KR0148911B1 - Saturation yoltage automatic detection apparatus and its control method - Google Patents

Abstract

The detection target device is installed in the jig and the signal is supplied from the signal source supply device to the detection target device while applying power from the power supply.

The test signal output from the jig unit is measured by a measuring instrument, the measured data is stored, detected at intervals of five from the detection start address, and the slope thereof is stored in the buffer.

The detection start address is increased by +1 until detection is completed five times.

When the detection is completed five times, the transition state is judged at least two times from the data in the buffer.If more than two transition states occur, the voltage is lowered and redetected. To return.

Description

Saturation voltage automatic detection device and control method

The present invention relates to a saturation voltage automatic detection device and a control method thereof, and in particular, it is possible to automatically detect whether the measurement waveform is saturated and to control to prevent saturation by re-adjusting the voltage when saturation, The present invention relates to a saturation voltage automatic detection device and a control method thereof that can automatically adjust the measurement waveform until the saturation state is reached.

Subsequent to the conventional saturation detection device, a desired saturation state was detected by adjusting the voltage applied to the adjustment target device while applying power from the power supply to the detection target device and checking the waveform of the measurement point of the adjustment target device with a measuring instrument. This will be described in detail with reference to FIG. 3.

FIG. 3 shows the configuration of a conventional saturation state detection device. Referring to FIG. 3, 31 is a detection target device, 32 is a jig device, and 33 is a test pin.

34 is a power supply line, 35 is a power supply device, 36 is a measuring instrument, and 37 is a signal line.

In the case of manual adjustment by such a conventional apparatus, the peak value is Vpp1 in the state as shown in FIG. 4 (a), and if the applied voltage is increased by adjusting the power supply unit 35 to increase this value ( The supersaturation of (c) is reached through the saturation of b), in which case the user readjusts the power supply 35 to reduce the applied voltage and completes the detection of the saturation in the state of (b).

However, in such a conventional apparatus, when detecting by manual adjustment, the saturation state detection depends on time, which makes accurate detection impossible and time consuming.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and therefore, an object of the present invention is to automatically detect whether the measurement waveform is saturated and to control saturation by re-adjusting the voltage when saturated. The present invention provides a saturation voltage automatic detection device and a control method thereof that can automatically adjust the measurement waveform until the saturation state is reached.

1 is a block diagram showing the configuration of a saturation voltage automatic detection device according to the present invention.

2 is a flowchart showing the saturation voltage automatic detection control method according to the present invention.

3 is a block diagram of a conventional saturation state detection device.

4 is a diagram showing the state of the waveform with respect to the voltage change.

* Explanation of symbols for main parts of the drawings

1: control unit 2: measuring instrument

3: power supply unit 4: jig unit

As a technical means for achieving the above object of the present invention, the apparatus of the present invention comprises a jig unit having pins in contact with each test terminal of the detection target device, a power supply unit for supplying power to the jig unit; In the saturation voltage automatic detection device including a signal source supply device for supplying a signal to the detection target device through the jig unit, receiving a signal from the jig unit on a screen for assigning addresses by dividing into 100 points in the horizontal axis direction A measuring instrument for displaying and outputting measurement data; Receives data from the instrument and scans the address allocated in the horizontal axis direction of the instrument screen from the detection start address to the detection end address at predetermined intervals and stores the gradient change in buffer # 0. This process increases the scanning start address by +1. After repeating a predetermined number of times, it is judged to be saturated when the slope stored in the buffer # 0 transitions from-to + by 2 or more, and outputs a control signal for voltage readjustment to the power supply. And a control unit for determining to be.

In addition, as another technical means for achieving the object of the present invention, the method of the present invention comprises the steps of measuring and storing the waveform, determining the detection start address and detection end address, and scanning the detection start address +5 In the saturation voltage automatic detection control method comprising the step and storing the gradient change in the buffer # 0, it is determined whether or not the detection end address and repeats from the scanning step if the detection end address is not 5 Determining whether or not detection is performed; Repeating the scanning by increasing the detection start address, the detection end address, and the buffer signal when the detection is not performed five times; By checking the buffer contents and repeating from the step of measuring the waveform by reducing the voltage when transitioning two or more times, and determining that it is good and returning to the main program when the transition does not occur two or more times. Controlled.

Hereinafter, a saturation voltage automatic detection device and a control method thereof according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram showing the configuration of a saturation state detection apparatus according to the present invention. Referring to FIG. 1, 1 is a control unit, which receives data from a measuring instrument and detects an address assigned in the horizontal axis direction of the measuring screen. Scan at predetermined intervals from the detection end address to the end of the detection and store the gradient change in the buffer # 0. This process is repeated a predetermined number of times by increasing the scanning start address by +1, and then the slope stored in the buffer # 0 is-to + It is determined that the state of saturation when more than 2 transitions to the power supply, and outputs a control signal for voltage readjustment to the power supply, and is a hardware and software resource for determining good when no saturation state is detected.

2 is a measuring instrument, which receives a signal from the jig unit 4, displays it on the screen, and outputs measurement data to the controller 1, that is, the screen is divided into 100 points in the horizontal axis direction to assign an address from the jig unit. A measuring device that receives and displays a signal and outputs measurement data.

3 is a power supply unit, which supplies power to the detection target device 5 through the jig unit 4 according to the control signal of the control unit 1, and also changes and supplies the voltage value thereof.

4 is a jig part, which is provided with a plurality of pins to detect signals at the test terminal of the detection target device 5 and simultaneously apply power supplied to the power supply unit 3 to the detection target device 5. to be.

5 is a detection target device, which receives power and a signal through the jig unit 4 and processes the signal. 6 is a signal source supply device, which is a device for supplying the generated signal to the measuring instrument 2 and the detection target device 5.

2 is a flowchart showing a saturation state detection method according to the present invention.

The operation according to the apparatus of the present invention configured as described above will be described in detail below with reference to the accompanying drawings. When the power is applied to the apparatus, an initialization process is performed.

Referring to FIG. 1 and FIG. 2, first, in step 201, the waveform is measured and stored, and the controller 1 outputs a control signal to the power supply unit 3 to output the control signal. 3) a predetermined power is applied to the detection target device 5, and the voltage supplied from the power supply unit 3 gradually increases from a low voltage (for example, about 6.4V) to a high voltage (for example, 7.2V). Increase.

On the other hand, the screen of the measuring instrument 2 is divided into 100 points on the horizontal axis, divided into 256 levels on the vertical axis, an address is assigned to each point on the horizontal axis, and the level at the address is detected.

In step 202, a detection start address and a detection end address are determined. For example, the detection start address of the stored waveform is assigned as 30, the detection end address as 60, and so on. In step 203, the detection address is increased by +5 by adding 5 to the detection start address, and in step 204, it is determined whether the slope is in decreasing trend. In this case, in step 205, -1 is stored in the buffer # 0 in step 205, and Proceed to 209. On the other hand, if the trend is not decreasing, the process proceeds to step 206 to determine whether there is no change in the slope.

If there is no gradient change in step 206, +1 is stored in buffer # 0 and the flow proceeds to step 209. If there is a gradient change, the flow proceeds to step 208 and +1 is stored in buffer # 0 and the flow proceeds to step 209.

In step 209, if it is determined whether or not the detection end address (i.e., address 60) is determined, repeating from step 203, and if it is the detection end address (i.e., address 60), proceeding to step 210 to determine whether the detection is completed five times. If it is not detected five times, the process proceeds to step 210 to determine whether the detection is completed five times. If not, the process proceeds to step 214 to increase the detection start address, the detection end address and the buffer signal by one, and step 202. Repeat from now on.

In the case where the detection is completed five times through the above process, the process proceeds to step 211, the values of the buffer # 0 to the buffer # 4 are compared, and in step 211, when the slope changes from-to + twice, the saturation occurs. If it is determined as the state, the process proceeds to step 215 and the voltage is decreased in step 215 and is repeated from step 201. On the other hand, if the slope does not occur more than twice from-to +, it is determined as good in step 213 and returns to the main program. .

According to the present invention as described above, it is possible to automatically detect whether or not the measurement waveform is saturated and to control saturation by re-adjusting the voltage when saturated, so that the measurement waveform immediately before reaching the saturation state. There is an effect that can be adjusted automatically.

Claims (3)

A jig unit having pins in contact with each test terminal of the detection target device, a power supply unit supplying power to the jig unit, and a signal source supply device supplying a signal to the detection target device through the jig unit; A saturation voltage automatic detection device, comprising: a measuring unit for receiving a signal from the jig unit and displaying the measured data on a screen for allocating an address by dividing it into 100 points in a horizontal axis direction; Receives data from the instrument and scans the address allocated in the horizontal axis direction of the instrument screen from the detection start address to the detection end address at predetermined intervals and stores the gradient change in the buffer. This process is performed by increasing the scanning start address by +1. After repeating the number of times, when the slope stored in the buffer transitions from-to + by 2 or more, it is determined to be in saturation state and outputs a control signal for voltage readjustment to the power supply unit. Saturation voltage automatic detection device comprising; The apparatus of claim 1, wherein the scanning interval is scanned at five address intervals. Measuring and storing a waveform; determining a detection start address and a detection end address; scanning a detection start address +5; and storing a gradient change in a buffer. The method may include: determining whether the detection end address is detected, repeating the scanning from the detection step if it is not the detection end address, and determining whether detection is performed five times if the detection end address is detected; Repeating the scanning by increasing the detection start address, the detection end address, and the buffer signal when the detection is not performed five times; Checking the buffer contents and repeating from the step of measuring the waveform by reducing the voltage when transitioning two or more times, and determining that it is good and returning to the main program when the transition does not occur two or more times. Saturation voltage automatic detection control method.