KR0129600B1 - An automatic tunning method of broadcasting receiver - Google Patents

Abstract

The present invention relates to an automatic tuning method of a broadcast receiver. In particular, the same broadcast station with the best reception status is automatically stored when the entire AF list is stored in the memory of the PLL receiver and the electric field strength of the currently listening station is reduced and the reception status is poor. By allowing them to be tuned, the reliability of the product can be greatly improved by eliminating the need for consumers to find the same broadcasting stations that vary from region to region when driving long distances by car.

Description

Automatic Tuning Method of Broadcast Receiver

1 is a block diagram of an automatic tuning device of the present invention.

2 is a flowchart for explaining the method of the present invention.

3 is a graph showing the alignment time according to the signal size.

* Explanation of symbols for main parts of the drawings

1: RF receiver 2: IF amplifier

3: Phase lock loop (PLL) section 4: Low pass filter

5: microcomputer 6: memory means

The present invention relates to an automatic tuning method of a broadcast receiver. In particular, when the reception sensitivity of a broadcasting station being listened to is lowered while driving a car equipped with a car stereo, the good broadcasting station can be automatically tuned quickly. An automatic tuning method of a broadcast receiver.

Conventionally, a radio station transmits predetermined information from a broadcasting station through a so-called radio data system (aka RDS), and the receiver is configured with an RDS receiver that automatically tunes using an RDS-based AF (Alternative Frequency) list. have.

In other words, when a broadcasting station transmits digital information together with a voice signal, the receiver decodes the digital information to realize a so-called RDS operation.

On the other hand, RDS is a system that is mainly used in Europe, and transmits a lot of information in addition to the information for the automatic tuning function. This requires a large amount of memory space, which is almost impossible in reality.

An object of the present invention is to store a whole AF list in an arbitrary memory and check the electric field strength of the broadcasting station that is currently listening to, and to always compare with the electric field strength of other transmitting frequencies, which are the same broadcast stations, to always have a good reception sensitivity. It is to provide an automatic tuning method of a broadcast receiver to be automatically switched.

As shown in FIG. 2, the method of the present invention stores a first step S1 of grouping and storing a plurality of different broadcast frequencies corresponding to each of the receivable broadcast stations, and the first step S1. A second step (S2) of receiving by using a broadcasting frequency of any one broadcasting station, an electric field intensity of another broadcasting frequency corresponding to any one broadcasting station of the second step (S2), and an electric field of the broadcasting frequency currently being received; And a fourth step S4 of comparing strengths and a fourth step S4 of automatically switching to another broadcasting frequency and tuning according to the comparison result of the third step S3.

When described with reference to Figure 1 the effect of the present invention as follows.

First, as a memory used in the present invention, a memory means (RAM) 6 connected to the microcomputer 5 stores the transmission frequency list of each broadcasting station in hexahed code (HEX), and stores them in advance. It takes 8 bits per station.

In this way, if the transmission frequency of a broadcasting station is stored in units of 8 bits, about 1,200 frequency lists can be stored when using the memory means (RAM) 6 of 1M bits, so that all the broadcasting stations received in Korea can be sufficiently covered. do.

That is, in the case of the MBC broadcasting station, for example, the transmission frequency of all MBC networks in Korea is already grouped, and the signal level level output from the IF amplifier 2 through the analog / digital port A of the microcomputer 5 is output. (I.e., a direct current voltage corresponding to the magnitude of the time signal), the transmission frequency can be tuned and fixed to the frequency at which the highest signal magnitude level is obtained.

The tuning method for each frequency uses the same method as the conventional PLL processing method, and the microcomputer 5 transmits the frequency data to the PLL unit 3 so that the phase difference, i.e., the error output (Eo), is transmitted from the PLL unit. ) Signal can be detected, and the received low pass filter 4 converts the error signal into a predetermined DC voltage Vt and applies it to the RF receiver 1.

Therefore, the RF receiver 1 determines the resonant frequency by the DC voltage Vt output from the low pass filter 4 and tunes to the transmission frequency of a predetermined broadcasting station, thereby becoming a typical PLL type receiver.

Referring to this in more detail based on FIG. 2, the microcomputer 5 measures, via the ADI port, how much the signal size (CSD) of the currently tuned broadcasting station is at a predetermined time.

Using the measured signal size value, an arbitrary alignment time function f (ts) proportional to the CSD is calculated. In practice, the larger the CSD value, the larger the timer value.

In the present invention, this timer is named as the alignment time, and its use is a time for setting a period required for checking the signal size of other frequencies while listening to the broadcast contents of the currently tuned station.

If the alignment time function satisfies the condition of the alignment start time, the microcomputer 5 transmits another broadcast frequency AF to the PLL unit 3 and detects the AF magnitude.

In this case, the reason for muting the output before transmitting the other broadcasting frequency to the PLL unit is to prevent the output of the noise signal generated when tuning to another broadcasting station. Set the mute time and allow the sorting process to complete within this mute time.

In addition, when the SD check of the entire AF list is completed by repeating the process of sorting the corresponding AF memory by the signal size SD, the switching time function f ( t _sw )), and the PLL process compares the other frequency signal size (AFSD) with the signal size (CSD) of the current tuning frequency.

As a result, if the other frequency signal size (AFSD) is larger than the CSD, switching to AF is performed. Since this process is continued while listening to the broadcasting, AF which is larger than the signal size of the broadcasting station currently being listened to is automatically switched. It can be.

Accordingly, the automatic tuning method of the broadcast receiver stores all broadcast frequencies that can be tuned to each of the existing broadcast stations, and receives the broadcasts at a broadcast frequency corresponding to any one of the broadcast stations tuned by user selection. If the electric field strength of the current broadcasting frequency is the same and less than the electric field strength when received by another broadcasting frequency, the broadcasting frequency is automatically switched to select the broadcasting frequency having the best electric field strength for the same broadcasting station and automatically tune to it. .

On the other hand, Figure 3 shows the size of the signal versus the alignment time or the AF switching time, it can be seen that the smaller the signal size, the faster the size of the other broadcast is checked or AF switching.

In this case, the AF alignment means that when listening to the current broadcasting station, the signals of other AFs are checked in advance, and the size of each AF signal level is aligned in advance. Refers to a processor.

Therefore, the main point of AF alignment is to be able to compare the respective AF sizes within a short time that the consumer does not feel, and the shorter the time, the better the receiver can be implemented.

As described above, according to the present invention, by storing all the AF list in an arbitrary memory and checking the electric field strength of the broadcasting station being listened to at any time, the same broadcast station having the best reception condition is automatically tuned, so that the long-distance using a car can be tuned. When driving, consumers don't have to find the same stations that change from region to region, greatly improving the reliability of the product.

Claims (1)

A first step S1 of grouping and storing a plurality of different broadcast frequencies corresponding to each of the receivable broadcast stations, and receiving using the broadcast frequencies of any one of the broadcast stations stored in the first step S1. A third step S3 of comparing the electric field strength of another broadcasting frequency corresponding to any one broadcasting station of the second step S2 with the electric field strength of the broadcasting frequency currently being received; And a fourth step (S4) of automatically switching to another broadcasting frequency and tuning according to the comparison result of the third step (S3).