Flyback

Contents.History The flyback transformer circuit was invented as a means of controlling the horizontal movement of the electron beam in a (CRT). Unlike conventional transformers, a flyback transformer is not fed with a signal of the same waveshape as the intended output current.

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A convenient side effect of such a transformer is the considerable energy which is available in its magnetic circuit. This can be exploited using extra windings to provide power to operate other parts of the equipment. In particular, very high voltages are easily obtained using relatively few turns of windings which, after, can provide the very high accelerating voltage for a CRT. Many more recent applications of such a transformer dispense with the need to produce high voltages and use the device as a relatively efficient means of producing a wide range of lower voltages using a transformer which is much smaller than a conventional mains transformer.

Operation and usage. Example of current waveforms in a flyback transformerThe primary winding of the flyback transformer is driven by a switch from a DC supply (usually a transistor).

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When the switch is switched on, the primary inductance causes the current to build up in a ramp. An integral diode connected in series with the secondary winding prevents the formation of secondary current that would eventually oppose the primary current ramp.When the switch is turned off, the current in the primary falls to zero. The energy stored in the magnetic core is released to the secondary as the magnetic field in the core collapses. The voltage in the output winding rises very quickly (usually less than a microsecond) until it is limited by the load conditions. Once the voltage reaches such level as to allow secondary current, the charge flow is in the form of a descending ramp.The cycle can then be repeated. If the secondary current is allowed to discharge completely to zero (no energy stored in the core), then it is said that the transformer works in discontinuous mode (DCM). When some energy is always stored in the core (and the current waveforms look rather than triangular), then this is continuous mode (CCM).

This terminology is used especially in power supply transformers.The low voltage output winding mirrors the sawtooth of the primary current and, e.g. For television purposes, has fewer turns than the primary, thus providing a higher current. This is a ramped and pulsed waveform that repeats at the horizontal (line) of the display. The flyback (vertical portion of the sawtooth wave) can be a potential problem to the flyback transformer if the energy has nowhere to go: the faster a magnetic field collapses, the greater the voltage, which, if not controlled, can flash over the transformer terminals. The high frequency used permits the use of a much smaller transformer. In sets, this high frequency is about 15 (15.625 kHz for PAL, 15.734 kHz for ), and vibrations from the transformer core caused by can often be heard as a high-pitched whine. In modern, the frequency can vary over a wide range, from about 30 kHz to 150 kHz.The transformer can be equipped with extra windings whose sole purpose is to have a relatively large voltage pulse induced in them when the magnetic field collapses as the input switch is turned off.

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There is considerable energy stored in the magnetic field and coupling it out via extra windings helps it to collapse quickly, and avoids the voltage flash over that might otherwise occur. The pulse train coming from the flyback transformer windings is converted to by a simple half wave. There is no point in using a full wave design as there are no corresponding pulses of opposite polarity. One turn of a winding often produces pulses of several volts.

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In older television designs, the transformer produced the required high voltage for the CRT accelerating voltage directly with the output rectified by a simple rectifier. In more modern designs, the rectifier is replaced by a. Color television sets also have to use a regulator to control the high voltage. The earliest sets used a shunt vacuum tube regulator, but the introduction of solid state sets employed a simpler voltage dependent resistor. The rectified voltage is then used to supply the final of the cathode ray tube.There are often auxiliary windings that produce lower voltages for driving other parts of the television circuitry. The voltage used to bias the varactor diodes in modern tuners is often derived from the flyback transformer ('Line OutPut Transformer' LOPT).

In tube sets, a one or two-turn filament winding is located on the opposite side of the core as the HV secondary, used to drive the HV rectifier tube's heater.Practical considerations In modern displays, the LOPT, voltage multiplier and rectifier are often integrated into a single package on the main circuit board. There is usually a thickly insulated wire from the LOPT to the anode terminal (covered by a rubber cap) on the side of the picture tube.One advantage of operating the transformer at the flyback frequency is that it can be much smaller and lighter than a comparable transformer operating at mains (line) frequency. Another advantage is that it provides a mechanism — should the horizontal deflection circuitry fail, the flyback transformer will cease operating and shut down the rest of the display, preventing the that would otherwise result from a stationary electron beam.Construction The primary is wound first around a ferrite rod, and then the secondary is wound around the primary. This arrangement minimizes the of the primary. Finally, a ferrite frame is wrapped around the primary/secondary assembly, closing the magnetic field lines. Between the rod and the frame is an air gap, which increases the. The secondary is wound layer by layer with, and Mylar film between the layers.

In this way parts of the wire with higher voltage between them have more dielectric material between them.Applications The flyback transformer is used in the operation of devices such as television sets and CRT computer monitors. The voltage and frequency can each range over a wide scale depending on the device. For example, a large color TV CRT may require 20 to 50 kV with a of 15.734 kHz for devices and 15.625 kHz for devices. Unlike a power (or 'mains') transformer which uses an of 50 or 60, a flyback transformer typically operates with switched currents at much higher frequencies in the range of 15 kHz to 50 kHz.See also.Notes.