KR100302654B1 - Integrated testing method of test equipment system - Google Patents

Abstract

TECHNICAL FIELD The present invention relates to test equipment systems, and more particularly, to an integrated testing method of test equipment systems capable of managing testing at an operator terminal.

The present invention provides an operator terminal having a database storing firmware corresponding data of test equipment, test equipment for testing the diagnostic module to be tested, and test result data of the diagnostic module generated in the test equipment. An integrated testing method of a test equipment system having a measuring instrument for measuring, comprising: checking whether a testing command is received from an operator at the operator terminal; analyzing the testing command when the testing command is received from the operator; Transmitting a message corresponding to the testing command to the test equipment after analyzing the testing command, receiving a message transmitted from the operator terminal in the test equipment, analyzing the received message; According to the type of message analyzed Transmitting a testing command to the diagnosis module, transmitting test result data generated according to the testing command to the operator terminal, receiving test result data transmitted from the test equipment at the operator terminal; And analyzing the received test result data and displaying the analyzed test result data.

Description

Integrated testing method of test equipment system

TECHNICAL FIELD The present invention relates to test equipment systems, and more particularly, to an integrated testing method of test equipment systems capable of managing testing at an operator terminal.

Typically, the test equipment system is composed of an operator terminal, test equipment, and measurement equipment to perform testing of a diagnostic module to be tested.

Conventionally, the operator terminal searches for a control program and transmits only the STEP ID corresponding to the testing command to the test equipment according to the input of the testing command. Accordingly, the test equipment performs the control program corresponding to the received STEP ID to diagnose the diagnosis. I have tested the module. Therefore, there was a case where the control program was searched on the two equipments with a single command, so that the testing failed due to the transmission and reception miss between each other. Also, when the change occurred in the control program due to the environment change of the test equipment system, that is, There was a problem that the ROM of the test equipment should be replaced when the firmware was changed.

Accordingly, an object of the present invention is to provide an integrated testing method of a test equipment system that enables the integrated management of the testing of a diagnostic module to be tested in an operator terminal that implements a command corresponding to firmware of a test equipment in a database. have.

The present invention for achieving the above object, the operator terminal having a database for storing the data corresponding to the firmware of the test equipment, test equipment for testing the diagnostic module to be tested, and generated in the test equipment In the integrated testing method of the test equipment system having a measurement equipment for measuring the test result data of the diagnostic module, the process of checking whether a test command is received from the operator at the operator terminal, and if the test result testing command is received Analyzing the testing command, transmitting a message corresponding to the testing command to the test equipment after analyzing the testing command, receiving a message transmitted from the operator terminal in the test equipment, and receiving the message. Analyzing the received message, Transmitting a test command to a corresponding diagnostic module according to the type of the analyzed message, transmitting test result data generated according to the test command to the operator terminal, and testing transmitted from the test equipment at the operator terminal. And a process of receiving result data, analyzing the received test result data, and displaying the analyzed test result data.

1 shows an internal configuration of a test rig system

2 is a flowchart of an operator terminal of a test rig system according to an integrated testing process according to an embodiment of the present invention.

3 is a flowchart of test equipment of a test equipment system according to an integrated testing process according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that in the following description, only parts necessary for understanding the operation according to the present invention will be described, and descriptions of other parts will be omitted so as not to distract from the gist of the present invention.

1 is a diagram illustrating an internal configuration of a test equipment system.

First, the test equipment system is composed of the operator terminal 100, the test equipment 101 and the measurement equipment 129 to perform testing for the diagnostic module to be tested.

The operator terminal control unit 111 controls the overall operation of the test equipment system. The memory 113 stores temporary data generated according to the control program of the test equipment system and the control of the operator terminal control unit 111, and in particular, in one embodiment of the present invention, the diagnostic module of the test equipment 101 ( The firmware for testing 127 is stored in the form of a database.

The key input unit 115 generates a key signal corresponding to a key input from the operator and transmits the key signal to the operator terminal control unit 111. The monitor 117 displays control data of the operator terminal and testing result data generated by the test equipment 101 according to the control of the operator terminal 111.

The test equipment interface 119 is an interface for data communication with the test equipment 101. The test equipment interface 119 is an electrical standard for connecting a data terminal device such as a data terminal device and a data line termination device such as a modem or a data concentrator, which is a standard interface. In addition, the interface with the operator terminal interface 121 of the test equipment 101 is established as an EIA Recommendation Standard (RS).

The test equipment control unit 123 performs initialization of the test equipment 101 and initialization and testing of the diagnostic module 127 according to a command transmitted from the operator control unit 100 through the operator terminal interface 121. . The diagnostic module 127 is a module to be tested. The ROM 125 stores firmware for testing the diagnostic module 127 under the control of the test equipment controller 123. Particularly, in the embodiment of the present invention, the stored firmware performs a testing command. It consists of only code.

The test result data of the diagnostic module 127 is transmitted to the measurement equipment 129 under the control of the test equipment controller 123. The measurement equipment includes a monitor to generate and display a signal waveform corresponding to the test result data of the diagnostic module 127. The operator terminal interface 131 interfaces with the measurement equipment interface 133 through a general purpose interface bus (GPIB) as an interface for data communication with the operator terminal 100.

2 is a flowchart of an operator terminal of a test equipment system according to an integrated testing process according to an embodiment of the present invention.

In operation 211, the operator terminal controller 111 checks whether a command is input from the operator through the key input unit 115. When the test result command is input, the operator terminal controller 111 analyzes the received command and proceeds to step 215. In this case, the type of command includes a control command and a testing command. In step 215, the operator terminal control unit 111 transmits the analyzed command through the test equipment interface 119 and proceeds to step 217. In step 217, the operator terminal controller 111 polls a test equipment interface at a predetermined cycle, for example, a cycle of 500 μs, so that the result data is received from the test equipment 101 by the test equipment interface 119. Check it. When the test result data is received, the operator terminal control unit 111 proceeds to step 219. In step 219, the operator terminal controller 111 analyzes the result data received through the test equipment interface 119 and proceeds to step 221. In step 221, the operator terminal control unit 111 displays and returns the result of the analysis through the monitor 117.

Therefore, the integrated testing process of the operator terminal as shown in FIG. 2 enables direct management of the testing of the test equipment in the operator terminal by storing the database corresponding to the command directly.

3 is a flowchart illustrating test equipment of a test equipment system according to an integrated testing process according to an exemplary embodiment of the present invention.

First, in operation 311, the test equipment controller 123 polls the operator terminal interface 121 at a predetermined cycle, for example, a period of 500 μs, so that a command is transmitted through the test equipment interface 119 of the operator terminal 100. Check if it is received. When the test result command is received, the test equipment controller 123 proceeds to step 313. In step 313, the test equipment controller 123 processes the reception of the command in a monitor period, that is, a 1-byte period, and proceeds to step 315. In step 315, the test equipment controller 123 performs Analy_Proc, that is, an analysis procedure, and proceeds to step 317. Here, Analy_Proc is a procedure for analyzing the input command.

In step 317, the test equipment controller 123 checks whether the analyzed command is a WRITE command. If the test result is a WRITE command, the test equipment controller 123 proceeds to step 319. In step 319, the test equipment controller 111 performs a command corresponding to the WRITE command and proceeds to step 321. Performing the WRITE command means that a WRITE command received from the operator terminal 100, that is, an address to access the diagnostic module 127 and data to be written to the address are recorded in the WRITE command. In operation 321, the recorded data is written to the address of the corresponding diagnostic module 217. In step 321, the test equipment controller 123 transmits and returns corresponding result data through the operator terminal interface 121.

If the test result is not the WRITE command in step 317, the test equipment controller 123 proceeds to step 323. In step 323, the test equipment controller 123 checks whether the analyzed command is a READ command. If the test result is a READ command, the test equipment controller 123 proceeds to step 325. In step 325, the test equipment controller 123 executes a command corresponding to the READ command and proceeds to step 327. In the READ command, an address to be accessed in the diagnostic module 127 is recorded. The data read in the address of the corresponding diagnostic module 217 is read and the process proceeds to step 327. In step 327, the test equipment controller 123 transmits and returns the read result data through the operator terminal interface 121.

If the test result is not the READ command in step 323, the test equipment controller 123 proceeds to step 329. In step 329, the test equipment controller 123 checks whether the received command is a DELAY command for a time delay. If the test result is a DELAY command, the test equipment controller 123 proceeds to step 331. In step 331, the DELAY command is performed, and the flow proceeds to step 333. In step 333, the fraud test equipment control unit 123 transmits and returns the DELAY result data through the operator terminal interface 121.

If the test result is not the DELAY command in step 329, the test equipment controller 123 proceeds to step 335. In step 335, the test equipment controller 123 checks whether the received command is a WAIT command for waiting for a job. If the test result is a WAIT command, the test equipment controller 123 proceeds to step 337. In step 337, the test equipment controller 123 performs the WAIT command and proceeds to step 339. In step 339, the test equipment controller 123 transmits and returns the WAIT result data through the operator terminal interface 121.

If the test result is not a WAIT command in step 335, the test equipment controller 123 proceeds to step 341. In step 341, the test equipment controller 123 performs a task corresponding to the received command and returns.

As described above, in the test equipment system, a database corresponding to the test equipment firmware is constructed in the operator terminal, and the command inputted by the operator is directly transmitted to the test equipment to integrate and manage the test equipment system in the operator terminal. In addition, it is possible to modify the database of the operator terminal only if the modification occurs in the testing process of the test equipment system, and thus it is possible to maintain and manage the test equipment system.

Claims (5)

Firmware of the test equipment An operator terminal having a database for storing corresponding data, a test equipment for testing the diagnostic module to be tested, and a measurement for measuring the test result data of the diagnostic module generated from the test equipment. In the integrated testing method of the test equipment system equipped with the equipment, Checking whether a testing command is received from an operator at the operator terminal; Analyzing the testing command when the testing command is received; Transmitting a message corresponding to the testing command to the test equipment after analyzing the testing command; Receiving a message transmitted from the operator terminal in the test equipment; Analyzing the received message; Transmitting a testing command to a corresponding diagnostic module according to the type of the analyzed message; Transmitting the test result data generated according to the testing command to the operator terminal; Receiving testing result data transmitted from the test equipment at the operator terminal; Analyzing the received test result data; And a process of displaying the analyzed test result data. The method of claim 1, And said operator terminal and said test equipment interface to RS-232C, which is a standard interface for communication with each other. The method of claim 1, And said operator terminal and said metrology equipment interface to a universal interface bus which is a standard interface for mutual communication. The method of claim 1, And a database provided in the operator terminal stores instructions for performing testing, an address corresponding to the instructions, and testing data to be performed at the addresses. The method of claim 4, wherein And testing the test result data generated according to a testing command in the test equipment as a signal waveform on the measurement equipment.