A disadvantage of the classical P core design has always been the narrow wire slots, making it diffi cult to make strong coil formers with integrated solder pins. In the PTS design this problem is solved by cutting away the sides of both core halves. This creates ample room for wires and coil former fl anges. A range of special PTS coil formers is available but also most standard P core accessories can be used.
U cores, with rectangular crosssections, are easy to produce and are relatively inexpensive. For this reason they are very popular in low cost applications such as interference fi lters and output chokes in radio and TV equipment. There is no real optimization for transformer winding designs and the core is rather bulky. Large U cores like U93 and U100 are suitable for very high throughput powers. They can be stacked to form transformers, capable of handling several kW's in applications such as industrial HF welding.
The ER core design is derived from the original E core and, like ETD and EC cores, has a round centre pole and outer legs with a radius to accomodate round coil formers. These cores are mainly used for power transformers. The round centre pole allows the use of thicker wires while the shorter turn length keeps the copper losses low.
PQ cores, like RM/I cores, have round solid centre poles and round winding areas. On the outside the design is rectangular. Top and bottom of a core set are completely fl at, allowing good thermal contact with heat sinks. PQ cores are mainly used in power conversion. Therefore they are only offered in power materials. For most core sizes matching coil formers are available.
P cores with solid centre poles have approximately a 15% higher effective area than the corresponding P cores with central hole. This makes them more suitable for applications where high fl ux densities are used. This will be the case in power conversion where the P core is still popular mainly because of its excellent magnetic shielding. This helps to avoid EMI problems, especially at higher switching frequencies.
Nicore India Market Leader Toroidal Transformer Core Manufacturers and Suppliers for Industries in CRGO Magnetic Cores. Our Toroidal Transformer core is basically a wound grain-oriented silicon strip containing approximately 3% of silicon to the circle or another form. Which can be in different types and different shapes according to customer wishes and projects. Product Name: Toroidal Transformer Core Material: Cold Rolled Grain Oriented Steel (CRGO) / Cold Rolled Non-Grained Oriented Steel (CRNGO) Available Size: Minimum Outer Diameter: 8mm Maximum Outer Diameter: 1100mm Minimum Inner Diameter: 5mm Minimum strip width: 3mm Using high quality CRGO steels with low iron-loss and high permeability in thickness of 0.05mm, 0.08mm, 0.10mm, 0.23mm, 0.27mm, 0.30mm and 0.35mm. Drawings and Charts: Lead Time: 8 days Steel Grade: Silicon Steel Type
EPX cores were derived from EP cores specially for pulse transformers in ISDN and ADSL applications. In comparison to EP cores they feature an increased centre pole area and achieve the same AL and THD performance in a smaller core volume. The new EPX designs, complete with SMD bobbin and clip, satisfy the need for slimmer pulse transformers. They are available in the high permeability material 3E6 for ISDN pulse transformers and in the low harmonic distortion material 3E55 for ADSL wideband applications. Power materials are introduced along with these.
A disadvantage of the classical P core design has always been the narrow wire slots, making it diffi cult to make strong coil formers with integrated solder pins. In the PT design this problem is solved by cutting away the sides of one core half. This creates ample room for wires and coil former fl anges. A range of special PT coil formers is available but also most standard P core accessories can be used.
The ER core design is derived from the original E core and, like ETD and EC cores, has a round centre pole and outer legs with a radius to accomodate round coil formers. These cores are mainly used for power transformers. The round centre pole allows the use of thicker wires while the shorter turn length keeps the copper losses low. Planar ER cores are very suitable to build small SMD or planar power and signal tranformers. For the 3 smallest sizes matching SMD coil formers and clips are available.
The EQ core design is derived from the ER and PQ. The range is optimized for use in compact AC/DC notebook adapters and DC/DC converters. For instance, the EQ30 has the capability to handle a power range of 50 to 70 W (fl yback topology) in an enclosed casing of a notebook adapter or 100 to 150 W in low profi le DC/DC converter . The advantages of EQ cores are a simple core shape, round centre pole, high Ae value , a large winding window, low profi le and a large surface area for heat dissipation.
The ETD core design is a further development of E cores. They are optimized for use in SMPS transformers with switching frequencies between 50 and 200 kHz. The designation ETD (Economic Transformer Design) implies that this design achieves maximum throughput power related to volume and weight of the total transformer. Shielding is somewhat improved compared with E cores. The matching coil formers are suitable for many winding types and can be handled on automatic equipment.
Economic Flat Design (EFD) power transformer cores offer a signifi cant advance in circuit miniaturization. Their low build height and high throughput power-density make them ideally suited to applications where space is at a premium. Throughput power of a ferrite core transformer is essentially proportional to its volume. So the transformer is one of the main limitations in a DC-DC converter's size. Now, with the introduction of the EFD system, a signifi cant reduction in transformer core height has been achieved. EFD transformer cores combine both extreme fl atness with a very high throughput power-density for frequencies up to 1 MHz and higher. Every transformer, based on the EFD range, has a lower building height than any other existing low-profi le design with the same magnetic volume. This is achieved by placing the centre pole of the core always in the centre of the fi nished transformer, thus making maximum use of the winding area.
The PH core range consists of potcore halves specially designed for use in proximity switches. Their shape is derived from the IEC standard P-core range. Outside diameters are adapted to fi t standardized sizes of proximity switch housings. Since the cores are used as halves, their height is increased to accommodate the winding. A complete range of coil formers is available.
The EP/LP core range was specially designed for wideband transformer applications where low build height is a must. The board area occupied by the assembly is almost a square, allowing high packing densities on the PCB. The bobbins have two rows of pins allowing easy design of multiple output transformers. Cores are available in high permeability materials, including the new low THD material 3E55, for wide band transformers and in power materials for small power transformers.
Rated voltage:72.5kV Power frequency test voltage:140kV 1min Lightning impulse test voltage:350 kV Power:50 kVA Rated frequency:60Hz Creepage distance: 31mm/kV, 2248mm Arcing distance:655mm
Eddy-current testing (also commonly seen as eddy current testing and ECT) is one of many electromagnetic testing methods used in nondestructive testing (NDT) making use of electromagnetic induction to detect and characterize surface and sub-surface flaws in conductive materials. The two major applications of eddy current testing are surface inspection and tubing inspections. Surface inspection is used extensively in the aerospace industry, but also in the petrochemical industry. The technique is very sensitive and can detect tight cracks. Surface inspection can be performed both on ferromagnetic and non-ferromagnetic materials
Transformer Lv And Hv Bushing parts used in Current, Voltage, Instrument Transformers, CT/PT/IVT Units & Tapchanger
Model NO.: EI25 Usage: Single-phase Transformer, Rectifier Transformer, Combined Transformer, Power Transformer, Distribution Transformer, Iron Core for Transformer Frequency Characteristics: Low Frequency Shape of Core: Customized Brand: No brand Core Material: CRGO Silicon Steel Core Output Voltage: Customers Requirement Input Voltage: Customers Requirement Winding Material: Copper\Aluminum Place of Origin: Guangdong, China (Mainland) Frequency: 50-60Hz Customized: Yes Advantage: Quick Delivery Price: Negotiable Transport Package: Customization Specification: customized
Ashwa Shakti Engineers Pvt Ltd; Bengaluru has follwing used Transformers for SALE. 1) 200 KVA 11 Kv/433 V Aluminium Winding.-1 No 2) 250 KVA 11 Kv/433 V Copper winding.-1 No 3) 315 KVA 11 Kv /433 V Copper Winding-1 No 4) 3500 Kgs M4 Grade 0.27 mm thick CRGO Lamination of 5 MVA 33/11 KV 5) 7000 Kgs M4 Grade 0.27mm thick Lamination of 10 MVA 110/11 KV
aiia is specialized in manufacturing Single-Phase Isolating & Safety Transformers from 20VA to 5kVA and three-phase transformers from 100VA to 500kVA, for applications in different fields from industrial to automation to photovoltaic to marine. The transformers offer good access to the four-hole fixing, finger-proof terminals, and full varnish impregnation to protect against humidity.