KR19990055697A - Redundant device and control method of beacon receiver - Google Patents

Abstract

The present invention relates to a beacon receiver, which receives a beacon signal transmitted from a satellite and outputs a DC voltage signal (d, d ') and a check signal (e, e') for determining whether a failure has occurred in the beacon signal. Receives a DC voltage signal (d, d ') and a check signal (e, e') output from the receiver 10 and the preliminary beacon receiver 20 and the main beacon receiver 10 and the preliminary beacon receiver 20. And a redundancy control unit 30 for outputting a control voltage and an uplink power control unit 40 for outputting data according to the control voltage output from the redundancy control unit 30, thereby causing a beacon receiver to be redundantly generated. The present invention relates to a duplexing device and a control method of a beacon receiver capable of preventing damage to satellites and interference of adjacent channels by controlling uplink power due to a failure of the beacon receiver.

Description

Redundant device and control method of beacon receiver

The present invention relates to a beacon receiver, and in particular, in the event of a failure of the beacon receiver caused by accidental duplication of the beacon receiver, thereby controlling the power of the uplink thereby preventing damage to satellites and interference of adjacent channels. A redundancy device and a control method are provided.

Conventionally, when a single beacon signal is received from a satellite and the beacon signal is not accurately received due to disturbances of various environments, the data cannot be accurately transmitted to the satellite because the uplink power transmitted from each earth station is not accurately controlled. There was this.

The present invention for solving the above problems, the beacon signal received from the satellite is received by the dual, and by continuously determining whether the beacon signal is normally input can maintain a constant power output from the earth station to the satellite at all times A redundant control apparatus and method for a beacon receiver are provided.

Redundancy control device of the beacon receiver of the present invention for achieving the above object, receiving a beacon signal transmitted from the satellite check signal for determining whether the DC voltage signal (d, d ') and the beacon signal has a failure ( e, e ') outputs a main beacon receiver and a preliminary beacon receiver, and receives and controls the DC voltage signals (d, d') and check signals (e, e ') output from the main beacon receiver and the preliminary beacon receiver. And a redundancy control unit for outputting a voltage, and an uplink power control unit for outputting data to satellites by a control voltage output from the redundancy control unit.

Redundancy control method of the beacon receiver of the present invention for achieving the above object, in the name to control the uplink power, receiving a beacon signal from the satellite from the main beacon receiver and the spare beacon receiver DC voltage signal and beacon signal Outputting a check signal to check whether there is an error of the signal, receiving a check signal (e, e ') output from the main beacon receiver and the preliminary beacon receiver, and switching the voltage signal in a redundancy control unit; The redundant control unit may transmit data to the satellite without error by the switched voltage.

1 is a schematic block diagram of a redundancy apparatus of a beacon receiver of the present invention,

2 is a detailed block diagram of the redundant control unit of the present invention.

<Description of the symbols for the main parts of the drawings>

10: primary beacon receiver 20: spare beacon receiver

30: redundancy control unit 31: first analog switch

32: second analog switch 33: third analog switch

34: NAND Gate 35: Dip Switch

36: voltage divider 37: analog mux

Referring to the accompanying drawings and the control method of the beacon receiver of the present invention in detail as follows.

FIG. 2 is a block diagram schematically illustrating a redundancy apparatus of a beacon receiver of the present invention, and receives a beacon signal transmitted from a satellite (not shown) to determine whether a DC voltage signal (d, d ') and the beacon signal are disturbed. The main beacon receiver 10 and the preliminary beacon receiver 20 for outputting the check signals (e, e '), and the DC voltage signals d, output from the main beacon receiver 10 and the preliminary beacon receiver 20, d ') and a redundancy control unit 30 which receives the check signals e and e' and outputs a control voltage, and an uplink power control unit which transmits data to satellites by the control voltage output from the redundancy control unit 30. It consists of 40.

The redundancy control unit 30 compares the uplink power control voltage of the main beacon receiver 10 with the uplink power control voltage of the spare beacon receiver 20 and the spare beacon receiver 20 operates normally. A first analog switch 31 for selecting an uplink power control voltage of the receiver 20, a voltage selected and output from the first analog switch 31 and an uplink power control voltage of the main beacon receiver 10; A second analog switch 32 for switching and receiving a voltage, a voltage divider 36 for distributing a voltage, and a dip connected to a power supply voltage for outputting a voltage output from the voltage divider 36 ( DIP) switch 35, an analog mux 37 for multiplexing the voltage output from the voltage divider 36 by a selection signal of the dip switch 35, and the main beacon receiver 10 and a spare. A NAND gate 34 for receiving a NAND check signal (e, e ') for checking whether a beacon signal output from the cone receiver 20 is normally output, a signal output from the analog mux 37, and The third analog switch 33 receives a signal output from the second analog switch 32 and switches by a signal output from the NAND gate 34.

The first, second and third analog switches 31, 32, and 33 have an output signal A when the control signal s is high, and an output signal B when the control signal is low, and a beacon receiver. When the specific operation state of the redundancy control unit 30 of the operation is as shown in Table 1 shown below.

Table 1

State of primary beacon receiver (e) Reserved Beacon Receiver Status (e ') Selection signal (b) Normal operation (low) Normal operation (low) Control voltage output of the main beacon receiver Overwind action (low) Alarm action (high) Control voltage output of the main beacon receiver Alarm state (high) Normal operation (low) Control voltage output of spare beacon receiver Alarm state (high) Alarm state (high) User-defined control voltage

When described in detail with reference to the accompanying drawings, the operation, effects of the present invention configured as described above are as follows.

When the main beacon receiver 10 and the preliminary beacon receiver 20 receiving the beacon signal from the satellite (not shown) output the DC voltage signals d and d 'and the beacon signal check signals e and e', The control unit 30 performs the DC voltage signal d when the preliminary beacon receiver 20 normally operates among the DC voltage signals d and d ′ output from the main beacon receiver 10 and the preliminary beacon receiver 20. ), And if the preliminary beacon receiver 20 does not operate normally, the DC voltage signal d 'is selected.

Then, in the second analog switch 32, the signal output from the first analog switch 31 is input to the terminal A, and the DC beacon signal of the main beacon receiver 10 is input to the terminal B. If the receiver 10 operates normally, the A signal is selected. If the receiver 10 operates abnormally, the B signal is selected.

The signal output from the second analog switch 32 is input to the terminal of the third analog switch 33, and is multiplexed by the analog mux 37 after the voltage is divided by the voltage divider 36. After receiving the output signal, the signal A or B is selected and output by the signal output from the NAND gate 34.

As such, the control signal output from the third analog switch 33 is input to and controlled by the uplink power controller 40 so that the data signal input to the uplink power controller 40 is transmitted to the satellite.

The redundant device and control method of the beacon receiver of the present invention configured as described above, the main beacon receiver and the preliminary beacon receiver receiving the beacon signal transmitted from the satellite, and the DC voltage signal output from the main beacon receiver and the preliminary beacon receiver; By using the beacon signal check signal, the beacon signal is received in duplicate to accurately control the power of uplink transmitted from the earth station to the satellite, thereby reducing data loss due to the error of uplink power control, and also between satellite transponders and adjacent channels. It is an invention that can minimize the impact.

Claims (6)

A main beacon receiver and a spare beacon receiver for receiving a beacon signal transmitted from the satellite and outputting a DC voltage signal (d, d ') and a check signal (e, e') for determining whether the beacon signal has failed. A redundancy control unit for receiving a DC voltage signal (d, d ') and a check signal (e, e') output from the beacon receiver and the preliminary beacon receiver and outputting a control voltage, and a satellite by the control voltage output from the redundancy control unit. Redundant device of the beacon receiver, characterized in that consisting of the uplink power control unit for outputting data. 2. The voltage controller of claim 1, wherein the redundancy control unit comprises: a first analog switch for switching an uplink power control voltage of the main beacon receiver and an uplink power control voltage of the spare beacon receiver, and a voltage selected and output from the first analog switch And a second analog switch configured to switch by receiving an uplink power control voltage of the main beacon receiver, a voltage divider for distributing a voltage, and a voltage connected to a power supply voltage to select a voltage output from the voltage divider. A check signal for checking whether a dip switch, an analog mux multiplexing the voltage output from the voltage divider by a selection signal of the dip switch, and a beacon signal output from the main beacon receiver and the preliminary beacon receiver are normally output. A NAND gate to receive and output an NAND signal, Receives the signal output from the multiplexer and log signal from the second analog switch redundant controller of the beacon receiver, it characterized in that it is composed of three analog switches to switch by a signal output from the NAND gate. The redundancy apparatus of claim 2, wherein the first analog switch switches an uplink power control voltage of the spare beacon receiver when the spare beacon receiver operates normally. The redundancy apparatus of claim 2, wherein the second analog switch switches a signal output from the first analog switch when the main beacon receiver operates normally. 3. The method of claim 2, wherein the third analog switch switches the signal input to the terminal A when the signal output from the NAND gate is high, and the voltage output from the analog mux when the signal is low. Redundant device of the beacon receiver. A method of controlling redundancy of a beacon receiver for controlling uplink power, the method comprising: receiving a beacon signal from a satellite and outputting a check signal to check whether a DC voltage signal and a beacon signal are error in the main beacon receiver and the spare beacon receiver; Receiving a check signal output from the main beacon receiver and the preliminary beacon receiver, switching the voltage signal in a redundancy control unit, and transmitting data to the satellite without error by the voltage switched in the redundancy control unit; Redundancy control method of the beacon receiver.