KR0140117B1 - Automatic evr control apparatus & its control method - Google Patents

Abstract

The present invention relates to an automatic EVR control apparatus and method, comprising: eight data lines, a transmitting signal line, a ready signal line, and a ready signal line between the control unit EVR controller to output a signal during transmission and a ready signal, and simultaneously output data to the other side. After a predetermined time, the reception completion signal is received from the counterpart, and the EVR adjustment data is adjusted to the EVR control unit. Compare the measured value with the standard value and adjust the two values to be the same.

Description

Automatic Eve Adjuster and its Control Method

1 is an explanatory diagram showing an adjustment state of a conventional EVR element.

2 is a block diagram showing the configuration of the automatic EVR adjustment apparatus according to the present invention.

3 is a time chart of signals transmitted and received by the communication protocol method according to the present invention.

4 is a flowchart showing the control method of the automatic EVR adjustment apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

10 control unit 11 measuring unit

12 signal processing unit 13 EVR control unit

14: camera unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic electrical variable resistor (EVR) adjusting device, and more particularly, to an automatic EVR adjusting device and a control method for transmitting and receiving data necessary for controlling the EVR regulator by a communication protocol.

The conventional EVR regulator adjusts the resistance value of the EVR element by inputting an adjustment value at the key input unit. A representative example thereof is shown in FIG. In FIG. 1, 1 is an EVR controller, and receives a key value from the key input unit 2 and outputs a corresponding PWM (Pulse Width Modulation) signal to the EVR device. 2 is a key input unit, and adjustment keys are arranged in a matrix form, and unique adjustment values are assigned to each key. 3 is a display unit, and current resistance values and adjustment values are displayed. 4 is a camera unit, and an EVR element or the like is mounted to photograph a subject to generate an image signal. 5 is a measuring instrument, and measures the output value of the signal output at the rest point of the camera unit 4 adjusted through the key input unit 2.

The conventional EVR adjustment system configured as described above is adjusted as follows. The operator presses the corresponding key of the key input unit 2 according to the measured value while the operator views the value measured by the measuring instrument 5 and inputs the adjustment value to the EVR control unit 1.

The EVR control unit 1 receiving the adjustment key value outputs the corresponding PWM signal to the EVR element installed in the camera assembly 4, adjusts its resistance value, and measures the adjusted value by the measuring instrument 5, The operator will confirm the adjusted value.

As described above, the conventional EVR adjustment system requires a considerable time for adjustment by manually operating the key input unit and checking the adjustment state through a measuring instrument. There is a problem in that the adjustment state depends on the subjectiveness of the operator.

The present invention is to solve the above problems, it is an object of the present invention to provide a protocol control method of the EVR controller.

Another object of the present invention is to provide a method for automatically adjusting the EVR regulator.

In order to achieve the above object, the apparatus according to the present invention controls each part of the EVR adjusting apparatus and outputs control data by a communication protocol, and receives and measures a measurement signal from a test point of the adjusting target device. A signal processor for connecting a test point of the adjustment target device to the measurement unit, including a measurement unit for outputting the control unit to the control unit, a plurality of switching elements switched by a control signal output from the control unit, and a control unit from the control unit. And an EVR controller for receiving data and outputting a PWM signal to the adjustment target device according to the data.

The apparatus according to the present invention having the above configuration outputs the EVR adjustment data to the EVR control unit by a predetermined communication protocol to adjust the EVR element of the adjustment target device, and detects the adjustment result from the test point of the adjustment target device and measures it with the measurement unit. The measurement is controlled by comparing the measured value with the standard value until the measured value is equal to the standard value.

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

2 is a block diagram of an automatic EVR adjustment apparatus according to the present invention.

10 is a control part, controls each part of this automatic EVR control apparatus, and outputs control data to the EVR control part 13 by the communication protocol by this invention. Reference numeral 11 denotes a measurement unit. The measurement signal is input from the test point of the camera unit 14 through the signal processing unit 12 and measured, and the result is output to the control unit 10.

12 is a signal processor, and receives control signals from the controller 10, and switching elements (relays, transistors, etc.) installed therein are switched to measure measurement signals detected at a plurality of test points of the camera unit 14. Deliver to 11.

13 denotes an EVR control section, receives EVR control data from the control section 10 according to the communication protocol according to the present invention, and outputs a PWM signal to the EVR element 14b provided in the camera section 14 in accordance with the data. 14 is a camera unit, and includes an EVR element 14b to which the present invention is applied. The EVR element 14b receives a PWM signal from the EVR control unit 13 and changes its resistance value, The intensity of the signal output from the test point is changed by the change, and the changed signals are output to the measurement unit 11 through the signal processor 12. 15 is a viewer, and provides a test image pattern captured by the camera 14a and the camera unit 14. Examples of the viewer 15 include a color bar, a gray scale, and the like. 16 is a monitor, which receives data from the control unit 10 and displays it on the screen. Reference numeral 17 denotes a memory unit which receives measurement data, control data, and the like from the control unit 10, stores the measured data, and outputs the data to the control unit 10.

Hereinafter, the operation and effects of the present invention will be described.

The camera unit 14 receives a video signal of the viewer 15, which is a subject photographed through the camera 14a, and generates a composite video signal. A plurality of test points are set in the camera unit 14, and each test point is connected to switching elements (relays, transistors, etc.) of the signal processing unit 12, respectively, and measures the measurement unit by the control signal of the controller 10. 11) Yes. This input signal is measured by the measuring unit 11, and its value is input to the control unit 10. The control unit 10 outputs the measurement results to the monitor 16, displays them in the memory unit 17, stores them in the memory unit 17, stores them in the memory unit 17, and stores the measured data in the memory unit 17 by the reference data and the comparison operation program. By comparison operation, the control unit 10 outputs a control signal to the EVR control unit 13, the signal processing unit 12, and the measurement unit 11.

The controller 10 sets one or more instruments of the plurality of instruments (for example, an oscilloscope, spectrum analyzer, counter, etc.) installed in the measuring unit 11 in an operating state, and among the plurality of Souches of the signal processing unit 12. One or more switch elements are switched to input detection signals detected at one or more test points of the plurality of test points of the camera unit 14 to each measuring unit of the measuring unit 10. In addition, a control signal is output to the EVR control unit 13 so that the EVR control unit 13 outputs a PWM signal to the EVR element 14b of the camera unit 14.

The EVR control signal is output by the following communication protocol method.

The EVR control line 13a connecting the control unit 10 and the EVR control unit 13 includes a data line (Do-D ₇ ) consisting of eight lines, a ready transmission line (EVR-RDY), and a reception completion line (EVR-CPT). ), And the signal lines (EVR-RCV) during transmission. 3 is a time chart of signals transmitted and received by the communication protocol method according to the present invention. First, to inform the data transmission, the control unit 10 outputs a low signal to the signal line EVR-RCV during transmission to inform the EVR control unit 13 that the control unit 10 has started transmission.

At the same time, a data bus (Do-D ₇₎ is in the occupied EVR control output data and is ready transmission line (EVR-RDY) Hi (High) to output a signal data bus (Do-D ₇₎ via the through Notify the EVR control unit 13. The EVR controller 13 that receives the high signal through the ready transmission line EVR-RDY outputs a high signal to the reception completion line EVR-CPT after a predetermined time DELTA t to receive the received signal to the controller 10. Enter. The control unit 10 receiving the reception completion signal converts the signal line EVR-RCV to a high state during transmission and converts the signal to a reception state.

As such, the EVR control unit 13, which has received control data by the communication protocol method, outputs a PWM signal to the EVR element 14b installed in the camera unit 14, changes its resistance value, and adjusts the state of the camera unit 14. do. The camera unit 4 has a plurality of test points, each of which is connected to a switching element of the signal processor 13.

The signal processor 13 receives a control signal from the controller 10 to change the switching state of each switching element, and the signal detected at each test point is input to the measurement unit 11. The measurement unit 11 measures the signal detected at the test point of the camera unit 14 and inputs the measurement result to the control unit 10. The control unit 10 compares the inputted measurement result by a comparison operation program stored in the memory unit 17 and according to the result, the communication protocol according to the present invention described above through the EVR control line 13a. Send by method.

4 is a flowchart showing a method controlled by the communication protocol method according to the present invention.

In step 401, the EVR control data is output to the data bus Do-D ₇ in the EVR control line 13a, and in step 402, a control signal is output to the color viewer 15 to test the pattern of the color viewer 15. Change to a pattern suitable for adjustment. In step 403, the EVR adjustment data is set to the adjustment initial value, and in step 404, the EVR adjustment data is output to the EVR control unit 17 via the EVR control line 13a by the communication protocol method according to the present invention.

The EVR controller 17 outputs a PWM signal according to the EVR adjustment data to adjust the EVR element 14a of the camera unit 14.

The signal processed through the adjusted EVR element 14a is detected at each test point, and in step 405 the control signal is output to the signal processor 12 to turn on the switching element connected to the test point to be measured. The signal detected at the test point is input to the measuring unit 11.

In operation 406, the measurement result of the measurement unit 11 is read, the standard value and the comparison operation program stored in the memory unit 17 are read, and the comparison operation process of step 407 or less is performed. In step 407, the measured value read out from the measurement unit 11 and the standard value read out from the memory 17 are compared. As a result of the comparison, if the measured value is larger than the standard value, the process proceeds to step 408 to reduce the EVR adjustment data and returns to step 404, and the following process is repeated. If the measured value is smaller than the standard value, the process proceeds to step 409 to increase the EVR adjusted data. Returning to step 404, the following process is repeated.

As a result of the comparison, if the measured value and the standard value are the same, data about the measured value is stored in the memory unit 17 in step 410, and the flow proceeds to step 411. In step 411, it is checked whether there is a next adjustment item, and if there is a next adjustment item, the process is repeated from step 402.

As described above, according to the present invention, by automatically adjusting the EVR element by a predetermined protocol, automation is possible, thereby improving productivity and significantly reducing the adjustment error.

Claims (5)

An EVR control apparatus comprising: a control unit which controls each unit of the EVR control unit and outputs control data by a communication protocol, a measurement unit which receives and measures a measurement signal, and outputs the result to the control unit; An automatic EVR comprising a signal processing unit having a plurality of switching elements switched by a control signal, and an EVR control unit which receives control data from the control unit and outputs a PWM signal to the adjustment target device according to the data. Adjuster The method of claim 1, wherein the control unit and the EVR control unit communicate with each other through a plurality of data lines, a ready transmission line (EVR-RDY), a reception completion line (EVR-CPT), and a transmission signal line (EVR-RCV). Featured Auto EVR Regulator The transmission line according to claim 1 or 2, wherein the controller outputs data to the plurality of data lines simultaneously with outputting a signal during transmission to the signal line (EVR-RCV) during transmission. Automatic EVR, characterized in that for outputting the completion signal to the (EVR-RDY), and after a predetermined time the EVR controller communicates with each other by a communication protocol for outputting the reception completion signal through the reception completion line (EVR-CPT) Adjuster In the control method of the automatic EVR control apparatus, the EVR adjustment data is output to the EVR control unit by a predetermined communication protocol to adjust the EVR element, and the adjustment result is detected from the test point of the adjustment target device and measured by the measurement unit. The control method of the automatic EVR control apparatus characterized by comparing the measured value and the standard value and adjusting the measured difference until it becomes equal to the standard value. 5. The communication protocol according to claim 4, wherein the communication protocol outputs a signal indicating a transmitting state and a ready state, and at the same time, outputs adjustment data to the counterpart and receives a signal indicating a reception completion state from the counterpart after a predetermined time. Control method of automatic EVR controller