KR20040103132A - Television including an automatic-fine-tuning function - Google Patents

Abstract

The present invention relates to a television having an automatic fine tuning (AFT) function, and comprising: an image processor for detecting a voltage corresponding to a frequency of an intermediate frequency signal inputted by a tuner and outputting an AFT signal by comparing with a reference voltage; Includes a microcomputer that receives the AFT signal and variably adjusts the oscillator frequency of the tuner, and a bidirectional serial bus that provides a communication link for the transfer of the AFT and data signals and the clock signal between the image processor and the microcomputer. Implementing lines and clock lines as bidirectional serial buses has the advantage of ease of circuit design or layout.

Description

TELEVISION INCLUDING AN AUTOMATIC-FINE-TUNING FUNCTION}

The present invention relates to a television (TV) having an automatic fine tuning (AFT) function, and more particularly, to integrate an AFT line, a data line, and a clock line between an image processor and a microcomputer, such as an I ² C bus. A television having an AFT function implemented by a bidirectional serial bus providing a communication link between circuits.

Generally, in a TV with a built-in tuner, a broadcast signal of a desired channel is tuned among a plurality of broadcast signals received through an antenna, and the broadcast signal (in the case of the NTSC system) is 45.75MHz and the voice is 41.25MHz. Convert the frequency to an intermediate frequency signal. However, when a broadcast station transmits a broadcast signal, there may be a change in the carrier frequency of the broadcast signal, and a change may occur in the frequency oscillated by the oscillator in order to convert the broadcast signal tuned on the tuner side of the TV into an intermediate frequency signal. . In this case, there was a problem that the screen distortion is caused by the change of the intermediate frequency. Therefore, the TV employs an AFT circuit to compensate for the variation in frequency.

According to the prior art, as shown in Fig. 1, the AFT function is provided in the image processor 30 for image demodulating the broadcast signal tuned by the tuner 10.

When the channel information to be received from the microcomputer 40 is supplied, the tuner 10 tunes a broadcast signal of a desired channel among the broadcast signals of the RF type received through the antenna, and the oscillation frequency of the tuned channel RF signal from the oscillator. By converting into an intermediate frequency signal and outputting.

The intermediate frequency signal output from the tuner 10 is amplified to a predetermined size by a preamplifier (not shown), and the amplified intermediate frequency signal is required frequency through a surface acoustic wave (SAW) filter 20. Get the character.

The image processor 30 demodulates the broadcast signal tuned by the tuner 10 to the image output device 50, detects a voltage corresponding to the frequency of the input intermediate frequency signal, and detects a microcomputer through a dedicated AFT line. Output to (40).

The comparator 41 in the microcomputer 40 outputs the AFT voltage of the image processor 30 to the tuner controller 43 by comparing it with the reference voltage, whereby the tuner controller 43 variably adjusts the oscillation frequency of the tuner 10. do. Thus, even if the carrier frequency of the input RF signal fluctuates or the oscillation frequency fluctuates, the tuner 10 re-adjusts the oscillation frequency according to the frequency change of the intermediate frequency signal and always outputs an intermediate frequency signal of a predetermined frequency.

However, according to the prior art as described above, the AFT output of the image processor 30 is transferred to the microcomputer 40 through a dedicated AFT line, and between the image processor 30 and the microcomputer 40 for data and clock. There is a signal line. Such a plurality of signal lines have a problem of providing difficulty in the design and layout of the circuit.

The present invention has been proposed to solve such a conventional problem, and implements an AFT line, a data line, and a clock line between an image processor and a microcomputer as a bidirectional serial bus that provides a communication link between integrated circuits such as an I ² C bus. The purpose is to make it easy to obtain circuit designs and layouts.

A television having an AFT function according to the present invention for realizing the above object comprises an image processor for outputting an AFT signal by detecting a voltage corresponding to a frequency of an intermediate frequency signal selected and input from a tuner and comparing it with a reference voltage. And a micom for receiving the AFT signal and variably adjusting the oscillation frequency of the tuner, and a bidirectional serial bus providing a communication link for transferring the AFT signal, data signal, and clock signal between the image processor and the microcomputer. do.

1 is a block diagram of a television having an automatic fine tuning function according to the prior art;

2 is a block diagram of a television having an automatic fine tuning function according to the present invention;

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

110: tuner 120: SAW filter

130: image processor 131: AFT detector

133: comparator 135: AFT register

137, 141: I ² C bus 140: microcomputer

143: tuner controller 150: video output device

There may be a plurality of embodiments of the present invention. Hereinafter, preferred embodiments will be described in detail with reference to the accompanying drawings. This embodiment allows for a better understanding of the objects, features and advantages of the present invention.

As shown in the block diagram of FIG. 2, a television having an AFT function according to the present invention is an I ² as a signal line for transmitting an AFT signal, a data signal, and a clock signal between the image processor 130 and the microcomputer 140. C buses 137 and 141 are implemented. Here, the I ² C buses 137 and 141 are one embodiment of a bidirectional serial bus that provides a communication link between integrated circuits.

When the channel information to be received from the microcomputer 140 is supplied, the tuner 110 tunes a broadcast signal of a desired channel among RF broadcast signals received through an antenna, and oscillates a frequency of the tuned channel RF signal from the oscillator. By converting into an intermediate frequency signal and outputting.

The intermediate frequency signal output from the tuner 110 is amplified to a predetermined size by a preamplifier (not shown), and the amplified intermediate frequency signal is required through a surface acoustic wave (SAW) filter 120. Get the character.

The image processor 130 demodulates the broadcast signal tuned by the tuner 110 and transmits the image signal to the image output device 150. The AFT detector 131 detects a voltage corresponding to the frequency of the input intermediate frequency signal and comparator. The comparator 133 sets the AFT register 135 by comparing the input AFT voltage with a reference voltage.

When the AFT register 135 is set, the AFT signal is transmitted to the microcomputer 140 through the I ² C buses 137 and 141. The signal line for the data and the clock between the image processor 130 and the microcomputer 140 is also I ² C buses 137 and 141 are used.

The tuner controller 143 receiving the AFT signal through the I ² C buses 137 and 141 variably adjusts the oscillation frequency of the tuner 110. Thus, even if the carrier frequency of the input RF signal fluctuates or the oscillation frequency fluctuates, the tuner 110 always adjusts the oscillation frequency according to the frequency change of the intermediate frequency signal and always outputs an intermediate frequency signal of a predetermined frequency.

In the above description, but limited to one embodiment of the present invention, it is obvious that the technology of the present invention can be easily modified by those skilled in the art. Such modified embodiments should be included in the technical spirit described in the claims of the present invention.

As described above, the present invention facilitates circuit design or layout by implementing an AFT line, a data line, and a clock line between an image processor and a microcomputer as a bidirectional serial bus that provides a communication link between integrated circuits such as an I ² C bus. There is an effect that can be obtained.

Claims (3)

An image processor which detects a voltage corresponding to a frequency of the intermediate frequency signal inputted by the tuner and outputs an AFT signal by comparing with a reference voltage; A microcomputer that receives the AFT signal and variably adjusts an oscillation frequency of the tuner; A bidirectional serial bus providing a communication link for the transfer of said AFT signal, data signal, and clock signal between said image processor and said microcomputer. Television with automatic fine tuning function comprising a. The method of claim 1, The image processor may include an AFT detector detecting a voltage corresponding to a frequency of an input intermediate frequency signal; A comparator configured to output the detected AFT voltage by comparing it with a reference voltage; An AFT register set by the output of the comparator to deliver an AFT signal through the bidirectional serial bus to the microcomputer Television with an automatic fine tuning function, characterized in that it comprises a. The method according to claim 1 or 2, And said bidirectional serial bus is implemented as an I ² C bus.