The Miniax XYZ translator offers a source of simple, cost effective, manipulation. The single bellows construction makes it easy to use in any orientation. The micrometers are vacuum conditioned and do not need to be removed for bakeout.
The Miniax XYZ translator offers a source of simple, cost effective, manipulation. The single bellows construction makes it easy to use in any orientation. The micrometers are vacuum conditioned and do not need to be removed for bakeout.
The Miniax XYZ translator offers a source of simple, cost effective, manipulation. The single bellows construction makes it easy to use in any orientation. The micrometers are vacuum conditioned and do not need to be removed for bakeout.
The Miniax XYZ translator offers a source of simple, cost effective, manipulation. The single bellows construction makes it easy to use in any orientation. The micrometers are vacuum conditioned and do not need to be removed for bakeout.
The VACGEN Hemisphere Bell Chamber can be manufactured from metals such as the high permeability material Nickel-Iron Alloy or Stainless Steel 316L and is suitable for applications such as Preperation or Surface Analysis.
A standardised range of UHV chambers have been manufactured for your convenience. The configurable range of skeletons come as standard in either Stainless Steel or Nickel Based Super Alloy.
IGC5 is an Ion gauge which combines the functionality of several vacuum system controllers into a single easy to use unit, reducing hardware, wiring and cost. The IGC5 combines the latest microprocessor technology in a 19" 1U rack mount unit, which is very stability and reliability. The IGC5 also offers Bake Out and Pirani Gauge option as standard.
IGC5 is an Ion gauge which combines the functionality of several vacuum system controllers into a single easy to use unit, reducing hardware, wiring and cost. The IGC5 combines the latest microprocessor technology in a 19" 1U rack mount unit, which is very stability and reliability. The IGC5 also offers Bake Out and Pirani Gauge option as standard.
IGC5 is an Ion gauge which combines the functionality of several vacuum system controllers into a single easy to use unit, reducing hardware, wiring and cost. The IGC5 combines the latest microprocessor technology in a 19" 1U rack mount unit, which is very stability and reliability. The IGC5 also offers Bake Out and Pirani Gauge option as standard.
IGC5 is an Ion gauge which combines the functionality of several vacuum system controllers into a single easy to use unit, reducing hardware, wiring and cost. The IGC5 combines the latest microprocessor technology in a 19" 1U rack mount unit, which is very stability and reliability. The IGC5 also offers Bake Out and Pirani Gauge option as standard.
IGC5 is an Ion gauge which combines the functionality of several vacuum system controllers into a single easy to use unit, reducing hardware, wiring and cost. The IGC5 combines the latest microprocessor technology in a 19" 1U rack mount unit, which is very stability and reliability. The IGC5 also offers Bake Out and Pirani Gauge option as standard.
IGC5 is an Ion gauge which combines the functionality of several vacuum system controllers into a single easy to use unit, reducing hardware, wiring and cost. The IGC5 combines the latest microprocessor technology in a 19" 1U rack mount unit, which is very stability and reliability. The IGC5 also offers Bake Out and Pirani Gauge option as standard.
IGC5 is an Ion gauge which combines the functionality of several vacuum system controllers into a single easy to use unit, reducing hardware, wiring and cost. The IGC5 combines the latest microprocessor technology in a 19" 1U rack mount unit, which is very stability and reliability. The IGC5 also offers Bake Out and Pirani Gauge option as standard.
IGC5 is an Ion gauge which combines the functionality of several vacuum system controllers into a single easy to use unit, reducing hardware, wiring and cost. The IGC5 combines the latest microprocessor technology in a 19" 1U rack mount unit, which is very stability and reliability. The IGC5 also offers Bake Out and Pirani Gauge option as standard. Use from < Serial # 008800.
Resistive heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1000°C and monitoring down to 77K. Designed to work with our PBN and wire range of heaters, with the option of RS232 or RS485 for monitoring.
Resistive heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1000°C and monitoring down to 77K. Designed to work with our PBN and wire range of heaters, with the option of RS232 or RS485 for monitoring.
Resistive heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1000°C and monitoring down to 77K. Designed to work with our PBN and wire range of heaters, with the option of RS232 or RS485 for monitoring.
Resistive heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1000°C and monitoring down to 77K. Designed to work with our PBN and wire range of heaters, with the option of RS232 or RS485 for monitoring.
Electron Bombardment Electron heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1200°C and monitoring down to 77K. Designed to work with our EBH range of heaters, with the option of RS232 or RS485 for monitoring.
Electron Bombardment Electron heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1200°C and monitoring down to 77K. Designed to work with our EBH range of heaters, with the option of RS232 or RS485 for monitoring.
Resistive heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1000°C and monitoring down to 77K. Designed to work with our PBN and wire range of heaters, with the option of RS232 or RS485 for monitoring.
Resistive heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1000°C and monitoring down to 77K. Designed to work with our PBN and wire range of heaters, with the option of RS232 or RS485 for monitoring.
Resistive heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1000°C and monitoring down to 77K. Designed to work with our PBN and wire range of heaters, with the option of RS232 or RS485 for monitoring.
Resistive heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1000°C and monitoring down to 77K. Designed to work with our PBN and wire range of heaters, with the option of RS232 or RS485 for monitoring.
Resistive heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1000°C and monitoring down to 77K. Designed to work with our PBN and wire range of heaters, with the option of RS232 or RS485 for monitoring.
Resistive heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1000°C and monitoring down to 77K. Designed to work with our PBN and wire range of heaters, with the option of RS232 or RS485 for monitoring.
Resistive heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1000°C and monitoring down to 77K. Designed to work with our PBN and wire range of heaters, with the option of RS232 or RS485 for monitoring.
Resistive heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1000°C and monitoring down to 77K. Designed to work with our PBN and wire range of heaters, with the option of RS232 or RS485 for monitoring.
Electron Bombardment Electron heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1200°C and monitoring down to 77K. Designed to work with our EBH range of heaters, with the option of RS232 or RS485 for monitoring.
Electron Bombardment Electron heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1200°C and monitoring down to 77K. Designed to work with our EBH range of heaters, with the option of RS232 or RS485 for monitoring.
Electron Bombardment Electron heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1200°C and monitoring down to 77K. Designed to work with our EBH range of heaters, with the option of RS232 or RS485 for monitoring.
Electron Bombardment Electron heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1200°C and monitoring down to 77K. Designed to work with our EBH range of heaters, with the option of RS232 or RS485 for monitoring.
Electron Bombardment Electron heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1200°C and monitoring down to 77K. Designed to work with our EBH range of heaters, with the option of RS232 or RS485 for monitoring.
Electron Bombardment Electron heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1200°C and monitoring down to 77K. Designed to work with our EBH range of heaters, with the option of RS232 or RS485 for monitoring.
Electron Bombardment Electron heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1200°C and monitoring down to 77K. Designed to work with our EBH range of heaters, with the option of RS232 or RS485 for monitoring.
Electron Bombardment Electron heating controller, 19" 3U rack mounted unit with options of "K" or "N" Type thermocouple. This form of heating offers temperatures upto 1200°C and monitoring down to 77K. Designed to work with our EBH range of heaters, with the option of RS232 or RS485 for monitoring.
Liquid feedthroughs are used to transfer fluids or gases through a Conflat flange into, or out of, a vacuum system. The LFT feedthroughs comprise of stainless steel tubes, terminating in a UHV leak tight connection on the vacuum side, using a copper gasket. The mating part of the connector is supplied, so you can weld you existing pipe work this, to make a UHV leak tight connection.
Liquid feedthroughs are used to transfer fluids or gases through a Conflat flange into, or out of, a vacuum system. The LFT feedthroughs comprise of stainless steel tubes, terminating in a UHV leak tight connection on the vacuum side, using a copper gasket. The mating part of the connector is supplied, so you can weld you existing pipe work this, to make a UHV leak tight connection.
A standardised range of configurable UHV chambers have been designed for your convenience. This configurable range of products, including skeletons, tubes, flanges and gaskets will make designing your chamber a simplistic task and will ensure the costs and lead time of your chamber design are kept within your time frames and your budget. Lead times can be as low as 7 weeks with the configurable range.
The MRD93 is a manual drive which uses high strength Sm2Co17 magnetic coupling to transfer rotational forces into the vacuum envelope. This is achieved without any dynamic seals or bellows making these devices exceptionally robust and no risk of a vacuum leak for the life of the drive.
The MRD91 is a manual or motorised magnetic rotary drive which uses high strength Sm2Co17 magnetic coupling to transfer rotational forces into the vacuum envelope. This is achieved without any dynamic seals or bellows making these devices exceptionally robust and no risk of a vacuum leak for the life of the drive. The MRD91 is fitted with Index scale and position lock.
The MRD6 is a manual or motorised magnetic rotary drive which uses high strength Sm2Co17 magnetic coupling to transfer rotational forces into the vacuum envelope. This is achieved without any dynamic seals or bellows making these devices exceptionally robust and no risk of a vacuum leak for the life of the drive. The MRD6 is fitted with Index scale and position lock.
The MRD91 is a manual or motorised magnetic rotary drive which uses high strength Sm2Co17 magnetic coupling to transfer rotational forces into the vacuum envelope. This is achieved without any dynamic seals or bellows making these devices exceptionally robust and no risk of a vacuum leak for the life of the drive. The MRD91 is fitted with Index scale and position lock.
The MRD6 is a manual or motorised magnetic rotary drive which uses high strength Sm2Co17 magnetic coupling to transfer rotational forces into the vacuum envelope. This is achieved without any dynamic seals or bellows making these devices exceptionally robust and no risk of a vacuum leak for the life of the drive. The MRD6 is fitted with Index scale and position lock.
A zero length viewport has a thickness no larger than that of its mounting flange. This makes it easier to protect from accidental damage. It provides the best angle of view as there are no tubulation walls to restrict observation. Kodial viewports are offered in CF flange styles. The viewports comprise borosilicate glass optic which is sealed to a Kovar weld ring using an induction heater process. The optic assemblies are helium leak tested and cleaned for ultra high vacuum (UHV) conditions.
A zero length viewport has a thickness no larger than that of its mounting flange. This makes it easier to protect from accidental damage. It provides the best angle of view as there are no tubulation walls to restrict observation. Kodial viewports are offered in CF flange styles. The viewports comprise borosilicate glass optic which is sealed to a Kovar weld ring using an induction heater process. The optic assemblies are helium leak tested and cleaned for ultra high vacuum (UHV) conditions.
A zero length viewport has a thickness no larger than that of its mounting flange. This makes it easier to protect from accidental damage. It provides the best angle of view as there are no tubulation walls to restrict observation. Kodial viewports are offered in CF flange styles. The viewports comprise borosilicate glass optic which is sealed to a Kovar weld ring using an induction heater process. The optic assemblies are helium leak tested and cleaned for ultra high vacuum (UHV) conditions.
A zero length viewport has a thickness no larger than that of its mounting flange. This makes it easier to protect from accidental damage. It provides the best angle of view as there are no tubulation walls to restrict observation. Kodial viewports are offered in CF flange styles. The viewports comprise borosilicate glass optic which is sealed to a Kovar weld ring using an induction heater process. The optic assemblies are helium leak tested and cleaned for ultra high vacuum (UHV) conditions.
A zero length viewport has a thickness no larger than that of its mounting flange. This makes it easier to protect from accidental damage. It provides the best angle of view as there are no tubulation walls to restrict observation. Kodial viewports are offered in CF flange styles. The viewports comprise borosilicate glass optic which is sealed to a Kovar weld ring using an induction heater process. The optic assemblies are helium leak tested and cleaned for ultra high vacuum (UHV) conditions.
A zero length viewport has a thickness no larger than that of its mounting flange. This makes it easier to protect from accidental damage. It provides the best angle of view as there are no tubulation walls to restrict observation. Kodial viewports are offered in CF flange styles. The viewports comprise borosilicate glass optic which is sealed to a Kovar weld ring using an induction heater process. The optic assemblies are helium leak tested and cleaned for ultra high vacuum (UHV) conditions.
A zero length viewport has a thickness no larger than that of its mounting flange. This makes it easier to protect from accidental damage. It provides the best angle of view as there are no tubulation walls to restrict observation. Kodial viewports are offered in CF flange styles. The viewports comprise borosilicate glass optic which is sealed to a Kovar weld ring using an induction heater process. The optic assemblies are helium leak tested and cleaned for ultra high vacuum (UHV) conditions.
A zero length viewport has a thickness no larger than that of its mounting flange. This makes it easier to protect from accidental damage. It provides the best angle of view as there are no tubulation walls to restrict observation. Kodial viewports are offered in CF flange styles. The viewports comprise borosilicate glass optic which is sealed to a Kovar weld ring using an induction heater process. The optic assemblies are helium leak tested and cleaned for ultra high vacuum (UHV) conditions.
A zero length viewport has a thickness no larger than that of its mounting flange. This makes it easier to protect from accidental damage. It provides the best angle of view as there are no tubulation walls to restrict observation. Kodial viewports are offered in CF flange styles. The viewports comprise borosilicate glass optic which is sealed to a Kovar weld ring using an induction heater process. The optic assemblies are helium leak tested and cleaned for ultra high vacuum (UHV) conditions.
A zero length viewport has a thickness no larger than that of its mounting flange. This makes it easier to protect from accidental damage. It provides the best angle of view as there are no tubulation walls to restrict observation. Kodial viewports are offered in CF flange styles. The viewports comprise borosilicate glass optic which is sealed to a Kovar weld ring using an induction heater process. The optic assemblies are helium leak tested and cleaned for ultra high vacuum (UHV) conditions.
Super clean ultra high quality oxygen free annealed copper gaskets for lower tightening torque to make a UHV leak tight seal. These are rumbled to remove all the burrs, UHV cleaned and individually packed. Recommended for use where you are using zero length viewports and fragile ceramic feedthroughs.
Super clean ultra high quality oxygen free annealed copper gaskets for lower tightening torque to make a UHV leak tight seal. These are rumbled to remove all the burrs, UHV cleaned and individually packed. Recommended for use where you are using zero length viewports and fragile ceramic feedthroughs.
Super clean ultra high quality oxygen free annealed copper gaskets for lower tightening torque to make a UHV leak tight seal. These are rumbled to remove all the burrs, UHV cleaned and individually packed. Recommended for use where you are using zero length viewports and fragile ceramic feedthroughs.
Super clean ultra high quality oxygen free annealed copper gaskets for lower tightening torque to make a UHV leak tight seal. These are rumbled to remove all the burrs, UHV cleaned and individually packed. Recommended for use where you are using zero length viewports and fragile ceramic feedthroughs.
Super clean ultra high quality oxygen free annealed copper gaskets for lower tightening torque to make a UHV leak tight seal. These are rumbled to remove all the burrs, UHV cleaned and individually packed. Recommended for use where you are using zero length viewports and fragile ceramic feedthroughs.
