KR910004436Y1 - High voltage electron device measure system - Google Patents

Abstract

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Description

High pressure discharge tube characteristic measuring device

The accompanying drawings are schematic diagrams of the measuring device of the present invention.

＊ Explanation of symbols on main parts of drawing

1, 2: light receiving element 3, 4: amplifier

5: discharge tube 6: comparator

7: switching circuit 11: comparative light source

12: Ammeter (DMM GPIB) 13: Voltmeter (DMM GPIB)

The present invention relates to a device for measuring the characteristics of a high-pressure discharge tube.

In order to measure starting voltage, starting time, discharge tube voltage, current, etc., which are basic characteristics of a high-pressure discharge tube, the following method has been conventionally used.

To measure the starting voltage, apply a voltage to the discharge tube and gradually increase the voltage. When the discharge tube starts to discharge for the first time, check visually and measure the voltage at that time. The time and the voltage and current of the discharge tube were visually confirmed whether the discharge tube started to emit light and became a standard light emission state, and then the voltage and current applied to the discharge tube at that time were measured.

However, such a conventional measuring method has a problem in that the discomfort and inaccuracy of visually confirming and determining the light emission state of the discharge tube and the steady state of the voltage applied to the discharge tube must be continuously checked through the voltmeter.

Therefore, because the light emission state is visually confirmed, the time difference is severe among different measuring instruments, and the strong light rays generated from the discharge tube adversely affect the eyes, and even in the measuring apparatus, the fluctuation state of the applied voltage is rapidly within + 1%. And accurate detection was virtually impossible.

The object of the present invention is to provide a measuring device for starting voltage, start time, discharge tube voltage, discharge tube current and the like of a high-pressure discharge tube which solves the above problems.

In order to achieve the above object, the present invention detects the light emitting state of the discharge tube by using a light receiving element, thereby preventing errors between the measurement by eyes and the damage of the eye due to the strong light emitted from the discharge tube. Suggesting.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

In the accompanying drawings, the device of the present invention is a voltmeter 13 and an ammeter 12 for measuring an applied voltage and a current of a discharge tube, light receiving elements 1 and 2 for detecting a light emitting state, and light receiving elements 1, Amplifiers 3 and 4 for amplifying the respective outputs of 2), comparators 6 for comparing the outputs of the amplifiers 3 and 4, switching circuits 7 switched by output signals of the comparator 6, X-Y for measuring and showing the voltage applied to the light-emitting diode 8 displaying the signal state of the switching circuit, the electronic clock circuit 9 for counting time, the display element 10, and the discharge tube 5; A recorder 5, an attenuator 14 for reducing the applied voltage of the XY recorder 15, and a personal computer 16 for reading and recording the measured values from the voltmeter 13 and the ammeter 12. do.

Referring to the operation of the subject innovation device configured as described above are as follows.

(1) When measuring the starting voltage

After applying the starting voltage to the discharge tube and gradually adjusting it to measure the discharge tube applied voltage at the moment when the discharge tube starts to emit light, the switch SW3 is closed and the light receiving element is operated as in contrast to the figure.

Unexplained code switches SW2 and SW3 are interlocked switches, and when one of them is closed, the other is opened.

When the power is applied to the discharge tube 5 by closing the switch SW3 as described above and operating the switch SW1, a voltage is applied. When the power is gradually raised, the discharge tube 5 emits light. 1) will be detected.

Thus, the output of the light receiving element 1 is applied to the switching circuit 7 via the amplifier 3 so that the light emitting diode 8 is lit. When the key of the personal computer 16 is input at the moment when the light emitting diode 8 is turned on, the voltage measured by the voltmeter 13 is recorded.

(2) when measuring the startup time

The starting time is to measure the time until the voltage fluctuation rate reaches within + 1% by applying voltage to the discharge tube. After the XY recorder 15 is operated, the power is supplied to the discharge tube 5 by the switch SW1. Is authorized.

As a result, the discharge tube 5 emits light, and the applied voltage is appropriately lowered through the attenuator 14 and recorded in the X-Y recorder 15. At this time, the X-Y recorder can set the X axis time and the Y axis voltage to determine the amount of change in applied voltage over time, so it can measure the time until the voltage change rate starts to fall within + 1%.

When the voltage and current of the discharge tube are measured, the switch SW2 is closed and the light receiving elements 1 and 2 are driven as shown in the drawing of the voltage and current of the discharge tube 5. The brightness of the light source 11 for comparing the standard light emission state is adjusted to the standard state, and then the power is applied to the discharge tube 5 by the switch SW1 so that the light emission of the discharge tube 5 reaches the standard light emission state level. To increase. Therefore, the comparator 6 compares the current according to the brightness of the light sensed by the light receivers 1 and 2 and if the two signals input to the comparator 6 have the same value, the light emitting diode 8 is switched by the switching circuit 7. ) And the electronic clock circuit 9, the photodiode 8 is turned on and the electronic clock circuit 9 is operated to measure the time until then. At this time, when the user senses the light of the light emitting diode 8 and inputs the key of the personal computer 16, the measured values of the voltmeter 13 and the ammeter 12 are recorded.

According to the device of the present invention as described above, it is possible to eliminate the error caused by the time between the measurement by the light emission state depending on the time, to prevent the damage of the eye by the strong light emitted from the discharge tube, the fine voltage of the discharge tube voltage In addition to being able to sense current, it is possible to instantaneously measure and record the voltage at a moment in a discharge tube with a large voltage fluctuation rate, and has the advantage of measuring the characteristics of a high-pressure discharge tube accurately, precisely and conveniently.

Claims (1)

In the apparatus for measuring the characteristics of the high-pressure discharge tube, the light receiving element (1, 2) for detecting the light amount of the high-pressure discharge tube (5) and the comparison light source 11, and for the output amplification of the light receiving element (1, 2) The comparator 6 receives light signals of the high voltage discharge tube 5 and the switching circuit 7 configured at the output terminals of the amplifiers 3 and 4, the output terminals of the comparators 6 which take the output signals of the amplifiers 3 and 4 as inputs. ) And the light emitting diode 8 and the electronic clock circuit 9 and the display element 10 driven by the output of the interlocking switches SW2 and SW3 and the switching circuit 7 for selective application to the switching circuit 7. And an XY recorder 15 and an attenuator 14 for measuring the applied voltage of the discharge tube, and a personal computer 16 for recording the measured values of the voltmeter 13 and the ammeter 12. High-pressure discharge tube characteristics measuring device.