SU657668A1 - Arrangement for measuring signal non-linearity of vertical and line-scanning generators - Google Patents

Claims (1)

to the output of which a second input of the read amplifier is connected. The drawing shows a structural electrical circuit of the device for measuring the non-linearity of the signals of the generators of personnel and line scans. The device contains a sync generator 1, a read amplifier 2, an oscilloscope 3, a video monitor unit 4, a frame scan generator 5, a line scan generator 6, a storage tube (ZELT) 7, an amplifier 8, a switch 9, a control unit 10, a precision scan generator 11 and focusing deflecting system (FOS) 12. The device operates as follows. In the device, an electronic grid is formed in the control unit 10 from the pulses of the synchronous generator 1 during the recording frame and through the recording amplifier 8 goes to the control The ZELT 7 electrode. The orthogonal switching of rasters and potentials on the ZELT 7 electrodes in write, read and erase modes is performed by the switch 9 on command from the control unit 10. The FOS 12 deflecting coils include a precision generator 11 (when measuring geometrical distortions 12) or frame and line scan generators 5 and 6 (when measuring raster distortions: nonlinear + geometric). The counting signal is formed into a television signal in the read amplifier 2 and is fed to the video monitoring unit and to the measuring oscilloscope 3, on the scale of which a time interval between the distorted electron grid is measured. Using video control unit 4, it is convenient to combine the beginning of rasters, to gravely estimate raster distortions and to promptly adjust the investigated sweeps. The device allows accurate measurement of raster distortion on the screen of the oscilloscope 3 and roughly estimate these distortions on the screen of the video monitor unit 4, fixing their presence or absence. The essence of raster distortion measurements is as follows. In the recording mode, the coordinates of the beam and the recorded potential relief at the moment of time t are found from the ratios xp EX – Chr (x; y) Fx (t) l. . UZp Ey Kug (x; y) - FV (t) J, where EX and EV is the sensitivity of the deflection of the coils; Khg and Kug - coefficients taking into account the geometric distortions of FOS 12; FX (t), Fy (t) is the law of current variation in the line and frame deflection coils, respectively. Switching to the read mode implies an orthogonal change in the directions of scanning the target and combining (with the help of centering) the origin. Regarding the time t, the coordinates of the beam when reading are equal to xcr Ei-Kj r (x; y) Fx (t) 1. Yc / t Ex-Cool (x; y) Fy () J / where EA, Ey khp as in (1) differ in magnitude from Ex X Ey; KX and Chur no more than 2% due to different potentials of the ZELT 7 target in read and write modes. Comparing the corresponding values (1) and (2), we get F «{lf - | flf.Fv {t}) LkKhg5, I / (31 b (4..F., t, /, using equation (3), you can simply measure the coefficients taking into account mutual geometric distortions of FOS 12 when working with precision sweeps of sawtooth currents (FX (t). At, FV t) jet ,; where a are the ID-constant coefficients.), | L conet: (4) That is, the readout values of t for the corresponding t with regard to the scale factor characterize the geometric distortion of the FOS 12. If in the recording mode, to form an electronic grid, then by reference values at extreme points the geometrical distortions of FOS 12 are determined. Invention A device for measuring nonlinearity of frame and line scan generators, comprising a series-connected sync generator, a read amplifier, an oscilloscope and a video monitoring unit, to the second input of which the output of the read amplifier is connected, to the second output of the clock generator, the third generator input is connected horizontal scan, different in order. That, in order to measure the nonlinearity of signals with an orthogonal scan, a storage electron tube, an amplifier, a switch, a control unit and a precision scan generator, are introduced, the fourth and fifth outputs of the synchronous generator, respectively, are connected to the first and second inputs, through a series-connected unit control, to the first, the output of which is connected to the first input of the switch, and the amplifier is connected to the input of the storage electron-storage tube, and to the second and the third at the inputs of the switch, the output of the horizontal scanning generator and the output of the vertical scanning generator are connected, and to the fourth and fifth inputs, respectively, the first and second outputs a preceen generation sweep generator; in this case, a focusing deflecting system is connected to the output of the switchboard, which is memorized throughout the electron-beam tube, to the output of which the second input of the read amplifier is connected. Sources of information taken into account in the examination 1 Focusing deflecting systems for television devices. OSTC PvO.479.001, 01.01.75, p. 2122.