JPH11275478A - Television tuner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To average a gain at a high band and a gain at a low band by decreasing a gain of a high band of a VHF band regardless of increase in a small amount of components without deteriorating the Q in the case that a dual tuning circuit is brought into a state of receiving a high band television signal. SOLUTION: The tuner has a dual tuning circuit 3 that is switched to be a high band tuning circuit or a low band tuning circuit and a mixer 2 connecting to the dual tuning circuit 3. Then a capacitive means is provided between an input terminal of the mixer 2 and ground, when the dual tuning circuit 3 is switched to receive a high band television signal, the capacitance of the capacitive means is selected higher than that of the capacitive means when the dual tuning circuit 3 is switched to receive a low band television signal.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a television tuner whose tuning circuit can be switched between a high band and a low band.

[0002]

2. Description of the Related Art A conventional television tuner will be described with reference to FIG. In FIG. 2, an interstage double tuning circuit (hereinafter, double tuning circuit) 53 is provided between the high-frequency amplifier 51 and the mixer 52. Primary tuning circuit 53a
Is a high-band tuning coil 54 and a low-band tuning coil 55 connected in series at one end, and a varactor diode connected in parallel to the high-band tuning coil 54 and the low-band tuning coil 55 connected in series. 56. The varactor diode 56 has an anode grounded and a cathode connected to the other end of the high-band tuning coil 54 via a DC blocking capacitor 57. Similarly, the secondary tuning circuit 53b also includes a high-band tuning coil 58 and a low-band tuning coil 59 connected in series at one end, and a high-band tuning coil 58 and a low-band tuning coil 59 connected in series. Varactor diode 60 connected in parallel to The varactor diode 60 has an anode grounded and a cathode connected to the other end of the high-band tuning coil 58 via a DC blocking capacitor 61. The other ends of the low-band tuning coils 55 and 59 are connected to one end of the coupling coil 62, and the coupling coil 62
Is grounded via a DC blocking capacitor 63.

The connection point between the high-band tuning coil 54 and the low-band tuning coil 55 in the primary tuning circuit 53a is connected to the cathode of a switch diode 64, and the anode is grounded by a DC blocking capacitor 65. Similarly, the connection point between the high-band tuning coil 58 and the low-band tuning coil 59 in the secondary tuning circuit 53b is connected to the cathode of the switch diode 66, and the anode is grounded by the DC blocking capacitor 67.

The anode of the switch diode 64 is connected to a high band switching terminal 69 via a resistor 68, and similarly, the anode of the switch diode 66 is connected to the high band switching terminal 69 via a resistor 70. The connection point between the coupling coil 62 and the DC blocking capacitor 63 is connected to the low band switching terminal 72 via the resistor 71. Further, the tuning voltage from the tuning voltage terminal 73 is connected to the cathode of the varactor diode 56 with a resistor 74.
Similarly, the tuning voltage from the tuning voltage terminal 73 is also applied to the cathode of the varactor diode 60 by the resistor 7.
5 is applied.

[0005] Between the double tuning circuit 53 and the mixer 52,
A peaking circuit 76 is provided. The peaking circuit 76 is DC-blocked from the double tuning circuit 53 by a DC blocking capacitor 77, and DC-blocked from the mixer 52 by a DC blocking capacitor 78. The peaking circuit 76 includes a peaking coil 79, a switch diode 80, and a DC blocking capacitor 81 connected in series. The peaking coil 79 is connected to the DC blocking capacitors 77 and 78, and one end of the DC blocking capacitor 81 is connected. Grounded. The cathode of the switch diode 80 is connected to the low band switching terminal 72 via the resistor 82, and the anode is connected to the high band switching terminal 69 via the resistor 83. The inductance of the peaking coil 79 and the input capacitance 84 of the mixer 52 cooperate with each other so as to resonate with the frequency of the low-band television signal of the high-band television signal.

In the above configuration, when receiving a high band television signal in the VHF band, the switching voltage applied to the high band switching terminal 69 turns on both the switch diodes 64 and 66 to turn the double tuning circuit 53 high. Set to receive the television signal of the band. Further, since the switching voltage applied to the high band switching terminal 69 is also applied to the anode of the switching diode 80, the switching diode 80 is also in a conductive state, so that the peaking coil 79 and the input capacitance 84 of the mixer 52 provide A parallel resonance circuit is configured. The low-frequency gain of the high-band television signal is increased by a parallel resonance circuit including the peaking coil 79 and the input capacitor 84 of the mixer 52. The tuning voltage applied to the tuning voltage terminal 73 causes the double tuning circuit 53 to tune to a desired frequency.

[0007]

[SUMMARY OF THE INVENTION Incidentally, as shown in FIG. 3, between the gain (curve A in FIG. 3) the gain in the high-band V _H in low band V _L (curve B in FIG. 3) a difference occurs in the gain, the gain in the high-band V _H is greater than the gain in the low band V _L. Therefore, by providing a damper resistor (not shown) in parallel with the high-band tuning coil 54 in the primary tuning circuit 53a and the high-band tuning coil 58 in the secondary tuning circuit 53b, the gain in the high band is reduced. Thus, the entire gain was leveled. However, if the gain in the high band is reduced by the damper resistance, the double tuning circuit 53
When is set to receive a high-band television signal, the Q of the double-tuned circuit 53 is reduced, and the selection characteristics are degraded. In addition, the number of components is increased by the amount corresponding to the provision of the damper resistance, so that the cost is increased.

The present invention solves these problems,
The purpose is to reduce the gain in the high band of the VHF band with a small number of components without lowering the Q when the double tuning circuit 53 is set to receive a high band television signal. Is to level the gains in.

[0009]

In order to solve the above-mentioned problems, a television tuner according to the present invention comprises a double-tuning circuit which can be switched between a high-band tuning circuit and a low-band tuning circuit, and the double-tuning circuit. A mixer connected between the input terminal of the mixer and ground, wherein the capacitance value of the capacitor means is such that the double-tuned circuit receives a high-band television signal. When switched to the state, it is made larger than when switched to the state for receiving the low-band television signal.

Also, in the television tuner of the present invention, the capacitance means includes a first capacitance means and a second capacitance means having a capacitance value larger than the capacitance value of the first capacitance means. When the tuning circuit is switched to a state of receiving a low band television signal, the first capacitance means is provided between the input terminal of the mixer and ground, and the double tuning circuit is provided with a high band television signal. When the state is switched to the state of receiving a signal, the second capacitance means is provided between the input terminal of the mixer and the ground.

Further, in the television tuner of the present invention, the capacitance means comprises a first capacitance means and a second capacitance means, and the first capacitance means is connected between an input terminal of the mixer and a ground. An intervening second capacitance means is connected in parallel to the first capacitance means when the double tuning circuit is switched to a state of receiving a high band television signal.

Further, in the television tuner of the present invention, a switch diode is provided in series with the second capacitance means, and the second capacitance means and the switch diode connected in series are connected to an input terminal of the mixer and a ground. And when the double tuning circuit is switched to a state of receiving a high band television signal, the switch diode is turned on.

In the television tuner of the present invention, a peaking coil is provided in parallel with the second capacitance means, and when the double tuning circuit is switched to a state of receiving a high-band television signal, The peaking coil, the first capacitance unit, and the second capacitance unit are connected in parallel, and the resonance frequency of the peaking coil, the first capacitance unit, and the second capacitance unit, which are connected in parallel, Was set to the low frequency of the high band television signal.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A television tuner according to the present invention will be described with reference to FIG. In FIG. 1, an interstage double tuning circuit (hereinafter, simply referred to as a double tuning circuit) 3 is provided between the high-frequency amplifier 1 and the mixer 2. The primary tuning circuit 3a is connected in parallel to the high-band tuning coil 4 and the low-band tuning coil 5 connected in series at one end, and to the high-band tuning coil 4 and the low-band tuning coil 5 connected in series. Varactor diode 6. The varactor diode 6 has an anode grounded and a cathode connected to the other end of the high-band tuning coil 4 via a DC blocking capacitor 7. Similarly, the secondary tuning circuit 3b also includes a high-band tuning coil 8 and a low-band tuning coil 9 connected in series at one end, and a high-band tuning coil 8 and a low-band tuning coil 9 connected in series. And a varactor diode 10 connected in parallel to the The varactor diode 10 has an anode grounded and a cathode connected to the other end of the high-band tuning coil 8 via a DC blocking capacitor 11. The other ends of the low-band tuning coils 5 and 9 are connected to one end of a coupling coil 12, and the other end of the coupling coil 12 is grounded via a DC blocking capacitor 13.

A connection point between the tuning coil for high band 4 and the tuning coil for low band 5 in the primary tuning circuit 3a is connected to the cathode of the switch diode 14,
Its anode is grounded by a DC blocking capacitor 15. Similarly, the connection point between the high-band tuning coil 8 and the low-band tuning coil 9 in the secondary tuning circuit 3b is
The switching diode 16 is connected to the cathode, and the anode is grounded by the DC blocking capacitor 17.

The anode of the switch diode 14 is connected to a high band switching terminal 19 via a resistor 18, and similarly, the anode of the switch diode 16 is connected to the high band switching terminal 19 via a resistor 20. A connection point between the coupling coil 12 and the DC blocking capacitor 13 is connected to a low band switching terminal 22 via a resistor 21. Further, the tuning voltage from the tuning voltage terminal 23 is applied to the cathode of the varactor diode 6 via the resistor 24, and similarly, the tuning voltage from the tuning voltage terminal 23 is also applied to the cathode of the varactor diode 10.
Is applied via the

A peaking circuit 26 is provided between the double tuning circuit 3 and the mixer 2. The peaking circuit 26 is DC-blocked from the double tuning circuit 3 by a DC blocking capacitor 27, and DC-blocked from the mixer 2 by a DC blocking capacitor 28. And
A capacitor 29 as a first capacitance means is connected between the input terminal of the mixer 2 and the ground. Here, the peaking circuit 26 is configured by connecting a switch diode 30, a peaking coil 31, and a DC blocking capacitor 32 in series. The cathode of the switching diode 30 is connected to the DC blocking capacitors 27 and 28, and the switching diode 30 is connected. Is connected to one end of the peaking coil 31, and the other end of the peaking coil 31 is grounded via a DC blocking capacitor 32. The anode of the switch diode 30 is grounded via a capacitor 33 as a second capacitance means. In addition, the anode of the switch diode 30 is connected to the low band switching terminal 22 via the resistor 34. The anode of the switch diode 30 is connected to the high band switching terminal 19 via the resistor 35. The inductance of the peaking coil 31 and the first capacitor 29 are set so as to cooperate with each other to resonate with the frequency of the low-band television signal of the high-band television signal.

In the above configuration, when a low band television signal in the VHF band is received, the switching diodes 14 and 16 and the switching diode 30 of the peaking circuit 26 are turned off by the switching voltage applied to the low band switching terminal 22. To Then, the double tuning circuit 3 is switched to a low band tuning circuit, and the peaking circuit 26 is switched to the double tuning circuit 3 and the mixer 2.
And the gain in the low band is about the same as the gain in the low band of a conventional television tuner, as shown by curve B in FIG. next,
When receiving a high band television signal in the VHF band, the switching diodes 14 and 16 and the switching diode 30 of the peaking circuit 26 are turned on by the switching voltage applied to the high band switching terminal 19. Then, the double tuning circuit 3 is switched to the tuning circuit for the high band, and the capacitor 33 as the second capacitance means is switched.
And a capacitor 29 which is a first capacitance means, is connected in parallel between the input end of the mixer 2 and the ground,
The capacitor 29 as the first capacitance means and the capacitor 33 as the second capacitance means are connected in parallel. And
Since the input impedance of the mixer 2 including the capacitor 29 serving as the first capacitor and the capacitor 33 serving as the second capacitor is lower than in the low band, as shown in a curve C in FIG. It is almost the same as the gain in the low band. Therefore, the gain in the high band and the gain in the low band can be leveled. Further, since no bumper resistor is connected, Q does not decrease, so that the gain in the high band can be reduced without deteriorating the selection characteristics. Here, if there is a capacity necessary for forming the peaking circuit of the mixer 2, the input capacity of the mixer 2 can be similarly used without connecting the capacitor 29 as the first capacitance means. The effect of can be obtained.

[0019]

As described above, the television tuner of the present invention comprises a double tuning circuit that can be switched between a tuning circuit for high band and a tuning circuit for low band, and a mixer connected to the double tuning circuit. A capacitance means provided between the input end of the mixer and the ground; and when the capacitance value of the capacitance means is switched to a state in which the double-tuned circuit receives a high-band television signal, a low-band television is provided. In the state of receiving a high-band television signal, the impedance at the input end of the mixer decreases, the gain can be reduced, and the high-bandwidth can be reduced. The gain between them can be leveled.

Also, in the television tuner of the present invention, the capacitance means includes a first capacitance means and a second capacitance means having a capacitance value larger than the capacitance value of the first capacitance means.
When the double-tuned circuit is switched to the state of receiving the low-band television signal, the first capacitance means is provided between the input terminal of the mixer and the ground, and the double-tuned circuit transmits the high-band television signal. When switching to the receiving state, the second capacitance means is provided between the input terminal of the mixer and the ground, so that the input of the mixer is The impedance at the end is reduced, the gain can be reduced, and the gain between high bands can be leveled.

Further, in the television tuner of the present invention, the capacitance means comprises the first capacitance means and the second capacitance means, and the first capacitance means is provided between the input terminal of the mixer and the ground. When the double-tuned circuit is switched to a state of receiving a high-band television signal, the first capacitance means and the second capacitance means are connected in parallel, so that the high-band television In a state in which the mixer signal is received, the impedance at the input terminal of the mixer is reduced, the gain can be reduced, and the gain between high bands can be leveled.

In the television tuner of the present invention, a switch diode is provided in series with the second capacitance means, and the second capacitance means and the switch diode connected in series are provided between the input terminal of the mixer and the ground. When the double-tuned circuit is switched to the state of receiving a high-band television signal, the switch diode is turned on, so that the double-tuned circuit is switched to the state of receiving the high-band television signal. The second capacitance means can be provided in parallel with the first capacitance means by the switching voltage applied when the first capacitance means is applied.

In the television tuner of the present invention, a peaking coil is provided in parallel with the second capacitance means.
When the double tuning circuit is switched to a state of receiving a high-band television signal, the peaking coil, the first capacitance means and the second capacitance means are connected in parallel, and the peaking coil connected in parallel is By setting the resonance frequency of the first capacitance means and the second capacitance means to the low-band frequency of the high-band television signal, the second capacitance means is switched to the second capacitance means using the switch diode of the peaking circuit. It can be connected in parallel with one capacitance means.

[Brief description of the drawings]

FIG. 1 is a circuit diagram of a television tuner of the present invention.

FIG. 2 is a circuit diagram of a conventional television tuner.

FIG. 3 is a gain characteristic diagram of the television tuner.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 High frequency amplifier 2 Mixer 3 Interstage double tuning circuit 3a Primary tuning circuit 3b Secondary tuning circuit 4,8 Tuning coil for high band 5,9 Tuning coil for low band 6,10 Varactor diode 7,11,13,15,17 , 27, 28, 32 DC blocking capacitor 12 Coupling coil 14, 16, 30 Switch diode 18, 20, 21, 24, 25, 34, 35 Resistance 19 High band switching terminal 22 Low band switching terminal 23 Tuning voltage terminal 26 Peaking circuit 29 First capacitance means 31 Peaking coil 33 Second capacitance means

Claims (5)

[Claims] 1. A double-tuning circuit that can be switched between a high-band tuning circuit and a low-band tuning circuit, and a mixer connected to the double-tuning circuit. The capacitance value of the capacitance means is switched between a state in which the double-tuned circuit receives a high-band television signal and a state in which the double-tuning circuit receives a low-band television signal. A television tuner characterized in that it is larger than when it was turned on. 2. The capacitance means comprises first capacitance means and second capacitance means having a capacitance value larger than the capacitance value of the first capacitance means, wherein the double-tuned circuit is a low-band television signal. Is switched to receiving
The first capacitance means is provided between the input terminal of the mixer and ground, and when the double tuning circuit is switched to a state of receiving a high-band television signal, the second capacitance means is switched to the second capacitance means. 2. The television tuner according to claim 1, wherein the television tuner is provided between an input terminal of the mixer and a ground. 3. The capacity means comprises a first capacity means and a second capacity means, wherein the first capacity means is provided between an input end of the mixer and a ground, and When the double tuning circuit is switched to a state in which the double tuning circuit receives a high-band television signal, the capacitor is connected in parallel to the first capacitor.
The television tuner according to claim 1. 4. A switch diode is provided in series with said second capacitance means, and said second capacitance means and said switch diode connected in series are provided between an input terminal of said mixer and ground, When the tuning circuit is switched to receiving high-band television signals,
The television tuner according to claim 3, wherein the switch diode is turned on. 5. A peaking coil is provided in parallel with the second capacitance means, and when the double tuning circuit is switched to a state for receiving a high-band television signal, the peaking coil and the first capacitance are connected. Means and the second capacitance means are connected in parallel, and the resonance frequency of the peaking coil and the first capacitance means and the second capacitance means connected in parallel is set to a high-band television signal. 5. The television tuner according to claim 4, wherein the frequency is set to a low frequency.