KR100882477B1 - Sub board perception system - Google Patents

Abstract

The sub board recognition system according to the present invention induces a potential level change of an output end of an insertion detection unit in a main board or a driving board into which the sub board is inserted, using an insertion detection target portion of a sub board having one end grounded. By checking the change to determine whether or not to insert the sub-board, through this process can be omitted by the user to recognize the sub-board, to facilitate the user's convenience and there is an advantage in the automation.

Sub-board, recognition, drive board, BUT, insert

Description

Sub board perception system

1 is a block diagram schematically showing a sub-board recognition system according to an embodiment of the present invention.

FIG. 2 is a schematic view showing an example of the insertion detection unit of FIG. 1. FIG.

Figure 3 is a block diagram schematically showing a sub-board recognition system according to another preferred embodiment of the present invention.

4 is a schematic diagram illustrating an example of an identifier detector of FIG. 3;

FIG. 5 is a circuit diagram illustrating an example of an identifier unit of FIG. 3. FIG.

6 is a block diagram schematically showing a sub-board recognition system according to another preferred embodiment of the present invention.

Figure 7 is a schematic diagram showing a BUT which is one of the applications of the sub-board recognition system according to the present invention.

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

10 ... sub board 20 ... drive board

30 Control part 11 Insertion detection target part

21, 50 ... insertion detector 31 ... potential level detector

13 ... Identifier part 33 ... Identifier detection part

15.Identifier detection target part

The present invention relates to a sub board recognition system, and more particularly, to a system for automatically recognizing a sub board inserted into a driving board.

Today, electronic systems of a certain size are typically equipped with boards in the form of block (modular) or sub-boards mounted on the main board.

Such block and board is due to the advantages such as the ease of assembly of electronic systems, the ease of maintenance, the ease of transportation and the like, the field of application is increasing.

In the block, especially the board, the part to be careful about is the compatibility between the board to be inserted and the board to be inserted, that is, the main board, and various methods for such compatibility have been derived.

A typical plug and play (PnP) method used in a computer is that it adds peripherals (subboards) to the computer so that it can be used as it is without installation. Refers to a function.

Plug and play means Plug and Play is an important feature of computers that emerged with the release of the Windows 95 operating system, and even though peripherals such as sound cards, communication cards, and modems are added to the computer, It means a function that automatically adjusts the interrupt I / O address of devices by using them without installation.

For this to work, it must be supported by the operating system, peripherals, and BIOS programs. If the screen displays "Plug & Play" at boot time, the BIOS currently in use supports Plug and Play, and for peripheral devices, the Plug and Play logo is displayed on the product.

However, the above plug and play method is not universally applicable to electronic systems, which is based on the following reasons.

First, flag and play

① Operation under power is applied, that is, the plug and play method of the sub board is performed while power is applied to the sub board.

② The device is recognized through the interface of the computer,

③ This is because the sub-board is activated by receiving a request from the computer while the sub-board is powered on by using a specific protocol such as a USB HID device.

In some cases, the electronic system needs to be able to recognize the sub board even when the power is not applied to the sub board. In addition, the electronic system may be connected through various interfaces in addition to the computer interface, and does not use a separate protocol. In some cases, there is a need for high recognition, so there are areas where plug-and-play is impossible.

For example, in an electronic system for testing a state of a semiconductor chip, one or more semiconductor chips are disposed on a sub board, the sub board is inserted into a driving board, and each semiconductor chip is controlled by a workstation or a computer. Will be tested.

Each semiconductor chip placed on the sub-board inserted in the driving board does not operate and affect the system, but may not be supplied with power except for the test even after being inserted as a simple test target. This is big. That is, since power is not directly applied to the sub board, the sub board must be recognized even when power is not applied to the sub board.

In addition, unlike the interface used in the computer can be configured in a variety of interfaces, which means that you can use an interface that the computer does not support.

In addition, since the sub board does not have the capability to process a specific protocol, it is impossible to recognize the sub board by the protocol.

In summary, the semiconductor chip test system is not applicable to the plug and play method. Of course, this is similarly used in other electronic systems that do not support plug and play.

The method inserts a sub board to be inserted into a driving board or a main board, and then drives a recognition program in a separate computer or workstation to recognize the sub board.

The recognition program used at this time can be configured in various ways depending on the application field or system.

However, this method is omitted from the fact that the user is not involved, which is the main advantage of PnP. That is, even a simple recognition program must be driven by the user directly, which must be inconvenient in view of the fact that the corresponding program must be changed when the type of the sub-board to be inserted is changed.

In addition, since such a user's intervention is a great obstacle to system automation, a solution for this situation is urgent.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a system for automatically performing recognition of a sub board inserted into a driving board or a main board.

This enables the user to recognize the sub-board without any user intervention even in the electronic system where PnP method is difficult to apply, thereby facilitating the user's convenience and further automating a series of electronic system operations and processes including the insertion of the sub-board. Another purpose is to do it.

In order to achieve the above object, the present invention provides a sub-board having an insertion detection target portion, which is an external connection terminal whose one end is grounded; A driving board having a structure in which the sub-board is inserted, and having an insertion detecting unit for changing the potential level of the output terminal due to the connection with the insertion detecting target unit when the sub-board is inserted; And a potential level detector for detecting a potential level of the output terminal of the insertion detector at a predetermined time, and a controller for recognizing the insertion of the sub-board when a potential level different from that of the state where the sub-board is not inserted is detected. It is characterized by comprising.

Here, the driving board and the control unit may be integrally formed, and the sub-board further includes an identifier unit for storing its identifier and an identifier detection target unit that is an external connection terminal connected to the identifier unit, and the control unit includes the sub-board. If it is recognized that the board is inserted, it is preferable to further include an identifier detecting unit for detecting the identifier of the sub-board through the identifier detection target unit.

The identifier unit preferably includes a diode matrix operated by a power applied from the driving board.

In addition, the present invention provides a sub-board having an insertion detection target portion, which is an external connection terminal whose one end is grounded; The sub board is inserted, and is connected to an insertion detection power supply via a resistor, and has an output terminal connected to the insertion detection target part in parallel with respect to a connection point with the resistor when the sub board is inserted. A drive board provided with a detector; And a potential level detector for detecting a potential level of the output terminal of the insertion detector at a predetermined time, and a controller for recognizing the insertion of the sub-board when a potential level different from that of the state where the sub-board is not inserted is detected. It is another feature to include.

Here, the driving board and the control unit may be integrally formed, and an inverter may be further provided at an output end of the insertion detection unit.

The sub-board further includes an identifier unit for storing its identifier and an identifier detection target unit which is an external connection terminal connected to the identifier unit, and the controller detects the identifier when the sub-board is inserted. It is preferable to further include an identifier detecting unit for detecting the identifier of the sub-board through the unit.

The identifier unit may be formed to include a diode matrix operated by a power applied from the driving board.

As described above, the sub board may be a test board (BUT) for testing a state of a semiconductor chip, and the controller may be a computer or a workstation.

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

1 is a block diagram schematically illustrating a sub board recognition system according to an exemplary embodiment of the present invention.

Referring to FIG. 1, the sub board recognition system according to the present embodiment includes a sub board 10 having an insertion detection target part 11, which is an external connection terminal whose one end is grounded; The sub board 10 is inserted, and when the sub board 10 is inserted, an insertion detection unit 21 having a potential level at the output terminal is changed due to the connection with the insertion detection target unit 11. A drive board 20; The potential level detector 31 detects the potential level at the output terminal of the insertion detector 21 at a predetermined time, and when the potential level is different from that of the state where the sub-board is not inserted, insertion of the sub-board is performed. It includes a control unit to recognize.

The sub board 10 is a board inserted into the main board or the driving board 20, and is configured to be variously replaced by blocking or modularizing some functions of the driving board.

When the sub-board 10 is inserted into the driving board 20, the sub-board 10 should be recognized by the driving board 20. For this purpose, the sub-board 10 has an insertion detection target. The part 11 is provided.

The insertion detection target part 11 may correspond to one or more terminals of the slots of the sub board. The other end of the insertion detection target part 11 is grounded so that the driving board 20 can recognize the sub board 10 without operating the inserted sub board. This is to be described later.

The driving board 20 is a board for driving the inserted sub-board 10, and the recognition of the inserted sub-board is performed even before the sub-board is driven. This is done through the insertion detector 21 provided in the drive board.

The insertion detection unit 21 is configured to output a predetermined potential level at the output terminal, and is configured such that the output potential level is changed by connection with the insertion detection target unit 11 of the inserted sub-board.

The method may be configured in various ways, and the control unit 30 detects a change in the potential level at the output terminal of the insertion detector 21 at a predetermined time to determine whether to insert the sub-board. will be. The potential level detection in the potential level detection unit is preferably performed periodically every predetermined time, for example, the detection can be performed every 0.5 seconds to 2.5 seconds.

An example of the insertion detector 21 will be described with reference to FIG. 2.

When the insertion detection unit 21 is configured as a switch and the sub-board 10 is not inserted, the potential level detection unit of the control unit connected to the power supply V ₁ inside the driving board is connected to the output end ( At 31), V ₁ is detected, and it is determined that the sub board is not inserted.

If the sub board is inserted, the output terminal of the insertion detection unit 21 is switched to be connected to the insertion detection target unit 11 so that the potential level detection unit connected to the output end of the insertion detection unit detects 0V, and the controller controls the sub board. The board is judged to be inserted.

Of course, it is possible to detect whether the inside of the insertion detector 21 is inserted into the voltage difference before and after the insertion using a resistor, but the yo is inserted into the drive board by the connection of the insertion detection target portion of the sub-board that is grounded at one end. The potential level at the output of the detector is changed, and the potential level detector of the controller detects the change and determines whether to insert the sub-board based on the change.

By such a configuration, the controller can recognize whether the sub board is inserted without requiring a user's direct manipulation, and thus the controller can instruct the driving board of a necessary operation.

Meanwhile, in the above description, the driving board and the control unit are separately described, but the driving board and the control unit may be integrally formed as necessary or depending on the application field or environment.

In the above description, a configuration for recognizing whether or not the sub board is inserted has been described. In addition, the following process may be additionally performed.

It is necessary to check the identifier of the sub-board when the sub-board is inserted by checking whether the sub-board is inserted. That is, an identifier in which information about what kind of sub-board is inserted and whether the sub-board can be accommodated in the driving board should be identified. The identification of the sub-board should also be possible even when the operation of the sub-board is not performed.

To this end, an external connection connected to the identifier unit 13 and the identifier unit 13 that operate separately from the sub-board as shown in FIG. 3 without informing a function related to the function of the sub-board to inform an identifier of the driving board and the control unit. The identifier detection target portion 15, which is a terminal, should be provided.

The identifier unit 13 is a passive circuit, and identifier detection is performed by an operation of the identifier detector 33 disposed in the control unit.

That is, instead of lowering the identifier to the identifier detecting unit 33 in the identifier unit 13, the identifier detecting unit 33 actively examines the identifier unit 13 and detects the identifier. 4 and FIG. 5.

Prior to the description, the identifier detecting unit 33 has been described as being disposed in the control unit. However, the identifier detecting unit 33 may be arranged in the driving board as needed. In this case, the identifier detecting unit 33 disposed in the driving board may also be included in the category of the control unit. Assume that

When it is confirmed that the sub-board is inserted, the identifier detecting unit 33 detects the identifier of the sub-board through the identifier detecting target unit 15. The configuration of the identifier byte selection circuit is shown in FIG. It may be configured to include an identifier reading circuit and a sub-controller, wherein the identifier unit 13 of the sub-board to be identifier detection is preferably configured to include a diode matrix as shown in FIG.

The configuration is based on the assumption that the identifier is composed of 32 bits. According to this configuration, the sub-controller reads 4 times 8 bits at a time.

When the sub control unit starts reading, the ID byte selection circuit of the sub-controller changes the IDSEL0 to 3 low level in order, and the 8-bit value according to the diode connection state of the identifier unit in each step. IDDT0-7 are outputted to the said identifier reading circuit.

As a result, the IDDT bit to which the diode is connected is read out at a low level. Otherwise, the IDDT bit is read out at a high level. Thus, the 32-bit identifier completed through this process can be read.

That is, the identifier unit forms its own identifier in a configuration including a diode matrix, and the identifier detector reads the identifier using an identifier byte selection circuit and an identifier reading circuit for the identifier unit including the diode matrix. .

6 illustrates a sub-board recognition system according to another exemplary embodiment of the present invention, and illustrates the configuration of the insertion detection unit in more detail.

Looking at it, the sub-board is provided with an insertion detection target portion, which is an external connection terminal whose one end is grounded; The sub board is inserted, and is connected to an insertion detection power supply via a resistor, and has an output terminal connected to the insertion detection target part in parallel with respect to a connection point with the resistor when the sub board is inserted. A driving board provided with a detection unit 50; A potential level detector for detecting a potential level of the output terminal of the insertion detector 50 at a predetermined time, and a controller for recognizing the insertion of the sub-board when a potential level different from that of the sub-board is not detected is detected; It can be seen that comprises a, it is the same as FIG. 1 except for the configuration of the insertion detection unit.

The insertion detection unit 50 has an output terminal connected to the power supply Vcc via a predetermined resistance unit 51, and the insertion detection target unit is connected in parallel when the sub board is inserted into a connection point with the resistance unit 51. It is.

In operation, before the insertion of the sub-board, Vcc is output from the output terminal of the insertion detection unit 50, which means that the potential level detection unit of the control unit detects Vcc. In this case, the control unit inserts the sub-board. I do not think it is.

When the sub board is inserted, 0 V is output to the output terminal of the insertion detection unit due to the connection of the insertion detection target unit having one end grounded, and the controller determines that the sub board is inserted.

On the other hand, the output value of the output stage does not need to be accurate, and an output value of the potential level detection unit that can determine low and high is sufficient.

In addition, the inverter 53 may be disposed at the output terminal as shown in FIG. 6 to convert the level value of the output terminal to the reverse as needed. This can be changed as much as the user needs.

In addition, as shown in FIG. 1, the driving board and the controller may be integrally formed.

The sub-board further includes an identifier unit for storing its identifier and an identifier detection target unit which is an external connection terminal connected to the identifier unit, and the controller detects the identifier when the sub-board is inserted. It is also possible to further include an identifier detecting unit for detecting the identifier of the sub-board through the unit.

In this case, it is preferable that the identifier part is formed in a form including a diode matrix operated by a power applied from the driving board.

In the above description, a means of solving the problem of performing the recognition of the sub board by the user's manual operation due to the difficulty in applying the PnP method has been described. It is preferably a test board (BUT, board under test) for testing the state of the semiconductor chip.

In the case of a BUT, a plurality of semiconductor chips are disposed on a sub board, and each of the semiconductor chips does not function by operating. Therefore, it is advantageous to apply the above-described information to the automatic recognition of the sub board, and a plurality of semiconductor chips. It would be advantageous to implement automation in large scale test process systems that deal with this problem.

On the other hand, when the sub-board is a BUT, the driving board and the control unit are generally present separately. Therefore, the control unit is preferably configured as a computer or a workstation.

As described above, the sub-board recognition system according to the present invention uses the insertion detection target portion of the sub-board whose one end is grounded, and the potential level of the output end of the insertion detection unit in the main board or the driving board into which the sub-board is inserted. The change is induced to check the potential level change to determine whether the sub-board is inserted.

Through this, the user can directly participate in the process of recognizing the sub-board can be omitted, it is possible to facilitate the user, and the manual work by the user is excluded, there is an advantage in the automation.

Claims (11)

A sub-board having an insertion detection subject portion, the external connection terminal of which one end is grounded; A driving board having a structure in which the sub-board is inserted, and having an insertion detecting unit for changing the potential level of the output terminal due to the connection with the insertion detecting target unit when the sub-board is inserted; And a potential level detector for detecting a potential level of the output terminal of the insertion detector at a predetermined time, and a controller for recognizing the insertion of the sub-board when a potential level different from that of the state where the sub-board is not inserted is detected. Including, The sub board further includes an identifier unit for storing its identifier and an identifier detection target unit which is an external connection terminal connected to the identifier unit. The control unit further comprises an identifier detecting unit for detecting the identifier of the sub-board through the identifier detection target unit when recognizing that the sub-board is inserted. The method of claim 1, Sub-board recognition system, characterized in that the drive board and the control unit are formed integrally. delete The method of claim 1, And the identifier unit is formed to include a diode matrix operated by a power applied from the driving board. A sub-board having an insertion detection subject portion, the external connection terminal of which one end is grounded; The sub board is inserted, and is connected to an insertion detection power supply via a resistor, and has an output terminal connected to the insertion detection target part in parallel with respect to a connection point with the resistor when the sub board is inserted. A drive board provided with a detector; And a potential level detector for detecting a potential level of the output terminal of the insertion detector at a predetermined time, and a controller for recognizing the insertion of the sub-board when a potential level different from that of the state where the sub-board is not inserted is detected. Including, The sub board further includes an identifier unit for storing its identifier and an identifier detection target unit which is an external connection terminal connected to the identifier unit. The control unit further comprises an identifier detecting unit for detecting the identifier of the sub-board through the identifier detection target unit when recognizing that the sub-board is inserted. The method of claim 5, wherein Sub-board recognition system, characterized in that the drive board and the control unit are formed integrally. The method of claim 5, wherein Sub-board recognition system, characterized in that the output terminal is further provided with an inverter. delete The method of claim 5, wherein And the identifier unit is formed to include a diode matrix operated by a power applied from the driving board. The method according to any one of claims 5 to 7, 9, The sub board is a sub board recognition system, characterized in that the test board (BUT, board under test) for testing the state of the semiconductor chip. The method of claim 10, The control unit is a sub-board recognition system, characterized in that the computer (work-station).

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