Sonipat, Haryana, India
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Lan Cables / Structural CablesRELEMAC brings to you LAN Cables best suited to your specific Applications. The Cables are verified to the performance category - 5/5e requirements of TIA/EIA 568 - A & UL 444 for Transmission performance.
RELEMAC Lan cables are suitable for voice, Data, Video and Low Voltage Control, It is suitable for all Lan topologies including Horizontal and Vertical distribution Plenum and Riser.
The conductor is made of Electrolytic plain annealed solid copper of size 0.5 mm., High quality Polyethylene Insulated with suitable colour code, twisted pair, Unshielded light grey PVC Jacketed with improved fire characteristic meeting requirements of IEC - 332 - high oxygen and temperature index.
The ISO 9001 - 2000 certification ensures the quality of cables and its intended performance.
Technical Data - Physical
Colour Code
Outer Jacket - FR PVC
Additional Information:
Payment Terms : T/T
Delivery Time : As per order
Relemac Technologies Pvt. Ltd. is a prominent Coaxial Cable manufacturer from India that provides high-quality Co-Axial Cables known for their durability and strength. These digital coaxial flame-resistant wires come in various types, such as RG-59, RG-6, RG-11, etc. They are designed in compliance with the industry-defined norms of quality.
The central conductor of the cable is made of solid stranded bare electrolytic grade 99.97% pure copper. It is designed to withstand high levels of electrical current without deteriorating. The secondary conductor of the cable is made of polyaluminium tape, which is applied longitudinally, overlaps, and is bonded on the foam dielectric. The aluminium tape ensures the cable is well-insulated and the signal transmitted through it is not distorted.
To provide additional protection to the cable, an outer layer is made of an aluminum alloy wire with high tensile strength. The wire is braided and applied to the aluminum tape with specified coverage. This layer ensures that the cable can withstand harsh weather conditions without deteriorating. The cable is then jacketed with a special long-lasting UV resistant PVC compound, which makes it suitable for use in outdoor environments where it will be exposed to sunlight and other environmental factors.
Relemac Cables are designed for a wide range of applications, including electronic and Cable TV operations, Internet DATA cabling, digital instrument wiring, CCTV & Audio Visual VSAT, and recorder Multiplication network or surfacing. The company can also customize the cables to meet specific customer requirements, such as the type of cable, the length of the cable, and other features required for their specific application.Digital Coaxial Cables
Specifications
| 75 Ohms Cables | 50 Ohms Cables |
|---|---|
| â–º RG-59 Drop Cable | â–º 50 Ohms Corrugated Copper Tube |
| â–º RG-6 Drop Cables | â–º 50 Ohms Radiating |
| â–º RG-11 Drop Cable | â–º Braiding - Type 50 Ohms |
| â–º 412 Series Cable | |
| â–º 500 Series Cable | |
| â–º 540 Series Cable | |
| â–º Construction & Material |
Rubber Cables
We are counted amid the well-known Rubber Cables Manufacturer & Supplier in India. In keeping with the company's commitment to technological advancement, elastomer materials such as Polychloroprene (PCP), Chloro-Sulphoneted Polyethelene (CSP), Nitrile Rubber /PVC blends, Ethylene Propelene Rubber (EPR), Ethylene Vinyle Acetate (EVA) and Silicone have been specially compounded to meet numerous heat oil and fire resisting requirements. In the recent years, Relemac Technologies has also developed special Rubber Cables & Elastomeric Fire Survival Cables for power, control and instrumentation wiring. All our Elastomeric Rubber Cables available in standardized as well as customized specifications. Additionally, the Elastomeric Cables are reasonably priced too. .
Elastomeric compounds for insulating and sheathing of cables are formulated to meet the requirement of IS 6380, BS 6899, IEC 60502 and other international specification.
Note :
GENERAL CONSTRUCTION (Conforming To IS 9968 Part 1)
| Conductor | Annealed tinned Copper wires Solid (Class 1), Stranded (Class 2), flexible (Class 5) complying with the requirement of IS 8130-1984 |
|---|---|
| Seperator Tape | Suitable material seperator tape may be applied over the conductor |
| Insulation | General service elastomer compound Type IE1 of IS 6380-1984 Heat Resisting elastomer compound Type IE2 of IS 6380-1984 Silicone Rubber Type IE 5 of IS 6380-1984 |
| Core Identification | Coloured insulation, Nos.PE tape, Coloured proofed tape, Nos. printing |
| Fillers | Natural or synthetic fibres or elastomer suitable for the operating temperature and compatible with the insulating material |
| Sheath | General service sheath Type SE1/SE2 of IS 6380-1984 Heavy Duty Sheath Type SE3/SE4 of IS 6380-1984 |
| Working Temperature of Commonly used Elastomeric Insulating and Sheathing Materials | |
Specifications
| Material | Max.Cond.Temp. for Continuous opertinuous operation Deg C. | Max. Cond. Temp. For short circuit Deg C. | Min. Working Temp. Deg C. |
|---|---|---|---|
| Natural Rubber(VIR & TRS) | 60 | 200 | -55 |
| Ethylene Propylene Rubber (EPR) | 90 | 250 | -50 |
| Polychloroprence (PCP) | 70 | 200 | -40 |
| Chlorosupphonated Polyethylene (CSP) | 90 | 200 | -35 |
| Silicone Rubber | 150/180 | 350 | -55 |
| Hr Natural Rubber (HR VIR) | 75 | 200 | -55 |
| Styrene Butadience Rubber | 60 | 200 | -55 |
| Butyl Rubber | 85 | 220 | -50 |
Relemac Technologies Private Limited is a well-known supplier and manufacturer of high-quality Control Cables in India. Our range of Control Cables is specifically designed for carrying signals of low power strength and can operate effectively under severe temperature conditions. These cables are widely used in industrial applications, electrical distribution systems such as sub-stations, generating stations, indoor and outdoor projects, heaters, boilers, and can also be exposed to oil, chemicals, and solvents.
We offer a wide range of Control Cables, including Unarmoured Cables and Flexible Control Cables, which are customizable as per the specifications provided by our clients. Our team of experts ensures that every cable that we manufacture meets the international quality standards and is tested for durability and efficiency.
We take pride in being one of the leading Control Cables Suppliers in India, providing customized solutions to meet the unique needs of our clients. With our commitment to excellence, we have earned the trust and loyalty of our customers, and we strive to continue providing them with the best products and services.
L.V. PVC Insulated Control Cables Up to & Including 1.1 KV.
COLOR OF CORES :
In the event a cable should need to exceed five cores, we use the following:Two adjacent (counting and direction cores) in each layer will be colour Yellow, Blue, and remaining cores will be colour Gray. Cores can also be identified by numbers that are clearly printed on cores of the same colour. This makes it much easier to identify various cores that may be bundled.
LAYING Of CORES :- Cores are laid up with a suitable lay. The Final layer direction shall be kept right hand lay.
INNER SHEATH :- The Inner Sheath is applied over laid up of cores by extrusion/wrapping of thermoplastic material.The Insulation, Inner Sheath can be HR PVC, FRLS PVC or FRHF Compound depending upon their application.
ARMOURING :- We apply our high-quality armoring over the inner sheath. This armoring may consist of either wires of galvanized round steel or galvanized steel trips (flat) all of which will conform to IS:3975.
Please Note: We provide round wire armoring when the calculated diameter (under the armor) is 13.0 mm. When the calculated diameter is more than this, we use either steel strip or round wire, whichever best suits the application for the control cable.
OUTER SHEATH :- A final covering of PVC Compound, conforming to IS:5831:84, is applied over Armoring in case of Armored Cable or over Inner Sheath in case of Unarmored Cable, called as "Outer Sheath".
The Insulation, outer sheath can be HR PVC, FRLS PVC or FRHF Compound depending upon their application.
CURRENT RATING :- e.g. Current Carrying Capacity of these cables are as per IS:3961Pt-II) : 1967.
STANDARD SPECIFICATIONS :- IS 1554:1988 (PART -1), BS:6346:1989, IEC 227-I, III
QUALITY ASSURANCE :- At Relemac Technologies Pvt. Ltd., we understand how important your cables are to your operations. We understand that you deserve the very best when it comes to quality products and superior customer service. Because we understand these principles, we make every effort possible to develop and implement only the finest Power Flexible Armoured Control Cables available on the market today. To ensure that all Relemac Flexible Power control cables (as well as our other cables) meet the highest standards in quality, we subject them to a rigorous series of test in our own state-of-the-art lab. In addition, each of our control cables is checked and inspected as it is being produced. This allows us to catch problems before they make it to our valued customers.
TYPICAL APPLICATION :- The control cables that we provide to our customers are commonly used in a variety of industrial power or control circuits. These are used for conveying controlled electrical signals to various devices. Our high-quality control cables are suitable for installation and use in cable trays, conduits, cable ducts, and can also be used in underground buries and raceways. They are also suitable for outdoor locations such as power and switching stations and relays, industrial plants, local distribution systems, construction, manufacturing, commercial buildings, steel plants, various types of refineries, cement plants, chemical plants power plants, and other similar locations. They can also be used for signalling network of railways, subways, and the like.
Call or contact us today to discuss your specific , Flexible Multicore Power Control cables needs. We are here to help.
Technical DetailsRelemac Copper Conductor 1.5 Sq.mm
Relemac Copper Conductor 2.5 Sq.mm
Istrumentation CablesAn instrumentation cable is a type of cable used to transmit electrical signals between devices in various control and measurement applications, such as in process control systems, power generation, and communication systems. These cables are designed to be highly resistant to electromagnetic interference and provide stable and reliable transmission of signals over long distances. Instrumentation cables typically have multiple insulated conductors with shielding and are available in various configurations, including screened and unscreened, armored and unarmored, and multi-core cables. They are widely used in industrial applications to connect various sensors, actuators, and control systems for accurate and reliable data acquisition and transmission.
CONDUCTORAnnealed Bare/ uniform coated with Tinned/Silver Platted, High Conductivity, and Electrolytic Grade Solid/Stranded/Flexible Conductor. (Generally manufactured with conductor sizes 0.25/0.5/0.75/1.0/1.5/2.5/4.0 sq. mm, conforming to BS EN 50228, BS: 5308 - (I & II), IEC-189 - (I & II), VDE 0815.
DIELECTRIC
Conductor is insulated with 70/85/105oC. Grade General Purpose/HR PVC Compound/Solid/Cellular Polyethylene PP/PE, Halogen Free FRLS Polymeric Compounds like LSZH or any other dielectric material as per customers specification. The choice of insulation material to be used for any application is Dependent on :-
These are the most common types of extruded material used in the manufacture of Instrumentation cables.
COLOUR OF DIELECTRIC:-Cores are identified with a different type of color scheme as per requirement as below:-
Core/Pair Identification :-
Multi-Pair Cables :The cores within a pair are identified by one of the following methods :
PAIR/TRIAD/QUAD :-In cables which make up a pair, triad or quad core wires are uniformly twisted together. Maximum lay length determined by customer needs and minimum crosstalk requirements is up to 80mm .
INDIVIDUAL SHIELDING :-If required, Individual Shielding may be of Poly Aluminum [Thin Layer of Aluminum Foil bonded to Polyester Film] Tape with Annealed Tinned Copper Drain Wire. It prevents the shorting of adjacent shield and minimizes the cross talk and ground loops. A Tinned Copper drain Wire is installed to provide continuous contact with the shield and allow for connection to ground. Tinning the drain wire reduces galvanic corrosion between drain and shield.
LAYING OF PAIRS/TRIAD/QUAD.:-Pairs/Triads/Quads are laid up with suitable lay. The outer most layers are right hand lay and successive layers are laid up with opposite lay. Then, a Melinex Tape is provided to bind up laid up Pair/Triad/Quad.
OVERALL SHIELDING :-Overall shielded cable constructions are recommended for use in Instrumentation computer and control application where signals are transmitted in excess of 100 Mili volts except in areas where high voltage and current sources create excessive noise interference. If required, Overall l Shielding may be of Annealed Tinned Copper Braiding/Poly Aluminum [Thin Layer of Aluminum Foil bonded to Polyester Film] Tape with Annealed Tinned Copper Drain Wire. Braiding ATC Shield has high tensile Strength and provides better coverage in flexing application. They are easier to terminate. This provides effective shielding; cross talk and noise are kept to an absolute minimum.
INNER SHEATH :-The laid up pair/triad/quad after shielding are provided with an inner sheath, which may be either Extruded Inner Sheath or wrap with PVC Tape.
ARMOURING :-It is applied over inner Sheath. It may consist of galvanized Round Steel wires or galvanized Flat Steel Strips. Steel wire armoured cables are suitable for direct burial. One or more copper wires can be incorporated in the armour to increase the conductivity of the Armour where it is being used as an earth return.
OUTER SHEATH :-It is applied over Armouring in case of Armoured Wire or over Inner Sheath in case of Unarmoured Cable. The Color of Sheath is Black, Grey or as per customer's choice.The cable jacket is resistant to sunlight, moisture and vapour penetration. The Sheath material may be General Purpose PVC, FR / HR / FRLS PVC / Low Smoke Zero Halogen Compound as per requirement of the specification.The choice of sheathing materials to be used for any application is dependent on :
RIP CORD :-To simplify jacket removal, high tensile strength nylon Rip Cord is provided over laid up of pairs/triads/quads below the outer sheath in case of Unarmoured cable or below the Inner Sheath in case of armoured Cable.
QUALITY ASSURANCE :-Relemac Technologies has designed and implemented new generation technologies into our Signal Instrumentation Cables and wires ; we have set the standards for quality in shielded cables, and will work with you for any specific products you might need that we do not already manufacture.All our cables are crafted with the best possible materials and go through stringent quality assurance procedures - Relemac Technologies have built the best cables in the industry since our inception in 1993. It is our goal to build the best shielding into the best cables, wires and cabling systems that we can.
TYPICAL APPLICATION :-No matter what your industry; oil and coal to wind power, farming industries to aerospace, if you use cables we can do what you need. Below are just some of the areas in which we specialize:
Call us today to discuss your specific cable needs.Relemac Technologies - Exporters, Manufacturers & Suppliers of Shielded Screened Instrumentation Cable From India Products
InFire Survival / Resistant Cables
In the event of a fire, the biggest obstacles to safe evacuation are smoke, heat, and toxic fumes. To mitigate these hazards, it is crucial to use fire-resistant and non-halogenated cables. Relemac has added a special range of Fire Survival & Fire Resistant cables to its product portfolio. Our Fire Survival Cables are designed to remain operational for a minimum duration during a fire, even when exposed to water spray and mechanical shock. Our Fire Resistant Cables are rigorously tested in NABL accredited labs like ERDA Baroda to ensure the highest quality products. These cables are vital for ensuring the safety of people and property, particularly in areas prone to fire hazards. As one of the leading Fire Survival Cables Suppliers, Relemac provides a comprehensive range of high-quality fire-resistant cables that meet various industry standards and regulatory requirements.
Fire Survival & Fire Resistant cables
Conductor :Electrolytic Grade Copper Bare / Tinned, Solid / Stranded / Annealed Flexible Conductors conforming to IS:8130:1984 or other international standard.
Fire Barrier :Conductor is insulated with Mica Glass Tape that is Fire Resisting Barrier.Mica Tape survives temperature up to 1000C. It is Low smoke and non-toxic, chemically neutral and Zero Halogen gases free.
Core IdentificationRelemac Fire Resistant cable may be single-core or multi-core constructions.
Primary Insulation :The Insulated material may be Heat Resistant PVC / XLPE / EPR / EVA / Silicon Rubber or any other dielectric material as per customers specification.
Screening :Individual & Overall Shielding may be of Annealed Tinned Copper Braiding/Poly Aluminum [Thin Layer of Aluminum Foil bonded to Polyester Film] Tape with Annealed Tinned Copper Drain Wire. Braiding ATC Shield has high tensile Strength and provides better coverage in flexing application. It's also done by copper Tape or nickel copper as per specifications.
Inner Sheath :The Inner Sheath is applied over laid up of cores by extrusion / wrapping of thermoplastic material. The Insulation, Inner Sheath can be Normal Pvc /FR PVC / FRLS PVC / ZHFR / LSF Compound depending upon their application or specfication.
Armour:Armour is applied over inner Sheath. It may consist of galvanized Round Steel wires or galvanized Flat Steel Strips conforming to IS:3975. Steel wire armoured cables are suitable for direct burial. One or more copper wires can be incorporated in the armour to increase the conductivity of the Armour where it is being used as an earth return. Armour can also by steel tape / double helical steel tape or aluminum wire if client's requirement. Round Wire armoring is provided , where the calculated diameter under Armour is 13.0 m.m. Above this, armoring is either round wire / steel strip as per client's requirement.
Outer Sheath :A final covering of PVC Compound is applied over Armouring in case of Armoured Cable or over Inner Sheath in case of Unarmoured Cable. The Color of Sheath is Black, Grey or as per customer's choice.The Outer Sheath material may be Flame Retardant LSZH /FR PVC / FRLS PVC as per requirement of the specification.
Standard Specifications :
Characteristics :
Typical Application :
Relemac Fire Resistant cables also known as CIRCUIT INTEGRITY CABLES have been developed to maintain circuit integrity in a fire and to ensure the maximum safe evacuation of personnel with no detrimental effects like toxic gases or smoke.These fire retardant cables Specially designed for to maintain Long-term circuit integrity during and after a fire like public address and emergency voice communication systems , fire extinguishing systems, sprinklers pumps, control panels, exit lights in high-rise building control and instrumentation services in industrial, commercial and residential complexes, hospitals, airports, thermal power plants, metro rail projects, rail terminals, malls and crowdy areas etc. data and voice transmission, CCTV, security, smoke detection and evacuation monitoring applications , interconnection of distribution boxes and end devices, where continued functionality is required during a fire situation , in High-temperature installation conditions.
Relemac is leading Fire Survival Resistant Cables manufacturers & suppliers in India at the best prices. Contact us Today
Thermocouple Cables
Thermocouple Cables are the same as Instrumentation Cables. They both are used for process temperature measurement. The manufacturing process of these cables is similar to Relemac's paired instrumentation cable with the difference being in the conductor material. Thermocouple Cables are used in a wide variety of processes to sense temperature. Thermocouple Cables are used to connect control surfaces to the pyrometers, enabling accurate temperature indication and control. The Thermocouple Cables can be purchased in bulk from us. We are counted amid the trusted Thermocouple Cable Suppliers in India.
Thermocouples and pyrometers are electrically conducted by the thermocouple extension/compensating cables. It is essential that the cabling uses the same conductive material as the thermocouple itself. This is to ensure similar thermo-electric (e.m.f) properties as that of the thermocouple used for sensing the temperature. If there is not a match in thermo-electric properties between the cable and the thermocoupling accurate temperature measurement will not be possible.That is why Relemac puts such stringent quality control measures into their design and manufacturing processes. Our thermocouple cables are manufactured using the following standards:- IS: 8784, ANSI-MC 96. 1, B.S., IEC, JIS, ENI, DIN .Thermocouple cables can also be manufactured according to customer specifications for custom applications if none of our stock cable meets the desired criteria.
Different thermocouple types, for the reasons above, require different types of alloy wire combinations. Some of the most popular thermocouple wire and cable types are listed below, but custom cables can be configured to fit the customer's exact needs.
Thermocouple extension wire is used to extend the signal from a probe to the required instrumentation, such as controllers or recording devices. Multi pair thermocouple extension cables are preferred for these applications because their accuracy, stability in transmission integrity and the high build quality of thermocouple cables. Extension wires are designated by an 'X' aft the ANSI thermocouple type, such as those listed below:
Connecting cables that allow communication between thermocouples and temperature sensors or other processing equipment are divided into two types of cable, compensating cables and extension cables. These can have a solid or stranded conductor; this will depend on the exact application and the required conductor material and the thermo-electric properties of the thermocouple that is being attached to the processing instruments. Extension cables are used for these critical conditions, and the conductors must be made of the same material as the thermocouple. This is to ensure that extension cables are operating within the same accuracy limits as the connected thermocouple. Extension cables are marked with an X behind the identification letter for the thermocouple, so a type K thermocouple would require a thermocouple extension wire marked 'KX', indicating a conductor material of (NiCr-Ni).
Compensating cables achieve similar thermo-electric properties through other means than matching the conductive material to the thermocouple exactly. Using conductors made of the proper combination of materials allows compensating cables to match the thermo-electric properties as long as the temperature range stays within a limited set of parameters. This type of cable can be less expensive than the thermocouple extension cables, which must use the same material as the thermocouple for its conductor material.
Compensating cables are marked with the letter 'C' behind the thermocouple type; therefore a 'K' thermocouple would be marked 'KC'. Remember that compensating cables are only accurate to system parameters within the specified temperature range.
The insulation of conductors and well as sheaths can be manufactured from a variety of materials, depending upon your exact specifications. Relemac cables, despite being one of the largest cable manufacturers on earth can seamlessly match your needs to a specially designed cable that will fit your specifications exactly.
The following criteria must be taken into consideration when selecting the appropriate material: chemical and mechanical resistance against the ambient conditions, temperature range, insulation resistance, flexibility, outside diameter, screening etc.
Apart from that there is a great number of cable types available as compensating cables or extension cables as well as those with more than two inner conductors.
In most applications, thermocouple cables are connected to other processing instruments via connecting cables, which are then further subdivided into compensating cables and extension cables. The compensating and extension cables can also have several different configurations, such as stranded or solid conductors and different types of insulating and sheathing materials. This will depend upon your application.
Chemical and mechanical resistance against the ambient conditions
Application:
COLOR CODE OF THERMOCOUPLE EXTENSION AND COMPENSATING CABLES
| IEC | ANSI | JIS | ||||||
|---|---|---|---|---|---|---|---|---|
| Thermocouple Conductor Combination Type |
Conductor | International Colur Code To IEC 5843:1989 | American To ANSI/MC96.1 | Japanese To JISC 1610-1981 | Tolerance Class To. |
Cable Temperature Range°C | ||
| Extension Cable | Compensating Cable | 1 | 2 | |||||
| K | KX | +80µV (+1.5°C) |
+100µV (+2.5°C) |
-25°C to +200°C | ||||
| KCA | +100µV (+2.5°C) |
-0°C to +150°C | ||||||
| KCB | +100µV (+2.5°C) |
-0°C to +100°C | ||||||
| T | TX | +30µV (+0.5°C) |
+60µV (+1.0°C) |
-25°C to +100°C | ||||
| J | JX | +85µV (+1.5°C) |
+140µV (+2.5°C) |
-25°C to +200°C | ||||
| N | NX | +80µV (+1.5°C) |
+100µV (+2.5°C) |
-25°C to +105°C | ||||
| NC | +100µV (+2.5°C) |
-25°C to +105°C | ||||||
| E | EX | +120µV (+1.5°C) |
+200µV (+2.5°C) |
-25°C to +200°C | ||||
| R | RCA | +30µV (+2.5°C) |
0°C to +100°C | |||||
| RCB | +30µV (+2.5°C) |
0°C to +200°C | ||||||
| S | SCA | +30µV (+2.5°C) |
0°C to +100°C | |||||
| SCB | +80µV (+2.5°C) |
0°C to +200°C | ||||||
| B | BC | |||||||
WIRE INSULATION IDENTIFICATION & APPLICATION GUIDE
| Insulation Code | Insulation | Apperance of Thermocouple Grade Wire | Temperature Range Insulation | Abrasion Resistance | Flexibility | Water Submirsion | Resistance To. | ||
|---|---|---|---|---|---|---|---|---|---|
| Overall | Conductors | Flame | Humidity | ||||||
| P | Polyvinyl Chloride(PVC) | Polyvinyl Chloride(PVC) | -40 to 105°C | Good | EXCELLENT | Good | Good | Good | |
| T | PTFE of PFA/FEP | PTFE of PFA/FEP | -267 to 260°C | Excellent | Good | Excellent | Excellent | Excellent | |
| K | Kapton | Kapton | -267 to 316°C | Excellent | Good | Good | Good | Excellent | |
| S | Silicon | Silicon | -40 to 200°C | Good | Good | Excellent | Excellent | Excellent | |
| F | Fiber Glass Braid | PTFE/PFA or Fiber Glass | -73 to 260°C | Good | Good | Excellent | Excellent | Excellent | |
| CF | Ceramic Fiber |
Ceramic Fiber |
-72 to 871°C | Poor | Good | Poor | Excellent | Excellent | |
| SF | Silica | Silica | -73 to 1038°C | Poor | Good | Poor | Excellent | Fair | |
Additional Information:
Payment Terms : T/T
Delivery Time : As per order
PTFE Sleeving is available as per the requirements of Indian Defense Standard JSS 54802 (LCSO approved).
The Sleeves are made by tape wrapping and sintering process with colours Black, Brown, Red, Orange, Yellow, Green, Blue, Violet, Grey, White, Pink, Natural & several colour combinations of above.
Additional Information:
Payment Terms : T/T
Delivery Time : As per order
High frequency transmission of signals in computer complexes, industrial electronics & maintenance is being done with the help of Co-axial cables.
Because of its wide electrical, Mechanical and thermal properties, Co-axial cables are the solution of most diverse application problems especially in the sector of high frequency technology. The Co-axial cable type RG were originally developed for Military applications. They meet the requirements of American Military regulation MIL-C-17, because of their internationally acclaimed constant high quality, they are today employed through out the whole field of H.F. Technology.
Additional Information:
Payment Terms : T/T
Delivery Time : As per order
Optic Fibre Cable (Single Sheath) - Uni-Tube Armoured(2F upto 48F)
Applications
Technical Specifications From 6F To 48F Cable
| Description | Typical Values | |||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Single Mode Optic Fibre | Complying to ITU G. 652 | |||||||||||
| Fibre Colour Code | Blue, Orange, Green, Brown, Slate/ Grey, White, Red, Black, Yellow, Violet, Rose / Pink, Natural / Aqua | |||||||||||
| Buffer Loose Tube Colours(Optional) | Natural, Blue, Orange, Green | |||||||||||
| Optical Performance | Attenuation @ 1310nm, ≤ 0.38dB / km, Attenuation @ 1550nm, ≤ 0.25dB / km | |||||||||||
| Mechanical Performance | Tensile Strength | Min Bend Radius | Impact | Torsion | ||||||||
| 1W | 1.3W | 2.0W | 2.5W | 20D | 50N | 400N | ||||||
| Enviornmental Performance | Temperature | Operating | Installation | Storage / Shipping | ||||||||
| Specification | -20°C to + 70° C | -20°C to + 70° C | -30°C to + 70° C | |||||||||
| Physical | Description Cable | 6 Fibre | 12 Fibre | 24 Fibre | 48 Fibre | |||||||
| Elements/Fibre count | 44932 | 44938 | 1/2 x12 | 1/4x12 | ||||||||
| Nom cable dia. (mm) | 11.5 | 11.5 | 12.1 | 13.9 | ||||||||
| Nom cable Wt. (kg/km) | 128 | 129 | 146 | 184 | ||||||||
| Std. Length | 2/4km ±10% | 2/4 km± 10% | 2/4 km± 10% | 2/4 km± 10% | ||||||||
| Testing & Inspection | 1. State-of-the-art testing facility. 2. As per Quality Assurance Plan / Customer requirements 3. Complete traceability at any point of time 4. Assistance on filed provided upon request. |
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Our Automotive Cables are manufactured from bright annealed 99.97% pure bare copper conductors, which offer low conductor resistance. Automotive cables, automotive battery cables and battery cables, offered by us, are insulated with a special grade PVC compound formulated and manufactured in-house which is impervious to water, oil, grease, acids etc. Our Automotive Cables are also used in other applications where batteries are used e.g. telecommunication, power, computers, etc. where the D.C. voltage does not exceeds 100 Volts. Automotive Cables, offered by us, are long-lasting and ensure proper distribution of power in the vehicle.
Additional Information:
Payment Terms : T/T
Delivery Time : As per order
RELEMAC Welding Cables Double Insulated, Extra Flexible, Orange and Black Jacket
FEATURES
APPLICATIONS Welding:Designed for the secondary (high current) connection to automatic or hand â held metal arc welding electrodes. It is suitable for flexible use under rugged conditions, on assembly lines and converyor systems, in machine tool and automatically operated line and spot welding machines. POWEREarthing/return leads, power feeds to electrolytic plating process, Busbar connection, transformers, generators, aircraft servicing equipments etc. CONSTRUCTION Conductor: High conductivity, bare annealed copper flexible conductor. Sheath: Double sheathed with specially developed thermoplastic Elastomer (TPR/TPE), outer layer is orange coloured. CURRENT RATING The maximum current ratings of flexible welding cables for different duly cycles are based on an ambient air temperature of 25 C and a maximum conductor temperature of 90 C. The percentage duly cycles for various processes and applications are as follows:
Additional Information:
Payment Terms : T/T
Delivery Time : As per order
| 1 | Automobile Welding | upto 100% |
| 2 | Semi-automatic welding | 30% to 85% |
| 3 | Manual Welding | 0% to 60% |
| 4 | Very intermittent or Occasional Welding | upto 20% |
| Cross - Sectional | Max. Conductorb resistance at 200C | Nominal Thickness of sheath | Min. Overall diameter | Max. Overall diameter | Current Ratings Welding Duty Cycle | Non Welding Application | |||
|---|---|---|---|---|---|---|---|---|---|
| 100% | 85% | 60% | 30% | 20% | |||||
| mm2 | ohm/km | mm | mm | mm | amp | amp | amp | amp | amp |
| 10 | 1.91 | 2.0 | 7.8 | 10.0 | 105 | 115 | 135 | 190 | 235 |
| 16 | 1.21 | 2.0 | 9.0 | 11.5 | 135 | 145 | 175 | 245 | 302 |
| 25 | 0.78 | 2.0 | 10.0 | 13.0 | 180 | 195 | 230 | 330 | 402 |
| 35 | 0.554 | 2.0 | 11.5 | 14.5 | 225 | 245 | 290 | 410 | 503 |
| 50 | 0.386 | 2.2 | 13.0 | 17.0 | 285 | 310 | 370 | 520 | 637 |
| 70 | 0.272 | 2.4 | 15.0 | 19.0 | 355 | 385 | 460 | 650 | 794 |
| 95 | 0.206 | 2.6 | 17.5 | 21.5 | 430 | 470 | 560 | 790 | 961 |
| 120 | 0.161 | 2.8 | 19.5 | 24.0 | 500 | 540 | 650 | 910 | 1118 |
| 150 | 0.129 | 3.0 | 21.5 | 26.0 | 580 | 620 | 740 | 1040 | 1297 |
| 185 | 0.106 | 3.2 | 23.0 | 29.0 | 660 | 715 | 850 | 1200 | 1476 |
| 240 | 0.0801 | 3.4 | 27.0 | 32.0 | 710 | 770 | 916 | 1296 | 1587 |
| 300 | 0.0641 | 3.6 | 30.0 | 35.0 | 800 | 850 | 1035 | 1450 | 1790 |
| 400 | 0.0486 | 3.8 | 33.0 | 39.0 | 925 | 1000 | 1195 | 1690 | 2070 |
| Rating factors/ | for | Variation | in | ambient | temprature | ||||
| Ambient TemperatureoC | 20 | 25 | 30 | 35 | 40 | 45 | 50 | 55 | 60 |
| Ration g Factor | 1.04 | 1.00 | 0.96 | 0.91 | 0.87 | 0.82 | 0.76 | 0.69 | 0.64 |
Applications
Technical Specifications From 6F To 48F Cable
| Description | Typical Values | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Single Mode Optic Fibre | Complying to ITU G. 652 | ||||||||||||
| Fibre Colour Code | Blue, Orange, Green, Brown, Slate / Grey, White, Red, Black, Yellow, Violet, Rose / Pink, Natural / Aqua | ||||||||||||
| Buffer Loose Tube Colours(Optional) | Blue, Orange, Green, Brown,Slate / Grey, White, Red, Black, Yellow, Violet, Rose / Pink, Natural / Aqua | ||||||||||||
| Optical Performance | Attenuation @ 1310nm, ≤ 0.38dB / km, Attenuation @ 1550nm, ≤ 0.25dB / km | ||||||||||||
| Mechanical Performance | Tensile Strength | Min Bend Radius | Impact | Torsion | |||||||||
| 1W | 1.3W | 2.0W | 2.5W | 20D | 50N | 400N | |||||||
| Enviornmental Performance | Temperature | Operating | Installation | Storage / Shipping | |||||||||
| Specification | -20°C to + 70° C | -20°C to + 70° C | -30°C to + 70° C | ||||||||||
| Physical | Description | 6 Fibre | 12 Fibre | 24 Fibre | 48 Fibre | 48 Fibre | |||||||
| Elements/Fibre count | 6/2x3+3Fillers | 6/4x3+3Fillers | 6/4 x6 | 6/8x6 | 6/12x4+2Fillers | ||||||||
| Nom cable dia. (mm) | 12.9 | 12.9 | 12.9 | 14.1 | 14.5 | ||||||||
| Nom cable Wt. (kg/km) | 155 | 156 | 157 | 184 | 193 | ||||||||
| Std. Length | 2/4km ±10% | 2/4 km± 10% | 2/4 km± 10% | 2/4 km± 10% | 2/4 km± 10% | ||||||||
| Testing & Inspection | 1. State-of-the-art testing facility. 2. As per Quality Assurance Plan / Customer requirements 3. Complete traceability at any point of time 4. Assistance on filed provided upon request. 5. Fillers are dummy tubes used to provide circularity to cable core.2x3 means 2F per tube with 3 tubes. |
||||||||||||
Relemac flat traveling Multicore Cables are available up to 24 core in different sizes viz 1mm2, 1.5 mm2 that are the best suited traveling cables for lifts, cable trolleys hoists, cranes escalators etc. The Multicore Cables are manufactured using a special type of compound, which is blend of PVC and Synthetic Rubber. This special compound enables the cable to meet all kind of requirement as per UN Standards and ensures trouble free operations under most rugged conditions. The flat cables are weatherproof cables with additional properties of U.V. protection. The Multicore Cables are smoothly working from -30oC to +50oC atmospheric temperature.These Multicore Cables are also known as, Flat Cables, Elevator Cables, Flat Elevator Cables, Lift Cables, Flat Lift Cables, and Traveling Cables.
Additional Information:
Payment Terms : T/T
Delivery Time : As per order
Exporters a wide variety of multicore cables, for use in instrumentation of power projects, chemical & fertilizers, steel plants & various other type of Engineering industries.
The multicore cables are availale in unshielded twisted cores and PTFE Jacketed and Shielded twisted cores/ twisted pairs and overall PTFE jacketed cables.
Shield is provided to prevent electrostatic interference, it keeps external electrical disturbances away for affecting the signal and eliminates the unwanted transfer of signal between circuits of same cable such as cross talk.
For short distances having low speed digital data transmission unshielded cables, twisted multicore or multi-pair can be used.
These multicore cables are the connecting link between the central instrumentation and various transducers.
Additional Information:
Payment Terms : T/T
Delivery Time : As per order
Silicon rubber insulated cables
are used in electric utilities such as the generation and transmission of electricity. Long service life under normal environment in Nuclear and conventionally powered generating stations plus safety considerations are the significant factors of these electric appliances. When exposed to fire, Silicon offers circuit integrity, low smoke evolution, and freedom from halogen acids.(For e.g. High Furnaces Generator, Electrical Furnaces, Cokd Ovens, Driers, Bakeries & Blast Furnaces).
Applications:
Welding Cables
FEATURES:
APPLICATIONS:
Power:
CONSTRUCTION:Conductor: High conductivity, bare annealed copper flexible conductor.Sheath: Double sheathed with specially developed thermoplastic Elastomer (TPR/TPE), outer layer is orange coloured.
CURRENT RATING:
VOLTAGE DROP:When total cable lengths in excess of 15 meters, are involved , it may be necessary to use cables of larger cross section to ensure that the voltage drop is not excessive and welding currents are maintained at adequate levels.
VOLTAGE DROP:
| Cross - Sectional area |
Max. Conductorb resistance at 200C | Nominal Thickness of sheath | Min. Overall diameter | Max. Overall diameter | Current Ratings | |||||
|---|---|---|---|---|---|---|---|---|---|---|
| Welding Application |
Non Welding Application | |||||||||
| Duty Cycle | ||||||||||
| 1 | 0.85 | 0.6 | 0.3 | 0.2 | ||||||
| mm2 | ohm/km | mm | mm | mm | amp | amp | amp | amp | amp | amp |
| 10 | 1.91 | 2 | 7.8 | 10 | 105 | 115 | 135 | 190 | 235 | 110 |
| 16 | 1.21 | 2 | 9 | 11.5 | 135 | 145 | 175 | 245 | 302 | 138 |
| 25 | 0.78 | 2 | 10 | 13 | 180 | 195 | 230 | 330 | 402 | 187 |
| 35 | 0.55 | 2 | 11.5 | 14.5 | 225 | 245 | 290 | 410 | 503 | 233 |
| 50 | 0.39 | 2.2 | 13 | 17 | 285 | 310 | 370 | 520 | 637 | 295 |
| 70 | 0.27 | 2.4 | 15 | 19 | 355 | 385 | 460 | 650 | 794 | 372 |
| 95 | 0.21 | 2.6 | 17.5 | 21.5 | 430 | 470 | 560 | 790 | 961 | 449 |
| 120 | 0.16 | 2.8 | 19.5 | 24 | 500 | 540 | 650 | 910 | 1118 | 523 |
| 150 | 0.13 | 3 | 21.5 | 26 | 580 | 620 | 740 | 1040 | 1297 | 608 |
| 185 | 0.11 | 3.2 | 23 | 29 | 660 | 715 | 850 | 1200 | 1476 | 690 |
| 240 | 0.08 | 3.4 | 27 | 32 | 710 | 770 | 916 | 1296 | 1587 | 744 |
| 300 | 0.06 | 3.6 | 30 | 35 | 800 | 850 | 1035 | 1450 | 1790 | 840 |
| 400 | 0.05 | 3.8 | 33 | 39 | 925 | 1000 | 1195 | 1690 | 2070 | 970 |
| Rating factors for variation in ambient temprature | ||||||||||
| Ambient temperature°C | 20 | 25 | 30 | 35 | 40 | 45 | 50 | 55 | 60 | 65 |
| Rating Factor | 1.04 | 1 | 0.96 | 0.91 | 0.87 | 0.82 | 0.76 | 0.69 | 0.64 | 0.57 |
