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AUDIO TRANSFORMER DESIGN FOR TUBE AMPLIFIER WITH IMPR…

    http://www.standardsuniversity.org/wp-content/uploads/audio_transformer_design_tube_amplifier_pichkalyov_final_paper.pdf#:~:text=The%20ratio%20of%20impedances%20produces%20the%20transformation%20ratio.,lamp.%20The%20audio%20speaker%20impedance%20is%204%20Ohm.
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Audio Transformer, its Types and Impedance Ratio

    https://circuitdigest.com/tutorial/audio-transformer
    To calculate the impedance ratio we need to square the transformer turns ratio or the transformer voltage ratio. In the above equation, Z P is primary impedance and Z S is secondary impedance. N P /N S is the turns ratio of the transformer and V P /V S is the voltage ratio of the transformer.

Output Transformer Impedance

    https://www.radioremembered.org/outimp.htm
    So if the transformer is working into an 8 ohm load, the impedance that will be reflected to the primary will be the impedance ratio (625) multiplied by the load impedance (8 ohms), equal 5,000 ohms. If the load in the secondary is changed to a 4 ohm load, the reflected impedance in the primary would be 625 X 4 = 2,500 ohms.

Step Up Transformer Calculations - mh-audio.nl

    http://mh-audio.nl/Calculators/StepUpTransformer.html
    45 rows

Chapter 5: Understanding Impedance In Audio Transformers

    http://www.lundahl.se/wp-content/uploads/datasheets/PSW_WhitePaper_Download_Chapter_5.pdf
    ImpedanceIn Audio Transformers impedance. Transmission lines and cables exhibit impedance too, but for simplicity’s sake we will not delve into them here. They represent only a relatively small factor, except when very long lines are driven by sub-optimal output stages. In such cases, the capacitive and induc-

AUDIO TRANSFORMER DESIGN FOR TUBE AMPLIFIER WITH …

    http://www.standardsuniversity.org/wp-content/uploads/audio_transformer_design_tube_amplifier_pichkalyov_final_paper.pdf
    By using the above formula, we can calculate the turn number of windings required. It is proportional to the ratio of input and output impedances: n=Np/Ns=(Zp/Zs)1/2 where Np and Ns designate the primary and secondary turn numbers. n=(4096/4)1/2= 32; The equivalent transformer impedance can be then calculated (tube impedance is 5 kOhm and Zp is

Audio Transformers

    https://www.jensen-transformers.com/wp-content/uploads/2014/08/Audio-Transformers-Chapter.pdf
    1:2 turns ratio exhibited an impedance ratio of 1:4. Transformers always reflect impedances from one winding to another by the square of the their turns ratio or, expressed as a formula: Zp/Zs = (Np/Ns)2 where Zp is primary impedance, Zs is secondary impedance, and Np/Ns is turns ratio (which is the same as the voltage ratio).

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