KR19990055992A - Relative unit strip recognition circuit in switching unit duplication in subscriber transmitter - Google Patents

Abstract

The present invention relates to a circuit for recognizing a hernia of a working unit in order to transfer a standby unit into a working unit when the unit is dually operated in the subscriber transmission apparatus.

When one unit is operated as a walking unit and the other is operated as a standby unit in the subscriber transmission device, it is necessary to quickly check the state and abnormality of the working unit to change the standby unit to the working unit when the working unit has an error. And a current loop is formed and grounded from the third connector of the standby unit to the fourth connector of the standby unit via the second connector and the first connector of the standby unit so as to recognize the signal accurately. B) Recognize when the second connector is herniad.

Description

Relative unit hernia recognition circuit when switching unit duplication in subscriber transmission

The present invention relates to a unit hernia recognition circuit in a subscriber transmission device, and more particularly, to a circuit for recognizing a hernia of a working unit in order to switch a standby unit into a working unit when the unit is dually operated in the subscriber transmission device. will be.

In general, when one unit is operated as a walking unit and the other is operated as a standby unit in the subscriber transmission device, in order to cause an abnormality in the working unit or to transfer the standby unit to the working unit when dismounting, Should be recognized quickly and accurately.

1 is a circuit diagram for recognizing the working unit hernia state of a conventional redundant unit. Referring to FIG. 1, when the working unit 10 is correctly mounted on the backboard, the power supply Vcc applied through the resistor R1 flows to the ground of the second connector CON2, and the output of the inverter I1 becomes high. Since the high signal, which is the output of the inverter I1, is applied to one input of the AND gate AN1, the AND gate AN1 outputs a high signal and is applied to the enable terminal of the buffer B1. At this time, the buffer B1 is not enabled so that the standby unit 12 maintains the standby state. However, when the working unit 10 is detached from the back board, the power Vcc applied through the resistor R1 does not flow to the ground of the second connector CON2, so that the output of the inverter I1 becomes low. Since the low signal that is the output of the inverter I1 is applied to one input of the AND gate AN1, the AND gate AN1 outputs a low signal and is applied to the enable terminal of the buffer B1. At this time, the buffer B1 is enabled to enable the standby unit 12 to be used as a working unit.

However, the hernia or abnormal state recognition circuit of such a unit is a standby unit 12 when only the first connector CON1 of the working unit 10 is detached from the back board due to the long use of the system, and the second connector CON2 is normally mounted. Should be transferred to the working unit, but the output of the inverter I1 of the standby unit 12 remains high, causing the system to be unusable because the unit is not switched. In addition, even in the artificial hernia of the working unit 10, the hernia condition should be recognized and transferred as soon as possible, but there is a difference in the time taken for the transfer to occur depending on which of the first connector CON1 and the second connector CON2 is hernia first. There was a problem that the rapid transfer is not made.

Accordingly, an object of the present invention is to provide a unit hernia recognition circuit for recognizing that one connector of a working unit having a plurality of connectors is detached from the back board when the unit is dualized in the subscriber transmission device.

1 is a circuit diagram for recognizing the working unit hernia state of a conventional redundant unit

2 is a circuit diagram for recognizing the working unit hernia state of a redundant unit according to an embodiment of the present invention;

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

2 is a circuit diagram of recognizing a working unit hernia of a redundant unit according to an embodiment of the present invention.

The working unit 10 has a working unit 10 having a plurality of first to second connectors CON1-CON2, a standby unit 12 having a plurality of third to fourth connectors CON3 to CON4, and a working unit 10 from the third connector CON3 of the standby unit 12. A current loop is formed between the fourth connector CON4 and grounded through the first and second connectors CON1-CON2, and a resistor R1 is connected to the current loop line of the third connector CON3 to connect to the power supply terminal Vcc, and the pull-up resistor R1 Inverter I1 is connected to one input terminal of the AND gate AN1, to apply another unit failure signal to the other input terminal of the AND gate AN1, and to the enable terminal OE of the buffer B1 at the output terminal of the AND gate AN1. When the buffer B1 is enabled, the standby unit 12 is switched to be used as a working unit when the buffer B1 is enabled.

2, when the working unit 10 is correctly mounted on the backboard, the power supply Vcc applied through the pull-up resistor R1 is connected to the ground of the fourth connector CON4 through the third connector CON3 and the first to second connectors CON1 to CON2. The inverter outputs high. Since the high signal, which is the output of the inverter I1, is applied to one input of the AND gate AN1, the AND gate AN1 outputs a high signal and is applied to the enable terminal of the buffer B1. At this time, the buffer B1 is not enabled so that the standby unit 12 maintains the standby state.

However, when the working unit 10 is detached from either of the first connector CON1 or the second connector CON2 from the backboard, the power supply Vcc applied through the resistor R1 is cut in the third connector CON3 and the first connector CON1 or the second connector CON2. The current loop is cut off so that no current flows to the ground of the fourth connector CON4, so that the output of the inverter I1 becomes low. Since the low signal that is the output of the inverter I1 is applied to one input of the AND gate AN1, the AND gate AN1 outputs a low signal and is applied to the enable terminal of the buffer B1. At this time, the buffer B1 is enabled to enable the standby unit 12 to be used as a working unit. When the loop is formed in the counterpart unit, that is, when the current loop is formed through the working unit 10 in the standby unit 12, the distance between the first connector CON1 and the second connector CON2 can be recognized more accurately.

As described above, the present invention provides an advantage of accurately recognizing a hernia state of a counterpart unit without adding a circuit in implementing a circuit for recognizing a hernia of a counterpart unit, which is a unit switching requirement, in a subscriber transmitter operating a redundant unit. There is this.

Claims (1)

In the subscriber transmission apparatus including a working unit having a plurality of connectors CON1-CON2 and a standby unit having a plurality of connectors CON3 to CON4, the relative unit hernia recognition circuit at the time of unit switching is provided. A current loop is formed between the connector CON3 of the standby unit through the connector CON1-CON2 of the working unit, and grounded, and a pull-up resistor is connected to the current loop line of the connector CON3 to be connected to the power supply terminal Vcc. An inverter is connected to a pull-up resistor and connected to one input terminal of the AND gate, and another unit failure signal is applied to the other input terminal of the AND gate, and the output terminal of the AND gate is connected to an enable terminal OE of the buffer. Relative unit hernia recognition circuit when switching the redundant unit in the subscriber transmission device, characterized in that the standby unit is switched to use as a working unit when the buffer is enabled.