KR940000997B1 - Checking apparatus of moving coil - Google Patents

Abstract

The CRT characteristic measuring system comprises a number of cameras, a video processor, a monitor, a CPU, a magnetic field controller, a selector and an output portion. The system simultaneously calculates beam landing states with respect to time, at various points of a cathode ray tube under test using the selector under the control of the CPU, and measures the amount of thermal drift. The system is capable of automatically measuring amount of thermal drift with elapse of time, simultaneously at many points of CRT. The system reduces measuring time and realises standardized measurement by quantifying amount of thermal drift.

Description

Magnetic field moving coil selector for measuring multiple points on the color water pipe screen

1 is a schematic diagram of an apparatus for measuring characteristics by installing a magnetic field moving coil on a screen of a color water pipe.

2 is a front view of an embodiment in which a plurality of magnetic field moving coils are installed at a plurality of points on a screen.

3 is a block diagram of a magnetic field moving coil selection device according to the present invention.

4 is a detailed circuit diagram showing the embodiment of FIG.

* Explanation of symbols for main parts of the drawings

1: Color water pipe 2: Screen

3: magnetic field transfer coil 4: CCD camera

10: computer unit 20: address control unit

30: latch portion 40: decoder portion

41,42: decoder 43: inverter

50: power separation unit 51,52. 5n: Power separation stage

60: switching section 61,62. 6n: relay

70: magnetic field control unit 80: magnetic field moving unit

81,82... 8n: magnetic field transfer coil I 鑿, I4In: ter

PT: Photocoupler D ₁ : LED (Light Emitting Diode)

The present invention relates to a magnetic field moving coil selection device for measuring a plurality of points of a color receiver tube, and more particularly, to a magnetic field at a plurality of points on the front surface of the screen during the ranging measurement and the thermal drift measurement of the color receiver tube. The present invention relates to a magnetic field moving coil selecting device which installs a magnetic field moving coil for moving a beam and selectively photographs each point when performing a characteristic measurement by photographing it with a CCD camera.

In general, during the manufacture of a color receiving tube, the color receiving tube compares the characteristics of the design value and the post-production characteristic. In order to measure such characteristics, in the related art, a magnetic field moving coil (degauss coil) is installed in the neck portion of a color receiver and a current flows through the magnetic field moving coil when the electron beam is deflected by a deflection yoke to measure the electron beam's movement relationship. . In the conventional characteristic measurement method, the magnetic field moving coil is attached to the neck portion, which affects the yoke of the flat yoke, making it difficult to accurately measure the characteristic.

The conventional advance technique which solves this problem uses the CCD camera 4 by mounting the magnetic field moving coil 3 to an arbitrary point in front of the screen 2 of the TV receiver 1 as shown in FIG. As the current flows through the magnetic field moving coil, other characteristics such as the amount of movement of the R, G, and B pixels with respect to the change in the amount of current in the temporal difference are measured. This measurement method has the advantage that accurate characteristic measurement is possible because the magnetic field moving coil does not affect the deflection yoke at all, but in order to measure the characteristic at many points of the screen (2), the magnetic field moving coil is moved to multiple points. There is a hassle and inconvenience to measure, and the waste of time and manpower for such a characteristic measurement is large. In addition, as shown in FIG. 2, a plurality of magnetic field moving coils 3 may be mounted on the screen 2 to facilitate measurement of multiple points. In this case, the magnetic field control device for controlling the magnetic field of the magnetic field moving coils is one-to-one. Since the equipment cost is very expensive because it must be provided in correspondence with the uneconomical problem.

The present invention has been made to solve the above problems, and an object of the present invention is to minimize the time required for the characteristic inspection of the color water pipe and the waste of manpower, and to select the magnetic field moving coils installed at multiple points on the screen with a single magnetic control device. It is to provide a magnetic field moving coil selection device for measuring multiple points of a color water pipe screen so that the measurement can be controlled by using

The present invention for achieving the above object comprises a computer unit for controlling the entire system and selecting a magnetic field moving coil according to a predetermined program, an address control unit for controlling an address with a selection command by the computer unit, and an address control unit. The latch unit latches the address signal and the data sent from the computer unit, the decoder unit decodes the data by the latch's data output signal and the enable signal, and multiple stages of power separation stages. A power separation unit for selectively driving the power supply of the computer side driving power source and the magnetic field moving coil side; and a switching unit in which a plurality of delays are selected and switched according to the driving of the power separation unit; Magnetic field control unit for providing a control signal of the magnetic field through the control of the magnetic field control unit A magnetic field moving coil selection device for measuring a number of points of the screen of the color can be correlated to a call jagyeyi ET is applied by the magnetic field control coils of the moving point received through the switching has its features.

One embodiment of such a magnetic field moving coil selection device according to the present invention will be described in detail with reference to the accompanying drawings. 3 is a block diagram of a magnetic field moving coil selection device according to the present invention, which controls a whole system and outputs data to select a magnetic field moving coil according to a predetermined program; An address control unit 20 for controlling the address by the selection command by (10), a latch unit 30 for latching the address signal and the data sent from the computer unit 10 by the address control unit 20, and A decoder unit 40 which decodes data by the data output signal and the enable signal of the latch unit 30, and is driven according to the decoding output of the decoder unit 40, and is driven by a computer side driving power source and a magnetic field moving coil side power source. A power separation unit 50 for separating and applying the voltage, a switching unit 60 in which one of a plurality of relays is selected and switched according to the driving of the power separation unit 50, and a magnetic field through the switching unit 60. It was done in the magnetic field control unit 70 to provide a control signal, a magnetic field control portion 70 jagyeyi ET (80) the magnetic field control coils of the moving point which is received via the control signal switching section 60 of the.

Here, the decoder unit 41 is composed of two decoders 41 and 42. In one embodiment, a 3x8 decoder is used, and one decoder 41 converts the output signal of the latch unit 30 to an inverter ( 43) to receive reverse input. The power supply separating section 50 has a plurality of power supply separating sections 51, 52, ..., and each power separating section 51, ... is a decoding output side of each of the decoders 41, 42 of the decoder 40. Are connected via inverters I ₁ , I ₂ . In addition, the switching unit 60 has a plurality of relays 61 and 62... Which are connected in a one-to-one correspondence with the respective power separation stages 51.

This operation of the present invention, the system is driven by the control by the computer unit 10, the computer unit 10 may use an XT slot of the IBM-PC as an example. When the control signal generated by the computer unit 10 is generated, the address control unit 20 controls the address for selecting the magnetic field moving coil and transmits the address signal to the latch unit 30.

The latch unit 30 latches the address signal and the data of the computer unit 10 and transmits the signal to the decoder unit 40. The decoder 41 transmits the enable signal of the latch unit 30 to the inverter 43. Since the inverted input is received through, only one of the two decoders 41 and 42 is selected and driven. The decoding output of the decoder unit 40 is input to the power separating unit 50, and only the corresponding power separating unit is driven from the power separating unit 51 in multiple stages of the power separating unit 50 to the relay unit 60. Provides switching power and all other power disconnect stages are inoperable. The relay unit 60 may turn on only the relay selected by the power separation unit 50 to apply the control signal of the magnetic field controller 70 to the corresponding magnetic field moving coil. Therefore, it is possible to select the magnetic field moving coil of the desired pointer and to perform the characteristic measurement.

On the other hand, this invention shows a detailed circuit configuration example in FIG. In FIG. 4, the latch unit 30 is composed of an IC name 74LS / 74, and the decoders 41 and 42 of the decoder unit 40 have three input terminals A, B, and C and eight output terminals. IC names 74LS130 having (Y0, Y1 ... Y7) were respectively constructed. In addition, each of the power separation stages 51... Of the power separation unit 50 includes LEDs D1 and photo couplers PT that receive respective outputs of the decoders 41 and 42 through the inverter 11. lost. In this case, the resistor R11 of each power separation stage 51... Is a protection resistor of the LED D1, and the resistor R21 is an emitter resistor of the photo coupler PT. The emitter side of the photo coupler PT is connected to the drive coil L1 of the relay 61 of the switching unit 60, and the relay 61 has two movable contacts respectively connected to the magnetic field controller 70, In the fixed contact, one side of the magnetic field moving coil 81 of the magnetic field moving part 80 is connected to the coil side. Here, the magnetic field moving coil has a coil for vertical movement and left and right movement of the magnetic field to be applied to both the dot type and the strip type. Accordingly, one side of the vertical movement coil and one side of the left and right movement coils are connected to two fixed contacts of the relay 61, respectively, and the other sides of the vertical and horizontal movement coils are commonly connected to the output terminal of the magnetic field controller 70, respectively. Therefore, the magnetic field controller 70 has four output stages, two of which are commonly connected to two terminals of each magnetic field moving coil 81..., And the other two output terminals are connected through the relay 61. Each of the two other terminals of the magnetic field moving coil 81...

In this way, each output terminal of the decoder unit 40 (16 output terminals or more in the embodiment of FIG. 4 is also possible) so that the power separation stage, the relay, and the magnetic field moving coil of the above-described configuration correspond to 1: 1: 1. Installed and all in the same configuration.

In this embodiment, the specific operation description will be described first. When the computer unit 10 generates a signal for selecting the magnetic field moving coil by a predetermined control program, the address control unit 20 clears the latch unit 30. And a signal to be clocked. The latch unit 30 receives and latches the four data signals d1, d1 ... d4 of the computer unit 10, and generates an output at the output terminals Q1 ... Q4 by applying the clock of the address control unit 20. Among the signals of the three output stages Q1 ... Q3, the decoders 41 and 42 each have three inputs A, B, and C. The output stage Q4 has the decoder 42 as an enable signal. It is provided, and is provided as an enable signal of the decoder 41 through the inverter 43. Therefore, if the output terminal Q4 of the latch section 30 is logic "1", the decoder 42 is selected and driven. If the logic "0", the decoder 42 is disabled and the decoder 41 is the inverter 43. It is driven by receiving the enable signal of logic "1" through. Therefore, the output which becomes logic "0" of the output stages Y0, Y1 ... Y7 is applied to the logic "1" through the said inverter.

TABLE 1

Table 1 shows the output states of the decoders 41 and 42. The decoder 41 is driven from the number 1 to the number 8 where the output terminal Q4 of the latch unit 30 is logic " 0 ". The decoder 42 is driven from the number 9 to the number 16 whose output stage Q4 is the logic " 1 ". As an example of the operation, when the output terminals Q1... Q4 of the latch unit 30 are equal to the number 1, the output terminal Y0 is the logic "0" at the output terminals Y1 ... Y7 of the decoder 41. Is applied to the photo coupler PT with logic " 1 " so that the photo coupler PT is driven and the LED D1 emits light to indicate a line. Therefore, the power supply Vcc of the magnetic field moving coil side is applied to the coil L1 of the relay 61 by conducting the photo coupler PT, and the power separation end 52... Which is connected to the other output terminals Y1. Only the relay 61 is turned on because it is turned off. Therefore, the first and third outputs of the magnetic field controller 70 are applied to the magnetic field moving coil 81 through the movable contact and the fixed contact of the relay 61. Therefore, since the magnetic field movement is performed only at the portion where the magnetic field moving coil 81 is mounted on the screen, the characteristic measurement at this point is performed. On the other hand, when the value of the number 2 in the table-1 is the output of the latch unit 30, the decoder 41 → power separation stage 52 → relay 62 → magnetic field moving coil 82 When driven, the output of the latch unit 30 as shown in No. 9 of Table-1 is driven by the decoder 42 → power separation stage 59 → relay 69 → magnetic field moving coil 89.

In this way, the magnetic field moving coil is selected and driven by the signal of the outputs d0 ... d3 of the computer unit 10, and the shank moving coil and the left and right moving coils of the magnetic field moving coil are selected and controlled according to the output selection of the magnetic field controller 70. do. Therefore, the magnetic field moving coil and the CCD camera are mounted on the multiple points on the front of the screen, and then each point can be selectively measured according to the program control using a computer.

As described above, according to the magnetic field moving coil selection device for measuring a plurality of points of the color receiving tube screen according to the present invention, a computer unit for controlling the whole system and selecting the magnetic field moving coil according to a predetermined program, and the computer An address control unit controlling an address with a selection command by the unit, a latch unit for latching the address signal and the data sent by the computer unit, and a data output signal and an enable signal for the latch unit to decode the data. It is a decoder unit and a multi-stage power separation stage, and is selectively driven according to the decoding output of the decoder unit, and a power separation unit for separating and applying the computer side driving power and the magnetic field moving coil side, and a plurality of delays, Switching unit which one relay is selected and switched according to the driving, and this switch The magnetic field control unit provides a control signal of the magnetic field through the unit and the magnetic field moving unit controls the magnetic field moving coil of one point by receiving the control signal of the magnetic field control unit through the switching unit. By installing a number of it is possible to selectively measure each point characteristic. In addition, since the measurement point is moved and measured in an instant by the computer program control without moving the magnetic field moving coil when the measuring point is moved, the measurement time is minimized and the waste of manpower is minimized. In addition, since a plurality of magnetic field moving coils are controlled by only one magnetic field controller, the apparatus cost is greatly reduced and economical.

Claims (3)

A computer unit 10 for controlling the entire system and selecting a magnetic field moving coil according to a predetermined program, an address control unit 20 for controlling an address by a selection command by the computer unit 10, and the address control unit ( A latch unit 30 for latching the address signal and the data sent from the computer unit 10, and a decoder unit 40 for decoding data by the data output signal and the enable signal of the latch unit 30; And a multi-stage power separation stage, which is selectively driven according to the decoding output of the decoder unit 40, and separates and applies a computer side driving power source and a magnetic field moving coil side power source, and a plurality of relays. And a switching unit 60 in which a relay is selected and switched according to the driving of the power separating unit 50, a magnetic field control unit 70 for providing a control signal of the magnetic field through the switching unit 60, and a magnetic field control unit ( 70) Moving magnetic field coil selection device for measuring the trawl signal switching unit 50 jagyeyi ET (80) applied to the moving coil of the magnetic field control points received via a and a plurality points on the screen of a color kinescope to be. The decoder (40) of claim 1, wherein the decoder (40) includes a decoder (41) for inverting the enable signal of the latch unit (30) through the inverter (43), and a decoder (42) for directly receiving the enable signal. And, a magnetic field moving coil selection device for measuring a plurality of points on the color water level screen. 2. The screen of a color receiver according to claim 1, wherein each power separation stage of the power separation unit (50) comprises LEDs indicating driving and photocouplers switched according to the output of the decoder unit (40). Magnetic field moving coil selection device for measuring a large number of points.

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