Keyword Part Number:
Ideal Vacuum AnalyzaVAC Residual Gas Analyzer (RGA), 1-100 AMU without Electron Multiplier, Faraday Cup Detector, AutoZ+ Basic Software Included. Please read carefully before ordering (click here)This listing is for the sale of the Ideal Vacuum AnalyzaVAC Residual Gas Analyzer with the following components: Ideal Vacuum AnalyzaVAC RGA 1-100 AMU scan range. Faraday cup detector. Built-in Pirani gauge for rough vacuum measurement. Built-in hot cathode ion gauge for high vacuum measurement. Conflat (CF) 2.75” mounting flange. Also includes: 24 VDC universal power supply (120/240 VAC input) and 6’ cable. USB to DB-9 male RS-232 serial communication cable, 1’ long. DB-9 male to female RS-232 serial extension cable, 25’ long. CF 2.75” copper gasket and bolt kit. Ideal Vacuum AutoZ+ basic version software. The Ideal Vacuum AnalyzaVAC RGA is a compact mass spectrometer that can assist in determining the identity and concentration of residual gases inside a vacuum chamber. It can be used for leak detection, outgassing analysis, feed gas quality control in coating and etching applications, process troubleshooting, and more. The AnalyzaVAC RGA probe has a built in Pirani gauge and Bayard Alpert hot cathode gauge that protect it from operating at unsuitably high pressures, reducing system complexity and preventing costly maintenance. Each system comes complete with a quadrupole probe, control and communications unit (CCU), AutoZ+ Basic software for Microsoft Windows® 10, and all necessary cables for power and communication. The AnalyzaVAC operates by ionizing the gases present at the probe tip using electrons emitted thermionically by dual field-replaceable thoriated iridium filaments. The resulting cations are separated by mass-to-charge ratio using a combination of varying radio frequencies and DC voltages applied to the quadrupole filter. The positively charged ions travel down the center of the quadrupole and are either amplified by an electron multiplier or detected directly by the faraday cup detector at the end of the probe. Each gas produces a unique spectral fingerprint which is a combination of the natural isotopic abundance of its elements and molecular fragmentation caused by the RGA’s high-energy electron ionization. The RGA is designed for continuous operation at total pressures below 1×10-6 Torr, and optimally around 2×10-7 Torr. Operation of the RGA at higher pressures leads to dramatically reduced ionizer, filament, and quadrupole lifetime. The built-in pressure gauges are used both internally and in AutoZ+ software to prevent fatal damage to the RGA (in most cases). While the RGA probe may be mounted directly into a high vacuum chamber, it is best practice to isolate the RGA from the chamber using a length of tubing and an isolation valve. This prevents contamination or accidental damage when the chamber is vented, or when a new sample or equipment is introduced. If the RGA is used to measure gases in a rough vacuum chamber, the RGA should be kept in a small separate chamber with its own high vacuum pumping system connected to the main chamber via a leak valve. Ideal Vacuum offers RGA kits with all necessary equipment to safely measure gases at pressures up to 1000 torr. All AnalyzaVAC probes come with a Faraday cup detector which provides repeatable, quantitative, highly linear detection down to 1.5×10-12 Torr**. The optional electron multiplier increases the sensitivity to a staggering 6×10-15 Torr** for qualitative measurements. Both the standard and an electron multiplier equipped detectors have 0.5 AMU resolution at 10% peak height (or better) when properly calibrated. Ideal Vacuum’s non-expiring basic AutoZ+ software is a Windows 10 application, that can control any AnalyzaVAC RGA system from a desktop or laptop computer. AutoZ+ gives the operator the power to control all acquisition parameters. AutoZ+ provides real-time data streaming and allows users to view collected data as an analog spectrum, a mass histogram, and trends over time. To remove unwanted peaks and spectral contributions, a user can use previously collected spectra to baseline data. Ideal Vacuum’s optional premium AutoZ+ software upgrade includes all the features of the basic software and adds advanced data logging, averaging, spectral fitting with access to Ideal Vacuum’s substance library, and the ability to add additional compounds to the library. Premium AutoZ+ uses a powerful least squares algorithm to calculate the partial pressures of common residual gases, identifies their contribution to the currently displayed spectrum, and isolates unknown peaks. Premium software must be renewed annually, or it reverts to the basic version. Some RGA Applications: Leak testing Process monitoring Pump-down and bakeout monitoring Vacuum diagnosis Feed gas quality control Gas and contaminant identification Please read carefully before ordering:* The AnalyzaVAC probe is a delicate instrument. Inappropriate use, mishandling of the probe, or operating at elevated pressures for extended amounts of time can contaminate and damage it. Therefore, the probe does not carry a warranty after removal from its original packaging. For any other component, the warranty is against product defect. The optimal total operational pressure of the RGA is 2×10-7 Torr for most gases. Operation at higher pressures for extended lengths of time will results in premature aging of the probe, loss of gain, spectral drift, and fillament and ionizer burnout. The RGA can be used at the following pressure regions for the corresponding lengths of time: 10-4 Torr, several hours 10-5 Torr, several days 10-6 Torr, several months 10-7 Torr, several years 10-8 Torr, indefinitely Organic vapors should be kept at a 2x lower pressure than atmospheric gases to prevent soot contamination of the fillament and ionizer. Silicone vapors should be kept at pressures at least 10x lower than atmospheric gases to prevent glass buildup on the fillament and ionizer. Corrosive vapors are also more damaging to the RGA than normal gases. By properly managing pressure, the RGA can be used to measure these gases without incurring costly repairs. **Measured with nitrogen gas, 5 second dwell time, 1 amu full peak width, 10% height, 70 eV electron energy, 6 eV ion energy, and 2 mA electron emission, and calculating three standard deviations from baseline noise.
Condition: New
Part Number: P1013457
Price: Kč142,022.25
Ideal Vacuum AnalyzaVACTM Residual Gas Analyzer (RGA), 1-100 AMU, Electron Multiplier and Faraday Cup Detector, AutoZ+ Basic Software Included.Please read carefully before ordering (click here)This listing is for the sale of the Ideal Vacuum AnalyzaVAC Residual Gas Analyzer with the following components: Ideal Vacuum AnalyzaVAC RGA 1-100 AMU scan range. Electron multiplier signal amplifier. Faraday cup detector. Built-in Pirani gauge for rough vacuum measurement. Built-in hot cathode ion gauge for high vacuum measurement. Conflat (CF) 2.75” mounting flange. Also includes: 24 VDC universal power supply (120/240 VAC input) and 6’ cable. USB to DB-9 male RS-232 serial communication cable, 1’ long. DB-9 male to female RS-232 serial extension cable, 25’ long. CF 2.75” copper gasket and bolt kit. Ideal Vacuum AutoZ+ basic version software. The Ideal Vacuum AnalyzaVAC RGA is a compact mass spectrometer that can assist in determining the identity and concentration of residual gases inside a vacuum chamber. It can be used for leak detection, outgassing analysis, feed gas quality control in coating and etching applications, process troubleshooting, and more. The AnalyzaVAC RGA probe has a built in Pirani gauge and Bayard Alpert hot cathode gauge that protect it from operating at unsuitably high pressures, reducing system complexity and preventing costly maintenance. Each system comes complete with a quadrupole probe, control and communications unit (CCU), AutoZ+ Basic software for Microsoft Windows® 10, and all necessary cables for power and communication. The AnalyzaVAC operates by ionizing the gases present at the probe tip using electrons emitted thermionically by dual field-replaceable thoriated iridium filaments. The resulting cations are separated by mass-to-charge ratio using a combination of varying radio frequencies and DC voltages applied to the quadrupole filter. The positively charged ions travel down the center of the quadrupole and are either amplified by an electron multiplier or detected directly by the faraday cup detector at the end of the probe. Each gas produces a unique spectral fingerprint which is a combination of the natural isotopic abundance of its elements and molecular fragmentation caused by the RGA’s high-energy electron ionization. The RGA is designed for continuous operation at total pressures below 1×10-6 Torr, and optimally around 2×10-7 Torr. Operation of the RGA at higher pressures leads to dramatically reduced ionizer, filament, and quadrupole lifetime. The built-in pressure gauges are used both internally and in AutoZ+ software to prevent fatal damage to the RGA (in most cases). While the RGA probe may be mounted directly into a high vacuum chamber, it is best practice to isolate the RGA from the chamber using a length of tubing and an isolation valve. This prevents contamination or accidental damage when the chamber is vented, or when a new sample or equipment is introduced. If the RGA is used to measure gases in a rough vacuum chamber, the RGA should be kept in a small separate chamber with its own high vacuum pumping system connected to the main chamber via a leak valve. Ideal Vacuum offers RGA kits with all necessary equipment to safely measure gases at pressures up to 1000 torr. All AnalyzaVAC probes come with a Faraday cup detector which provides repeatable, quantitative, highly linear detection down to 1.5×10-12 Torr*. The optional electron multiplier increases the sensitivity to a staggering 6×10-15 Torr* for qualitative measurements. Both the standard and an electron multiplier equipped detectors have 0.5 AMU resolution at 10% peak height (or better) when properly calibrated. Ideal Vacuum’s non-expiring basic AutoZ+ software is a Windows 10 application, that can control any AnalyzaVAC RGA system from a desktop or laptop computer. AutoZ+ gives the operator the power to control all acquisition parameters. AutoZ+ provides real-time data streaming and allows users to view collected data as an analog spectrum, a mass histogram, and trends over time. To remove unwanted peaks and spectral contributions, a user can use previously collected spectra to baseline data. Ideal Vacuum’s optional premium AutoZ+ software upgrade includes all the features of the basic software and adds advanced data logging, averaging, spectral fitting with access to Ideal Vacuum’s substance library, and the ability to add additional compounds to the library. Premium AutoZ+ uses a powerful least squares algorithm to calculate the partial pressures of common residual gases, identifies their contribution to the currently displayed spectrum, and isolates unknown peaks. Premium software must be renewed annually, or it reverts to the basic version. Some RGA Applications: Leak testing Process monitoring Pump-down and bakeout monitoring Vacuum diagnosis Feed gas quality control Gas and contaminant identification Please read carefully before ordering:* The AnalyzaVAC probe is a delicate instrument. Inappropriate use, mishandling of the probe, or operating at elevated pressures for extended amounts of time can contaminate and damage it. Therefore, the probe does not carry a warranty after removal from its original packaging. For any other component, the warranty is against product defect. The optimal total operational pressure of the RGA is 2×10-7 Torr for most gases. Operation at higher pressures for extended lengths of time will results in premature aging of the probe, loss of gain, spectral drift, and fillament and ionizer burnout. The RGA can be used at the following pressure regions for the corresponding lengths of time: 10-4 Torr, several hours 10-5 Torr, several days 10-6 Torr, several months 10-7 Torr, several years 10-8 Torr, indefinitely Organic vapors should be kept at a 2x lower pressure than atmospheric gases to prevent soot contamination of the fillament and ionizer. Silicone vapors should be kept at pressures at least 10x lower than atmospheric gases to prevent glass buildup on the fillament and ionizer. Corrosive vapors are also more damaging to the RGA than normal gases. By properly managing pressure, the RGA can be used to measure these gases without incurring costly repairs. **Measured with nitrogen gas, 5 second dwell time, 1 amu full peak width, 10% height, 70 eV electron energy, 6 eV ion energy, and 2 mA electron emission, and calculating three standard deviations from baseline noise.
Condition: New
Part Number: P1013456
Price: Kč203,145.75
Ideal Vacuum AnalyzaVAC Residual Gas Analyzer (RGA) Kit for High Pressure Operation, 1-100 AMU, Faraday Cup Detector, Manual Variable Leak Valve, Agilent TPS Mini Turbo Pumping Station, AutoZ+ Basic Software Included. Please read carefully before ordering (click here)The Ideal Vacuum AnalyzaVAC RGA is a compact mass spectrometer that can assist in determining the identity and concentration of residual gases inside a vacuum chamber. It can be used for leak detection, outgassing analysis, feed gas quality control in coating and etching applications, process troubleshooting, and more. Connected directly to a chamber, the RGA is designed for continuous operation at total pressures below 1×10-6 Torr, and optimally around 2×10-7 Torr. Operation of the RGA at higher pressures leads to dramatically reduced ionizer, filament, and quadrupole lifetime. The AnalyzaVAC’s built-in pressure gauges are used both internally and in the included AutoZ+ software to prevent fatal damage to the RGA (in most cases). To measure gases in a chamber at medium vacuum to atmospheric pressure, the RGA must be placed in a separate, small chamber with its own high vacuum pumping system. The RGA vacuum system is then connected to the chamber via a leak valve which allows the RGA to sample gases in the main chamber while still maintaining high vacuum around the delicate quadrapole probe. This kit contains everything you need to use an RGA to measure gases at higher pressures. Components and Features: Ideal Vacuum AnalyzaVAC RGA. 1-100 AMU scan range. Faraday cup detector. Built-in Pirani gauge prevents RGA turn on at high pressures. Built-in hot cathode ion gauge for rapid high vacuum pressure measurement. Agilent Varian TPS-Mini TwisTorr 74 FS turbomolecular pumping station with one-switch high vacuum operation. Manual Agilent variable leak valve enables RGA sampling of chambers from 1000 Torr to high vacuum. Welded manifold with all-metal seals for minimal measurement contamination from other gas sources. Ideal Vacuum AutoZ+ basic version software. The combination of the Agilent Varian TPS-mini pumping station with the manual Agilent variable leak valve enables accurate gas sampling of chambers spanning at least 9 orders of magnitude of pressure. However, a single isolation valve crack point is not suitable for all pressures within the range. For best results, the valve should be manually reset whenever the chamber pressure is changed. If the chamber pressure is going to rise more than 1 order of magnitude compared to the current operating pressure (i.e., during a chamber vent), the leak valve should be closed first to prevent damage to the RGA and pumping system. After the chamber reaches a stable pressure, the RGA ionizer should be turned off, and the valve reopened until the desired pressure inside the RGA subsystem is reached. The RGA ionizer may then be turned back on and measurement resumed. To keep the leak valve at a certain crack point through pressure cycles, the RGA can be isolated from the chamber using an additional CF 1.33 in. manual bellows valve. About the Ideal Vacuum AnalyzaVac RGA: The AnalyzaVAC operates by ionizing the gases present at the probe tip using electrons emitted thermionically by dual field-replaceable thoriated iridium filaments. The resulting cations are separated by mass-to-charge ratio using a combination of varying radio frequencies and DC voltages applied to the quadrupole filter. The positively charged ions travel down the center of the quadrupole and are either amplified by an electron multiplier or detected directly by the faraday cup detector at the end of the probe. Each gas produces a unique spectral fingerprint which is a combination of the natural isotopic abundance of its elements and molecular fragmentation caused by the RGA’s high-energy electron ionization. All AnalyzaVAC probes come with a Faraday cup detector which provides repeatable, quantitative, highly linear detection down to 1.5×10-12 Torr*. The optional electron multiplier increases the sensitivity to a staggering 6×10-15 Torr* for qualitative measurements. Both the standard and electron multiplier equipped detectors have 0.5 AMU resolution at 10% peak height (or better) when properly calibrated. Ideal Vacuum’s non-expiring basic AutoZ+ software is a Windows 10 application, that can control any AnalyzaVAC RGA system from a desktop or laptop computer. AutoZ+ gives the operator the power to control all acquisition parameters. AutoZ+ provides real-time data streaming and allows users to view collected data as an analog spectrum, a mass histogram, and trends over time. To remove unwanted peaks and spectral contributions, a user can use previously collected spectra to baseline data. Ideal Vacuum’s optional premium AutoZ+ software upgrade includes all the features of the basic software and adds advanced data logging, averaging, spectral fitting with access to Ideal Vacuum’s substance library, and the ability to add additional compounds to the library. Premium AutoZ+ uses a powerful least squares algorithm to calculate the partial pressures of common residual gases, identifies their contribution to the currently displayed spectrum, and isolates unknown peaks. Premium software must be renewed annually, or it reverts to the basic version. Some RGA Applications: Leak testing Process monitoring Pump-down and bakeout monitoring Vacuum diagnosis Feed gas quality control Gas and contaminant identification Please read carefully before ordering:* The AnalyzaVAC probe is a delicate instrument. Inappropriate use, mishandling of the probe, or operating at elevated pressures for extended amounts of time can contaminate and damage it. Therefore, the probe. does not carry a warranty after removal from its original packaging. Agilent TPS Mini Turbo carries a full manufacturer’s warranty. Any other component’s warranty is against product defect. The optimal total operational pressure of the RGA is 2×10-7 Torr for most gases. External pressure may be much higher as long as it is reduced inside the RGA system using the variable leak valve and turbo pump system. Operation at higher RGA system pressures for extended lengths of time will results in premature aging of the probe, loss of gain, spectral drift, and fillament and ionizer burnout. The RGA can be used at the following pressure regions for the corresponding lengths of time: 10-4 Torr, several hours 10-5 Torr, several days 10-6 Torr, several months 10-7 Torr, several years 10-8 Torr, indefinitely Organic vapors should be kept at a 2x lower pressure than atmospheric gases to prevent soot contamination of the fillament and ionizer. Silicone vapors should be kept at pressures at least 10x lower than atmospheric gases to prevent glass buildup on the fillament and ionizer. Corrosive vapors are also more damaging to the RGA than normal gases. By properly managing pressure, the RGA can be used to measure these gases without incurring costly repairs. * Measured with nitrogen gas, 5 second dwell time, 1 amu full peak width, 10% height, 70 eV electron energy, 6 eV ion energy, and 2 mA electron emission, and calculating three standard deviations from baseline noise.
Condition: New
Part Number: P1013467
Price: Kč367,060.04
Ideal Vacuum AnalyzaVAC Residual Gas Analyzer (RGA) Kit for High Pressure Operation, 1-100 AMU, Electron Multiplier and Faraday Cup Detector, Manual Variable Leak Valve, Agilent TPS Mini Turbo Pumping Station, AutoZ+ Basic Software Included. Please read carefully before ordering (click here)The Ideal Vacuum AnalyzaVAC RGA is a compact mass spectrometer that can assist in determining the identity and concentration of residual gases inside a vacuum chamber. It can be used for leak detection, outgassing analysis, feed gas quality control in coating and etching applications, process troubleshooting, and more. Connected directly to a chamber, the RGA is designed for continuous operation at total pressures below 1×10-6 Torr, and optimally around 2×10-7 Torr. Operation of the RGA at higher pressures leads to dramatically reduced ionizer, filament, and quadrupole lifetime. The AnalyzaVAC’s built-in pressure gauges are used both internally and in the included AutoZ+ software to prevent fatal damage to the RGA (in most cases). To measure gases in a chamber at medium vacuum to atmospheric pressure, the RGA must be placed in a separate, small chamber with its own high vacuum pumping system. The RGA vacuum system is then connected to the chamber via a leak valve which allows the RGA to sample gases in the main chamber while still maintaining high vacuum around the delicate quadrapole probe. This kit contains everything you need to use an RGA to measure gases at higher pressures. Components and Features: Ideal Vacuum AnalyzaVAC RGA. 1-100 AMU scan range. Electron multiplier signal amplifier. Faraday cup detector. Built-in Pirani gauge prevents RGA turn on at high pressures. Built-in hot cathode ion gauge for rapid high vacuum pressure measurement. Agilent Varian TPS-Mini TwisTorr 74 FS turbomolecular pumping station with one-switch high vacuum operation. Manual Agilent variable leak valve enables RGA sampling of chambers from 1000 Torr to high vacuum. Welded manifold with all-metal seals for minimal measurement contamination from other gas sources. Ideal Vacuum AutoZ+ basic version software. The combination of the Agilent Varian TPS-mini pumping station with the manual Agilent variable leak valve enables accurate gas sampling of chambers spanning at least 9 orders of magnitude of pressure. However, a single isolation valve crack point is not suitable for all pressures within the range. For best results, the valve should be manually reset whenever the chamber pressure is changed. If the chamber pressure is going to rise more than 1 order of magnitude compared to the current operating pressure (i.e., during a chamber vent), the leak valve should be closed first to prevent damage to the RGA and pumping system. After the chamber reaches a stable pressure, the RGA ionizer should be turned off, and the valve reopened until the desired pressure inside the RGA subsystem is reached. The RGA ionizer may then be turned back on and measurement resumed. To keep the leak valve at a certain crack point through pressure cycles, the RGA can be isolated from the chamber using an additional manual bellows valve. About the Ideal Vacuum AnalyzaVac RGA: The AnalyzaVAC operates by ionizing the gases present at the probe tip using electrons emitted thermionically by dual field-replaceable thoriated iridium filaments. The resulting cations are separated by mass-to-charge ratio using a combination of varying radio frequencies and DC voltages applied to the quadrupole filter. The positively charged ions travel down the center of the quadrupole and are either amplified by an electron multiplier or detected directly by the faraday cup detector at the end of the probe. Each gas produces a unique spectral fingerprint which is a combination of the natural isotopic abundance of its elements and molecular fragmentation caused by the RGA’s high-energy electron ionization. All AnalyzaVAC probes come with a Faraday cup detector which provides repeatable, quantitative, highly linear detection down to 1.5×10-12 Torr*. The optional electron multiplier increases the sensitivity to a staggering 6×10-15 Torr* for qualitative measurements. Both the standard and electron multiplier equipped detectors have 0.5 AMU resolution at 10% peak height (or better) when properly calibrated. Ideal Vacuum’s non-expiring basic AutoZ+ software is a Windows 10 application, that can control any AnalyzaVAC RGA system from a desktop or laptop computer. AutoZ+ gives the operator the power to control all acquisition parameters. AutoZ+ provides real-time data streaming and allows users to view collected data as an analog spectrum, a mass histogram, and trends over time. To remove unwanted peaks and spectral contributions, a user can use previously collected spectra to baseline data. Ideal Vacuum’s optional premium AutoZ+ software upgrade includes all the features of the basic software and adds advanced data logging, averaging, spectral fitting with access to Ideal Vacuum’s substance library, and the ability to add additional compounds to the library. Premium AutoZ+ uses a powerful least squares algorithm to calculate the partial pressures of common residual gases, identifies their contribution to the currently displayed spectrum, and isolates unknown peaks. Premium software must be renewed annually, or it reverts to the basic version. Some RGA Applications: Leak testing Process monitoring Pump-down and bakeout monitoring Vacuum diagnosis Feed gas quality control Gas and contaminant identification Please read carefully before ordering:* The AnalyzaVAC probe is a delicate instrument. Inappropriate use, mishandling of the probe, or operating at elevated pressures for extended amounts of time can contaminate and damage it. Therefore, the probe. does not carry a warranty after removal from its original packaging. Agilent TPS Mini Turbo carries a full manufacturer’s warranty. Any other component’s warranty is against product defect. The optimal total operational pressure of the RGA is 2×10-7 Torr for most gases. External pressure may be much higher as long as it is reduced inside the RGA system using the variable leak valve and turbo pump system. Operation at higher RGA system pressures for extended lengths of time will results in premature aging of the probe, loss of gain, spectral drift, and fillament and ionizer burnout. The RGA can be used at the following pressure regions for the corresponding lengths of time: 10-4 Torr, several hours 10-5 Torr, several days 10-6 Torr, several months 10-7 Torr, several years 10-8 Torr, indefinitely Organic vapors should be kept at a 2x lower pressure than atmospheric gases to prevent soot contamination of the fillament and ionizer. Silicone vapors should be kept at pressures at least 10x lower than atmospheric gases to prevent glass buildup on the fillament and ionizer. Corrosive vapors are also more damaging to the RGA than normal gases. By properly managing pressure, the RGA can be used to measure these gases without incurring costly repairs. * Measured with nitrogen gas, 5 second dwell time, 1 amu full peak width, 10% height, 70 eV electron energy, 6 eV ion energy, and 2 mA electron emission, and calculating three standard deviations from baseline noise.
Condition: New
Part Number: P1013468
Price: Kč413,525.65
Ideal Vacuum AnalyzaVAC Residual Gas Analyzer (RGA) Kit for High Pressure Operation, 1-100 AMU, Faraday Cup Detector, Manual Variable Leak Valve, Pfeiffer HiCube 80 NEO Turbo Pumping Station, AutoZ+ Basic Software Included. Please read carefully before ordering (click here)The Ideal Vacuum AnalyzaVAC RGA is a compact mass spectrometer that can assist in determining the identity and concentration of residual gases inside a vacuum chamber. It can be used for leak detection, outgassing analysis, feed gas quality control in coating and etching applications, process troubleshooting, and more. Connected directly to a chamber, the RGA is designed for continuous operation at total pressures below 1×10-6 Torr, and optimally around 2×10-7 Torr. Operation of the RGA at higher pressures leads to dramatically reduced ionizer, filament, and quadrupole lifetime. The AnalyzaVAC’s built-in pressure gauges are used both internally and in the included AutoZ+ software to prevent fatal damage to the RGA (in most cases). To measure gases in a chamber at medium vacuum to atmospheric pressure, the RGA must be placed in a separate, small chamber with its own high vacuum pumping system. The RGA vacuum system is then connected to the chamber via a leak valve which allows the RGA to sample gases in the main chamber while still maintaining high vacuum around the delicate quadrapole probe. This kit contains everything you need to use an RGA to measure gases at higher pressures. Components and Features: Ideal Vacuum AnalyzaVAC RGA. 1-100 AMU scan range. Faraday cup detector. Built-in Pirani gauge prevents RGA turn on at high pressures. Built-in hot cathode ion gauge for rapid high vacuum pressure measurement. Pfeiffer HiCube 80 NEO turbomolecular pumping station. Manual Agilent variable leak valve enables RGA sampling of chambers from 1000 Torr to high vacuum. Welded manifold with all-metal seals for minimal measurement contamination from other gas sources. Ideal Vacuum AutoZ+ basic version software. The combination of the Pfeiffer HiCube 80 NEO pumping station with the manual Agilent variable leak valve enables accurate gas sampling of chambers spanning at least 9 orders of magnitude of pressure. However, a single isolation valve crack point is not suitable for all pressures within the range. For best results, the valve should be manually reset whenever the chamber pressure is changed. If the chamber pressure is going to rise more than 1 order of magnitude compared to the current operating pressure (i.e., during a chamber vent), the leak valve should be closed first to prevent damage to the RGA and pumping system. After the chamber reaches a stable pressure, the RGA ionizer should be turned off, and the valve reopened until the desired pressure inside the RGA subsystem is reached. The RGA ionizer may then be turned back on and measurement resumed. To keep the leak valve at a certain crack point through pressure cycles, the RGA can be isolated from the chamber using an additional CF 1.33 in. manual bellows valve. About the Ideal Vacuum AnalyzaVac RGA: The AnalyzaVAC operates by ionizing the gases present at the probe tip using electrons emitted thermionically by dual field-replaceable thoriated iridium filaments. The resulting cations are separated by mass-to-charge ratio using a combination of varying radio frequencies and DC voltages applied to the quadrupole filter. The positively charged ions travel down the center of the quadrupole and are either amplified by an electron multiplier or detected directly by the faraday cup detector at the end of the probe. Each gas produces a unique spectral fingerprint which is a combination of the natural isotopic abundance of its elements and molecular fragmentation caused by the RGA’s high-energy electron ionization. All AnalyzaVAC probes come with a Faraday cup detector which provides repeatable, quantitative, highly linear detection down to 1.5×10-12 Torr*. The optional electron multiplier increases the sensitivity to a staggering 6×10-15 Torr* for qualitative measurements. Both the standard and electron multiplier equipped detectors have 0.5 AMU resolution at 10% peak height (or better) when properly calibrated. Ideal Vacuum’s non-expiring basic AutoZ+ software is a Windows 10 application, that can control any AnalyzaVAC RGA system from a desktop or laptop computer. AutoZ+ gives the operator the power to control all acquisition parameters. AutoZ+ provides real-time data streaming and allows users to view collected data as an analog spectrum, a mass histogram, and trends over time. To remove unwanted peaks and spectral contributions, a user can use previously collected spectra to baseline data. Ideal Vacuum’s optional premium AutoZ+ software upgrade includes all the features of the basic software and adds advanced data logging, averaging, spectral fitting with access to Ideal Vacuum’s substance library, and the ability to add additional compounds to the library. Premium AutoZ+ uses a powerful least squares algorithm to calculate the partial pressures of common residual gases, identifies their contribution to the currently displayed spectrum, and isolates unknown peaks. Premium software must be renewed annually, or it reverts to the basic version. Some RGA Applications: Leak testing Process monitoring Pump-down and bakeout monitoring Vacuum diagnosis Feed gas quality control Gas and contaminant identification Please read carefully before ordering:* The AnalyzaVAC probe is a delicate instrument. Inappropriate use, mishandling of the probe, or operating at elevated pressures for extended amounts of time can contaminate and damage it. Therefore, the probe. does not carry a warranty after removal from its original packaging. Pfeiffer HiCube 80 NEO turbo carries a full manufacturer’s warranty. Any other component’s warranty is against product defect. The optimal total operational pressure of the RGA is 2×10-7 Torr for most gases. External pressure may be much higher as long as it is reduced inside the RGA system using the variable leak valve and turbo pump system. Operation at higher RGA system pressures for extended lengths of time will results in premature aging of the probe, loss of gain, spectral drift, and fillament and ionizer burnout. The RGA can be used at the following pressure regions for the corresponding lengths of time: 10-4 Torr, several hours 10-5 Torr, several days 10-6 Torr, several months 10-7 Torr, several years 10-8 Torr, indefinitely Organic vapors should be kept at a 2x lower pressure than atmospheric gases to prevent soot contamination of the fillament and ionizer. Silicone vapors should be kept at pressures at least 10x lower than atmospheric gases to prevent glass buildup on the fillament and ionizer. Corrosive vapors are also more damaging to the RGA than normal gases. By properly managing pressure, the RGA can be used to measure these gases without incurring costly repairs. * Measured with nitrogen gas, 5 second dwell time, 1 amu full peak width, 10% height, 70 eV electron energy, 6 eV ion energy, and 2 mA electron emission, and calculating three standard deviations from baseline noise.
Condition: New
Part Number: P1013666
Price: Kč367,060.04
Ideal Vacuum AnalyzaVAC Residual Gas Analyzer (RGA) Kit for High Pressure Operation, 1-100 AMU, Electron Multiplier and Faraday Cup Detector, Manual Variable Leak Valve, Pfeiffer HiCube 80 NEO Turbo Pumping Station, AutoZ+ Basic Software Included. Please read carefully before ordering (click here)The Ideal Vacuum AnalyzaVAC RGA is a compact mass spectrometer that can assist in determining the identity and concentration of residual gases inside a vacuum chamber. It can be used for leak detection, outgassing analysis, feed gas quality control in coating and etching applications, process troubleshooting, and more. Connected directly to a chamber, the RGA is designed for continuous operation at total pressures below 1×10-6 Torr, and optimally around 2×10-7 Torr. Operation of the RGA at higher pressures leads to dramatically reduced ionizer, filament, and quadrupole lifetime. The AnalyzaVAC’s built-in pressure gauges are used both internally and in the included AutoZ+ software to prevent fatal damage to the RGA (in most cases). To measure gases in a chamber at medium vacuum to atmospheric pressure, the RGA must be placed in a separate, small chamber with its own high vacuum pumping system. The RGA vacuum system is then connected to the chamber via a leak valve which allows the RGA to sample gases in the main chamber while still maintaining high vacuum around the delicate quadrapole probe. This kit contains everything you need to use an RGA to measure gases at higher pressures. Components and Features: Ideal Vacuum AnalyzaVAC RGA. 1-100 AMU scan range. Electron multiplier signal amplifier. Faraday cup detector. Built-in Pirani gauge prevents RGA turn on at high pressures. Built-in hot cathode ion gauge for rapid high vacuum pressure measurement. Pfeiffer HiCube 80 NEO turbomolecular pumping station. Manual Agilent variable leak valve enables RGA sampling of chambers from 1000 Torr to high vacuum. Welded manifold with all-metal seals for minimal measurement contamination from other gas sources. Ideal Vacuum AutoZ+ basic version software. The combination of the Pfeiffer HiCube 80 NEO pumping station with the manual Agilent variable leak valve enables accurate gas sampling of chambers spanning at least 9 orders of magnitude of pressure. However, a single isolation valve crack point is not suitable for all pressures within the range. For best results, the valve should be manually reset whenever the chamber pressure is changed. If the chamber pressure is going to rise more than 1 order of magnitude compared to the current operating pressure (i.e., during a chamber vent), the leak valve should be closed first to prevent damage to the RGA and pumping system. After the chamber reaches a stable pressure, the RGA ionizer should be turned off, and the valve reopened until the desired pressure inside the RGA subsystem is reached. The RGA ionizer may then be turned back on and measurement resumed. To keep the leak valve at a certain crack point through pressure cycles, the RGA can be isolated from the chamber using an additional manual bellows valve. About the Ideal Vacuum AnalyzaVac RGA: The AnalyzaVAC operates by ionizing the gases present at the probe tip using electrons emitted thermionically by dual field-replaceable thoriated iridium filaments. The resulting cations are separated by mass-to-charge ratio using a combination of varying radio frequencies and DC voltages applied to the quadrupole filter. The positively charged ions travel down the center of the quadrupole and are either amplified by an electron multiplier or detected directly by the faraday cup detector at the end of the probe. Each gas produces a unique spectral fingerprint which is a combination of the natural isotopic abundance of its elements and molecular fragmentation caused by the RGA’s high-energy electron ionization. All AnalyzaVAC probes come with a Faraday cup detector which provides repeatable, quantitative, highly linear detection down to 1.5×10-12 Torr*. The optional electron multiplier increases the sensitivity to a staggering 6×10-15 Torr* for qualitative measurements. Both the standard and electron multiplier equipped detectors have 0.5 AMU resolution at 10% peak height (or better) when properly calibrated. Ideal Vacuum’s non-expiring basic AutoZ+ software is a Windows 10 application, that can control any AnalyzaVAC RGA system from a desktop or laptop computer. AutoZ+ gives the operator the power to control all acquisition parameters. AutoZ+ provides real-time data streaming and allows users to view collected data as an analog spectrum, a mass histogram, and trends over time. To remove unwanted peaks and spectral contributions, a user can use previously collected spectra to baseline data. Ideal Vacuum’s optional premium AutoZ+ software upgrade includes all the features of the basic software and adds advanced data logging, averaging, spectral fitting with access to Ideal Vacuum’s substance library, and the ability to add additional compounds to the library. Premium AutoZ+ uses a powerful least squares algorithm to calculate the partial pressures of common residual gases, identifies their contribution to the currently displayed spectrum, and isolates unknown peaks. Premium software must be renewed annually, or it reverts to the basic version. Some RGA Applications: Leak testing Process monitoring Pump-down and bakeout monitoring Vacuum diagnosis Feed gas quality control Gas and contaminant identification Please read carefully before ordering:* The AnalyzaVAC probe is a delicate instrument. Inappropriate use, mishandling of the probe, or operating at elevated pressures for extended amounts of time can contaminate and damage it. Therefore, the probe. does not carry a warranty after removal from its original packaging. Pfeiffer HiCube 80 NEO turbo carries a full manufacturer’s warranty. Any other component’s warranty is against product defect. The optimal total operational pressure of the RGA is 2×10-7 Torr for most gases. External pressure may be much higher as long as it is reduced inside the RGA system using the variable leak valve and turbo pump system. Operation at higher RGA system pressures for extended lengths of time will results in premature aging of the probe, loss of gain, spectral drift, and fillament and ionizer burnout. The RGA can be used at the following pressure regions for the corresponding lengths of time: 10-4 Torr, several hours 10-5 Torr, several days 10-6 Torr, several months 10-7 Torr, several years 10-8 Torr, indefinitely Organic vapors should be kept at a 2x lower pressure than atmospheric gases to prevent soot contamination of the fillament and ionizer. Silicone vapors should be kept at pressures at least 10x lower than atmospheric gases to prevent glass buildup on the fillament and ionizer. Corrosive vapors are also more damaging to the RGA than normal gases. By properly managing pressure, the RGA can be used to measure these gases without incurring costly repairs. * Measured with nitrogen gas, 5 second dwell time, 1 amu full peak width, 10% height, 70 eV electron energy, 6 eV ion energy, and 2 mA electron emission, and calculating three standard deviations from baseline noise.
Condition: New
Part Number: P1013667
Price: Kč413,525.65
Replacement Probe for Ideal Vacuum AnalyzaVAC Residual Gas Analyzer (RGA) 1-100 AMU without Electron Multiplier. This listing is for the sale of a replacement probe for the model AV100, 1-100 AMU Ideal Vacuum AnalyzaVAC Residual Gas Analyzer without an electron multiplier. It includes the probe with mass filter, ionizer assembly, and dual thoria coated iridium filaments. Note that the AnalyzaVac RGA cannot be field upgraded with a probe of a different AMU range nor can an electron multiplier be added to an RGA without one. If you would like to upgrade the AMU range or add an electron multiplier, the RGA must be sent to Ideal Vacuum for a factory electronics upgrade along with the new probe or multiplier. Please contact your sales representative for options. Please read carefully before ordering:* The AnalyzaVAC probe is a delicate instrument. Inappropriate use, mishandling of the probe, or operating at elevated pressures for extended amounts of time can contaminate and damage it. Therefore, the probe does not carry a warranty after removal from its original packaging. The optimal total operational pressure of the RGA is 2×10-7 Torr for most gases. Operation at higher pressures for extended lengths of time will results in premature aging of the probe, loss of gain, spectral drift, and fillament and ionizer burnout. The RGA can be used at the following pressure regions for the corresponding lengths of time: 10-4 Torr, several hours 10-5 Torr, several days 10-6 Torr, several months 10-7 Torr, several years 10-8 Torr, indefinitely Organic vapors should be kept at a 2x lower pressure than atmospheric gases to prevent soot contamination of the fillament and ionizer. Silicone vapors should be kept at pressures at least 10x lower than atmospheric gases to prevent glass buildup on the fillament and ionizer. Corrosive vapors are also more damaging to the RGA than normal gases. By properly managing pressure, the RGA can be used to measure these gases without incurring costly repairs.
Condition: New
Part Number: P1013487
Price: Kč55,874.07
Replacement Probe for Ideal Vacuum AnalyzaVAC Residual Gas Analyzer (RGA) 1-100 AMU with Electron Multiplier. This listing is for the sale of a replacement probe for the model AV100-EM, 1-100 AMU Ideal Vacuum AnalyzaVAC Residual Gas Analyzer with an electron multiplier. It includes the probe with mass filter, ionizer assembly, dual thoria coated iridium filaments, and electron multiplier. Note that the AnalyzaVac RGA cannot be field upgraded with a probe of a different AMU range nor can an electron multiplier be added to an RGA without one. If you would like to upgrade the AMU range or add an electron multiplier, the RGA must be sent to Ideal Vacuum for a factory electronics upgrade along with the new probe or multiplier. Please contact your sales representative for options. Please read carefully before ordering:* The AnalyzaVAC probe is a delicate instrument. Inappropriate use, mishandling of the probe, or operating at elevated pressures for extended amounts of time can contaminate and damage it. Therefore, the probe does not carry a warranty after removal from its original packaging. The optimal total operational pressure of the RGA is 2×10-7 Torr for most gases. Operation at higher pressures for extended lengths of time will results in premature aging of the probe, loss of gain, spectral drift, and fillament and ionizer burnout. The RGA can be used at the following pressure regions for the corresponding lengths of time: 10-4 Torr, several hours 10-5 Torr, several days 10-6 Torr, several months 10-7 Torr, several years 10-8 Torr, indefinitely Organic vapors should be kept at a 2x lower pressure than atmospheric gases to prevent soot contamination of the fillament and ionizer. Silicone vapors should be kept at pressures at least 10x lower than atmospheric gases to prevent glass buildup on the fillament and ionizer. Corrosive vapors are also more damaging to the RGA than normal gases. By properly managing pressure, the RGA can be used to measure these gases without incurring costly repairs.
Condition: New
Part Number: P1013488
Price: Kč87,586.38
Replacement Dual Thoria Coated Iridium Filaments for all Ideal Vacuum AnalyzaVAC Residual Gas Analyzers (RGA). This listing is for the sale of a replacement the dual thoria coated iridium filament in any Ideal Vacuum AnalyzaVac RGA, with or without an electron multiplier. Please download the AnalyzaVac RGA User Manual for filament replacement instructions.
Condition: New
Part Number: P1013494
Price: Kč6,471.90
Replacement Ionizer for all Ideal Vacuum AnalyzaVAC Residual Gas Analyzers (RGA). This listing is for the sale of a replacement ionizer for all Ideal Vacuum AnalyzaVac RGAs, with and without electron multipliers. Note that an AnalyzaVac RGA without an electron multiplier cannot be field upgraded to add an electron multiplier. If you would like to add an electron multiplier, the RGA must be sent to Ideal Vacuum for a factory electronics upgrade along with the new electron multiplier. Please contact your sales representative for options.
Condition: New
Part Number: P1013493
Price: Kč7,550.55
Replacement Electron Multiplier for Ideal Vacuum AnalyzaVAC Residual Gas Analyzers (RGA) with an Electron Multiplier. This listing is for the sale of a replacement electron multiplier for any Ideal Vacuum AnalyzaVac RGA with an electron multiplier. Note that an AnalyzaVac RGA without an electron multiplier cannot be field upgraded to add an electron multiplier. If you would like to add an electron multiplier, the RGA must be sent to Ideal Vacuum for a factory electronics upgrade along with the new electron multiplier. Please contact your sales representative for options.
Condition: New
Part Number: P1013495
Price: Kč31,712.31
NEW Agilent Variable Leak Valve CF 2.75 in. X Mini-CF 1.33 in. Includes a Movable Piston with an Optically Flat Sapphire. PN: 951-5106 The Agilent Variable Leak Valve can be added to any vacuum system to establish an adjustable leak. It offers unprecedented control sensitivity and stability with leak rates as small as 1 x 10-10 Torr-liters per second and provides an increasing rate of change as the size of the leak increases. This gives precise control in proportion to the size of the leak. The entire valve, including the drive mechanism, is bakeable to 450°C in either the open or closed position. This valve can operate in a vacuum range of atmosphere to below 10-11 Torr (mbar) and has an Inlet Gas Pressure up to a maximum of 500 psi. The valve is shipped in a closed, leak-tight position, lubricated and ready for installation. The main flange connection on which the variable leak valve is mounted mates with any 2 3/4 inch O.D. ConFlat flange. The Inlet gas connection is made through a standard 1 1/3in Mini-ConFlat flange. Leak rate adjustment is controlled with knurled knobs. To open a leak, the knurled knobs must be turned (together) counterclockwise, a minimum of two full turns. The valve is closed by turning the knobs (together) clockwise to the stop position against the handle. The variable leak valve includes a movable piston with an optically-flat sapphire that meets a captured metal gasket. This forms a seal completely free from friction, seizing, and shear. The sapphire’s movement is controlled through a threaded shaft-and-lever mechanism having a mechanical advantage of 13,000 to 1. Spring washers keep this drive mechanism constantly loaded and eliminate the backlash usually associated with this type of device. This provides immediate response to small movements in the finger-controlled adjusting knobs. While some permanent compression takes place in the gasket each time a seal is made, the change is very slight. Return of the knob to a previous position will result in approximately the same leak rate. Both components of the seal mechanism (sapphire assembly and gasket assembly) are easily replaceable. The gasket life for unbaked systems is approximately 300 closures and only 20 to 30 closures for baked systems. The Agilent Variable Leak Valve is perfect for applications that require an exact pressure selection to run a turbo in a specific range and maintain that pressure. The valve is designed to change the pressure selection to a specific applications’ needs and then be moved to another selection easily and accurately. We offer all the necessary tools to make repairs and adjustments to this valve below in our Related Products section, including replacement parts such as the sapphire and gasket assemblies. Please refer to the Manual Section (pdf) below for more information on how to operate and maintain the Agilent Variable Leak Valve. FEATURESMade for special purpose valve applicationsVacuum Range from Atmosphere to below 10-11 torr (10-11mbar)Leak Rate that has no leak detectable on a helium mass spectrometer leak detector with sensitivity of 1 x 10-10 std cc/secMaximum Flow Conductance of 6 liters/minBakeable to 450º C
Condition: New
Part Number: P105211
Price: Kč57,243.96
Ideal Vacuum Super-Seal Conflat CF 1.33 in. UHV 90° Right Angle Manual Bellows Valve Through Hole Rotatable Flanges and Copper Bonnet Seal. This is a manually operated 90° right angle Ideal Vacuum Super-Seal bellows valve with Conflat CF 1.33" (1-1/3") flanges on the inlet and outlet ports. Conflat flanged Super-Seal valves have rotatable flanges for optimal connectivity to vacuum lines. This valve is rated for ultra-high-vacuum use (10-10 Torr) and can be used up to the 60-80 psig positive pressure range. These Super-Seal valves have a leak rate of 10-11 Torr l/s (He). All ultra-high vacuum rated Super-Seal valves use 304L stainless steel for the valve body and mechanism, OFHC copper gaskets for the bonnet seal, and Viton® poppet seal O-rings. These valves operate with low friction and zero abrasion of the polymer elastomer surface allowing for repeatable sealing action over many thousands of cycles. Super-Seal valves provide high-conductance to maximize the evacuated gas flow rate. These valves are bakeable up to 150°C (limited by the Viton O-rings) and can withstand a maximum differential pressure of up to 15 psig. They can be mounted in any orientation. Manually operated Super-Seal bellows valves are an excellent solution when automation is not required. They are significantly less expensive and more quickly deployed than similar pneumatically operated bellows valves. Manual bellows valves are frequently used in roughing and high-vacuum forelines and make excellent chamber venting valves. Ideal Vacuum manual bellows Super-Seal valves are used in applications ranging from semiconductor manufacturing, plasma physics research, to nuclear accelerators. Please see the brochure for specs and dimensional data. Download the User Manual for complete information about the Ideal Vacuum Super-Seal family of manually operated bellows valves and accessories. We also have an entire series of Super-Seal solenoid operated pneumatic bellows valves for when automation is needed.
Condition: New
Part Number: P1011810
Price: Kč9,804.93
Regular Price: Kč12,256.10
Ideal Vacuum Super-Seal Conflat CF 2.75 in. UHV 180° In-line Manual Bellows Valve Through Hole Rotatable Flanges and Copper Bonnet Seal. This is a manually operated 180° in-line Ideal Vacuum Super-Seal bellows valve with Conflat CF 2.75" (2-3/4") flanges on the inlet and outlet ports. Conflat flanged Super-Seal valves have rotatable flanges for optimal connectivity to vacuum lines. This valve is rated for ultra-high-vacuum use (10-10 Torr) and can be used up to the 60-80 psig positive pressure range. These Super-Seal valves have a leak rate of 10-11 Torr l/s (He). All ultra-high vacuum rated Super-Seal valves use 304L stainless steel for the valve body and mechanism, OFHC copper gaskets for the bonnet seal, and Viton® poppet seal O-rings. These valves operate with low friction and zero abrasion of the polymer elastomer surface allowing for repeatable sealing action over many thousands of cycles. Super-Seal valves provide high-conductance to maximize the evacuated gas flow rate. These valves are bakeable up to 150°C (limited by the Viton O-rings) and can withstand a maximum differential pressure of up to 15 psig. They can be mounted in any orientation. Manually operated Super-Seal bellows valves are an excellent solution when automation is not required. They are significantly less expensive and more quickly deployed than similar pneumatically operated bellows valves. Manual bellows valves are frequently used in roughing and high-vacuum forelines and make excellent chamber venting valves. Ideal Vacuum manual bellows Super-Seal valves are used in applications ranging from semiconductor manufacturing, plasma physics research, to nuclear accelerators. Please see the brochure for specs and dimensional data. Download the User Manual for complete information about the Ideal Vacuum Super-Seal family of manually operated bellows valves and accessories. We also have an entire series of Super-Seal solenoid operated pneumatic bellows valves for when automation is needed.
Condition: New
Part Number: P1011847
Price: Kč13,564.62
Regular Price: Kč16,955.90
DB9 RS-232 Shielded Serial Extension Cable Male-to-Female, 25 Ft. Long. This listing is for the sale of a 25 ft. long, RS-232 serial extension cable. It allows you to extend the distance between serial devices. Connectors are DB9 male on one end, and female DB9 on the other. The cable is fully shielded to prevent against unwanted EMI/RFI interference, and its connectors are fully-molded for excellent strain relief. All pins are wired straight through.
Condition: New
Part Number: P1013504
Price: Kč1,150.56
Replacement Power Supply for all Ideal Vacuum AnalyzaVAC Residual Gas Analyzers (RGA), 24 VDC, 110-240 VAC Input. This listing is for the sale of a replacement 24 VDC power supply for all Ideal Vacuum AnalyzaVac bare RGAs and manual high pressure RGA kits. The power supply has a plug-in power cord (included) and a center positive 5.5/2.1mm center-positive barrel connector. The power supply accepts a 110-240 VAC input.
Condition: New
Part Number: P1013496
Price: Kč3,331.83
Conflat Flange (CF) Full Nipple, CF 2-3/4 inches, 7 in. Long, 1 Rotatable Flange. This custom length, Ideal Vacuum exclusive, full nipple vacuum fitting is 7" long and has one rotatable and one fixed 2-3/4 inch conflat (CF) flange. Both flanges have through holes (holes are not threaded). This fitting is used for ultra-high vacuum applications and is just long enough to completely encase the Ideal Vacuum AnalyzaVac residual gas analyzer (RGA) probe, keeping it safe from short circuiting and helping protect it from contaminant deposition that occurs when the probe protrudes into the vacuum chamber. This nipple will also work on other manufacturer’s RGAs. These fittings use a copper gasket and knife-edge flanges to achieve the high vacuum seal and can operate down to 10-13 torr (10-11 Pa) and can be heated to 450 °C for bake-out. North American flange sizes are given by flange outer diameter in inches: 1-1/3 ("mini conflat"), 2¾, 4½, 6, 8, 10, 12, 13¼, 14 and 16½. In Europe and Asia, sizes are given by tube inner diameter in millimeters: DN16, DN40, DN63, DN100, DN160, DN200, DN250. These vacuum fittings are made of corrosion resistant stainless steel Conflat Flange (CF) Full Nipple, CF 2-3/4 inches, Stainless SteelCF Flange Size: CF 2-3/4 inchCommon Dimensions: A = 7.0", B= 1.5", Flange Size OD = 2.75"
Condition: New
Part Number: P1013508
Price: Kč4,794.00
Conflat Flange (CF) Flexible Coupling, CF 1-1/3 inches, 24 inches Stainless Steel FittingsThese flexible coupling vacuum fittings have one rotatable and one fixed 1-1/3 inch conflat (CF) flanges. ConFlat (CF) flanges are used for ultra-high vacuum applications. These fittings use a copper gasket and knife-edge flanges to achieve the high vacuum seal and can operate down to 10-13 torr (10-11 Pa) and can be heated to 450 °C for bake-out. North American flange sizes are given by flange outer diameter in inches: 1-1/3 ("mini conflat"), 2¾, 4½, 6, 8, 10, 12, 13¼, 14 and 16½. In Europe and Asia, sizes are given by tube inner diameter in millimeters: DN16, DN40, DN63, DN100, DN160, DN200, DN250. These vacuum fittings are made of corrosive resistant stainless steel.Conflat Tee, CF 1-1/3 inches, 24 inch, Stainless SteelCF Flange Size: CF 1-1/3 inches, 24 inchCommon Dimensions: (A) Free Length = 24", (B) Compressed Length = 22", Flange Size OD = 1.33"
Condition: New
Part Number: P102227
Price: Kč7,345.85
Conflat Flange (CF) Flexible Coupling, CF 1-1/3 inches, 48 inches Stainless Steel FittingsThese flexible coupling vacuum fittings have one rotatable and one fixed 1-1/3 inch conflat (CF) flanges. ConFlat (CF) flanges are used for ultra-high vacuum applications. These fittings use a copper gasket and knife-edge flanges to achieve the high vacuum seal and can operate down to 10-13 torr (10-11 Pa) and can be heated to 450 °C for bake-out. North American flange sizes are given by flange outer diameter in inches: 1-1/3 ("mini conflat"), 2¾, 4½, 6, 8, 10, 12, 13¼, 14 and 16½. In Europe and Asia, sizes are given by tube inner diameter in millimeters: DN16, DN40, DN63, DN100, DN160, DN200, DN250. These vacuum fittings are made of corrosive resistant stainless steel.Conflat Tee, CF 1-1/3 inches, 48 inch, Stainless SteelCF Flange Size: CF 1-1/3 inches, 48 inchCommon Dimensions: (A) Free Length = 48", (B) Compressed Length = 46", Flange Size OD = 1.33"
Condition: New
Part Number: P102228
Price: Kč14,310.33
Conflat Flange (CF) Flexible Coupling, CF 2-3/4 inches, 24 inches Stainless Steel FittingsThese flexible coupling vacuum fittings have one rotatable and one fixed 2-3/4 inch conflat (CF) flanges. ConFlat (CF) flanges are used for ultra-high vacuum applications. These fittings use a copper gasket and knife-edge flanges to achieve the high vacuum seal and can operate down to 10-13 torr (10-11 Pa) and can be heated to 450 °C for bake-out. North American flange sizes are given by flange outer diameter in inches: 1-1/3 ("mini conflat"), 2¾, 4½, 6, 8, 10, 12, 13¼, 14 and 16½. In Europe and Asia, sizes are given by tube inner diameter in millimeters: DN16, DN40, DN63, DN100, DN160, DN200, DN250. These vacuum fittings are made of corrosive resistant stainless steel.Conflat Tee, CF 2-3/4 inches, 24 inch, Stainless SteelCF Flange Size: CF 2-3/4 inches, 24 inchCommon Dimensions: (A) Free Length = 24", (B) Compressed Length = 22", Flange Size OD = 2.75"
Condition: New
Part Number: P102230
Price: Kč12,620.92
Conflat Flange (CF) Flexible Coupling, CF 2-3/4 inches, 48 inches Stainless Steel FittingsThese flexible coupling vacuum fittings have one rotatable and one fixed 2-3/4 inch conflat (CF) flanges. ConFlat (CF) flanges are used for ultra-high vacuum applications. These fittings use a copper gasket and knife-edge flanges to achieve the high vacuum seal and can operate down to 10-13 torr (10-11 Pa) and can be heated to 450 °C for bake-out. North American flange sizes are given by flange outer diameter in inches: 1-1/3 ("mini conflat"), 2¾, 4½, 6, 8, 10, 12, 13¼, 14 and 16½. In Europe and Asia, sizes are given by tube inner diameter in millimeters: DN16, DN40, DN63, DN100, DN160, DN200, DN250. These vacuum fittings are made of corrosive resistant stainless steel.Conflat Tee, CF 2-3/4 inches, 48 inch, Stainless SteelCF Flange Size: CF 2-3/4 inches, 48 inchCommon Dimensions: (A) Free Length = 48", (B) Compressed Length = 46", Flange Size OD = 2.75"
Condition: New
Part Number: P102231
Price: Kč14,926.36
Bolt Kit For 1.33 (1-1/3)Inch Conflat Clear Bolt Hole Flanges, Silver-Plated Allen Bolts With Platenuts.These bolt kits contain silver-plated 12-point head bolts, platenuts, and washers to fasten clearance hole 1.33 (1-1/3) inch CF Conflat flanged fittings. These confalt flages can be pumped down to 10-13 torr (10-11 Pa) and can be heated to 450 °C for bake-out. North American flange sizes are given by flange outer diameter in inches: 1-1/3 ("mini conflat"), 2-1/8, 2-3/4, 4-1/2, 4-5/8, 6, 6-3/4, 8, 10, 12, 13-1/4, 14 and 16-1/2. In Europe and Asia, sizes are given by tube inner diameter in millimeters: DN16, DN40, DN63, DN100, DN160, DN200, DN250. These are complete kits, with bolts, washers, and platenuts to fasten one conflat clearance hole 1.33 (1-1/3) inch flange connection.Complete Kit - 1.33 (1-1/3) inch Conflat Clearance Bolt Hole Fasteners: QTY 6, Silver-Plated 8-32 x 0.75 Inch Long Allen Bolts QTY 6, Washers QTY 3, Platenut
Condition: New
Part Number: P104397
Price: Kč883.29
Bolt Kit For 2.75 (2-3/4)Inch Conflat Clear Bolt Hole Flanges, Silver-Plated 12 Point Bolts With Platenuts.These bolt kits contain silver-plated 12-point head bolts, platenuts, and washers to fasten clearance hole 2.75 (2-3/4) inch CF Conflat flanged fittings. These confalt flages can be pumped down to 10-13 torr (10-11 Pa) and can be heated to 450 °C for bake-out. North American flange sizes are given by flange outer diameter in inches: 1-1/3 ("mini conflat"), 2-1/8, 2-3/4, 4-1/2, 4-5/8, 6, 6-3/4, 8, 10, 12, 13-1/4, 14 and 16-1/2. In Europe and Asia, sizes are given by tube inner diameter in millimeters: DN16, DN40, DN63, DN100, DN160, DN200, DN250. These are complete kits, with bolts, washers, and platenuts to fasten one conflat clearance hole 2.75 (2-3/4) inch flange connection.Complete Kit - 2.75 (2-3/4) inch Conflat Clearance Bolt Hole Fasteners: QTY 6, Silver-Plated 1/4 x 1.25 Inch Long 12-Point Bolts QTY 6, Washers QTY 3, Platenut
Condition: New
Part Number: P104378
Price: Kč943.94
Bolt Kit For 4.50 (4-1/2) Inch Conflat Clear Bolt Hole Flanges, Silver-Plated 12 Point Bolts With Platenuts.These bolt kits contain silver-plated 12-point head bolts, platenuts, and washers to fasten clearance hole 4.50 (4-1/2) inch CF Conflat flanged fittings. These confalt flages can be pumped down to 10-13 torr (10-11 Pa) and can be heated to 450 °C for bake-out. North American flange sizes are given by flange outer diameter in inches: 1-1/3 ("mini conflat"), 2-1/8, 2-3/4, 4-1/2, 4-5/8, 6, 6-3/4, 8, 10, 12, 13-1/4, 14 and 16-1/2. In Europe and Asia, sizes are given by tube inner diameter in millimeters: DN16, DN40, DN63, DN100, DN160, DN200, DN250. These are complete kits, with bolts, washers, and platenuts to fasten one conflat clearance hole 4.50 (4-1/2) inch flange connection.Complete Kit - 4.50 (4-1/2) Inch Conflat Clearance Bolt Hole Fasteners: QTY 8, Silver-Plated 5/16 x 2.00 Inch Long 12-Point Bolts QTY 8, Washers QTY 4, Platenut
Condition: New
Part Number: P104377
Price: Kč1,327.22
Box End Wrench for Conflat Flange 12 Point Silver-Plated Bolts, 1/4-Inch x 5/16-Inch with 45-Degree Offset This double box end wrench is the perfect tool for installing and removing Conflat 12 point silver-plated bolts. The wrench has one 1/4 box end and one 5/16 box end for both sizes of 12 point bolts in one tool. All Conflat flanges with clear bolt holes, from 2.125 to 10 that use 12 point silver-plated bolts can be tightened and loosened with this one tool. This inexpensive wrench is a must have in your vacuum tool box, especially if your system includes conflat flanges. Note: Tool Kit does not include any bolts. Silver-plated 12 point bolts are sold separately. Bolts are shown here for illustrative purposes only.
Condition: New
Part Number: P1010551
Price: Kč708.07
Conflat Flange (CFF) Copper Gaskets CF Size 1-1/3" These conflat copper conflat gaskets fit a conflat flange size of 1-1/3 inches. ConFlat (CF) flanges are used for ultra-high vacuum applications. These fittings use a copper gasket and knife-edge flanges to achieve the high vacuum seal and can operate down to 10-13 torr (10-11 Pa) and can be heated to 450°C for bake-out. North American flange sizes are given by flange outer diameter in inches: 1-1/3 ("mini conflat"), 2¾, 4½, 6, 8, 10, 12, 13¼, 14 and 16½. In Europe and Asia, sizes are given by tube inner diameter in millimeters: DN16, DN40, DN63, DN100, DN160, DN200, DN250. These vacuum fittings are made of corrosive resistant stainless steel.Conflat Flange (CF) Copper Gaskets CF Size 1-1/3" - 1 eachCF Flange Size: CF 1-1/3 inch Common Dimensions: Flange Outer Diameter (OD) 1-1/3", Gasket Outer Diameter (OD) 0.838", Gasket Inner Diameter (ID) 0.640"
Condition: New
Part Number: P102277
Price: Kč157.96
Conflat Flange (CFF) Copper Gaskets CF Size 2-3/4" These conflat copper conflat gaskets fit a conflat flange size of 2-3/4 inches. ConFlat (CF) flanges are used for ultra-high vacuum applications. These fittings use a copper gasket and knife-edge flanges to achieve the high vacuum seal and can operate down to 10-13 torr (10-11 Pa) and can be heated to 450°C for bake-out. North American flange sizes are given by flange outer diameter in inches: 1-1/3 ("mini conflat"), 2¾, 4½, 6, 8, 10, 12, 13¼, 14 and 16½ , in Europe and Asia, sizes are given by tube inner diameter in millimeters: DN16, DN40, DN63, DN100, DN160, DN200, DN250. These vacuum fittings are made of corrosive resistant stainless steel. Conflat Flange (CF) Copper Gaskets CF Size 2-3/4" - 1 eachCF Flange Size: CF 2-3/4 inch Common Dimensions: Flange Outer Diameter (OD) 2-3/4", Gasket Outer Diameter (OD) 1.895", Gasket Inner Diameter (ID) 1.451"
Condition: New
Part Number: P102278
Price: Kč241.86
Conflat Flange (CFF) Copper Gaskets CF Size 4-1/2" These conflat copper conflat gaskets fit a conflat flange size of 4-1/2 inches. ConFlat (CF) flanges are used for ultra-high vacuum applications. These fittings use a copper gasket and knife-edge flanges to achieve the high vacuum seal and can operate down to 10-13 torr (10-11 Pa) and can be heated to 450°C for bake-out. North American flange sizes are given by flange outer diameter in inches: 1-1/3 ("mini conflat"), 2¾, 4½, 6, 8, 10, 12, 13¼, 14 and 16½. In Europe and Asia, sizes are given by tube inner diameter in millimeters: DN16, DN40, DN63, DN100, DN160, DN200, DN250. These vacuum fittings are made of corrosive resistant stainless steel. Conflat Flange (CF) Copper Gaskets CF Size 4-1/2" - 1 eachCF Flange Size: CF 4-1/2 inch Common Dimensions: Flange Outer Diameter (OD) 4-1/2", Gasket Outer Diameter (OD) 3.243", Gasket Inner Diameter (ID) 2.506"
Condition: New
Part Number: P102280
Price: Kč185.77