DE19715956C2 - Input circuit for a television tuner - Google Patents

Description

The present invention relates to an input circuit for a television door ner including an image blocking circuit for removing image frequencies, that act as spurious waves on a resonant target frequency.

In general, the intermediate frequency in television tuners etc. can be determined by Mi the desired reception frequency with a local overlay frequency are obtained, which is higher by an intermediate frequency. If a receive frequency that is larger than the frequency by the intermediate frequency the local beat frequency is entered, an image disturbance occurs on.

Fig. 3 shows a basic input circuit 1 for a conventional television tuner (JP 6-252706 A). A VHF band from the received via an antenna 2 signals are filtered 3 and via a coupling capacitor C1 and the input circuit 1 supplied to an RF amplifier (40 MHz to 470 MHz) by a VHF-band Se lesson filter (IF filter). In the input circuit 1 , terminal ends of coils L1 and L2 are connected to the coupling capacitor C1, and the other terminal end of the coil L1 is connected to ground through a capacitor C2. The other terminal end of the coil L2 is connected to ground via a capacitance diode VD1 and to the high-frequency amplifier circuit 4 via a capacitance diode VD1. The connection end of the coil L2 and the connection end of the capacitance diode VD2 are connected to a capacitor C3 connected in parallel.

The ratio of minimum frequency to maximum frequency in the VHF band (40 MHz up to 470 MHz) is large. Therefore, the voting is carried out in all bands Controlling the inductances of the coils L1 and L2 in accordance therewith performed whether a desired resonance frequency  in an upper channel band or in a lower channel band is so that this inductance is small when receiving a high frequency and is large when a low frequency is received.

Also, by controlling the capacitances of the capacitance diodes VD1 and VD2, the impedances are adjusted at a desired frequency so that the capacitances are small when a high frequency is received and large when a low frequency is received. As shown in FIG. 4, by connecting the capacitor C3 in parallel with the series connection of the coil L2 and the capacitance diode VD2, an image blocking circuit is formed which blocks image frequencies acting as interference waves at a desired resonance frequency.

In the conventional input circuit 1, however , the capacitor C3 is connected in parallel with the series circuit of the coil L2 and the capacitance diode VD2 to form the image blocking circuit. However, this arrangement makes it extremely difficult to control the capacitance of the capacitor C3 and, as a result, there are adverse image disturbances. In other words:

• 1. by increasing the capacitance of the capacitor C3, the ver changeable range of the frame rate, but the variable range can not go to a high frequency be continued. Since the coils L1 and L2 are tuned so that they have small inductances when a high frequency is received, the parallel to the variable coil L2 switched capacitor C3 has a small inductance, is the Desired frame rate by double the intermediate freq quenz greater than the receiving resonance frequency. Therefore, under under these conditions, the capacitance of the capacitor C3 is reduced to tune the desired frame rate.
• 2. The reduction in the capacitance of capacitor C3 narrows however, the changing range of the frame rate, causing  it becomes difficult to set the frame rate to the desired frame rate vote.

From US 50 54 117 is a tunable UHF filter for a television temp catcher known, which is used on the lower side of the UHF passband eliminate an image frequency without affecting the useful frequencies The filter contains a capacitance diode and a capacitance between on gear and output of the circuit on the one hand, and contains a second capaci Activity diode between the signal line and circuit ground.

From US 48 35 608 an image frequency blocking circuit is known is between the input and the output of a television tuner circuit and a series connection of a capacitance, a capacitance diode and one Contains inductance. A similar circuit is known from US 47 71 332.

It is therefore an object of the invention to provide an input circuit for a To provide television tuners where the changing range is to lock one the frame rate can be expanded and at which the frame rate can be tuned to the desired frequency.

This object is achieved by the features of the patent solved.

Through the input circuit for the TV tuner, the combined Kapa capacitor and the capacitance diode even when the capacitance of the blocking capacitor is relatively increased, decreased if one high frequency is received. As a result, the changeable area the frame rate can be expanded, and the frame rate can be easily be tuned to the desired frame rate.

As described above, the capacitance of the capacitance diode can be invented in accordance with the reception frequency by additional  Connect the capacitance diode matched with the image blocking capacitor become. Therefore, the combined capacitance of the capacitor and the Ka capacitance diode can be reduced when a high frequency is received, even if the capacitance of the capacitor is increased relatively, so that the variable range of frame rate  can be expanded, and the frame rate can be set to desired frame rate can be tuned.

The invention is described below using an exemplary embodiment explained in more detail.

Fig. 1 is a diagram showing a present input circuit for a television tuner according to an embodiment of the invention.

Fig. 2 is a circuit diagram showing an image blocking circuit included in Fig. 1.

Fig. 3 is a circuit diagram showing a basic pattern of a conventional input circuit for a television tuner.

Fig. 4 is a circuit diagram showing the image blocking circuit shown in Fig. 3.

Fig. 1 shows a circuit diagram of an input circuit for a television tuner according to an embodiment of the present invention. FIG. 2 is a circuit diagram of an image blocking circuit included in FIG. 1. The components identical to those in the conventional example are identified by the same reference numerals.

As shown in Fig. 1, among the signals received by an antenna 2 , a VHF band (40 MHz to 470 MHz) is selected by a VHF band selection filter 3 and an input circuit 1 a and a coupling capacitor 5 a high-frequency amplifier 4th led to. The input terminal 23 of the input circuit 1 a is via coils 6 , 7 , 8 provided between them, via a capacitor 9 , a coil 10 and via a capacitance diode 28 with the output connection 24 and also via an image blocking capacitor 11 provided between them and a capacitance diode 29 with the output connection 24 connected.

The coils 6 and 7 are connected at a point which is also connected via a diode 13 and a coil 16 to the connection ends of resistors 20 and 22 and to a capacitor 21 . The other terminal end of the resistor 22 is connected to a VHF low-band selection terminal 27 . The other connection ends of the opposing stand 20 and the capacitor 21 are connected to ground. The coils 7 and 8 are connected at a point which is also connected to one connection end of a coil 12 , the other connection end of the coil 12 via a capacitor 18 to ground and also via a resistor 31 to a VHF high-band selection connection 26 connected is.

In addition, the point at which the coil 8 and the capacitor 9 are connected is also connected via the diode 14 to the point between the diode 13 and the coil 16 .

A counter voltage supplied by a tuning voltage supply connection 25 is fed to the capacitance diodes 15 and 28 via a resistor 19 or the capacitance diode 29 through a resistor 30 .

At this time, a voltage is selectively the VHF low-band Selek tion terminal 27 and supplied to the VHF high-band selection terminal 26 to. In other words, when a VHF low band signal is received, a voltage is selectively applied to the VHF low band selection terminal 27 so that the diodes 13 and 14 are turned off. When a VHF high band signal is received, a voltage is selectively applied to the VHF high band selection terminal 26 so that the diodes 13 and 14 are turned on.

Fig. 2 is an equivalent circuit diagram showing an image blocking circuit which is only pulled out of the input circuit 1 a shown in Fig. 1 a. In Fig. 2, the capacitor 9 shown in Fig. 1 is short-circuited because it has a large capacitance and is used to block a direct current. In addition, VD3 represents a variable capacitor formed by connecting the capacitance diode 29 and the capacitor 11 in series, and L is a composite coil whose inductance can be changed by the diodes 13 and 14 .

When the diodes 13 and 14 are turned off, the combined coil L has the coils 6 , 7 , 8 and 10 which are connected in series. When the diodes 13 and 14 are turned on, the composite coil has the coils 7 and 8 which are short-circuited and the coils 6 and 10 which are connected in series. In other words, the inductance of the image blocking circuit is changed to a large value when a VHF low-band signal is received and to a small value when a VHF high-band signal is received.

In addition, the capacitance of the composite variable capacitor VD3 is changed by changing a counter voltage supplied to a tuning voltage supply terminal 25 together with the capacitances of the variable capacitance diodes 15 and 28 . The capacitance of the composite variable capacitor VD3 is changed to a small value when a high channel signal is received and to a low value when a low channel signal is received.

Therefore, the inductance of the composite coil L can be under two Changed band switching conditions when a signal in the VHF band is received. It can also Capacitance of the composite variable capacitor VD3 in Relationship with the selection of channels in the same band changed  and thus the frame rate can match mood with a change in the reception channels.

Therefore, the frame rate can be in the range between the minimum frequency and the maximum frequency according to the resonance frequency can be changed. Therefore, the changing range of Frame rate can be expanded, and the frame rate can simply be tuned to the desired frame rate.

Claims (1)

Input circuit for a television tuner,

• a) in which a series circuit having an image blocking capacitor ( 11 ) and a second capacitance diode ( 29 ) is connected in parallel with a series circuit having a tuning coil (6-10) and a first capacitance diode ( 28 ),
• b) in which the first capacitance diode ( 28 ) and the second capacitance diode ( 29 ) are fed a common tuning voltage, so that their capacitances and thus the resonance frequency and the blocking frequency change, and
• c) in which the two series connections lie between an input and an output connection of the input circuit.