Transformer Windings and Enameled Winding Wire Guide

Transformer performance relies on the condition of each and every coil. This enameled winding wire for transformer winding defines the insulation integrity, thermal endurance and energy efficiency of the whole life of the equipment. If you design or manufacture distribution transformers, dry type transformers or high frequency power supplies, this is an established engineering & procurement choice.

What Is enameled winding wire for transformer winding?

Enameled winding wire for transformer winding to be used where transformer winding is Cu or Al conductor coated with a thin uniform film of thermally cured polymer insulation which forms the primary and secondary coil of the transformer. The film replaces the textile or paper wrapping ensuring that the winding measures can be such that it is possible to achieve a greater packing density and enhanced dielectric strength for a given coil cross section.

The magnetic flux that couples electrical energy from one winding to another is created by the conductors that are carrying alternating current. The enamel on winding wire insulates enameled winding wire from adjacent turns, sustains continuous mechanical and thermal stress, and prevents destructive inter-turn shorts. Well-graded enamel film in the enameled winding wire prevents transformer windings from early failure damage such as overheating, insulation breakdown, and catastrophic failure of the associated equipment.

Key Specifications & Technical Parameters

ParameterValue
Conductor MaterialElectrolytic tough pitch copper (ETP), aluminum alloy (verify with manufacturer)
Conductor ShapeRound, rectangular (flat), square
Conductor Diameter (round)0.016 mm – 9.20 mm (verify with manufacturer)
Insulation TypePolyester (PEW), Polyesterimide (EIW), Polyamide-imide (AIW), Polyimide (PIW)
Temperature Class105°C (Class A), 120°C (Class E), 130°C (Class B), 155°C (Class F), 180°C (Class H), 200°C (Class C)
Elongation at Break≥ 20% (typical for copper) (verify with manufacturer)
Conductor ResistancePer IEC 60317 / NEMA MW standards (verify with manufacturer)
Applicable StandardsIEC 60317, NEMA MW 1000, GB/T 4074, JIS C 3202
Spool Weight / Format30 kg, 60 kg, 90 kg, PT25, PT30, PT35, PT60, PT90, PT200, PT270, custom
Specification of enamelled winding wire for transformer winding
Products NameThermal Class (℃)JISNEMAIEC
Modified polyester Enamelled Wire1553202-5MW 5-C60317-3
Polyester-imide Enamelled Wire1803202-8MW 30-C60317-8
Modified polyester overcoat polyamide-imide
Enamelled Wire
200MW 35-C60317-13
Polyester-imide overcoat polyamide-imide
Enamelled Wire
200MW 35-C60317-13

Enameled Wire Types: Copper vs. Aluminum Comparison

Deciding between copper or aluminum enameled winding wire is one of the most important decisions to be made during transformer coil design. Both are technically feasible; it really comes down to weight goals, price, and winding configuration.

PropertyEnameled Copper WireEnameled Aluminum Wire
Electrical Conductivity~58 MS/m (reference standard)~35 MS/m (~60% of copper)
Conductor Cross-Section Required1× (baseline)~1.6× for equivalent resistance
Weight (same resistance)Heavier~50% lighter
Material CostHigherLower
SolderabilityExcellentRequires special termination
Winding Tension ToleranceHighModerate (more brittle)
Typical ApplicationHigh-efficiency, compact transformersLarge distribution transformers where weight and cost savings outweigh size penalty

Selection guidance: Use copper enameled wire for high frequency, small or precision transformers where coil space is limited. Use aluminum enameled wire for large oil immersed distribution transformers where minimising conductor cost and overall weight are main design criteria.

Common transformers and the corresponding winding wire heat resistance grade

Transformer typeapplicationFeaturesHeat resistance grade
power transformerTransformation and distribution of power systemsLarge capacity, high voltage level, high efficiency, stable operationClass B or F
Electric locomotive transformerTraction of electric locomotivesSmall size, light weight, vibration and impact resistanceClass F or H
Industrial transformerIndustrial productionVarious varieties, diverse structures and strong adaptabilityB , Class F or Class H
Electronic transformerElectronic equipmentHigh frequency, small size, high efficiencyClass F or H
Large transformerCapacity greater than 1000kVAHigh power, large volume, inconvenient to transportClass B or F
medium transformerCapacity is 100~1000kVAModerate capacity and wide application rangeClass B or F
small transformerCapacity less than 100kVASmall size, light weight and low priceClass B
dry type transformerNo cooling medium is usedSafety and environmental protection, good fire protection performance, low maintenance costClass B or F
Oil-immersed transformerUse oil as cooling mediumGood heat dissipation performance, large capacity and high efficiencyClass B or F

What are the two types of transformer winding?

A transformer has two sets of windings the primary and secondary.

The primary winding is the coil through which the energy is delivered. It consists of the coil being made, wound and mounted onto the iron core. The secondary winding is the coil that delivers the energy at a transformed voltage (step-up or step-down).

Transformers are designed to transfer energy by electromagnetic means from one Alternating Current system to another. They don‘t alter the power dramatically, only a small wattage losses to the transformer.

How Enameled Winding Wire Works in a Transformer?

The insulation applied to bare conductor in successive layers via a coating die and curing oven. Each pass deposits a very thin layer of polymer film. A sequence of passes will build up a film of between 10 and 100 micrometers depending on the specified insulation grade.

Inside a wound coil, each turn of conductor is separated from the next by this film. The dielectric strength of the enamel which in normal grades ranges from 3,000 to 7,000 volts stops the current jumping from turn to turn at working voltage, while the thermal class of the insulation allows for the highest possible continuous temperature the coil can operate at without being damaged. Buyers who under-specify the temperature class will have increased aging and decreased transformer life.

Why do transformers have so many windings?

Electromagnetic Voltage Transformation: Using an AC electrical signal transformer can alter the voltages of the signals (provided DC is time-varying). A transformer can have multiple winding (secondary) voltages and ratios exist between them. Different turns ratios on the primary VS secondary windings produce differing voltage ratios between the input and output.

Isolation: Transformers can isolate the secondary circuit from the primary circuit. It can also isolate the electrical equipment connected to it from unwanted electrical disturbances, such as surges or noise, that may be passing through the electrical equipment connected to the primary side.

Impedance Matching: Transformers may be made to match the impedance (resistance to the flow of AC current) of the primary and secondary circuits. This characteristic is harnessed to achieve good power transfer and signal transfer while reducing signal loss in certain applications such as in audio, radio frequency transmissions etc.

Multiple Taps; Some transformers can have several different windings with several taps, resulting in a variety of voltage options on the secondary side. This has potential usefulness in applications where a selectable voltage output is needed.

Phase Shifting: Some transformers (e.g. phase-shifting transformers) are designed to providing phase shift between the primary and secondary windings. This is needed in some power transmission and distribution installations in order to control power flow and enable grid stability.

Auto-Transformers: Auto-transformers have only 1 winding with different taps. These are sometimes called auto-transformers as the primary and secondary windings are combined, providing a number of different voltage levels. They are generally cheaper than 2 winding transformers.

LP Industry production capacity for transformer winding wire

What LP industry makes transformer winding wire uses are far more, improved and perfection at allprocess from raw material production, to special packaging. An summarized versionof manufacturing strengths of them are as follows:

Advanced Manufacturing and Coating Technology

The first step in the manufacturing process is 9.5mm high quality metal wire. It is redrawn by passing through precision dies to the specified diameter. The most impressive aspect of the company‘s manufacturing machinery is the Mold Coating process, it is capable of applying three layers of electrical insulation paint film, with uniform thickness from 60 to 450 m of uniform volts and insulated properties. It is extremely heat resistant and does not crack even at 350 degreesC.

Precision Curing and Winding

For the insulation to be firm, LP Industry employs state-of-the-art infrared oven systems to individually time and control the temperature for curing the material uniformly. As regards winding procedure, a patented lubricated oil coating is adopted to lower friction so that automatic variable speed machinery may work more efficiently and efficiently. Also, micro-winding machines are incorporated for high precision winding with controllable speed, tension, and angle in free joint-carrying sizes between 5kg and 200kg.

Quality Assurance and Logistics

Whole process line of quality controls is in place. The detailed test reports on customer‘s demand, including material certificates, film thickness of paint, dielectric losses, breakdown tests, elongation and resilience data are production. The products are secured onto the custom-built wooden-reels (cylindrical or cone-shape) capable of weighing up to 200kg. The packaging materials are moisture-proof and shock-proof for transit protection.

Customization Options & Buying Guide Transformer Winding Wire

Standard round enameled wire is suitable for most transformer winding applications. Several parameters must be clearly specified before ordering.

Conductor shape: Round wire works well with most winding machines and is appropriate for use in toroids. Flat (rectangular) enameled wire is used in power or distribution transformers in the low-voltage, high-current windings, as it provides higher copper fill factors than round wire in rectangular winding windows.

Insulation build: Single-build (Grade 1) film provides the lowest insulation maximum packing density. Double-build (Grade 2) adds dielectric margin and improves mechanical abrasion resistance during the winding process. Heavy-build (Grade 3) is required for all high-voltage windings with strict inter-turn voltage stress requirements.

Finish variations: Self-bonding enamel types (solderable) can be broken in without stripping tools at tinning time. Bond-coated wire is coated with a thermoplastic outer layer which melts when heated and welds coils together. No varnish impregnation is needed in some designs.

Conductor purity: Select IEC Grade 1 electrolytic copper for lowest resistivity and best solderability. (Confirm grade of conductor purity with manufacturer.)

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