CLASS B HIGH FREQUENCY LITZ WIRE 0.3*7 TRIPLE INSU
Triple Insulated Wires have a prominent feature: no need of
interlayer insulation tape or barrier tape between the primary and
secondary coils of a transformer. This positive feature of TIW
serves to downsize switching transformers, and promises high
production efficiency and cost reduction.TIW paves the way to the
design of the most modern switching transformers.
MINIATURIZE OF SWITCHING TRANSFORMER
Exclusion of 'Creepage Distance' requirement and interleaved
insulation bring epochal miniaturization.
EXCELLENT INSULATION QUALITY
Supreme UL grade of insulation:Reinforced Insulation
The most advanced insulation type: Triple extrusion
Electric Strength Test:1.Straight Test:AC 3,000V/1 min above
2.Twisted Teat:AC 6,000V/1 min above
SUITABILITY FOR HIGH FREQUENCY
Suitable for 30kHz above high frequency purpose
Equalized electric quality with extrusion type
Low dielectric constant
Handing/Storage convenience-Superior physical strength and
durability for abrasion
IMPROVED PRODUCTIVITY
Simple production processes: No barrier tape and interleaved
insulation tape are required
Solderability: Soldering can be conducted without removal of
insulation layer
FEATURES AND BENEFITS
The insulation of the wire, which is made up of three layers,
completely isolates the primary from secondary of the transformer.
Unlike conventional enameled wires, the TIW series is classified as
a wire with three-layered, reinforced insulation (Whereas, SWW-2 is
a wire with supplementary insulation) as generally provided for in
various safety standards. Therefore, it eliminates barriers,
interlayer tapes, and insulating tubes in a transformer.
In addition to the reduction in size and economy in material cost
of the tramsformer made, TIW has an advantage of improving its
performance by reducing the distance between the coils.
In joining the wires the insulation can be easily stripped off by
manual operation. Therefore, the fusing of the three layers of
insulation that may occur in soldering can be avoided. Furthermore,
the insulation of TIW is strong enough to withstand high-speed
winding on the automatic wire winder.
