عمل المذبذب الراسي والمذبذب الأفقي في توليد موجة سن المنشار .

6 - 13 The work of the vertical oscillator and the horizontal oscillator in generating the sawtooth wave:

The function of the horizontal and vertical deflection coils that surround the neck of the screen is the magnetic direction of the beam emanating from the ejector to the screen or from the three ejectors in the color screen.

It wipes across the screen from left to right and then back in the opposite direction without leaving any trace on the screen due to the presence of extinguishing or erasing pulses. This is the role of the horizontal deflection files, which must be installed and placed vertically. The scan lines, which are a single point that scans the screen, gradually descend towards the bottom of the screen. They number 312.5 odd lines and 312.5 even lines, intertwining each other to form an image consisting of 625 lines. Since the number of images per second is 25 images, this assumes that the field frequency is 50 Hz, meaning that the image is composed of two fields, and the scan lines that illuminate the screen are called the linear structure of the image (Raster). The vertical movement of the beam from top to bottom and then its return without leaving An effect in the opposite direction is what the vertical deflection files do. It is located horizontally around the neck of the screen, and to achieve the movement of the beam in both the horizontal and vertical directions, the current generated by the oscillator, and the link to the deflection coils must be sawtooth.

The simplest way to do this is to use an RC circuit with a resistance and a capacitor - when it is fed with current, the capacitor is charged and the voltage on its ends gradually rises, as in the figure, and this circuit has a time constant = T = R x C
Farad x Ohm = Second


In practice, the capacitor is charged after a time of (5R.c). The curve is straight between 11 and T2, and here it can be used to generate a wave from the saw. In the figure, we find a simplified circuit of the saw generator, and it works as follows: At the start, the two cutters are open, and when the cutter (SWT) is closed (Fig. ), and when (SW1) opens, (Sw2) is closed, so the capacitor empties quickly, and this is what forms the descending part of the saw tooth. In this circuit, the capacitor remains charged as it is, and is discharged periodically by means of a transistor or a fast.

7-13 The voltage waveform in the deflection coils:

The deflection of the beam in the screen valve is due to the effect of the magnetic field of the deflection coils and to secure a current that has the shape of a sawtooth in these coils, so the waveform of the tension or voltage connected to these coils must be - (which is an induction file and has a certain ohmic resistance). Specific shape


If we assume that the coils have ohmic resistance only, then the voltage that must be applied is the voltage of its wave from the saw, as in figure A. If the coils are inductive only, then the waveform of the voltage applied to them must be as in figure B, and figure C is a combination of both voltages to give As a result wave of the saw required In order for the beam to move on the screen in its correct path - it should be noted that figure C does not represent an equal combination of values ​​between B-A, but rather the values ​​differ according to the ohmic and inductive resistance of the deflection coils, and it is known that the inductive resistance is proportional to the frequency, while the ohmic resistance is not affected by that. Therefore, the horizontal deflection coils with a relatively higher frequency have a clear and large induction effect than the vertical deflection coils with a low frequency.

Deviation transistor circuits:

When using the transistor in vertical and horizontal output amplifiers, the waveform at the output of the transistor is generally different from the desired shape (C), but it is close to the shape of the saw (A). In the valve circuits used in the output amplifiers, the resistance of the board is in series with and is considered a part of it, and the resistance of the board is much greater than the resistance of the coils that work with the coil transistors,

Voltage waveform for sawtooth generation:

​​​​​​The second problem is the generation of voltage with a waveform (trapezoidal) and this can be collected from the output of the charged capacitor, which is connected in series with a certain resistance, and the figure shows this circuit - and the waveform is generated in the output circuit of the oscillator - the resistors -R2- R1 and the capacitor C1 are formed from the regular saw, while the resistance R3, which is usually grounded and connected to the capacitor C1, provides additional change to generate the wave with a distorted shape.

When the valve V1 is in the cut-off state, C1 is charged through R2, R1 and R3 - and the resistance R3 is small in value for R1 and R2 - during this period the positive part of the rectangular wave is formed - and during the return period the valve 71 is in the state of connection, and the capacitor is discharged C1 at R3 and valve V1. The discharge current through R3 and V1 constitutes the negative part of the rectangular wave through R3, as this (pulsed) rectangular wave.