KR980012870A - Television tuner circuit - Google Patents

Abstract

Provided is a TV tuner circuit (1) capable of reducing the number of parts and mounting area and improving the trapping effect when configuring a trap circuit and a picking circuit.

Parallel connection circuit consisting of a condenser 11 and an inductor 13 connected in parallel to the condenser 11 via the switching element 14 and a series connection consisting of the inductor 13, the switching element 15, and the condenser 16. With a circuit. Only when the specific channel of the VHF low land is received, the switching element 14 is turned on, and the parallel connection circuit is connected in series to the signal transmission line to trap the upper adjacent channel of the VHF low band. When receiving the VHF high band, the switching element 15 is turned on, and the series connection circuit is connected to the signal path in a shunt to perform VHF high band gain peaking.

Description

Television tuner circuit

The present invention relates to a TV (television) tuner circuit, and particularly includes a trap circuit for trapping a signal of a channel adjacent to an upper side when a particular channel in a VHF low band is received. When a channel of a VHF highland is received, a peaking circuit for improving the gain of the channel is related to a TV tuner circuit which can be configured with a small number of component points.

In the United States, the following frequency bands are allocated to each channel (CH 2 to CH 6) of the VHF low band of television broadcasting and each channel (CH 7 to CH 13) of the VHP high band.

In other words. The VHF low band is CH 2 54-60 MHz, CH 3 60-66 MHz, CH 4 66-72 MHz, CH 5 76-82 MHz, CH 6 82-88 MHz, and the VHF high band CH 7 174-180 MHz, CH 8 180-186 MHz, CH 9 186-192 MHz. CH 10 is 192 to 198 MHz, CH 11 is 198 to 204 MHz, CH 12 is 204 to 210 MHz, and CH 13 is 210 to 216 MHz.

In addition, for FM radio broadcasting, the 88 to 108 MHz frequency band is allocated, which corresponds to CH 6 of the VHF low band and CH 7 of the VHF high band.

4 is a block diagram showing an example of the configuration of a conventional TV tuner circuit for receiving such a television broadcast. Some of the components show specific circuit configurations.

As shown in Fig. 4, the TV tuner circuit 40 is mixed with the antenna filter 41, the force tuning circuit 42, the high frequency (RF) amplifier 43, the double tuning circuit 44 and the peaking circuit 45. It consists of a circuit 46 and a local oscillation circuit 47, and these components 41 to 47 are connected as shown in FIG. In addition, the input tuning circuit 42 includes a cascaded trap circuit section 48 and a tuning circuit section 49. The trap circuit section 48 includes a first inductor 50, a first capacitor 51, a first switching diode 52, a second capacitor 53, resistors 54, 55, and a trap voltage supply terminal 56. These elements 50 to 56 are connected as shown in FIG. The tuning circuit section 49 includes the second inductor 57, the third inductor 58, the fourth inductor 59, the second switching diode 60, the third switching diode 61, and the fifth inductor 62. A third capacitor 63, resistors 64, 65, a low band select voltage supply terminal 66, and a high band select voltage supply terminal 66H; these elements 57 to 65, 66 _L , 66 _H ) Are connected as shown in FIG. In addition, the peaking circuit 45 includes a fourth capacitor 67, a fifth capacitor 68, a sixth inductor 69, a fourth switching diode 70, a sixth capacitor 71 and a resistor (72. 73, 74). ) and made of a low-band selection voltage supply terminal (75L) and the high-band selection voltage supply terminal (75 _H). The devices (67 to 74, 75 _L, 75 _H) is connected as shown in FIG.

The TV tuner circuit according to the above configuration is provided. It works like this:

The television broadcast signal received at the antenna 77 is input to the input tuning circuit 42 through the antenna filter 41. The input tuning circuit 42 tunes to the VHF low band when the tuning circuit section 49 supplies the low band selection voltage V _L to the low band selection voltage supply terminal 67, and the high band selection voltage supply terminal 66 _M. When the high band select voltage VHF is supplied to the VHF, the signal of the obtained VHF low band or VHP high band is input to the RF amplifier 43 by tuning to the VHF high band. The RF amplifier 43 amplifies the supplied VHF low band or VHF high band signal at a predetermined level and inputs it to the demodulation circuit 44. The demodulation circuit 44 removes the necessary frequency components in the signal of the VHF low band or the VHF high band, and inputs them to the mixing circuit 46 through the peaking circuit 45. The mixing circuit 46 frequency-mixes the supplied VHF low band or VHF high band signal with the local oscillation signal from the local oscillation circuit 47, so as to produce an image intermediate frequency (IF) signal of frequency 45.75 Mz and a frequency of 41.75 Mz. Output as a negative IF signal.

In this case, the trap circuit section 48 of the input tuning circuit 42 usually has the low bend selection voltage V supplied to the low band selection voltage supply terminal 667 because the trap voltage supply terminal 56 is held at the ground potential. The first switching diode 52 is turned on by the high-band selection voltage V _H supplied to _L or the high-band selection voltage supply terminal 66 _M , so that the input / output terminal of the trap circuit section 48 times is dropped and the trap circuit section is 48 does not operate. But. When receiving CH6 of the VHF low band, a trap voltage V _TR exceeding the low band selection voltage V _L or the high band selection voltage V _H is supplied to the trap voltage supply terminal 56 so that the first switching diode 52 is provided. Is turned off, and a trap circuit composed of a parallel connection circuit of the first inductor 50 and the first capacitor 51 is connected between the 71 output terminals of the trap circuit section 48. This trap circuit is the upper adjacent channel of 6 CH of the VHF low band, i.e. It tunes to the frequency band 88 to 108 MHz of the FM radio broadcast, and traps the frequency component of the upper adjacent channel of 6 CH only when receiving 6 CH of the VHF low band.

In addition, the peaking circuit 45 turns off the fourth switching diode 7D due to the low band selection voltage V supplied to the low band selection voltage supply terminal 75 at the time of receiving the VHP low band. The sixth capacitor 71 is separated from the sixth inductor 69 so that the peaking function for the received signal is not achieved. Meanwhile. Upon reception of the VHF high band, the fourth switching diode 70 is turned on by the high band selection voltage supply terminal V _H supplied to the high band selection voltage supply terminal 75 _H , and the sixth inductor 69 is provided. And the sixth condenser 71 are connected in series to achieve a peaking function for the received signal.

The conventional TV tuner circuit 40 has a trap circuit section 48 in the input tuning circuit 42 for trapping the frequency of the upper adjacent panel upon reception of 6CH of the VHF low band. A peaking circuit 45 for picking the VHF highband signal at the time of reception of the VHF highband is disposed between the demodulation circuit 44 and the mixing circuit 46, so that the trap circuit section 48 and the peaking circuit ( 45) are installed separately.

As described above, the conventional TV tuner circuit 40 has a large number of component points because the trap circuit section 48 and the picking circuit 45 have different configurations. In particular, the number of inductors including the tuning circuit section 49 is six. There is a problem that the mounting area of the TV tuner circuit 40 is enlarged.

Also. In the conventional TV tuner circuit 40, since the trap circuit section 48 is provided in the input tuning circuit 42, trapping is performed in a circuit portion having a low signal gain, and the noise figure NF is not only deteriorated. There is a problem that the trap effect cannot be exhibited sufficiently.

An object of the present invention for solving such a problem is to provide a TV tuner circuit that can reduce the number of parts and the mounting area when the trap circuit and the picking circuit are configured, and can also improve the trap effect.

1 is a block diagram showing the configuration of an embodiment of a TV tuner circuit according to the present invention;

Fig. 2 is an equivalent circuit diagram for explaining the operation of the picking circuit in the TV tuner circuit shown in Fig. 1;

Fig. 3 is an equivalent circuit diagram for explaining the operation of the picking circuit in the TV tuner circuit shown in Fig. 1;

4 is a block diagram showing an example of the configuration of a conventional TV tuner circuit.

* Explanation of symbols for main parts of the drawings

1: TV tuner circuit 2: Antenna filter

3: input tuning circuit 4: high frequency (RF) amplifier

5: double-tuning circuit 6: picking circuit

7: mixed circuit 8: local oscillating circuit

9: antenna 10: third capacitor

11: first capacitor 12: fourth capacitor

13: first inductor

14: first switching diode (first switching element)

15: second switching diode (second switching element)

16: second condenser

In order to achieve the above object, the TV tuner circuit of the present invention shares a trap circuit section for trapping an upper adjacent channel of a specific channel (6 CH) of the VHF low band and a peak circuit section for picking a signal of the VHF high band in one circuit. It is equipped with the means to make it.

According to such means, the number of component points can be greatly reduced when constructing a common circuit between the tram circuit expansion and the picking circuit portion, and in particular, the minimum number of inductors requiring on-volume when mounting them is at least (for example, one unit). ), It is possible to significantly reduce the number of parts and the mounting area.

In addition, according to such means, since the common circuit of the tram circuit and the picking circuit can be arranged at a portion having a large signal gain (for example, between the demodulation circuit and the mixing circuit), the effect of the trap circuit can be improved. .

In an embodiment of the present invention, the TV tuner circuit includes a first capacitor connected in series with a signal transmission path. And an inductor connected in parallel to the first capacitor through a first switching element in series, and a second capacitor connected between the signal transmission path and ground through the inductor and the second switching element in series, respectively. The first capacitor and the inductor are connected in parallel with the second switching element turned off and the second switching element turned off only when a specific channel in the VHF low band is received, thereby being adjacent to the upper side of the specific channel. A parallel resonant circuit is formed which resonates with the signal in the upper adjacent band. When receiving each channel in the VHF high band, the first switching element is turned off and the second switching element is turned on. By connecting the inductor and the second capacitor in series, a series resonant circuit resonating in the VHF high band is generated.

In a suitable example of embodiment of this invention. The parallel resonant circuit and the series resonant circuit are formed between the demodulation tuner and the mixed fatigue.

In addition, as an example of embodiment of this invention, a 1st and 2nd switching element each consists of a diode.

According to the TV tuner circuit of the embodiment of the present invention, the trap circuit section for trapping the upper adjacent channel of the specific channel (6 CH) of the VHF low QOS and the peaking path section for picking the signal of the VHF high band are configured as described above. In the common circuit, the shared circuit executes the trap of the upper adjacent channel of the specific channel (6 CH) only when receiving the specific channel (6 CH) of the VHF low band and simultaneously receives the VHF high band when the VHF highband is received. The band signal is picked up. In this case, the common circuit can significantly reduce the number of parts compared to this type of circuit (a circuit in which the trap circuit section and the picking circuit section are separately provided), and in particular, the number of inductors required is at least (for example, one )

As described above, according to the embodiment of the present invention, it is possible to realize a significant reduction in the number of parts and at the same time reduce the mounting area. Furthermore, the common circuit of the trap circuit section and the picking circuit section can be arranged in a portion having a large signal gain. (For example, between a double-tuning circuit and a mixing furnace), the trap effect in a trap circuit part improves.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

1 is a block diagram showing a configuration of an embodiment of a TV tuner circuit according to the present invention. Among them, some of the components show specific circuit configurations.

As shown in Fig. 1, the TV tuner circuit 1 of this embodiment includes an antenna filter 2, an input tuning circuit 3, a high frequency (RF) amplifier 4, a demodulation circuit 5, and a peaking circuit (resonance circuit). Furnace 6), mixing circuit 7 and local oscillation circuit 8; And the input terminal is connected to the antenna 9, and the output terminal is connected to the input terminal of the input tuning circuit (3). The RF amplifier 4 has an input terminal connected to the output terminal of the input tuning circuit 3. The output terminal is connected to the input terminal of the demodulation circuit 5. The picking circuit 6 has an input terminal connected to the output terminal of the demodulation circuit 5. The output terminal is connected to the first input terminal of the mixing circuit 7. The mixing circuit 7 has a second input terminal connected to the output terminal of the local oscillation circuit 8 and an intermediate frequency (IF) signal processing circuit (not shown) to which the output terminal is connected.

in this case. The input tuning circuit 3 has the same circuit configuration as that of the tuning circuit section 49 of the conventional input tuning circuit 42 shown in FIG. Second inductor 24, third inductor 25, third switching diode 27, fourth switching diode 28, fourth inductor 29, fifth capacitor 30 and resistors 31, 32 And a low band selection voltage supply terminal 33 and a high band selection voltage supply terminal 34. The second inductor 24 and the third inductor 25 are connected in series between the input / output terminals (signal transmission paths) of the input tuning circuit 3, and the second inductor 24 and the third inductor 25 are connected. The fourth inductor 26, the fifth inductor 29, and the fifth capacitor 30 are connected in series between the connection point and the ground point, and between the output terminal of the input tuning circuit 3 and the high band select voltage supply terminal 34. The third switching diode 27 and the resistor 31 are connected in series. The fourth switching diode 28 is connected between the connection point of the fourth inductor 26 and the fifth inductor 29 and the connection point of the third switching diode 27 and the resistor 31, and the fifth inductor 29 A resistor 32 is connected between the connection point of the fifth capacitor 30 and the low band selection voltage supply terminal 33.

In addition, the picking circuit 6 includes a first condenser 11, a second condenser 16, a third condenser 10, a first inductor 13, a first switching diode 14, and a second switching diode 15. ), The fourth capacitor 12, the resistors 17, 18. 19, 20, the low band select voltage supply terminal 21, the high band select voltage supply terminal 22, and the trap voltage supply terminal 23. . A third condenser 10, a first condenser 11, and a fourth condenser 12 are connected in series between the pick-up circuit 6 and the input / output terminals (signal transmission paths). The first inductor 13, the second switching diode 15, and the second capacitor 16 are connected in series between the connection point and the ground point of the first capacitor 11 and the fourth capacitor 12. A resistor 20 is connected between the connection point of the third condenser 10 and the first condenser 11 and the trap voltage supply terminal 23. The first switching diode 14 is connected between the connection contact of the third capacitor 10 and the first capacitor 11 and the connection point of the first inductor 13 and the second switch diode 15. The resistor 22 is connected between the connection point of the second switching diode 15 and the second capacitor 16 and the high band selection voltage supply terminal 22 and the first inductor 131 and the second switching diode 15 are connected. The resistor 17 is connected between the connection point and the ground point of the same, and the resistor 18 is similarly connected between the connection point of the first inductor 13 and the second switching diode 15 and the low band selection voltage supply terminal 21. Connected.

The TV tuner circuit 1 of this embodiment with the above configuration operates as follows.

The television carrier signal received at the antenna 9 is applied to the input tuning circuit 3 via the antenna filter 2. The input tuning circuit 3 is supplied with the low band selection voltage V _L to the low band selection voltage supply terminal 33 at the reception of the VHF low band, and the third switching diode 21 and the fourth switching diode 28 are provided. In the off state, the VHF low band signal is tuned to output the VHF low band signal. On the other hand, when the VHF high band is received, the high band select voltage V _H is supplied to the high band select voltage supply terminal 34 and the third switching diode 27 and the fourth switching diode 23 are turned on, so that the VHF is turned on. The high-band signal is output in synchronization with the high-band. The RR amplifier 4 amplifies the signal with the VHF low band or the VHF high band to a predetermined level. The double tuning circuit 5 is. The unnecessary frequency component in the amplified VHF low bend or VHF high band signal is removed and input to the peaking circuit (6).

2A, 2B, and 3 are equivalent circuit diagrams for explaining the operation of the picking circuit 6. Fig. 2A is an equivalent circuit diagram when the trap operation and the picking operation are not performed together. Fig. 2B shows an equivalent circuit diagram when the trap operation is performed and the picking operation is not performed, respectively, and Fig. 3 shows the equivalent circuit diagram when the trap operation is not executed and the picking operation is executed.

The peaking circuit 6 supplies the low band selection voltage V _L to the low band selection voltage supply terminal 21 at the time of receiving the VHF low band (except at the 6CH reception), and as shown in Fig. 2A, The first switching diode 14 and the second switching diode 15 are turned off and the connection between the first inductor 13 and the second capacitor 16 is broken, so that the first inductor 13 and the second capacitor 16 are disconnected. The picking circuit consisting of the serial connection furnace of does not operate. At this time. The signal of the VHF low band applied to the input of the picking circuit 16 (except the 6 CH signal). The third condenser 10, the first condenser 11, and the fourth condenser 13 are respectively transmitted to the output terminal.

Also. The peaking circuit 6 is supplied with the low band selection voltage V _L to the low band selection voltage supply terminal 21 upon reception of 6 CH of the VHF low band, and the low band selection voltage is supplied to the trap voltage supply terminal 23. The trap voltage VTR higher than (V,) is supplied, and as shown in FIG. 2B, the first switching diode 14 is in an on state, and the second switching diode 15 is in an off state. The first inductor 13 is connected in parallel to disconnect the first inductor 13 and the second capacitor 16. In this case, the parallel connection circuit of the first capacitor 11 and the first inductor 13 is. VH? Low-band, 6-CH, upper one-sided channel. That is, it tunes to the frequency band 88-108MHz which is FM radio broadcasting, and forms the trap circuit which traps the frequency component of the 6CH upper adjacent channel at the time of 6CH reception of a VHF low band. The 6 CH signal of the VHF low band applied to the input terminal of the peaking circuit 6 includes a trap circuit composed of the third capacitor 10, the first capacitor 11, and the first inductor 13, and the fourth capacitor 13. Are transmitted to the output through each of them, and at this time, the frequency component of the upper adjacent channel is removed by the trap circuit.

In addition, the picking circuit 6 Upon reception of the VHF high band, the high band selection voltage V _H is supplied to the high band selection voltage supply terminal H, and as shown in FIG. 3, the first switching diode 14 is in an off state and the second switching diode 15 ) Is turned on, the second capacitor 16 is connected to the first inductor 13, and a picking circuit composed of the first inductor 13 and the second capacitor 16 is formed. In this case, the peaking circuit performs peaking on the signal of the VHF high band and corrects the signal gain of the VHF high band. The signal of the VHF high band applied to the input terminal of the perking circuit (6). The third condenser 17, the first condenser 11, and the fourth condenser 13 are transmitted to the output terminal, respectively. During the transmission, the peaking signal is applied to the VHF high band signal by the picking circuit, and the VHF The signal gain of the high band is corrected.

The mixing circuit 7 Frequency mixing of the VHF low band output from the peaking circuit 6 or the local oscillation signal output from 8 forms an intermediate frequency (IF) signal, and the IF signal is connected to an IF signal processing circuit (not shown). Supply.

As described above, according to the present embodiment, in the conventional TV tuner circuit, the trap circuit part and the picking circuit part arranged separately are shared by one picking circuit (common circuit) 6, so that many components can be shared. Since the number of points can be reduced and the number of inductors occupying a large volume at the time of mounting is reduced to the minimum number (one), the mounting area can be reduced.

Further, according to this embodiment, the picking circuit (6) in which the trap circuit portion and the picking circuit portion are shared has a large signal gain. For example, since it is provided between the double tuning circuit 5 and the mixing circuit 7, the trapping effect can be improved.

Also, in the above embodiment. Although a TV tuner circuit for receiving a television broadcast signal in the United States has been described as an example, the TV tuner circuit of the present invention is not limited to receiving a foreign television broadcast signal, and the same application is applied when the signal is similar to that of the US television broadcast signal. It is possible.

As described above, according to the present invention, since the individual arrangement in the conventional TV tuner circuit and the trap circuit portion and the picking circuit portion are shared by one picking furnace (common circuit), many components can be shared. The number of parts can be reduced, and the mounting area can be reduced because the number of inductors occupying a large volume at the time of mounting is reduced to the minimum number.

In addition, according to the present invention, since the picking circuit in which the trap circuit section and the picking circuit section are shared can be arranged in a portion having a large signal gain, the trap effect can be improved.

Claims (4)

An inductor connected in parallel to the first capacitor and a series of first and second switching elements connected in series to the signal transmission line and the inductor and the second switching element respectively connected in series between the signal transmission line and ground. And a second capacitor, wherein the first capacitor and the inductor are connected in parallel by turning on the first switching element and turning off the second switching element only when receiving a specific channel in the VHF low band. Thus, a parallel resonant circuit is formed which resonates with a signal in an upper adjacent band adjacent to the upper side of the specific channel, and when the respective channels in the VMF high band are received, the first switching element is turned off and the second is simultaneously turned off. By connecting the inductor and the second capacitor in series with the switching element in a silver state. And a series resonant circuit resonating in the VHF high band. The circuit of claim 1, wherein the parallel resonant circuit and the series resonant circuit. And a TV tuner circuit formed between the double tuning circuit and the mixing circuit. The TV tuner circuit according to claim 1, wherein said first and second switching elements are each diodes. 2. The channel of claim 1, wherein the specific channel is a television broadcast channel having a frequency band of 82 to 88 MHz, and the upper neighboring band has a frequency band of 88 to 88. A TV tuner circuit, which is an FM radio broadcasting band of 108 MHz. ※ Note: The disclosure is based on the initial application.