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How to choose instrumentation cable quickly and accurately? Bookmark this article!

Instrumentation cable is what we often call control cable, suitable for signal transmission and control lines in other electrical equipment such as instrumentation instruments.

Structure of Instrumentation Cable

Instrumentation cables are what we often refer to as control cables.

Cable Conductor

Stranded conductors can improve the flexibility of the conductor and flexibility, easy wiring installation.

When stranded conductors are used in vibration situations, the service life of the cable can be improved appropriately.

The cross-sectional area of the cable conductor is mainly determined by the permissible temperature rise of the conductor insulation material and the permissible voltage drop on the conductor.

General instrumentation cable signal is a weak signal, do not consider the temperature rise and allowable voltage drop.

Therefore, the cross-sectional area of the conductor is mainly determined according to the mechanical strength of the conductor and the requirements of the detection and control circuit for line impedance matching.

Copper has excellent electrical characteristics and durability, and is often chosen as the material for cable conductors.

After cold working, the resistivity of copper conductors increases, hardness and strength increase, and plasticity decreases.

To improve the conductivity and flexibility of cold-drawn copper wire, annealed copper conductors are often used.

The electrical conductivity of copper conductors also decreases with increasing temperature.

Insulation

The main purpose of the insulation layer is to ensure the insulation between adjacent conductors of the cable, and the choice of material is related to factors such as ambient temperature, fire protection requirements, environmental requirements, and relevant standards.

In chemical installations, the insulation materials of instrument cables are commonly used such as polyvinyl chloride (PVC), polyethylene (PE), and cross-linked polyethylene (XLPE).

1 About PVC Material

PVC is widely used in cable insulation materials because it is inexpensive and can be added with a variety of compatibilizers to improve temperature resistance, flame retardant, oil resistance, acid and alkali corrosion resistance, and other properties.

Ordinary PVC insulated instrument cable conductor long-term allowable operating temperature of 70 , short-circuit thermal stability allowable temperature of 160 . After adding the corresponding heat-resistant plasticizer, the conductor’s long-term allowable operating temperature is up to 90 ℃ and 105 .

At low temperatures, PVC-insulated cables tend to become hard and brittle.

PVC-insulated cables should not be used at temperatures lower than -15 °C.

Due to the halogen content, it produces thick toxic black smoke when burning, which does not satisfy the use of low-smoke, non-toxic occasions, and the insulation layer can be replaced by non-chlorine flame retardant compounds (HFFR).

2 PE Material

Compared with PVC, PE has excellent electrical properties, such as low dielectric loss and high dielectric strength.

PE insulation is better than PVC cold resistance, lightweight, and in the same voltage level as the PVC insulation layer thickness is small.

However, PE material is hard, low softening temperature, is easy to burn and melt when in contact with flame, poor resistance to environmental stress.

PE insulated cable heat-resistant grade is mainly divided into 70 ℃ and 80 .

3 XLPE Material

XLPE is a change of PE from thermoplastic to thermosetting, resulting in greater resistance to stress cracking and cutting, as well as greater adaptability to solvent changes.

XLPE has a higher dielectric constant than PE but with better resistance to aging and water.

The long-term permissible operating temperature of the conductor of the insulated instrument cable of XLPE is 90°C, and the permissible short-circuit thermal stabilization temperature is 250°C. The insulation of XLPE for instrument cables has a higher dielectric constant than PE.

The thickness of the insulation layer of the instrument cable is mainly related to the cross-sectional area of the conductor, the voltage resistance level, the insulation material, and so on.

The thickness of the insulation layer should not be less than the provisions of the relevant standards for the selected cable.

Insulation also serves as the instrument cable insulation core identification mark, usually using Arabic numerals, and standard colors to distinguish between the different cores of multicore cables or mark the function of the core.

Sheath

The main role of the sheath is to protect the cable from external temperature, pressure, humidity chemical corrosion, and other effects.

The outer sheath is an important indicator characterizing the performance of the cable in terms of fire resistance, oil resistance, high-temperature resistance, resistance to bending, resistance to insect pests, etc., and serves as an important carrier for the appearance of the cable marking.

When there is an armor layer, the inner sheath is used to prevent the metal of the armor layer from extruding and damaging the cable.

It can also play a role in improving the performance of the cable fire, oil resistance, and other properties.

Sheath material selection and environmental temperature, environmental corrosion environmental requirements, and other factors.

Sheath materials commonly used in chemical installations include PVC and HFFR.

The cable marking on the outer sheath is mainly embossed and printed with ink.

Embossing is suitable for cables with large outer diameters, and the embossing process is cumbersome and easy to cause damage to the outer sheath of instrument cables.

Instrumentation cable sheath is generally printed with ink, which can achieve a clear logo, font wear-resistant, and in line with the relevant standard requirements.

Cable sheath color selection is also related to the type of cable.

Armor

The armor layer is mainly to enhance the mechanical properties of the cable such as tensile and compressive strength to improve the service life of the cable.

At the same time, the armor layer can also be grounded to improve the cable anti-interference performance.

The type of armor has a variety of forms, instrumentation cables commonly used in the form of armor steel wire armor (SWA), steel wire braided armor (SWB), and steel tape armor (STA) three.

To ensure the performance of armored cables, instrumentation cable standards on the diameter of the steel wire, the number of layers of steel tape, thickness, and width, итд. have detailed provisions.

Due to the structure of the armor layer of steel wire or steel tape, the bending radius of the armored cable is larger than that of the non-armored cable.

To avoid causing damage to the cable, when fixing and laying the cable, special attention needs to be paid to the cable manufacturer’s requirements for the bending radius of the cable.

The difference between power cables and instrumentation cables

Instrumentation cables and power cables are both commonly used cables in real life, but different product characteristics have different uses.

Instrumentation cables are suitable for AC-rated voltage below 500V, long-term working temperature not exceeding 70℃, and laying temperature not below 0℃.

Power cables include a variety of insulated power cables used for the transmission and distribution of electrical energy, applicable to 1-500KV and above various voltage levels.

Used in the city’s underground power grid, power stations, industrial and mining enterprises, internal power supply, and underwater transmission lines across the river and the sea.

High-voltage power cables are mainly used for the transmission and distribution of high-power power cable products.

Instrumentation cable does not have a very clear voltage level, generally low voltage, core conductor fine, part of the shielding performance.

Power cables are divided into high-voltage cables, medium-voltage cables, and low-voltage cables, wire diameter is generally thicker, and they use a relatively wide range.

Instrumentation Cable Selection

In chemical installations, instrumentation cables in the selection and design, often consider the following aspects:

Determination of the Design Criteria to be applied

According to the requirements of the project contract and patent traders, etc., reasonably select the international standards, national standards, and industry standards to be followed for cable manufacturing, inspection, and acceptance, which shall not conflict with the relevant national, industry and local standards while meeting the project design requirements.

Recognize the use of an instrumentation cable environment

Including ambient temperature, environmental corrosion, electromagnetic interference, explosion-proof grade and laying methods, etc., the cable core material, sheath, shielding, armoring, laying radius, итд. will have an impact.

Determine the parameters of the cable requirements

Based on the above requirements, according to the design standards and the use of the environment, a reasonable choice of specific parameters for the cable.

Determine the inspection and testing of cables

Define the manufacturing requirements of the cable, inspection, and testing requirements at the factory stage.

The above is a detailed introduction to the instrumentation cable, if you still have questions about the cable purchase selection, welcome to consult the ZMS cable team.

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