CN217181141U - Automatic hardware measuring tool - Google Patents

Abstract

The utility model relates to a hardware automation measurement frock, including frock clamp, circuit switching control panel, function and logic control panel, frock clamp includes test probe, target test board, connecting wire harness, and frock clamp utilizes test probe to connect terminal socket and test point of target test board on one side, and the other side switches the output socket binding post of control panel through connecting wire harness connecting wire; the circuit switching control panel comprises a singlechip, an analog switch and input and output plug socket wiring terminals; the function and logic control panel comprises a single chip microcomputer, a plug socket, a voltage detection module, a current detection module, a resistance detection module, an SD card, a current and voltage output module, an SWD interface module, a communication interface module, a report output module and a display screen. The utility model discloses test fixture can realize the hardware test, and the procedure downloads, and hardware function test, test report output integration function has improved production efficiency greatly, has reduced the error rate.

Description

Automatic hardware measuring tool

Technical Field

The utility model relates to a hardware testing arrangement, in particular to frock is measured in hardware automation.

Background

At present, along with the development of science and technology, various hardware products appear in the market, the demand is particularly large, however, the quality control in the production process of the hardware products is very important, so a hardware manufacturer can perform detailed hardware test on the hardware products before the hardware products leave a factory, the test on the hardware is mainly focused on the following aspects, firstly, the power supply test before the hardware is electrified, mainly performing the test on whether the power supply is short-circuited, then performing the programming of a hardware circuit board, starting to perform the function test on the hardware circuit board after the programming is finished, and further performing the test on the current of the hardware circuit board on the low-power-consumption products. Generally, a hardware manufacturer performs manual testing according to one function after welding a hardware circuit board, and judges whether the product function is qualified manually, so that the efficiency is very low and the hardware manufacturer is not beneficial to mass production; manual testing also increases the error rate and may introduce undesirable products into the market, causing losses to the company. Therefore, the prior art needs to be improved, and a manual testing scheme is changed into a hardware automatic testing scheme, so that the production efficiency can be greatly improved, and the error probability can be reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art not enough and providing a frock is measured in hardware automation, improves production efficiency, reduces the error rate.

The utility model discloses the technical scheme who takes does:

a hardware automation measurement tool comprises a tool clamp, a circuit switching control panel and a function and logic control panel, wherein the tool clamp comprises a test probe, a target test panel and a connecting wire harness, one side of the tool clamp is connected with a terminal seat and a test point of the target test panel by the test probe, and the other side of the tool clamp is connected with an output socket wiring terminal of the circuit switching control panel by the connecting wire harness; the circuit switching control panel comprises a single chip microcomputer, an analog switch and input and output socket connecting terminals, the single chip microcomputer is used for communicating with the function and logic control panel and switching the connection of the input and output socket connecting terminals according to the instructions of the function and logic control panel; the function and logic control panel comprises a single chip microcomputer, a plug socket, a voltage detection module, a current detection module, a resistance detection module, an SD card, a current and voltage output module, a network port module, a Bluetooth module, an SWD interface module, a communication interface module, a report output module and a display screen.

The functional and logical control board is internally provided with a luato virtual machine, a logical control program can be put into the memory card, the luato virtual machine automatically reads a script program in the SD card after being electrified, and functional test and report output are completed according to the script program. The SD card is mainly used for storing script files written by the lua language, storing program files of the equipment to be tested and exporting test reports.

The current and voltage output module is mainly used for testing the AD detection function of the equipment; the current detection module is used for measuring current statistics in a normal working mode and a low power consumption mode; the resistance detection module is used for detecting the board card before the equipment to be detected is electrified; the voltage detection module is used for detecting the power supply voltage after the circuit board is electrified, and prevents the equipment to be detected from being damaged due to abnormal voltage.

The network port module is mainly used for connecting a server and can upload a test report to the server; the Bluetooth module can be used as a host to connect the Bluetooth of the test equipment to test the Bluetooth function of the equipment to be tested, and can also be used as a slave to connect the mobile phone APP client to output test information.

The communication interface module is used for realizing communication between the function and logic control panel and the equipment to be tested and the line switching control panel, and comprises RS232, RS485 and TTL interfaces, and integrates 3 different interfaces so as to be convenient for adapting to communication interfaces of different equipment to be tested. The SWD interface module is used for downloading the program of the equipment to be tested. The display screen is used for displaying necessary state information in the testing process, so that a tester can find problems in the testing process more conveniently and quickly. The report output module is used for outputting a PDF test report of the test result and enabling the test result to be more authentic by utilizing the characteristic that the PDF is not changeable.

The target test board comprises a single chip microcomputer, a terminal seat, a test point, a clock test module, a storage test module, a wakeup test module, a Bluetooth test module, an analog quantity test module, a digital quantity input test module, a 4G networking test module and an RS485 interface.

The utility model discloses test fixture can realize the hardware test, and the procedure downloads, hardware function test, test report output integration function. Aiming at the problems of low production efficiency and high error rate in the prior art, the production efficiency is greatly improved, and the error rate is reduced.

Drawings

Fig. 1 is a block diagram of the present invention.

Detailed Description

The following is further described in conjunction with the specific embodiments.

Example 1

As shown in fig. 1, a hardware automation measurement tool comprises a tool clamp, a circuit switching control panel, and a function and logic control panel, wherein the tool clamp comprises a test probe, a target test board, and a connection harness, one side of the tool clamp is connected with a terminal seat and a test point of the target test board by using the test probe, and the other side of the tool clamp is connected with an output socket terminal of the circuit switching control panel by the connection harness; the circuit switching control panel comprises a single chip microcomputer, an analog switch and input and output socket connecting terminals, the single chip microcomputer is used for communicating with the function and logic control panel and switching the connection of the input and output socket connecting terminals according to the instructions of the function and logic control panel; the function and logic control panel comprises a single chip microcomputer, a plug socket, a voltage detection module, a current detection module, a resistance detection module, an SD card, a current and voltage output module, a network port module, a Bluetooth module, an SWD interface module, a communication interface module, a report output module and a display screen.

The function and logic control board mainly realizes the control of logic functions and completes the test of the hardware circuit board. The function and logic control board is specifically provided with an SD card, 0-10V voltage output, 4-20mA current output, a network port module, Bluetooth communication, direct current detection, alternating current detection, direct current voltage detection, alternating voltage detection, on-off detection, resistance detection, RS232, RS485 and TTL connection, SWD program downloading, PDF test report output, display screen display information and other functions, a Luato virtual machine is arranged in the function and logic control board, the logic control program can be placed in a memory card, the Luato virtual machine automatically reads a script program in the SD card after power-on, and function test and report output are completed according to the script program. The SD card in the function and logic control board is mainly used for storing script files written by lua language, storing program files of the equipment to be tested and exporting test reports.

The target test board comprises a single chip microcomputer, a terminal seat, a test point, a clock test module, a storage test module, a wakeup test module, a Bluetooth test module, an analog quantity test module, a digital quantity input test module, a 4G networking test module and an RS485 interface.

The function of the hardware to be tested, which needs the test of the target test board, is as follows: whether the power has a short circuit or not, whether the power voltage output is normal or not, program programming, clock testing, Bluetooth testing, 4G networking testing, Digital Input (DI) testing, analog testing, storage testing, low-power consumption testing and low-power consumption awakening testing.

The working principle of the test tool of the utility model is described according to the test item of the target test board as follows:

firstly, writing a script program by using lua language, then putting the script program and a program of a target test board into an appointed directory of an SD card, electrifying a function and logic control board and a circuit switching control board, and automatically testing all functions by the function and logic control board after electrification, and how to complete the testing work will be described step by step.

(1) Whether the power supply has a short circuit is tested, and the specific method comprises the following steps: the function and logic control board sends an instruction to the circuit switching control board through the TTL interface, the circuit switching control board switches the circuit after receiving the instruction, so that a power supply pin and a ground pin of the target test board are respectively connected with the resistance detection module interface of the function and logic control board, then the function and logic control board detects whether short circuit occurs or not, and the result is written into a test report of a PDF version. If the short circuit exists, the measurement work is directly finished, and the display screen displays an error state; no short circuit occurred for further testing.

(2) Whether the power supply voltage output is normal is tested, and the specific method comprises the following steps: and the function and logic test board performs voltage detection, compares the voltage with the voltage written in the script, and stores the test result in PDF.

(3) Programming a test program for a target test board, which specifically comprises the following steps: the function and logic control board sends an instruction to the line switching control board, the line switching control board receives the instruction to switch the line, so that the SWD interface of the target test board is connected with the SWD interface of the function and logic control board, then program programming work is carried out, and the result is stored in PDF.

(4) And the function and logic control panel sends an instruction to the line switching control panel, and the line switching control panel receives the instruction to switch the line, so that the RS485 interface of the target test board is connected with the RS485 interface of the function and logic control panel.

(5) And testing the clock, wherein the function and logic control board sends an instruction to the target test board through the RS485 interface, the target test board performs read-write test on the clock according to the instruction, after the test is passed, the result is sent to the function and logic control board through the RS485 interface, the function and logic control board analyzes the result, and the result is written into PDF.

(6) The Bluetooth test, the concrete way is: the function and logic control board sends an instruction to the target test board through the RS485 interface, the target test board opens the Bluetooth, then the Bluetooth module on the function and logic test board is set as a Bluetooth module on a host mode connection target test board, data test is carried out, and a result is written into PDF.

(7)4G networking test, the specific method is as follows: and the function and logic control board sends an instruction to the target test board through the RS485 interface, the target test board is connected with the server according to the designated IP and returns the result to the function and logic control board, and the function and logic control board writes the result into PDF.

(8) Digital quantity input (DI) test, specifically do: the function and logic control board sends an instruction to the line switching control board, the line switching control board shorts the DI interface of the target test board according to the instruction, the function and logic control board sends an instruction through the RS485 interface to read the DI state of the target test board, the function and logic control board sends an instruction to the line switching control board, the line switching control board opens the DI interface of the target test board according to the instruction, at the moment, the function and logic control board sends an instruction through the RS485 interface to read the DI state of the target test board, and a test result is written into PDF.

(9) The analog quantity test comprises the following specific steps: the function and logic control board sends an instruction to the line switching control board, the line switching control board connects an analog quantity interface of the target test board with a current output interface of the function and logic control board according to the instruction, the function and logic control board outputs specified current, the function and logic control board sends the instruction to the target test board, the target test board returns collected current data to the function and logic control board, and the function and logic control board writes a test result into PDF.

(10) The storage test specifically comprises the following steps: the function and logic control board sends an instruction to the target test board, the target test board stores and reads data and returns a result to the function and logic control board, and the function and logic control board writes the test result into PDF.

(11) The low power consumption and wake-up test method comprises the following specific steps: the function and logic control board sends an instruction to the circuit switching control board, the circuit switching control board transmits a current detection interface of the function and logic control board to be connected in series with a power supply interface of the target test board according to the instruction, the function and logic control board detects the current of the target test board, then the function and logic control board sends the instruction to the target test board, the target test board enters a low power consumption mode, the function and logic control board detects the current of the target test board again, finally the function and logic control board sends the instruction to the circuit switching control board to control the short circuit of awakening pins of the target test board, so that the target test board is awakened, the function and logic control board sends the instruction to the target test board, the target test board returns the self state to the function and logic control board, and the function and logic control board writes the test result into PDF.

The present invention has been described in detail with reference to the embodiments, and it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (7)

1. A hardware automation measurement tool is characterized by comprising a tool clamp, a circuit switching control panel and a function and logic control panel, wherein the tool clamp comprises a test probe, a target test panel and a connecting wire harness, one side of the tool clamp is connected with a terminal seat and a test point of the target test panel by the test probe, and the other side of the tool clamp is connected with an output socket wiring terminal of the circuit switching control panel by the connecting wire harness; the circuit switching control panel comprises a single chip microcomputer, an analog switch and input and output socket connecting terminals, the single chip microcomputer is used for communicating with the function and logic control panel and switching the connection of the input and output socket connecting terminals according to the instructions of the function and logic control panel; the function and logic control panel comprises a single chip microcomputer, a plug socket, a voltage detection module, a current detection module, a resistance detection module, an SD card, a current and voltage output module, an SWD interface module, a communication interface module, a report output module and a display screen.

2. The tool of claim 1, wherein a luato virtual machine is arranged in the functional and logic control board, the SD card is used for storing script files written in lua language and storing program files of devices to be tested, the luato virtual machine automatically reads script programs in the SD card after being powered on, and functional testing and report output are completed according to the script programs.

3. The automatic hardware measuring tool of claim 1, wherein the current and voltage output module is used for testing AD (analog-to-digital) detection function of equipment; the current detection module is used for measuring current statistics in a normal working mode and a low power consumption mode; the resistance detection module is used for detecting the board card before the equipment to be detected is electrified; the voltage detection module is used for detecting the power supply voltage after the circuit board is electrified.

4. The tool of claim 1, wherein the communication interface module is used for communicating the function and logic control board with the device under test and the line switching control board, and comprises RS232, RS485 and TTL interfaces.

5. The tool of claim 1, wherein the SWD interface module is used for downloading a program of a device to be tested, and the report output module is used for outputting a PDF test report of a test result.

6. The tool of claim 1, wherein the function and logic control board further comprises a network interface module and a bluetooth module, wherein the network interface module is used for connecting a server and uploading a test report to the server; the Bluetooth module is used as a host to connect Bluetooth of the test equipment to test Bluetooth functions of the equipment to be tested, and can also be used as a slave to connect with a mobile phone APP client to output test information.

7. The tool of claim 1, wherein the target test board comprises a single chip, a terminal block, a test point, a clock test module, a memory test module, a wake-up test module, a bluetooth test module, an analog test module, a digital input test module, a 4G networking test module and an RS485 interface.

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