KR19990034825A - Vehicle Navigation System Main Board Inspection System - Google Patents

Abstract

The present invention relates to a navigation apparatus main board inspection apparatus, and in detail, the navigation apparatus main board inspection apparatus for determining the error of the logic of the main board and checking the operating frequency by operating the main board of the navigation apparatus similar to the actual operation. It is about.

The navigation system main board inspection apparatus according to the present invention operates the main board of the navigation device similar to the actual operation to determine the error of the logic of the main board and to check the operating frequency may occur when the main board operating in the actual situation. By identifying the error in advance, the reliability of the mainboard of the navigation system can be increased, and the failure rate can be lowered.

Description

Vehicle Navigation System Main Board Inspection System

The present invention relates to a navigation apparatus main board inspection apparatus, and in detail, the navigation apparatus main board inspection apparatus for determining the error of the logic of the main board and checking the operating frequency by operating the main board of the navigation apparatus similar to the actual operation. It is about.

With the development of the automobile culture, various convenience devices have been developed to assist the operation of the vehicle. The most representative of these is the vehicle navigation system. The vehicle navigation system is a device capable of indicating the current position of the vehicle using radio waves emitted from the GPS (GPS) satellite. The driver of the vehicle may know the driving position of the current vehicle by using the vehicle navigation apparatus. Thus, the driver can use the vehicle navigation system to find the destination even in the case of a transit road.

When manufacturing a vehicle navigation system, the main board (Printed-Wire Board, PWB) (10) is inspected for abnormalities, and when the main board 10 is inspected, a general circuit tester (In-Circuit Tester, ICT) (20) Check with).

The inspection procedure is as follows.

The motherboard 10 to be tested is placed on the circuit tester 20. Then, the probes provided in the circuit tester 20 are in contact with each inspection part of the main board 10.

The microcomputer 30 inspects each inspection part of the main board 10 through the probe of the circuit tester 20. At this time, a frequency, a value of a passive element, a short or open between nodes. Check your back.

However, in the case of frequency, only frequencies below 1 megahertz (MHz) can be measured. In other words, it is impossible to determine whether the main board 10 is defective for high frequencies of 1 megahertz or more in use. In addition, since the main board 10 is not operated in an actual situation, it is impossible to determine whether the logic logic is also operating properly.

The present invention is to solve the above problems, to operate the main board of the navigation device similar to the actual operation to determine the error of the logic of the main board and to provide a navigation device main board inspection apparatus for checking the operating frequency. .

1 is a block diagram of a conventional navigation apparatus main board inspection apparatus.

2 is a block diagram of a navigation apparatus main board inspection apparatus according to the present invention.

3 is a control flowchart of the navigation system main board inspection apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

10: main board 40: display unit 50: inspection unit

60: voltmeter 70: frequency counter 80: microcomputer

In order to achieve the above object, the present invention provides a display unit for displaying a state, a navigation apparatus main board, a tester for inspecting the state of the main board, a voltmeter for measuring the operating voltage of the main board, and a frequency counter for measuring the operating frequency of the main board. And operating a main board, receiving an output, receiving a result of the tester, the voltmeter, and the frequency counter, determining whether there is an abnormality of the main board, and including a microcomputer indicating the abnormality in the display unit. to be.

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a navigation apparatus main board inspection apparatus according to the present invention.

3 is a control flowchart of the navigation system main board inspection apparatus according to the present invention.

In order to inspect whether there is a circuit abnormality of the main board (Printed-Wire Board, PWB) 10, the test preparation (S10) is performed. First, the main board 10 is connected to the test unit 50. The main board 10 is mounted on the inspection unit 50, and each inspection portion of the main board 10 is connected to the inspection unit 50 by a pad provided in the inspection unit 50.

The inspection unit 50 and the microcomputer 80 are interconnected through the serial port (RS-232C). The motherboard 10 to be inspected is also connected to the microcomputer 80 through the serial port (RS-232C).

When the test is started, the microcomputer 80 is connected to the main board 10 to operate the main board 10 similar to the actual situation. When the main board 10 operates, the microcomputer 80 first determines whether each power supply terminal of the main board 10 is short (S20). If it is determined by the determination S20 that each power supply terminal of the main board 10 is shorted, the microcomputer 80 displays the contents on the display unit 40 and terminates.

If it is determined by the determination (S20) that each power supply terminal is not shorted, the microcomputer 80 measures the voltage of each power supply terminal (S30). When measuring the voltage at the power supply terminal, the voltage is measured through the voltmeter 60 connected to the inspection unit 50. In other words, each part of the main board 10 is connected to the test unit 50 by the pad of the test unit 50 so that the voltmeter 50 connected to the test unit 50 is the voltage of each power terminal of the main board 10. Can be measured.

The voltmeter 60 outputs the measured voltage value to the microcomputer 80, and the microcomputer 80 receives the output from the voltmeter 60 to determine the voltage of each power terminal of the main board 10.

When the voltage of each power terminal is measured, the microcomputer 80 checks the logic and frequency of the main board 10 (S40). The operating frequency of the main board 10 is measured by the frequency counter 70. At this time, the frequency is measured by the same method as when measuring the voltage.

The frequency counter 70 measures the operating frequency of the main board 10 and outputs the measured frequency to the microcomputer 80. The microcomputer 80 receives an output from the frequency counter 70 and determines an operating frequency of the main board 10. The operating frequency of the main board 10 reaches up to several tens of megahertz.

When measuring the operating frequency of the main board 10, the logic of the main board 10 is also measured. The measurement of the logic of the motherboard 10 is performed by the microcomputer 80 whether the logic of the logic of the motherboard 10 occurs when the microcomputer 80 operates the motherboard 10 similarly to the actual situation. The test is performed through the input from the main board 10 and the input from the test unit 50.

The above-described inspection process will be described again as follows. The microcomputer 80 operates the main board 10 in a state in which bidirectional connection with the main board 10 is performed in a similar manner to an actual operation state. The inspection unit 50 is connected to the main board 10 and measures the logic condition of the main board 10 according to the instruction of the microcomputer 80 and outputs it to the microcomputer 80. The microcomputer 80 receives an output from the inspection unit 50 as an input and determines whether the microcomputer 80 operates normally based on a situation in which the main board 10 is operated and a result after the operation. The microcomputer 80 continuously checks the normal operation or error operation status of the main board 10 while performing the inspection.

When the inspection is finished, the microcomputer 80 indicates whether the main board 10 is a good product or a defective product through the display unit 40 (S50). If the inspection result is that the main board 10 is defective, the defective content and a list are displayed on the display unit 40.

As described in detail above, the navigation system main board inspection apparatus according to the present invention operates the main board of the navigation device similarly to the actual operation to determine an error of the logic of the main board and examines the operating frequency of the main board. The error that can occur when operating in the situation can be identified in advance so that the reliability of the mainboard of the navigation system can be increased and the defective rate can be lowered.

Claims (5)

A display unit for displaying the status, Navigation system motherboard, Inspector for checking the state of the motherboard, A voltmeter for measuring an operating voltage of the main board, Frequency counter for measuring the operating frequency of the main board, The microcomputer operates the main board, receives an output, receives the results of the tester, the voltmeter, and the frequency counter, determines whether there is an abnormality of the main board, and includes a micom indicating the abnormality in the display unit. Device Mainboard Inspection Device. The method of claim 1, The tester is interconnected with the microcomputer and inspects the entire operating state including the logic of each of the main boards operated by the microcomputer and outputs the microcomputer to the microcomputer and outputs the voltage values of the respective boards to the voltmeter. Navigation device main board inspection apparatus, characterized in that for outputting the operating frequency of the main board to the frequency counter. The method according to claim 1 or 2, The voltmeter receives a voltage value of the main board from the tester measures the voltage and inputs to the microcomputer navigation apparatus main board inspection apparatus. The method according to claim 1 or 2, The frequency counter is a navigation system main board inspection apparatus, characterized in that for receiving the operating frequency of the main board from the tester to measure the frequency and input to the microcomputer. The method of claim 1, The microcomputer navigation apparatus main board inspection apparatus, characterized in that for operating the main board in the actual situation.