About LSZH Cable

Halogen-Free Cable

Increasingly used in public and government buildings and where there is sensitive electronic equipment (i.e. Hospitals, Supermarkets, Airports, Control Rooms & Computer Suites) these cables are designed for increased safety in the case of a fire:

•         Reduction in hazardous fumes which can cause injury when inhaled
•        Reduction in corrosive chemicals which can cause damage to electronics

Historically, most cables used in installations have been insulated with PVC or similar materials.  In fires, these insulation materials release chlorine gas.  Chlorine is a poisonous gas and a danger to people.  In addition it forms hydrochloric acid when coming into contact with water.   Hydrochloric acid (HCL) can have devastating effects on adjacent equipment.

To overcome the problems associated with the release of chlorine gas, halogen-free cables are used.  Typically a halogen free cable is made of polypropylene, which does not produce a dangerous gas or acid in fire conditions.

What are halogens?

Halogens are non-metallic elements found in the periodic table. The five halogens are fluorine, chlorine, bromine, iodine, & astatine. A common material that contains halogens in the chemical structure is PVC. Halogens make cable jackets and insulation highly flame retardant. Some naturally non-halogenated materials have halogen added because of the flame retardant properties. When burned, halogens emit a thick toxic smoke and become corrosive. These characteristics can cause damage to equipment and pose a safety concern.

Why consider halogen-free cable?

Over the last few years, halogen-free wire and cabling products have seen an increase in popularity. Halogen-free cables are used in consideration of issues including fire safety, fire damage prevention, and the environment. Halogen-free cables help eliminate the use of environmentally sensitive materials.

What does LSZH mean?

LSZH stands for low smoke zero halogen. The compounds in the cable insulation and jacket have no fluorine, chlorine, bromine, iodine, or astatine. This means that the cable emits little to no toxic halogens and minimal smoke when in contact with fire. These are important safety precautions and they often appear together in wire and cable specifications. LSZH wire and cable is also called: low smoke non halogen (LSNH), low smoke halogen free (LSHF), and low smoke zero (0) halogen (LS0H).

In what applications can halogen-free cable be used?

Halogen-free cable is intended for use in applications in which insulation with low toxicity, low smoke generation, and low corrosiveness is needed. Examples include rapid transit, industrial, shipboard, and commercial fields where human safety and protection of equipment is a concern.

Does the NEC allow low-smoke halogen-free cable in all applications?

The NEC (National Electrical Code) doesn't prohibit halogen-free cable or wire installation in any application. The NEC does require low smoke cables for plenum spaces.

Is there a difference between low smoke and zero halogen?

Low smoke and zero halogen are not equivalent. Low smoke cable emits a thinner and clearer smoke when burning. This feature makes evacuation and firefighting efforts much easier and safer. A cable may be low smoke and still contain toxic halogens. Zero halogen means that the cable does not contain fluorine, chlorine, bromine, iodine or astatine. Zero halogen cable may still emit a thick smoke when burned. Both properties are not always needed for all cables. Check specifications to be sure that the cable meets both requirements if necessary for your application.

Are there any disadvantages to using low smoke zero halogen cables?

Low smoke zero halogen cables provide a lot of great safety advantages, but there is a bit of an electrical and mechanical trade-off. In order to be low smoke zero halogen, the cable jacket must incorporate a high percentage of filler material. This increase in filler material could make the jacket less chemical and water resistant and could provide poorer mechanical and electrical properties than a non-LSZH counterpart. LSZH jackets are also more likely to experience jacket cracking during installation, so special lubricants may be necessary to avoid damage. This is especially true in cold environments. Because of the limited flexibility of LSZH, it is not recommended in robotic or continuous flex applications. As a result, LSZH cable is commonly chosen for applications where fire safety is more of a concern than the cable’s specific electrical and mechanical properties. Advances in compound materials and processing have decreased some of these issues.

Can LSZH pass a flame test?

Yes. LSZH may pass a standard flame test. To determine how an LSZH cable will react in a fire, the following five criteria are considered:

·        How easily the cable will catch fire

·        How quickly the fire will spread along the cable

·        How much smoke is produced upon combustion

·        How toxic are the byproducts

·        How corrosive are the byproducts

Some test standards related to this type of cable are Plenum rated, LS rated, S1 rated, and ASTM D5424.

What should be considered when choosing LSZH?

When choosing LSZH products, factors such as the environment and price should be considered. An environmental factor such as the temperature of the installation could reduce the flexibility of the cable. Will the application be in an open area or confined? Will other flammable material be present? Low smoke zero halogen cable also tends to be higher in cost. Consult an expert from Allied Wire and Cable to find the best fit for your application.

Cables intended to fulfil this type of function are often labelled as one of the following:

LSZH - Low Smoke Zero Halogen

LSOH - Low Smoke Zero Halogen

LSF - Low Smoke and Fume

OHLS - Zero Halogen Low Smoke

Both LSZH and LSF are used to limit smoke, fumes and halogen given off in fire conditions.

Halogen & Smoke Emission, Corrosively & Toxicity Standards

IEC 60754-1 / BS6425-1 - emission of halogen

IEC 60754-2 - corrosivity

IEC 61034-1 / ASTM E662 - emission of smoke

ISO4589-2 / BS2863 - oxygen index LOI

ISO4589-3 / BS2782.1 - temperature index TI