KR100891845B1 - Tunner of single conversion type - Google Patents

Abstract

The present invention relates to a single conversion tuner that reduces cost and is easy to manufacture in the implementation of a single chip, comprising: a notch filter for removing an image signal corresponding to a selected channel from a received high frequency broadcast signal; An oscillator for generating an oscillation signal of a frequency band corresponding to the selected channel; A mixer which converts the output signal of the RF AGC and the output signal of the oscillator and converts it into an intermediate frequency (IF) signal, and a PLL (Phase) controlling the notch frequency of the notch filter and the oscillation frequency of the oscillator according to a selected channel. Lock Loop).

Tuner, notch filter, tracking filter, image noise

Description

Tuner of single conversion type

1 is a block diagram showing a conventional single conversion scheme tuner;

2 is a block diagram showing a conventional double conversion tuner;

3 is a block diagram showing a single conversion scheme tuner according to the present invention;

4 is an equivalent circuit diagram of a notch filter applied to a tuner according to the present invention, and

5 is a detailed circuit diagram of a notch filter applied to the tuner according to the present invention.

The present invention relates to a tuner provided in a TV receiving system. More particularly, the present invention relates to a single conversion tuner capable of simplifying implementation and reducing costs while reducing external elements in implementing a single chip.

In a TV receiving system that receives a broadcast signal of terrestrial or cable broadcasting and processes it for viewing by a user, a tuner is a main component that allows a user to select and watch a desired channel. The tuner amplifies a high frequency received signal received through an antenna, selects only a specific frequency band from the amplified high frequency signal, and restores only a broadcast signal of a desired channel. In addition, the tuner must be able to process wideband signals from 40 MHz to 900 MHz in order to be able to receive broadcasts of all currently provided channels.

Several schemes have been proposed to simply implement such a tuner at a smaller size, and among them, a double conversion scheme and a single conversion scheme are mainly used.

1 is a block diagram showing the structure of a tuner implemented by a conventional single conversion scheme.

Referring to FIG. 1, a conventional single conversion scheme tuner removes noise of a signal received by an antenna and amplifies a signal, and band-passes a desired band signal from an output signal of the low noise amplifier 11. A first tracking filter 12, an RF AGC (Radio Frequency Auto-Gain Controller) 13 for controlling a gain of a signal passing through the first tracking filter 12, and the RF AGC ( A second tracking filter 14 for band-passing the output signal of 13) to remove noise, an oscillator 15 for generating a local oscillation signal corresponding to a desired channel, and an output signal of the second tracking filter 14; And a mixer 16 for frequency down by mixing the output signal of the oscillator 15, an IF (Intermediate Frequency) amplifier 17 for amplifying the IF signal output from the mixer 16, and the IF amplifier 17. A band pass filter 18 for removing noise of an output signal of IF AGC (Intermediate Frequency Auto-Gain Controller 19) for adjusting the gain of the output signal of the overfilter (18) and the oscillator (15) and the first and second tracking filters (12, 14) according to the selected channel. It includes a phase lock loop (PLL) 20 for controlling.

In addition, the conventional single conversion tuner uses a plurality of first tracking filters 12, RF AGC 13, and second tracking filters 14 in parallel to process wideband signals from 40 MHz to 900 MHz. Connected.

Among the above components, only the oscillator 15, the mixer 16, the IF amplifier 17, and the PLL 20 are implemented as chips, and others are implemented in an external device form.

The single conversion tuner uses a plurality of tracking filters to extract and process only a desired signal from a 40MHz to 900MHz wideband signal, and the tracking filter determines channel selection capability. However, the tracking filter is implemented as a band pass method, and it is difficult to design and manufacture a product by using an air coil type device, which causes a defect, and in particular, increases labor cost to cost. That is, the above-described single conversion type tuner shows excellent performance, but has a problem in that manual tuning is required in the manufacturing process.

2 is a block diagram showing a configuration of a conventional double conversion tuner.

The dual conversion tuner is proposed to solve the problems of the single conversion tuner described above. As shown in FIG. 2, the RF AGC 21, the first and second mixers 22 and 25, and the first and second oscillators are illustrated. (23,26) and first and second PLLs (30 and 31) and first and second band pass filters (24 and 28), IF amplifiers (27) and IF AGCs (29) After the up-conversion of the received RF signal using the oscillation signal generated by the first oscillator 23 in the first mixer 22 for removal, the second oscillator 26 in the second mixer 25 is used. The up-converted signal is down-converted to an IF signal by using the oscillation signal generated by the N-th signal, and the gain control and filtering process is performed.

 Since the dual conversion tuner eliminates image noise during the up-conversion process, the dual conversion tuner does not require the tracking filter required by the single conversion tuner, thereby eliminating the problems caused by the tracking filter. This is easier than the single conversion method.

However, the dual conversion tuner has a problem that the chip internal circuitry is complicated for the dual conversion, and the chip size is increased due to the large number of internal chip elements.

Accordingly, the present invention has been proposed to solve the above-mentioned problems, and an object thereof is related to a single conversion scheme tuner which is easy to manufacture and reduces cost while reducing external components in a single chip.

In order to achieve the above object of the present invention, the present invention, a notch filter for removing the image signal corresponding to the selected channel from the received high-frequency broadcast signal; An oscillator for generating an oscillation signal of a frequency band corresponding to the selected channel; A mixer that converts the output signal of the RF AGC and the output signal of the oscillator and converts it into an intermediate frequency (IF) signal; a PLL (Phase) controlling the notch frequency of the notch filter and the oscillation frequency of the oscillator according to a selected channel; It provides a single conversion tuner that includes a lock loop.

In the single conversion tuner according to the present invention, the notch filter includes: first and second capacitors each having one end connected to a signal line through which the high frequency broadcast signal is transmitted; A first variable capacitor having one end connected to the other end of the first capacitor and the other end connected to a control terminal to which a control signal is input from the PLL; A second variable capacitor having one end connected to the other end of the second capacitor and the other end connected to a control terminal to which a control signal is input from the PLL; A current source providing a constant current; A first inductor having one end connected to the current source and the other end connected to a contact point of the first capacitor and the first variable capacitor; A second inductor having one end connected to the current source and the other end connected to a contact point of the second capacitor and the second variable capacitor; A first transistor having a drain connected to a contact point of the first capacitor, the first inductor, the first variable capacitor, a gate, and a source connected to ground; And a second transistor having a contact point of the second capacitor, the second inductor, the second variable capacitor, a drain connected to the gate of the first transistor, a gate connected to the drain of the first transistor, and a source connected to ground. It is done by

In addition, the single conversion scheme tuner according to the present invention comprises: an RF (Radio Frequency) amplifier for amplifying the high frequency broadcast signal and delivering it to the notch filter; An RF AGC (Auto Gain Controller) for controlling the gain of the high frequency broadcast signal passing through the notch filter; An IF amplifier amplifying the IF signal output from the mixer; A band pass filter for band-passing the IF signal output from the IF amplifier to remove out-of-band noise; And an IF AGC for controlling the gain of the IF signal passing through the band pass filter.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing in detail the operating principle of the preferred embodiment of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In addition, the same reference numerals are used for parts having similar functions and functions throughout the drawings.

In addition, throughout the specification, when a part is 'connected' to another part, it is not only 'directly connected' but also 'indirectly connected' with another element in between. Include. In addition, the term 'comprising' a certain component means that the component may be further included, without excluding the other component unless specifically stated otherwise.

3 is a block diagram showing the overall configuration of a single conversion tuner according to a preferred embodiment of the present invention.

Referring to Figure 3, the single conversion scheme tuner according to the present invention. An RF amplifier 31 for amplifying the received RF broadcast signal, a notch filter 32 for removing an image signal corresponding to a selected channel among the RF signals output from the RF amplifier 31, and the notch filter 32 RF AGC 33 for controlling the gain of the RF signal passing through the oscillator, an oscillator 34 for generating an oscillation signal of a frequency band corresponding to the selected channel, an output signal of the RF AGC 33 and the oscillator ( A mixer 35 for mixing the output signal of the signal 34 into an IF signal, an IF amplifier 36 for amplifying the IF signal output from the mixer 35, and an IF signal output from the IF amplifier 36; A band pass filter 37 for band-pass filtering to remove out-of-band noise, an IF AGC 38 for controlling gain of an IF signal passing through the band pass filter 37, and the notch filter according to a selected channel ( PLL 39 that controls the notch frequency of 32 and the oscillation frequency of the oscillator 34. It includes.

The single conversion tuner of the above-described configuration has a notch filter 32 which is relatively easy to implement and overcomes spatial constraints, compared to the tracking filter of the conventional single conversion tuner. This makes it easy to reduce the chip size.

In general, a notch filter, largely belonging to a band reject filter, is a filter designed to remove only components of a very narrow frequency band around a specific frequency. The present invention changes the notch frequency of the notch filter 32 to the frequency of the image signal corresponding to the selected channel through the PLL 39 to remove the frequency corresponding to the image signal of the selected channel signal from the received broadcast signal. I use it.

4 is an equivalent circuit diagram for explaining the operation principle of the notch filter 32 provided in the single conversion type tuner according to the present invention.

Referring to FIG. 4, the notch filter 32 includes a first capacitance component C ₁ connected to a signal line connecting the RF amplifier 31 and the RF AGC 32, and the first capacitance component C. ₁ ) and an inductance component (L ₁ ) and a second capacitance component (C ₂ ) provided between the ground and disposed in parallel with each other.

In the equivalent circuit, an image signal bypassed to ground and removed and a broadcast signal transferred from the RF amplifier 31 to the RF AGC 33 are defined as in Equation 1 below.

In Equation 1, ω _image represents the wavelength of the image signal to be removed, ω _signal represents the wavelength of the broadcast signal passing through. Accordingly, by varying the second capacitance component C ₂ disposed in parallel with the inductance component L ₁ , the signal removed from the notch filter 32 can be adjusted to an image signal corresponding to a desired channel.

5 shows a detailed circuit of the notch filter implemented by the present invention to implement the image removal function described above. In the present invention, in order to increase the quality factor (Qulity factor) of the notch filter 32, it is implemented as a VCO type.

Referring to FIG. 5, the notch filter 32 includes first and second capacitors C11 and C12, one end of which is connected to a signal line connecting the RF amplifier 31 and the RF AGC 33, and One end thereof is connected to the other end of the first and second capacitors C11 and C12, respectively, and the other end thereof includes the first and second variable capacitors C21 and C22 which are commonly connected to the control terminal Vc, and the current source I1. One end is connected to the current source I1 in common, and the other end thereof is the contact point of the first capacitor C11 and the first variable capacitor C21, and the second capacitor C12 and the second variable capacitor C22, respectively. First and second inductors L11 and L12 connected to the contacts, the contacts of the first capacitor C11, the first inductor L11, and the first variable capacitor C21, and the second capacitor C12 and the second capacitor. Source grounded first and second transistors whose drains are respectively connected to the contacts of the second inductor L12 and the second variable capacitor C22 and the gates and the drains cross each other. And a (M1, M2).

The control terminal Vc is connected to the PLL 39 so that a control voltage applied according to a selection channel is input.

The illustrated notch filter is implemented as a differential structure, and the first and second capacitors C11 and C12 form the first capacitance component C ₁ shown in FIG. 4, and the first and second variable capacitors C21 and C22. ) Forms a second capacitance component C ₂ , and the first and second inductors L11 and L12 form an inductance component L ₁ .

Accordingly, the control voltage according to the selection channel is applied from the PLL 39, so that the capacitances of the first and second variable capacitors C21 and C22 are changed, so that the frequency bypassed from the notch filter 32 to ground is changed. Is determined. The determined frequency may be tuned by the first and second transistors M1 and M2 to minimize the tuning error.

Next, the single conversion tuner of the present invention described above may implement the mixer 35 as an image rejection mixer, whereby the notch filter 32 and the mixer 35 By removing the image signal, the image removal characteristic can be improved.

In addition, the band pass filter 37 removes signals other than the intermediate frequency signal by passing only IF signals, that is, signals in the 44 MHz or 36 MHz band, and is usually implemented as a surface acoustic wave (SAW) filter. do.

Accordingly, the above-described single conversion scheme tuner may implement all components on a single chip except for the band pass filter 37 implemented as the saw filter.

The operation of the single conversion scheme tuner according to the present invention configured as described above is as follows.

In Fig. 3, the PLL 39 applies a control voltage for controlling the notch frequency and the oscillation frequency to the notch filter 32 and the oscillator 34, respectively, according to the selected channel.

The notch filter 32 thus tunes to the frequency of the image noise associated with the frequency band of the selected channel, bypassing the frequency signal to ground. The oscillator 34 generates an oscillation signal related to a frequency band of the selected channel, that is, an oscillation signal of a frequency band for converting a high frequency broadcast signal of the selected channel into an IF signal.

As a result, the high frequency broadcast signals of the 40 to 900 MHz band input from the antenna or the like are amplified by the RF amplifier 31, passed through the notch filter 32, and after the image signal corresponding to the selected channel is removed, the RF AGC ( 33), the RF AGC 33 adjusts the high frequency broadcast signal from which the image signal of the selected channel is removed to a signal having a proper size, and transmits the signal to the mixer 35. The mixer 35 mixes the input high frequency broadcast signal and the oscillator signal input from the oscillator 34, selects only the high frequency broadcast signal of a selected channel, and converts the selected high frequency broadcast signal into an IF signal. 36) and amplified and filtered through the band pass filter 37, and then adjusted to an appropriate gain in the IF AGC 38 and output.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be apparent to those skilled in the art.

As described above, the single conversion tuner according to the present invention removes an image signal by using a notch filter that is relatively easy to implement and has no spatial constraints. This eliminates the need to consider the effects, solves the problem of manual tuning by the tracking filter, and further improves cost and ease of manufacturing by simplifying the circuit structure within the chip while reducing the number of external devices. There is.

Claims (5)

A notch filter for removing an image signal corresponding to a selected channel from the received high frequency broadcast signals; An oscillator for generating an oscillation signal of a frequency band corresponding to the selected channel; A mixer for mixing the output signal of the notch filter and the output signal of the oscillator and converting the signal into an intermediate frequency (IF) signal; Phase Lock Loop (PLL) for controlling the notch frequency of the notch filter and the oscillation frequency of the oscillator according to a selected channel. An RF amplifier for amplifying the high frequency broadcast signal and transferring the amplified signal to the notch filter; An RF AGC (Auto Gain Controller) for controlling the gain of the high frequency broadcast signal passing through the notch filter; An IF amplifier amplifying the IF signal output from the mixer; A band pass filter for band-passing the IF signal output from the IF amplifier to remove out-of-band noise; And IF AGC controlling the gain of the IF signal passing through the band pass filter A single conversion scheme tuner including. The method of claim 1, wherein the notch filter is First and second capacitors each having one end connected to a signal line through which the high frequency broadcast signal is transmitted; A first variable capacitor having one end connected to the other end of the first capacitor and the other end connected to a control terminal to which a control signal is input from the PLL; A second variable capacitor having one end connected to the other end of the second capacitor and the other end connected to a control terminal to which a control signal is input from the PLL; A current source providing a constant current; A first inductor having one end connected to the current source and the other end connected to a contact point of the first capacitor and the first variable capacitor; A second inductor having one end connected to the current source and the other end connected to a contact point of the second capacitor and the second variable capacitor; A first transistor having a drain connected to a contact point of the first capacitor, the first inductor, the first variable capacitor, a gate, and a source connected to ground; And A second transistor having a contact point of the second capacitor, a second inductor, a second variable capacitor, a drain connected to the gate of the first transistor, a gate connected to the drain of the first transistor, and a source connected to ground A single conversion scheme tuner comprising a. delete The method of claim 1, Wherein the RF amplifier, notch filter, RF AGC, mixer, oscillator, IF amplifier, IF AGC, and PLL are implemented as a single chip. The method of claim 1, And the mixer is an image cancellation mixer having an image noise cancellation function.

Images