KR100764371B1 - Signal selection circuit for multi-broadcasting receiver - Google Patents

Abstract

A broadcasting signal selection circuit for a multi-broadcasting receiver is provided to remove additional operation power, reduce current consumption, and improve an isolation characteristic in an RF(Radio Frequency) in comparison to an existing relay. A switching control unit(50) controls the first RF broadcasting selection or the second RF broadcasting selection according to a broadcasting selection signal. The first switching circuit unit(100) selects the first RF broadcasting signal through the first input terminal and outputs the selected first RF broadcasting signal to an output terminal according to the first RF broadcasting selection control of the switching control unit(50). The second switching circuit unit(200) selects the second RF broadcasting signal through the second input terminal and outputs the selected second RF broadcasting signal to an output terminal according to the second RF broadcasting selection control of the switching control unit(50). One of a plurality of broadcasting signals is selected by using one broadcasting selection signal. The switching control unit(50) includes the first control unit and the second control unit. The first control unit generates the first switching signal having a high or low level according to the broadcasting selection signal. The second control unit generates the second switching signal having a low or high level different from the level of the first switching signal according to the broadcasting selection signal.

Description

SIGNAL SELECTION CIRCUIT FOR MULTI-BROADCASTING RECEIVER}

1 is a block diagram of a broadcast signal selection circuit for a conventional multi-broadcast receiver.

2 is a block diagram of a broadcast signal selection circuit for a multi-broadcast receiver according to the present invention;

3 is a configuration diagram of the switching controller of FIG. 2.

4 is a configuration diagram of a switching circuit of FIG. 2.

FIG. 5 is a detailed circuit diagram of the switching circuit part of FIG. 2. FIG.

6 is a graph of isolation characteristics of a broadcast signal selection circuit according to the present invention;

Explanation of symbols on the main parts of the drawings

50: switching controller 51: first controller

52: second control unit 100: first switching circuit unit

200: second switching circuit section SC: broadcast selection signal

IN1: first input terminal IN2: second input terminal

OUT: Output stage RF1: First RF broadcast signal

RF2: second RF broadcast signal SS1: first switching signal

SS2: second switching signal SW1: first switch

SW2: second switch SW3: third switch

SW4: fourth switch D11: first diode

D12: second diode D21: third diode

D22: fourth diode R1: first resistor

R2: second resistor

The present invention relates to a broadcast signal selection circuit applied to a multi-broadcast receiver, and in particular, by implementing a circuit for selecting a plurality of RF broadcast signals such as cable broadcasting or over-the-air broadcasting with low power and high performance, a separate operating power source compared to a conventional relay. The present invention relates to a broadcast signal selection circuit for a multi-broadcast receiver, which does not need, low current consumption, and can improve isolation characteristics by RF.

In general, as the number of broadcast service providers increases, a multi-broadcast receiver capable of receiving a plurality of broadcast signals and selecting an arbitrary broadcast from among a plurality of broadcasts to watch a desired broadcast is being developed.

In order to improve the isolation between the plurality of broadcast signals by eliminating interference between the plurality of broadcast signals, the multi-broadcast receiver employs a selection circuit (also called a switch box) for selecting an arbitrary broadcast signal from a plurality of received broadcast signals. It is included.

1 is a block diagram of a broadcast signal selection circuit for a conventional multi-broadcast receiver.

The broadcast signal selection circuit 10 for a conventional multi-broadcast receiver shown in FIG. 1 includes a first RF signal RFin1 received through a first antenna ANT1 and a second signal received through a second antenna ANT2. The relay RY selects the RF signal RFin2 and outputs the selected RF signal RFout to the tuner.

The relay performs a switching operation of selecting a contact point or b contact point according to a current supplied by a separate operating power source, thereby selecting a first RF broadcast signal through the contact point a or through the b contact point. The second RF broadcast signal may be selected.

However, since the conventional broadcast signal selection circuit uses a relay, a separate operation power is required, and thus its configuration is complicated, which causes a separate current consumption.

In addition, since the RF broadcast signal having a high frequency has a characteristic of being induced into the air, when switching the RF broadcast signal with a relay, there is a problem in that isolation characteristics between a plurality of RF broadcast signals are inferior.

The present invention has been proposed to solve the above problems, and its object is to implement a circuit for selecting a plurality of RF broadcast signals such as cable broadcasting or over-the-air broadcasting with low power and high performance. There is a need to provide a broadcast signal selection circuit for a multi-broadcast receiver, which is not required, has low current consumption, and can improve isolation characteristics by RF.

In order to achieve the above object of the present invention, a broadcast signal selection circuit for a multi-broadcast receiver, the switching control unit for controlling the first RF broadcast selection or the second RF broadcast selection in accordance with the broadcast selection signal; A first switching circuit unit for selecting a first RF broadcast signal through a first input terminal and outputting the first RF broadcast signal to an output terminal according to the first RF broadcast selection control of the switching controller; And a second switching circuit configured to select a second RF broadcast signal through a second input terminal and output the second RF broadcast signal to the output terminal according to the second RF broadcast selection control of the switching controller. It is characterized by selecting one of the broadcast signals.

The switching controller may include a first controller configured to generate a first switching signal having a high level or a low level according to the broadcast selection signal; And a second controller configured to generate a second switching signal having a low level or a high level different from a level of the first switching signal according to the broadcast selection signal.

The first control unit may include: a first transistor having a base connected to the broadcast selection signal terminal through a bias resistor and an emitter connected to ground; And a second transistor having a base connected to a collector of the first transistor through a bias resistor, a collector connected to an operating voltage terminal, and an emitter terminal connected to the first switching signal terminal.

The second controller may include a base connected to the broadcast selection signal terminal through a bias resistor, an emitter connected to ground, a bias resistor connected to the operating voltage terminal, and a bias resistor connected to the second switching signal terminal. And a third transistor having a collector stage.

The first switching circuit unit may include: a first switch connected to a signal line between the first input terminal and the output terminal and switched by the first switching signal; And a second switch connected between the signal line and ground and switched by the second switching signal.

The second switching circuit unit may include: a third switch connected to a signal line between the second input terminal and the output terminal and switched by the second switching signal; And a fourth switch connected between the signal line and the ground and switched by the first switching signal.

The first switching circuit unit may include a plurality of switching circuits connected in series between the first input terminal and the output terminal.

Each switching circuit of the first switching circuit unit may include: a first diode having an anode connected to the first input terminal and connected to the first switching signal terminal, and a cathode connected to the output terminal; A second diode having an anode connected to the cathode of the first diode and connected to the second switching signal terminal, and a cathode connected to ground; And a first resistor connected between the cathode terminal of the first diode and the ground.

The second switching circuit unit may include a plurality of switching circuits connected in series between the first input terminal and the output terminal.

Each switching circuit of the second switching circuit unit may include: a third diode having an anode connected to the second input terminal and connected to the second switching signal terminal, and a cathode connected to the output terminal; A fourth diode having an anode connected to the cathode of the third diode and connected to the first switching signal terminal, and a cathode connected to ground; And a second resistor connected between the cathode terminal of the third diode and the ground.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

2 is a block diagram of a broadcast signal selection circuit for a multi-broadcast receiver according to the present invention.

2, the broadcast signal selection circuit for a multi-broadcast receiver according to the present invention, the switching control unit 50 for controlling the first RF broadcast selection or the second RF broadcast selection according to the broadcast selection signal (SC), A first switching circuit unit 100 for selecting and outputting the first RF broadcast signal RF1 through the first input terminal IN1 to the output terminal OUT according to the first RF broadcast selection control of the switching controller 50; The second switching circuit unit 200 which selects the second RF broadcast signal RF2 through the second input terminal IN2 and outputs it to the output terminal OUT according to the second RF broadcast selection control of the switching controller 50. Include.

In addition, the first switching circuit unit 100 may include a plurality of switching circuits 110 connected in series between the first input terminal IN1 and the output terminal OUT, and the second switching circuit unit 200. ) May include a plurality of switching circuits 210 connected in series between the second input terminal IN2 and the output terminal OUT.

The input and output sides of the first switching circuit unit 100 include coupling capacitors C11 and C12 and the coupling capacitors C21 and C22 on the input and output sides of the second switching circuit unit 200. do.

The switching controller 50 controls the first switching circuit unit 1100 and the second switching circuit unit 200 by using the first and second switching signals SS1 and SS2. That is, the broadcast signal selection circuit of the present invention selects one of a plurality of broadcast signals input through a plurality of input terminals by using the one broadcast selection signal SC and outputs it to one output terminal.

3 is a configuration diagram of the switching controller of FIG. 2.

Referring to FIG. 3, the switching controller 50 may include a first controller 51 generating a first switching signal SS1 having a high level or a low level according to the broadcast selection signal SC, and the broadcast. The second control unit 52 generates a second switching signal SS2 having a low level or a high level different from the level of the first switching signal SS1 according to the selection signal SC.

The switching controller 50 controls the operations of the first switching circuit unit 100 and the second switching circuit unit 200 by using the first switching signal SS1 and the second switching signal SS2. .

In addition, a specific implementation example of the first control unit 51 and the second control unit 52 will be described.

The first controller 51 includes a first transistor Q10 having a base connected to the broadcast selection signal SC via via resistors R11 and R12, an emitter connected to ground, and the first transistor. A second transistor Q20 having a base connected to the collector of Q10 through a bias resistor R13, a collector connected to an operating voltage B + terminal, and an emitter terminal connected to the first switching signal SS1 terminal Include.

The second controller 52 may include a base connected to the broadcast selection signal SC through via resistors R21 and R22, an emitter connected to ground, and a bias resistor R23 through the operating voltage B +. And a third transistor Q30 having a collector terminal connected to the second switching signal SS2 through a bias resistor R24.

4 is a configuration diagram of a switching circuit of FIG. 2.

Referring to FIG. 4, the first switching circuit unit 100 is connected to a signal line SL between the first input terminal IN1 and the output terminal OUT, and is switched by the first switching signal SS1. The first switch SW1 and a second switch SW2 connected between the signal line SL and the ground and switched by the second switching signal SS2 are included.

The second switching circuit unit 200 is connected to the signal line SL between the second input terminal IN2 and the output terminal OUT, and is switched by the second switching signal SS2. ) And a fourth switch SW4 connected between the signal line SL and the ground and switched by the first switching signal SS1.

5 is a detailed circuit diagram of the switching circuit unit of FIG. 2.

Referring to FIG. 5, each switching circuit 110 of the first switching circuit unit 100 is connected to the first input terminal IN1 and connected to the first switching signal SS1 through a resistor R11. A first diode D11 having an anode, a cathode connected to the output terminal OUT, and a cathode of the first diode D11 and connected to the second switching signal SS2 through a resistor R12. A second diode D12 having an anode, a cathode connected to ground, and a first resistor R1 connected between the cathode terminal of the first diode D11 and ground.

In addition, the switching circuit 110 of the first switching circuit unit 100 may include a capacitor C10 connected between the signal line SL connected to the first diode D11 and the anode of the second diode D12. It may further include. The capacitor C10 is used for high frequency coupling.

Referring back to FIG. 5, each switching circuit 210 of the second switching circuit unit 200 is connected to the second input terminal IN2 and connected to the second switching signal SS2 through a resistor R21. A third diode D21 having a connected anode, a cathode connected to the output terminal OUT, and a cathode of the third diode D21 and connected to the first switching signal SS1 through a resistor R22. And a fourth diode D22 having a connected anode, a cathode connected to ground, and a second resistor R2 connected between the cathode terminal of the third diode D21 and ground.

In addition, the switching circuit 210 of the second switching circuit unit 200 may include a capacitor C20 connected between the signal line SL connected to the third diode D21 and the anode of the fourth diode D22. It may further include. The capacitor C20 is used for high frequency coupling.

FIG. 6 is a graph of isolation characteristics of the broadcast signal selection circuit according to the present invention. In FIG. 6, G1 is attenuation rate for the case of using a conventional relay, and G2 is attenuation rate for the case of using the broadcast signal selection circuit according to the present invention. .

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

A process of selecting an arbitrary broadcast signal among a plurality of broadcast signals in the broadcast signal selection circuit for a multi-broadcast receiver according to the present invention will be described with reference to FIGS.

First, referring to FIG. 2, in the broadcast signal selection circuit for a multi-broadcast receiver according to the present invention, the switching controller 50 of the present invention is configured to provide a first switch to the first switching circuit unit 100 according to the broadcast selection signal SC. The RF broadcast selection is controlled or the second switching circuit unit 200 controls the second RF broadcast selection.

That is, the first switching circuit unit 100 selects the first RF broadcast signal RF1 through the first input terminal IN1 according to the first RF broadcast selection control of the switching controller 50 to output the output OUT. Or the second switching circuit unit 200 selects the second RF broadcast signal RF2 through the second input terminal IN2 according to the second RF broadcast selection control of the switching controller 50. Output to the output terminal (OUT).

Through this process, the first RF broadcast or the second RF broadcast is selected by the first switching circuit unit 100 and the second switching circuit unit 200.

As shown in FIG. 3, the switching controller 50 may include a first controller 51 and a second controller 52, which will be described with reference to FIG. 3.

Referring to FIG. 3, the first control unit 51 of the switching control unit 50 generates a first switching signal SS1 having a high level or a low level according to the broadcast selection signal SC. The second control unit 52 of the switching control unit 50 supplies a second switching signal SS2 having a low level or a high level different from that of the first switching signal SS1 according to the broadcast selection signal SC. Create

For example, when the first switching signal SS1 is at a high level, the second switching signal SS2 is at a low level by the first controller 51 and the second controller 52. Alternatively, when the first switching signal SS1 is at a low level, the second switching signal SS2 is at a high level.

Hereinafter, the first switching circuit unit 100 and the second switching circuit unit 100 of the present invention will be described with reference to FIG. 4.

Referring to FIG. 4, the first switch SW1 and the second switch SW2 of the first switching circuit unit 100 are turned on / off by the first switching signal SS1 and the second switching signal SS2. Or off / on operation. The third switch SW3 and the fourth switch SW4 of the second switching circuit unit 200 are turned on / off or on / off by the second switching signal SS2 and the first switching signal SS1. It works.

For example, when the first switching signal SS1 and the second switching signal SS2 are high level and low level, respectively, the first switch SW1 and the second switch SW2 are turned on / off, respectively. The first RF broadcast signal RF1 is selected, and at the same time, the third switch SW3 and the fourth switch SW4 are turned off / on to block the second RF broadcast signal RF2. .

Alternatively, when the first switching signal SS1 and the second switching signal SS2 are low level and high level, respectively, the first switch SW1 and the second switch SW2 are turned off / on, respectively. The first RF broadcast signal RF1 is blocked, and at the same time, the third switch SW3 and the fourth switch SW4 are turned on and off, respectively, to select the second RF broadcast signal RF2. .

5, a detailed embodiment of the first switching circuit unit 100 and the second switching circuit unit 200 will be described.

As an example, the case where the first switching signal SS1 and the second switching signal SS2 are high level and low level will be described.

First, when the first switching signal SS1 having the high level is supplied to the anode of the first diode D11, the first diode D11 is turned on and the second switching signal SS2 having the low level is the second. When supplied to the anode of the diode D12, the second diode D12 is turned off. Accordingly, the first RF broadcast signal RF1 is selected by the first diode D11 that is turned on.

At the same time, when the low level second switching signal SS2 is supplied to the anode of the third diode D21, the third diode D21 is turned off, and the high level first switching signal SS1 is turned on. When the fourth diode D22 is supplied to the anode of the fourth diode D22, the fourth diode D22 is turned on. Accordingly, the second RF broadcast signal RF1 is blocked by the third diode D21 that is turned off.

In addition, since the second RF signal RF2 is bypassed to the ground by the fourth diode D22 that is turned on, the signal blocking characteristic is improved by the capacitor C20 and the fourth diode D22.

Here, the first resistor R1 forms a ground loop at the turn-on voltage of the first diode D11, and the resistors R11 and R12 are bias resistors.

As another example, a case in which the first switching signal SS1 and the second switching signal SS2 are low level and high level will be described with reference to FIG. 5.

First, when the low level first switching signal SS1 is supplied to the anode of the first diode D11, the first diode D11 is turned off, and the high level second switching signal SS2 is set to the second level. When supplied to the anode of the second diode D12, the second diode D12 is turned on. Accordingly, the first RF broadcast signal RF1 is blocked by the first diode D11 that is turned off.

In addition, since the first RF signal RF1 is bypassed to the ground by the second diode D12 that is turned on, the signal blocking characteristic is improved by the capacitor C10 and the second diode D12.

At the same time, when the second switching signal SS2 having the high level is supplied to the anode of the third diode D21, the third diode D21 is turned on, and the first switching signal SS1 having the low level is turned on. When the fourth diode D22 is supplied to the anode of the fourth diode D22, the fourth diode D22 is turned off. Accordingly, the second RF broadcast signal RF1 is selected by the third diode D21 and the fourth diode D22.

Here, the second resistor R2 forms a ground loop at the turn-on voltage of the third diode D21, and the resistors R21 and R22 are bias resistors.

As described above, when the first switching circuit unit 100 and the second switching circuit unit 200 of the present invention are used, the first RF broadcast signal RF1 and the second RF broadcast signal are compared with the case of using a conventional relay. Isolation characteristics between (RF2) can be improved, which will be described with reference to FIG. 5.

Referring to FIG. 5, when the first switching circuit unit 100 includes a plurality of switching circuits 110 and the second switching circuit unit 200 includes a plurality of switching circuits 210, the first switching circuit unit 100 includes a plurality of switching circuits 210. The isolation characteristic between the first RF broadcast signal RF1 and the second RF broadcast signal RF2 can be further improved.

As shown in Fig. 5, referring to the attenuation rate G2 for the case of using the broadcast signal selection circuit according to the present invention, it is about 20 [dB] or more improvement compared to the attenuation rate G1 for the case of using the conventional relay. Able to know.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, but is defined by the claims, and the apparatus of the present invention may have various substitutions, modifications and It is apparent to those skilled in the art that modifications are possible.

According to the present invention as described above, in the broadcast signal selection circuit applied to the multi-broadcast receiver, by implementing a circuit for selecting a plurality of RF broadcast signals such as cable broadcasting or over-the-air broadcasting with low power and high performance, compared to the conventional relay, No power supply is required, low current consumption, and the effect of improving the isolation characteristics by RF.

Claims (10)

A switching control unit controlling a first RF broadcast selection or a second RF broadcast selection according to a broadcast selection signal; A first switching circuit unit for selecting a first RF broadcast signal through a first input terminal and outputting the first RF broadcast signal to an output terminal according to the first RF broadcast selection control of the switching controller; And And a second switching circuit unit for selecting a second RF broadcast signal through a second input terminal and outputting the second RF broadcast signal to the output terminal according to the second RF broadcast selection control of the switching controller. Select one of the plurality of broadcast signals using the one broadcast selection signal, The switching controller may include a first controller configured to generate a first switching signal having a high level or a low level according to the broadcast selection signal; And a second controller configured to generate a second switching signal having a low level or a high level different from the level of the first switching signal according to the broadcast selection signal. delete The method of claim 1, wherein the first control unit, A first transistor having a base connected to the broadcast selection signal terminal through a bias resistor and an emitter connected to ground; And A second transistor having a base connected to a collector of the first transistor through a bias resistor, a collector connected to an operating voltage terminal, and an emitter terminal connected to the first switching signal terminal Broadcast signal selection circuit for a multi-broadcast receiver comprising a. The method of claim 3, wherein the second control unit, A third terminal having a base connected to the broadcast selection signal terminal through a bias resistor, an emitter connected to ground, and a collector terminal connected to the operating voltage terminal through a bias resistor and connected to the second switching signal terminal through a bias resistor; Broadcast signal selection circuit for a multi-broadcast receiver, characterized in that it comprises a transistor. The method of claim 1, wherein the first switching circuit unit, A first switch connected to the signal line between the first input terminal and the output terminal and switched by the first switching signal; And A second switch connected between the signal line and ground and switched by the second switching signal Broadcast signal selection circuit for a multi-broadcast receiver comprising a. The method of claim 5, wherein the second switching circuit unit, A third switch connected to the signal line between the second input terminal and the output terminal and switched by the second switching signal; And A fourth switch connected between the signal line and ground and switched by the first switching signal Broadcast signal selection circuit for a multi-broadcast receiver comprising a. The method of claim 1, wherein the first switching circuit unit, And a plurality of switching circuits connected in series between the first input terminal and the output terminal. The method of claim 7, wherein each switching circuit of the first switching circuit portion, A first diode having an anode connected to the first input terminal and connected to the first switching signal terminal and a cathode connected to the output terminal; A second diode having an anode connected to the cathode of the first diode and connected to the second switching signal terminal, and a cathode connected to ground; And A first resistor connected between the cathode end of the first diode and ground Broadcast signal selection circuit for a multi-broadcast receiver comprising a The method of claim 8, wherein the second switching circuit unit, And a plurality of switching circuits connected in series between the first input terminal and the output terminal. 10. The method of claim 9, wherein each switching circuit of the second switching circuit portion, A third diode having an anode connected to the second input terminal and connected to the second switching signal terminal, and a cathode connected to the output terminal; A fourth diode having an anode connected to the cathode of the third diode and connected to the first switching signal terminal, and a cathode connected to ground; And A second resistor connected between the cathode end of the third diode and ground Broadcast signal selection circuit for a multi-broadcast receiver comprising a

Images