Ignition Secondary Voltage Waveform at Rodney Eubanks blog

Ignition Secondary Voltage Waveform. The spark line begins at 10 ms and ends at 12 ms. At 6 ms, the power diode saturates coil primary. At 10 ms, the primary circuit is interrupted, creating a 12 kv firing spike. A secondary ignition waveform can be broken down into three parts. Once you learn how to. As seen in figure 1, the voltage required to fire the plug is determined by the greatest gap in the. The ignition waveform is a window that allows the technician to see what’s occurring in the combustion chamber. Second, the spike shows the initial start of the spark between the electrodes. First, the area of the waveform shows dwell where the secondary of the coil is saturated with energy from the primary. Atmospheric air pressure is actually what insulates the secondary ignition. The spark line should be horizontal. The secret to being able to capture and analyze secondary ignition waveforms is understanding what is happening in the coil and.

The secret to being able to capture and analyze secondary ignition waveforms is understanding what is happening in the coil and. The spark line should be horizontal. Once you learn how to. The ignition waveform is a window that allows the technician to see what’s occurring in the combustion chamber. As seen in figure 1, the voltage required to fire the plug is determined by the greatest gap in the. First, the area of the waveform shows dwell where the secondary of the coil is saturated with energy from the primary. Second, the spike shows the initial start of the spark between the electrodes. The spark line begins at 10 ms and ends at 12 ms. At 10 ms, the primary circuit is interrupted, creating a 12 kv firing spike. At 6 ms, the power diode saturates coil primary.

Kirills on car TTEC 4826 Primary and Secondary Ignition Patterns

Ignition Secondary Voltage Waveform At 10 ms, the primary circuit is interrupted, creating a 12 kv firing spike. Second, the spike shows the initial start of the spark between the electrodes. A secondary ignition waveform can be broken down into three parts. The spark line begins at 10 ms and ends at 12 ms. As seen in figure 1, the voltage required to fire the plug is determined by the greatest gap in the. The spark line should be horizontal. At 6 ms, the power diode saturates coil primary. The secret to being able to capture and analyze secondary ignition waveforms is understanding what is happening in the coil and. Atmospheric air pressure is actually what insulates the secondary ignition. The ignition waveform is a window that allows the technician to see what’s occurring in the combustion chamber. First, the area of the waveform shows dwell where the secondary of the coil is saturated with energy from the primary. At 10 ms, the primary circuit is interrupted, creating a 12 kv firing spike. Once you learn how to.