DE1184793B - Saw tooth generator circuit stabilized against frequency fluctuations - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: H 04 η

German class: 21 al -35/20

Number:
File number:
Registration date:
Display day:

B 66496 VIII a / 21 al

March 23, 1962

January 7, 1965

The invention relates to a deflection generator operating on the principle of capacitor charging, d. H. a generator in which a sawtooth voltage is used to generate the Generate scanning current in the deflection coils of a cathode ray tube and in which this voltage is obtained by alternately charging and discharging a capacitor. In particular, relates the invention relates to an improved circuit in which the amplitude of the sawtooth current generated is kept constant with respect to changes in the deflection frequency.

A circuit is already known in which an amplitude stabilization when the gain properties change The tube used or the resistance of the deflection circuit by heating or the like. Is compensated by means of a A direct voltage is obtained from the deflection current and this is used to influence it of the amplitude swing of the sawtooth voltage is used. To this end, resistance becomes of the switch discharging the capacitor changes and thus a variable residual voltage left on the capacitor.

If in such a circuit the electrical properties of the switching elements are kept constant but the frequency is intentionally or accidentally changed, the amplitude must change also change so that a change in the picture format on the screen of the cathode ray tube occurs, which is generally undesirable.

The object of the present invention is therefore to specify a circuit which has a constant amplitude a sawtooth voltage even if there is an intentional or accidental frequency change the sawtooth voltage occurs. Such a circuit is especially useful for receivers Multi-norm reception meaning where a change in frame rate or line rate occurs the switchover to a different television standard is carried out.

To solve this problem, a sawtooth generator circuit with an amplitude stabilized against frequency fluctuations, in which a sawtooth voltage is generated by alternating charging and Discharge of a capacitor is generated with a device for obtaining a DC voltage from the deflection circuit and to influence the capacitor circuit by means of this DC voltage, according to the invention, a controllable resistor is used as an influenced switching element of the capacitor circuit, which is part of the charging resistance

Stabilized against frequency fluctuations
Sawtooth generator circuit

Applicant:

Rank-Bush Murphy Limited, London

Representative:

Dr.-Ing. W. Lampert, patent attorney,

Stuttgart W, Breitscheidstr. 4th

Named as inventor:

Peter William Blaxtan, Elmstead Woods, Kent

(Great Britain)

Claimed priority:

Great Britain March 27, 1961 (11049)

of the capacitor circuit and the size of this resistance is varied by a control voltage obtained by comparing the DC voltage with a reference voltage from a reference voltage source.
Advantageously, the speed of the change in charge of the capacitor during the run-out is varied in accordance with the difference between a reference direct voltage and a further direct voltage, which is proportional to the deviation of the peaks of that voltage which is above the

Deflection system appears, or the current flowing in the deflection coils is of a predetermined value, such that the fluctuations in the diverted voltage are reduced.
When applied to devices in which the electron beam of a cathode ray tube is magnetically deflected with the help of a deflection coil system and this coil system is fed by an amplifier tube which is controlled by a sawtooth voltage generated on the basis of an alternating charge and discharge of a capacitor The voltage used by the capacitor and thus also the speed of the change in charge varies according to the difference between a reference direct voltage and a further direct voltage which is generated by rectifying the voltage appearing across the deflection coils.

409 767/122

3 4

According to another embodiment of the invention grid supplied to a pentode 19, the cathode of which

The speed of change of the opening can be measured via a tube used for voltage comparison

The charge of the capacitor is connected to earth in accordance with the 20 below. Which flows through the tube 19

The difference between a reference voltage and a current therefore depends on the difference between

further DC voltage can be varied, which 5 see the DC derived from the deflection current

is generated by rectifying a voltage, voltage which is supplied to the grid of the tube 19

which is proportional to that in the deflection coils, and the reference voltage at the cathode the-

ßenden current is and via a resistor from the tube. The greater the stress amplitude

seems, which is arranged in series with the deflection coils above the deflection coil system 13, the larger

net is. ίο is also the positive DC voltage that the grid

The invention can also be applied to such devices on the tube 19, and accordingly also in which the electron beam is the anode current which this tube conducts. the A cathode ray tube is electrostatically deflected anode of the tube 19 is connected to the junction is. For this purpose, it is generally expedient to connect the resistors 5 and 6 via which the Voltage between the baffles or 15 capacitor 4 is charged. So herewith occurs the Input of the deflection amplifier or between an effect on that any growth of the deflection plate and earth (if symmetrical deflection increases the anode current in the current is required) to rectify and the generated tube 19 causes and thus an increasing DC voltage to the reference voltage causes voltage drop in resistor 6. This same. 20 increased voltage drop reduces the charging

The invention will now be based on the drawings speed of the capacitor 4 and thus the

which comprise FIGS. 1, 2 and 3. Size of the deflection amplitude. A distraction from

It shows practically constant amplitude, the size of which is due

F i g. 1 shows a simplified circuit of an execution change of the setting of the slider 18 at the potential

Approximate shape of an image deflection generator according to which can be set 25 tiometer 17, is hereby

lying invention, over a wide range of the frequency of the syn-

F i g. 2 a complete circuit arrangement of the chronimpulse is maintained.

Deflection generator of Fig. 1,. The circuit of FIG. 1 can, for. B. in that

F i g. 3 a circuit showing a modification in the case that an electrostatically deflected tube is

the circuit according to FIG. 2 shows. 30 is used, can be modified. Then the exit

The circuit according to FIG. 1 shows features of an output transformer 11 z. B. by a resistor

known deflection generator, on which the fol- is replaced and the one appearing above this resistance

The following description initially refers. Sawtooth voltage also after further amplification

In this circuit, a triode-shaped connection is provided between the deflection plates of the cathode ray tube and tube 3, the grid on which the tube 35 is guided. If - as usual - it is desired to achieve synchronous signals received from terminal 1 via a symmetrical deflection, the suitable network of switching elements 2 would be supplied with additional amplifiers in a manner known per se. The tube 3 will be formed by the synchronizing pulses in the form of a push-pull output stage, conductive and discharging a capacitor 4, which is arranged between the anode and the cathode of the tube, the output voltage being symmetrical with respect to earth. 40 is metric. In each of these cases, however, it is advisable in the intervals between the synchronizing pulses that the voltage across the anode of the tube 9, the capacitor 4, across the resistors 5 and 6, or a fraction of this from a positive voltage at the terminal 7, is applied to the voltage Feed rectifier 15,
loaded. The details of a practical embodiment sawtooth voltage appearing across the capacitor 4 are therefore directed positively and 45 of the circuit according to FIG. 2 explained in more detail. The arriving at 1 is fed to a pentode 9, the anode of which with the sync pulses pass through a capacitor primary winding 10 of an output transformer 11 21 to the grid of the tube 3, which is connected to the same, of whose secondary winding 12 a function like the tube 3 in F i G. 1 exercises. At Lei deflection coil 13 is fed. This deflection coil 50 tending of the tube 3 by the supplied syn system is a cathode ray tube (not shown) chron impulses, a capacitor 4 is discharged. in this case between the anode of the tube 3 and

The circuit described so far is known. the cathode of a pentode 9 is arranged. That

According to the present exemplary embodiment of the control grid of the tube 9 is linearized via a

Invention is the over the deflection coils 13 55 of the network 8, which within the dashed line

apparent contour, derived from the sawtooth voltage, with which at the anode of the tube 3

Voltage rectified and thus provided with a voltage that is equal to one another,

voltage generated, which with a reference equal- In the anode circle of the tube 9 is the

voltage is compared. The primary winding IO of the output transformer 11,

The same resulting error signal is used to 60 whose secondary winding 12 the deflection coil system

in order to feed the voltage fed to the capacitor 4 to 13. The primary winding 10 of the transformer

vary. For this purpose, the voltage at the un- 11 is controlled by a voltage-dependent resistor

earthed end of the deflection coil 13 occurring 22 bridged, which is used to over the

Voltage across a line 14 to a rectifier winding the transformer during flyback

15, which in connection with the con-65 to limit the voltage that appears. Similar to in

capacitor 16 a DC voltage across a potential the embodiment of FIG. 1 becomes the over

tiometer developed. The voltage appearing at the tap 18 of the deflection coil system 13

Potentiometer 17 appearing voltage is fed to the line 14 of a diode 15, the

Claims (4)

Output voltage is applied after smoothing by a capacitor 16 to a voltage divider chain, which is formed by two resistors 23, 24 and a potentiometer 17. The wiper 18 of the potentiometer is connected to earth via a capacitor 25, which serves as protection against overshoot, and also to the grid of a pentode 19 which has a reference voltage tube 20 in its cathode feed. The current passed by tube 19 is proportional to the difference between the reference voltage across tube 20 and the voltage on its grid which was generated by rectification from the deflection coil voltage. The current flowing through the tube 19 passes as shown in FIG. 1 a resistor 6 which, together with the resistor 5, forms a charging resistor via which the capacitor 4 is charged from a positive voltage source of 600 volts. The charging speed of the capacitor 4 is thus changed, so that only a very slight voltage fluctuation occurs across the deflection coil system 13. Further features of the circuit of FIG. 2 consist in that, due to the connection between the capacitor 4 and the cathode of the tube 9, the DC voltage occurring via a resistor 26 in the cathode line of the latter tube is fed back and thus contributes to the linearization of the sawtooth voltage generated. An electrolytic capacitor 27 shunts resistor 26 at higher frequencies. A further linearizing feedback is provided by a tertiary winding 28 on the transformer 12, the voltage appearing across this winding being fed back to the grid of the tube 9 by means of a capacitor 29 and a variable resistor 30. In order to ensure that the circuit oscillates in self-excitation when no synchronous signals occur, the voltage generated at the anode of the tube 9 is fed back via a capacitor 31 to a voltage divider, which consists of the series resistors 32, 33, from the connection of which a voltage is applied a capacitor 34 is placed on the grid of the tube 3. With a practical circuit arrangement according to FIG. 2 it can be achieved that a change from 50 to 60 Hz in the repetition frequency of the synchronizing signals at terminal 1 only causes a change of less than VaVo in the resulting deflection amplitude. FIG. 3 shows a modification of the circuit arrangement according to FIG. 2, a voltage proportional to the peak deviation from a given value of the current in the deflection coils being compared with a reference value in order to derive the error signal therefrom. For this purpose, a resistor 40 is connected in series with the line from the secondary winding 12 of the output transformer 11 to the grounded side of the deflection coil 13. The voltage appearing across the resistor 40, which is proportional to the current flowing in the deflection coils, is fed, as before, to a rectifier 15 which, in connection with a capacitor 16 via a voltage divider chain (formed by the potentiometer 17 with the resistors 23, 24) a Voltage generated which is proportional to the peak deviation of the current flowing in the coils 13 from ίο a predetermined value. The remainder of the circuit, enclosed by a dashed line 41, can be configured just as in FIG. 2 are executed. χ5 claims: 1. Sawtooth generator circuit with amplitude stabilized against frequency fluctuations, in which creates a sawtooth voltage by alternately charging and discharging a capacitor is generated, with a device for obtaining a DC voltage from the deflection circuit and for influencing the capacitor circuit by means of this direct voltage, characterized in that the influenced Switching element of the capacitor circuit is a controllable resistor (19), which forms part of the charging resistance of the capacitor circuit, and that the size of this Resistance by comparing the DC voltage with a reference voltage from the reference voltage source (20) obtained control voltage is varied. 2. sawtooth generator circuit according to spoke 1, characterized in that the DC voltage by rectifying one through a resistor in series with the deflection coils appearing voltage is derived by rectification. 3. sawtooth generator circuit according to claim 1, characterized in that the DC voltage is obtained by rectifying the sawtooth voltage generated by the sawtooth generator generated on the baffles of an electrostatically deflected cathode ray tube or derived from a voltage proportional to the deflection voltage. 4. sawtooth generator circuit according to one of the preceding claims, characterized in that that the DC voltage to the grid of the control electrode of an electronic amplifier element is supplied, the bias source of which is switched into the cathode line and whose output electrode is switched in such a way that a current flows from a point on a chain of resistors, which serves to discharge the capacitor flows to the anode. Considered publications:
German interpretative document No. 1 006 542. 1 sheet of drawings 409 767/122 12.64 © Bundesdruckerei Berlin