DE19939218C2 - Circuit arrangement for regulating the operating point of a cathode ray tube - Google Patents

Description

The invention relates to a circuit arrangement for regulation the working point of a cathode ray tube, with a Video amplifier for driving the cathode ray tube with a test signal, which is provided with a cathode, with a control grid downstream of a cathode, with a connected to an operating point setting unit, the Control grille downstream of the grille and with an anode.

DE 36 10 190 A1 describes a method for regulating the Working point of video amplifiers of monitors known. For this purpose, a jet current is selected for the Dar No need to display information on the screen ter lines measured and used to regulate the operating point uses. A voltage proportional to the jet current is turned on a resistance detected, which with a ground connection connected and to a cathode via a transistor is closed, with a video amplifier the voltage to Control of the working point evaluates.

In the post-published German patent application DE 197 46 426 A1 is featured propose to provide means to regulate the working point, which during the fade-in of a test signal in min least part of an invisible area of brightness Record values and the recorded brightness values in an egg A control variable that can be fed to a control unit for controlling the ar implement at the work point.

The present invention has for its object a To create circuit arrangement of the type mentioned in the introduction, with which the control of the working point is improved.  

This task is solved

• - That an anode current detection unit for detecting the Anode current while driving the tube with the Test signal is provided and
• - That the anode current detection unit in the anode current a rule that can be fed to the operating point setting unit size to regulate the working point.

It is advantageous that the measurement variable is obtained for control purposes the working point without the participation of the video amplifier follows, which does not affect its bandwidth is done.

In one embodiment of the invention it is provided that Test signal during the image rewind the cathode ray tube controls.

The invention is based on an embodiment for example with reference to the only figure of the drawing tion explained in more detail. The figure of the drawing shows in 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 tubular neck 2 , a funnel-shaped part 3 , which has an anode connection 4 , and a tube bottom 6 provided with a fluorescent layer 5 . An inner coating of the glass bulb 1 consists of an electrically conductive coating, for. B. from an aluminum layer 7 , which is used to derive the electrons emitted from a cathode 8 on the luminescent layer 5 , and from an outer coating of a graphite layer 9th The graphite layer 9 and the aluminum layer 7 represent a capacitor which serves to smooth the anode voltage. In the tube neck 2 is an electron beam generator arranged to which the cathode 8, a control grid 10, a control grid 10 comprises downstream screen grid 11 as well as a focusing 12th The cathode 8 and the control grid 10 are connected to a video amplifier 13 , the screen grid 11 to an operating point setting unit 14 , which is also connected to an anode current detection unit 15 provided for detecting the anode current. The beginning of a test time interval indicates the anode current detection unit 15 via a line 16 to the video amplifier 13 , which then drives the cathode 8 with a test signal. The anode current detection unit 15 detects while driving the tube with the test signal in an image return phase, the anode current, converts this anode current into a controlled variable in the form of a reference voltage and leads this reference voltage to the operating point setting unit 14 for setting the operating point.

In the following the manner of the operating point setting is explained in more detail. It is assumed that supplies that during a presetting of the video amplifier 13 a test signal of the Ka Thode, suitable clamping set voltages being arranged between the cathode 8 and the grid to the control 10 as well as between the control grid 10 and screen grid 11 corresponding to the desired background brightness, whereby the operating point of the tube is set. The anode current flowing during the test signal is provided as a setpoint for the following operating point settings, the anode current detection unit 15 generating a setpoint voltage from the anode current and supplying the working 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 at a predeterminable time with an actual voltage, at which times the video amplifier 13 drives the cathode 8 with the test signal during a picture return 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 compares the operating point setting unit 14 with the target voltage.

Due to "aging effects" in the picture tube, the basic brightness preset on the monitor changes, which means that an anode current is detected in a test time interval, which the operating point setting unit 14 indicates to the video amplifier 13 via a line 16 , while an image return is detected when the test signal is superimposed differs from that measured at the time of the basic brightness presetting. The voltage generated by the anode current detection unit 15 on the basis of the detected anode current and the operating point setting unit 14 deviates from the target voltage stored in the memory. The test time interval is then extended and the operating point setting unit 14 adjusts the voltage on the screen grid 11 during this extended test time interval in such a way that, with constant anode voltage, 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 check is started again until the actual value of the anode current corresponds to the target value stored in the memory. As a result, the working point set during the presetting and thus the desired basic brightness are set again.

Claims (2)

1. Circuit arrangement for controlling the operating point of a cathode ray tube, with a video amplifier ( 13 ) to control 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 ver with an operating point setting unit ( 14 ) connected, the control grid ( 10 ) downstream screen grid ( 11 ) and
with an anode ( 4 ),
characterized by
that an anode current detection unit ( 15 ) is provided for detecting the anode current while driving 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 supplied to the operating point setting unit ( 14 ) for regulating the operating point. 2. Circuit arrangement according to claim 1, characterized records that during a rewind the test signal drives the cathode ray tube.