400 ­ 200 200 2) 400 ­ 230 3) 230 10% 10% + 10% - 5% 10% - 10% 10 % ­ 470 230 3) 230 ­ 470 200 200 10% - 10% 10% 10% 10% 10% 6.4 to 7.4 6,2 to 7,3 14.6 to 16.5 13.8 to 17.0 9.5 to 10.5 9.0 to 10.0 15.5 to 22.0 16.0 to 23.0 8.5 8.1 18.3 19.5 13.7 12.0 25.0 25.0 3.8 to 4.5 4.2 to 5.3 4.0 to 4.6 4.4 to 5.3 6.0 to 6.5 6.5 to 6.9 5.5 to 6.2 5.9 to 6.7 5.3 5.8 5.3 5.9 8.2 8.7 7.6 7.8 24 V DC or RS 232 C 24 V DC or RS 232 C 24 V DC or RS 232 C 24 V DC or RS 232 C 1/2" 1/2" 1/2" 1/2" 1/2" 1/2" 1/2" 1/2" Hose nozzle DN 12 / G 1/2" outside thread Hose nozzle DN 12 / G 1/2" outside thread 53 53 53 53 440 x 589 x 511 440 x 589 x 511 440 x 589 x 511 440 x 589 x 511 93 (205) 93 (205) 94 (207) 94 (207) Ordering Information Compressor unit without power supply cable Single cold head operation Dual cold head operation Power supply cable 3.5 m, CEE plug, 32 A/6h, 3 pole + N + PE 3.5 m, NEMA plug, L 16-20 P, 20 A/480 V, 3 pole + PE (AWG 12) 3.5 m, NEMA plug, L 15-20 P, 20 A/250 V, 4 pole - PE (AWG 12) 10 m, with end splice (AWG 10) Spare part Adsorber CACP 4000/6000 1) At a cooling water entry temperature of 25 °C 2) 10% at 12 bar filling pressure 3) At 13 bar filling pressure 4) COOLPAK 4000 D 5) COOLPAK 6000 D Part No. 892 31 Part No. 892 33 Part No. 892 36 Part No. 892 37 Part No. 892 3000 4) ­ Part No. 892 46 5) Part No. 893 95 ­ ­ Part No. 893 95 ­ ­ Part No. 893 96 ­ ­ Part No. 893 96 ­ Part No. 840 110 ­ ­ Part No. 840 111 ­ Part No. 840 111 Part No. 893 52 Part No. 893 52 Part No. 893 52 Part No. 893 52 COOLPAK 4000 COOLPAK 4200 COOLPAK 6000 COOLPAK 6200 Europe USA/Japan USA/Japan Europe USA/Japan USA/Japan Compressor UnitsCryogenics C12.34 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 General Accessories for Compressor Units COOLPAK Technical Data Length Connections on both sides (inside thread) High pressure line Low pressure line Ordering Information Flexlines 1), 2) FL 4.5 (1/2", 1/2") FL 9.0 (1/2", 1/2") Adaptor AD (1/2" m, 3/4" f) AD (1/2" f, 3/4" m) Elbow 1/2" Coupling 1/2" Gas manifold GD 2 (for dual operation) 2) GD 4 (for dual operation) 2) EL 4.5 extension cable for linking cold head and compressor unit 2) All flexible pressure lines, adaptor pieces, bends, isolating pieces, line couplings and gas manifolds are equipped with self-sealing Aeroquip fittings and filled in the factory with high-purity helium gas (purity: 99.999 %). The filling pressure is 16 bar 1) Minimum bending radius: 30 cm 2) Only suited for pneumatically driven cold heads and cryopumps Part No. 892 87 Part No. 892 88 Part No. 892 89 Part No. 892 90 Part No. 891 73 Part No. 891 71 Part No. 891 02 Part No. 891 03 Part No. 893 74 Adaptor Outside thread (m) Inside thread (f) Connections Outside thread (m) Inside thread (f) Connections on both sides Outside thread (m) Number of Gas manifold - Connections gas distributors At the compressor (inside thread) At the cold head (outside thread) Length 4.5 m 1/2" 1/2" 9.0 m 1/2" 1/2" 1/2" 3/4" 3/4" 1/2" 1/2" 1/2" 1/2" 1/2" 1/2" 2 1/2" 2 x 1/2" 4 1/2" 4 x 1/2" 4.5 m Flexlines 1), 2) FL 4.5 (1/2", 1/2") FL 9.0 (1/2", 1/2") Accessories for Flexlines Adapter for flexlines AD (1/2" m, 3/4" f) AD (1/2" f, 3/4" m) Elbow 1/2" for flexlines Isolating piece 1/2" for flexlines Coupling 1/2" for interconnecting two 1/2" flexlines Gas manifold for dual operation 2) (consisting of two Tees) GD 2 (for dual operation) GD 4 (for up to quad operation) EL 4.5 extension cable for linking cold head and compressor unit Cryogenics C12.35 Refrigerator Cryostats LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Refrigerator Cryostats based on the RDK 6-320 The RDK 6-320 basic unit includes the COOLPOWER 5/100 T two-stage cold head. Its high refrigerating capacity at low temperatures permits experiments which previously could not be performed by relying on refrigerators and which required the use of liquid helium. The RDK 6-320 basic unit is a complete system for measurements in the temperature range between 6 and 320 K. The COOLPOWER 5/100 cold head is augmented by: o Silicon diode for measuring the temperatures at the second stage of the cold head o Heater at the second stage of the cold head provided with overheating protection o 11-way current feedthrough with matching external connector o DN 25 KF pumpdown port o DN 160 ISO-K vacuum flange 274,5 232 1 42,5 124 130 30,2 233 30° RDK 6-320 basic unit Isolating Vacuum A two-stage rotary vacuum pump will normally be adequate to produce an isolating vacuum. However, this pump should be equipped on the suction side with an adsorption trap and a isolation valve. If the application requires that the cold surfaces remain free of hydrocarbons, we recommend the use of our small turbomolecular pump system PT 50 (see Product Section C10). Advantages to the User o Compact o Very reliable o Comprehensive range of accessories from one source o For installation in any orientation o Simple to operate o Short cooldown time o Cost-effective in long-term experiments since no liquid helium is required o Simple and rapid servicing through the use of the standard COOLPOWER 5/100 cold head with pneumatic drive system for the displacer Typical Applications o Cooling of samples and detectors o Material research and testing o Spectroscopic applications o Matrix isolation spectroscopy with neon and argon General Remarks on Refrigerator Cryostats Temperature Measurement In order to avoid measurement errors due to thermal resistances, the temperature at the sample should preferably be measured by a second optional silicon diode which is installed as close to the sample as possible. If possible it should be maintained at the same temperature level as that of the probe. Temperature Control The temperature at the second stage of the cold head (or that of the probe) is controlled by heating against the cooling effect produced by the refrigerator (while the cold head is running). Refrigerator CryostatsCryogenics C12.36 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 Optical Refrigerator Cryostat based on the RDK 6-320 130 317 145 269 4 26 80 60 Dimensional drawing for the optical refrigeration cryostat Upgraded as an optical cryostat (option) the RDK 6-320 is tailor-made for experiments involving temperatures down to about 7 K. Supplied Equipment o Basic unit RDK 6-320 o Temperature attenuation disk out of Pb Sn o Sample holder out of Al 99.5 o Thermal radiation shield out of E-Cu o Vacuum jacket out of aluminum / stainless steel o Five exchangeable windows (four windows on the sides, one window in the longitudinal axis of the cryostat); two windows on the sides and the window in the longitudinal axis are made of SUPRASIL I, the two other windows are blanked off and are made of brass 15 26 Suprasil I Scheibe Blind- platte 86 86 37,8° Section through the window area Suprasil I window Blank panel Cryogenics C12.37 Refrigerator Cryostats LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Technical Data RDK 6-320 Temperature range 2nd stage of the cold head K 1st stage of the cold head K Silicon diode for temperature measurements at the 2nd stage of the cold head Heater at the 2nd stage of the cold head Heating power W Heating current A Heating voltage V DC Permissible ambient temperature °C He filling pressure at room temperature bar He connections Self-sealing screwed connections High pressure connection (outside thread) Low pressure connection (outside thread) Length of the connection cable to the compressor unit m Weight kg (lbs) 6 to 320 28 to 320 built-in built-in 50 1 50 5 to 40 16 1/2" 1/2" 4.5 (included) 13 (28.7) Ordering Information RDK 6-320 Basic unit RDK 6-320 Optical cryostat consisting of RDK 6-320 and Expansion Kit ROK Accessories Compressor unit COOLPAK 6000, 400 V/50 Hz; 470 V/60 Hz COOLPAK 6200, 200 V/50 Hz; 200 V, 230 V/60 Hz Power supply cable Flexlines FL 4.5 (1/2", 1/2") Temperature measurement at 2nd stage with Modell 9700 low temperature controller Measuring cable, 3 m long Part No. 842 403 Part No. 842 404 Part No. 892 36 Part No. 892 37 see Ordering Information for the Compressor Units COOLPAK Part No. 892 87 Part No. 842 400 Part No. 842 401 Accessories for CryopumpsCryopumps, Cryogenics C12.38 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 System Controller COOLVAC SC Advantages to the User o Interface to external system controller o For easy integration with external system controllers o For safe pumping of hydrogen Typical Applications o For automated operation of the COOLVAC cryopums of the ClassicLine and the SemiLine Ordering Information System Controller Power Supply PS for up to 2 Cryo pumps for up to 3 Cryo pumps Part No. 844 230 Part No. 844 135 Part No. 844 235 Controllers and Monitoring Units for Cryopumps Design Features o 1/4 19" rack module o 3 height units o Dimensions (W x H x D) 106 x 129 x 178 mm o Operation through pushbuttons The intelligent COOLVAC System Controller SC automatically controls and monitors up to 30 COOLVAC pumps. Online monitoring, help functions and a service interface for easy diagnostic are just a few user friendly features. It can be installed as a "stand alone system" or remote controlled via an interface. System Controller COOLVAC SC Power Supply PS for up to Two Cryopumps Design Features o 19" rack module o 3 height units o Dimensions (W x H x D) 485 x 135 x 320 mm The System Controller COOLVAC SC (not included) will fit into the empty space. The COOLVAC Power Supply PS provides the power for the cold head motor, the electrical heaters and the supplies voltage to the electronics for up to 2 COOLVAC pumps. Controlled via the System Controller SC the PS turns the compressor unit on and off if required by the connected pumps. Power Supply PS for up to Three Cryopumps Design Features o 19" rack module o 4 height units o Dimensions (W x H x D) 435 x 190 x 440 mm o Single LED indicates correct direction of rotation for the rotating field Power supply PS Power supply PS The COOLVAC Power Supply PS provides the power for the cold head motor, the electrical heaters and the supplies voltage to the electronics for up to 3 COOLVAC pumps. Controlled via the System Controller SC the PS turns the compressor unit on and off if required by the connected pumps. Cryopumps, Cryogenics C12.39 Accessories for Cryopumps LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 COOLVAC ClassicLine, Single System Configuration SC COOLVAC # 1 PM RS 232 C PS COMPRESSOR External PC 1 4 2 35 6 Key to the diagram "Single System Configuration" PM = Pump Module (included with the pump) SC = System Controller PS = Power Supply 1 = e. g. Part No. 844 262 2 = e. g. Part No. 844 139 3 = e. g. Part No. 844 138 4 = Part No. 400 000 323 5 = Part No. 844 141 6 = to be provided by the customer Accessories for CryopumpsCryopumps, Cryogenics C12.40 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 COOLVAC ClassicLine, Dual System Configuration COOLVAC # 2 PM SC COOLVAC # 1 PM RS 232 C PS COMPRESSOR for dual operation External PC 1 4 2 3 5 6 3 4 7 Only for European mains voltages and for compressors suited for dual operation Key to the diagram "Dual System Configuration" PM = Pump Module (included with the pump) SC = System Controller PS = Power Supply 1 = e. g. Part No. 844 262 2 = e. g. Part No. 844 139 3 = e. g. Part No. 844 138 4 = Part No. 400 000 323 5 = Part No. 844 141 6 = to be provided by the customer 7 = e. g. Part No. 844 256 Cryopumps, Cryogenics C12.41 Accessories for Cryopumps LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 COOLVAC ClassicLine, Dual and Mutiple System Configuration COOLVAC # 3 PM COOLVAC # 2 PM SC COOLVAC # 1 PM RS 232 C PS External PC 1 7 8 8 9 6 8 77 COMPRESSOR Key to the diagram "Dual and Mutiple System Configuration" PM = Pump Module (included with the pump) SC = System Controller PS = Power Supply 1 = e. g. Part No. 844 262 6 = to be provided by the customer 7 = e. g. Part No. 844 256 8 = e. g. Part No. 844 252 9 = Part No. 844 265 AccessoriesCryopumps, Cryogenics C12.42 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 Modell 9700 Low Temperature Controller Modell 9700 low temperature controller Advantages to the User o Microprocessor controlled PID controller o Digital temperature readout in Kelvin o Control by means of counter heating o High control accuracy over the entire temperatur range (1.5 to 450 K) o Electric heating power up to 50 W o Programmable heater power limit o Generation of linear temperature ramps o Up to 50 program steps are programmable o Standard interface RS 232 C and IEEE-488 o Data from two sensors can be displayed o Analogue temperature outputs for both channels o Can be used in three operating modes ­ Manual ­ Program ­ External computer control Typical Applications o Temperature control at refrigerator cryostats Technical Data Modell 9700 Mains connection, 50/60 Hz V AC Power consumption, max. W Entry of data Data memory Display Temperature measurement Sensors Measurement current A Measurement range K Measurement range of the silicon diode type D K Number of channels Resolution A/D converter resolution bit Switching outputs Temperature resolution K Temperature control Heating power, max. W Heating current, max. A Heating voltage, max. V DC Computer interface Permissible ambient temperature °C Mechanical design/cabinet Dimensions (W x H x D) [high H without feet] mm Weight kg (lbs) Dimensions of the packaging (W x H x D) mm Weight (including packaging, approx.) kg (lbs) Length of mains cord m 85-240 150 3 x 4 membrane key pad EPROM Two line, 20 digit LED digital display 2 x silicon diodes type D or 2 x silicon diodes with standard temperature resistance characteristics 10 1.5 to 450 1.4 to 325 K 2 Simultaneous display of both channels 24 2 relays (n.o. and n.c. contacts) 0.1 PID controller 50 1 0 to 50 RS 232 C and IEEE-488 + 10 to + 30 Table-top unit (8.5" x 3.5" x 12") 215.9 x 88 x 304.8 2.3 (5) 360 x 230 x 450 4.2 (9.3) 2.5 Ordering Information Modell 9700 Modell 9700 low temperature controller Sensor cable, 3 m long Silicon diode type D with connection cable and miniature plugs Part No. 842 400 Part No. 842 401 Part No. 890 89 Cryopumps, Cryogenics C12.43 Accessories LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 MODEL 1901 Low Temperature Measuring Instrument MODEL 1901 low temperature measuring instrument Dimensions and panel cut-out for the MODEL 1901 Advantages to the User o Supports one silicon diode o 3-digit LED display o Temperature readout between 1 and 450 Kelvin o Two trigger thresholds o RS 232 C interface Typical Applications o Temperature measurements on cryostats o Temperature measurements on cryopumps for monitoring their operation and to control pump systems Technical Data MODEL 1901 Measurement current A Display Temperature range K Resolution Accuracy Power supply voltage Trigger thresholds Switched output RS 232 C interface Admissible ambient temperature °C Mechanical design/housing Dimensions (W x H x D) mm Packaging dimensions (W x H x D) mm Weight (including packaging) kg (lbs) 10 LED, 3-digits 1.5 to 450 0.1 K from 1.5 to 99.9 K 1.0 K from 100 to 450 K 0.1 K from 1.5 to 99.9 K 1.0 K from 100 to 450 K 9 V DC @ 500 mA through the supplied 220 V AC / 9 V DC power adaptor 2 2 relays (n.c. and n.o.) a) Temperature output b) External adjustment of switching thresholds +10 to +35 Benchtop unit 95.3 x 47.8 x 134.1 320 x 180 x 120 1.5 (3.3) Ordering Information MODEL 1901 MODEL 1901 low temperature measurement instrument HV cable with plug, 10 m long *) UHV cable with plug, 10 m long *) Silicon diode, type D, with connecting cable and micro plugs - without current feedthrough HV current feedthrough on a flange DN 25 KF, 2 way UHV current feedthrough on a flange DN 16 KF, 2 way *) for COOLPOWER and COOLVAC pumps Part No. 136 45 Part No. 500 085 Part No. 500 201 Part No. 890 89 Part No. 200 19 256 Part No. 500 217 AccessoriesCryopumps, Cryogenics C12.44 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 Temperature Sensors 2,9 3,8 0,76 8 600 mm long Dimensional drawing for the silicon diode, type D In contrast to vapor pressure thermometers, electric temperature sensors can be used for continuous measurements within a wide range of temperatures. Silicon diodes offer a negative temperature coefficient of resistance, i.e. their resistance drops as the temperature increases. The slope of the temperature/resistance characteristic and the absolute resistance are decisive regarding the suitability of these diodes. The slope determines the sensitivity of the sensor and a high electrical resistance permits accurate measurements while keeping the thermal load small (microwatts). In systems which are degassed at high temperatures, silicon diodes can only be fitted after degassing has been completed. The type D silicon diode is compatible to the MODEL 1901 low temperature display unit. Technical Data Type D Silicon Diode Temperature range K Temperature coefficient (dR/dT) qualitative quantitative /K Measurement current A Bakeable to °C 1.4 to 325 Negative in the entire temperature range Non-linear characteristic 10 60 Ordering Information Type D Silicon Diode Temperature Sensors Part No. 890 89 Standard characteristic of the silicon diode Cryopumps, Cryogenics C12.45 Accessories LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004 C12 Safety Valve / Precision Manometer 32 28 DN 16 KF Typical Applications o Protecting sealed vacuum systems like cryopumps, cryostats, lifting devices, for example against internal overpressures o Mandatory for systems which are separated when cold, as a means of protection against overpressures Typical Applications o Pressure readout for vapor pressure thermo- meters 160 2000 0 50 226 DN 10 KF 133 Technical Data Safety Valve Precision Manometer Responding pressure mbar Flow at 140 mbar l x h-1 Valve disk Leak rate in the closed state mbar x l x s-1 (Torr x l x s-1) Connection DN Measurement range mbar (Torr) Accuracy Diameter mm Length of the dial mm Internal volume, approx. cm3 Overall height mm Weight kg (lbs) 120 to 160, over-pressure ­ 500 Spring loaded, with O-ring seal < 1 x 10-8 (< 0.75 x 10-8) ­ 16 KF 10 KF ­ 0 to 2000 (0 to 1500) ­ 1 % of full scale 32 160 ­ 320 ­ 20 28 226 0.3 (0.7) 1.4 (3.1) Ordering Information Safety Valve Precision Manometer Safety valve on DN 16 KF flange Precision manometer Part No. 890 39 ­ Part No. 890 50 Technical Information For operation and measurements at pressures exceeding 1013 mbar the small flange seal must be equipped with an outer centering ring Part No. 183 53. Dimensional drawing for the safety valve Dimensional drawing for the precision manometer Cryopumps, Cryogenics C12.46 LEYBOLD VACUUM PRODUCTS AND REFERENCE BOOK 2003/2004