KR960001094B1 - Detecting apparatus for detaching the board - Google Patents

Abstract

a secession signal generator for generating a voltage in a watch point; a multiplexer for selecting voltages generated in the secession signal generator; a secession signal comparator for inputting a voltage selected in the multiplexer, comparing the selected voltage with a voltage detected in the watch point, and coding a secession location and information of a secession board at the low and high levels; an encoder for encoding the signal inputted at the low and high levels from the secession signal comparator; a central control unit for controlling that the voltage in the watch point is transferred to the secession signal comparator; and a demultiplexer for inputting a specific address from the central processing unit, and transmitting the address to the multiplexer.

Description

Hernia monitoring device on board

1 is an exemplary circuit diagram of a back board on which each hernia monitoring target board and hernia monitoring target board is mounted according to the present invention.

2 is a table showing the positions and number of voltages and hernia boards that can be monitored at each time of hernia monitoring.

3 is a block diagram of the hernia monitoring apparatus of the board according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Hernia Signal Generator 2: Multiplexer

3: hernia signal comparator 4: encoder

5: central controller 6: reverse encoder

The present invention relates to a hernia monitoring apparatus of a board for monitoring the hernia of a plurality of boards sharing one backboard.

Conventionally, in order to monitor the hernia of the board, a simple potential is returned to the hernia monitoring board by directly connecting and disconnecting signal lines from each of the monitoring target boards connected to the back board. The hernia monitoring board uses a device that monitors hernias remotely by measuring one-to-one, single potential for each board hernia.

On the other hand, the method of monitoring the hernia of each remote board using a plurality of signal lines connected to dozens of hernia monitoring target board is closely related to the capacity of the hernia monitoring board.

Therefore, when one signal line is directly connected to each hernia monitoring target board and transmitted to the hernia monitoring board as in the conventional method, the hernia monitoring board that can be monitored by one hernia monitoring board has a limitation in accommodating the signal lines. The number of lice is limited to dozens of levels, and the expansion of hernia monitoring boards is inevitable as the number of hernia monitoring boards to be accommodated increases.

The present invention devised to solve the above problems is to exclude the hernia monitoring by direct connection of each hernia monitoring target board and hernia monitoring board conventional hernia monitoring target board accommodated by one hernia monitoring board The aim is to provide a hernia monitor for boards that increases the number of to hundreds.

In order to achieve the above object, the hernia monitoring apparatus of the present invention includes a hernia signal generating means for generating a voltage at the monitoring point (W) according to whether the hernia monitoring target board hernia; Multiplexing means for receiving and selecting a plurality of voltages generated by the hernia signal generating means; A hernia signal comparison means for encoding the hernia position and location of the hernia monitoring target board into high or low by receiving the voltage selected by the multiplexing means and comparing the voltage to be detected at each monitoring point W; Encoding means for encoding the high or low signal input from the hernia signal comparison means to configure data; A central location where all addresses of the hernia monitoring target board controlling the voltage at the monitoring point of the selected hernia monitoring target board for receiving the data of the encoding means and determining the address of the desired hernia monitoring target board are transmitted to the hernia signal comparing means. Control means; And a decoding unit for receiving a specific address from the central control unit and transmitting the specific address to the multiplexing unit.

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

First, FIG. 1 is a circuit diagram of each hernia monitoring target board and a hernia monitoring target board on which a hernia monitoring target board is mounted.

As shown in the figure, three assign specific resistance values of R1, R2, and R3 to hernia monitoring boards, that is, assign specific resistances to multiple boards sharing the same backboard, and each board is mounted on the backboard. If possible, connect the path through which the voltage passes in parallel with the resistivity of each board. A constant voltage is applied to the hernia monitoring target board and the white board that accommodates the hernia monitoring target to pass through each hernia monitoring target board.

At this time, when a voltage is applied to each hernia monitoring target board for hernia monitoring in the hernia monitoring board, hernia monitoring generated by using the ground of the conventional hernia monitoring target board uses the ground of the hernia monitoring board. You can ignore the difference in ground potential between the board and the board to be monitored.

The voltage passing through each hernia monitoring board is returned to the hernia monitoring board. If a board is herniad out of the hernia monitoring board, the board hernia monitoring signal line passes through the resistor connected to the back board. The voltage rises in proportion to the intrinsic resistance of the board.

Therefore, by specifying a specific resistance that does not overlap each board, the voltage at the monitoring point of the hernia monitoring board is increased, and the position and number of the hermetic boards are determined according to the degree of the voltage rise.

FIG. 2 is a table showing the voltages detected at the monitoring point W when the hernia monitoring target boards RBA1, RBA2, and RBA3 are hernias.

At the monitoring point W, each board is stripped of 0V in the normal state, and a voltage of (Ri × Vi) / (R0 + R1) is detected by the parallel connection of the resistors.

3 is a block diagram of a hernia monitoring device for finding an accurate board hernia location and number using the voltage of a hernia monitoring signal line transmitted from a hernia monitoring target board. The apparatus is a hernia signal generator (1), a multiplexer (2), It consists of a hernia signal comparator (3), an encoder (4), a central controller (5), and a decoder (6).

The hernia signal generator 1 is configured as shown in FIG. 1 to transmit the voltage at the monitoring point W to the input of the multiplexer 2 according to whether or not the hernia monitoring target board is hernia-seated.

The multiplexer 2 receives a voltage of the hernia signal generator 1 generated from a plurality of hernia monitoring target boards and selectively transmits the voltage to the hernia signal comparator 3, which is generated from the central controller 5. Using the output of the decoder 6 using the address as a driving signal of each multiplexer 2, the watch point voltage of the hernia monitoring target board to be monitored among the hernia monitoring target boards is transmitted to the hernia signal comparator 3. .

In the hernia signal comparator 3, the potential transmitted from the multiplexer 2 is compared with the voltages shown in FIG. The code indicating the location and location of the hernia on the hernia monitoring target board is transmitted to the encoder 4 according to the compared voltage.

The encoder 4 encodes the high and low signals input from the hernia signal comparator 3 to form data and transmit the data to the central controller 5.

The central controller 5 has all the addresses of the hernia monitoring target board and transmits the address of the desired hernia monitoring target board to the decoder 6 so that the voltage at the watch point of the selected hernia monitoring target board is transmitted to the hernia signal comparator. In addition, the control unit also receives a code from the encoder 4 and detects the exact location of the hernia monitoring target boards and the number of hernia boards.

The decoder 6 receives an address from the central controller 5 and transmits the desired hernia monitoring target among the comparison voltages of the hernia monitoring target board which is transmitted from the hernia signal generator 1 which this address means and input to the multiplexer 2. A comparison voltage of the board group is selected to transmit a signal for driving the transmission to the hermetic signal comparator 3 to the multiplexer.

Therefore, the present invention made as described above can monitor three to five hernia monitoring target boards using one hernia monitoring signal line, thereby reducing the number of hernia monitoring signal lines.

In addition, since the number of hernia monitoring signal lines is reduced and a multiplexer is used, the configuration of the hernia monitoring board is simple.

In addition, since the monitoring power and ground are supplied from the hernia monitoring board, the board hernia of the hernia monitoring target boards can be monitored regardless of the potential difference of the potentials supplied to the hernia monitoring target boards.

Claims (1)

In the hernia monitoring apparatus for a board that monitors hernias for a plurality of boards sharing one backboard, a hernia signal generating means (1) for generating a voltage at the monitoring point (W) according to whether or not a hernia monitoring target board is hernia ); Multiplexing means (2) for receiving and selecting a plurality of voltages generated by the hernia signal generating means (1); Hernia signal comparison means for encoding the hernia position and location of the hernia monitoring target board into high or low by receiving the voltage selected by the multiplexing means 2 and comparing it with the voltage to be detected at each monitoring point W. (3); Encoding means (4) for constructing data by encoding a high or low signal input from the hernia signal comparison means (3); A hernia monitoring target board controlling the transmission of the voltage at the monitoring point of the selected hernia monitoring target board which receives the data of the encoding means 4 to address the desired hernia monitoring target board to the hernia signal comparison means 3. A central control means (5) in which all addresses of the are stored; And a de-coding means (6) for receiving a specific address from the central control means (5) and transmitting it to the multiplexing means (2).