DE29816069U1 - Circuit arrangement for regulating the operating point of a cathode ray tube - Google Patents

Description

GR 98 G 4436 EN

Description

Circuit arrangement for controlling the operating point of a cathode ray tube
5

The invention relates to a circuit arrangement for controlling the operating point of a cathode ray tube, with a video amplifier for controlling the cathode ray tube with a test signal, which is provided with a cathode, with a control grid arranged downstream of a cathode, with a screen grid connected to an operating point setting unit and arranged downstream of the control grid, and with an anode.

A method for controlling the operating point of video output stages of monitors is known from DE-PS 36 10 190. To do this, a beam current is measured during selected lines that are not required for displaying information on the screen and used to control the operating point. A voltage proportional to the beam current is recorded at a resistor that is connected to a ground connection and to a cathode via a transistor, with a video amplifier evaluating the voltage to control the operating point.

In the German patent application 197 46 426.2 it is proposed to provide means for controlling the operating point, which detect brightness values in at least part of a non-visible area during the display of a test signal and convert the detected brightness values into a control variable that can be fed to a control unit for controlling the operating point.

The present invention is based on the object of creating a circuit arrangement of the type mentioned at the beginning, with which the control of the operating point is improved.

GR 98 G 4436 EN

This task is solved by

- that an anode current detection unit is provided for detecting the anode current during the control of the tube with the test signal and

- that the anode current detection unit converts the anode current into a control variable that can be fed to the operating point setting unit for controlling the operating point.

It is advantageous that the measured value for controlling the operating point is obtained without the involvement of the video amplifier, which means that its bandwidth is not affected.

In one embodiment of the invention, the test signal controls the cathode ray tube during the image rewind.

The invention is explained in more detail below using an exemplary embodiment with reference to the single figure in the drawing. The figure in the drawing shows a schematic representation of an arrangement for controlling the operating point of a cathode ray tube.

A glass bulb 1 of a cathode ray tube comprises a tube neck 2, a funnel-shaped part 3 which has an anode connection 4, and a tube base 6 provided with a luminescent layer 5. An inner coating of the glass bulb 1 consists of an electrically conductive coating, e.g. an aluminum layer 7, which serves to conduct the electrons emitted by a cathode to the luminescent layer 5, and an outer coating made of a graphite layer 9. The graphite layer 9 and the aluminum layer 7 represent a capacitor which serves to smooth the anode voltage. An electron beam generator is arranged in the tube neck 2, which comprises the cathode 8, a control grid 10, a screen grid 11 arranged downstream of the control grid 10, and a focusing device 12. The cathode 8 and the control grid 10 are arranged in a manner similar to that of the electron beam generator.

GR 98 G 4436 EN

The screen grid 10 is connected to a video amplifier 13, the screen grid 11 to an operating point setting unit 14, which is further connected to an anode current detection unit 15 provided for detecting the anode current. The anode current detection unit 15 indicates the start of a test time interval to the video amplifier 13 via a line 16, which then controls the cathode 8 with a test signal. The anode current detection unit 15 detects the anode current during the control of the tube with the test signal in a picture rewind phase, converts this anode current into a control variable in the form of a comparison voltage and feeds this comparison voltage to the operating point setting unit 14 to set the operating point.

The method of setting the operating point is explained in more detail below. It is assumed that during a pre-setting the video amplifier 13 supplies a test signal to the cathode, whereby suitable voltages are set between the cathode 8 and the control grid 10 and between the control grid 10 and the screen grid 11 according to the desired basic brightness, whereby the operating point of the tube is determined. The anode current flowing during the test signal is provided as a target value for the following operating point settings, whereby the anode current detection unit 15 generates a target voltage from the anode current and supplies it to the operating point setting unit 14. The operating point setting unit 14 stores the voltage value of this target voltage in a memory of this setting unit 14 (not shown here).

The target voltage is compared with an actual voltage at predeterminable times, at which time the video amplifier 13 controls the cathode 8 with the test signal during a picture rewind and the anode current detection unit 15 detects the anode current at a constant anode voltage. The anode current detection unit 15 generates an actual voltage from this anode current, which the operating point setting unit 14 compares with the target voltage.

GR 98 G 4436 EN

• *

Due to "aging effects" in the picture tube, the basic brightness preset on the monitor changes, whereby in a test time interval, which the operating point setting unit 14 indicates to the video amplifier 13 via a line 16, during a picture rewind with a test signal displayed, a
anode current is detected which is different from that measured at the time of the basic brightness pre-setting. The
generated by the anode current detection unit 15 based on the detected anode current and the operating point setting

unit 14 voltage differs from the voltage in the memory
The test time interval is
then extended and the operating point adjustment unit 14 adjusts the voltage at the screen grid 11 during this extended
Set the test time interval so that at constant

Anode voltage of the anode current corresponds to an actual voltage which agrees with the target voltage stored in the memory.
This means that the voltage at the screen grid 11 is changed and the test is started again until the actual value of the anode current corresponds to the setpoint stored in the memory.

This means that the operating point set during pre-setting and thus the desired basic brightness are set again.

Claims (2)

GR 98 G 4436 DE Protection claims 1. Circuit arrangement for controlling the operating point of a cathode ray tube, with a video amplifier (13) for controlling the cathode ray tube with a test signal, which is provided - with a cathode (8), - with a control grid (10) arranged downstream of a cathode (8), - with a screen grid (11) connected to an operating point setting unit (14) and arranged downstream of the control grid (10) and - with an anode (4),
characterized, - that an anode current detection unit (15) is provided for detecting the anode current during the control of the tube with the test signal and - that the anode current detection unit (15) converts the anode current into a control variable that can be fed to the operating point setting unit (14) for controlling the operating point. 2. Circuit arrangement according to claim 1, characterized in that during a picture retrace the test signal controls the cathode ray tube.