FR2797334A3 - Automatic on off switching of a Karaoke system has microprocessor system that responds to change of passive switch - Google Patents

Abstract

The system has a microphone plug, a microphone socket, a microprocessor, a store, a Karaoke processor circuit and a microswitch mounted in the microphone socket. The microprocessor (5) is connected to the Karaoke processor to provide a signal output to a loudspeaker system (9). Activation of the system is provided by inserting a the microphone plug (2) into a the microphone socket, to operate the switch (3), which has contacts coupled via a pull up resistor (R) to the microprocessor.

Description

The present invention relates to multimedia electronic applications and, more particularly, an audio device of the KARAOKE type.

KARAOKE, an entertainment that has been warmly welcomed and has proven to be very popular, has become an essential feature of audio devices since its appearance. Although the KARAOKE device has seen many developments between the initial configuration which included a circuit for eliminating the voice of the original interpreter and a microphone amplifier and the current configuration having a microprocessor control function, its circuits the main ones are the original performer's voice elimination circuit and a delayed reverb circuit. Recently, a lot of effort has been made to improve the sound effects of KARAOKE, which has resulted in big improvements in performance and a lot of new features. However, these many new features often confuse users. For example, when a KARAOKE system is turned on, a user has to manually adjust a large number of parameters such as volume, echo, treble and bass, microphone and frequency balance, reverberation, its tetraphonic and the like to obtain a good overall compromise. A sound professional is often essential to get the best out of KARAOKE commercial and professional systems. Unaccustomed to using the various buttons and keys on the device panel, ordinary users often find themselves in difficulty when trying to use them. On the other hand, KARAOKE's processing circuits include a large number of integrated circuits, resistors and capacitors, all of which will generate noise. In particular, when people listen to a piece of pure music, the unwanted sounds that mix with it, generated by a reverberation circuit, deteriorate the quality of the music played. When measured using special equipment, a certain amount of repetitive return waves and harmonic waves are detected. Consequently, a specific KARAOKE switch is usually placed on the power amplifier with the KARAOKE function, the KARAOKE circuit being activated to operate only when said switch is on "closed". The KARAOKE circuit must be "deactivated" when music is played.

The present invention relates to an automatic activation / deactivation device for KARAOKE making it unnecessary to adjust the parameters.

An automatic activation / deactivation device for KARAOKE according to the present invention comprises a male microphone plug, a female microphone plug, a microprocessor, a memory and a KARAOKE processing circuit. The microphone signal is applied to said KARAOKE processing circuit via said male microphone plug and said female microphone plug, and is output via a loudspeaker after being synthesized and amplified by the KARAOKE processing circuit. A microswitch is integrated into the female microphone plug. One end of the microswitch is connected to ground and the other end is connected to both a pull-up resistor and the I / O port of the microprocessor. Alternatively, a first end of the microswitch is located at a high level, while the other end is connected both to a low pull-up resistor and to the I / O port of the microprocessor. Inserting the male microphone plug into the female plug causes the microswitch to change state. The level of the microprocessor I / O port will change in real time correspondingly. A pulse induced by the change causes the microprocessor to start the execution of the KARAOKE program contained in the memory. The microprocessor outputs a large number of control signals so as to control the KARAOKE processing circuit for the execution of the program. When the male microphone plug is removed, the state of the microswitch built into the female microphone plug changes again and the level of the microphone I / O port changes accordingly. A pulse induced by the change causes the microprocessor to immediately deactivate the KARAOKE circuit. Thus, the system ends the KARAOKE mode.

Because the microswitch is integrated into the female microphone plug, and because one end of the microswitch is at ground level and the other end is at a high level, the change of state caused by the plugging / unplugging the microphone results in a change in level of the microprocessor's I / O port. The change of state may cause the microprocessor to activate / deactivate the KARAOKE and to automatically adjust various parameters appropriately. In this way, the operation can take place in a completely intelligent manner.

We will now describe the present invention, by way of example only, with reference to the accompanying drawings in which - Figure 1 is a block diagram illustrating the operating principle of a first embodiment, - Figure 2 is a block diagram illustrating the operating principle of a second embodiment, and - Figure 3 is a block diagram illustrating the operating principle of a third embodiment. We will now explain in detail the principle of the present invention with reference to preferred embodiments and with reference to the drawings. Identical elements among the respective embodiments will be described only once.

We will now describe a first embodiment.

Referring to FIG. 1, a K1 "often-OPEN" switch is integrated into the female microphone plug 3. A first end of the switch K1 is connected to ground and the other end is connected to the I / O port. S of the microprocessor 4. In addition, a high excursion resistor R is mounted between the end connected to the I / O port and the power supply V, If the male microphone plug 2 is inserted in the microphone plug female 3, the switch Kl closes under the pushing action of the male plug 2. The level of the I / O port of the microprocessor 4 changes from "high" to "ground". A pulse induced by the level change causes the microprocessor 4 to extract from the EEPROM 7 the integrated KARAOKE program and to decode, identify and process the program. Various control signals intended for the execution of the program are sent to the processing circuit of KARAOKE 5 to start and control the respective circuits, such as a circuit for eliminating the voice of the original interpreter, a circuit for sound processing, a delayed reverberation circuit, a balancing circuit, a tetraphonic sound circuit, a retransmission and sound accompaniment circuit, etc. At the same time, all the parameters are displayed on screen 6. The integrated KARAOKE program has the optimal configuration determined by the parameters memorized in advance, such as volume, sound field, microphone volume, microphone balance and frequency balance, etc. The voice signals of the singer, entered from the microphone, are sent to the KARAOKE processing circuit via the male microphone plug 2 and the female microphone plug 3 and this to be synthesized there s and amplified. Then, the resulting signals are output via speaker 9. When the male microphone plug is removed, the "often-OPEN" switch built into the female microphone plug is open. The microprocessor I / O port returns to the high level. A pulse induced by the level change causes the microprocessor to immediately deactivate the KARAOKE processing circuit and ends the KARAOKE mode.

The conventional keys 8 are still present on the system mentioned above so as to allow the users to adjust the parameters using the keys according to their wishes. In this case, the command is processed by the microprocessor 4. A plurality of parameter setting modes can be stored in the EEPROM 7, which can be easily retrieved by the microprocessor.

We will now describe a second embodiment.

Referring to Figure 2, the switch integrated into the female microphone plug 3 is a switch K2 "often-CLOSED". Similarly, a first end of the switch K2 is connected to ground and the other end is connected to both a high pull-up resistor R and to the I / O port of the microprocessor 4. A relief is formed on the contact blade of switch K2. When the male microphone plug 2 is inserted into the female microphone plug 3, the latter presses on the relief and causes the contact blade to tilt. Consequently, the level of the I / O port of the microprocessor 4 immediately changes from the ground level to a high level. A pulse induced by the level change causes the microprocessor 4 to start the execution of the KARAOKE program. When the male microphone plug is removed, the K2 switch built into the female microphone plug is closed. Therefore, the microprocessor's I / O port picks up the ground level. A pulse induced by the level change causes the microprocessor to immediately deactivate the KARAOKE processing circuit and ends the KARAOKE mode.

We will now describe a third embodiment.

Referring to FIG. 3, the switch integrated into the male microphone plug 3 is a magnetic switch with flexible blades K3. the dimensions of the switch are so small that a weak magnetic force is enough to cause the two contact blades to attract each other. A first end of the magnetic reed switch K3 is connected to the high level V, c and the other end is connected both to a low pull-up resistor R 'and to an I / O port of the microprocessor 4. A small piece of magnetic material can be embedded in the male plug 2. Alternatively, the entire male plug 2 can be magnetized. When the male microphone plug 2 is inserted into the female microphone plug 3, the magnetic force induced by the male microphone plug causes the contact blades of the flexible blade magnetic switch K3 to attract each other. The level of the microprocessor 4 I / O port immediately changes from the ground level to a high level. A pulse induced by the level change causes the microprocessor 4 to start the execution of the integrated KARAOKE program. When the male microphone plug is removed, the contact blades of the K3 switch separate. The microprocessor's I / O port takes the ground level. A pulse induced by the level change causes the microprocessor to immediately deactivate the KARAOKE processing circuit and automatically ends the KARAOKE mode.

From the above description, it can be seen that when the microphone is connected, the system recognizes that the users wish to use the KARAOKE. The system then goes into KARAOKE mode and automatically launches a sequence of procedural commands. Keyboard operations that are complicated to perform by hand can thus be avoided by adding such an intelligent function. On the other hand, once the male microphone plug 2 has been removed, a pulse induced by the level change on the I / O port of the microphone 4 automatically ends the KARAOKE mode.

Claims (6)

1. Automatic activation / deactivation device for KARAOKE, characterized in that it comprises a male microphone plug (2), a female microphone plug (3), a microprocessor (4), a memory (7), a KARAOKE processing circuit (5), and a microswitch mounted on said female microphone plug (3), a first end of the microswitch being connected to ground and the other end being connected both to a high excursion resistance (R) and to the I / O port of said microprocessor (4), or a first end of said microswitch being located at the high level, while the other end is connected both to a low excursion resistance (R ' ) and to the microprocessor I / O port. 2. Automatic activation / deactivation device for KARAOKE according to claim 1, characterized in that said microswitch is an often-OPEN switch (K1). 3. Automatic activation / deactivation device for KARAOKE according to claim 1, characterized in that said microswitch is an often-CLOSED switch (K2). 4. Automatic activation / deactivation device for KARAOKE according to claim 1, characterized in that said microswitch is a magnetic switch with flexible blades (K3). 5. Automatic activation / deactivation device for KARAOKE according to any one of claims 1, 2, 3, 4, characterized in that said KARAOKE processing circuit (5) is selected from the group comprising an elimination circuit from the voice of the original performer, a sound processing circuit, a delayed reverberation circuit, a balancing circuit, a tetraphonic sound circuit, or a retransmission and sound accompaniment circuit. 6. Automatic activation / deactivation device for KARAOKE according to any one of claims 1, 2, 3, 4, characterized in that said memory (7) is an EEPROM memory.