JP2593078B2 - Automatic sound quality adjustment device for RDS radio receiver - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Summary] A radio receiver that can receive RDS (Radio Data System) broadcasts, identifies the PTY (program type) code currently being received, automatically adjusts the sound quality, and adjusts the program type. Eliminates manual sound quality adjustment operations associated with changes.

[Industrial applications]

The present invention relates to an automatic sound quality adjusting device for a radio receiver that can receive an RDS broadcast.

[Conventional technology]

For RDS broadcasting, which multiplexes RDS data with FM broadcasting and transmits it, various codes included in the data are used. (1) A listener can easily search for a desired program in a short time. Yes, (2) the display of the "program service name" of the broadcasting station is possible. (3) The in-vehicle receiver has the advantages that a broadcast station name or the like can be announced by voice synthesis, and (4) only stations that broadcast a desired program such as "News" can be picked up.

[Problems to be solved by the invention]

Even with the RDS radio receivers described above, it is currently necessary to manually adjust the sound quality of bass, treble, graphic equalizer, etc. There is a disadvantage that it is difficult for the driver to adjust.

The present invention attempts to automatically set a pre-stored standard sound quality characteristic by identifying a PTY code indicating a program genre (program type) currently being received.

[Means for solving the problem]

The present invention provides an RDS decoder (12) for decoding RDS data of FM multiplex broadcasting from an output composite signal of an FM tuner (1), a RDS control computer (13) for processing the data, and A circuit (8) for adjusting the sound quality of the audio component, and a computer (10) for controlling the sound quality for controlling the circuit (8) are provided.
Y) Standard sound quality adjustment data is stored for each, and the PTY code output from the RDS control computer (13) is discriminated to select a corresponding one of the standard sound quality adjustment data, and the sound quality adjustment circuit ( The characteristic of 8) is to be automatically adjusted.

[Action]

Since the RDS radio receiver simultaneously receives the PTY code indicating the program type currently being received, storing the sound quality adjustment data suitable for the program type in advance in the computer for sound quality adjustment allows the PTY code currently being received to be received. The characteristics of the sound quality adjustment circuit can be automatically set using the code, and the manual sound quality adjustment accompanying the change of the receiving station becomes unnecessary.

〔Example〕

FIG. 1 is a configuration diagram of an RDS radio receiver showing one embodiment of the present invention. The FM tuner 1 is a PLL synthesizer system and has a microcomputer 2 for tuner control.
Supplies a frequency setting signal to a PLL (Phase Locked Loop) 3 to determine the tuning frequency. 4 is a receiving antenna, 5 is a display section for frequency and the like, and 6 is a switch for tuning and the like.

The composite signal received and demodulated by the FM tuner 1 is separated into left and right stereo signals by an audio circuit 7, and is reproduced by a speaker 9 through a sound quality adjustment circuit (a graphic equalizer in this example) 8. Here, the configuration of only one signal is shown. A microcomputer 10 for controlling the equalizer changes the characteristics of the equalizer 8 when an input from the switch 11 is received.

The RDS radio receiver features an RDS decoder 12 that decodes RDS data that is AM-modulated on 57KHz subcarriers contained in the composite signal.Based on the RDS data, the RDS control microcomputer 13 uses The point is that control can be achieved.

In the present invention, the PTY code used in the computer 13 is also sent to the computer 10 so that the characteristics of the equalizer 8 are automatically and optimally set by the computer 10 according to the program type. The PTY code is 5 bits,
Distinguish up to 32 different program types. However, some of them (Nos. 16 to 30) are currently undefined as shown in the table below.

The equalizer control computer 10 stores in advance a plurality of types of equalizing data for automatically setting the characteristics of the equalizer 8 so as to conform to the program type, and reads one of them in accordance with the PTY code.

The sound quality is corrected by shifting the sliding piece of the variable resistor VR in the circuit as shown in FIG. 2A (OP is an operational amplifier, L and C are inductances and capacitances that determine the center frequency fc) in the D or U direction. And the gain G of the frequency fc can be changed in the D or U direction as shown in FIG. The graphic equalizer 8 has a plurality of such circuits provided at different points in the audible frequency band.

Since it is difficult to directly control the sliding end of the variable resistor VR by the computer 10, an electronic control type sound quality correction circuit as shown in FIG. 3 will be considered. The circuit resistance _{R 0 ~R 2 R 0 = R} 1/2 = R 2/4 =
It has been weighted form of R, selected in series with their switches S ₀ to S ₂ is connected. Inverting input of the changeover switch S ₃ is an operational amplifier OP (-) and the feedback amount is connected to the side gain G in decreases and the frequency fc is increased. Gain G at the frequency fc the input amount and the changeover switch S ₃ to the contrary is connected to the non-inverting input (+) of the operational amplifier OP is decreased
Decrease. Selection switches S ₀ to S ₂ is used to set the change width of the gain G, if when you turn off all the switches S ₀ to S ₂ and gain G = 0, all the switches S ₀ to S ₂ When turned on and the combined resistance value of R _{0 to} R ₂ is minimized, the gain G becomes maximum in the positive or negative direction. Then, the ON switch S ₀ to S _2, the combination of off, can set stepwise the gain G at this time.

It is said that the normal sound quality correction only needs to have a variable width of ± 12 dB, so if the resistance value is set so as to give a variable amount of 1.714 dB per step, four switches S _{0 to} S ₃ can be used. It can be controlled by using 4-bit data. Table 2
The gain setting value and the switch data S ₃ to S ₀ shows this relationship. Incidentally, on at S ₀ to S ₂ is 1, indicates the off 0 and S ₃ is the right one shows the left side 0.

Incidentally, the switch data S ₀ to S ₃ described above, the gain setting value 0 + around the side, - because the side is a code property also increasing to either cumbersome when programming. So stored data leave a code that increases in one direction from the set value -7 Set value +7 as P ₀ to P _3, the zeroth
EX-NOR logic of the second bits P _{0 to} P ₂ and the third bit P ₃ (P ₃
= 0, inverted, P ₃ = 1, non-inverted)
Creating S _{0 to} S ₂ (S ₃ may be P ₃ ) is easier to handle.

Computer 10 stores in advance an optimum equalizing data (P ₀ to P ₃ to those set for each frequency point) for each program type. Then, in the example of a program type of equalizing the data (Table 2 and the appropriate PTY code from the computer 13 is input P ₀ ~
P ₃ ) is read from the memory, and is read out from the switch data (S ₀
SS ₃ ), and is given to the switches S _{0 to} S ₃ of the equalizer 8. FIG. 4 is a flowchart showing this processing.

〔The invention's effect〕

As described above, according to the present invention, an RDS broadcast-compatible radio receiver capable of receiving a PTY code indicating a program type currently being broadcast can be automatically adjusted to an optimal sound quality characteristic set in advance according to the received PTY code. Therefore, there is an advantage that it is not necessary to manually adjust the sound quality each time the reception frequency is changed or whenever the program is changed.

[Brief description of the drawings]

 FIG. 1 is a system configuration diagram of the present invention, FIG. 2 is an explanatory diagram of sound quality correction, FIG. 3 is a configuration diagram of an electronic control type sound quality adjustment circuit, and FIG.

Claims (1)

(57) [Claims] An RDS decoder (12) for decoding RDS data of an FM multiplex broadcast from an output composite signal of an FM tuner (1), a RDS control computer (13) for processing the data, and And a computer (10) for controlling the sound quality of the audio component of the program component (10). The computer (10) for controlling the sound quality is provided in advance for each program type (PT).
Y) Standard sound quality adjustment data is stored for each, and the PTY code output from the RDS control computer (13) is discriminated to select a corresponding one of the standard sound quality adjustment data, and the sound quality adjustment circuit ( 8) An automatic sound quality adjusting device for an RDS radio receiver, which automatically adjusts the characteristics of 8).