Four way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Four way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Four way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Four way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Four way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Four way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Four way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Six way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Six way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Six way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Six way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Six way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Six way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Four way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Four way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Six way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Six way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Six way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Six way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Four way cross with flanges equally spaced at 90° to each other. On each axis, one of the flanges is fixed and the other is rotatable. The fixed flange comes in two versions of bolt hole orientation, inline or straddled configuration, enabling the connection in any orientation of the vacuum equipment.
Instrumentation feedthroughs are used to carry electrical signals (Including Thermocouple) which are normally low current and/or voltage. These feedthroughs are available in multi pin versions on either 34mm or 70mm OD flanges. These also come with the option of a European voltage compliant connectors
Instrumentation feedthroughs are used to carry electrical signals (Including Thermocouple) which are normally low current and/or voltage. These feedthroughs are available in multi pin versions on either 34mm or 70mm OD flanges. These also come with the option of a European voltage compliant connectors
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.
Flexible connectors are used to compensate for any misalignment between flanges that have to be linked together. On each axis, one of the flanges is fixed and the other is rotatable, enabling the connection in any orientation of the vacuum equipment.
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.
A zero length viewport has a thickness no larger than that of its mounting flange. It provides a wide angle viewing window for your vacuum chamber as there are no tubulation walls to restrict observation. Manufactured using high purity fused silica quartz.
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.
Instrumentation feedthroughs are used to carry electrical signals (Including Thermocouple) which are normally low current and/or voltage. These feedthroughs are available in multi pin versions on either 34mm or 70mm OD flanges. These also come with the option of a European voltage compliant connectors
Flexible connectors are used to compensate for any misalignment between flanges that have to be linked together. On each axis, one of the flanges is fixed and the other is rotatable, enabling the connection in any orientation of the vacuum equipment.
Flexible connectors are used to compensate for any misalignment between flanges that have to be linked together. On each axis, one of the flanges is fixed and the other is rotatable, enabling the connection in any orientation of the vacuum equipment.
Flexible connectors are used to compensate for any misalignment between flanges that have to be linked together. On each axis, one of the flanges is fixed and the other is rotatable, enabling the connection in any orientation of the vacuum equipment.
Flexible connectors are used to compensate for any misalignment between flanges that have to be linked together. On each axis, one of the flanges is fixed and the other is rotatable, enabling the connection in any orientation of the vacuum equipment.
Flexible connectors are used to compensate for any misalignment between flanges that have to be linked together. On each axis, one of the flanges is fixed and the other is rotatable, enabling the connection in any orientation of the vacuum equipment.
Flexible connectors are used to compensate for any misalignment between flanges that have to be linked together. On each axis, one of the flanges is fixed and the other is rotatable, enabling the connection in any orientation of the vacuum equipment.
Flexible connectors are used to compensate for any misalignment between flanges that have to be linked together. On each axis, one of the flanges is fixed and the other is rotatable, enabling the connection in any orientation of the vacuum equipment.
