KR950004368Y1 - Low noise block source switching circuit - Google Patents

Abstract

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Description

Low Noise Block Power Switching Circuit

1 is a conventional low noise block power supply switching circuit diagram.

2 is a circuit diagram showing an embodiment of a low-capacity block power supply switching circuit according to the present invention.

* Explanation of symbols for main parts of the drawings

10: satellite receiver 30: switching control

35: relay L, L1, L2: inductor

D1: switching diode Q1: transistor

R1, R2: Resistor ZD1, ZD2: Zener Diode

C: Capacitor

This design relates to a low noise block (LNB) power switching circuit. More specifically, when two LNBs are used, the satellite receiver supplies a plurality of powers to supply different voltages. The present invention relates to a low noise block power switching circuit that receives a satellite signal by controlling only one LNB to be selected.

A conventional low noise block power supply switching circuit diagram is shown in FIG. 1, and the relay 25 of the switching control unit 20 includes a movable terminal c, two fixed terminals a, b, and a driving coil. A capacitor C is connected to the movable terminal c, and the capacitor C is connected to a power supply line of the satellite receiver 10.

At this time, the power supply line is a coaxial cable.

The fixed terminal (a) is connected to the LNB1 and the fixed terminal (b) is connected to the LNB2. One terminal (d) of the driving coil is connected to the control signal line of the satellite receiver 10 and the other terminal (e) is connected to the ground of the satellite receiver 10. An inductor L1 is connected to the contact between the fixed terminal a and the LNB1 at the contact between the satellite receiver 10 and the capacitor C, and between the satellite receiver 10 and the capacitor C. The inductor L2 is connected to the contact between the fixed terminal b and the LNB2 at the contact.

In the conventional low noise block cloud switching circuit configured as described above, a power supply (eg, 18V) of 14V or more output from the satellite receiver 10 is simultaneously supplied to the LNB1 and the LNB2 through the inductors L1 and L2. When 12V is input according to the control signal of the satellite receiver 10, the relay 25 drives and selects LNB2 to receive the satellite signal, and when the ground line 0V is input, the relay 25 does not drive, so LNB1 is selected and the satellite You will receive a signal.

In the conventional circuit described above, since 18V power is simultaneously supplied to the first LNB1 and the LNB2, the power loss is more than twice as large, and the installation is inconvenient because the control line is connected to the switching controller 20 in addition to the second power supply line. Satellite signals of LNB2 and LNB2 are in the same frequency band above 950MHz ~ 1750MHz. Since 18V power is supplied to LNB1 and LNB2 at the same time, there is a problem that the isolation is lowered and the picture quality deteriorates due to mutual interference.

This invention is to solve the above problems, and the purpose of this invention is to use not only the power supply but also the control signal by using multiple power sources (18 / 14V) of more than 14V in the satellite receiver, so that only one LNB It can be controlled to supply power selectively, so it is easy to install because there is little power loss and control lines are eliminated, and the separation is improved by eliminating interference of signals from each LNB to provide high quality low noise block power switching circuit. have.

A feature of the low noise block power switching circuit according to the present invention for achieving the above object is a plurality of low noise blocks for low noise and high amplification of a radio wave received by an antenna at a predetermined frequency and an output from a low noise block selected from the plurality of low noise blocks. A low noise block power switching circuit comprising a satellite receiver for receiving a satellite signal to select a channel and outputting audio and video signals of a selected channel to an audio / video set. Connected to the satellite receiver and switched according to a plurality of power sources above a predetermined voltage provided from the satellite receiver through a power supply line to select LNB1 or LNB2, and supply a voltage provided from the satellite receiver to a selected low noise block; Satellite broadcasting output from the supplied low-noise block The switching control unit for outputting to the satellite receiver via the power supply line is provided.

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

FIG. 2 is a low noise block power switching circuit diagram according to the present invention. The satellite receiver 10 supplies 18V or 14V power through a single power supply line of coaxial cable and receives satellite signals from selected LNBs (LNB1, LNB2). ) And a switching control unit 30 connected to a power supply line of the satellite receiver 10 and selecting LNB1 or LNB2 according to a voltage value input through the power supply line.

The switching control unit 30 is connected to the power supply line made of the coaxial cable to the movable terminal c of the relay 35, and LNB1 and LNB2 are connected to the fixed terminals a and b.

In addition, at one contact point of the power supply line of the satellite receiver 10, an inductor L, a resistor R1, and a zener diode ZD1 for a constant voltage are connected in series to a ground terminal, and the resistor R1 and a zener diode ( The contact between ZD1 and one terminal (d) of the driving coil are connected, and the other terminal (e) of the driving coil and the collector of the transistor (Q1) are connected.

The emitter of the transistor Q1 is grounded, and a zener diode ZD2 and a resistor R2 are connected to the base of the transistor Q1 at the contact between the inductor L and the resistor R1.

In this case, assuming that the plurality of powers supplied through the power supply line is 14V / 18V, the zener diode ZD1 may be used for 12V and the zener diode ZD2 may be used for 15V.

This design configured as described above is assumed to output 18V or 14V to the switching control unit 30 by a plurality of power sources in the satellite receiver 10.

At this time, if 14V is supplied to the switching controller 30, the zener diode ZD2 is turned off because of the 15V, and thus the transistor Q1 is also turned off, so that the relay 35 does not drive and thus the movable terminal c of the relay 35 is It is connected to the fixed terminal (a).

Therefore, since the 14V is supplied to the LNB1, the satellite receiver 10 receives the satellite signal output from the LNB1 through a power supply line and selects a corresponding channel.

Meanwhile, if 18V is supplied to the switching controller 30, the zener diode ZD2 is turned on and the transistor Q1 is turned on, so that the relay 35 is driven so that the movable terminal c of the relay 35 is the fixed terminal b. Is switched to.

Therefore, since the 18V is supplied to the LNB2, the satellite receiver 10 receives the satellite signal output from the LNB2.

As described above, according to the low noise block power switching circuit according to the present invention, the satellite receiver selectively outputs multiple power sources of 18 V or 14 V to the switching control unit through a power supply line, and the switching control unit according to multiple power sources of 18 V or 14 V. After selecting one of the two LNBs, the corresponding power is supplied to the selected LNB, and the satellite receiver outputted from the powered LNB is received by the satellite receiver through the power supply line, thereby powering only one LNB through the power supply line. The power supply reduces power consumption, improves separation by eliminating mutual interference between two LNBs, and improves image quality. Since there is no need for a separate control line, installation is easy.

Claims (2)

A channel is selected by receiving satellite signals output from a plurality of low noise blocks LNB1 and LNB2 for low noise and high amplification of a radio wave received at a predetermined frequency, and a selected low noise block among the plurality of low noise blocks LNB1 and LNB2. And a satellite receiver for outputting audio and video signals of a selected channel to an audio / video set, the low noise block power switching circuit being connected to the satellite receiver via a single power supply line of a coaxial cable. Satellite broadcasting outputted from the low-noise block supplied with voltage by switching from a receiver according to a plurality of powers above a predetermined voltage provided through a power supply line to select LNB1 or LNB2, supplying the voltage provided from the satellite receiver to the selected low-noise block, and Switching control unit for outputting to the satellite receiver through the power supply line That the low noise block power supply switching circuit according to claim. The relay of claim 1, wherein a switching device is connected between a power supply line of the satellite receiver and the plurality of low noise blocks LNB1 and LNB2 to switch to LNB1 or LNB2 according to excitation of a driving coil. A zener diode for constant voltage connected to a power supply line of a receiver through an inductor and a resistor, a zener diode connected to a contact between the inductor and a resistor and turned on / off according to a plurality of powers supplied from a satellite receiver through the power supply line; The base is connected to the zener diode through a resistor, the emitter is grounded, and the collector is connected to the drive coil of the Gillay, and is turned on / off according to the on / off of the zener diode to a transistor for exciting the drive coil of the relay. A low noise block power switching circuit, characterized in that made.