KR100665362B1 - Loop-through circuit of digital cable TV tuner - Google Patents

Abstract

The present invention realizes a level specification of an analog terrestrial TV signal irrespective of the power supply of a digital cable TV tuner so that a digital cable TV tuner To-loop circuit,

The loop-through circuit of the digital cable TV tuner of the present invention is included in the digital cable TV tuner 100 and includes a loop-through circuit 110 for outputting an RF signal through an RF input terminal RFin via an RF output terminal RFout A low noise amplifier 111 connected to a first signal path SP1 between the RF input terminal RFin and the RF output terminal RFout and amplifying an RF signal from the RF input terminal RFin with a predetermined gain, ; A switching unit 112 for on / off switching the first signal path SP1 according to whether the operating voltage Vcc of the low noise amplifier 111 is supplied; And a second signal path SP2 between the RF input terminal RFin and the RF output terminal RFout and is turned on when the switching unit 112 is turned off to output an RF signal from the RF input terminal RFin to the RF output terminal RFin, (RFout).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a loop-through circuit of a digital cable TV tuner,

1 is a configuration diagram of a conventional digital cable TV tuner;

2 is a loop through circuit diagram of a conventional digital cable TV tuner;

3 is a characteristic graph showing insertion loss of a conventional loop-through circuit.

4 is a loop through circuit diagram of a digital cable TV tuner according to the present invention.

Fig. 5A and Fig. 5B are equivalent circuit diagrams of on / off states of the low-noise amplifier of the loop-through circuit of Fig.

6 is a characteristic graph showing the insertion loss of the loop through circuit of the present invention.

Description of the Related Art [0002]

100: Digital cable TV tuner 110: Loop-through circuit

111: Low-noise amplifier 112:

113: RF switch RFin: RF input

RFout: RF output terminal Vcc: Operating voltage

SP1: first signal path SP2: second signal path

SW1: first switch SW2: second switch

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a loop-through circuit of a digital cable TV tuner applied to a set-top box (STB) or a VTR, and more particularly, To a loop-through circuit of a digital cable TV tuner capable of reducing power consumption because it satisfies the level specification of an analog terrestrial TV signal in a non-power source.

Generally, a digital cable TV tuner incorporated in a set-top box (STB) or a VTR is a device for receiving a broadcast signal of a digital cable TV. Such a digital cable TV tuner has a loop through circuit, Thereby outputting analog terrestrial TV signals.

1 is a configuration diagram of a conventional digital cable TV tuner.

1, a conventional digital cable TV tuner 10 includes a loop-through circuit 11 for externally outputting an analog terrestrial TV signal among TV RF signals RFin from an antenna ANT, And a tuner unit 12 for tuning a digital cable TV signal among the TV RF signals RFin from the ANT. Such a digital cable TV tuner is embedded in a set-top box (STB) or a VTR.

2 is a loop through circuit diagram of a conventional digital cable TV tuner.

Referring to FIG. 2, the loop-through circuit of a conventional digital cable TV tuner includes a low noise amplifier (LNA) and is supplied with an operating voltage Vcc when the digital cable TV tuner is turned on so that the low noise amplifier (LNA) So that the analog terrestrial TV signal in the RF signal is amplified by the low noise amplifier (LNA) to a predetermined gain.

In this case, the RF signal has a level on the order of -2 [dB] to +2 [dB] with reference to G1 (operating voltage S21 shown in FIG. 3). This satisfies the level specification of the terrestrial TV signal of about -6 [dB].

The loop-through circuit of such a conventional digital cable TV tuner must supply an operating voltage to the low-noise amplifier (LNA) in order to supply an analog terrestrial TV signal without watching a digital cable TV broadcast.

For example, if the operating voltage Vcc is not supplied, the low noise amplifier LNA is turned off, so that the RF signal is passed without amplification. In this case, G2 S21), the loss of the RF signal occurs at approximately -30 [dB] to -20 [dB], which does not satisfy the level specification of the terrestrial TV signal of approximately -6 [dB].

As described above, the loop-through circuit of the conventional digital cable TV tuner must always supply an operating voltage regardless of whether the digital cable TV broadcast is watched or not in order to supply an RF signal satisfying the level specification of the terrestrial TV signal There is a problem that power consumption is large.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-described problems, and it is an object of the present invention to provide a digital cable TV tuner which can satisfy a level specification of an analog terrestrial TV signal irrespective of power supply of a digital cable TV tuner, Loop-through circuit of a digital cable TV tuner capable of reducing power consumption because it satisfies the level specification.

In order to accomplish the object of the present invention, the loop-through circuit of the digital cable TV tuner of the present invention includes a loop-through circuit included in a digital cable TV tuner and outputting an RF signal through an RF input terminal A low noise amplifier connected to a first signal path between the RF input terminal and the RF output terminal and amplifying an RF signal from the RF input terminal with a predetermined gain; A switching unit for on / off switching the first signal path according to whether the operating voltage of the low noise amplifier is supplied; And an RF switch connected to a second signal path between the RF input terminal and the RF output terminal and transmitting the RF signal from the RF input terminal to the RF output terminal when the switching unit is turned off.

Wherein the switching unit turns on the first signal path when the operating voltage of the low noise amplifying unit is supplied and turns off the first signal path when the operating voltage of the low noise amplifying unit is not supplied.

The switching unit may include a first switch connected to an input terminal of the low noise amplifying unit.

The switching unit may include a second switch connected to an output terminal of the low noise amplification unit.

Wherein the switching unit comprises: a first switch connected to an input terminal of the low noise amplifier; And a second switch connected to an output terminal of the low noise amplification unit.

The RF switch is a MEMS type RF switch that is switched on when the switching signal is at a low level.

And the RF switch is an RF switch having an insertion loss of about -4 [dB] to -2 [dB] upon switching on.

Hereinafter, preferred 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.

4 is a loop through circuit diagram of a digital cable TV tuner according to the present invention.

4, a loop-through circuit 110 of a digital cable TV tuner according to the present invention is included in a digital cable TV tuner 100 and outputs an RF signal through an RF input terminal RFin to an RF output terminal RFout Which is connected to the first signal path SP1 between the RF input terminal RFin and the RF output terminal RFout and amplifies the RF signal from the RF input terminal RFin with a predetermined gain, A switching unit 112 for on / off switching the first signal path SP1 according to whether the operating voltage Vcc of the low noise amplifying unit 111 is supplied, (RFout) which is connected to a second signal path (SP2) between the RF output terminal (RFout) and the RF output terminal (RFout) and is turned on when the switching unit (112) Switch 113. Fig.

The switching unit 112 turns on the first signal path SP1 when the operating voltage Vcc of the low noise amplifying unit 111 is supplied and the switching unit 112 turns on the first signal path SP1 when the operating voltage of the low noise amplifying unit 111 is not supplied. The first signal path SP1 is turned off.

The switching unit 112 may include a first switch SW1 connected to the input terminal of the low noise amplifier 111 and the switching unit 112 may be connected to the output terminal of the low noise amplifier 111 And a second switch SW2.

The switching unit 112 preferably includes a first switch SW1 connected to the input terminal of the low noise amplifier 111 and a second switch SW2 connected to the output terminal of the low noise amplifier 111 .

The RF switch 113 is a MEMS (Micro Electro Mechanical System) type RF switch that is switched on when the switching signal is at a low level. Here, the RF switch 113 has an output of about -4 [dB] To -2 [dB].

5A is an equivalent circuit diagram of the loop-through circuit of FIG. 4, FIG. 5B is a circuit diagram of the loop-through circuit of FIG. 4, and FIG. It is an equivalent circuit diagram when LNA is off.

6 is a characteristic graph showing the insertion loss of the loop through circuit of the present invention. 6, G1 is a graph of insertion loss S21 of the low-noise amplifier 111 when the low-noise amplifier 111 is on, and G2 is a graph of insertion loss S21 of the low-noise amplifier 111 when the low- .

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

4 through 6, the loop through circuit 110 of the present invention is mounted on a digital cable TV tuner 100, as shown in FIG. 4, to transmit an RF signal through an RF input terminal RFin to an RF output terminal (RFout) will be described.

The loop through circuit 110 of the present invention performs different operations when the operation power of the digital cable TV tuner 100 is turned on and when the operation power of the digital cable TV tuner 100 is turned off And each of these cases will be described.

First, the operation of the loop through circuit 110 of the present invention when the operation power of the digital cable TV tuner 100 is turned on will be described.

When the operation power of the digital cable TV tuner 100 of FIG. 4 is turned on, the operation voltage Vcc is supplied to the low noise amplifying unit 111, the low noise amplifying unit 111 is enabled, The first and second switches SW1 and SW2 provided at the input and output terminals of the low noise amplifier 111 connected to the first signal path SP1 of the present invention are connected to the first and second switching signals S1 and S2, respectively. At this time, the RF switch 113 connected to the second signal path SP2 connected in parallel with the first signal path SP2 is turned off by the third switching signal S3.

For example, when the operating voltage Vcc is supplied to the low-noise amplifier 111, the first, second, and third switching signals S1, S2, and S3 become high level, 1 and the second switches SW1 and SW2 are turned on by the first and second switching signals S1 and S2 at the high level and the RF switch 113 turns on the third switching signal S3 at the high level, .

5A, the RF signal is amplified and passed through the first signal path SP1 between the RF input terminal RFin and the RF output terminal RFout. At this time, the signal passes through the low noise And amplified to a predetermined gain by the amplifying unit 111. [

As described above, when the RF signal is amplified by the low-noise amplifier 111 through the first signal path SP1, the RF signal is approximately 0 [dB] And has an insertion loss of about 4 [dB]. This satisfies the level specification of the terrestrial TV signal of about -6 [dB].

Next, the operation of the loop through circuit 110 of the present invention will be described when the operation power of the digital cable TV tuner 100 is turned off.

When the operation power of the digital cable TV tuner 100 of FIG. 4 is turned off, the operating voltage Vcc is not supplied to the low noise amplifying unit 111 and the low noise amplifying unit 111 is disabled The first and second switches SW1 and SW2 connected to the input and output terminals of the low noise amplifier 111 connected to the first signal path SP1 of the present invention are connected to the first and second switches SW1 and SW2, Respectively, are turned off by the signals S1 and S2. At this time, the RF switch 113 connected to the second signal path SP2 connected in parallel to the first signal path SP2 is turned on by the third switching signal S3.

For example, when the operating voltage Vcc is not supplied to the low-noise amplifier 111, the first, second, and third switching signals S1, S2, and S3 become low level. At this time, The first and second switches SW1 and SW2 are turned off by the first and second switching signals S1 and S2 at the low level and the RF switch 113 is turned off by the third switching signal S3).

5B, the RF signal is passed through the RF switch 113 on the second signal path SP1 between the RF input terminal RFin and the RF output terminal RFout. At this time, the RF switch 113 is a MEMS type RF switch that is switched on when the switching signal is low level, and has a low insertion loss of about -4 [dB] to -2 [dB] at the time of switching on.

As described above, when the RF signal is passed through the second signal path SP1, the RF signal has an insertion loss of about -4 [dB] to -2 [dB] as shown in G2 of FIG. Respectively. This satisfies the level specification of the terrestrial TV signal of about -6 [dB].

According to the loop-through circuit of the present invention as described above, when the digital cable TV tuner to which the loop through circuit of the present invention is applied is turned on, it is possible to supply an analog terrestrial TV signal. The analog terrestrial TV signal satisfying the level specification of the terrestrial TV signal can be supplied.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It will be apparent to those skilled in the art that changes may be made.

According to the present invention as described above, in a loop-through circuit of a digital cable TV tuner applied to a set-top box (STB) or a VTR, a level specification of an analog terrestrial TV signal can be satisfied regardless of power supply of a digital cable TV tuner. The power consumption can be reduced because the level specification of the analog terrestrial TV signal is satisfied at the time of non-power supply.

Claims (7)

A loop-through circuit included in a digital cable TV tuner and outputting an RF signal through an RF input terminal through an RF output terminal, A low noise amplifier connected to a first signal path between the RF input terminal and the RF output terminal and amplifying an RF signal from the RF input terminal with a predetermined gain; A switching unit for on / off switching the first signal path according to whether the operating voltage of the low noise amplifier is supplied; And An RF switch connected to a second signal path between the RF input terminal and the RF output terminal and for transmitting an RF signal from the RF input terminal to the RF output terminal, A loop-through circuit in a digital cable TV tuner that includes. The apparatus of claim 1, Wherein the first signal path is turned on when the operating voltage of the low noise amplifier is supplied and the first signal path is turned off when the operating voltage of the low noise amplifier is not supplied. The apparatus of claim 2, And a first switch connected to an input terminal of the low noise amplifying unit. The apparatus of claim 2, And a second switch connected to an output terminal of the low noise amplifying unit. 3. The apparatus of claim 2, wherein the switching unit A first switch connected to an input terminal of the low noise amplifier; And And a second switch connected to an output terminal of the low- Loop-through circuit of a digital cable TV tuner. The RF switch according to claim 2, And the switching circuit is a MEMS type RF switch which is switched on when the switching signal is at a low level. 7. The RF switch according to claim 6, Wherein the RF switch is an RF switch having an insertion loss of about -4 [dB] to -2 [dB] upon switching on.

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