Type 2 Premium Alarm Cables

Type 2 Premium Alarm Cables

Available in a range of sheathing types to suit individual needs, Type 2 Alarm Cable is used for hard-wired alarm, security systems and other low voltage circuits. It connects elements of the system together, allowing for normal operation of all components.

A number of our Type 2 Premium Alarm Cables are Direct Burial Alarm cables, designed to be installed directly into the ground without the need for ducting. Direct Burial Cable withstands any moisture and will not suffer any damage if exposed to damp environments. The strength and quality of DB sheath allows for maximum protection for the internal construction of the cable.

Available in tinned copper or TCCA conductor with a double PE sheath, these cables are ideal for external use within intruder alarm and security systems and other low voltage circuits.

Application

Designed for use within intruder alarm and security systems and other low voltage circuits.

Construction

  • Conductor – Tinned copper
  • Insulation – PVC
  • Sheath – PVC, LSF, PE Duct or DB
  • Sheath colours – White or black
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Features & Benefits of Defence Standard Cables

Features & Benefits of Defence Standard Cables

Originally designed for use within the military sector, Defence Standard Cables (often referred to as Def Stan in the industry) can withstand harsh environments. They’re most often used in the military industry.In this handy guide, we’ll go over what a Defence Standard Cable contains, as well as the benefits of using them.Features of Defence Standard CablesThere are 3 different types of Defence Standard Cables:Type A: Unscreened Type S: Foil Screened Type C: Braided Screened (To view our guide about all things screening, click here!)Def Stan Cables are generally used for connecting electronic equipment, particularly for equipment that requires high-density wiring. They feature multiple cores, making them a great option for military equipment, aircrafts, and data processors.They also tend to feature Low Smoke Zero Halogen (LSZH) outer sheathing, so in the event of a fire, the burning cable will not emit any smoke and little harmful gases. This vital for protecting those that may be trying to escape the fire, particularly if the cables are installed in an enclosed area.It’s important to note that due to their high voltage, Defence Standard Cables should not be used as mains connection cables.Benefits of Using Defence Standard CablesDefence Standard Cables feature a high voltage range, meaning that they allow for a higher efficiency of power transfer over further distances. The foil and braided screening featured on Type S and Type C Def Stan Cables, respectively, offer a high level of protection against electromagnetic interference.As well as this, Defence Standard Cables are super robust, both internally and externally. They are constructed specifically to withstand harsh environments. This includes low temperatures and high altitudes, as well as the general variable environments that one may come into contact with during combat.Being produced to withstand harsh environments means that Def Stan Cables are also resistant to offshore conditions. They will not corrode in seaside environments, so are perfect for electronics that are featured within marine vessels.Overall, if you’re looking for a super robust Cable that’s not for mains electronic applications, Defence Standard Cables may be the right choice for you. You can read more about the defence standard cable applications.If you have any questions that weren’t answered in this article, please click here to speak to someone from our team of experts. We’re always happy to help!

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What Is Coaxial Cable Used For?

What Is Coaxial Cable Used For?

What Makes Up A Coaxial Cable?Coaxial cables are designed in a way that makes them the most suitable and efficient for their most common uses. The make-up of a coaxial cable is as follows:The core consists of an inner centre wire conductor A layer of insulating plastic is then wrapped around the core Wire mesh is then wrapped around the cable for added insulation The cable is finished in a rubber jackets or sheath, which prevents signal interference. Coaxial cables often feature sheaths that are UV, chemical, halogen and flame resistant as they’re commonly used in homes so need to be a safe choice for families. The ends of the coaxial cable will also feature a thin layer of copper that can be screwed into cable boxes and other receiving electronics.The multiple layers of coaxial cable often result in it producing a thick, round shape – usually, coaxial cables are available in black, white or brown.Coaxial Cable Uses & ApplicationsCoaxial cables are used predominantly for transmitting video, data and radio frequency signals, which is what makes them so great for use with TV and satellite connections. Traditionally, coax cables have been used to connect transmitters and receivers with antennas for cable television signals.The cables can be connected directly from the wall outlet to a television or cable box, making installation in the home easy even for beginners. They can also be used to connect VCRs to television sets, or connecting antennas to television sets too.Some common coaxial cable types include:RG6 Coaxial Cables – these are used primarily for television. Their impedance of 75 Ohm allows them to carry signals more efficiently. RG 11 Coaxial Cables – these cables are commonly used for HDTV purposes. Their high-quality signal translates to high-quality picture. RG59 Coaxial Cables – these cables are used mostly for CCTV systems as they can run over long distances and are easy to work with. RF Coaxial Cables – these are radio frequency cables and are the standard input cable for television – usually supplied with a pin, they can be plugged straight into the input on the device. Coaxial Cable Advantages & DisadvantagesAdvantagesCoaxial cables boast many advantages over other forms of transmission cables.They work well at high frequencies Can be used when there is poor attenuation Their shielding prevents interference They’re cost effective They can be cut to length, preventing any wasted cable from buying in bulk Transfer capacity of 10mbps These factors make them a great choice for common use in the home.DisadvantagesAlthough a great option, coaxial cables aren’t perfect for every installation. Some limitations of the cables that may make them unsuitable for certain projects include the following:The cables are bulky due to their many layers and cannot be made smaller.The coaxial screw for installation must match the unit – this can make installation and removal difficult and can require toolsOverall, the positives far outweigh the negatives, making coaxial cables a great cable for a wide variety of uses. For more information, get in touch with our friendly team, or explore our range of coaxial cables here.

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Securi-Flex® Launches Brand New Website!

Securi-Flex® Launches Brand New Website!

ANNOUNCEMENT! We're thrilled to announce that our new website has been launched - that's right, we're back, and better than ever!Check Out What's NewOur new website is packed full of industry-leading features such as:Improved product filtering 3D modelled product images Easy to download Data Sheets Brand new tools and functions Find A Wholesaler tool News article hub with super simple filter navigation - find out FAQs, Industry news, installation tips and more!  It’s now even easier to compare cable, use our calculators to find what you need and discover a point of purchase near you. With new intuitive search, easy navigation and in-depth product information, we hope you love it as much as we do.

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Drum-Roll by Securi-Flex® - Our Brand New Cable Handling Range!

Drum-Roll by Securi-Flex® - Our Brand New Cable Handling Range!

ANNOUNCEMENT!Drum-Roll, our brand new range of cable handling equipment, is an innovative and durable range set to transform the way cables, coils and conduit are managed and handled on-site.The range, consisting of coil rollers, drum rollers, lifting jacks and more, is built to incredibly high standards, made from sustainable metal materials and has received multiple awards for innovation.Take a look at the full range in the video below, or browse online today.

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RS485 Cable vs Other Communication Standards - What’s the Difference?

RS485 Cable vs Other Communication Standards - What’s the Difference?

RS485, RS232, and Ethernet are different communication standards used in various applications. In this guide, we will compare them in terms of their advantages, limitations, and suitable applications.RS485 CableWhat are the advantages of RS485?RS485 cables support long-distance communication (up to 1200m) and multi-drop network configurations, allowing multiple devices to be connected on a single bus. They feature excellent noise immunity, making them suitable for industrial environments. RS485 modbus cables are also well known for their robustness, reliability, and simple wiring.What limitations may you come across with RS485 cable?RS485 has a lower data transfer rate compared to Ethernet and USB. It does not provide power over the cable length, so separate power connections may be required for connected devices.What applications is RS485 most suitable for?RS485 is commonly used in industrial automation, process control systems, building automation, and HVAC systems.RS232 CableWhat are the advantages of RS232?RS232 cables support short-distance communication (up to 15m) and are widely available on older computer systems. They have a simple and straightforward interface, making them easy to implement.What limitations may you come across with RS232?RS232 is limited in terms of data transfer rate and cannot support long-distance communication without signal degradation or additional repeaters. It is susceptible to noise interference, making it less suitable for industrial environments.What applications is RS232 cable most suitable for?RS232 is often used for point-to-point communication between a computer and peripherals such as modems, printers, and serial devices. For more information on this, check out our article on how RS232 cable can be used to connect legacy systems with modern technology.Ethernet CableWhat are the advantages of Ethernet?Ethernet provides high-speed data transfer rates (typically up to Gigabit or higher) and supports long-distance communication (up to 100m with standard Ethernet cables). It offers a standardised networking protocol and is widely used in LAN (Local Area Network) environments.What limitations may you come across with Ethernet?Ethernet requires more complex wiring and networking infrastructure compared to RS485 or RS232. It may not be as robust in harsh industrial environments, due to its sensitivity to electrical noise.What applications is Ethernet most suitable for?Ethernet is commonly used for computer networking, internet connectivity, IP-based cameras, and data-intensive applications.What is the compatibility between RS485, RS232 & Ethernet?RS232 and RS485 use different electrical signalling and voltage levels, so you cannot directly connect an RS232 cable to an RS485 device. You would need a converter or an RS232 to RS485 adapter to communicate between the two standards.Ethernet Cable vs. RS485: Ethernet cables, such as Cat5e or Cat6, cannot be directly used for RS485 communication. Ethernet cables have different wiring configurations and use different signalling methods compared to RS485. An appropriate RS485 cable or converter is needed for RS485 communication.Cat5e cables are commonly used for Ethernet networking, not RS485. However, with proper wiring configuration, Cat5e cables can be used for RS485 communication in some cases. It is important to follow the correct pinout and ensure the wiring matches the RS485 standard.In summary:RS485 is a suitable choice for long-distance and multi-drop communication in industrial environments RS232 is useful for short-distance point-to-point connections Ethernet excels in high-speed Local Area Network (LAN) If you have any questions that weren’t answered in this guide, please do not hesitate to get in touch with our friendly team. We’re always happy to help!

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Demystifying American Wire Gauge (AWG)

Demystifying American Wire Gauge (AWG)

What is American Wire Gauge?American Wire Gauge (AWG) is the standard method used in the United States to determine the size of electrical copper wires. Understanding AWG is crucial for various applications, including electrical installations, electronics, automotive, and more.AWG is a numerical designation that represents the diameter of a wire. As the gauge number increases, the wire diameter decreases. For instance, a 22 AWG wire is smaller in diameter compared to a 14 AWG wire.How is the AWG Determined?The AWG system bases itself on a geometric progression. Each step in the AWG scale roughly doubles the cross-sectional area of the wire. The formula to determine the wire diameter (in inches) from the AWG number is:D(AWG) = 0.005 * 92 ((36-AWG)/39) inchHowever, for practical purposes, most wire size charts are readily available that list the AWG number, diameter, and current-carrying capacity.Factors Influencing AWG Selection:Current Capacity - The most crucial factor in choosing the right wire gauge is its ability to handle the current without overheating. In an electrical circuit, the current flows through conductive materials such as; wires, switches, and components. As the current passes through these elements, it encounters resistance and reactance, which generates heat. The wire's size and material, as well as the overall circuit design, influence the amount of current it can safely handle. Thinner wires with higher gauge numbers carry less current, while thicker wires with lower gauge numbers carry more current. Voltage Loss - Over longer wire runs, voltage drop may become a concern due to electrical resistance. Thicker wires with lower gauge numbers reduce voltage drop, ensuring the equipment receives the required voltage. Application - Different applications have specific requirements which will influence the cable size. For example, household wiring typically uses 12 or 14AWG for 15-amp and 20-amp circuits. On the other hand, small electronics may only require 24AWG. Environment - The environmental factors of where the cable is installed will determine the size of the wire required. For external applications for example, a thicker more robust wire may be more suitable. Flexibility - Thin, high AWG wires are more flexible, while lower AWG wires are stiffer and better suited for industrial applications. Common AWG Wire Sizes and Applications:20-26AWG - Typically used for small electronics and low-power applications. 18-16AWG - Suitable for lighting circuits, thermostat wiring, and general household applications. 14-12AWG - Commonly used for 15-amp and 20-amp household circuits, power tools, and light fixtures. 10-8AWG - Found in high-power circuits, such as kitchen appliances and heavy-duty power tools. 6AWG and below - Used in large appliances, industrial machinery, and electrical distribution systems. Consulting Wire Size Charts:To make the right choice, it is always best to consult wire size charts or online calculators.There are a range of suitable tools to help you, including voltage drop calculators, AWG converters etc.Use our American Wire Gauge Converter to help you choose the right wire size for your needs.Conclusion:Determining the appropriate AWG wire size is essential for ensuring safe and efficient electrical installations.Factors such as current capacity, voltage drop, application, environment, and flexibility play a vital role in making the right selection.By understanding the AWG and using appropriate wire size charts, you can choose the appropriate wire gauge for your specific needs.Always prioritise safety and consult a professional if you are unsure about the appropriate wire size for your application.If you have any questions that weren’t answered in this article, please do not hesitate to get in touch with our friendly team.We’re always happy to help!

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Bridging the Gap Between Legacy Systems & Modern Technology

Bridging the Gap Between Legacy Systems & Modern Technology

RS232 Systems:In the ever evolving world of technology, the role of RS232 cables might seem like a thing of the past.However, these type of cables play a vital role in bridging the gap between legacy systems and today's cutting-edge technologies.Understanding RS232 Cables:RS232 cables, also known as serial cables, have been used for communication protocols since the early days of computing.They are designed to transfer and receive data between devices, using a series of electrical pulses through a serial port.The RS232 standard defines the voltage levels, signalling, and pin configurations for these cables, making them compatible with various data communication equipment.The Role of RS232 Cables in Legacy Systems:RS232 cables served as a lifeline for legacy systems, enabling communication between devices that lacked modern interfaces such as USB or Ethernet.They found extensive use in connecting computers to peripherals like modems, printers, and serial devices.Many industrial systems and scientific instruments also relied on RS232 connections to transmit data.Integration and Adaptation - RS232 to USB:As technology progressed, new interfaces such as USB and Ethernet began to dominate the scene, rendering RS232 seemingly outdated.However, rather than fading away, RS232 cables adapted to the changing environment. One significant adaptation is the introduction of RS232 to USB converters or adapters.RS232 to USB adapters offer a bridge between legacy devices with RS232 ports and modern computers with USB interfaces.These adapters convert the RS232 signal to USB, allowing older devices to seamlessly communicate with the latest technology.This integration has proven crucial for electronic industries that continue to use legacy systems, as it prevents costs & disruption.Modern Applications of RS232 Cables:RS232 cables have found a place in a range of modern applications, proving their versatility and reliability within advancing technology.Some modern applications of RS232 cables include:Networking Equipment Configuration - Many networking devices, such as routers and switches, feature RS232 ports for configuration and management purposes. Network administrators use RS232 cables to send data for setting up and troubleshooting these devices. Industrial Automation - Industries with established processes often operate on legacy systems that rely on RS232 communication. RS232 cables are used to interface with programmable logic controllers (PLCs), human-machine interfaces (HMIs), and other industrial equipment. Serial Communication for Specialised Devices - Some devices and instruments require serial communication due to their specific data transfer needs. RS232 cables remain a preferred choice for such applications, where a simple, robust connection is essential. RS232 Connectors in Modern Devices:Despite more advanced communication interfaces, RS232 ports can still be found in some modern devices.While they may not be as common as USB or Ethernet ports, certain industries and devices prefer RS232 connectors for their distinct advantages, such as immunity to electromagnetic interference and reliability over long distances.Conclusion:RS232 cables have shown adaptability, to remain relevant in today's technology landscape.From playing a critical role in legacy systems, to seamlessly integrating with modern devices through RS232 to USB adapters, these cables continue to be a reliable bridge between the past and the future of data communication.Their application in networking equipment configuration, industrial automation, and specialised devices outlines their continued importance in various sectors.As technology continues to evolve, RS232 cables will likely persist as an enduring and essential component of data communication solutions for years to come.Securi-Flex® stock a range of Belden Equivalents which are suitable for RS232 Applications.If you have any questions that weren’t answered in this article, please do not hesitate to get in touch with our friendly team.We’re always happy to help!

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The Backbone of Modern Military Technology

The Backbone of Modern Military Technology

What is the Function of Defence Standard Cables?In modern warfare, where precision, speed, and reliability are crucial, the importance of Defence Standard Cables cannot be denied.These crucial components serve as the lifelines that connect and power various military technologies, enabling seamless communication, data transmission, and control.Defence standard cables have gone above their conventional role to act as enablers of the advanced functionalities of today’s Military. Defence Cables: Unseen Heroes of Communication SystemsCommunication is the foundation of military operations, and Defence Standard Cables ensure the effectiveness.Where instant and secure communication makes all the difference, Defence Standard Cables provide the basis for:Encrypted transmissions - Decoding information that only authorised parties with the appropriate decryption key can understand and decipher the original message. Real-time data sharing - Exchange of information between individuals, devices, or systems. Battlefield coordination - Organised management of military operations, where various units, teams, and assets work together to achieve strategic objectives. Defence Cables facilitate the flow of information, helping commanders make informed decisions. Wiring the Skies: Defence Cables in Radar SystemsRadar systems are the eyes of the military, detecting and tracking threats across a vast range of distances.Behind the scenes, Defence Standard Cables enable the intricate interplay of electromagnetic waves and signals that power the Radar Systems.Defence cables ensure low signal loss, minimal interference, and high data integrity. This allows radar operators to identify and respond to potential threats swiftly and accurately. UAVs: The Strength of Defence Standard CablesUnmanned Aerial Vehicles (UAVs), or drones, have changed modern warfare with their adaptability and strategic capabilities.Defence Cables play a crucial role in UAVs, connecting control stations with airborne platforms, sensor data, and real-time video streaming.The reliability and robustness of these cables are paramount, ensuring that UAVs can operate seamlessly even in challenging environments. Naval Warfare and Subsea Defence CablesIn Naval Warfare, where the Maritime Domain presents unique challenges, Defence Standard Cables demonstrate their resilience.These cables serve as the core of naval vessels, connecting complex systems ranging from communication networks to propulsion and weapon systems.Furthermore, they extend to underwater applications, linking submerged sensors and communication arrays that provide critical awareness in subsea environments. Hostile Environments Demand Defence CablesThe battlefield is not a forgiving place, with extreme temperatures, vibrations, EMI, and exposure to hazardous materials.Defence standard cables thrive in hostile environments, showcasing their ruggedness and durability.These cables resist physical stress, harsh weather conditions, and cyber threats. This ensures that military technologies remain effective under the most demanding circumstances. Innovation and Future ProspectsAs military technologies continue to evolve, so too will the demands placed on defence standard cables.The rise of artificial intelligence, quantum technologies, and advanced sensor networks will require cables with enhanced data-carrying capacities and resilience.Researchers and manufacturers work diligently to develop cables that meet these demands, contributing to the efficiency of military operations. ConclusionDefence standard cables underpin the functionality of modern military technology.From communication systems that enable real-time coordination to radar systems that identify potential threats. These cables play a pivotal role in safeguarding countries and ensuring the success of military operations.As technology advances, Defence Cables will continue to adapt, remaining at the forefront of innovation and resilience.Securi-Flex® offer a range of Defence Standard Cables which are available directly from stock.If you have more questions, feel free to contact our friendly team. We’re always happy to help!

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Ensuring Safe and Compliant Electrical Installations

Ensuring Safe and Compliant Electrical Installations

CPR and BS6701:2016+A1:2017Construction Products Regulations (CPR):The Construction Industry has witnessed significant advancements in electrical systems and technology. This in turn has led to safer and more efficient electrical installations.Various standards and regulations govern these advancements in the United Kingdom and across the European Union.Two crucial standards that play a pivotal role in ensuring electrical safety and compliance are:Construction Products Regulation (CPR) British Standard BS6701:2016+A1:2017  What is CPR?CPR, or the Construction Products Regulation, is a European Union (EU) Regulation that came into effect in 2011.The primary purpose of CPR is to harmonise the performance requirements for Construction Products, including cables, within the EU Member States.CPR Categorises Construction Products into different classes based on their performance characteristics. This Classification helps ensure that products meet specific safety and performance standards. Application to Cable Types:One of the most critical applications of CPR is in the Classification and regulation of cables used in buildings and infrastructure.CPR sets clear requirements for fire safety and reaction to the fire performance of cables.  Key Elements of CPR for Cables:Cable Classification - CPR classifies cables based on fire performance. These classes range from Aca (the highest level of fire safety) to Fca (the lowest). The Classification depends on criteria such as heat release, flame spread, and smoke production CE Marking - Cables that comply with CPR must carry the CE Marking. This indicates that the product meets required standards and is safe for use in Construction Declaration of Performance (DoP) - Manufacturers have an obligation to furnish a Declaration of Performance (DoP) for their cables. A DoP details essential information such as Product Classification, intended use, and fire performance characteristics  What is BS6701:2016+A1:2017?British Standard BS6701:2016+A1:2017 is the UK standard that provides recommendations and requirements for telecommunications cabling infrastructure within buildings:Planning Design Installation Testing Maintenance While it primarily focuses on telecommunications cabling, it also addresses key aspects of electrical safety in relation to cabling installations. Key Elements of BS6701:2016+A1:2017 Structured Cabling:The standard highlights the significance of structured cabling systems by stressing the need for organised, documented, and maintainable cabling installations.Safety: BS6701:2016+A1:2017 includes safety requirements for cabling installations to reduce the risk of electrical hazards.This includes proper grounding, bonding, and protection against overcurrent.Compliance: Compliance with this standard is critical for telecommunications cabling installations, as it ensures network performance, reliability, and safety. The Intersection of CPR and BS6701:2016+A1:2017While CPR and BS6701:2016+A1:2017 primarily address different aspects of construction products and installations.Cables used for data and telecommunications transmission are subject to:CPR Classification for fire safety BS6701:2016+A1:2017 for structured cabling requirements In the construction industry, electrical and cabling installations play a vital role in ensuring safety, efficiency, and performance. CPR and BS6701:2016+A1:2017 are integral standards that guide the design, installation, and maintenance of cables and cabling infrastructure.Compliance with these standards is a legal requirement, and a crucial step in ensuring the safety and reliability of electrical and telecommunications systems.As technology continues to advance, staying up-to-date with these standards becomes increasingly important in the construction industry.  In Summary:Securi-Flex® proudly announces our comprehensive knowledge of CPR (Construction Products Regulation).We have invested significant time and resources into understanding and adhering to these crucial regulations. This helps to ensure the highest level of safety and compliance in all our products and services.We are dedicated to keeping up with CPR regulations to ensure that our products meet the highest safety standards. This allows you to have full confidence in the reliability and quality of Securi-Flex® solutions.Securi-Flex® is your trusted source for a diverse range of Dca CPR rated cables which are in stock as standard.Securi-Flex® curates its' extensive inventory meticulously to meet the highest safety and quality standards. This ensures that your projects comply with the necessary regulations and standards.If you require CPR rated cables for the following applications, Securi-Flex® provides a wide selection of options to suit your specific needs:Residential Commercial Industrial  If you have any questions regarding CPR, please don’t hesitate to contact the Securi-Flex® team, we’re always happy to help!

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sort-descending
  • Application For the interconnection of intruder alarm installations.
    Drum Length 1 Metres
    Overall Colour Black
    Outer Sheath Material Polyethylene
    Overall Sheath HDPE
    Weight 0.035
    Conforming Standard BS4737-3.30:2015 RoHS2 2011/65/EU
    Flame Propagation Standard Fca
    Unit Weight 0.035000
    Lukins Code 425283127
    Product Cable
    Type Alarm
    Number of Cores 8.000000
    Core Identification Coloured
    Conductor Material Copper
    Conductor Construction Tinned
    Insulation Type HDPE
    Note For the interconnection of intruder alarm installations.
    Core Colours Red Black Blue Yellow Green White Orange Brown
    Outer Sheath Colour Black RAL 9005
    Cable Diameter 4.600000
    Voltage Rating 30 V
    Number of cores 8.000000
    Colour outer sheath Black
    CPR Fca
    Conductor Tinned Copper
    Conductor Diameter (mm) 0.19 0.008 x 7
    Insulation Colour Red,Black,Blue,Yellow,Green,White,Orange,Brown
    Insulation HDPE
    Max Conductor DC resistance @ 20°C 100O/km
    Rated Voltage (V) 30V
  • Application For the interconnection of intruder alarm installations.
    Drum Length 1 Metres
    Overall Colour White
    Overall Sheath PVC
    Weight 0.032
    Lukins Code 437210780
    Conductor Material Copper
    Number of cores 8.000000
    Colour outer sheath White
    CPR Eca
    Conductor Tinned Copper
    Conductor Diameter (mm) 0.19 0.008 x 7
    Insulation Colour Red,Black,Blue,Yellow,Green,White,Orange,Brown
    Insulation PVC
    Max Conductor DC resistance @ 20°C 100O/km
    Rated Voltage (V) 30V
  • Application For the interconnection of intruder alarm installations.
    Drum Length 1 Metres
    Overall Colour Black
    Outer Sheath Material Polyethylene
    Overall Sheath HDPE
    Weight 0.035
    Conforming Standard BS4737-3.30:2015 RoHS2 2011/65/EU
    Flame Propagation Standard Fca
    Unit Weight 0.035000
    Lukins Code 425283046
    Product Cable
    Type Alarm
    Number of Cores 8.000000
    Core Identification Coloured
    Conductor Material Copper
    Conductor Construction Tinned
    Insulation Type HDPE
    Note For the interconnection of intruder alarm installations.
    Core Colours Red Black Blue Yellow Green White Orange Brown
    Outer Sheath Colour Black RAL 9005
    Cable Diameter 4.200000
    Voltage Rating 30 V
    Number of cores 8.000000
    Colour outer sheath Black
    CPR Fca
    Conductor Tinned Copper
    Conductor Diameter (mm) 0.19 0.008 x 7
    Insulation Colour Red,Black,Blue,Yellow,Green,White,Orange,Brown
    Insulation HDPE
    Max Conductor DC resistance @ 20°C 100O/km
    Rated Voltage (V) 30V
  • Application For the interconnection of intruder alarm installations.
    Drum Length 1 Metres
    Overall Colour Black
    Outer Sheath Material Polyethylene
    Overall Sheath HDPE
    Weight 0.043
    Conforming Standard BS4737-3.30:2015 RoHS2 2011/65/EU
    Flame Propagation Standard Fca
    Unit Weight 0.043000
    Lukins Code 425288630
    Product Cable
    Type Alarm
    Number of Cores 12.000000
    Core Identification Coloured
    Conductor Material Copper
    Conductor Construction Tinned
    Insulation Type PVC
    Note For the interconnection of intruder alarm installations.
    Core Colours Red Black Blue Yellow Green White Orange Brown Turquoise Pink Violet Grey
    Outer Sheath Colour Black RAL 9005
    Cable Diameter 6.000000
    Voltage Rating 30 V
    Number of cores 12.000000
    Colour outer sheath Black
    CPR Fca
    Conductor Tinned Copper
    Conductor Diameter (mm) 0.19 0.008 x 7
    Insulation Colour Red,Black,Blue,Yellow,Green,White,Orange,Brown,Turquoise,Pink,Violet,Grey
    Insulation PVC
    Max Conductor DC resistance @ 20°C 100O/km
    Rated Voltage (V) 30V
  • Application For the interconnection of intruder alarm installations.
    Drum Length 100 Metres
    Overall Colour White
    Overall Sheath HDPE
    Weight 4.9
    Lukins Code 425288300
    Number of cores 12.000000
    Colour outer sheath White
    CPR Eca
    Conductor Tinned Copper
    Conductor Diameter (mm) 0.19 0.008 x 7
    Insulation Colour Red,Black,Blue,Yellow,Green,White,Orange,Brown,Turquoise,Pink,Violet,Grey
    Insulation PVC
    Max Conductor DC resistance @ 20°C 100O/km
    Rated Voltage (V) 30V
  • Application For the interconnection of intruder alarm installations.
    Drum Length 1 Metres
    Overall Colour Black
    Outer Sheath Material Polyethylene
    Overall Sheath HDPE
    Weight 0.043
    Conforming Standard BS4737-3.30:2015 RoHS2 2011/65/EU
    Flame Propagation Standard Fca
    Unit Weight 0.043000