KR101302542B1 - Apparatus and system for testing a electronic device - Google Patents

Abstract

PURPOSE: A system and apparatus for inspecting electric devices are provided to rapidly inspect a lot of devices in which wireless communication modules are built. CONSTITUTION: An apparatus for inspecting the wireless communication between devices comprises a shield box (300). The shield box shields wireless signals generated from the device. The apparatus comprises a plurality of devices (401-408) to be inspected. The apparatus comprises a plurality of antennae for receiving the wireless signals and RF switches for receiving the signals from the antennae in order. [Reference numerals] (311,312,313) RF switch

Description

Apparatus and system for testing a electronic device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device capable of inspecting an electronic device, such as a remote control, and, for example, to a device and a system capable of performing a test on a Bluetooth operation of the device.

Recently, researches on a space pointing device for moving a pointer displayed on a display device such as a television have been actively conducted, and the space pointing device is referred to as a remote controller (hereinafter, referred to as a remote controller) in the sense of controlling a remotely controlled object. It can be called a kind of).

As a result of vigorous technology development of a remote controller for controlling a display device, a user operates the remote controller in a three-dimensional space to move a pointer displayed on the display device, or similarly to using a mouse. Can control the operation of.

The remote controllers of the spatial pointing device include a motion sensor, and the motion sensor senses the movement of the remote controller to generate data on the movement amount. The display device receives data regarding the movement amount from the remote controller, and controls the movement of the pointer or the operation of the display device based on the movement data.

In the related art, after manufacture of an electronic device equipped with a wireless communication module such as a Bluetooth module is completed, an operator may directly test each electronic device or check a device to check whether the corresponding wireless function is normally operated. It was possible to inspect only one instrument in the chamber.

Therefore, in case of mass production, it is excessively time-consuming due to product inspection, which eventually affects product productivity.

In order to solve the above problems, the present invention is proposed, and to provide a device capable of quickly and inspecting a large number of devices for the device equipped with the module in order to use a wireless communication function such as Bluetooth. .

The inspection apparatus of the present embodiment is an inspection apparatus in which the apparatus is accommodated in order to confirm the operation of the apparatus equipped with the wireless communication module, and the inspection apparatus is a shield box for shielding the radio signal transmitted from the apparatus from the outside. And a plurality of devices to be inspected and accommodated, a plurality of antennas for receiving a radio signal transmitted from each of the devices, and an RF switch capable of switching to sequentially receive signals transmitted from the antennas It includes.

According to this embodiment as proposed, in order to check whether the wireless communication module is normally operated, even if a plurality of inspection target devices are arranged in a shield box, the inspection target devices are sequentially inspected without causing signal interference (testing). Can be

1 is a view showing the configuration of an inspection system according to the present embodiment.
2 is a view showing the configuration of a shield box according to the present embodiment.
3 is a photograph showing that a plurality of PCBs are accommodated in a shield box according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings. It should be understood, however, that the scope of the inventive concept of the present embodiment can be determined from the matters disclosed in the present embodiment, and the spirit of the present invention possessed by the present embodiment is not limited to the embodiments in which addition, Variations.

1 is a view showing the configuration of an inspection system according to the present embodiment.

Referring to FIG. 1, the system of the embodiment includes a shield box 300 that receives a device or a device to be inspected and shields a radio signal transmitted from the received device from the outside, and serial communication to the shield box 300. Computer 100 for transmitting a command, and a measuring device 200 for receiving and measuring the output signal of the inspection target device output from the shield box 300.

The computer 100 determines whether the test target device is normally operated based on the result measured by the measuring device 200. In addition, since it serves as a control controller such as a microcomputer or a PLC, it is not necessarily limited to the term computer and need not be interpreted.

For example, when the inspection system tests the normal operation of the Bluetooth module, a PCB or a device equipped with the Bluetooth module is accommodated in the shield box 300, and the shield box ( 300 transmits a command to transmit a Bluetooth signal (wireless signal) to a PCB or a device within a data communication such as serial communication.

The PCB or device receiving the computer command transmits a wireless signal, and the signal received by the signal receiver provided in the shield box 300 is transmitted along the wire to the external measurement device 200. In addition, the measurement device 200 measures and analyzes the corresponding signal, and the computer 100 determines whether the corresponding PCB or the device is normally operated based on the data analyzed by the measurement device.

In particular, according to the present exemplary embodiment, a plurality of inspection target devices (PCBs or devices) are accommodated in the shield box 300, and receivers are provided to receive radio signals transmitted from respective inspection target devices. This configuration makes it possible to quickly inspect a large number of inspection target devices.

This configuration will be described in more detail with reference to FIGS. 2 and 3.

2 is a view showing the configuration of a shield box according to the present embodiment, Figure 3 is a photograph showing that a plurality of PCBs are accommodated in the shield box according to this embodiment.

2 and 3, the test target device 400 is accommodated in the shield box 300, and for receiving a radio signal (for example, an RF signal) transmitted from the test target device 400. Signal receivers (antennas) 321 to 328 are arranged and equipped with RF switches for switching each of the signal receivers.

In FIG. 2, three RF switches are provided. However, the number of RF switches may be changed according to an exemplary embodiment.

According to an embodiment, a plurality of inspection target devices capable of transmitting a wireless signal are accommodated, and when the inspection target device is a PCB to which a device such as a Bluetooth module is mounted, the inspection target device may be manufactured on a single substrate for mass production. .

In this case, as shown by reference numeral 400, it can be seen that it is a single device, but if the inspection target device is classified based on the communication module, a plurality of devices such as the first inspection target device 401 to the eighth inspection target device 408 are provided. The device to be inspected may be housed in a shield box. After the inspection is completed, the respective inspection target devices 401 to 408 may be separated. Hereinafter, the inspection target device for confirming whether the wireless communication module is normally operated is the first inspection target device 401 to the eighth. It will be described as testing eight devices up to the inspection target device 408.

That is, according to the present invention, even if a plurality of devices to be inspected in which a wireless communication module such as a Bluetooth module is mounted are located in one shield box 300, it is possible to sequentially test the operation of each device to be inspected. .

In addition, antennas 321 to 328 for receiving a radio signal transmitted from each inspection target device are disposed to correspond to each inspection device. Although it may be possible to sequentially receive radio signals transmitted from each inspection target device by a single antenna, in order to more accurately determine whether each inspection target device is normally operated, the distance from the antenna is kept constant. Since it is necessary to inspect under the same conditions, each of the antennas 321 to 328 is arranged to correspond to the number of devices to be inspected.

In addition, when the command signals are sequentially transmitted from the computer 100 to the shield box 300 to the respective inspection target devices 401 to 408, the inspection target devices may sequentially transmit radio signals to corresponding antennas according to the command signal. Send the. For example, when a command to transmit a radio signal is transmitted from the computer 100 to the first inspection target device 401, the radio signal is transmitted from the first inspection target device 401. In addition, the first antenna 321 corresponding to the first inspection target device 401 receives the signal and transmits it to the connected second RF switch 312, and the second RF switch 312 connects the received signal. Transfer to the first RF switch 311. The first RF switch 311 transmits the signal transmitted from the first inspection target device 401 to the measurement device 200, and performs signal analysis by the measurement device 200.

Next, when the wireless signal transmission command of the second inspection target device 402 is transmitted from the computer 100, the analysis of the radio signal transmitted from the second inspection target device is performed in the same manner as described above. By repeating this process, the inspection may be performed on whether the eighth inspection target device 408 is operated.

Meanwhile, the wireless signal received by the antennas 321 ˜ 328 is transmitted to the second RF switch 312 or the third RF switch 313, and the second RF switch 312 and the third RF switch. 313 is shown as a configuration for transmitting the received signal to the first RF switch 311, but is not necessarily limited to this configuration, one RF switch is configured to receive while switching the signal received from all antennas Would also be possible. However, considering the lifespan of the RF switch and considering the cost and efficiency of replacing the RF switch in the case of failure, it may be configured as the first to third RF switch as shown in the figure.

In addition, wireless signals transmitted to the first RF switch 311 are transmitted to the measurement device 200 through a wire, and each inspection target device by the computer 100 connected to the measurement device 200. It is determined whether the wireless communication module for the normal operation.

Through this method, in order to confirm whether the wireless communication module is normally operated, even if a plurality of inspection target devices are arranged in the shield box, each inspection target device may be sequentially inspected (tested) without causing signal interference.

Claims (3)

In order to test the operation of the wireless communication of the device, the inspection device is accommodated,
The inspection device is made of a shield box for shielding the radio signal transmitted from the device to the outside,
A plurality of devices to be inspected are accommodated,
And a plurality of antennas for receiving wireless signals transmitted from each of the devices, and an RF switch switchable to sequentially receive signals transmitted from the antennas. The method of claim 1,
The RF switch,
A first RF switch for transmitting a wireless signal transmitted from the device to an external device, and second and third RF switches for directly receiving a wireless signal transmitted from the device,
And the second and third RF switches transmit the received radio signal to the first RF switch. A shield box in which a device to be inspected is accommodated and shielding radio signals transmitted from the housed device from the outside;
A control controller which transmits a command signal to an inspection target device accommodated in the shield box; And
And a measurement device receiving the signal output from the inspection target device and performing analysis.
And a plurality of antennas for receiving a plurality of inspection target devices and receiving a radio signal transmitted from each of the inspection target devices in the shield box.

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