KR20110064250A - Rf signal processing apparatus - Google Patents

Abstract

PURPOSE: Even when a digital channel and an analog channel are alternatively selected, an RF signal processing circuit is provided to simply control a digital/analog combined tuner through a communication line selection IC. CONSTITUTION: A digital/analog combined tuner(20) processes the input RF(Radio Frequency) signal of a digital mode or an analog mode. A first MICOM(Microcomputer)(22) processes the analog signal of the digital/analog combined tuner. A first memory(21) stores the processed data of the first micom. A second MICOM(23) processes the digital signal of the digital/analog combined tuner. A second memory(24) stores the processed data of the second MICOM. A communication line selection IC(Integrated Circuit)(30) outputs the output signal of the digital/analog combined tuner to A8, B8 terminal or A7, B7 terminal.

Description

RF signal processing circuit {RF SIGNAL PROCESSING APPARATUS}

The present invention relates to an RF signal processing circuit, and more particularly, to a digital / analog tuner.

With the development of wireless communication technology, it is possible to transmit and receive audio and video signals far away. When transmitting audio signals and video signals, a communication frequency called an RF signal uses a signal of several hundred MHz to several Ghz. In the transmission equipment, the audio signal and the video signal are combined with the RF signal, and in the reception equipment, the RF signal and the audio signal and the video signal are separated. In this case, combining is called modulation and separating is called demodulation.

Among the RF signal processing circuits, a circuit that receives an RF signal, selects and modulates an RF signal of a desired frequency, and separates and outputs an image signal and an audio signal is generally called a tuner. Traditionally, tuners have used analog methods to receive and process RF signals. Recently, however, circuits for processing RF signals in a digital manner, which are more versatile and advantageous in terms of noise, have been developed and applied. Broadcast stations that modulate and transmit broadcast signals to RF signals have recently produced signals in an analog manner.

Today, a mixture of analog and digital methods is used, and a combined tuner capable of processing both analog and digital RF signals is being developed.

The present invention provides an RF signal processing circuit that can be used as a combination of analog and digital methods.

The present invention provides a digital / analog tuner; A first micom and a second micom; An RF signal processing apparatus including a digital / analog tuner, and a communication line selection IC for selectively connecting the first microcomputer and the second microcomputer.

The present invention may further include a wiring connected between the second micom and the communication line selection IC so that the second micom controls the communication line selection IC.

In another aspect, the present invention provides a first wiring for connecting the digital / analog tuner and the communication line selection IC; A second wiring for connecting the communication line selection IC and the first microcomputer; Third wirings for connecting the first microcomputer and the second microcomputer; And a fourth wiring for connecting the communication line selection IC and the third wiring.

In addition, the present invention includes a first memory for storing the processing data of the first microcomputer; A second memory for storing processing data of the second microcomputer; A fifth wiring commonly connected to the first memory, the first micom, and the second wiring; And a sixth wire for connecting the second memory and the third wire.

The first to fifth wires may include at least two wires to transfer clock signals and data signals, respectively.

According to the present invention, even when a digital channel and an analog channel are alternately selected when driving an RF signal processing device having an analog / digital combined tuner, it is possible to solve the ownership problem of the tuner control. That is, even when the digital channel and the analog channel are selected alternately, there is no problem that the tuner is not normally controlled due to the time difference problem due to the change of ownership of the microcomputer, and there is no problem in the channel memory.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order to facilitate a person skilled in the art to easily carry out the technical idea of the present invention. do.

1 is a block diagram showing an RF signal processing apparatus for explaining the present invention.

Referring to FIG. 1, the RF signal processing apparatus includes a digital / analog tuner 10, a first memory 11, a first microcomputer 12, a second microcomputer 13, and a second memory 14. Include.

The digital / analog tuner 10 may process an RF signal input digitally and output a video signal and an audio signal, and may process an RF signal input in an analog manner and output a video signal and an audio signal. It is a tuner.

The first microcomputer 12 is for processing an analog signal processed by the digital / analog tuner 10, and the first memory 11 is for storing data processed by the first microcomputer 12. The second microcomputer 13 is for processing digital signals processed by the digital / analog tuner 10, and the second memory 14 is for storing data processed by the second microcomputer 13.

The first microcomputer 12 and the second microcomputer 13 are connected to the A3 and B3 terminals of the digital analog tuner 10 through the A2 and B2 terminals and the A1 and B2 terminals, respectively. The first microcomputer 12 and the first memory 11 are connected to each other through terminals A5 and B5 and terminals A6 and B6, respectively. The second microcomputer 13 and the second memory 14 are connected to each other through the A1 and B1 terminals and the A4 and B4 terminals, respectively. Each block is connected by two wires, one to transmit a communication clock and the other to transmit data.

However, by connecting the two microcomputers 12 and 13 and the analog-digital tuner 10 using one communication line, it is difficult to operate the two microcomputers effectively. One of the two microcomputers operates with ownership, and a time difference in a communication line may occur while the ownership is transferred to another microcomputer. In this assumption, the tuner may not be controlled normally.

The present invention is to prevent the above-mentioned problem by connecting the digital / analog tuner and the microcomputer using a communication line selection IC to the connection between the digital / analog tuner and the microcomputer. The use of a communication line selection IC enables simple and reliable control of the digital / analog tuner.

2 is a block diagram showing an RF signal processing apparatus according to a preferred embodiment of the present invention.

As shown in FIG. 2, the RF signal processing apparatus according to the present embodiment includes a digital / analog tuner 20, a first micom 22, a second micom 23, a first memory 21, and a second. A memory 24 and a communication line selection IC 30.

The digital / analog tuner 20 may process an RF signal input digitally and output a video signal and an audio signal, and may process an RF signal input in an analog manner and output a video signal and an audio signal. It is a tuner.

The first microcomputer 22 is for processing analog signals processed by the digital / analog tuner 20, and the first memory 21 is for storing data processed by the first microcomputer 22. The second microcomputer 23 is for processing digital signals processed by the digital / analog tuner 20, and the second memory 24 stores data processed by the second microcomputer 23.

The communication line selection IC 30 outputs a signal output from the digital / analog tuner to the A8 and B8 terminals or the A7 and B7 terminals.

The first microcomputer 22 and the second microcomputer 23 are connected to the first memory 21 through the A2 and B2 terminals, respectively. The second microcomputer 23 and the second memory 24 are connected to each other through the A1 and B1 terminals and the A4 and B4 terminals, respectively. The wirings L1 and L2 connect the A8 and B8 terminals of the communication line select IC 30, the A6 and B6 terminals of the first memory 21 and the A5 and B5 terminals of the first microcomputer 22, respectively. L5, L6).

The wirings L3 and L4 connect the A7 and B7 terminals of the communication line select IC 30 to the A1 and B1 terminals of the second microcomputer 23 and the A2 and B2 terminals of the first microcomputer 22. , L8) respectively. The wirings L9 and L10 connect the second microcomputer 23 and the second memory 24 through the A1 and B2 terminals and the B4 and A4 terminals. Here, there are two wires connecting each block, one for transferring data and the other for delivering a clock for data transmission. In addition, the wiring L11 connects the communication line selection IC 30 and the second microcomputer 23 using the S1 terminal and the S2 terminal.

When the RF signal processing apparatus of FIG. 2 processes a digital signal, a signal provided by the communication line selection IC 30 from the digital / analog tuner 20 is wired through the wiring L11 in the second microcomputer 23. Through (L1, L2) it can be delivered to the first microcomputer 22. The first microcomputer 22 controls the digital / analog tuner 20 through the wirings L1, L2, L7, and L8 and the communication line selection IC 30.

When the RF signal processing apparatus of FIG. 2 processes an analog signal, a signal provided from the digital / analog tuner 20 to which the communication line selection IC 30 is connected via the wiring L11 in the second microcomputer 23 is wired. Through (L3, L4) to be delivered to the second microcomputer (23).

FIG. 3 is a flowchart illustrating an operation of the RF signal processing apparatus shown in FIG. 2.

Referring to FIG. 3, the operation of the RF signal processing apparatus first reads channel selection information (32). It is then determined whether the digital channel is selected (33). Subsequently, when the digital channel is selected, the communication line selection IC 30 is connected to the A8 terminal with the A9 terminal and the B8 terminal is connected to the B9 terminal with the S1 terminal (34).

If the digital channel is not selected, the communication line selection IC 30 connects the A9 terminal to the A7 terminal and the B9 terminal is connected to the B7 terminal to the S1 terminal (36).

As described above, the RF signal processing apparatus according to the present embodiment is characterized in that the communication line selection IC 30 is added between the two microcomputers 22 and 23 and the digital / analog tuner 20. When the digital channel is selected, the digital / analog tuner 20 is connected to the first microcomputer 22 through the communication line selection IC 30, and when the analog channel is selected, the second microcomputer 23 is communicated. It is connected to the digital / analog tuner 20 through the line selection IC 30.

By operating in this manner, even when a digital channel and an analog channel are alternately selected when driving an RF signal processing device having an analog / digital combined tuner, it is possible to solve the ownership problem of the tuner control. That is, even when the digital channel and the analog channel are selected alternately, there is no problem that the tuner is not normally controlled due to the time difference problem due to the change of ownership of the microcomputer, and there is no problem in the channel memory.

Although the present invention has been described in detail with reference to exemplary embodiments above, those skilled in the art to which the present invention pertains can make various modifications to the above-described embodiments without departing from the scope of the present invention. Will understand. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims, as well as the appended claims.

1 is a block diagram showing an RF signal processing apparatus for explaining the present invention.

Figure 2 is a block diagram showing an RF signal processing apparatus according to a preferred embodiment of the present invention.

3 is a flow chart showing the operation of the RF signal processing apparatus shown in FIG.

Explanation of symbols on the main parts of the drawings

20: digital / analog tuner 21: first memory

22: micom 23: micom

24: second memory

Claims (5)

Digital / analog tuner; A first micom and a second micom; Communication line selection IC for selectively connecting the digital / analog tuner and the first microcomputer and the second microcomputer RF signal processing apparatus comprising a. The method of claim 1, And a wire connected between the microcomputer and the communication line selection IC so that the second microcomputer controls the communication line selection IC. The method of claim 1, First wiring for connecting the digital / analog tuner and the communication line selection IC; A second wiring for connecting the communication line selection IC and the first microcomputer; Third wirings for connecting the first microcomputer and the second microcomputer; And And a fourth wiring for connecting the communication line selection IC and the third wiring. The method of claim 3, wherein A first memory for storing the processing data of the first microcomputer; A second memory for storing processing data of the second microcomputer; A fifth wiring commonly connected to the first memory, the first micom, and the second wiring; And And a sixth wiring for connecting the second memory and the third wiring. The method of claim 4, wherein And the first to fifth wires each include at least two wires to transfer clock signals and data signals.

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