KR100240380B1 - Recording automatic debugging system in vcr - Google Patents

Abstract

The present invention relates to an automatic recording system for recording a visual signal, and when a sequential check operation is performed in a service mode, an error is automatically detected by inputting and analyzing the frequency of audio during playback. Is to improve.

To this end, the present invention provides a measurement pattern generator for generating a different screen and audio frequency for each recording section in accordance with the control operation of the fish at the time of reservation recording to provide to the recording source of VSI; Fish for controlling the measurement pattern generation unit to store the debugging data for examining each function of the VSI set to be automatically processed sequentially and to generate a different pattern for each recording section; Receive debugging data through the cable for general purpose asynchronous communication in the PC, generate the corresponding data code, check the operation state of VSI, compare and analyze the audio frequency detected during playback by the standard audio frequency for each recording section, and analyze the error interval. A microprocessor for searching and storing; Characterized in that it comprises a remote control transmitter for generating a remote control pulse according to the control signal of the microprocessor.

Description

VSI's automatic recording system for recording

The present invention relates to a system capable of automatically debugging a recording state of a BT set, and more particularly, debugging data for inspecting each function of the BT set is sequentially transmitted by a personal computer (hereinafter referred to as a fish). In the debugging system that is programmed to be automatically processed by the VSI, when the scheduled recording is performed in the VSI set, the different screen and audio frequencies are provided to the VSIAL recording source for each recording section, and the audio frequency of each recording section is played during the playback. It is related to automatic recording system of VSI recording which can automatically execute debugging operation for recording operation of VSI set by enabling to find the error interval during scheduled recording.

In general, debugging is performed to check whether the finished VSI set includes behavioral problems or other structural problems to execute an arbitrary function. Most of the time, this was done by a debugging system programmed to manually set up debugging data for examining each function of a manual or manual operation requiring manual effort, and to be automatically processed sequentially by the fish.

In order to perform the above debugging operation, a monitor is connected to the inspection VSI set for debugging through the screen, and at the same time, the inspection VSI set includes an instrument for measuring debugging data and other data, and It is composed by connecting fish.

However, the VSI set inspection is performed by a manual method such as inputting debug data for the corresponding function to be checked into the test VSI set configured as described above from the outside and confirming the status through a monitor or a measuring instrument. After the test operation is automatically processed by using a fish or a person, the debugging operation is performed manually by a person, and thus, there is a disadvantage in that a precise inspection result cannot be obtained, and the debugging time may be long. In addition, there was a problem such that the effort of the worker accordingly.

Therefore, the present invention was created to solve the above problems, the present invention is to measure the recording and audio frequencies can be provided for each recording section by the control of the fish when performing the weak recording in the VSI set It is possible to provide a recording source with a pattern generating means, and compare and analyze the frequency of the audio for each recording section during playback, so that the section where a recording error occurs can be found automatically so that debugging of VSI set The aim is to provide an automatic recording system of VSI's recording system that can improve the work efficiency.

In order to achieve the above object, the present invention provides a measurement pattern generation unit for generating a different screen and audio frequency for each recording section according to the control operation of the fish at the time of reservation recording to provide a recording source of VSI; A fish which stores debugging data for examining each function of a VSI set and is programmed to be automatically processed sequentially and controls the measurement pattern generator to generate different patterns for each recording section; Receive debugging data through the cable for general purpose asynchronous communication in the PC, generate the corresponding data code, check the operation state of VSI, compare and analyze the audio frequency detected during playback by the standard audio frequency for each recording section, and analyze the error interval. A microprocessor for searching and storing; The present invention provides an automatic recording system for recording a VSI composed of a remote control transmitter for generating a remote controller pulse according to a control signal of the microprocessor.

1 is a block diagram schematically showing the configuration of the automatic recording system of the recording of VSI in accordance with an embodiment of the present invention.

2 is an operation flowchart for explaining an automatic recording process of the recording of VSI in accordance with the present invention.

** Explanation of symbols for the main parts of the drawings **

10: fish 20: microprocessor

30: remote control transmitter 40: measurement pattern generator

50: V'Sial Set

Hereinafter, a configuration of an automatic recording system for recording a video signal according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically showing a configuration of an automatic recording system for recording a VSI according to an embodiment of the present invention.

As shown in the figure, the present invention is programmed so that debugging data for examining each function of the VSI set is sequentially processed automatically and outputted through a cable for universal asynchronous receiver / transmitter, and recording intervals when the VSI reservation is recorded. The fish 10 controls the measurement pattern generator to generate a different pattern for each channel, and operates according to the control signal of the fish, and records the signals through a high frequency input terminal or a line input terminal of the VSI set during reservation recording. A measurement pattern generator 40 is provided to generate differently provided screens and audio frequencies (for example, 1 KHz, 3 KHz, ...).

In addition, the PC receives debugging data through a general-purpose asynchronous communication cable, generates a serial data code corresponding thereto, and is connected to the VSI set to check its operation state. The microprocessor 20 searches for an error section by comparing and analyzing the standard audio frequency for each recording section, and the remote controller transmitter 30 generates a remote controller pulse according to a control signal of the microprocessor.

FIG. 2 is a flowchart illustrating an automatic video recording process of VSI according to the present invention. In the debugging system configured as shown in FIG. This diagram shows the debugging control program executed by the microprocessor to diagnose the problem.

As shown in the drawing, the above debugging control program checks the debugging data provided from the PC, reads the scheduled recording or the normal recording, and corresponding standard audio frequencies, and controls the V Decal operation to execute the playback mode from the beginning of the tape. In the first step (S211-S215), the playback audio signal is detected, sampled and chatted during playback, and the audio frequency is detected and stored as an error interval while comparing with the standard audio frequency updated each time the recording interval is changed. It consists of a second step (S216-S222).

That is, the first step is to perform an initialization operation for scheduled recording debugging (S211), and checks the debugging data provided through the universal asynchronous communication (UART) cable from the fish by scheduled recording or general recording sequence of VSI and According to the reading of the standard audio frequency (S212), determining whether the start sensor of VSI (S213), and if the start sensor is not detected as a result of the determination, the start sensor is executed while executing the tape rewinding mode. Returning to the detection step (S214), and if the start sensor is detected, the playback mode is executed (S215).

The second step is executed simultaneously with the playback mode, in which it is checked whether the recording section is changed (S216), and if the recording section is changed as a result of the determination, the standard audio frequency of the new recording section is read and memorized and played. Sampling and chatting audio data, and if the recording section does not change, sampling and chatting audio data immediately (S218-S219), and comparing the standard audio frequency and the playback audio frequency of the corresponding section (S220). And if the standard audio frequency and the reproduced audio frequency of the corresponding section are different from each other, setting the error section to be stored as an error section, checking whether the end sensor is detected, and ending the operation (S221-S222).

The operation of the present invention as described above is as follows.

First, when the debugging data for checking each function of the VSI set is automatically processed by the fish 10 and transmitted to the microprocessor 20 through the UART cable, the microprocessor 20 generates serial data and generates a remote controller. By driving the transmitter 30 to provide a VSI control signal, the VSI performs sequential scheduled recording or general recording.

At this time, the microprocessor 20 receives debugging data through the cable for general purpose asynchronous communication from the fish 10 and generates a corresponding data code. Accordingly, the remote control transmitter 30 generates a corresponding control pulse to generate a VSI set 50. ) Wirelessly.

At the same time, the measurement pattern generator 40 generates different screens and audio frequencies for each recording section according to the control operation of the fish 10 to generate a high frequency input terminal or a line input terminal of the VSI set 50. By providing the recording source through the VSI, therefore, it is possible to use different screens and audio frequencies for each recording section as the recording source.

Thereafter, the microprocessor 20 performs a rewind in the middle portion of the tape while checking the operation state of the VSI, returns to the beginning of the tape, and executes the play mode.

The microprocessor plays back from the beginning of the tape, checks whether the recording section is changed, and samples (S218) and chats (S219) audio frequencies detected at the time of playback, compares them with standard audio frequencies (S220), and compares the frequencies with the result. If different (N branch of S220), the corresponding section is stored as an error section (S221).

However, if it is determined whether the recording section is changed during the tape playback (S216) and the recording section is changed (Y branch of S216), the standard audio frequency of the corresponding recording section is read at each time (S217), and the audio frequency detected during playback is read and sampled ( S218) and chattering (S219) and then comparing with the standard audio frequency (S220), and as a result of the comparison by detecting and storing a section having a different audio frequency (S221), to detect a signal to be reproduced for each section and to record at a certain part You can automatically debug whether an error occurred.

According to the present invention as described above, when performing the sequential check operation in the service mode, there is an advantage that it is possible to improve the work efficiency when debugging the VSI set by automatically detecting the error by analyzing the frequency of the audio during playback. .

Claims (2)

A measurement pattern generator 40 generating different screens and audio frequencies for each recording section according to the control operation of the fish at the time of the reserved recording and providing them to the recording source of VSI; A fish (10) for controlling the measurement pattern generator to store debugging data for inspecting each function of a VSI set and to be automatically processed sequentially and to generate different patterns for each recording section; Receive debugging data through the cable for general purpose asynchronous communication in the PC, generate the corresponding data code, check the operation state of VSI, compare and analyze the audio frequency detected during playback by the standard audio frequency for each recording section, and analyze the error interval. A microprocessor 20 for searching and storing; Automatic recording system for recording a VSI composed of a remote control transmitter for generating a remote control pulse according to the control signal of the microprocessor. The microprocessor of claim 1, wherein the microprocessor checks debugging data provided from the PC, reads a scheduled recording or a general recording, and corresponding standard audio frequencies, and controls a V. deck deck operation to execute a playback mode from the beginning of the tape. First step; A debugging control program comprising a second step of detecting and sampling a playback audio signal during playback, detecting a section with different audio frequencies and storing it as an error section while comparing with a standard audio frequency updated each time the recording section is changed. Automatic recording system of the recording of VSI.

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