PAS BS 5308 Part 1 Type 1 PE/IS/OS/PVC Cable
APPLICATION
Publicly Available Standard (PAS) BS 5308 cables are designed
to carry communication and control signals in a variety of
installation types including those found in the petrochemical
industry. The signals can be of analogue, data or voice type and
from a variety of transducers such as pressure, proximity or
microphone. Individually screened for enhanced signal security.
Part 1 Type 1 cables are generally designed for indoor use and in
environments where mechanical protection is not required.
CHARACTERISTICS
Rated Voltage :Uo/U: 300/500V
Operating Temperature:
Fixed: -40ºC to +80ºC
Flexed: 0ºC to +50ºC
Minimum Bending Radius: Fixeing: 6D
CONSTRUCTION
Conductor
0.5mm² - 0.75mm²: Class 5 flexible stranded copper
1mm² and above: Class 2 stranded copper
Insulation: PE (Polyethylene)
PE/IS/OS/PVC Cable:Applications and Benefits
PE/IS/OS/PVC cables are crucial components in various industries, offering a wide range of applications and benefits. These cables are designed to meet the specific needs of different environments, providing reliable and efficient performance. From industrial settings to residential applications, PE/IS/OS/PVC cables play a vital role in ensuring seamless connectivity and electrical transmission.
One of the primary applications of PE/IS/OS/PVC cables is in the industrial sector. These cables are widely used in industrial machinery, equipment, and automation systems, where they facilitate the transmission of power and signals. The robust construction of PE/IS/OS/PVC cables enables them to withstand harsh industrial environments, including exposure to chemicals, oils, and extreme temperatures. As a result, these cables ensure uninterrupted power supply and data transmission, contributing to the seamless operation of industrial processes.
Moreover, PE/IS/OS/PVC cables find extensive applications in the telecommunications and networking industry. With the increasing demand for high-speed data transmission and reliable connectivity, these cables are instrumental in supporting the infrastructure of telecommunications networks. Whether it's for underground installations, aerial cabling, or indoor networking, PE/IS/OS/PVC cables offer the necessary durability and performance to meet the demands of modern communication systems.
In addition to industrial and networking applications, PE/IS/OS/PVC cables are widely utilized in residential and commercial construction. These cables are commonly used for wiring electrical systems, lighting fixtures, and appliances in buildings and homes. The flexibility and insulation properties of PE/IS/OS/PVC cables make them suitable for concealed installations, ensuring safety and reliability in electrical wiring applications. Furthermore, the fire-retardant characteristics of these cables make them a preferred choice for building infrastructure, adhering to stringent safety standards.
The benefits of PE/IS/OS/PVC cables are manifold, making them an indispensable component in various industries. The polyethylene (PE), insulation (IS), overall shield (OS), and polyvinyl chloride (PVC) construction of these cables offer excellent electrical insulation, protection against environmental factors, and resistance to abrasion and impact. This results in enhanced durability and longevity, reducing the need for frequent maintenance and replacements. Additionally, the high tensile strength and flexibility of PE/IS/OS/PVC cables make them easy to install and maneuver, saving time and labor costs during installation.
Furthermore, PE/IS/OS/PVC cables contribute to improved safety and reliability in electrical and data transmission systems. The insulation properties of these cables prevent electrical leakage and short circuits, minimizing the risk of accidents and equipment damage. Additionally, the shielding capabilities of PE/IS/OS/PVC cables protect against electromagnetic interference, ensuring stable and secure signal transmission in sensitive applications. These features make PE/IS/OS/PVC cables a preferred choice for critical infrastructure and mission-critical systems, where reliability is paramount.