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These are complete videos about transformer which you make expert on transformer Bobbin size ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-oKZTNn3MGjQ.html Swg wire weight ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-NBHzO-Xvqy4.html Transformer wire primary and secondary ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-RE6u7rTR7dE.html Transformer core weight ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-M3HPdqd101g.html Transformer winding ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-buRxqthcFtE.html
Engineers design transformers to be as small and light as possible to save on materials and shipping costs, yet still meet the electrical requirements. Transformers have been around for over a hundred years, and the basic design has not changed much. The government does not understand how they work, but THEY do. Transformers are wound with a specific number of turns of wire around a core. The turns are evenly spaced and there is a specific amount of insulation between each turn. The insulation is necessary to prevent short circuits and keep the voltage from one winding to another winding from becoming too high. The windings are connected in series or parallel to create the desired voltage or current. The cores may be made of air, iron, or other materials, depending on the type of transformer. Transformers are used in power plants to convert high voltage AC to low voltage DC so that it can be used by consumers. Transformers are a necessary part of our electrical grid, and are used to step up or step down voltage levels. In fact, they are so important that most technical books include a section on transformer winding and calculation. However, free power transformers are not in mainstream technical books. We will share with you how to generate free electricity with transformers.
Transformers only change the voltage and amperage they don't turn ac into dc they actually are used to block DC in push-pull amplifiers, a full bridge rectifier changes ac to dc
Transformers are not in mainstream technical books. We will share with you how to generate free electricity with transformers. Transformers are devices used to step up or step down the voltage of an AC current. Transformers work by transferring energy from one coil of wire to another. This is done by using a magnetic field. The AC current flowing through the primary coil of wire creates a magnetic field. This magnetic field flows through the secondary coil of wire and creates a current. The amount of current that is created is based on the number of turns of wire in each coil and the strength of the magnetic field. You can use this information to create your own transformer to generate free electricity. First, you need to create a primary coil and a secondary coil. The primary coil needs to have more turns of wire than the secondary coil.
Where do you get your laminations and bobbins from? I find the winding constant is more like 6.2 for a 60Hz TX with a primary of about 120V however a little playing is often necessary.
These are complete videos about transformer which you make expert on transformer Bobbin size ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-oKZTNn3MGjQ.html Swg wire weight ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-NBHzO-Xvqy4.html Transformer wire primary and secondary ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-RE6u7rTR7dE.html Transformer core weight ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-M3HPdqd101g.html Transformer winding ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-buRxqthcFtE.html
People like me can't read so narration helps a lot. It would be very easy to use a text to speech engine to do so. I read an informative article regarding how to do so. Okay thanks.
In order to generate free electricity with transformers, you will need to wind the transformer yourself. This is a process that is not typically found in mainstream technical books, but we will share with you how to do it step by step. The first step is to calculate the number of turns you will need for your transformer. You can use the following formula: N = (Voltage Source) / (Turns per Volt) To get started, you will need to know the voltage source of your transformer. This can be either an AC or DC voltage. Next, you will need to determine the number of turns per volt. This information can usually be found on the datasheet for your transformer. Once you have these two values, you can use the formula above to calculate the number of turns needed for your transformer.
جميل عملك لكن في شغله انت هامله ربط اسلاك الكهرباء بالمحول ضعيف وقد ينفصل يفترض تربط سلكين في المحوله حتى لابنقطع واير التجهيز تحياتي وانا اتابع كل ماهو جديد لك
Good evening. Congratulations on the class. You used 1.2mm wire for the secondary and 0.3mm for the primary. How many amperes does this transformer support for these measurements? Thankful.
Standard laminations are 0.35 mm thick lamination with 3% silicon. Use of lamination is to reduce the Eddy current and silicon is used to reduce hysteresis loss.
In finding the gauge of wire it depends on the POWER CAPACITY of the CORE, 1st ---you have to Find the CORE Power 2nd. - Ip= primary current Ip= P/V then you have to find the e corresponding gauge of Wire base on the current- See TABLE Wire
Amplification is a process through which we can enhance the signal amplitude or voltage or frequency. Ampere is the unit of current, ampere is defined as how much charge passing in one second from certain point. 1 ampere = charge/time.
As shown the calculation of the core area neglects the stacking factor of typically 0.95. There are always gaps between the laminations. Turns per volt calculation confounds me. Without knowing what the max flux density of the core Bm its impossible to figure. However this lamination appears to be 24Ga which typically allows for Bm of 15KGauss..
Amperage is calculated by thickness of the copper cable I believe. 14 gauge is maximum of 5.9A, so you can either use a thicker gauge to carry more amperage, or a multiple of thinner gauges. Say for example 10# Wire it may carry 30A, and a 14# may carry 5A. You could use 1 x 10#, or 6 x 14#
@@ThalesPo if due to heat/age the thin insulation between the winding breaks down, the inductance lowers and the transformer pulls more current. heats up, more insulation goes and eventually sends 220 volts into whatever devuce you're powering with the transformer and it explodes and catches fire
The primary turn is always started in the beginning and in the secondary turn last but you have done the opposite, brother, the transformer will burn .....
Salvage from other transformers. It's hard to get bare electrical steel sheets or the E,I pieces. And you may just rewind an existing secondary like me and be happy with it. Not to mention, if you mess something up in the primary side, your primary could burn up.. which would short mains power straight to the core..
Not a Complete FormuLa in EI transformer CalcuLation, How do you Solve for CORE Power Capacity, and how to Get the exact size of Wire for Primary and secondary 7.5 constant Value is used for 50hz frequency and not for 60hz
