Other Products / Services #207431

• Explosion protection to-CENELEC-IEC-NEC
• Can be used inZone 1 and Zone 2Zone 21 and Zone 22Class I, Zone 1 and Zone 2Class I, Division 1, Groups A, B, C, D
• Classied as IIC according to gas atmosphere.
• Copper-free aluminium enclosure, powder coated surface.
• Built-in MCB (miniature circuit breaker), MCCB (moulded case circuit breaker).
• Earth leakage protection device is optional.

The role of an air termination system is to capture the lightning discharge current and dissipate it harmlessly to earth via the down conductor and earth termination system. Therefore it is important to use a correctly designed air termination system.

IEC/BS EN 62305-3 advocates the following, in any combination, for the design of the air termination:

• Air rods (or finials) whether they are free standing masts or linked with conductors to form a mesh on the roof
• Catenary (or suspended) conductors, whether they are supported by free standing masts or linked with conductors to form a mesh on the roof
• Meshed conductor network that may lie in direct contact with the roof or be suspended above it (in the event that it is of paramount importance that the roof is not exposed to a direct lightning discharge) The standard makes it quite clear that all types of air termination systems that are used shall meet the positioning requirements laid down in the body of the standard. It highlights that the air termination components should be installed on corners, exposed points and edges of the structure.

The three basic methods recommended for determining the position of the air termination systems are:

• The rolling sphere method
• The protective angle method
• The mesh method

The role of an air termination system is to capture the lightning discharge current and dissipate it harmlessly to earth via the down conductor and earth termination system. Therefore it is important to use a correctly designed air termination system.

IEC/BS EN 62305-3 advocates the following, in any combination, for the design of the air termination:

• Air rods (or finials) whether they are free standing masts or linked with conductors to form a mesh on the roof
• Catenary (or suspended) conductors, whether they are supported by free standing masts or linked with conductors to form a mesh on the roof
• Meshed conductor network that may lie in direct contact with the roof or be suspended above it (in the event that it is of paramount importance that the roof is not exposed to a direct lightning discharge) The standard makes it quite clear that all types of air termination systems that are used shall meet the positioning requirements laid down in the body of the standard. It highlights that the air termination components should be installed on corners, exposed points and edges of the structure.

The three basic methods recommended for determining the position of the air termination systems are:

• The rolling sphere method
• The protective angle method
• The mesh method

The role of an air termination system is to capture the lightning discharge current and dissipate it harmlessly to earth via the down conductor and earth termination system. Therefore it is important to use a correctly designed air termination system.

IEC/BS EN 62305-3 advocates the following, in any combination, for the design of the air termination:

• Air rods (or finials) whether they are free standing masts or linked with conductors to form a mesh on the roof
• Catenary (or suspended) conductors, whether they are supported by free standing masts or linked with conductors to form a mesh on the roof
• Meshed conductor network that may lie in direct contact with the roof or be suspended above it (in the event that it is of paramount importance that the roof is not exposed to a direct lightning discharge) The standard makes it quite clear that all types of air termination systems that are used shall meet the positioning requirements laid down in the body of the standard. It highlights that the air termination components should be installed on corners, exposed points and edges of the structure.

The three basic methods recommended for determining the position of the air termination systems are:

• The rolling sphere method
• The protective angle method
• The mesh method

The role of an air termination system is to capture the lightning discharge current and dissipate it harmlessly to earth via the down conductor and earth termination system. Therefore it is important to use a correctly designed air termination system.

IEC/BS EN 62305-3 advocates the following, in any combination, for the design of the air termination:

• Air rods (or finials) whether they are free standing masts or linked with conductors to form a mesh on the roof
• Catenary (or suspended) conductors, whether they are supported by free standing masts or linked with conductors to form a mesh on the roof
• Meshed conductor network that may lie in direct contact with the roof or be suspended above it (in the event that it is of paramount importance that the roof is not exposed to a direct lightning discharge) The standard makes it quite clear that all types of air termination systems that are used shall meet the positioning requirements laid down in the body of the standard. It highlights that the air termination components should be installed on corners, exposed points and edges of the structure.

The three basic methods recommended for determining the position of the air termination systems are:

• The rolling sphere method
• The protective angle method
• The mesh method

The role of an air termination system is to capture the lightning discharge current and dissipate it harmlessly to earth via the down conductor and earth termination system. Therefore it is important to use a correctly designed air termination system.

IEC/BS EN 62305-3 advocates the following, in any combination, for the design of the air termination:

• Air rods (or finials) whether they are free standing masts or linked with conductors to form a mesh on the roof
• Catenary (or suspended) conductors, whether they are supported by free standing masts or linked with conductors to form a mesh on the roof
• Meshed conductor network that may lie in direct contact with the roof or be suspended above it (in the event that it is of paramount importance that the roof is not exposed to a direct lightning discharge) The standard makes it quite clear that all types of air termination systems that are used shall meet the positioning requirements laid down in the body of the standard. It highlights that the air termination components should be installed on corners, exposed points and edges of the structure.

The three basic methods recommended for determining the position of the air termination systems are:

• The rolling sphere method
• The protective angle method
• The mesh method

The role of an air termination system is to capture the lightning discharge current and dissipate it harmlessly to earth via the down conductor and earth termination system. Therefore it is important to use a correctly designed air termination system.

IEC/BS EN 62305-3 advocates the following, in any combination, for the design of the air termination:

• Air rods (or finials) whether they are free standing masts or linked with conductors to form a mesh on the roof
• Catenary (or suspended) conductors, whether they are supported by free standing masts or linked with conductors to form a mesh on the roof
• Meshed conductor network that may lie in direct contact with the roof or be suspended above it (in the event that it is of paramount importance that the roof is not exposed to a direct lightning discharge) The standard makes it quite clear that all types of air termination systems that are used shall meet the positioning requirements laid down in the body of the standard. It highlights that the air termination components should be installed on corners, exposed points and edges of the structure.

The three basic methods recommended for determining the position of the air termination systems are:

• The rolling sphere method
• The protective angle method
• The mesh method

The conductor network is the means of intercepting/carrying the current of a lightning strike safely to the earth termination network. Use the guidelines of BS EN 62305-1 & 3 for the correct placement of conductors.

Selection of the correct conductor type for the installation is highly important, and is likely to be the initial consideration of a lightning protection or earthing system designer.

A comprehensive range of Furse copper and aluminium conductors is available in each of the main globally recognised standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for an above ground structural lightning protection system, or a below ground earthing installation.

Conductors for structural lightning protection systemsFurse lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating. For most installations, copper is specified due to its high conductivity and anticorrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape

Solid circular conductor8 mm diameter bare or PVC covered solid circular conductor

Stranded conductor70 mm2 bare or PVC covered stranded conductor

The conductor network is the means of intercepting/carrying the current of a lightning strike safely to the earth termination network. Use the guidelines of BS EN 62305-1 & 3 for the correct placement of conductors.

Selection of the correct conductor type for the installation is highly important, and is likely to be the initial consideration of a lightning protection or earthing system designer.

A comprehensive range of Furse copper and aluminium conductors is available in each of the main globally recognised standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for an above ground structural lightning protection system, or a below ground earthing installation.

Conductors for structural lightning protection systemsFurse lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating. For most installations, copper is specified due to its high conductivity and anticorrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape

Solid circular conductor8 mm diameter bare or PVC covered solid circular conductor

Stranded conductor70 mm2 bare or PVC covered stranded conductor

The conductor network is the means of intercepting/carrying the current of a lightning strike safely to the earth termination network. Use the guidelines of BS EN 62305-1 & 3 for the correct placement of conductors.

Selection of the correct conductor type for the installation is highly important, and is likely to be the initial consideration of a lightning protection or earthing system designer.

A comprehensive range of Furse copper and aluminium conductors is available in each of the main globally recognised standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for an above ground structural lightning protection system, or a below ground earthing installation.

Conductors for structural lightning protection systemsFurse lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating. For most installations, copper is specified due to its high conductivity and anticorrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape

Solid circular conductor8 mm diameter bare or PVC covered solid circular conductor

Stranded conductor70 mm2 bare or PVC covered stranded conductor

The conductor network is the means of intercepting/carrying the current of a lightning strike safely to the earth termination network. Use the guidelines of BS EN 62305-1 & 3 for the correct placement of conductors.

Selection of the correct conductor type for the installation is highly important, and is likely to be the initial consideration of a lightning protection or earthing system designer.

A comprehensive range of Furse copper and aluminium conductors is available in each of the main globally recognised standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for an above ground structural lightning protection system, or a below ground earthing installation.

Conductors for structural lightning protection systemsFurse lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating. For most installations, copper is specified due to its high conductivity and anticorrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape

Solid circular conductor8 mm diameter bare or PVC covered solid circular conductor

Stranded conductor70 mm2 bare or PVC covered stranded conductor

The conductor network is the means of intercepting/carrying the current of a lightning strike safely to the earth termination network. Use the guidelines of BS EN 62305-1 & 3 for the correct placement of conductors.

Selection of the correct conductor type for the installation is highly important, and is likely to be the initial consideration of a lightning protection or earthing system designer.

A comprehensive range of Furse copper and aluminium conductors is available in each of the main globally recognised standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for an above ground structural lightning protection system, or a below ground earthing installation.

Conductors for structural lightning protection systemsFurse lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating. For most installations, copper is specified due to its high conductivity and anticorrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape

Solid circular conductor8 mm diameter bare or PVC covered solid circular conductor

Stranded conductor70 mm2 bare or PVC covered stranded conductor

The conductor network is the means of intercepting/carrying the current of a lightning strike safely to the earth termination network. Use the guidelines of BS EN 62305-1 & 3 for the correct placement of conductors.

Selection of the correct conductor type for the installation is highly important, and is likely to be the initial consideration of a lightning protection or earthing system designer.

A comprehensive range of Furse copper and aluminium conductors is available in each of the main globally recognised standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for an above ground structural lightning protection system, or a below ground earthing installation.

Conductors for structural lightning protection systemsFurse lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating. For most installations, copper is specified due to its high conductivity and anticorrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape

Solid circular conductor8 mm diameter bare or PVC covered solid circular conductor

Stranded conductor70 mm2 bare or PVC covered stranded conductor

The conductor network is the means of intercepting/carrying the current of a lightning strike safely to the earth termination network. Use the guidelines of BS EN 62305-1 & 3 for the correct placement of conductors.

Selection of the correct conductor type for the installation is highly important, and is likely to be the initial consideration of a lightning protection or earthing system designer.

A comprehensive range of Furse copper and aluminium conductors is available in each of the main globally recognised standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for an above ground structural lightning protection system, or a below ground earthing installation.

Conductors for structural lightning protection systemsFurse lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating. For most installations, copper is specified due to its high conductivity and anticorrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape

Solid circular conductor8 mm diameter bare or PVC covered solid circular conductor

Stranded conductor70 mm2 bare or PVC covered stranded conductor

Selection of the correct conductor type for the installation is highly important, and is likely to be the initial consideration of a lightning protection or earthing system designer.

A comprehensive range of copper and aluminium conductors is available in each of the main world standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for anabove ground structural lightning protection system, ora below ground earthing installation.Conductors for structural lightning protection systems

Lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating (see below). For most installations, copper is specified due to its high conductivity and anti-corrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

• Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape
• Solid circular conductor8 mm diameter bare or PVC covered solidcircular conductor
• Stranded conductor70 mm bare or PVC covered stranded conductor

A comprehensive range of copper and aluminium conductors is available in each of the main world standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for anabove ground structural lightning protection system, ora below ground earthing installation.Conductors for structural lightning protection systems

Lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating (see below). For most installations, copper is specified due to its high conductivity and anti-corrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

• Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape
• Solid circular conductor8 mm diameter bare or PVC covered solidcircular conductor
• Stranded conductor70 mm bare or PVC covered stranded conductor

• Bare Copper Tape
• Bare Aluminum Tape
• Bare Solid Circular
• Bare Stranded Copper Cable

A comprehensive range of copper and aluminium conductors is available in each of the main world standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for anabove ground structural lightning protection system, ora below ground earthing installation.Conductors for structural lightning protection systems

Lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating (see below). For most installations, copper is specified due to its high conductivity and anti-corrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

• Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape
• Solid circular conductor8 mm diameter bare or PVC covered solidcircular conductor
• Stranded conductor70 mm bare or PVC covered stranded conductor

A comprehensive range of copper and aluminium conductors is available in each of the main world standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for anabove ground structural lightning protection system, ora below ground earthing installation.Conductors for structural lightning protection systems

Lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating (see below). For most installations, copper is specified due to its high conductivity and anti-corrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

• Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape
• Solid circular conductor8 mm diameter bare or PVC covered solidcircular conductor
• Stranded conductor70 mm bare or PVC covered stranded conductor

A comprehensive range of copper and aluminium conductors is available in each of the main world standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for anabove ground structural lightning protection system, ora below ground earthing installation.Conductors for structural lightning protection systems

Lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating (see below). For most installations, copper is specified due to its high conductivity and anti-corrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

• Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape
• Solid circular conductor8 mm diameter bare or PVC covered solidcircular conductor
• Stranded conductor70 mm bare or PVC covered stranded conductor

A comprehensive range of copper and aluminium conductors is available in each of the main world standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for anabove ground structural lightning protection system, ora below ground earthing installation.Conductors for structural lightning protection systems

Lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating (see below). For most installations, copper is specified due to its high conductivity and anti-corrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

• Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape
• Solid circular conductor8 mm diameter bare or PVC covered solidcircular conductor
• Stranded conductor70 mm bare or PVC covered stranded conductor

A comprehensive range of copper and aluminium conductors is available in each of the main world standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for anabove ground structural lightning protection system, ora below ground earthing installation.Conductors for structural lightning protection systems

Lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating (see below). For most installations, copper is specified due to its high conductivity and anti-corrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

• Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape
• Solid circular conductor8 mm diameter bare or PVC covered solidcircular conductor
• Stranded conductor70 mm bare or PVC covered stranded conductor

A comprehensive range of copper and aluminium conductors is available in each of the main world standard formats, i.e. flat tape, solid circular and stranded. Additionally each format is available in a variety of conductor sizes, to meet differing lightning protection and earthing requirements.

Specification will depend on whether the application is for anabove ground structural lightning protection system, ora below ground earthing installation.Conductors for structural lightning protection systems

Lightning protection conductors are available in copper and aluminium, and are supplied bare or with PVC coating (see below). For most installations, copper is specified due to its high conductivity and anti-corrosive properties.

The following sizes are suitable for the majority of above ground lightning protection systems:

• Flat tape conductor25 x 3 mm bare tape, or 25 x 3mm PVC covered tape
• Solid circular conductor8 mm diameter bare or PVC covered solidcircular conductor
• Stranded conductor70 mm bare or PVC covered stranded conductor

Quality earth rods are commonly made from either solid copper, stainless steel or copperbonded steel. Three types of earth rod are available, but the copperbonded steel cored rod is by far the most popular, due to its combination of strength, corrosion resistance and comparatively low cost.

Solid copper and stainless steel rods offer a very high level of corrosion resistance at the expense of lower strength and higher cost.

Diameter of rodOne common misconception is that the diameter of the rod has a drastic effect on lowering earth resistance. This is not true! As the graph shows, you only lower the resistance value by 9.5 per cent by doubling the diameter of the rod (which means increasing the weight and the cost of the rod by approximately 400 percent). Thus the rationale is: Use the most economical rod that soil conditions will allow you to drive. This is one of the ways to ensure that you dont waste money on over-dimensioned rods.

Thread and shank diametersConfusion often arises between thread and shank diameters for threaded rods. The thread rolling process, used by quality rod manufacturers, raises the surface of the rod so that thread diameter is greater than shank diameter. All threads are Unified National Coarse (UNC-2A).

Quality earth rods are commonly made from either solid copper, stainless steel or copperbonded steel. Three types of earth rod are available, but the copperbonded steel cored rod is by far the most popular, due to its combination of strength, corrosion resistance and comparatively low cost.

Solid copper and stainless steel rods offer a very high level of corrosion resistance at the expense of lower strength and higher cost.

Diameter of rodOne common misconception is that the diameter of the rod has a drastic effect on lowering earth resistance. This is not true! As the graph shows, you only lower the resistance value by 9.5 per cent by doubling the diameter of the rod (which means increasing the weight and the cost of the rod by approximately 400 percent). Thus the rationale is: Use the most economical rod that soil conditions will allow you to drive. This is one of the ways to ensure that you dont waste money on over-dimensioned rods.

Thread and shank diametersConfusion often arises between thread and shank diameters for threaded rods. The thread rolling process, used by quality rod manufacturers, raises the surface of the rod so that thread diameter is greater than shank diameter. All threads are Unified National Coarse (UNC-2A).

Quality earth rods are commonly made from either solid copper, stainless steel or copperbonded steel. Three types of earth rod are available, but the copperbonded steel cored rod is by far the most popular, due to its combination of strength, corrosion resistance and comparatively low cost.

Solid copper and stainless steel rods offer a very high level of corrosion resistance at the expense of lower strength and higher cost.

Diameter of rodOne common misconception is that the diameter of the rod has a drastic effect on lowering earth resistance. This is not true! As the graph shows, you only lower the resistance value by 9.5 per cent by doubling the diameter of the rod (which means increasing the weight and the cost of the rod by approximately 400 percent). Thus the rationale is: Use the most economical rod that soil conditions will allow you to drive. This is one of the ways to ensure that you dont waste money on over-dimensioned rods.

Thread and shank diametersConfusion often arises between thread and shank diameters for threaded rods. The thread rolling process, used by quality rod manufacturers, raises the surface of the rod so that thread diameter is greater than shank diameter. All threads are Unified National Coarse (UNC-2A).

Quality earth rods are commonly made from either solid copper, stainless steel or copperbonded steel. Three types of earth rod are available, but the copperbonded steel cored rod is by far the most popular, due to its combination of strength, corrosion resistance and comparatively low cost.

Solid copper and stainless steel rods offer a very high level of corrosion resistance at the expense of lower strength and higher cost.

Diameter of rodOne common misconception is that the diameter of the rod has a drastic effect on lowering earth resistance. This is not true! As the graph shows, you only lower the resistance value by 9.5 per cent by doubling the diameter of the rod (which means increasing the weight and the cost of the rod by approximately 400 percent). Thus the rationale is: Use the most economical rod that soil conditions will allow you to drive. This is one of the ways to ensure that you dont waste money on over-dimensioned rods.

Thread and shank diametersConfusion often arises between thread and shank diameters for threaded rods. The thread rolling process, used by quality rod manufacturers, raises the surface of the rod so that thread diameter is greater than shank diameter. All threads are Unified National Coarse (UNC-2A).

Where permanent connections are not appropriate, mechanical clamps offer the ideal solution. These are typically used on smaller scale installations where periodic disconnection for testing is required.

All mechanical clamps are manufactured from high copper content alloy. They have high mechanical strength, excellent corrosion resistance and conductivity.

Our range of earthing clamps are designed for connection of conductors to earth rods, reinforcing bars, steam pipes, handrails etc Manufactured to offer corrosion resistance, conductivity and mechanical strength, these are essential considerations in an earthing design to ensure an earthing system remains operative for many years.

All earth rod clamps have high strength copper alloy bodies and screws e.g. aluminium bronze, phosphor bronze etc., commercial brass is not used.

Where permanent connections are not appropriate, mechanical clamps offer the ideal solution. These are typically used on smaller scale installations where periodic disconnection for testing is required.

All mechanical clamps are manufactured from high copper content alloy. They have high mechanical strength, excellent corrosion resistance and conductivity.

Our range of earthing clamps are designed for connection of conductors to earth rods, reinforcing bars, steam pipes, handrails etc Manufactured to offer corrosion resistance, conductivity and mechanical strength, these are essential considerations in an earthing design to ensure an earthing system remains operative for many years.

All earth rod clamps have high strength copper alloy bodies and screws e.g. aluminium bronze, phosphor bronze etc., commercial brass is not used.

Where permanent connections are not appropriate, mechanical clamps offer the ideal solution. These are typically used on smaller scale installations where periodic disconnection for testing is required.

All mechanical clamps are manufactured from high copper content alloy. They have high mechanical strength, excellent corrosion resistance and conductivity.

Our range of earthing clamps are designed for connection of conductors to earth rods, reinforcing bars, steam pipes, handrails etc Manufactured to offer corrosion resistance, conductivity and mechanical strength, these are essential considerations in an earthing design to ensure an earthing system remains operative for many years.

All earth rod clamps have high strength copper alloy bodies and screws e.g. aluminium bronze, phosphor bronze etc., commercial brass is not used.

Where permanent connections are not appropriate, mechanical clamps offer the ideal solution. These are typically used on smaller scale installations where periodic disconnection for testing is required.

All mechanical clamps are manufactured from high copper content alloy. They have high mechanical strength, excellent corrosion resistance and conductivity.

Our range of earthing clamps are designed for connection of conductors to earth rods, reinforcing bars, steam pipes, handrails etc Manufactured to offer corrosion resistance, conductivity and mechanical strength, these are essential considerations in an earthing design to ensure an earthing system remains operative for many years.

All earth rod clamps have high strength copper alloy bodies and screws e.g. aluminium bronze, phosphor bronze etc., commercial brass is not used.

Where permanent connections are not appropriate, mechanical clamps offer the ideal solution. These are typically used on smaller scale installations where periodic disconnection for testing is required.

All mechanical clamps are manufactured from high copper content alloy. They have high mechanical strength, excellent corrosion resistance and conductivity.

Our range of earthing clamps are designed for connection of conductors to earth rods, reinforcing bars, steam pipes, handrails etc Manufactured to offer corrosion resistance, conductivity and mechanical strength, these are essential considerations in an earthing design to ensure an earthing system remains operative for many years.

All earth rod clamps have high strength copper alloy bodies and screws e.g. aluminium bronze, phosphor bronze etc., commercial brass is not used.

Wherever computers and other electronic equipment are connected to a mains power supply they are at risk from transient overvoltages caused by electrical switching or secondary effect of lightning, exposing them to

• Data loss and disruption
• Component degradation and damage
• Costly systems downtime

Install protection at the main distribution board (service entrance), sub-distribution board and local equipment to BS 7671, using:

• lightning current / equipotential bonding SPDs
• AC power SPDs
• plug-in SPDs for local sensitive and critical equipment
• DC power SPDs (including photovoltaic systems)
• SPDs for 690 V wind turbines

Aswathy provides a wide range of electronic systems accessories, including everything from enclosures and earthing kits, through to cable assembly connections and mounting plates.

• Use with: ESP M1R, M2R, M4R and D1R Variants

Aswathy provides a wide range of electronic systems accessories, including everything from enclosures and earthing kits, through to cable assembly connections and mounting plates.

Aswathy provides a wide range of electronic systems accessories, including everything from enclosures and earthing kits, through to cable assembly connections and mounting plates

Aswathy provides a wide range of electronic systems accessories, including everything from enclosures and earthing kits, through to cable assembly connections and mounting plates.

Aswathy can provide the full range of house wiring cables from 1.5 mm to 1000 mm with wide range of core colours. The conductor is plain annealed solid or stranded Copper conductors insulated withPVC or Heat Resistant PVC as per BS EN 50535-3-41. Oman Cablesalso manufactures twin flat wires up to 6mm with or without Earth continuity conductor.

The complete range of Wiring cables can be manufactured using Low Smoke Zero Halogen thermosetting insulation compounds conforming to BS EN 50535-2-31 or with compounds to suit customers specific requirements.

600/1000 V grade, plain annealed Copper conductor. XLPE insulated, multi-core cables laid up andinner sheathed with PVC, round galvanized steel wire armored for multi cores and aluminium wirearmored for single cores and outer jacket with PVC.

Range:

• From 1C x 10 mmto 1C x 1000 mm
• From 2C x 1.5 mm to 4C x 400 mm

Specification:BS-5467, IEC 60502, part-1;S-6724 as per Iraq specs or any other international standards, as well as customer specification. We also manufacture the cables for special applications which requireenhanced fire performances as per IEC-60332-3, Low Smoke Zero Halogen characteristics as perBS6724, lead sheathed cables, anti-termite treatment, UV resistant & Water blocking feature, tinnedcopper wires in the armor for higher armor conductivity etc.

600/1000V Grade Plain annealed Copper conductor, PVC insulated, multi-core cables laid up and inner-sheathed with PVC, round galvanized steel wirearmored for multi-cores and aluminium wire armored for single core and outer jacket with PVC.

Range:

• From 1C x 10 mm to 1C x 1000 mm
• From 2C x 1.5 mm to 4C x 400 mm

Specifications:IEC-60502 Part-1, as per Iraq specs or any other international standards as well as customer specifications. We also manufacture the cablesfor special applications which require enhance fire performance as per IEC-60332-1 & IEC-60332-3, lead sheathed cables, anti-termite treatment, UVresistant, water blocking feature, tinned copper wires in the armor for higher armor conductivity etc.

Aswathy has capability to provide completerange of overhead line conductors inAluminium, Aluminium Alloy and Copper.The standard range includes sizes up to1000mm as per BS, IEC, DIN, ASTM, or any other international standard andcustomers specifications for all voltageapplications. We can also provide conductorswith XLPE or PVC covering.The standard types of conductors in ourpresent manufacturing range are as follows:

• AAC All Aluminium Conductors
• AAAC All Aluminium Alloy Conductor
• ACSR Aluminium Conductor Steel Reinforced
• HDBC Hard Drawn Bare Copper conductor
• SDBC Soft Drawn Bare copper Conductor
• AAC + XLPE All Aluminium Conductor with XLPE insulation
• AAC + PVC All Aluminium conductors with PVE insulation

Cable Ladder System is designed to offer high loading capacities together with significant weight reductions. Cable Ladders are designed to be safe, and give distinct benefits.

• For light loads such as instrumentation, data & telecom cables
• Corrosion resistant fibre reinforced plastic ladders
• Smart Cable Ladders for Ships
• Cable ladder for infrastructure Projects

Features:

• Solid side rail protection and system strength with smooth radius fittings.
• Maximum strength for long span applications
• Standard widths of 6, 12, 18, 24, 30 & 36 inches
• Standard depths of 3, 4, 5 & 6 inches
• Standard lengths of 10, 12, 20 & 24 feet
• Rung spacing of 6, 9, 12 & 18 inches.

• Cable Tray
• Cable Ladders
• Basket Trays
• Cable Tray Support System & Accessories
• STRUT Channels HDGI, SS & GRP & Fixing Accessories
• SS Tube Trays
• HDPE DUCT
• Conduit Pipes & Accessories
• Floor Boxes & Trunking systems
• Underground Cable Trunking
• Trefoil cleats & Trefoing Clamps / Cable Support systems
• Cable Protection systems
• Cable Identification & Root Markers

Cable Trays are made of either Steel, Aluminum, Fiber Reinforced Plastic (FRP) and we provide the following six different types and are available in Standard Width, Depth and Length

• Ladder Type Cable Tray
• Solid Bottom Cable Tray
• Trough Cable Tray
• Channel Cable Tray
• Wire Mesh Cable Tray
• Single Rail Cable Tray