أعطال مرحلة الانحراف والمذبذب الرأسي .. كتاب التلفزيون الملون والعادي

14-9 Faults of the deviation phase and the vertical oscillator:

These faults can be divided into four categories:

1- There is no vibration (vibration).
2 - The frequency is incorrect and failed to synchronize.
3- An abnormality in height or linearity
4- Overlap problems. .

1- No Vibration (Wobbling):

When the oscillator does not work, or one of the stages that follows it does not work completely - then no vertical scanning occurs despite the presence of the normal horizontal scanning, and one of the symptoms of this malfunction is the presence of one bright horizontal line in the screen - and this bright line indicates that the horizontal deviation circuit is the one that It just works - This fault can be caused by a broken diode or transistor, or by a vertical oscillator transformer barrier.

Or from a loss of supply voltage or a malfunction in one of its elements - details of the related faults in the circuits of both horizontal and vertical oscillators will be explained in a later chapter.

Incorrect frequency or synchronization:

Frequency or synchronization misalignment of the vertical scan may occur due to incorrect setting of the vertical hold control. or cause damage to an element of the vertical oscillator circuit. The manifestation of this malfunction is the appearance of several vertical images instead of one image - and the use of the oscillator with two transistors and the stimulus may occur the same phenomenon of malfunction when there is a malfunction in it and disturb the synchronization and the correct frequency.

Also, the loss of vertical synchronization may be a weak synchronization of the pulses feeding the vertical oscillator - so it must be tested first because it indicates that the location of the defect does not lie in the vertical oscillator but rather before it - if the synchronization pulses appear in the correct shape and amplitude, then the defect may be in the vertical integration circuit, or in the entrance oscillator circuit. The work of the correct vertical oscillator is tested by trying to move the vertical stabilizer to obtain a momentary pause for the full image on the screen, or for the image to slide forward or backward as in Figure (11-14).

Height and linearity faults:

Elevation and linearity faults are often related to each other, and may occur separately. Height faults are produced through the vertical oscillator circuit. It may be due to an excessive decrease in the amplitude of the sawtooth wave that generates the vertical deviation. It may also affect vertical linearity. Before starting the inspection of the fault location, the position of the linear and height adjuster must be tested and re-adjusted to the correct position. It may be the cause of the malfunction phenomenon, and it is not necessary more than adjusting it correctly, knowing that both the linear and height switches affect each other, and each one must be set and then the other must be reset until the required final adjustment is completed.

The same faults mentioned may result from faults in the fuses, transistors or other elements related to this stage, as well as from a defect in the supply voltage of these elements and circuits. The vertical output circuit also causes these malfunctions. Therefore, the vertical oscillator circuit must first be isolated from the vertical output circuit - the two circuits may be combined with some devices. This must be taken into account when following up and inventorying faults.

Entanglement malfunctions:

With us, every TV picture is composed of two intertwined fields, one of which is formed by the odd lines of the picture, and the other by the even lines. If a defect occurs in the intertwining of the two fields, the image loses many of its details. It may be accompanied by a weak vertical movement of the scan lines and a shift between the scan line distances of the two fields, and double distances may appear between the scan lines - and the interlocking faults result from a defect in the vertical integration circuit or cause interference of horizontal pulses in the vertical deviation stage, as the horizontal deviation pulses may enter and affect the vertical deviation stage Either because of its direct contact or by radiation.

Digital Vertical Deflection VOC Circuit Faults:

​​​​​​Since such circuits are contained in one integrated circuit (IC), if the fault is identified in this integrated circuit, and not in the vertical output circuit, then this integrated circuit must be changed, and it is relatively easy to separate the faults of both circuits This is by referring to the device diagram and using a signal oscilloscope. If a signal from the saw is found in the output of the integrated circuit and it is not found in the deflection files, then this indicates the presence of a fault in the vertical output circuit. But if there is no signal in the integrated circuit, then the fault is confined to it.