The voltage of an ignition transformer, also known as a spark coil or ignition coil, varies depending on its application and design. In automotive ignition systems, typical output voltages range from several thousand to tens of thousands of volts. These high voltages are necessary to generate the electrical spark required to ignite the air mixture in the engine cylinders. The exact voltage output depends on factors such as the design of the engine’s ignition system, the type of spark plugs used, and the specific engine requirements.
An ignition transformer is a type of transformer used in ignition systems to produce high voltage electrical sparks. It generally consists of primary and secondary windings wrapped around a ferromagnetic core. When current flows through the primary winding, it creates a magnetic field which induces a high voltage pulse in the secondary winding. This high-voltage pulse is then delivered to the spark plugs, where it generates the spark needed to ignite the air-fuel mixture in the engine’s combustion chamber.
The secondary voltage of an ignition transformer refers to the voltage output of the secondary winding of the transformer. As mentioned previously, this voltage can vary greatly depending on the specific application and design of the ignition system. However, in automotive applications, typical secondary voltages range from several thousand to tens of thousands of volts, with higher voltages often associated with high performance or racing engines where a stronger spark is required for efficient combustion .
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