Manufacturer 10VA International Typical Transformer ,High Quality High Frequency Transformer.
USD $2.33 - $2.5 /Piece
Min.Order:1 Piece
Yueqing Yomin Electric Co., Ltd.
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Manufacturer 10VA International Typical Transformer High Quality High Frequency Model: EI-10
Selection of Toroidal Transformer
Toroidal Transformers offer many advantages over standard laminated power
transformers. Toroidals provide quiet, efficient operation with very low stray magnetic
fields. Their small size and weight support a package that is easy to design into any
application.
Advantages of Toroidal Transformer:
1. A toroidal transformer weighs about half as much as conventional transformer with the
same capacity and heat rise. The main materials used in transformer are copper and steel,
both of which are getting scarcer with cost increases as a consequence.
2. No impregnation is needed to keep the laminates quiet so this potential environmental
hazard is avoided.
3. The toroidal transformer fits into a smaller space, which allows chassis plates and
enclosures to be smaller with less material used.
How to find VA for Transformers :
Volt amps (VA) is the effective power rating for a transformer. In the perfect transformer, the
voltage and current (combined) applied at the primary will exactly equal the voltage and
current (combined) on the secondary(s).
Efficiency is measure of a transformer’s ability to delivery the input power to the load.
Efficiency is expressed as a percent by:
% = ( PO / PI ) X 100 (Where: PO = Output power, PI = Input power, % = Efficiency)
VA Calculation
1. Read the transformer’s secondary winding rating (printed or tagged on the transformer
case). This should give a rating such as 5V, 500mA.
Multiply the voltage times the current to receive the VA.
Example: 5V times 500mA (or 0.5A) equals 2.5VA
2. Convert the secondary winding VA value to the primary winding VA rating as the
equation VA (Primary) equals VA (Secondary) or VA (p) = VA(s)
For example of a 2.5VA secondary, if the primary voltage is 120V the current will be A (p) =
VA(s) / V(p). Giving A(p) = 2.5 / 120 = 0.020833 (roughly 21mA).
This is the calculation for a single input winding/single output winding transformer.
3. Add the separate VA ratings for a transformer with multiple secondary windings.
For secondary winding 1 = 5VA at 500mA
Secondary winding 2 = 24V at 100mA
Total Secondary VA = ( 5 X 0.5 ) + ( 24 X 0.1 ) = 4.9VA
Primary VA will still equal the total secondary VA.
Item | Capacity | Voltage Regulation Factor (%) | Efficiency | Case Qty. |
Model | (VA) | (%) | (Pcs) | |
EI-1.6 | 1.6 | 19.8 | 63.4 | 36 |
EI-2 | 2 | 19.2 | 64.3 | 36 |
EI-3 | 3 | 18.6 | 66.5 | 36 |
EI-5 | 5 | 18.1 | 69.6 | 36 |
EI-6.3 | 6.3 | 18 | 74.1 | 36 |
EI-8 | 8 | 18 | 76.4 | 36 |
EI-10 | 10 | 17.8 | 77.6 | 36 |
EI-12 | 12 | 17.6 | 79 | 36 |
EI-16 | 16 | 17.3 | 81.1 | 36 |
EI-20 | 20 | 17.1 | 81.8 | 36 |
EI-25 | 25 | 17.1 | 81.1 | 36 |
EI-30 | 30 | 16.9 | 83 | 36 |
EI-40 | 40 | 14.2 | 84.6 | 27 |
EI-50 | 50 | 12.6 | 84.5 | 27 |
EI-63 | 63 | 10.8 | 85.2 | 27 |
EI-80 | 80 | 9.5 | 85.1 | 27 |
EI-100 | 100 | 8.3 | 86.4 | 27 |
EI-120 | 120 | 8.1 | 88.4 | 24 |
EI-160 | 160 | 7.8 | 89.3 | 24 |
EI-200 | 200 | 7.6 | 89.6 | 24 |
EI-250 | 250 | 6.8 | 90.7 | 18 |
EI-300 | 300 | 6.4 | 91 | 18 |
EI-500 | 500 | 5.8 | 93.1 | 18 |
Note:
Please mention the voltage combination when ordering. Other else multiple voltage combination upon request.