DE19746426A1 - Monitor with cathode ray tube - Google Patents

Abstract

The monitor includes an unit (11) for a regulation of an operating point of a cathode ray tube (1), whose tube floor (6) is equipped with a luminescent layer (5), and comprises a visible area (19) for the display of information, and a invisible area (15). A test signal is displayed for the regulation of the operating point. Devices (16, 17, 18) are provided, which record a brightness value in at least one part of the invisible area during the display of the test signal, and convert the recorded brightness value into a control parameter supplied to the regulation unit for the regulation of the operating point. The devices comprise preferably a light collector arranged on the tube floor and a sensor, arranged in an area covered by a monitor frame (14), and a brightness conversion unit (16) for the conversion of the brightness value.

Description

The invention relates to a monitor with a unit for Regulation of the operating point of a cathode ray tube, the Tubular base with a layer of light provided a view area for displaying information and a Has not visible area, in which for regulation a test signal can be faded in at the operating point.

From DE-PS 36 10 190 is a method for controlling 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. These unneeded lines are not on one visible part of the screen, e.g. B. on one of the frame the area covered by the monitor.

The present invention is based on the object Regulation of the operating point of a cathode ray tube in egg to improve a monitor of the type mentioned at the beginning.

This object is achieved in that means are provided are, which during the fade-in of the test signal in min at least part of the invisible area is the Bright capture values and the captured brightness values in one the controlled variable that can be fed to the control unit for controlling the Ar implement at the work point.

It is not necessary to adjust the beam current of the working point to measure, thereby on corresponding  circuitry measures for beam current measurement ver can be waived, which adversely affects the band width of the video amplifier of a monitor.

In one embodiment of the invention according to the features of Claim 2 is the light collector and the sensor in one area covered by a monitor frame and therefore does not interfere with a viewer.

In a further embodiment of the invention according to Merk paint of claim 3 is between the light collector and the Monitor frame a contrast disc arranged, which comes to mind shielding light from surrounding the tube.

Based on the drawing, in which an embodiment of the Er invention is illustrated, the following are the inventions dung, their configurations and advantages explained in more detail.

Show it

Fig. 1 components of a cathode ray tube with luminance detection and conversion means and

Fig. 2 shows a detail of a cathode ray tube in a side view.

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 luminous 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 luminous 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. Arranged in the tube neck 2 is an electron beam generator which comprises the cathode 8 , a control grid 10 , a screen grid 12 connected to an operating point setting unit 11 and a focusing device 13 . The operating point setting unit 11 is also connected to the cathode 8 , to the control grid 10 and to luminance detection and conversion means. These capture during the dazzling of a test signal in a region 15 of the tube sheet 6, which is not visible to an observer and are covered by a monitor frame 14 , the brightness values (luminance) in a part of this area 15 , set the brightness values in a controlled variable in the form of a Comparison voltage and lead this comparison voltage to a working point setting unit 11 for setting the working point. Components of these means are a luminance conversion unit 16 , a sensor 17 and a light collector 18 arranged in a part of the covered area 15 on the tube plate 6 , which bundles the light emitted in this part by the luminous layer 5 and supplies the sensor 17 . The sensor 17 detects the brightness values of the light and the luminance conversion unit 16 connected downstream of the sensor 17 converts the brightness values into the reference voltage.

In the following the manner of the operating point setting is explained in more detail. It is assumed that the working point setting unit 11 during a preset time interval, which is not required for image display on a visible area 19 of the tube sheet 6 , applies a reference voltage between the cathode 8 and the control grid 10 . Based on this reference voltage, the operating point of the cathode ray tube 1 and thus the desired basic brightness is preset. The beam current flowing in the cathode ray tube 1 at the time of this basic brightness presetting is provided as a test signal, the light collector 18 supplying the brightness values to the sensor 17 , from which the luminance conversion unit 16 generates a reference voltage and supplies the operating point setting unit 11 . The operating point setting unit 11 stored the voltage value of the comparison voltage in a not shown memory of this adjusting unit. 11 It can now happen that e.g. B. by "old effects" or due to temperature fluctuations in the monitor, the preset basic brightness is reduced, as a result of which brightness values are recorded during a test time interval that are lower than that at the time of the basic brightness presetting. The voltage generated by the luminance conversion unit 16 and the operating point setting unit 11 is less than the reference voltage stored in the memory, which extends the test time interval. During this extended test time interval, the operating point setting unit 11 sets the voltage on the screen grid 12 such that the voltage generated by the luminance conversion unit 16 is equal to the reference voltage stored in the memory, which means that the detected brightness values correspond to those of the basic brightness presetting correspond.

In the following reference is made to Fig. 2, in which a cut from a cathode ray tube is shown in a side view.

On a tube 20 with an adhesive, e.g. B. an adhesive in the form of silicone, a light collector bag 21 is attached, which is provided with a light collector 22 . Below the light collector 22 , a sensor 23 is arranged, which supplies the luminance values to a luminance conversion unit, not shown here. The sensor 23 and the luminance conversion unit are preferably components of an assembly. Between a monitor frame 24 and the light collector bag 21 , a contrast plate 25 is net angeord, which shields incident light in the vicinity of the tube 20 from.

Claims (3)

1. monitor with a unit ( 11 ) for regulating the working point of a cathode ray tube ( 1 ), the tube base ( 6 ) provided with a luminous layer ( 5 ) has a visible area ( 19 ) for displaying information and an invisible area ( 15 ) has, in which a test signal can be faded in to regulate the operating point, since it is characterized in that means ( 16 , 17 , 18 ) are provided which, during the fade-in of the test signal, detect the brightness values in at least part of the invisible area ( 15 ) and convert the detected brightness values into a control variable that can be supplied to the control unit ( 11 ) for controlling the operating point. 2. Monitor according to claim 1, characterized in that the means comprise:

• - A light collector ( 18 ; 22 ) arranged on the tube plate ( 6 ) and a sensor ( 17 ; 23 ) to which the light collector ( 18 ; 22 ) supplies the brightness values, the light collector ( 18 ; 22 ) and the sensor ( 17 ; 23 ) are arranged in an area ( 15 ) covered by a monitor frame ( 14 ), and
• - A luminance conversion unit ( 16 ) for converting the brightness values into the controlled variable.

3. Monitor according to claim 2, characterized in that between the light collector ( 18 ; 22 ) and the monitor frame ( 14 ; 24 ) a contrast plate ( 24 ) is arranged.