KR100434855B1 - Vhf voltage control oscillation circuit and tuner capable of receiving two band using the same - Google Patents

Abstract

The present invention relates to a VHF voltage controlled oscillator circuit and a tuner capable of two-band reception using the same. Specifically, the VHF voltage controlled oscillator circuit has a wide invariable frequency range by fixing inductance and variable capacitance when the tuner oscillates. Enables two-band reception to enable two-band reception, reducing circuit volume and simplifying circuits, reducing circuit manufacturing costs, and reducing the number of bands, minimizing crosstalk between bands You can.

Description

VHF VOLTAGE CONTROL OSCILLATION CIRCUIT AND TUNER CAPABLE OF RECEIVING TWO BAND USING THE SAME}

The present invention relates to a tuner, and in particular, the VHF voltage controlled oscillator circuit allows the inductance to be fixed and the capacitance to be varied when the tuner is oscillated, thereby widening the variable range of the frequency so that two bands can be used. The present invention relates to a VHF voltage controlled oscillator circuit and a tuner capable of two-band reception using the same.

In general, the tuner uses a method of selecting signals by dividing the reception band into a VHF LOW band, a VHF HIGH band, and a UHF band because the RF signal received through the antenna is a wide band.

This tuner is described with reference to FIG. 1 as follows.

1 is a block diagram schematically showing the configuration of a typical three-band tuner.

The tuner uses a wide frequency frequency of 55.25 to 801.25 MHz for NTSC and 8.25 to 855.25 MHz for PAL. For this reason, VSC is currently using VHF Low band 55.25 ~ 127.25MHz, VHF High band 133.25 ~ 361.25MHz, and UHF band 367.25 ~ 801.25MHz.

Meanwhile, the tuner requires a voltage controlled oscillator for generating each oscillation frequency used in three bands, and the operation of the voltage controlled oscillator will be described below.

2 is a block circuit diagram showing the configuration of a VHF low / high voltage controlled oscillator circuit of a general tuner.

The three-band tuner is oscillated by switching the VHF low / high voltage controlled oscillation circuit 10 by the switch diode D1.

In more detail, the oscillation of the VHF high voltage controlled oscillation part is conducted when the VHF high S / W voltage is applied from the PLL IC (not shown), so that the switch diode D1 conducts and is bypassed to the capacitor C6 so that the inductor L1 is in parallel with the varactor diode VVC1. This LC parallel resonant circuit is configured to cause resonance, and the frequency corresponding to the resonance frequency fo is oscillated by the following equation. This oscillation frequency is inputted to the VHF IC 11 in which the oscillation transistor is built, and amplified and output from the oscillation transistor.

At this time, the VHF Low S / W voltage is turned off from the PLL IC, and the varactor diode VVC1 has a variable capacitance due to the tuning voltage.

On the contrary, the oscillation of the VHF low voltage controlled oscillator is turned off when the VHF Low S / W voltage is applied from the PLL IC (not shown), thereby turning off the switch diode D1. At this time, the oscillation frequency is the composite inductor of the inductors L1 and L2 and the varactor diode VVC1 constitutes an LC parallel resonant circuit so that the frequency corresponding to the resonant frequency (fo) is oscillated.

The characteristics of the conventional VHF low / high voltage controlled oscillator circuit is that the capacitance ratio of the varactor diode VVC1 is usually about 15 in order to widen the oscillation range of the VHF high / low band, and the inductor L1 or L1 is used. The value of + L2) is changed to switch diode D1 and used. Here, the capacitance capacitance ratio refers to the capacitance ratio when the reverse voltage of the varactor diode VVC1 varies from 1 to 25V.

However, since the conventional three-band tuner requires a separate component for each band, there is a problem that the volume of the circuit increases, the circuit becomes complicated, and the number of parts is used, thereby increasing the manufacturing cost.

In addition, the conventional three-band tuner has another problem that cross-modulation occurs between bands because multiple reception bands are used.

Accordingly, an object of the present invention is to solve the above problems, and the VHF voltage controlled oscillator circuit allows the inductance to be fixed and the capacitance to be varied when the tuner oscillates so that two bands can be used by widening the variable range of the frequency. In addition to reducing the volume, the circuit is simplified, and the manufacturing cost of the circuit is relatively reduced.

Another object of the present invention is to reduce the number of bands can minimize the cross-modulation (Cross Modulation) between bands.

1 is a block diagram schematically showing the configuration of a typical three-band tuner

2 is a block circuit diagram showing the configuration of a VHF low / high voltage controlled oscillator circuit of a general tuner.

3 is a block diagram schematically showing the configuration of a tuner capable of two-band reception according to the present invention.

4 is a block circuit diagram showing the configuration of a VHF voltage controlled oscillator circuit according to the present invention.

<Description of the symbols for the main parts of the drawings>

150: VHF voltage controlled oscillator circuit 151: VHF IC

152: resonant circuit C10 ~ C30: capacitor

C40: frequency expansion capacitor L10: inductor

VVC10: Varactor Diode

Features of the present invention for achieving the above objects,

In a VHF IC having an oscillation transistor therein and a VHF voltage controlled oscillation circuit of a tuner composed of a resonance circuit,

The resonant circuit,

A plurality of capacitors connected in series to the base and the collector of the oscillation transistor of the VHF IC;

A varactor diode variable in capacitance by a tuning voltage input from an external device and connected in series to a base of an oscillation transistor of the VHF IC such that capacitances of the plurality of capacitors are synthesized;

An inductor connected in series with the collector of the oscillation transistor of the VHF IC so as to cause resonance with the varactor diode, and electrically connected with the varactor diode;

And a frequency expansion capacitor coupled in parallel with the varactor diode to be synthesized with the capacitance of the varactor diode to provide a composite capacitance.

Here, the varactor diode,

The value of capacitance capacity ratio is 18-20.

Another feature of the invention,

An input tuning, an RF amplifier, and a VHF band composed of RF tuning to convert an input RF signal into a signal of a VHF band,

Input tuning, an RF amplifier, and an UHF band composed of RF tuning so as to convert an input RF signal into a signal of a UHF band,

A mixer for outputting an IF signal by mixing the VHF band and the signal output from the UHF band with an oscillation signal input from the outside;

A UHF voltage controlled oscillation circuit for supplying a UHF voltage controlled oscillation signal to the mixer;

It characterized in that it comprises a VHF voltage controlled oscillation circuit of claim 1.

Hereinafter, a configuration of a VHF voltage controlled oscillation circuit and a tuner capable of two-band reception using the same will be described in detail with reference to FIGS. 3 and 4.

FIG. 3 is a block diagram schematically showing the configuration of a tuner capable of two-band reception according to the present invention, and FIG. 4 is a block circuit diagram showing the configuration of the VHF voltage controlled oscillation circuit according to the present invention.

3 and 4, the tuner 100 capable of receiving two bands according to the present invention includes a VHF band 110, a UHF band 120, a mixer 130, and a UHF voltage controlled oscillation circuit ( 140 and a VHF voltage controlled oscillation circuit 150.

The VHF band 110 includes an input tuning 111, an RF amplifier 112, and an RF tuning 113 to convert an RF signal input through an antenna ANT into a signal of the VHF band. Here, the VHF band 110 uses a frequency of 55.25 ~ 199.25 MHz in the case of NTSC.

The UHF band 120 includes an input tuning 121, an RF amplifier 122, and an RF tuning 123 to convert the RF signal input through the antenna ANT into a signal of the UHF band. Here, the UHF band 110 divides the frequency into 205.25 to 801.25 MHz in the case of NTSC.

The mixer 130 mixes the signal output from the VHF band 110 and the UHF band 120 with the oscillation signal input from the outside to output the IF signal.

The UHF voltage controlled oscillation circuit 140 supplies the UHF voltage controlled oscillation signal to the mixer 130.

The VHF voltage controlled oscillation circuit 150 is composed of a VHF IC 151 and a resonance circuit 152.

The VHF IC 151 is provided with an oscillation transistor (not shown), and amplifies and outputs an oscillation frequency input from the oscillation transistor.

The resonant circuit 152 has a variable capacitance due to a plurality of capacitors C10 to C30 connected in series to the base and the collector of the oscillation transistor of the VHF IC 151 and a tuning voltage input from the outside to provide a synthesized capacitor value. And the inductance value of the varactor diode VVC10 connected in series to the base of the oscillation transistor so that the capacitances of the capacitors C10 to C30 of the capacitor are synthesized, and the varactor diode VVC10 is provided, and the collector of the oscillation transistor of the VHF IC 151 is provided. Inductor L10, which is electrically connected to varactor diode VVC10, and a capacitor C40 for frequency extension, which is combined with the capacitance of varactor diode VVC10 and connected in parallel to the connection lines of varactor diode VVC10 and inductor L10 to provide a composite capacitance. It is composed.

Here, it is preferable to use the varactor diode VVC10 having a capacitance capacitance ratio of 18 to 20 in order to widen the range of the oscillation frequency.

Here, the reason why the frequency expansion capacitor C40 is connected in parallel is that when the capacitors are connected in parallel, their capacitance is added to the combined capacitance.

Hereinafter, the operation of the VHF voltage controlled oscillation circuit and the tuner capable of receiving two bands using the same will be described in detail with reference to FIG. 4.

First, oscillation of the VHF voltage controlled oscillation circuit 150 is performed according to the tuning voltage input from the tuner 100.

The oscillation of the VHF voltage controlled oscillation circuit 150 is composed of the LC parallel resonant circuit formed by the inductance of the inductor L10 and the combined capacitance of the varactor diode VVC10 and the frequency expansion capacitor C40, which causes resonance, resulting in a frequency corresponding to the resonance frequency (fo). Will have a rash. This oscillation frequency is input to the VHF IC 151 in which the oscillation transistor is built and amplified by the oscillation transistor. Here, the inductance is fixed and the capacitance is varied to tune the desired frequency.

On the other hand, the inductance is fixed and the capacitance can be tuned to tune the desired frequency, depending on the capacitance can be implemented greatly depends. Thus, the varactor diode VVC10 uses a capacitance capacitance ratio between 18 and 20.

Assuming that the capacitance capacity ratio is 19, the capacity change amount varies from 2.6 to 51 pF, so that the available frequency is 54.54 to 241.55 MHz for the VHF band according to Equation 1 above, and the usable frequency is for the UHF band. Implemented from 194.27 to 860.43 MHz.

Therefore, when the VHF voltage controlled oscillator circuit oscillates, the inductance is fixed and the capacitance is variable, thereby widening the range of the tuner's frequency to use two bands.

As described above, according to the VHF voltage controlled oscillator circuit and a tuner capable of receiving two bands using the same, the VHF voltage controlled oscillator circuit allows the inductance to be fixed and the capacitance to be varied when the tuner oscillates so that a variable range of frequency By increasing the size of the two bands, the circuit can be simplified while reducing the volume of the circuit, reducing the manufacturing cost of the circuit, and reducing the number of bands, thereby minimizing the interference between the bands.

Claims (3)

In a VHF IC having an oscillation transistor therein and a VHF voltage controlled oscillation circuit of a tuner composed of a resonance circuit, The resonant circuit, A plurality of capacitors connected in series to the base and the collector of the oscillation transistor of the VHF IC; A varactor diode variable in capacitance by a tuning voltage input from an external device and connected in series to a base of an oscillation transistor of the VHF IC such that capacitances of the plurality of capacitors are synthesized; An inductor connected in series with the collector of the oscillation transistor of the VHF IC so as to cause resonance with the varactor diode, and electrically connected with the varactor diode; And a frequency expansion capacitor coupled in parallel with the varactor diode to combine with the varactor diode's capacitance to provide a composite capacitance. The method of claim 1, The varactor diode, A VHF voltage controlled oscillation circuit characterized in that the value of the capacitance capacity ratio is 18 to 20. An input tuning, an RF amplifier, and a VHF band composed of RF tuning to convert an input RF signal into a signal of a VHF band, Input tuning, an RF amplifier, and an UHF band composed of RF tuning so as to convert an input RF signal into a signal of a UHF band, A mixer for outputting an IF signal by mixing the VHF band and the signal output from the UHF band with an oscillation signal input from the outside; A UHF voltage controlled oscillation circuit for supplying a UHF voltage controlled oscillation signal to the mixer; 2. A tuner capable of two-band reception comprising the VHF voltage controlled oscillator circuit of claim 1.